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Permit M18-0061 - FOSTER HIGH SCHOOL - BOILER REPLACEMENT, HVAC EQUIPMENT, DUCTWORK, AIR TERMINALS
FOSTER HIGH SCHOOL 4242 S 144TH ST APN: 1523049108 EXPIRED 03/02/2021 M18-0061 Parcel No: Address: , City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Inspection Request Line: 206-438-9350 Web site: http://www.TukwilaWA.gov MECHANICAL PERMIT 1523049108 Permit Number: M18-0061 4242 S 144TH ST Project Name: FOSTER HIGH SCHOOL Issue Date: 1/30/2019 Permit Expires On: 7/29/2019 Owner: Name: Address: Contact Person: Name: Address: Contractor: Name: Address: License No: Lender: Name: Address: TUKWILA SCHOOL DISTRICT 4640 S 144TH ST, TUKWILA, WA, 98168 JEFF FEENEY 906 COLUMBIA ST SW, STE 400 , OLYMPIA, WA, 98501 PAC WEST MECHANICAL LLC 30336 THOMAS RD SE , KENT, WA, 98042 PACWEWM960B9 I11 Phone: (360) 352-8883 Phone: (253) 638-2990 Expiration Date: 1/29/2020 DESCRIPTION OF WORK: REPLACE BOILER PLANT EXCEPT FOR ONE BOILER AND BOILER PUMP. PROVIDE NEW CHILLER AND CHILLER PLANT. PROVIDE NEW HVAC EQUIPMENT FOR REMODEL AREAS. REPLACE DUCTWORK AND AIR TERMINALS AS NEEDED. PROVIDE NEW HVAC EQUIPMENT, DUCTWORK, AND AIR TERMINALS FOR ADDITION. Valuation of Work: $5,800,000.00 Type of Work: REPLACEMENT Fuel type: GAS Fees Collected: $53,096.85 Electrical Service Provided by: SEATTLE CITY LIGHT Water District: 125 Sewer District: VALLEY VIEW,TUKWILA Current Codes adopted by the City of Tukwila: International Building Code Edition: International Residential Code Edition: International Mechanical Code Edition: Uniform Plumbing Code Edition: International Fuel Gas Code: Permit Center Authorized Signature: 2015 2015 2015 2015 2015 1,0;ju- National Electrical Code: WA Cities Electrical Code: WAC 296-46B: WA State Energy Code: ‘c.)) 2017 2017 2017 2015 Date: ' �� I hearby certify that I have read and examined this permit and know the same to be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating construction or the performance of work. I am authorized to sign and obtain this development permit and agree to th nditions attached to this permit. L� I Signature-�f-� --' � _—_--rte 11/ �'-''- _ _, Date: / `3° Print Name: This permit shall become null and void if the work is not commenced within 180 days for the date of issuance, or if the work is suspended or abandoned for a period of 180 days from the last inspection. PERMIT CONDITIONS: 1: The attached set of mechanical plans have been reviewed by The Tukwila Fire Marshals Office and are acceptable with the following concerns: 2: H.V.A.C. units rated at greater than 2,000 cfm require auto -shutdown devices. These devices shall be separately zoned in the alarm panel and local U.L. central station supervision is required. (City Ordinance #2437) 3: H.V.A.C. systems supplying air in excess of 2,000 cubic feet per minute to enclosed spaces within buildings shall be equipped with an automatic shutoff. Automatic shutoff shall be accomplished by interrupting the power source of the air -moving equipment upon detection of smoke in the main return -air duct served by such equipment. Smoke detectors shall be labeled by an approved agency for air -duct installation and shall be installed in accordance with the manufacturer's installation instructions. (IMC 606.1, 606.2.1) 4: Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #2437) 5: Duct detectors shall send a supervisory signal only upon activation. (City Ordinance #2437) 6: All new fire alarm systems or modifications to existing systems shall have the written approval of The Tukwila Fire Prevention Bureau. No work shall commence until a fire department permit has been obtained. (City Ordinance #2437) (IFC 901.2) 7: An electrical permit from the City of Tukwila Building Department Permit Center (206-431-3670) is required for this project. 8: Contact The Tukwila Fire Prevention Bureau to witness all required inspections and tests. (City Ordinances #2436 and #2437) 9: Any overlooked hazardous condition and/or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. 10: These plans were reviewed by Inspector 511. If you have any questions, please call Tukwila Fire Prevention Bureau at (206)575-4407. 11: ***MECHANICAL PERMIT CONDITIONS*** 12: All mechanical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center (206/431-3670). 13: All permits, inspection record card and approved construction documents shall be kept at the site of work and shall be open to inspection by the Building Inspector until final inspection approval is granted. 14: Manufacturers installation instructions shall be available on the job site at the time of inspection. 15: Except for direct -vent appliances that obtain all combustion air directly from the outdoors; fuel -fired appliances shall not be located in, or obtain combustion air from, any of the following rooms or spaces: Sleeping rooms, bathrooms, toilet rooms, storage closets, surgical rooms. 16: Equipment and appliances having an ignition source and located in hazardous locations and public garages, PRIVATE GARAGES, repair garages, automotive motor -fuel dispensing facilities and parking garages shall be elevated such that the source of ignition is not less than 18 inches above the floor surface on which the equipment or appliance rests. / 1 PERMIT INSPECTIONS REQUIRED Permit Inspection Line: (206) 438-9350 1400 FIRE FINAL 0703 MECH EQUIP EFF 1800 MECHANICAL FINAL 0609 PIPE/DUCT INSULATION 0701 ROUGH -IN MECHANICAL 0702 SMOKE DETECTOR TEST CITY OF TUKWILA Community Development Department Permit Center 6300 Southcenter Blvd., Suite 100 Tukwila, WA 98188 http://www.TukwilaWA.gov MECHANICAL Applications and plans must be Applications will not Mechanical Permit No. Mn ' VVo l Project No. t�, [9, Date Application Accepted: q '{ Date Application Expires: l f \4 I (For office use v 1/y) PERMIT APPLICATION complete in order to be accepted for plan review. be accepted through the mail or by fax. **please print** SITE LOCATION Site Address: 424'l44. Wear r King Co Assessor's Tax No.: tS2;30491o804- Tenant Name: :M oNscol L. Suite Number: u%k Floor: PROPERTY OWNER Name: 3r41v,ftevey 7 Address: cob aYP+ • slum4 Name: itwAttibieetaria,, Qa Phone:,1'(— .F j 184i.3 Fax: (VvA Ne 406, Address: .5. l + 1" City: City: Tuipmai State: wit Zip: .39114 CONTACT PERSON — person receiving all project communication Name: 3r41v,ftevey 7 Address: cob aYP+ • slum4 City: ©(j,m State: W1 Zip:git Phone:,1'(— .F j 184i.3 Fax: (VvA EmaiL,)effi` ellati a kvilb-anent t-5.cA4+ New Tenant: 0 Yes.. No MECHANICAL CONTRACTOR INFORMATION Company Name: .4ga �+ Address: City: State: Zip: Phone: Fax: Contr Reg No.: Exp Date: Tukwila Business License No.: Valuation of project (contractor's bid price): $ 5,9eYC), 6)OC2 Describe the scope of work in detail: PeVt,,Are gotbedk r occepr retf2.Oke en 4 .Vtl f.a f U . fociice 1464v colt..iL isle. # O Cid lu r Pt.4tt-. P O.I tpE istrAtt, 4W EUtl*rjrfeta aopt.,"*As la Cru �r c MIL 1 1wkth AS tr l�/t o. Plow 4 ar �lioi euotOP , A-LbO MR, rircrtikrAL5 rvit. Use: Residential: New 0 Replacement Commercial New Replacement Fuel Type: Electric 0 Gas Other: HAApplicationslrutns-Applications On I.,nc12016 Apphcalions‘Mcchamcal Permit Appticannn Revised I-A-16.docx Revised. lanumy 2610 bh Pagc 1 ot'2 Indicate type of mechanical work being installed and the quantity below: Unit Type Qty Furnace <100k btu 0 Furnace >100k btu a Floor furnace o Suspended/wall floor mounted heater 10 Appliance vent 2' Repair or addition to heat/refrig/cooling system l Air handling unit .y <10.000 elm t Unit Type Qty Air handling unit n >10,000 cfm 25; Evaporator cooler Q Ventilation fan connected to single duct O Ventilation system 4 Hood and duct II Incinerator - domestic O Incinerator- �ry comm/industrial (/ Unit Type Qt Fire damper n Diffuser 25; Thermostat e"t Wood/gas stove O Emergency generator 4 Other mechanical equipment 37 60 dB(A) 65 dB(A) Boiler/Compressor Qty 0-3 hp/100,000 btu 1 3-15 hp 500,000 btu D 15-30111)/1,000.000 btu ttO 30-50 hp, 1,750,000 btu 0 50+ hp/1,750,000 btu 4 57 dB(A) 47 dB(A) 60 dB(A) 65 dB(A) Noise• Mechanical units need to be in compliance with the Tukwila Noise Code. Maximum permissible sound levels are based on from where the sound is created and where the sound is heard. Additionally, it`sound can be heard from within a house at night in a residential zone it may not be allowed. For more details, scc TMC 8.22 *Daytim District of Sound Producing Source District of Receiving Property Residential, Daytime* Residential, Nighttime Commercial Industrial Residential 55 d13(A) 45 dB(A) 57 d13(A) 60 df3(A) Commercial 57 dB(A) 47 dB(A) 60 dB(A) 65 dB(A) Industrial a mn•,n� 7 A A,r I A1)1 .r n l.,.-.1.....1. 60 dB(A) -_-. _,_ .- , ,.... 50 dB(A) ... _• - 65 dB(A) 70 dB(A) A few sounds arc exempt from the noise code, including: - Warning devices: • Construction and property maintenance during the daytime hours (lam -I Opm): • Testing of backup generators during the day. PERMIT APPLICATION NOTES - Value of construction - in all cases, a value of construction amount should be entered by the applicant. This figure will he reviewed and is subject to possible revision by the permit center to comply with current fee schedules. Expiration of plan review - applications for which no permit is issued within 180 days following the date of application shall expire by limitation. The building official may grant one extension of time for additional periods not to exceed 91) days each. The extension shall he requested in writing and justifiable cause demonstrated. Section 105.3.2 International Building Code (current edition). I HEREBY CERTIFY Ti IAT 1 HAVE READ AND EXAMINED TI IIS APPLICATION AND KNOW TIIE SAME TO 13E TRUE UNDER PENALTY OF PERJURY BY TI IE LAWS OF TIIE STATE OF WASIIFNGTON. AND t AM AUTI IORIZED TO APPLY FOR THIS PERMIT. BUILD(( OW OR UTHORIZED AGENT: Signat e ► Date:4251245 Print i amc: !a�ll>!` I W Q • inAGA11YJr�' �7�►'1 V1. Day Telephone: 55141 Maili Address ` NE -)SP A'( $' 'to, 1 g4, iNfk aD 11 ,Apphcalrons'tromn•Applirulnns On I.1n0241l4 \pnbcaunns Mcehmncal Pain Apphuuon Rcvncd 1-.1.1h.dnrz Rcvucd. Linn. y 1016 bh City Slate Zip Page 2 ol 2 DESCRIPTIONS i PermitTRAK ACCOUNT QUANTITY PAID $42,885.92 M18-0061 Address: 4242 S 144TH ST Apn: 1523049108 $42,885.92 MECHANICAL $40,843.73 PERMIT ISSUANCE BASE FEE R000.322.100.00.00 0.00 $33.15 PERMIT FEE R000.322.100.00.00 0.00 $40,810.58 TECHNOLOGY FEE $2,042.19 TECHNOLOGY FEE TOTAL. FEES PAID BY RECEIPT: R16215 R000.322.900.04.00 0.00 $2,042.19 $42,885.92 Date Paid: Friday, December 21, 2018 Paid By: TUKWILA SCHOOL DISTRICT Pay Method: CHECK 98403 Printed: Friday, December 21, 2018 1:46 PM 1 of 1 SYSTEMS :-1 r 1 Registers, City of Tukwila eceipt Number R14444 DESCRIPTIONS ACCOUNT PermitTRAK QUANTITY PAID $153,383.40 D18-0140 Address: 4242 S 144TH ST Apn: 1523049108 $142,609.88 DEVELOPMENT $142,609.88 PLAN CHECK FEE R000.345.830.00.00 0.00 I $105,636.95 STRUCTURAL CONSULTANT R000.345.830.01.00 0.00 $36,972.93 M18-0061 Address: 4242 S 144TH ST Apn: 1523049108 $10,210.93 MECHANICAL k $10,210.93 PLAN CHECK FEE R000.322.102.00.00 0.00 $10,210.93 PG18-0068 Address: 4242 S 144TH ST Apn: 1523049108 $562.59 GAS $42.71 PLAN CHECK FEE R000.322.103.00.00 0.00 $42.71 PLUMBING $519.88 PLAN CHECK FEE R000.322.103.00.00 0.00 $519.88 ProjectTRAK $11,934.30 A18-0006 Address: 4242 S 144TH ST BLDG 1 Apn: 1523049108 $3,147.90 TECHNOLOGY FEE $149.90 TECHNOLOGY FEE R000.322.900.04.00 0.00 $149.90 VARIANCE $2,998.00 ZONING R000.345.810.00.00 0.00 $2,998.00 118-0037 Address: 4242 S 144TH ST BLDG 1 Apn: 1523049108 $4,322.85 SHORELINE $4,117.00 CONDITIONAL USE R000.322.100.00.00 0.00 $4,117.00 TECHNOLOGY FEE $205.85 TECHNOLOGY FEE R000.322.900.04.00 0.00 $205.85 118-0038 Address: 4242 S 144TH ST BLDG 1 Apn: 1523049108 $4,463.55 DESIGN REVIEW $4,251.00 PUBLIC HEARING R000.345.810.00.00 0.00 $4,251.00 TECHNOLOGY FEE $212.55 TECHNOLOGY FEE 1 R000.322.900.04.00 I 0.00 $212.55 TOTAL FEES PAID BY RECEIPT: R14444 $165,317.7 0' Date Paid: Tuesday, May 08, 2018 Paid By: TUKWILA SCHOOL DISTRICT Pay Method: CHECK 97173 Printed: Monday, May 07, 2018 5:08 PM 1 of 1 � L1 / L f SYSTEMS Lighting Summary LGT-SUM 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2, R3, R4 over 3 stones and all R1 Revised July 2016 Project Info Compliance forms do not require a password to use. Instructional and calculating cells are wife-' protected. Project Title: 1 - FOSTER HIGH SCHOOL Date 7/1/2016 Applicant Information. Provide contact information for individual inho can respond to inquiries about compliance form information provided. For Building Department �' Use ( Company Name: BCE Engineers Company Address: 6021 12th St East Suite 200 Applicant Name: Henry Santos _ Applicant Phone: 253-922-0446 t _i Applicant Email: henry.santos@bceengineers.com Project Description with lighting complliance • New Building rr Addition t' Alteration • Plans Induded Include PROJ-SUM form (included in envelope forms workbook) forms. Building Additions Refer to Section C502.2.6 for additional requirements. Compliance Method Lighting systems in addition area comply with all applicable provisions as a stand alone new construction project Lighting systems in addition are combined with existing building lighting systems to demonstrate compliance Addition is combined with existing: For interior lighting projects, include new + existing interior Lighting Wattage table in LTG -INT -BLD or LTG -INT -SPACE For exterior lighting projects, include new + existing exterior Tradable and Proposed Non -Tradable Lighting Wattage tables ! Interior lighting i13E € wattage wattage form. Exterior lighting M • • lighting fixture form. lighting fixture in LTG -EXT in Proposed in Proposed Interior Lighting Select Control of the combination 50% in some fixtures provide compliance conditions. type lighting Refer requirements. All commissionedperC408.3. and Exterior Alterations all Lighting Power and Lighting elements that applyto the scope retrofit project. If project includes a of spaces where less than of the existing fixtures are replaced spaces, and 50% or more of the are replaced in others, then separate lighting power forms for the two retrofit Spaces undergoing the same of retrofit may be combined into one power compliance form. to Section C503.6 for additional ' alteration lighting controls shall be No changes are being made to the interior or exterior lighting Lighting Power 50% or more of existing are replaced Less than 50% of existing are replaced -------------- Lamp and/or ballast replacement only — existing total wattage not increased 50% or more replaced - Total lighting total LPA per Sections C405.4.2 and C405.5.2. Proposed Lighting Wattage table in LTG Less than 50% replaced - Total lighting the total lighting power prior to alteration. Lighting Wattage table in LTG -INT -BLD, 50% threshold applies to numberof luminaires installed wettage for exterior luminaires. Interior lighting F Parking garage fixtures -EXT fixtures fixtures garages, Exterior lighting tr ■ E rr i • • i ■ 0 -to -remain + existing -to -remain -SPACE or LTG -to -remain -to -remain LTG -EXT form. spaces and parking M M power of new + existing Include new -INT -BLD, LTG -INT power of new + existing Include new + existing LTG -INT -SPACE or for interior shall comply with fixtures in form. shall not exceed in the Proposed and total Lighting Controls _._.__.__...._...--..._...___--__._-.______.___._......._..._.___, New wiring installed to serve added fixtures and/or fixtures relocated to new circuit(s) Interior lighting ? Parking garage ! Exterior lighting fr, M New or moved lighting panel ■ E ■ ■ Interior space is reconfigured - luminaires unchanged or relocated • New wiring or circuit - For interior lighting, provide required manual controls per C405.2.3, occupancy sensor controls per C405.2.1, daylight responsive controls per C405.2.4 and application specific lighting controls per C405.2.5. For exterior lighting, provide required controls per C405.2.7. New or moved panel - Provide all applicable lighting controls as noted for New wring and automatic time switch controls per C405.2.2. Reconfigured interior space - Provide all required lighting controls that apply to a new interior space. Application specific lighting control provisions per C405.2.5 do not apply to reconfigured st usC���t CODE COMPLIANCE C : r}ge (gVgD l NOV 2 9 2018 areas under -going a change in sl�cseiU�li6�raded to types per Tables C40Opryo 2 'D��`R�ViL�, to the current Code in Proposed Lighting Wattage form. i 1 i1 0 4 2111R • Existing interior lighting systems in comply with LPA5 for the new space Identify interior spaces requiring LPD upgrade table in LTG -INT -BLD or LTG -INT -SPACE 00 City of Tukwila BUILDING DIVISION PERMIT CENTER 1\11t 00 01 Lighting Summary, cont. LGT-SUM 2015 Washington State Energy Code Compliance Forms for Commercial Buildings induding R2, R3, R4 over 3 stories and all R1 Revised July 201 Project Title: 1 - FOSTER HIGH SCHOOL Date 7/1/2016 Interior Lighting System Description Interior Lighting Power Allowance Method • Building Area Method tri Space -by -space Method Select method used in project. Interior Lighting Controls 1► All C405.2.1 - C405.2.8 Controls • C405.2 Exception 5 Luminaire Level Lighting Control (LLLC) • Additional Efficiency Package Option C406.4 Enhanced digital lighting controls To comply vtith C406.4, no less than 90% of the total installed interior lighting poster shall comply wth required controls per C406.4. Dwelling Unit Interior Lighting Permanently installed interior lighting fixtures in duelling units comply wth: 40 0C405.2 thru C405.5 Commercial Lighting Controls and LPA 0C406.3 High Efficacy Lighting 0 Exterior Lighting System Description a 9 q " a Interior Lighting - Space -By -Space Method LTG -INT -SPACE 2015 Washington State Energy Code Compliance Fomes for Commercial Buildings including R2, R3, R4 over 3 stories and all R1 Revised July 2016 Project Title: 1 - FOSTER HIGH SCHOOL Date 7/1/2016 Calculation Area NOTES 0 0 Addition - • Addition stand alone + existing O Spaces where < 50% of O Spaces where > 50% of O luminaires are replaced luminaires are replaced For Building Department Use LPA Calculation Type 0 Standard • Additional Efficiency Package Option 0 C406.3 Reduced Interior Lighting To comply with C406.3, the Proposed LPD shall be 25% loftier than the Target LPA. Refer to C406.3 for additional requirements. Maximum Allowed Lighting WattageNOTE1 Location (plan #, room #) Space Type Ceiling HeightNOTE 2 Gross Interior Area in ft? Allowed Watts per ft2 Watts Allowed (watts/ft2 x area) Learning Studio 130 Classroom/lecture/training 877 1 . 000 877 Learning Studio 131 Classroom/lecture/training 877 1 .000 877 Leaming Studio 132 Classroom/lecture/training 878 1.000 878 Learning Studio 133 Classroom/lecture/training 811 1 . 000 811 Learning Studio 134 Classroom/lecture/training 880 1 . 000 880 Learning Studio 135 Classroom/lecture/training 880 1.000 880 Corridor 116 Corridor: all other 2050 0 . 530 1087 Stair3 Stairwell 230 0.550 127 Vestibule 116A Lobby: all other 115 0 . 720 83 Vestibule 116B Lobby: all other 123 0 .720 89 Fire Riser Room 116C Electrical/mechanical 56 0 . 760 43 Toilet 145 Restroom: all other 61 0 . 780 48 Storage 116D Storage room 28 0 . 500 14 Storage 116E Storage room 27 0 . 500 14 HW 145B Storage room 30 0 . 500 15 Dressing 148A Restroom: all other 150 0. 780 117 Stair4 Stairwell 176 0.550 97 Women 141 Restroom: all other 254 0 . 780 198 Men 114 Restroom: all other 252 0 . 780 197 Elec. 142 Electrical/mechanical 43 0.760 33 CTE / Applied Learning Lab 136 Laboratory for classrooms 1294 1 . 020 1320 Science Studio 137 Classroom/lecture/training 1413 1 . 000 1413 Corridor 117 Corridor: all other 2777 0 . 530 1472 Science Prep137B Laboratory for classrooms 294 1.020 300 Small Group 137A Classroom/lecture/training 183 1 .000 183 Science Studio 138 Classroom/lecture/training 1402 1 .000 1402 Hall 118 Corridor: all other 378 0.530 200 Vestibule 117A Lobby: all other 91 0 .720 66 Hall 119 Corridor: all other 306 0.530 162 Leaming Studio 139 Classroom/lecture/training 1044 1 . 000 1044 Learning Studio 228 Classroom/lecture/training 865 1 . 000 865 Learning Studio 229 Classroom/lecture/training 879 1 . 000 879 Learning Studio 230 Classroom/lecture/training 879 1 .000 879 Learning Studio 231 Classroom/lecture/training 878 1 .000 878 Learning Studio 232 Classroom/lecture/training 882 1 .000 882 Leaming Studio 233 Classroom/lecture/training 882 1.000 882 Corridor 206 Corridor: all other 2130 0.530 1129 Toilet 243 Restroom: all other 58 0. 780 45 IDF 2448 Electrical/mechanical 56 0. 760 43 Storage 244A Storage room 121 0 . 500 61 Men 242 Restroom: all other 256 0 . 780 200 Women 239 Restroom: all other 254 0 . 780 198 Elec. 240 Electrical/mechanical 45 0.760 34 Corridor207 Corridor: all other 3037 0.530 1610 CTE I Applied Learning Lab 234 Laboratory for classrooms 12 91 1.02 0 1317 Science Studio 235 Laboratory for classrooms 1405 1.020 1433 Science Prep 235B Laboratory for classrooms 297 1.020 303 Small Group 235A Classroom/lecture/training 181 1 . 000 181 Science Studio 236 Laboratory for classrooms 1389 1 . 020 1417 Learning Studio 237 Classroom/lecture/training 1260 1.000 1260 Group Learning 238 Classroom/lecture/training 346 1 . 000 346 Testing/ISS 108 Classroom/lecture/training 270 1.000 270 Office 109 Office: Enclosed 166 0.890 148 Office 107 Office: Enclosed 164 0.890 146 Storage 1078 Storage room 90 0 . 500 45 Mail 107A Lobby: all other 126 0 . 720 91 Hall 111 Corridor: all other 267 0.530 142 Mech. 110 Electrical/mechanical 50 0.760 38 Janitor 111C Storage room 37 0 . 500 19 Staff RR 118B Restroom: all other 58 0 . 780 45 Staff RR 118A Restroom: all other 58 0 . 780 45 Principal 103 Office: Enclosed 244 0.890 217 Assistant Principal 105 Office: Enclosed 166 0.890 148 Conf/Office 104 Conference/meeting/multipurpose 160 0 . 980 157 Conf/Office 104A Conference/meeting/multipurpose 206 0. 980 202 Reception 102 Office: Open plan 821 0 . 780 640 Waiting Area 102A Lobby: all other 511 0. 720 368 Work 112 Office: Enclosed 371 0. 890 330 Health 113 Conference/meeting/multipurpose 413 0. 980 405 Restroom 113B Restroom: all other 108 0.780 84 Storage 113C Storage room 17 0 . 500 9 Vestibule 313 Lobby: all other 249 0 .720 179 Storage 312A Storage room 137 0 . 500 69 Mat Storage 312b Storage room 234 0 . 500 117 Auxilary Gymnasium 312 Gymnasium/fitness center. Playing area 6514 0 . 960 6253 Kitchen 211A Food preparation 291 0. 790 230 Staff Lounge 211 Lounge/breakroom: all other 797 0.580 462 Hall 212 Storage room 72 0 . 500 36 Hall 222A Corridor: all other 62 0 . 530 33 Security 209 Office: Enclosed 189 0.890 168 Office 210 Office: Enclosed 125 0.890 111 Office 208 Office: Enclosed 163 0. 890 145 Restroom 2126 Restroom: all other 71 0 . 780 55 Restroom 212A Restroom: all other 67 0 . 780 52 Scienc Studio 126 Laboratory for classrooms 1372 1.020 1399 Scienc Studio 127 Laboratory for classrooms 1372 1.020 1399 Scienc Studio 128 Laboratory for classrooms 1372 1.020 1399 Small Group 123B Office: Enclosed 118 0 . 890 105 Science Support 126A Laboratory for classrooms 241 1 . 020 246 Science Support 127A Laboratory for classrooms 241 1.020 246 Custodian 129 Storage room 113 0 . 500 57 Corridor 114 Storage room 1346 0 . 500 673 Stair 2 Stairwell 86 0 . 550 47 Learning Commons 147 Classroom/lecture/training 890 1.000 890 small Group 146 Office: Enclosed 124 0. 890 110 small Group 147A Office: Enclosed 134 0 . 890 119 Sped 148 Classroom/lecture/training 1247 1 .000 1247 Sped 150 Classroom/lecture/training 836 1.000 836 Learning Studio 151 Classroom/lecture/training 915 1 . 000 915 Office 159 Office: Enclosed 153 0. 890 136 ITIN 161 Office: Enclosed 94 0. 890 84 Office 157 Office: Enclosed 108 0. 890 96 KILN 140c Office: Enclosed 87 0. 890 77 File Stor. 163 Storage room 105 0 . 500 53 Dry RM 140B Storage room 65 0 . 500 33 Pottery RM 140 Classroom/lecture/training 787 1.000 787 Art Studio 140A Classroom/lecture/training 666 1.000 666 Storage/Office 140D Office: Enclosed 150 0.890 134 Hall 154 Corridor: all other 404 0 . 530 214 Hall 153 Corridor: all other 395 0.530 209 Counseling Secretary 152 Office: Open plan 303 0. 780 236 Work 156 Office: Enclosed 163 0. 890 145 ITIN 167 Office: Enclosed 98 0. 890 87 ITIN 158 Office: Enclosed 70 0. 890 62 ITIN 160 Office: Enclosed 65 0.890 58 ITIN 162 Office: Enclosed 82 0.890 73 Toilet 165 Restroom: all other 46 0. 780 36 Toilet 165A Restroom: all other 43 0. 780 34 Office 164 Office: Enclosed 93 0. 890 83 Office 166 Office: Enclosed 140 0.890 125 Office 168 Office: Enclosed 144 0.890 128 Office 169 Office: Enclosed 165 0. 890 147 Office 170 Office: Enclosed 134 0. 890 119 Performing art Corridor Corridor all other 1136 0 .530 602 Courtyard Vestibule 300B Lobby: all other 181 0.720 130 Entry / Vestibule 300A Lobby: all other 325 0 . 720 234 Commons 300 Lobby: all other 10051 0 . 720 7237 Community kitchen 300F Food preparation 253 0 . 790 200 Toilet 301 Lobby: all other 74 0 .720 53 Toilet 302 Lobby: all other 76 0 .720 55 Storange 305 Storage room 375 0 . 500 188 Prep Area 339C Food preparation 261 0 . 790 206 Storage 339B Storage room 256 0 . 500 128 Bridge 202 Lobby: all other 810 0 . 720 583 Catwalk 222 Lobby: all other 309 0 . 720 222 Learning Studio 122 Classroom/lecture/training 842 1 . 000 842 Learning Studio 121 Classroom/lecture/training 842 1 .000 842 Learning Studio 120 Classroom/lecture/training 842 1 . 000 842 Learning Commons 123 Classroom/lecture/training 451 1.000 451 Hall 132 Lobby: all other 1412 0 . 720 1017 Staff / Team 123A Conference/meeting/multipurpose 243 0.980 238 Boys 124 Restroom: all other 234 0. 780 183 Girls 125 Restroom: all other 234 0 . 780 183 Lobby 100A Lobby: all other 782 0 . 720 563 Corridor 114 Corridor: all other 807 0. 530 428 Stair Storage Storage room 90 0 . 500 45 Learning Studio 226 Classroom/lecture/training 826 1 .000 826 Learning Studio 227 Classroom/lecture/trainin 9 850 1.000 850 Learning Studio 225 Classroom/lecture/trainin 9 818 1.000 818 Learning Studio 224 Classroom/lecture/trainin 9 825 1.000 825 Learning Commons 223 Classroom/lecture/trainin g 553 1.000 553 Corridor205A Corridor: all other 771 0.530 409 Corridor 205 Conidor: all other 1965 0 . 530 1041 Steam/Staff 223A Conference/meeting/multipurpose 227 0 . 980 222 Small Group 223B Office: Enclosed 149 0.890 133 GTE /Applied Learning Lab 244 Laboratory for classrooms 1422 1.020 1450 Office 244B Office: Enclosed 91 0. 890 81 Learning Studio 245 Classroom/lecture/trainin g 804 1.000 804 Office 247 Office: Enclosed 121 0.890 108 Alcove 205B Conidor: all other 96 0 . 530 51 Learning Studio 246 Classroom/lecture/trainin g 826 1.000 826 Learning Studio 218 Classroom/lecture/trainin 9 825 1.000 825 Leaming Studio 217 Classroom/lecture/trainin g 825 1.000 825 Learning Studio 216 Classroom/lecture/trainin g 818 1.000 818 Leaming Studio 215 Classroom/lecture/training 839 1 . 000 839 Learning Studio 214 Classroom/lecture/trainin g 593 1.000 593 Storage 214A Storage room 17 0 . 500 9 Book Storage 215A Storage room 414 0 . 500 207 Room 213 Storage room 20 0 . 500 10 Learning common 219 Classroom/lecture/trainin g 430 1.000 430 Hall 204A Corridor: all other 1254 0 .530 665 Small Group 219A Office: Enclosed 170 0 . 890 151 Cust/Elec 219B Electrical/mechanical 106 0 . 760 81 Men 220 Restroom: all other 234 0 . 780 183 Women 221 Restroom: all other 233 0 . 780 182 MDF 200A Electrical/mechanical 296 0 .760 225 Conference 200B Conference/meeting/multipurpose 120 0 . 980 118 Library office 200C Library: Reading area 143 0 . 740 106 Library 200 Library: Reading area 3690 0.740 2731 Foyer 200D Lobby: all other 161 0 .720 116 Work Room 200F Office: Enclosed 495 0 . 890 441 Conference 200E Conference/meeting/multipurpose 113 0 . 980 111 Office 201A Office: Enclosed 90 0.890 80 Toilet 200G Restroom: all other 32 0. 780 25 Career Center 201 Office: Enclosed 471 0 . 890 419 Total Are 107231 Retail Display Allowance from LTG-INT-DISP Lobby Art/Exhibit Display Allowance from LTG-INT-DISPLANPTE Proposed Lighting Wattage"' Allowed Watt Location (plan #, room #) Fixture Description"OTE 4, 5, 6 Number of Fixtures Watts/ Fixture"ore 7 Watts Proposed Learning Studio 130 RL1 12 38 Leaming Studio 131 RL1 12 38 Learning Studio 132 RL1 12 38 Learning Studio 133 RL1 12 38 Learning Studio 134 RLI 12 38 Leaming Studio 135 RL1 12 38 Corridor116 RL15 17 38 Corridor 116 RL10 6 12 Stair3 RL15 2 38 Vestibule 116A RL11 4 19 Vestibule 1168 RL11 4 19 Fire Riser Room 116C SL5 2 32 Toilet 145 WL1 1 25 Toilet 145 RL11 1 19 Storage 116D SL4 1 25 Storage 116E SL4 1 25 HW 145B SL5 1 32 Dressing 148A RL10 6 12 Dressing 148A WL1 1 25 Stair4 RL15 3 38 Women 141 SL1 3 74 Women 141 RL11 3 19 Men 114 SL1 3 74 Men 114 RL11 3 19 Elec. 142 SL5 1 32 CTE /Applied Learning Lab 136 PL3 9 88 Science Studio 137 PL2 4 75 Science Studio 137 PL1 2 112 Science Studio 138 RL1 9 38 Corridor 117 RL15 5 38 Corridor 117 RL14 20 29 Corridor117 RL11 5 19 Corridor 117 RL10 8 12 Corridor 117 WL5 2 32 Corridor117 SL5 2 32 Science Prep137B RL3 6 29 Small Group 137A RL3 4 29 Science Studio 138 PL2 4 75 Science Studio 138 PL1 2 112 Science Studio 138 RL1 9 38 Hall 118 RL14 4 29 Vestibule 117A RL11 2 19 Hall 119 RL11 7 19 Learning Studio 139 RL3 15 29 Learning Studio 228 RL1 12 38 Leaming Studio 229 RL1 12 38 Learning Studio 230 RL1 12 38 Learning Studio 231 RL1 12 38 Learning Studio 232 RL1 12 38 456 456 456 456 456 456 646 72 76 76 76 64 25 19 25 25 32 72 25 114 222 57 222 57 32 792 300 224 342 190 580 95 96 64 64 174 116 300 224 342 116 38 133 435 456 456 456 456 456 Learning Studio 233 RL1 12 38 Corridor 206 RL15 18 38 Corridor 206 RL10 6 12 Toilet 243 RL11 1 19 Toilet 243 WL1 1 25 IDF 2448 RL13 1 31 Storage 244A RL12 2 17 Men 242 SL1 3 74 Men 242 RL11 3 19 Women 239 SL1 3 74 Women 239 RL11 3 19 EIec. 240 SL5 1 32 Comdor207 RL15 7 38 Corridor 207 RL14 24 29 Corridor 207 RL10 9 12 Corridor 207 RL11 3 19 CTE /Applied Learning Lab 234 PL3 9 88 Science Studio 235 PL2 4 75 Science Studio 235 PL1 2 112 Science Studio 235 RL1 9 38 Science Prep 235B RL3 6 29 Small Group 235A RL3 4 29 Science Studio 236 PL2 4 75 Science Studio 236 PL1 2 112 Science Studio 236 RL1 9 38 Learning Studio 237 RL1 18 38 Group Leaming 238 RL3 6 29 Testing/ISS 108 RL3 6 29 Office 109 RL3 4 29 Offfice 107 RL3 4 29 Storage 1076 RL12 2 17 Mail 107A RL14 2 2 9 Hall 111 RL14 5 29 Mech.110 SL5 1 32 Janitor111C PL8 1 32 Staff RR 118B RL11 1 19 Staff RR 118B WL1 1 25 Staff RR 118A RL11 1 19 Staff RR 118A WL1 1 25 Principal 103 RL1 4 38 Assistant Principal 105 RL3 4 2 9 Conf/Office 104 RL3 4 29 Conf/Office 104A RL3 4 29 Reception 102 RL14 3 2 9 Reception 102 RL1 9 38 Reception 102 RL19 7 17 Waiting Area 102A RL7 3 57 Work 112 RL1 6 38 Health 113 RL14 ; 29 Health 113 RL15 4 38 Health 113 WL4 3 26 Restroom 11313 RL5 3 25 Restroom 113B WL1 1 25 Storage 113C RL11 1 19 Vestibule 313 RL11 2 19 456 684 72 19 25 31 34 222 57 222 57 32 266 696 108 57 792 300 224 342 174 116 300 224 342 684 174 174 116 116 34 58 145 32 32 19 25 19 25 152 116 116 116 87 342 119 171 228 145 152 78 75 25 19 38 Vestibule 313 WL3 2 53 Storage 312A SL5 2 32 Mat Storage 312b SL5 3 32 Auxilary Gymnasium 312 PL4 20 181 Kitchen 211A RL3 4 29 Staff Lounge 211 RL3 12 29 Hall 212 RL3 2 29 Hall 222A RL3 1 29 Security 209 RL3 4 29 Office 210 RL1 2 38 Office 208 RL3 4 29 Restroom 2126 WL1 1 25 Restroom 2126 RL11 1 19 Restroom 212A WL1 1 25 Restroom 212A RL11 1 19 Scienc Studio 126 RL1 19 38 Scienc Studio 127 RL1 19 38 Scienc Studio 128 RL1 19 38 Small Group 1236 RL1 2 38 Science Support 126A RL1 4 38 Science Support 127A RL1 4 38 Custodian 129 PL7 2 25 Corridor 114 RL14 9 29 Corridor 114 RL15 2 38 Corridor 114 RL16 12 13 Corridor 114 WL5 1 32 Corridor 114 RL11 3 19 Stair2 RL15 3 38 Learning Commons 147 RL14 8 29 Learning Commons 147 RL11 7 19 small Group 146 RL1 2 38 small Group 147A RL1 2 38 Sped148 RL3 20 29 Sped 150 RL1 12 38 Learning Studio 151 RL1 12 38 Office 159 RL3 4 29 ITIN 161 RL24 2 27 Office 157 RL24 2 27 KILN 140c SL4 2 25 File Stor. 163 SL5 1 32 Dry RM 1406 RL2 1 43 Pottery RM 140 RL2 10 43 Art Studio 140A RL2 7 43 Storage/Office 140D RL1 3 38 Hall 154 RL15 7 38 Hall 153 RL15 6 38 Counseling Secretary 152 RL2 4 43 Work 156 RL3 4 29 ITIN 167 RL2 2 43 ITIN 158 RL3 3 29 ITIN 160 RL3 3 29 ITIN 162 RL3 3 29 Toilet 165 WL1 1 25 Toilet 165 RL11 1 19 Toilet 165A WL1 1 25 Toilet 165A RL11 1 19 Office 164 RL24 2 27 Office 166 RL3 4 29 Office 168 RL3 4 29 106 64 96 3620 116 348 58 29 116 76 116 25 19 25 19 722 722 722 76 152 152 50 261 76 156 32 57 114 232 133 76 76 580 456 456 116 54 54 50 32 43 430 301 114 266 228 172 116 86 87 87 87 25 19 25 19 54 116 116 Office 169 RL3 4 29 Office 170 RL23 1 36 Office 170 RL19 4 17 Performing art Corridor RL15 L3 38 Performing art Corridor RL11 4 19 Courtyard Vestibule 300B RL20 6 26 Entry / Vestibule 300A RLS 2 75 Commons 300 RL15 12 38 Commons 300 WL2 6 43 Commons 300 RL17 2 87 Commons 300 RL18 46 58 Commons 300 PL2 1. 75 Community kitchen 300F RL1 4 38 Toilet 301 WL1 1 25 Toilet 301 RL11 3 19 Toilet 302 WL1 1 25 Toilet 302 RL1 1 3 19 Storange 305 RL12 6 17 Prep Area 339C RL4 4 35 Storage 3398 RL13 4 31 Bridge 202 RL6 8 42 Catwalk 222 WL2 3 43 Learning Studio 122 RL1 12 38 Learning Studio 121 RL1 12 38 Learning Studio 120 RL1 12 38 Learning Commons 123 RL15 9 38 Hall 132 RL11 8 19 Hall 132 RL14 12 29 Staff / Team 123A RL3 6 2 9 Boys 124 SL2 5 49 Boys 124 RL10 1 12 Girls 125 SL2 5 49 Girls 125 RL10 1 12 Lobby100A RL6 7 42 Lobby100A RL11 1 19 Corridor 114 RL14 9 29 Corridor 114 RL16 6 13 Corridor 114 RL11 2 19 Stair Storage PL8 1 32 Leaming Studio 226 RL1 12 38 Learning Studio 227 RL1 12 38 Learning Studio 225 RL1 12 3 S Learning Studio 224 RL1 12 38 Leaming Commons 223 RL14 12 29 Corridor205A RL11 8 19 Corridor 205 WL3 2 0 53 Corridor 205 RL14 3 29 Corridor 205 RL6 8 42 Corridor 205 RL25 2 4 7 Corridor 205 RL10 1 12 Corridor 205 RL11 3 19 Steam/Staff223A RL1 4 38 Small Group 223B RL1 2 38 116 36 68 494 76 156 150 456 258 174 2668 75 152 25 57 25 57 102 140 124 336 129 456 456 456 342 152 348 174 245 12 245 12 294 19 261 78 38 32 456 456 456 456 348 152 1060 87 336 94 12 57 152 76 CTE / Applied Leaming Lab 244 CTE / Applied Learning Lab 244 Office 2448 Learning Studio 245 Office 247 Alcove 205B Leaming Studio 246 Learning Studio 218 Leaming Studio 217 Leaming Studio 216 Leaming Studio 215 Leaming Studio 214 Storage 214A Book Storage 215A Room 213 Leaming common 219 Hall 204A Hall 204A Small Group 219A Cust/Elec 2198 Men 220 Men 220 Women 221 Women 221 MDF 200A Conference 2008 Conference 2008 Library office 200C Library 200 Library 200 Library 200 Foyer 200D Work Room 200F Conference 200E Conference 200E Office 201A Toilet 200G Toilet 200G Career Center 201 Proposed Retail Display Lighting from LTG-INT-DISP Total Proposed Watts may not exceed Total Allowed Watts for lnterior Lighting Total Proposed Watt 760 12 76 418 82 76 456 456 456 456 456 290 20 125 19 342 290 133 116 50 245 12 295 12 344 36 68 72 1406 145 312 156 304 36 68 86 25 19 342 56657 Interior Lighting Power Allowance COMPLIES WITH C406.3 Note 1 - List all unique space types per Table C405.4.2(2) that occur in the project scope. Select space type category per from drop down menu. Note 2 - Indicate ceiling height for atriums and spaces utilizing the ceiling height adjustment per Table C405.4.2(2), Footnotes d thru f. Note 3 - List all proposed lighting fixtures including exempt lighting equipment and existing -to -remain fixtures. Note 4 - For proposed Fixture Description, indicate fixture type, lamp type (e.g. T-8), number of lamps in the fixture, and ballast type (if included). For track lighting, list the length of the track (in feet) in addition to the fixture, lamp, and ballast information. Note 5 - For lighting equipment eligible for exemption per C405.4.1, note exception number and leave Watts/Fixture blank. Note 6 - Existing -to -remain fixtures shall be included in the Proposed Lighting Wattage table in the same manner as new fixtures. Identify as existing In torture descnptlon. Note 7 - For proposed Watts/Fixture enter the luminaire wattage for installed lamp and ballast using manufacturer or other approved source. For luminaires with screw-in lamps, enter the manufacturer's listed maximum input wattage of the fixture (not the lamp wattage). For low voltage lighting, enter the wattage of the transformer. For line voltage track/busway systems, enter the larger of the attached luminaire wattage or 50 watts/lineal foot, or enter the wattage limit of permanent current limiting device. Note 8 - Lobby Art/Exhibit Display Allowance is independent of the Maximum Allowed Lighting Wattage. Note 9 - Calculation Area Details: a. Lighting fixtures in a building addition may comply as a stand alone project, or they may be combined with the overall existing building lighting systems to demonstrate compliance. Refer to C502.1. Exterior Lighting LTG -EXT 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2, R3, R4 over 3 stones and all R1 Revised July 2016 Project Title: 1 - FOSTER HIGH SCHOOL Date 7/1/2016 Exterior Lighting Zone Table C405.5.2(1) Specified by jurisdiction. O Zone 1 0 Zone 2 0 Zone 3 Q Zone 4 Zone selection required to enable LTG -EXT form For Building Department Use Calculation Area 0 0 Addition- • Addition stand alone + existing O Alteration with < 50% O Alteration with z 50% ext. ext. wattage replaced wattage replaced Building Grounds Applies 100Watts 144 864 • Efficacy> 80 lumens/watt ■ Exemption AL3 2 • Controlled by motion sensor 576 Tradable Maximum Allowed Lighting Wattage NOTE' Base Site Allowance: 600 Tradable Surfaces Surface Description Area (ft`), perimeter (If) or # of items Allowed wans per fe or per If AUOwea vvaus x ft2 (or x If) Uncovered Parking and drives Parking and Drive Areas 65626 0.06 W/ft2 3938 Grounds Walkways >10' wide Courtyard and Walking Areas 29179 0.14 W/ft2 4085 Main Entry Door Entry 300A and Courtyard/Vest. 300 24 20W/LF door 480 Other Entry Door Doors Around Building 54 20W/LF door 1080 2 102 204 Main Entry Door RL26 10 32 320 Main Entry Door AL1 1 102 102 Other Entry Door WL3 Total Allowed Tradable + Site Allowance Watts: 53 10183 Tradable Proposed Lighting Wattage Tradable Surface Fixture DescriptionNOTE s, a Number of Fixtures Watts per FixtureNOTE 5 Watts Proposed Uncovered Parking and drives AL2 6 144 864 Uncovered Parking and drives AL3 2 288 576 Uncovered Parking and drives AL4 6 144 864 Grounds Walkways >10' wide AL1 10 102 1020 Grounds Walkways >10' wide AL5 1 3 6 3 6 Grounds Walkways >10' wide WL6 7 50 350 Grounds Walkways >10' wide RL9 7 19 133 Grounds Walkways >10' wide WL8 2 102 204 Main Entry Door RL26 10 32 320 Main Entry Door AL1 1 102 102 Other Entry Door WL3 2 53 106 Other Entry Door WL9 3 40 120 Other Entry Door SL7 15 57 855 Total proposed tradable watts may not exceed the sum of total allowed tradable watts plus the base site allowance. Any base site allowance not needed to make tradable watts comply can be applied to individual non -tradable Total Proposed Tradable Watts 5550 Non -Tradable Maximum Allowed Lighting Wattage'"""' Site Allowance Remaining: 600 Non -Tradable Surfaces Surface Description Area (f12), perimeter (If) or # of items Allowed Watts per ft2 or per If Allowed Watts x ftp (or x If) Non -Tradable Proposed Lighting Wattage NOS 2 Non -Tradable Surface • Fixture DescriptionNorE 3, a Number of Fixtures Watts per Fixture NOTE s Watts Proposed Non -tradable proposed ketts may not exceed alloked ketts for any individual surface unless the total excess melts for all non -tradable surfaces are less than the remaining site aliokence. Non -Tradable Watts Exceeding LPA: Remaining Site Allowance: 0 600 Exterior Lighting COMPLIES WITH MAX. ALLOWANCE Note 1- List all unique exterior sufaces per Table C405.5.2(2) that occur in the project scope. Select exterior surface categories from drop dome menu. Note 2 - List all proposed lighting fixtures including existing -to -remain fixtures. Note 3 - For proposed Fixture Description, indicate fixture type, lamp type, number of lamps in the fixture, and ballast type (if applicable). Note 4 - Existing -to -remain fixtures shall be included in the Tradable and Non -Tradable Proposed Lighting Wattage tables in the same manner as new fixtures. Identify as existing in fixture description. Note 5 - For proposed Watts/Fixture enter the luminaire kettage for installed lamp and ballast using manufacturer or other approved source. For luminaires kith screw-in lamps, enter the manufacturer's listed maximum input Kettage of the fixture (not the lamp wattage). For low • Lighting, Motor, and Electrical Permit Checklist, Pg. 1 LTG -CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2, R3, R4 over 3 stories and all R1 Revised July 2016 Project Title: 1 - FOSTER HIGH SCHOOL Date 7/1/2016 The following information is necessary to check a permit application for compliance with the lighting, motor, and electrical requirements in the Washington State Energy Code, Commercial Provisions. Applicability (yes,no,na) Code Section Component Compliance information required in permit documents Location in Documents Building Department Notes LIGHTING CONTROLS Yes C405.2 Lighting controls, general For all lighting fixtures, indicate lighting control method on plans for spaces and lighting zone(s) served, or exception taken E0.01,E0.03,E2.XX , E5.11 TO E5.14, E6.21 TO E5.23 No C405.2 Luminaire level lighting controls (LLLC) Indicate on plans all fixtures provided with LLLC in lieu of C405.2 lighting controls; provide description of control capabilities and performance parameters NA C405.1 Lighting in dwelling units For permanently installed lighting fixtures in dwelling units, indicate lighting control method on plans for spaces and lighting zone(s) served, or demonstrate compliance with high efficacy exception Yes C405.2.3 C405.2.1.1 C405.2.2.2 C405.2.4 C405.2.5 Manual controls Indicate on plans the method of manual lighting control (whether combined with occupancy sensor, automatic light reduction, daylight responsive or specific application controls), location of manual control device and area or specifice application it serves E0.01,E0.03,E2.XX , E5.11 TO E6.14, E5.21 TO E5.23 Yes C405.2.2.1 C405.2.2.2 C405.2.3 Manual interior lighting controls Indicate on plans which method of manual 50% lighting load reduction is provided, or whether lighting load is reduced via occupancy sensors or daylight responsive controls E0.01,E0.03,E2.XX , E5.11 TO E5.14, E$.21 TO E5.23 Yes C405.2.2 Method of automatic shut-off control Indicate on plans the method of automatic shut-off control during unoccupied periods (occupancy sensor or time switch) for all lighting zones; E0.01,E0.03,E2.XX , E5.11 TO E5.14, E5.21 TO E5.23 Indicate locations where automatic shutoff is provided by other methods (occupancy sensor or digital timer switch) or which time switch control exception applies Yes C405.2.1 C405.2.1.1 Occupancy sensor controls Indicate on plans the spaces served by occupancy sensors; E0.01,E0.03,E2.XX , E5.11 TO E5.14, E5.21 TO E5.23 Indicate whether occupancy sensor controls are configured to be manual -on, automatic 50% -on, or serve a space eligible for automatic 100% -on per exception NA C405.2.1.2 Occupancy sensor controls - warehouses Indicate aisleways and open areas in warehouse spaces provided with occupancy sensor controls that reduce lighting power by 50% NA C405.2.6 Digital timer switch Indicate required digital timer switch control function when control is used NA C405.2.2.1 Automatic time switch controls Indicate locations of override switches on plans and the lighting zone(s) served, include area sq. ft. Yes C405.2.4.2 C405.2.4.3 Daylight zones - Sidelight and toplight Indicate primary and secondary sidelight daylight zone areas on plans, include sq. ft.; Indicate toplight daylight zone areas on plans, include sq. ft.; E2.XX For small vertical fenestration assemblies (rough opening less than 10 percent of primary daylight zone) where daylight responsive controls are not required, provide fenestration area to daylight zone calculation(s) Yes C405.2.4 Daylight responsive controls Indicate on plans lighting zone(s) served by daylight responsive E0.01,E0.03,E2.XX controls; E5.11 TO E5.14, E5.21 TO E5.23 Identify sidelight and toplight daylight zones that are not provided with daylight sensing controls and the exception(s) that apply; ----------------- Indicate on plans the lighting load reduction method - continuous dimming, or stepped dimming that provides at least two even steps between 0%-100% of rated power; Indicate that daylight sensing controls are configured to completely shut off all controlled lights in the lighting zone E0.01,E0.03,E2.XX , E5.11 TO E5.14, E5.21 TO E6.23 --------------------- NA C405.2.5 Additional controls Specific application lighting controls Identify spaces and lighting fixtures on plans that require specific application lighting controls per this section NA C405.2.5 - Items 1&2 Display and accent lighting Indicate on plans that display and accent lighting, and display case lighting are controlled independently from both general area lighting and other lighting applications within the same space; Indicate manual and automatic lighting control method Lighting, Motor, and Electrical Permit Checklist, Pg. 2 2015 Washington State Energy Code Compliance Forrns for Commercial Buildings including R2, R3, R4 over 3 stones and all R1 LTG -CHK Revised July 2016 Project Title: 1 • FOSTER HIGH SCHOOL Date 7/1/2016 The following information is necessary to check a permit application for compliance with the lighting, motor, and electrical requirements in the Washington State Energy Code, Commercial Provisions. Applicability (yes,no,na) Code Section Component Compliance information required in permit documents Location in Documents Building Department Notes NA C405.2.5 - Item 3 Hotel/motel guest rooms Indicate method of automatic control - vacancy or captive key control of all installed luminaires and switched receptacles in guest room NA C405.2.5 - Item 4 Supplemental task lighting Indicate method and location of automatic shut-off vacancy control for supplemental task lighting, induding under -shelf or under -cabinet lighting NA C405.2.5 - Item 5 Lighting for non- visual applications Indicate on plans eligible non -visual lighting applications, include sq. ft. area of each lighting control zone; Indicate on plans that non -visual lighting are controlled independently from both general area lighting and other lighting applications within the same space; Indicate method of manual lighting control and applicable automatic lighting control NA C405.2.5 - Item 6 Lighting equipment for sale or demonstration Indicate on plans that lighting equipment for sale or demonstration are controlled independently from both general area lighting and other lighting applications within the same space; Indicate method of manual lighting control and applicable automatic lighting control Yes C405.2.5 - Means of egress Identify on plans egress fixtures that function as both normal and emergency means of egress illumination; E0.01,E0.03,E2.XX , E5.11 TO E5.14, E5.21 TO E5.23 Provide calculation of lighting power density of total egress lighting; If total egress lighting power density is greater than 0.02 W/sq. ft., indicate on plans egress fixtures requiring automatic shut-off during unoccupied periods; Indicate method of automatic shut-off control E0.01,E0.03,E2.XX , E5.11 TO E5.14, E5.21 TO E5.23 Yes C405.2.7 Exterior lighting controls Indicate on exterior lighting plans and fixture schedules the automatic lighting control method, control sequence, and locations served; E5.21 _ For building facade and landscape lighting, indicate automatic controls shut off lighting as a function of dawn/dusk and fixed opening/closing time; For all other exierior lighting, indicate automatic controls shut off lighting as a function of available daylight; include control sequence that also reduces lighting power by at least 30% between 12am-6am, or from 1 hour after closing to 1 hour before opening, or based upon motion sensor E5.21 NA C405.5.1 Exterior building grounds lighting controls For building grounds fixtures greater than 100 watts, indicate on plans whether fixtures have efficacy greater than 80 lumens or; are controlled by motion sensor, or are exempt lighting per C405.5.2 NA C405.2.5 Area controls - Master control switches and circuit power limit Indicate location(s) of master control switch(es) intended to control multiple independent switches; circuit breaker may not be used as a master control switch; Verify that no 20 amp circuit controlled by a single switch or automatic control is loaded beyond 80% NA C406.4 Enhanced digital lighting controls 9 9 To comply with additional efficiency package option, indicate on plans all interior lighting fixtures that are individually addressed and provided with continuous dimming, or exception taken; Include calculation of percent total installed interior lighting power that is configured with required enhanced lighting control functions (min 90% to comply with additional efficiency package option) NA C405.13 C408.3 Lighting system functional testing If claiming lighting system commissioning exemption provide supporting calculation; Identify applicable commissioning documentation requirements per Section C408 or eligibility for exception; ----------- _ __—__ Provide written procedures for functional testing of all automatic controls and describe the expected system response Lighting, Motor, and Electrical Permit Checklist, Pg. 3 LTG-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2, R3, R4 over 3 stones and all R1 Revised July 2016 Project Title: 1 - FOSTER HIGH SCHOOL Date 7/1/2016 The following information is necessary to check a permit application for compliance with the lighting, motor, and electrical requirements in the Washington State Energy Code, Commercial Provisions. Applicability (yes,no,na) Code Section Component Compliance information required in pemtit documents Location in Documents Building Department Notes INTERIOR LIGHTING POWER & EFFICACY Yes 0405.4.1 C405.4.1 0405.4.2 Total connected interior lighting power Indude all luminaires in lighting fixture schedule; indicate fixture types, lamps. ballasts, and manufacturer's rated watts per fixture; Identify spaces eligible for lighting power exemption on plans and in compliance forms; indicate the exception applied; E0.03 Identify lighting equipment eligible for lighting power exemption in fixture schedule and in compliance forms; indicate the exception applied; Indicate that exempt lighting equipment is in addition to general area lighting and is controlled independently Yea 0405.3 Exit signs Indicate location of exit signs on plans and rated watts per fixture in lighting fixture schedule (maximum 5 watts per fixture) E0.03 NA C405.1 Lighting in dwelling units - lamp efficacy If high efficacy exception is applied to permanently installed lighting fixtures in dwelling units, indicate in lighting fixture schedule if lamps in fixtures are high efficacy per R404.1. Calculate percentage of fixtures with high efficacy lamps in project (min 75% to comply with exception). NA C406.3 Reduced lighting power density - dwelling unit lamp efficacy For project with dwelling units, to comply with additional efficiency package option indicate in lighting fixture schedule if lamps in fixtures have efficacy rating of 60 lumens per watt or more. Calculate percentage of fixtures with lamps that have this efficacy rating (min 95% to comply with option). Lighting Power Calculation - Indicate compliance path taken No C405.4.2.1 Building Area Method Complete required compliance forms — proposed wattage per building area does not exceed maximum allowed wattage per building area. Identify locations of building areas on plans Yes 0405.4.2.2 Space-By-Space Method Complete required compliance forms — total proposed wattage does not exceed maximum allowed wattage. Identify locations o space types on plans, induding retail display areas, lobby art & exhibit display areas, and ceiling heights as applicable Yes C406.3 Reduced lighting power density To comply with additional efficiency package option, demonstrate in compliance forms that total connected interior lighting wattage is 75% less than the total maximum allowed lighting wattage via Building Area Method or Space-By-Space Method EXTERIOR LIGHTING POWER & EFFICACY Yes 0405.5.2 Total connected exterior lighting power Include all luminaires in lighting fixture schedule; indicate fixture types, lamps, ballasts, and manufacturer's rated watts per fixture; E0.03 Identify exterior applications eligible for lighting power exemption on plans and in compliance forms; indicate exception applied; Indicate that exempt exterior lighting is controlled independently from non-exempt exterior lighting; include exception claimed for each fixture or group of fixtures under exception category Yes Table 0405.5.2(1) Exterior lighting zone Indicate building exterior lighting zone as defined by the AHJ NA 0405.5.1 Exterior building grounds lighting For building grounds fixtures rated at greater than 100 watts that are complying based on efficacy, indicate rated lamp efficacy (in lumens per watt) in fixture schedule Yes 0405.5.2 Exterior lighting power calculations Complete required compliance form — proposed wattage for exterior righting plus base site allowed does not exceed maximum allowed 4 ig ing, 7 ot. r, .nd Electrical Per i" Ch- I , P.. 4 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2, R3, R4 over 3 stories and all R1 LTG -CHK Revised July 2016 Project Title: 1 - FOSTER HIGH SCHOOL Date 7/1/2016 The following information is necessary to check a permit application for compliance with the lighting, motor, and electrical requirements in the Washington State Energy Code, Commercial Provisions. Applicability (yes,no,na) Code Section Component Compliance information required in permit documents Location in Documents Building Department Notes MOTORS & TRANSFORMERS Yes C405.6 Electrical tranformers Include electrical transformer schedulle on electrical plans; indicate transformer size, efficiency, or exception taken E6.02, 26 2213 NA C405.7 Dwelling unit electrical energy consumption Indicate on electrical plans that each dwelling unit in Group R-2 has a separate electrical energy meter Yes C405.8 Electric motor efficiency Include all motors, including fractional hp motors, in electric motor schedule on electrical plans; indicate hp, rpm, rated efficiency, or exception applied Yes C405.9.1 Elevator cabs For luminaires in each elevator cab, provide calculated average efficacy of combined fixtures that indicates efficacy is not less than 35 lumens per watt; Indicate rated watts per cfm for elevator cab ventilation fans do not exceed 0.33 watts per cfm; Indicate automatic controls that de -energize lighting and ventilation fans when elevator is stopped and unoocupied for a period of 15 minutes or more NA C405.9.2 Escalators and moving walks Indicate escalators comply with ASME A17.1/CSA B44; automatic controls are configured to reduce operational speed to the minimum permitted when not in use NA C405.9.3 Regenerative drive Indicate all ane -way down or reversible escalators are provided with a variable frequency regenerative drive Yes C405.10 Controlled receptacles Identify all controlled and uncontrolled receptables on electrical plans in each space in which they are required; include receptacle configuration such as spacing between controlled and uncontrolled, duplex devices, etO E0.01,E3.XX, E5.11 TO E5.14, E5.21 TO E5.23 Indicate on plans whether the method of automatic control for each controlled receptable zone is by occupant sensor or programmable time -of -day control Is selected for any question, provide explanation: End of Lighting, Motor & Transformer Permit Documents Checklist 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Summary 2015 Washington State Energy Code Compliance MECH-SUM Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Information Project Title: Foster High School Modemization and Addition Date 4/23/2017 Applicant Information. Provide contact information for individual who can respond to For Building Dept. Use inquiries about compliance form information provided. Company Name: BCE Engineers, Inc. Company Address: 6021 12th St E, Suite 200 Fife, WA 98424 C Applicant Name: Jaclyn Baker Applicant Phone: 253-922-0446 • a -' __ Project Description Briefly describe mechanical systems in the text box provided • New Building El Building Addition El Tenant Improvement II System Retrofit • No System Changes Existing provided. by with gas boiler plant to be replaced, with one boiler and boiler pump remaining. New chiller and plant to be Hydronic DOAS and hydronic terminal units to serve adminstrative areas. All other areas to be served hydronic single zone, variable air volume units. New service water heating to be provided for new addition hot water heating tanks. All other service water heating systems are existing. ■ Total Bldg Performance (TBP) This path includes all mandatory provisions per C401.2 Option 2. MECH-SUM, MECH-CHK, and C407 Energy Analysis forms required. Design Load Calculations 0 Load calculation summary • MECH-LOAD-CALC Form Provide design load calculations for all mechanical systems and equipment serving the building heating, cooling or ventilating needs. If a load calculation summary is provided with the permit documents that includes all applicable compliance information then the MECH-LOAD-CALC form is not required. Mechanical Schedules El Mechanical Plans • MECH-EQ Forms (TBD) Indicate location of equipment compliance information. If provided on plans then MECH-EQ forms are not required, however, include on plans all applicable compliance information listed in MECH-EQ tables. Dedicated Outdoor Air System Requirements and High Efficiency VAV Alternate El DOAS is required per C403.6 effective July 1, 2017 (office, retail, education, library and fire station occupancies) All occupied, conditioned areas shall be served by a DOAS that delivers required ventilation air in a manner that does not require space conditioning fan operation. Space conditioning fans cycled off when no heating or cooling is required. II Ventilation provided via natural ventilation per 2015 IMC in lieu of DOAS (C403.6, Exception 1) 0 Ventilation and space conditioning provided by a HEVAV system per C403.7 in lieu of DOAS (C403.6, Exception 2) • DOAS included in project, although not required (occupancy not office, retail, education, library or fire station) II DOAS related allowances included in project: • Prescriptive vertical fenestration maximum area allowance increased to 40% per C402.4.1.4 with 100% of conditioned floor area in building served by DOAS. • Exception to air economizer per C403.3 Exception 1, include MECH-ECONO form. Fan Power Project includes HVAC air distribution systems that provide heating and/or cooling If yes, provide a MECH-FANSYS -SUM form. El For one or more systems, the total fan motor nameplate hp of all fans in HVAC system exceeds Shp. If yes, provide a seperate MECH-FANSYS form for each HVAC system exceeding the 5 horsepower threshold. Refer to Section C403.2.11 and MECH-FANSYS-DOC for requirements and exceptions. HVAC Hydronic Systems El Hydronic chilled water ElWater-loopheat pump • No hydronic systems El Hydronic heating water • Geothermal C406 Efficiency MthaPIEMEWED Additional Options - 0 C406.2 More efficient HVAC equipment and fan systems Requires 90% of heating and cooling capacity to be equipment listed in tables C403.2.3(1)-(9) or air -to -water heat pumps and heat recovery chillers. All equipment listed in tables C403.2.3(1)-(7) must be 15% more efficient than minimum requirements. All stand alone supply. retum. and exhaust fans over 1 hp must have FEQ >_ 71 and must be selected within 10% of maximum total or static pressure. ❑ C406.6 Dedicated outdoor air system (DOAS) Requires 90% of conditioned floor area to be served by a DOAS per C403.6 that delivers required ventilation air in a manner that does not require space conditioning fan operation. FOR CODE COMP/L�IANCE APPROVED • C406.7 Reduced energy in service water heating prrEivEn Requires 90% of floor area be in occupancy types listed in C406.7.1 and that60% Of u l t ater energy use ry ')I be provided by heat pump, waste heat recoveor solar water-heatin sWs. OF T U K Vv I L A NOV 2 9 2018 • • • City of Tukwila BUILDING DIVISION ►„1IW1Y 0 :, 2018 PERMIT CENTER 1 A 1 11 _ nez,4 1 t 1 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 ec anica ummary, pg. 2 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 MECH-SUM Revised January 2017 Service Water Heating Systems Equipment Type (s) ❑ Instantaneous Heat exchange from space heat boiler or ❑ 9 P central hot water/steam ❑ On -demand water systems 0 Hot water heating tank(s) 1 No service 1 Dedicated boiler Distribution Type (s) • Circulation System Commissioning Commissioning is required Q Mechanical systems If required, commissioning Exceptions to commissioning for: per C408.2 shall be performed requirements: of all mechanical heating. Mechanical water heating not required. water heating systems per C408.4 systems regardless of individual equipment capacity. systems in the building do not exceed 240,000 Btu/h commissioning not required. does not exceed 200,000 Btu/h. Service water heating 0 Service for all applicable space conditioning systems system in building • Total output capacity cooling or 300,000 Btu/h • Capacity of largest service systems commissioning Low Energy and Semi -Heated Spaces (Note 6 and 7) Space Type Location in Plan(s) Space(s) Served Area Served, square feet Heating Capacity, Btu/h (Note 4) Cooling Capacity, Btu/h (Note 5) Peak Space Conditioning Capacity, Btu/h-sf Compliance Check Notes Note 4 - Provide total installed heating output capacity of systems serving Low Energy or Semi -Heated space(s) in btuh. Note 5 - Provide total installed cooling capacity of system serving Low Energy space(s) in Btu/h. Not allowed for semi -heated spaces. Enter 0 if no cooling. Note 6 - Refer to Section C402.1.1 Low Energy Building. Intalled peak space conditioning capacity, heating or cooling, may not exceed 3.4 Btu/h*sf. Note 7 - Refer to Section C402.1.1.1 and Semi -Heated Space definition in Chapter 2. Total heating output capacity may not exceed 8 Btu/h*sf. Only systems without electric resistance heating and no cooling are eligible for the wall insulation exception under semi -heated. A • • A 1 • r Y 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 1 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: Foster High School Modernization and Addition Date 4/23/2017 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes Equipment - Sizing, Performance and Type NA C403.1 Exempt process equipment Identify equipment to be used in manufacturing, industrial or commercial processes that do not provide space conditioning; identify provisions applicable to this equipment per C403.1 exception Yes C403.2.1 Load calculations Provide load calculations performed per ASHRAE Std 183 or equivalent, using design parameters per C302 and Appendix C; include load adjustments to account for energy recovery Attached Yes C403.2.2than Equipment and system sizing Indicate that output capacities of heating and cooling equipment and systems are no greater the smallest available equipment size that exceeds the calculated loads; note exceptions taken M6.02- M6.05 Yes C403.2.3 C403.2.3.2 0403.2.13.1 HVAC equipment performance requirements (efficiency) Provide equipment schedules on plans or complete MECH-EQ forms indicating type, capacity, rated and WSEC minimum efficiencies for all heating and cooling equipment; include supply and OSA cfms and operating hours for all air systems; identify heating and cooling equipment that does not have a corresponding WSEC minimum efficiency (manufacturer rated) M6.02- M6.05 Yes C405.8 C403.2.14 Electric motor efficiency List all motors >_ 1/12 hp (that are not integral to a rated piece of equipment) in the mechanical or electrical equipment schedules on plans; indicate hp, rpm, number of poles and rated efficiency, or exception applied 23 0513 For fractional hp motors (1/12 - 1 hp), indicate whether they are an electronically commutated motor, have rated efficiency of at least 70%, or exception taken M6.02 - M6.05 Yes C403.2.11.1 Fan power limitation For all HVAC fan systems that provide heating and / or cooling, provide system total nameplate hp in MECH-FANSYS-SUM form Attached For all applicable HVAC systems with total fan motor hp > 5hp, verify fan system motor hp or bhp complies with fan power limits per equations in Table C403.2.11.1(1), provide MECH- FANSYS form for each system Attached Yes C403.2.11.2 Motor nameplate hp For all applicable HVAC systems with total fan motor h > 5hp.M6.02- y p indicate fan motors specified are the smallest available motor hp size greater than fan bhp, note exceptions taken M6.05 Yes C403.2.11.3 Fan efficiency For all applicable HVAC systems with total fan motor hp > 5hp, identify in equipment schedule all fans required to comply with fan efficiency grade and indicate rated FEG is >_ 67, or exception taken; indicate these fans are sized so total efficiency is within 15% of the fan maximum total efficiency 23 0513 NA C403.2.11.4 Group R occupancy exhaust fan efficacy For all exhaust fans < 400 cfm in Group R occupancies, indicate in equipment schedule the fan flow rate and efficacy (cfm/watt), or exception taken; refer to Table C403.2.11.4 (CE -57) Yes C403.2.13 Var able flow capacity - fans For fan motors >_ 7.5 hp, indicate method of variable flow control (VSD or equivalent method) in equipment schedule, or exception taken; for equivalent method for an HVAC system refer to HVAC System Controls for additional requirements M6.02- M6.05 NA C403.2.3 Maximum air cooled chiller capacity For chilled water plants and buildings with > 500 tons of cooling capacity, indicate air-cooled chiller capacity is <_ 100 tons, or exception taken NA C403.4 Large capacity cooling systems For buildings with >_ 300 tons of cooling capacity, indicate method of multi -stage or variable capacity control (VSD, multiple staged compressors, or max capacity of any single unit < 66% of the total) NA C403.2.3.1 Non-standard water-cooled centrifugal chillers For water-cooled centrifugal chillers not designed for operation at standard conditions, provide calculations documenting maximum full load and part load rated equipment performance requirements NA C403.2.13.1 C403.4.3.2 Centrifugal fan open -circuit cooling towers For open -circuit centrifugal fan cooling towers with >_ 1,100 gpm capacity, indicate cooling towers comply with efficiency requirements for axial fan open circuit cooling towers Yes C403.4.2 C403.4.2.5 Large capacity boiler systems For single boilers with > 500,000 Btu/h capacity. indicate multi -stage or modulating bumer 23 5233 For boiler system (single or multiple) with > 1,000,000 Btu/h capacity, indicate turndown ratio per Table C403.4.2.5 and method (multiple single input boilers. modulating boilers, or combination) 23 5233 Yes C403.2.13 Variable flow capacity - pumps For pump motors >_ 7.5 hp, indicate method of variable flow control (VSD or equivalent method) in equipment schedule, or exception taken; for equivalent method for a hydronic system refer to Hydronic System Controls for additional requirements M6.04 NA C403.2.3 Gas and oil -fired forced air furnace and unit heaters For forced air fumaces with capacity 5 225,000 Btu/h and all unit heaters, indicate in equipment schedule intermittent ignition or IID, flue or draft damper, and rated jacket loss NA C403.2.4.8 Combustion heating equipment For combustion heating equipment with output capacity > 225,000 Btu/h, indicate modulating or staged combustion control NA C403.2.3.3 Packaged electric heating / cooling equipment Verify all packaged electric equipment with > 6,000 Btu/h cooling capacity and any amount of heating is a heat pump; include in equipment schedules NA C403.2.12 Heating outside a building Indicate systems providing heating in non -enclosed outdoor occupied spaces are radiant systems; refer to HVAC System Controls for additional requirements Yes C403.2.7.1 Kitchen exhaust hoods Indicate on plans the type, duty and exhaust air rate of each kitchen hood, refer to HVAC System Controls for additional requirements M6.02 Yes C403.2.4.3 Outdoor supply air, exhaust and relief dampers Indicate locations of OSA intake, and exhaust and relief outlet dampers on plans; indicate whether dampers are Class 1 motorized, or gravity and exception taken (include leakage rating, cfm/sf); refer to HVAC System Controls for additional requirements for OSA dampers 23 3113 Yes C403.2.4.3 Retum air dampers Indicate locations of return air dampers that are integral to economizer operation; verify dampers are motorized; indicate whether dampers are Class 1, or within packaged equipment eligible for leakage rating exception (include leakage rating, cfm/sf) 23 3113 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 2 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Com !lance Forms for Commercia - - ---. -- -..- -..... Project Title: Foster High School Modernization and Addition •scviacu ,,ariva y Zu i , Date 4/23/2017 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code PrevisionInformation Required - Must be in permit documents Location in Documents Building Department Notes NA0403.2.4.3 Stairway and shaft vent dampers Indicate location of stairway and shaft vent dampers on plans; verify dampers are Class 1 motorized; refer to HVAC System Controls for additional requirements NA0403.2.4.4 Zone isolation dampers For systems serving areas > 25,000 sf or spanning more than one floor, that include areas that are expected to be occupied non -simultaneously; identify isolation zone areas on plans and locations of associated isolation dampers in HVAC distribution system; refer to HVAC System Controls for additional requirements NA C403.2.3.4 Humidification For cooling systems with humidification equipment that are also required to have air economizer, indicate humidifier is adiabatic (direct evaporative or fog atomization), or exception taken Additional Efficiency Package Option, More Efficient HVAC Equipment & Fan Performance - Must comply with all 3 provisions to be eligible Yes 0406.2.1 C403.2.3 HVAC system selection To comply with additional efficiency package option, calculate the percentage of heating and cooling equipment in the project (based on output capacity) that do not have a corresponding WSEC listed efficiency; shall be less than 10% to comply M6.02- M6.05 Yes 0406.2.2 C403.2.3 Minimum equipment efficiency To com I with additional efficiencyM6.02- comply package option, indicate that all listed heating and cooling equipment have a rated efficiency that exceeds WSEC listed efficiency by at least 15% M6.05 Yes 0406.2.3 C403.2.11.3 Minimum fan efficiency To comply with additional efficiency package option, indicate rated FEG of stand alone fans is >_ 71; indicate these fans are sized so the fan efficiency at design conditions is within 10% of the maximum total or static efficiency M6.02- M6.05 HVAC System Controls Yes C403.2.4.1 Thermostatic controls (thermostats and humidistats) Indicate locations of thermostatic and humidity control devices and the zones they serve on plans, including perimeter system zones Where adjacent (neighboring) zones are controlled by separate thermostats (including perimeter systems used to offset heat gain or loss), and are connected by permanent openings > 10% of either zone sf area, indicate controls configured to prevent adjacent zones from operating in conflicting modes (one in heat, other in cool); applies to adjacent perimeter zones, adjacent nonperimeter zones, and adjacent perimeter and nonperimeter zones M4.11A- M4.52D NA If applying Exception 2 to nonperimeter zones adjacent to perimeter zones, indicate that setpoints and deadband settings in these zones are coordinated so cooling in a nonperimeter zone does not occur until the temperature in that zone is 5°F higher than the adjacent perimeter zone temperature in heating NA NA 0403.2.4.1.1 Heat pump supplementary heat Indicate staged heating operation with compression as the first stage of heating and supplemental heating controlled with outdoor lock -out temperature set to 40°F or less Yes C403.2.4.1.2 Deadband Indicate zone thermostatic controls configured with 5°F minimum deadband for systems that control both heating and cooling 23 0900 NA C403.2.4.1.3 Setpoint overlap restriction (thermostats) If separate heating and cooling systems with separate thermostatic control devices are used to serve a zone, indicate locations of both thermostatic control devices and the zone they serve on plans Indicate a limit switch, mechanical stop or DOC control with programming to prevent simultaneous heating and cooling — Yes C403.2.4.2 C403.2.4.2.1 C403.2.4.2.2 Automatic setback and shutdown Indicate zone thermostatic controls configured with required automatic setback and manual override functions, setback temperatures, and control method (automatic time clock or programmable controls); note exceptions taken 23 0900 Yes 0403.2.4.2.3 Automatic (optimum) start Indicate system controls that adjust equipment start time required to bring each area served up to design temperature just prior to scheduled occupancy M7.01- M7.07 Yes C403.2.4.3 Outdoor supply air dampers Indicate automatic controls configured to close OSA damper during unoccupied equipment operation; not including economizer cooling, night flush or IMC required OSA / exhaust M7.01- M7.07 NA C403.2.4.3 Stairway and shaft vent dampers Indicate method of activation of stairway and shaft vent dampers (fire alarm or interruption of power) NA C403.2.4.4 Zone isolation controls For systems serving areas > 25,000 sf or spanning more than one floor, that include areas that are expected to be occupied non -simultaneously; indicate controls that allow for independent space conditioning of isolation zones; or exception taken NA 0403.2.12 Heating outside a building Indicate occupancy sensing or timer switch controls configured to automatically shut off heating system when area served is unoccupied NA C403.2.4.5 Snow melt systemsIndicate automatic controls configured to shut off system when pavement temperature exceeds 50°F and no precipitation is falling, and when outdoor air temperature exceeds 40°F Yes C403.2.4.6 Freeze protection system controls Indicate automatic controls to shut off system when outdoor temperature exceeds 40°F, or conditions protect fluid from freezing M7.01- M7.07 NA C403.2.4.9 Group R1 hotel / motel guest rooms For hotels and motels with over 50 guest rooms, indicate automatic controls serving guest rooms that are capable of setback (heating) and set-up (cooling) of temperature setpoint by at least 5°F: indicate control method - activated by room entry or occupancy sensor 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 3 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: Foster High School Modernization and Addition Date 4/23/2017 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C403.2.4.10 C403.2.4.11 Group R2 / R3 dwelling units, Group R2 sleeping units For primary space conditioning system, indicate 5-2 programmable thermostats capable of two setback periods per day; for all thermostats indicate purpose (heating only, cooling only, or both), required temperature range and at minimum a 10°F deadband; or exception taken Yes C403.2.6 C403.2.11.4 Ventilation Indicate method of ventilation air delivery (natural or mechanical) for each zone M6.02 - M6.05 If mechanically delivered, indicate that systems are configured to provide not more than 150% of, but at least the minimum required volume of outdoor air to each zone per IMC, ASHRAE 62.1 or other applicable code (WAC, OSHA, etc); or exception taken M6.02- M6.05 If delivered via natural ventilation, identify required elements per IMC including minimum openable area to the outdoors or qualifying adjoining spaces NA Yes C403.2.6.2 Demand controlled ventilation Identify spaces > 500 sf with occupant load > 25 people/1,000 sf per IMC; for each space indicate whether it is served by an HVAC system with total design OSA > 3,000 cfm, and / or the system has airside economizer or automatic modulating OSA damper; indicate OSA controls are configured to provide demand controlled ventilation or provide supporting documentation for applied exception M7.03, M7.04, M7.06 Yes C403.2.6.3 Occupancy sensors For gyms, classrooms, auditoriums and conference rooms > 500 sf, indicate occupancy -based OSA control when space is unoccupied and method (closes OSA damper or shuts -off equipment); or altemate means provided to automatically reduce OSA when space is partially occupied M7.03, M7.04, M7.06 NA C403.2.6.4 C403.2.6.4.1 Enclosed loading dock ventilation For enclosed loading docks, indicate ventilation / exhaust system method of activation (gas detection system for CO and NO2, or occupancy sensors), and control method (staged or modulating) NA C403.2.6.4 C403.2.6.4.2 Enclosed parking garage ventilation For enclosed parking garages, indicate ventilation / exhaust system activated by gas detection system for CO and NO2, and control method (staged or modulating); or exception taken Yes C403.2.7.1 Kitchen exhaust hoods Provide calculations that show a balanced accounting of total kitchen exhaust (include all hoods) with % of: supply air, transfer air from adjacent spaces, and make-up air; if applicable, indicate that direct make-up air to each hood does not exceed 10% of hood exhaust Attached For kitchens with total hood exhaust exceeding 2,000 cfm, indicate exhaust air rate per Table C403.2.7.1 and compliance method (DCV, energy recovery, or transfer air that would otherwise be exhausted) NA Yes C403.2.7.2 Laboratory exhaust systems Refer to Systems Requiring Energy Recovery for requirements M7,05 Yes C403.2.13 Variable flow capacity - HVAC system fans For HVAC fan motors >_ 7.5 hp, indicate method of variable flow control (VSD, or equivalent control method that reduces design air volume by 50% at 1/3 static design pressure); note exception taken M6.02- M6.05 NA C403.3.1 DX air handler variable cooling control (Under lntegrated Economizer) For DX air handlers with economizer and cooling capacity?65,000 Btu/h, indicate number of cooling stages provided and method (multiple compressors and / or variable speed compressors); indicate minimum displacement (capacity reduction) as % of full load Indicate control method (cooling capacity controlled in response to space temperature, space temperature controlled by modulating supply airflow, or both) Yes C403.2.11.5 Fan airflow control For DX air handling units with cooling capacity? 65,000 Btu h and evaporative and chilled water air handling units with fan >_ 0.25 hp, indicate whether system is single zone or multiple zone and related control method (cooling capacity controlled in response to space temperature, space temperature is controlled by modulating supply airflow, or both) For mechanical cooling systems (includes DX and chilled water coils) that control cooling capacity in response to space temperature - Provide a minimum of two stages of fan control; indicate minimum fan speed is 5 66% of full speed drawing 5 40% of full speed fan power during periods of low cooling or ventilation only M6.02 - M6.05 M6.02 - M6.05 For other mechanical cooling systems (includes DX and chilled water coils) that control space temperature by modulating airflow (in lieu of, or in addition to, controlling capacity in response to space temperature) - Provide fan controls for modulating supply airflow; indicate minimum fan speed is 5 50% of full speed drawing 5 30% of full speed fan power during periods of low cooling or ventilation only; or exception taken M6.02 - M6.05 Yes C403.2.4.12 DDC system capabilities Provide central and zone level DDC controls as required based on system application, capacity or size thresholds and other qualification per Table C403.2.4.12.1 Identify all DDC system input / output control points; indicate capability for trending and graphical display 23 0900 23 0900 Ducting Systems Yes C403.2.8.1 C403.2.8.3 Duct construction Indicate on plans that all ductwork is constructed and sealed per IMC 23 3113 For OSA ductwork, also indicate on plans that ductwork meets air leakage requirements per C402.5 and vapor retarder requirements per the IBC 23 3113 Yes C403.2.8.3 Duct pressure classifications Identify location of low, medium and high pressure ductwork on plans Mo.01 Yes C403.2.8.3.3 High pressure duct leakage test Indicate high pressure duct leakage testing requirements on plans; provide test results to jurisdiction when completed M0.01 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 4 of 7 Mechanical Permit Plans Checklist 2015 Washington State Energy Code Compliance Fo MECH-CHK Project Title: Foster High School Modernization and Addition Mevtsea January 2017 Date 4/23/2017 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes Yes C403.2.8.1 C403.2.8.2 Duct insulation For supply and retum ductwork located in unconditioned space or outdoors, indicate R -value of insulation on ductwork on plans; identify climate zone; note exceptions taken 23 0713 For supply ductwork located in conditioned space, identify if design supply temperature is < 55°F or > 105°F and indicate R -value of insulation on this ductwork on plans; note exception taken 23 0713 For OSA ductwork, shafts and plenums, indicate R -value of insulation on these elements on plans per Table C402.1.3 for steel -framed walls; note exception taken 23 0713 Piping Systems Yes 0403.2.9 Pi in insulation p 9 Indicate design temperature range of fluid conveyed in piping and thickness of insulation (in inches) on hydronic piping plans; or exception taken 23 0719 Yes C403.2.9.1 Piping insulation exposed to weatherplans Indicate method of protection of pipe insulation from damage / degradation on hydronic piping 23 0719 Economizers Yes C403.3 Air economizer required Identify in equipment schedules on plans or in MECH-EQ forms all cooling systems requiring air economizer controls M6.02 - M6.05 Provide MECH-ECONO fore indicating systems utilizing air economizer exceptions, including those with water -side economizer in lieu of air economizer; indicate on plans eligible exception(s) taken and measures to comply with exception(s) NA Yes C403.3.1 Integrated economizer operation - air and water Indicate air and water -side economizers are configured for partial cooling operation even where additional mechanical cooling is required to meet the load M7.01 - M7.07 Yes C403.3.2 Economizer heating system impact - air and water Verify control method of HVAC systems witn economizers does not increase building heating energy usage during normal operation M7.01 - M7.07 Yes0403.3.3.1 Air economizer capacity Indicate modulating OSA and retum air dampers are configured to provide up to 100% OSA for cooling M6.02- M6.05 Yes C403.3.1 0403.3.3.2 Integrated air economizer Verify mechanical cooling controls are interlocked with air economizer controls so the outside air damper remains in 100% open position when mechanical cooling is also required to meet the cooling load, until the leaving air temperature is < 45°F M7.01- M7.07 For systems with cooling capacity ? 65,000 Btu/h, verify that control of economizer dampers is not based only on mixed air temperature; or exception taken M7.01 - M7.07 Yes C403.3.3.3 Air economizer high limit controls Indicate high limit shut-off control method and required high limit per Table C403.3.3.3 M7.01- M7.07 NA C403.3.4.1 Water economizer capacity For eligible systems where water -side economizer may be provided in lieu of air economizer, indicate system is capable of 100% design cooling capacity at 50°F db / 45°F wb OSA temperatures NA0403.3.4.2 Water economizer maximum pressure drop Indicate pressure drop across precooling coils and heat exchangers in water economizer system do not exceed pressure drop limit NAC403.3.1 DX air handling equipment control For DX air handlers with economizer and cooling capacity z 65,000 Btu/h, refer to HVAC System Controls for requirements NA C403.2.4.7 DX equipment economizer fault detection and diagnostics For DX air handlers with economizer and cooling capacity_ 54,000 Btu/h, provide a fault detection and diagnostics (FDD) system to monitor economizer system operation and report faults Systems Requiring Energy Recovery Yes C403.5.1 Energy recovery (ER) - For systems with design OSA > 5,000 cfm, or design supply air cfm and % OSA exceeding the values in Tables C403.5.1(1) or (2), indicate exhaust air ER method; or exception taken with supporting calculations M6.02 ventilation / exhaust systems For rooms served by multiple systems with aggregate design OSA > 5,000 cfm, or aggregate design supply air cfm and % OSA exceeding the values in Tables C403.5.1(1) or (2), indicate exhaust air ER method; or exception taken with supporting calculations M6.02 Indicate ER rated effectiveness that increases OSA enthalpy by >_ 50% based on delta between OSA and return air enthalpies at design conditions M6.02 NA C403.2.7.2 Laboratory exhaust systems (energy recovery) For buildings with total lab exhaust > 5,000 cfm, indicate method of energy recovery used to pre -condition laboratory make-up air; ER effectiveness (min 25°F); or alternative method per exception (VAV exhaust, semi -conditioned makeup, or CERM calculation) NA C404.10.4 (under C404.11) Pools and permanent spas exhaust systems (energy recovery) Indicate temperature For buildings with pools or spas with water surface area > 200 sf, indicate exhaust air ER method and use of waste heat (preheat ventilation air, pool water or service hot water); or exception taken ER system has the rated effectiveness and is configured to decrease the exhaust air at design conditions by >_ 36°F NA C403.5.2 Energy recovery - steam condensate systems For buildings with on-site steam heating systems, indicate condensate water ER For buildings that use off-site generated steam where condensate is not retumed to the 9 source, indicate on-site condensate water ER 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 5 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: Foster High School Modernization and Addition Date 4/23/2017 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C403.5.3 Energy recovery - cooler / freezer condensers For buildings with food service, meat or deli departments that have z 500,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate condenser ER and use of captured energy (service water heating, space heating, or dehumidification reheating) For buildings with >_ 40,000 sf conditioned floor area and with z 1,000,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate condenser ER and use of captured energy for service water heating and also for space heating, or dehumidification reheating NA C403.5.4 Energy recovery - condenser systems For buildings with 24-hour operation and with > 1,500,000 Btu/h of heat rejection capacity and design service hot water load > 250,000 Btu/h, indicate condenser ER to pre -heat service water; or exception taken. Provide calculations showing the amount of recovered heat that is utilized (60% of peak heat rejection load or pre -heat service water to 85°F). Hydronic System Controls Yesexception C403.2.13 C403.4.2.7 Variable flow control - hydronic system pumps For hydronic system pump motors z 7.5 hp, indicate method of variable flow control (VSD or equivalent method that requires z 30% design wattage at 50% design fluid flow); note taken M6.04 Identify whether hydronic coils have DDC controls and associated manner of pump speed control (differential pressure, zone hydronic demand, etc) M6.04 Yes C403.2.5 C403.4.2.4 Hydronic system setback and part load controls For boilers that provide building heating, indicate controls that provide heating water temperature setback based on outdoor temperature For heating and chilled water systems z 300,000 Btu/h, indicate systems are configured to automatically reset supply water temperature based upon demand; or exception taken. If system pump motor hp z 3 hp, also indicate controls automatically reduce flow by z 50%. M7.01 M7.01, M7.02 For chilled water systems (z 300,000 Btu/h, pump motor hp z 3 hp) that serve water-cooled unitary air conditioners. indicate VSD or staged pumps in chilled water system and heat rejection loop that reduce pump flow so that one control valve is nearly wide open, or to maintain a minimum differential pressure; or exception taken M7.02 Yes C403.4.2 Boiler sequencing Indicate automatic controls that sequence operation of multiple boilers M7.01 NA 0403.4.6 Hot gas bypass limitation For cooling equipment with hot gas bypass, provide either multiple step unloading or continuous capacity modulation; indicate bypass capacity per Table C403.4.6 NA C403.4.2.2 Two -pipe changeover systems Indicate changeover deadband (min 15°F), heating / cooling mode scheduling and changeover temperature range (limit 30°F) Yes C403.4.2.6 Chiller / boiler plant pump isolation Indicate controls are configured to automatically reduce overall plant flow and shut-off flow through individual chillers and boilers when not in use M7.01 NA C403.2.13.1.1 C403.4.3.1.1 C403.4.3.1.2 Heat rejection equipment - variable flow control For cooling towers with fan motors z 7.5 hp, indicate VSD and method to adjust fan speed (adjusted based on leaving fluid temperature or condenser temperature / pressure of heat rejection device) For multiple -cell heat rejection equipment with VSD, indicate controls that ramp all fans in unison NA C403.4.3.3 Heat rejection equipment - cooling tower flow tumdown Indicate open -circuit cooling towers with multiple pumps or VSD control are designed so all cells can be run in parallel NA C403.4.2.3.1 Water loop heat pump - deadband Indicate capability of central equipment to provide minimum 20°F water supply temperature deadband between heat rejection and heat addition modes; or exception taken NA C403.4.2.3.2.1 Water loop heat pump - heat rejection equipment, Zone 4 Indicate type of cooling tower (open- or dosed -circuit) in equipment schedule; indicate method used to limit system heat loss when heat rejection is not needed NA C403.4.2.3.2.2 Water loop heat pump - heat rejection equipment, Zone 5 For open- or closed-circuit cooling towers, provide a heat exchanger that separates the cooling tower and heat pump loop NA C403.4.2.3.3 Water loop heat pump - isolation valves For hydronic heat pump systems with total system power > 10 hp, indicate 2 -way isolation valves on each heat pump and variable flow system control Dedicated Outdoor Air Systems (DOAS) - Optional through 6/30/16, Prescriptive 7/1/2016 Yes C403.6 C403.6.3 Dedicated outdoor air systems For buildings with office, retail, education, library and fire station spaces, identify these spaces on plans; indicate that ventilation air in each occupied space is provided via a DOAS system; or document compliance with C403.6.3 Impracticality; or exception taken (buildings complying with C402.4.1.4 or C406.6 may not utilize exceptions) M6.02 Yes C403.6.1 Energy recovery ventilation with DOAS For all DOAS systems, indicate exhaust air ER method; or exception taken with supporting calculations. Indicate ER rated effectiveness that increases OSA enthalpy by z 50% based on delta between OSA and return air enthalpies at design conditions. M6.02 Yes C403.6.2 Heating / cooling system controls with DOAS Indicate equipment associated with the delivery of zone level heating and cooling (fans, hydronic pumps, primary air dampers, etc) are configured to shut off, and central equipment is configured to turn down, when there is no call for heating or cooling in the zone they serve M7.03, M7.05 If applying Exception to heating / cooling fans used for air mixing in the space during deadband periods, include fan watts per cfm in equipment schedule NA 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 6 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Bui Project Title: Foster High School Modernization and Addition Date 4/23/2017 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code SectionCode Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C402.4.1.4 C403.6 Increased prescriptive maximum vertical fenestration area with DOAS Indicate that all occupied, conditioned spaces are served by a DOAS per C403.6 Additional Efficiency Package Option, Dedicated Outside Air Systems (DOAS) NA C406.6 Building provided with DOAS To comply with additional efficiency package option, indicate that 90% or more of all occupied, conditioned spaces are served by a DOAS per C403.6 Multiple Zone Air Systems Yes C403.4.4 Air systems serving multiple zones Identify supply air systems serving multiple zones and the zones they serve on plans; indicate whether system is VAV and method of primary air control; or provide supporting documentation for applied exception to VAV M6.02 - M6.05 NA C403.4.4 VAV systems serving multiple zones Provide equipment schedules on plans or MECH-EQ form that list all VAV air terminals and types For each air terminal include: maximum airflow rates for primary supply air during zone peak heating and zone peak cooling; maximum airflow during reheating, recooling or mixing; minimum airflow rate to maintain required ventilation, and the basis for these values; if IMC or ASHRAE 62.1 multiple zone equation is basis for minimum flow rates, provide calculation on plans NA C403.4.4.1 Single duct VAV terminal units Indicate single duct terminal units are configured to reduce primary supply air before reheating or recooling NA C403.4.4.2 Dual duct systems - terminal units For systems with separate warm air and cool air ducts, indicate terminal units are configured to reduce the flow from one duct to minimum before mixing with air from the other duct NA C403.4.1.1 C403.4.1.2 VAV system static pressure sensors - sensors and DDC set points Indicate locations of duct static pressure sensors on plans; include at least one sensor per major duct branch; verify controller setpoint pressure at each sensor is S 1.2 inch w.g. For systems with zone level DDC, indicate controls are configured to monitor zone damper positions and reset static pressure setpoint based on the zone requiring most pressure; include control logic that automatically detects and generates an alarm if any zone excessively drives reset logic, and allows building operators to exclude zones from reset logic NA C403.4.4.3 Multiple -zone VAV system ventilation optimization controls For systems with zone level DDC controls, indicate controls are configured to automatically reduce outdoor airflow in response to changes in system ventilation efficiency; or exception taken NA C403.4.4.4 VAV system supply air reset Indicate controls automatically reset supply air temperature in response to building loads or outdoor air temperature; or exception taken Multiple Zone HVAC Systems, High Efficiency VAV - Required for systems utilizing C403.6 DOAS Exception 2, must comply with all 16 provisions Yes C403.7, Item 1 Air economizer Indicate system is configured for 100% air economizer operation and complies with all related economizer requirements per C403.3 (without economizer exceptions) M7.03, M7.04, M7.06 Yes C403.7, Item 2 Direct digital controls (DDC) Provide DDC controls for all components of system; identify all DDC system input / output control points; indicate capability for trending and graphical display M7.03, M7.04, M7.06 Yes C403.7, Item 3 Outdoor airflow measurement and reduction For systems with minimum OSA > 2,500 cfm, indicate outdoor airflow monitoring station that measures OSA intake under all load conditions; indicate control sequence that increases or reduces system OSA cfm based on VAV terminal feedback of ventilation efficiency (per C403.4.4.3 without exceptions) or DCV (per C403.2.6.2) M7.03, M7.04 NA C403.7, Item 4 Supply airflow measurement For systems with minimum OSA > 2.500 cfm, indicate supply airflow monitoring station capable of measuring supply IY terminals delivered to VAV teinals under all load conditions Yes C403.7, Item 5 Zone isolation and maximum area served Verify maximum area served by a single HEVAV system is s 50,000 sf, or one entire floor, whichever is greater; in addition if a system serves > 25,000 sf, that includes areas that are expected to be occupied non -simultaneously, indicate zone isolation controls per C403.2.4.4 M6.02 - M6.03 NA C403.7, Item 6 Interior / exterior zone design supply air temperature Verify that VAV terminals serving interior cooling driven loads are sized per design supply air temperature that is 5°F higher than VAV terminals serving exterior zones Yes C403.7, Item 7 Maximum air terminal inlet velocity Identify air terminals with minimum primary airflow setpoints > 50% of maximum setpoint in equipment schedule or MECH-EQ form; indicate air terminal inlet velocity does not exceed 900 fpm M6.02- M6.03 Yes C403.7, Item 8 Sequence of operation Indicate DDC system sequences of operation are designed and configured per ASHRAE GPC 36 M7.03, M7.04, M7.06 Yes C403.7, Item 9 Maximum allowable system brake horsepower p Verify fan system bhp is <_ 90% of the bhp limit per Option 2 equation in Table C403.2.11.1(1), provide MECH-FANSYS forth for each system M6.02 - M6.03 NA C403.7, Item 10 Fan -powered terminal unit motor and control Indicate all series and parallel terminal fans have electronically commutated motors; indicate DDC control system is configured to vary air terminal fan speed as a function of the load; indicate fan speed during periods of low heating, low cooling, or ventilation only is 5. 66% of peak design air flow or provide supporting documentation for applied exception 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 7 of 7 Mechanical Permit Plans Checklist MECH-CHK 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Project Title: Foster High School Modernization and Addition Date 4/23/2017 The following information is necessary to check a permit application for compliance with the mechanical systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required - Must be in permit documents Location in Documents Building Department Notes NA C403.7, Item 11 Application of single duct and fan -powered terminal units Indicate VAV terminal types on plans; verify fan -powered terminal units only serve perimeter zones with envelope loads; verify all other zones are served by single duct terminal units NA C403.7, Item 12 Fan -powered terminal unit primary air reset Indicate DDC controls are configured to automatically reset the primary supply air cfm setpoint of all fan -powered terminal units to the minimum required to maintain ventilation during occupied heating or deadband, based upon the VAV air handling unit OSA ventilation fraction Yes C403.7, Item 13 High occupancy space controls For spaces > 150 sf with occupant density >_ 25 people / 1000 sf, indicate space is served by a dedicated terminal unit with DCV control that resets terminal unit ventilation setpoint; also indicate occupancy sensor control that automatically reduces minimum ventilation to zero and sets back room heating and cooling setpoints by >_ 5°F M7.03, M7.04, M7.06 NA C403.7, Item 14 Dedicated HVAC systems For server, electronic equipment, telecom or similar spaces with cooling loads > 5 W/sf, indicate spaces are served by independent HVAC systems that are separate from HPVAV systems serving rest of building; indicate dedicated HVAC systems have air economizer controls or energy recovery per C403.3 Exception 9 Yes C403.7, Item 15 Central plant efficiency Indicate whether systems are served by a high efficiency heating water plant, or a high efficiency chilled water plant M6.04 If complying via high efficiency heating water plant: Indicate all VAV terminals have hydronic heating coils served by heating water system with either gas-fired boiler(s) with thermal efficiency >_ 90%, air -to -water heat pumps, or heat recovery chillers M6.04 If complying via high efficiency chilled water plant: Indicate all VAV air handlers have cooling coils served by chillers with rated IPLV efficiency that exceeds WSEC listed IPLV by at least 25% per Table C403.2.3(7) (note water-cooled IPLV is max, all others are min); indicate smallest chiller or compressor in plant is <_ 20% of total plant capacity, or provide thermal storage sized for <_ 20% of total plant capacity M6.04 Yes C403.7, Item 16 Fault detection and diagnostics Indicate DDC system includes a fault detection and diagnostics (FDD) system configured to monitor operation and provide fault reporting of required parameters for all VAV air handlers and VAV air terminal units in the HPVAV system M7.03, M7.04, M7.06 HVAC Equipment Energy Use Metering NA C409.3.1 HVAC equipment energy use metering For new buildings > 50,000 sf and building additions > 25,000 sf, verify energy use metering of all equipment used to provide space heating and cooling, dehumidification and ventilation will be provided per C409; indicate equipment eligible for exception Documentation and System Specific Requirement To Support Commissioning Yes C408.2 Scope of mechanical systems commissioning Indicate that all mechanical systems, equipment, and controls for which the WSEC requires control functions and / or configuration to perform specific functions are required to be commissioned; 01 9100 For buildings with >_ 240,000 Btu/h total output cooling capacity or >_ 300,000 Btu/h total output heating capacity, indicate that all mechanical systems regardless of individual capacity are required to be commissioned; or provide building heating / cooling capacity calculation demonstrating eligibility for exception 01 9100 Yes C403.2.10 C408.1.1 C408.1.2 C408.1.4.2 C103.6 Commissioning requirements in construction documents Indicate in plans and specifications that Cx per C406 is required for all applicable mechanical systems; Include general summary with at a minimum of Items 1 thru 4 of the Cx plan per C408.1.2 including: narrative description of activities, responsibilities of the Cx team, schedule of activities including verification of project close out documentation per C103.6, and conflict of interest plan (if required); 01 9100 01 9100 Include in general summary that a Cx project report or Compliance Checklist (Figure C408.1.4.2) shall be completed by the Certified Cx Professional and provided to the owner prior to the final mechanical inspection. 01 9100 Yes C408.2.2 Air system and hydronic system balancing Indicate in plans that air and fluid flow rates shall be tested and balanced within the tolerances defined in the specifications; indicate systems shall be balanced in a manner to first minimize throttling losses, then adjusted to meet design flow conditions 23 0593, 23 0595 Yes C408.2.2.1 Air system balancing devices Indicate devices that provide the capability to balance all supply air outlets, zone terminals and air handling equipment requiring system balancing M2.11A- M2.54 Yes C408.2.2.2 Hydronic system balancing devices Indicate devices that provide the capability to isolate, balance and measure flow across all hydronic equipment requiring system balancing including heating and cooling coils and pumps 23 0523 Yes C408.2.3 Functional performance testing criteria Identify in plans and specifications the intended operation of all equipment and controls during all modes of operation, including interfacing between new and existing -to -remain systems m7.01_ M7.07 Project Close Out Documentation Yes C103.6 Documentation and project close out submittal requirements Indicate in plans that project close out documentation and training of building operations personnel is required for all mechanical components, equipment and systems governed by this code; indicate close out documentation shall include: record documents, O&M manuals, applicable WSEC compliance forms and calculations 20 0000 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 1 of 2 Service Water Heating Permit Plans Checklist SWH-CHK 2015 Washington State Energy Code Compliance Forms for Commercia __ ..__..----.--.�................... Project Title: Foster High School Modernization and Addition RCVIJeu Jarlualy zu I1 Date 4/23/2017 The following information is necessary to check a permit application for compliance with the mechanicial systems and equipment requirements of the Washington State Energy Code, Commercial Provisions. Applicable (yes,no,na) Code Section Code Provision Information Required -Must be in permit documents Location in Documents Building Department Notes Equipment - Sizing, Performance and Type Yes C404.2 SWH equipment type and efficiency Provide equipment schedule on plans indicating type and capacity; indicate efficiency complies with required federal standard M6.01 NA C404.2.1 High input -rated SWH systems For individual SWH equipment serving an entire building with z 1,000,000 Btu/h capacity, indicate thermal efficiency z 90%; or exception taken NA For buildings with aggregate capacity of all SHW equipment_ 1,000,000 Btu/h (exclude < 100,000 Btu/h equipment from threshold calculation), indicate average capacity weighted thermal efficiency 5 90%; or exception taken M6.01 If applying Exception 1 for site -solar or site -recovered energy, provide calculations and source of annual service water heating energy use estimate NA NA C404.4 Heat traps Indicate piping connected to equipment have heat traps on supply and discharge NAC404.5 Insulation under electric water heaterinsulation For electric water heaters located in unconditioned spaces or on concrete floors, indicate R-10 under equipment M5.01 Piping Systems Yes C404.6 Insulation of piping Indicate thickness of piping insulation on plans per Table C403.2.9; verify insulation is provided - from the water heater to the final fixture in a line, from the inlet / outlet piping at water heater to heat trap (up to 8 feet), and on piping that is heat traced; note exceptions taken 22 0719 Yes C404.3 Efficient SWH supply piping Indicate method of compliance on plans for all piping runs connecting service hot water source to hot water fixture (maximum pipe length or maximum pipe volume method per Table C404.3.1); provide calculations for all piping runs documenting the total length and / or volume M1.70, NOTE 7 Service Water Heating System Controls Yes C404.7.1 C404.8 Heated -water circulating systems For circulation systems with dedicated return piping, indicate controls are configured to automatically start pump based on demand for hot water and shut-off pump when there is no demand and when the desired water temperature is met M7.01 For circulation systems with cold water supply pipingserving Y pp y as the return, indicate controls are configured to automatically start pump based on demand for hot water and shut-off pump when there is no demand, or when temperature of water entering the cold water supply pipe is z 104°F NA NA C404.7.2 Heat trace system controls For heat trace systems provided to maintain temperature of service hot water in piping, indicate controls are configured to de -energize system when there is no demand for hot water and when the desired water temperature is met NA C404.7.3 Controls for hot water storage For systems with separate water heater and storage tank, indicate controls are configured to limit operation time of pump after end of heating cycle to <- 5 minutes NA C403.2.13 C403.4.2.7 Variable flow control - pumps For SWH, pool / spa and pressure boosting pump motors z 7.5 hp, indicate method of variable flow control (VSD or equivalent method that requires z 30% design wattage at 50% design fluid flow); note exception taken Identify basis of pump speed control (differential or static pressure setpoint, pressure, zone load demand, etc) Pools and Permanent Spas - Equipment and Controls (Sections are under C404.11) NA C404.10.1 Pool heating equipment efficiency Provide equipment schedule on plans indicating type and capacity for all pool heating equipment; indicate efficiency complies with required federal standard; for heat pump water heaters indicate COP >_ 4 NA C403.2.13 Variable flow control - pumps Refer to Service Water Heating System Controls NA C404.10.1 C404.10.2 Pool heater on / off controls Indicate automatic on / off control based on scheduling and readily accessible on / off switch on heater that operates independent of thermostat setting; note exceptions taken NA C404.10.3 For all pools and in -ground permanent spas., indicate a vapor retardant cover on plans Pool covers For all pools and in -ground spas heated to = 90°F, indicate cover shall include insulation z R- 12 NA C404.10.3 Pool assembly insulation For all pools and in -ground spas heated to > 90°F, Indicate on plans that sides and bottom are provided with insulation z R-12 NA C404.12 Energy consumption of portable spas Indicate portable spa complies with Associa?ion of Pool and Spa Professionals APSP-14 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 - Page 2 of 2 Energy Recovery (ER) Systems - Service Water Heating and Pool Systems NA C404.10.4 (Section under C404.11) Pools and permanent spas exhaust systems (energy recovery) For buildings with pools or permanent spas with water surface area > 200 sf, indicate exhaust air ER method and use of waste heat (preheat ventilation air, pool water or service hot water); or exception taken Indicate ER system has the rated effectiveness and is configured to decrease the exhaust air temperature at design conditions by >_ 36°F NA C403.5.3 Energy recovery - cooler / freezer condensers For buildings with food service, meat or deli departments that have >_ 500,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate if condenser ER will be used to pre -heat service water For buildings with >_ 40,000 sf conditioned floor area and with 5 1,000,000 Btu/h of remote refrigeration capacity for coolers / freezers, indicate if condenser ER will be used to pre -heat service water NA C403.5.4 Energy recovery - condenser systems For buildings with 24-hour operation and > 1,500,000 Btu/h of heat rejection capacity and design SWH load > 250,000 Btu/h, indicate condenser ER to pre -heat service water; or exception taken. Provide calculations showing the amount of recovered heat that is utilized (60% of peak heat rejection load or pre -heat service water to 85°F). NA C404.10 Drain water heat recovery units For systems incorporating drain water ER, indicate system design complies with CSA B55.2 (or CSA 55.1 for Group R); indicate potable waterside pressure loss at design flow is < 10 psi Service Water Heating Energy Use Metering NA C404.9 SWH energy usage in dwelling units For Group R-2 multi -family buildings with central SWH systems, provide metering of hot water energy usage per dwelling unit: indicate metering and data reporting method Yes C409.3.2 SWH equipment energy use metering For new buildings > 50,000 sf and building additions > 25,000 sf, with total SWH equipment capacity >_ 50 kW ( >_ 170,600 Btu/h), verfiy energy use metering of all SWH equipment will be provided per C409 23 0900 Additional Efficiency Package Option, Reduced Energy Use In Service Water Heating - Must comply with both provisions to be eligible NA C406.7.1 Eligible building type To comply with additional efficiency package option, verify that 90% of the conditioned floor area of the building is one or more of the occupancies identified in this section, OR; Provide whole building energy analysis per C407 that demonstrates the SWH load in the building is z 10% of total building energy loads NA C406.7.2 C403.5.4 Load fraction To comply with additional efficiency package option, provide documentation that verifies >_ 60% of building annual SWH energy is provided by high efficiency sources (heat pump water heater with COP >_ 3, waste heat recovery, solar water -heating system); For buildings with 24-hour operation and with > 1,500,000 Btu/h of heat rejection capacity and design service hot water load > 250,000 Btu/h (per C403.5.4); provide documentation that verifies >_ 100% of building annual SWH energy is provided by condenser energy recovery or other high efficiency source Documentation and Specific System Requirements to Supporting Commissioning Yes C408.4 Scope of service water heating systems commissioning Indicate that all SWH equipment and controls for which the WSEC requires control functions and / or configuration to perform specific functions are required to be commissioned;+D7 For buildings where the largest SWH system has ? 200,000 Btu/h total output capacity, indicate that all SWH systems regardless of individual capacity are required to be commissioned. 01 9100 01 9100 NA C408.4.1.3 Scope of pool and permanent spa systems commissioning Indicate that all pool and permanent spa water heating systems regardless of individual capacity are required to be commissioned; Indicate that energy recovery equipment that heats pool water regardless of capacity is required to be commissioned; Identify all pool heating and energy recovery equipment and controls that the WSEC defines as being capable of and / or configured to perform specific functions. Yes C404.13 C408.1.1 C408.1.2 C408.1.4.2 C103.6 Commissioning requirements in construction documents Indicate in plans and specifications that Cx per C408 is required for all applicable service water heating systems; 01 9100 Include general summary with at a minimum of Items 1 thru 4 of the Cx plan per C408.1.2 including: narrative description of activites, responsibilities of the Cx team, schedule of activities including verification of project close out documentation per C103.6, and conflict of interest plan (if required); 01 9100 Include in general summary that a Cx project report or Compliance Checklist (Figure C408.1.4.2) shall be completed by the Certified Cx Professional and provided to the owner prior to the final mechanical inspection. 01 9100 Yes C408.4.1 Functional performance testing criteria Identify in plans and specifications the intended operation of all equipment and controls during all modes of operation, including interfacing between new and existing -to -remain systems M7.01 Project Close Out Documentation Yes C103.6 Documentation and project close out submittal requirements Indicate in plans that project close out documentation and training of building operations personnel is required for all SWH components, equipment and systems govemed by this code; indicate dose out documentation shall include: record documents, O&M manuals, applicable WSEC compliance forms and calculations 20 0000 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Fan System Power Allowance MECH-FANSYS-SUM 2015 Washington State Energy Code Compliance Forms for Commercial Building • ..,.,•..,.111y ,.i. .w 1 \V vvc1 V awl rca anu Project Title: Foster High School Modemization and Addition an rN 1 nevibeu January LU I / Date 4/23/2017 For Building Dept. Use HVAC Air Distribution System Schedule List all HVAC systems that have the capability to provide heating and/or cooling to the spaces they serve. System or Primary Supply Fan ID Speed Control (Note 1) Description (Note 2) System Total Nameplate HP (Note 3) Fan Power Calculation Required (Note 4) AHU-1 CV Single Zone VAV System with Exhaust Fan 45 Yes AHU-2 CV Single Zone VAV System 7.5 Yes AHU-3 CV Single Zone VAV System 5 No AHU-4 CV Single Zone VAV System with Return Fan 20 Yes AHU-5 CV Single Zone VAV System with Return Fan 18 Yes AHU-6 CV Single Zone VAV System, Kitchen Hood Exhaust Fan 3.33 No AHU-7 CV Single Zone VAV System 20 Yes AHU-8 CV DOAU with Exhaust Fan 9.3 Yes AHU-9 CV Single Zone VAV System 3 No HRU-1 CV DOAU with Exhaust Fan 10 Yes Note 1 - Constant Volume (CV), Variable Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1 Exception Sing e zone VAV systems shall comply as CV. Note 2 - Describe system type and list all fans (or groups of fans) associated with the delivery and removal of conditioned air by the system. all supply, return/relief, exhaust and exhaust hoods (>1 hp), make-up air, dedicated outside air (DOAS), booster fans, and series terminals. VAV parallel fan -powered terminals and economizer relief fans do not need to be included if the fans do not operate at conditions. Note 3 - Enter the total nameplate hp of all fans associated with the delivery and removal of conditioned air by the system. Note 4 - This form automatically identifies whether a MECH-FANSYS form is required to demonstrate compliance with the fan power allowance or this information is not required because the system has a combined total nameplate motor hp that is 5 hp or less (No) 1. Include fan -powered peak (Yes), MECH-FANSYS Forms A MECH-FANSYS form shall be provided for each system with total nameplate hp greater than 5 hp. Select (Add Fan System Form) to generate an additional form. Added forms can be deleted with button in cell E32 of the added form. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Fan System Power Allowance MECH-FANSYS 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: Foster High School Modemization Date 4/23/2017 A separate MECH-FANSYS form must be completed for every HVAC system that exceeds the 5 hp threshold. For Building Dept. Use Fan System ID AHU-1 System Supply Fan y pp y Speed Control CV Constant Volume (CV), Variable Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1, Exception 1 Com liance O tion P p Brake HP Compliance is based upon either the fan motor nameplate horse power (Option 1), the fan brake horsepower (Option 2), or C403.7 high efficieny VAV fan brake horsepower (10% less than Option 2). The bhp calculation provides adjustments for special equipment per Table C403.2.11.1(2). Fan System Supply CFM Total 37,600 In Fan Equipment Schedule below, provide maximum design supply airflow rate (CFM) of all supply fans serving the conditioned space in Fan Equipment Schedule below. Fan System CFM Total is the supply airflow of the central air handler at peak design conditions. Additional volumetric air flow provided at zone fan terminals, booster fans, or through induction is not included in the supply CFM total. However, the fan power of this equipment is included in the HP and BHP calculations. Fan System Supply CFM Total is automatically calculated by the form. Fan Equipment Schedule Fan ID and Location Fan Type Quantity of Fan Type Total CFM (Note 1) Total Nameplate HP (Note 2) Total BHP (Note 3) AHU-1 SF ERV - Supply 2 37,600 30 22 AHU-1 EF ERV - Exhaust 2 37,600 15 12.22 Note 1 - Total CFM is the maximum CFM of the listed fan(s) when operating at peak design operating conditions. Note 2 - Total namplate hp of the listed fan(s). Note 3 - Total brake horsepower (bhp) of the listed fan(s) at peak design operating conditions. Not required if Nameplate HP compliance option chosen. Compliance Message: Total Proposed: Total Allowance: 45.0 34.2 41.4 35.3 COMPLIES Brake Horsepower Allowance Adjustments Device Type Description and Location CFM thorough this device (CFMD) Assigned Pressure Drop, PD in w.c. (Note 6) Calculated Pressure Drop, PD in w.c. (Note 7) Adjustment, Ain bhp (Note 8) Note 4 - Bhp allowance for energy recovery devices and run around coil loops includes both air Total Adjustment (bhp): nF..... w.n .. 4L.n /`CAAr in ♦L... n.......i FM.. n..nnh. /"CAA .. n.J .... L.......f /`CAA :; h..II..... 41........ L. 0.00 - the device. Note 5 - Energy recovery effectiveness is defined as change in the enthalpy of the outdoor air supply divided by the enthaply difference between the outdoor air and retum air at design conditions. Note 6 - Assigned pressure drop (PD) adjustment per Table C403.2.11.1(2). Note 7 - Pressure drop (PD) adjustment shall be calculated per the applicable method defined in Table C403.2.11.1(2) based on specific system conditions. Note 8 - A = PD * CFMD/4131 where A is the allowed system brake horse power adjustment, PD is pressure drop allowance, and CFMD is the cfm through the device. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 General Instructions: A. Include all fans directly associated with the delivery and removal of conditioned air to the zones served by the system. Enter CFM and brake horsepower (bhp) of each fan at peak design conditions and the nameplate horsepower (hp). Include supply, return and relief fans, exhaust and exhaust hood fans (>1 hp), booster fans and fans included as part of make-up air units, dedicated outside air systems (DOAS), energy recovery ventilators (ERV). and series fan -powered terminal equipment. B. VAV parallel fan -powered terminals and economizer relief fans do not need to be included if the fans do not operate at peak conditions. C. Fans not directly associated with the delivery and removal of conditioned air; such as condenser fans, do not need to be included in the fan power total. D. Fan power calculations are not required for non -central air HVAC systems such as 4 -pipe fan coils and variable refrigerant flow (VRF) systems unless individual fan systems are greater than 5hp. E. In the Brake Horsepower Allowance Adjustments table, if a Device Type is selected that has an Assigned Pressure Drop, this value will auto fill into the Assigned Pressure Drop cell and the Calculated Pressure Drop cell will be write -protected. If the Device Type requires a Calculated Pressure Drop, then enter this value into the Calculated Pressure Drop cell and the Assigned Pressure Drop cell with be write -protected. F. Refer to FAQ section of MECH-FANSYS-DOC for additional instructions. • 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Fan System Power Allowance MECH-FANSYS 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: Foster High School Modemization Date 4/23/2017 A separate MECH-FANSYS form must be completed for every HVAC system that exceeds the 5 hp threshold. For Building Dept. Use Fan System ID AHU-2 System Supply Fan y pp y Speed Control CV Constant Volume (CV), Variable Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1, Exception 1 Com liance O tion p p Brake HP Compliance is based upon either the fan motor nameplate horse power (Option 1), the fan brake horsepower (Option 2), or C403.7 high efficieny VAV fan brake horsepower (10% less than Option 2). The bhp calculation provides adjustments for special equipment per Table C403.2.11.1(2). Fan System Supply CFM Total 5,500 In Fan Equipment Schedule below, provide maximum design supply airflow rate (CFM) of all supply fans serving the conditioned space in Fan Equipment Schedule below. Fan System CFM Total is the supply airflow of the central air handler at peak design conditions. Additional volumetric air flow provided at zone fan terminals, booster fans, or through induction is not included in the supply CFM total. However, the fan power of this equipment is included in the HP and BHP calculations. Fan System Supply CFM Total is automatically calculated by the form. Fan Equipment Schedule . Fan ID and Location Quantity of Fan Type Total CFM (Note 1) Total Nameplate HP (Note 2) Total BHP (Note 3) AHU-2 SF Supply 1 5,500 7.5 6.05 Note 1 - Total CFM is the maximum CFM of the listed fan(s) when operating at peak design operating conditions. Note 2 - Total namplate hp of the listed fan(s). Note 3 - Total brake horsepower (bhp) of the listed fan(s) at peak design operating conditions. Not required if Nameplate HP compliance option chosen. Compliance Message: Total Proposed: Total Allowance: 7.5 6.1 6.1 6.8 COMPLIES Brake Horsepower Allowance Adjustments Device Type Description and Location CFM thorough this device (CFMD) Assigned Pressure Drop, PD in w.c. (Note 6) Calculated Pressure Drop, PD in w.c. (Note 7) Adjustment, A in bhp (Note 8) Fully ducted return and/or exhaust AHU-2 3,500 0.5 0.424 Particulate filtration: MERV 13 - 15 AHU-2 MERV 13 Filters 5,500 0.9 1.198 Note 4 - Bhp allowance for energy recovery devices and run around coil loops includes both air Total Adjustment (bhp): 1.62 the device. Note 5 - Energy recovery effectiveness is defined as change in the enthalpy of the outdoor air supply divided by the enthaply difference between the outdoor air and retum air at design conditions. Note 6 - Assigned pressure drop (PD) adjustment per Table C403.2.11.1(2). Note 7 - Pressure drop (PD) adjustment shall be calculated per the applicable method defined in Table C403.2.11.1(2) based on specific system conditions. Note 8 - A = PD * CFMD/4131 where A is the allowed system brake horse power adjustment, PD is pressure drop allowance, and CFMD is the cfm through the device. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 General Instructions: A. Include all fans directly associated with the delivery and removal of conditioned air to the zones served by the system. Enter CFM and brake horsepower (bhp) of each fan at peak design conditions and the nameplate horsepower (hp). Include supply, return and relief fans, exhaust and exhaust hood fans (>1 hp), booster fans and fans included as part of make-up air units, dedicated outside air systems (DOAS), energy recovery ventilators (ERV), and series fan -powered terminal equipment. B. VAV parallel fan -powered terminals and economizer relief fans do not need to be included if the fans do not operate at peak conditions. C. Fans not directly associated with the delivery and removal of conditioned air, such as condenser fans, do not need to be included in the fan power total. D. Fan power calculations are not required for non -central air HVAC systems such as 4 -pipe fan coils and variable refrigerant flow (VRF) systems unless individual fan systems are greater than 5hp. E. In the Brake Horsepower Allowance Adjustments table, if a Device Type is selected that has an Assigned Pressure Drop, this value will autofill into the Assigned Pressure Drop cell and the Calculated Pressure Drop cell will be write protected. If the Device Type requires a Calculated Pressure Drop, then enter this value into the Calculated Pressure Drop cell and the Assigned Pressure Drop cell with be write -protected. F. Refer to FAQ section of MECH-FANSYS-DOC for additional instructions. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Fan System Power Allowance MECH-FANSYS 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: Foster High School Modernization Date 4/23/2017 A separate MECH-FANSYS form must be completed for every HVAC system that exceeds the 5 hp threshold. For Building Dept. Use Fan System ID AHU-4 System Supply Fan y pp y Speed Control CV Constant Volume (CV), Variable Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1, Exception 1 Compliance Option p p Brake H P Compliance is based upon either the fan motor nameplate horse power (Option 1), the fan brake horsepower (Option 2), or C403.7 high efficieny VAV fan brake horsepower (10% less than Option 2). The bhp calculation provides adjustments for special equipment per Table C403.2.11.1(2). Fan System Supply CFM Total 16,800 In Fan Equipment Schedule below, provide maximum design supply airflow rate (CFM) of all supply fans serving the conditioned space in Fan Equipment Schedule below. Fan System CFM Total is the supply airflow of the central air handler at peak design conditions. Additional volumetric air flow provided at zone fan terminals, booster fans, or through induction is not included in the supply CFM total. However, the fan power of this equipment is included in the HP and BHP calculations. Fan System Supply CFM Total is automatically calculated by the form. Fan Equipment Schedule Fan ID and Location Quantity of Fan Type Total CFM (Note 1) Total Nameplate HP (Note 2) Total BHP (Note 3) AHU-4 SF Supply 1 16,800 15 11.82 RF -1 Return 1 16,800 5 3.3 Note 1 - Total CFM is the maximum CFM of the listed fan(s) when operating at peak design operating conditions. Note 2 - Total namplate hp of the listed fan(s). Note 3 - Total brake horsepower (bhp) of the listed fan(s) at peak design operating conditions. Not required if Nameplate HP compliance option chosen. Compliance Message: Total Proposed: Total Allowance: 20.0 15.1 18.5 15.8 COMPLIES Brake Horsepower Allowance Adjustments Device Type Description and Location CFM thorough this device (CFMD) Assigned Pressure Drop, PD in w.c. (Note 6) Calculated Pressure Drop, PD in w.c. (Note 7) Adjustment, A in bhp (Note 8) Note 4 - Bhp allowance for energy recovery devices and run around coil loops includes both air Total Adjustment (bhp): ..4........... .. 1L... fl CAAfl :.. •k.. ...,.....i 44...........1.. l'CAA .. ,.,J ..,,M,.....4 /SCAA;$ 4...44..... 44........ L. 0.00 the device. Note 5 - Energy recovery effectiveness is defined as change in the enthalpy of the outdoor air supply divided by the enthaply difference between the outdoor air and retum air at design conditions. Note 6 - Assigned pressure drop (PD) adjustment per Table C403.2.11.1(2). Note 7 - Pressure drop (PD) adjustment shall be calculated per the applicable method defined in Table C403.2.11.1(2) based on specific system conditions. Note 8 - A = PD * CFMD/4131 where A is the allowed system brake horse power adjustment, PD is pressure drop allowance, and CFMD is the cfm through the device. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 General Instructions: A. Include all fans directly associated with the delivery and removal of conditioned air to the zones served by the system. Enter CFM and brake horsepower (bhp) of each fan at peak design conditions and the nameplate horsepower (hp). Include supply, return and relief fans, exhaust and exhaust hood fans (>1 hp), booster fans and fans included as part of make-up air units, dedicated outside air systems (DOAS), energy recovery ventilators (ERV). and series fan -powered terminal equipment. B. VAV parallel fan -powered terminals and economizer relief fans do not need to be included if the fans do not operate at peak conditions. C. Fans not directly associated with the delivery and removal of conditioned air. such as condenser fans, do not need to be included in the fan power total. D. Fan power calculations are not required for non -central air HVAC systems such as 4 -pipe fan coils and variable refrigerant flow (VRF) systems unless individual fan systems are greater than 5hp. E. In the Brake Horsepower Allowance Adjustments table, if a Device Type is selected that has an Assigned Pressure Drop, this value will autofill into the Assigned Pressure Drop cell and the Calculated Pressure Drop cell will be write -protected. If the Device Type requires a Calculated Pressure Drop, then enter this value into the Calculated Pressure Drop cell and the Assigned Pressure Drop cell with be write -protected. F. Refer to FAQ section of MECH-FANSYS-DOC for additional instructions. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Fan System Power Allowance MECH-FANSYS 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: Foster High School Modemization Date 4/23/2017 A separate MECH-FANSYS form must be completed for every HVAC system that exceeds the 5 hp threshold. For Building Dept. Use Fan System ID AHU-5 System Supply Fan y pp y Speed Control CV Constant Volume (CV), Variable Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1, Exception 1 Compliance Option P P Brake HP Compliance is based upon either the fan motor nameplate horse power (Option 1), the fan brake horsepower (Option 2), or C403.7 high efficieny VAV fan brake horsepower (10% less than Option 2). The bhp calculation provides adjustments for special equipment per Table C403.2.11.1(2). Fan System Supply CFM Total 14,000 In Fan Equipment Schedule below, provide maximum design supply airflow rate (CFM) of all supply fans serving the conditioned space in Fan Equipment Schedule below. Fan System CFM Total is the supply airflow of the central air handler at peak design conditions. Additional volumetric air flow provided at zone fan terminals, booster fans, or through induction is not included in the supply CFM total. However, the fan power of this equipment is included in the HP and BHP calculations. Fan System Supply CFM Total is automatically calculated by the form. Fan Equipment Schedule Fan ID and Location Quantity of Fan Type Total CFM (Note 1) Total Nameplate HP (Note 2) Total BHP (Note 3) AHU-5 SF Supply 1 14,000 15 10.18 RF -2 Return 1 14,000 3 2.4 Note 1 - Total CFM is the maximum CFM of the listed fan(s) when operating at peak design operating conditions. Note 2 - Total namplate hp of the listed fan(s). Note 3 - Total brake horsepower (bhp) of the listed fan(s) at peak design operating conditions. Not required if Nameplate HP compliance option chosen. Compliance Message: Total Proposed: Total Allowance: 18.0 12.6 15.4 13.2 COMPLIES Brake Horsepower Allowance Adjustments Device Type Description and Location CFM thorough this device (CFMD) Assigned Pressure Drop, PD in w.c. (Note 6) Calculated Pressure Drop, PD in w.c. (Note 7) Adjustment, A in bhp (Note 8) Note 4 - Bhp allowance for energy recovery devices and run around coil loops includes both air Total Adjustment (bhp): ..a............ .... ♦L.. P.rr, :.. ♦L.. ....... ..t iL.. ........h. fl Cll, .....J ....t ...,_. rrll,, :i L..3L .... L -......L 0.00 the device. Note 5 - Energy recovery effectiveness is defined as change in the enthalpy of the outdoor air supply divided by the enthaply difference between the outdoor air and retum air at design conditions. Note 6 - Assigned pressure drop (PD) adjustment per Table C403.2.11.1(2). Note 7 - Pressure drop (PD) adjustment shall be calculated per the applicable method defined in Table C403.2.11.1(2) based on specific system conditions. Note 8 - A = PD * CFMD/4131 where A is the allowed system brake horse power adjustment, PD is pressure drop allowance, and CFMD is the cfm through the device. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 General Instructions: A. Include all fans directly associated with the delivery and removal of conditioned air to the zones served by the system. Enter CFM and brake horsepower (bhp) of each fan at peak design conditions and the nameplate horsepower (hp). Include supply, return and relief fans, exhaust and exhaust hood fans (>1 hp), booster fans and fans included as part of make-up air units, dedicated outside air systems (DOAS), energy recovery ventilators (ERV), and series fan -powered terminal equipment. B. VAV parallel fan -powered terminals and economizer relief fans do not need to be included if the fans do not operate at peak conditions. C. Fans not directly associated with the delivery and removal of conditioned air, such as condenser fans, do not need to be included in the fan power total. D. Fan power calculations are not required for non -central air HVAC systems such as 4 -pipe fan coils and variable refrigerant flow (VRF) systems unless individual fan systems are greater than 5hp. E. In the Brake Horsepower Allowance Adjustments table, if a Device Type is selected that has an Assigned Pressure Drop, this value will autofill into the Assigned Pressure Drop cell and the Calculated Pressure Drop cell will be write -protected. If the Device Type requires a Calculated Pressure Drop, then enter this value into the Calculated Pressure Drop cell and the Assigned Pressure Drop cell with be write -protected. F. Refer to FAQ section of MECH-FANSYS-DOC for additional instructions. r 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Fan System Power Allowance MECH-FANSYS 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: Foster High School Modemization Date 4/23/2017 A separate MECH-FANSYS form must be completed for every HVAC system that exceeds the 5 hp threshold. For Building Dept. Use Fan System ID AHU-7 System Supply Fan y pp y Speed Control CV Constant Volume (CV), Variable Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1, Exception 1 Com liance O tion P P Brake HP Compliance is based upon either the fan motor nameplate horse power (Option 1), the fan brake horsepower (Option 2), or C403.7 high efficieny VAV fan brake horsepower (10% less than Option 2). The bhp calculation provides adjustments for special equipment per Table C403.2.11.1(2). Fan System Supply CFM Total 16,000 In Fan Equipment Schedule below, provide maximum design supply airflow rate (CFM) of all supply fans serving the conditioned space in Fan Equipment Schedule below. Fan System CFM Total is the supply airflow of the central air handler at peak design conditions. Additional volumetric air flow provided at zone fan terminals, booster fans, or through induction is not included in the supply CFM total. However, the fan power of this equipment is included in the HP and BHP calculations. Fan System Supply CFM Total is automatically calculated by the form. Fan Equipment Schedule Fan ID and Location Quantity of Fan Type Total CFM (Note 1) Total Nameplate HP (Note 2) Total BHP (Note 3) AHU-7 SF Supply 2 16,000 20 16.88 Note 1 - Total CFM is the maximum CFM of the listed fan(s) when operating at peak design operating conditions. Note 2 - Total namplate hp of the listed fan(s). Note 3 - Total brake horsepower (bhp) of the listed fan(s) at peak design operating conditions. Not required if Nameplate HP compliance option chosen. Compliance Message: Total Proposed: Total Allowance: 20.0 16.9 17.6 17.0 COMPLIES Brake Horsepower Allowance Adjustments Device Type Description and Location CFM thorough this device (CFMD) Assigned Pressure Drop, PD in w.c. (Note 6) Calculated Pressure Drop, PD in w.c. 7) Adjustment, A in bhp (Note 8) Fully ducted return and/or exhaust AHU-7 16,000 0.5 1.937 Note 4 - Bhp allowance for energy recovery devices and run around coil loops includes both air Total Adjustment (bhp): niw.n.r.n .. +M.. /"CAAr in IM.. n ..i {M.... ..1,. ?' AA w...J ....M .,,. * /NCAA :i Mwt•M .... *L........ /. 1.94 the device. Note 5 - Energy recovery effectiveness is defined as change in the enthalpy of the outdoor air supply divided by the enthaply difference between the outdoor air and return air at design conditions. Note 6 - Assigned pressure drop (PD) adjustment per Table C403.2.11.1(2). Note 7 - Pressure drop (PD) adjustment shall be calculated per the applicable method defined in Table C403.2.11.1(2) based on specific system conditions. Note 8 - A = PD * CFMD/4131 where A is the allowed system brake horse power adjustment, PD is pressure drop allowance, and CFMD is the cfm through the device. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 General Instructions: A. Include all fans directly associated with the delivery and removal of conditioned air to the zones served by the system. Enter CFM and brake horsepower (bhp) of each fan at peak design conditions and the nameplate horsepower (hp). Include supply, return and relief fans, exhaust and exhaust hood fans (>1 hp), booster fans and fans included as part of make-up air units, dedicated outside air systems (DOAS), energy recovery ventilators (ERV). and series fan -powered terminal equipment. B. VAV parallel fan -powered terminals and economizer relief fans do not need to be included if the fans do not operate at peak conditions. C. Fans not directly associated with the delivery and removal of conditioned air, such as condenser fans, do not need to be included in the fan power total. D. Fan power calculations are not required for non -central air HVAC systems such as 4 -pipe fan coils and variable refrigerant flow (VRF) systems unless individual fan systems are greater than 5hp. E. In the Brake Horsepower Allowance Adjustments table, if a Device Type is selected that has an Assigned Pressure Drop, this value will auto fill into the Assigned Pressure Drop cell and the Calculated Pressure Drop cell will be write -protected. If the Device Type requires a Calculated Pressure Drop, then enter this value into the Calculated Pressure Drop cell and the Assigned Pressure Drop cell with be write -protected. F. Refer to FAQ section of MECH-FANSYS-DOC for additional instructions. t 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Fan System Power Allowance MECH-FANSYS 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over Project Title: Foster High School Modemization Date 4/23/2017 A separate MECH-FANSYS form must be completed for every HVAC system that exceeds the 5 hp threshold. For Building Dept. Use Fan System ID AHU-8 System Supply Fan y pp y Speed Control CV Constant Volume (CV), Variable Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1, Exception 1 Compliance Option Brake HP Compliance is based upon either the fan motor nameplate horse power (Option 1), the fan brake horsepower (Option 2), or C403.7 high efficieny VAV fan brake horsepower (10% less than Option 2). The bhp calculation provides adjustments for special equipment per Table C403.2.11.1(2). Fan System Supply Y pP y CFM Total 13,575 In Fan Equipment Schedule below, provide maximum design supply airflow rate (CFM) of all supply fans serving the conditioned space in Fan Equipment Schedule below. Fan System CFM Total is the supply airflow of the central air handler at peak design conditions. Additional volumetric air flow provided at zone fan terminals. booster fans, or through induction is not included in the supply CFM total. However, the fan power of this equipment is included in the HP and BHP calculations. Fan System Supply CFM Total is automatically calculated by the form. Fan Equipment Schedule Fan ID and Location Quantity of Fan Type Total CFM (Note 1) Total Nameplate HP (Note 2) Total BHP (Note 3) AHU-8 SF DOAS - Supply 1 1,650 2 1.8 AHU-8 EF DOAS - Exhaust 1 1,450 1.5 1.18 HFC -53 SF Supply 1 950 0.75 0.75 HFC -60 SF Supply 1 1,700 0.75 0.75 HFC -61 SF Supply 1 600 0.33 0.33 HFC -62 SF Supply 1 900 0.75 0.75 HFC -63 SF Supply 1 600 0.33 0.33 TU -1 SF Supply 1 630 0.167 0.167 TU -2 SF Supply 1 500 0.167 0.167 TU -3 SF Supply 1 500 0.167 0.167 TU -4 SF Suppty 1 500 0.167 0.167 TU -5 SF Supply 2 785 0.33 0.33 TU -6 SF Supply 2 785 0.33 0.33 TU -7 SF Supply 1 260 0.125 0.125 TU -8 SF Supply 1 260 0.125 0.125 TU -9 SF Supply 1 260 0.125 0.125 TU -10 SF Supply 1 260 0.125 0.125 TU -11 SF Supply 1 350 0.125 0.125 TU -12 SF Supply 1 260 0.125 0.125 TU -13 SF Supply 1 260 0.125 0.125 TU -14 SF Supply 2 785 0.33 0.33 TU -15 SF Supply 1 260 0.125 0.125 TU -16 SF Supply 1 260 0.125 0.125 TU -17 SF Supply 1 260 0.125 0.125 Note 1 - Total CFM is the maximum CFM of the listed fan(s) when operating at peak design operating conditions. Note 2 - Total namplate hp of the listed fan(s). Note 3 - Total brake horsepower (bhp) of the listed fan(s) at peak design operating conditions. Not required if Nameplate HP compliance option chosen. Compliance Message: Total Proposed: 9.3 8.8 Total Allowance: 14.9 12.8 COMPLIES Brake Horsepower Allowance Adjustments 2015 Washington State Energy Code Compliance Forms for Commerci Device Type Description and Location CFM thorough this device (CFMD) Assigned Pressure Drop, PD in w.c. (Note 6) Calculated Pressure Drop, PD in w.c. (Note 7) Adjustment, A in bhp (Note 8) Note 4 - Bhp allowance for energy recovery devices and run around coil loops includes both air Total Adjustment (bhp): streams_ se the CFMn is the .cum of tha cnnniu (`M and ovhauct (^ FAA if hnrh n., rh...,.,.ti 0.00 the device. Note 5 - Energy recovery effectiveness is defined as change in the enthalpy of the outdoor air supply divided by the enthaply difference between the outdoor air and retum air at design conditions. Note 6 - Assigned pressure drop (PD) adjustment per Table C403.2.11.1(2). Note 7 - Pressure drop (PD) adjustment shall be calculated per the applicable method defined in Table C403.2.11.1(2) based on specific system conditions. Note 8 - A = PD * CFMD/4131 where A is the allowed system brake horse power adjustment, PD is pressure drop allowance, and CFMD is the cfm through the device. General Instructions: A. Include all fans directly associated with the delivery and removal of conditioned air to the zones served by the system. Enter CFM and brake horsepower (bhp) of each fan at peak design conditions and the nameplate horsepower (hp). Include supply, retum and relief fans, exhaust and exhaust hood fans (>1 hp), booster fans and fans included as part of make-up air units, dedicated outside air systems (DOAS), energy recovery ventilators (ERV), and series fan -powered terminal equipment. B. VAV parallel fan -powered terminals and economizer relief fans do not need to be included if the fans do not operate at peak conditions. C. Fans not directly associated with the delivery and removal of conditioned air, such as condenser fans, do not need to be included in the fan power total. D. Fan power calculations are not required for non -central air HVAC systems such as 4 -pipe fan coils and variable refrigerant flow (VRF) systems unless individual fan systems are greater than 5hp. E. In the Brake Horsepower Allowance Adjustments table, if a Device Type is selected that has an Assigned Pressure Drop, this value will autofill into the Assigned Pressure Drop cell and the Calculated Pressure Drop cell will be write -protected. If the Device Type requires a Calculated Pressure Drop, then enter this value into the Calculated Pressure Drop cell and the Assigned Pressure Drop cell with be write -protected. F. Refer to FAQ section of MECH-FANSYS-DOC for additional instructions. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 Mechanical Fan System Power Allowance MECH-FANSYS 2015 Washington State Energy Code Compliance Forms for Commercial Buildings including R2 & R3 over 3 stories and all R1 Revised January 2017 Project Title: Foster High School Modemization Date 4/23/2017 A separate MECH-FANSYS form must be completed for every HVAC system that exceeds the 5 hp threshold. For Building Dept. Use Fan System ID HRU-1 System Supply Fan y pp y Speed Control CV Constant Volume (CV), Variable Air Volume (VAV), or Hospital/Lab CV system that qualifies for VAV budget per C403.2.11.1, Exception 1 Compliance Option P P Brake HP Compliance is based upon either the fan motor nameplate horse power (Option 1), the fan brake horsepower (Option 2), or C403.7 high efficieny VAV fan brake horsepower (10% less than Option 2). The bhp calculation provides adjustments for special equipment per Table C403.2.11.1(2). Fan System Supply CFM Total In Fan Equipment Schedule below, provide maximum design supply airflow rate (CFM) of all supply fans serving the conditioned space in Fan Equipment Schedule below. Fan System CFM Total is the supply airflow of the central air handler at peak design conditions. Additional volumetric air flow provided at zone fan terminals, booster fans, or through induction is not included in the supply CFM total. However, the fan power of this equipment is included in the HP and BHP calculations. Fan System Supply CFM Total is automatically calculated by the form. Fan Equipment Schedule Fan ID and Location Quantity of Fan Type Total CFM (Note 1) Total Nameplate HP (Note 2) Total BHP (Note 3) HRU-1 SF ERV - Supply 1 8,800 5 4.6 HRU-1 EF ERV - Exhaust 1 8,800 5 3.6 Note 1 - Total CFM is the maximum CFM of the listed fan(s) when operating at peak design operating conditions. Note 2 - Total namplate hp of the listed fan(s). Note 3 - Total brake horsepower (bhp) of the listed fan(s) at peak design operating conditions. Not required if Nameplate HP compliance option chosen. Compliance Message: Total Proposed: Total Allowance: 10.0 8.2 9.7 8.3 COMPLIES Brake Horsepower Allowance Adjustments Device Type Description and Location CFM thorough this device (CFMD) Assigned Pressure Drop, PD in w.c. (Note 6) Calculated Pressure Drop, PD in w.c. (Note 7) Adjustment, A in bhp (Note 8) Note 4 - Bhp allowance for energy recovery devices and run around coil loops includes both air Total Adjustment (bhp): _..v _�_ __ .�_ nr.•n :_ ate_ _..� _r aa__ _., l.rnr __� __. a._.._a nrnr m Lail -._ a��..-.� 0.00 the device. Note 5 - Energy recovery effectiveness is defined as change in the enthalpy of the outdoor air supply divided by the enthaply difference between the outdoor air and retum air at design conditions. Note 6 - Assigned pressure drop (PD) adjustment per Table C403.2.11.1(2). Note 7 - Pressure drop (PD) adjustment shall be calculated per the applicable method defined in Table C403.2.11.1(2) based on specific system conditions. Note 8 - A = PD * CFMD/4131 where A is the allowed system brake horse power adjustment, PD is pressure drop allowance, and CFMD is the cfm through the device. 2015 Washington State Energy Code Compliance Forms for Commercial, R2 and R3 over 3 stories and all R1 General Instructions: A. Include all fans directly associated with the delivery and removal of conditioned air to the zones served by the system. Enter CFM and brake horsepower (bhp) of each fan at peak design conditions and the nameplate horsepower (hp). Include supply, return and relief fans, exhaust and exhaust hood fans (>1 hp), booster fans and fans included as part of make-up air units, dedicated outside air systems (DOAS), energy recovery ventilators (ERV), and series fan -powered terminal equipment. B. VAV parallel fan -powered terminals and economizer relief fans do not need to be included if the fans do not operate at peak conditions. C. Fans not directly associated with the delivery and removal of conditioned air such as condenser fans, do not need to be included in the fan power total. D. Fan power calculations are not required for non -central air HVAC systems such as 4 -pipe fan coils and variable refrigerant flow (VRF) systems unless individual fan systems are greater than 5hp. E. In the Brake Horsepower Allowance Adjustments table, if a Device Type is selected that has an Assigned Pressure Drop, this value will autofill into the Assigned Pressure Drop cell and the Calculated Pressure Drop cell will be write -protected. If the Device Type requires a Calculated Pressure Drop, then enter this value into the Calculated Pressure Drop cell and the Assigned Pressure Drop cell with be write -protected. F. Refer to FAQ section of MECH-FANSYS-DOC for additional instructions. 4 System Checksums By Trial AC -5/6 Fan Coil COOLING COIL PEAK Peaked at Time: Mohr 7 / 16 Outside Air: OADB/WB/HR: 81 / 63 / 58 CLG SPACE PEAK Mo/Hr. Sum of OADB: Peaks HEATING COIL PEAK Mo/Hr: Heating Design OADB: 25 TEMPERATURES Cooling Heating SADB 55.0 79.4 Ra Plenum 84.5 66.1 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return 84.5 66.1 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 84.5 66.1 Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 0 0 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0 Skylite Cond 0 0 0.00 Roof Cond 0 1,431 1,431 65 0 0 Roof Cond 0 -987 100.00 Glass Solar 0 0 0 0 0 0 Glass Solar 0 0 0.00 AIRFLOWS Class/Door Cond 0 0 0 0 0 0 Glass/Door Cond 0 0 0.00 Cooling Heating Wall Cond 0 Partition/Door 0 0 0 0 0 0 0 0 0 0 Wall Cond Partition/Door 0 0 0 0.00 0 0.00 Diffuser 68 68 Floor 0 0 0 0 0 Floor 0 0 0.00 Terminal 68 68 Adjacent Floor 0 0 0 0• 0 0 Adjacent Floor 0 0 0 Main Fan 68 68 Infiltration 0 0 0- 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total ==> 0 1,431 1.431 65 0 0 Sub Total =_> 0 -987 100.00 Nom Vent 0 0 AHU Vent 0 0 Internal Loads Intemal Loads Intl! 0 0 Lights 766 0 766 35 766 49 Lights 0 0 0.00 MinStop/Rh 0 0 People 0 00 0 0 0 People 0 0 0.00 Return68 68 Misc 0 0 0 0 0 0 Misc 0 0 0.00 Exhaust 0 0 Sub Total =_> 766 0 766 35 766 49 Sub Total =_> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 797 -797 0 0 797 51 Ceiling Load -550 0 0.00 Leakage Dwn 0 0 Ventilation Load 0 00 0 0 0 Ventilation Load 0 0 0.00 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Sizing 0 0 0.00 OvlUndr Sizing 00 0 0 0 Exhaust Heat 0 0.00 ENGINEERING CKS Exhaust Heat 0 0 0 OA Preheat Diff. 0 0.00 Sup. Fan Heat 0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 00 0 Additional Reheat 0 0.00 % OA 0.0 0.0 Duct Heat Pkup 0 0 0 cfmrtt' 0.23 0.23 Umlerflr Sup Ht Pkup0 0 Underflr Sup Ht Pkup 0 0.00 cfmrton 369.95 Supply Air Leakage 00 0 Supply Air Leakage 0 0.00 n'/ton 1,612.70 Btu/hrf[' 7.44 -3.34 Grand Total ..> 1,563 634 2,197 100.00 1,563 100.00 Grand Total ==> -550 -987 100.00 No. People 0 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F grAb °F °F grAb ft' (5) MBh cfm °F °F Main Clg 0.2 2.2 2.2 68 84.5 60.8 43.0 55.0 49.0 42.7 Floor 295 Main Htg -1.0 68 66.1 79.4 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFIr 0 Total 0.2 2.2 Roof 295 0 0 Humidif 0.0 0 0.0 0.0 Wall 0 0 0 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -1.0 Prcject Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 1 0114 System Checksums By Trial ADMIN - CASSETTES Fan Coil COOLING COIL PEAK Peaked at Time: Mo/Hr: 7 / 18 Outside Air: OADB/WB/HR: 77 / 60 / CLG SPACE PEAK Mo/Hr: Sum of • 50 OADB: Peaks • HEATING COIL PEAK Mo/Hr: Heating Design OADB: 25 TEMPERATURES Cooling Heating SADB 58.4 75.3 Ra Plenum 76.6 71.3 Space Plenum Net Percent Space Percent , Space Peak Coil Peak Percent Return 76.6 71.3 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total . Space Sens Tot Sens Of Total Ret/OA 75.6 70.8 Btu/h Btu/h Btu/h (6) Btu/h (s) Btu/h BtuTh (%) Fn MtrTD 0.0 0.0 Envelope Loads : Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 0 0 0 0 0 : Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0, Skylite Cond 0 0 0.00 Roof Cond 0 4,425 4,425 4 • 0 0 Roof Cond 0 -4,499 7.93 Glass Solar 71,802 0 71,802 68 92,009 74 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond 993 0 993 1. 480 0 Glass/Door Cond - -20,772 -20,772 36.61 Cooling Heating Wall Cond Partition/Door 748 0 517 1,265 0 1 0 433 0 0 Wall Coad 0 Partition/Door -1,519 0 -2,606 4.59 o 0.00 Diffuser 6,465 6,465 Floor 0 0 0 0 0. Floor 0 0 0.00 Terminal 6,465 6,465 Adjacent Floor 0 0 0 0• 0 0 Adjacent Floor 0 0 0 Main Fan 6,465 6,465 Infiltration 0 0 0 0 0• Infiltraticn 0 0 0.00 Sec Fan 0 0 Sub Total ==> 73,543 4,942 78,485 74 : 92,923 75 Sub Total =_> -22,292 -27,877 49.14 Nom Vent 558 558 AHU Vent 558 558 Internal Loads Internal Loads Infil 0 0 Lights 12,300 0 12,300 12 12,300 10 Lights 0 0 0.00 MinStop/Rh 0 0 People 22,991 0 22,991 22. 13,321 11 People 0 0 0.00 Return 6,465 6,465 Misc 5,339 0 5,339 5. 5,339 4 Misc 0 0 0.00 Exhaust 558 558 Sub Total => 40,630 0 40,630 38: 30,959 25 Sub Total ==>0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 786 -786 0 0 793 1 Ceiling Load -869 0 0.00 Leakage Own 0 0 Ventilation Load 0 0 -12,554 -12 0 0 Ventilation Load 0 -4,291 7.56 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0: 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 . • Ov/Undr Siaing -145 -145 0.26 ENGINEERING CKS Ov/Undr Sizing 52 52 0 52 0 Exhaust Heat 407 -0.72 Exhaust Heat -368 -368 0 OA Preheat Diff. -24,827 43.76 Sup. Fan Heat 0 0 ; RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 0 0 0 Additional Reheat 0 0.00 4 OA 8.6 8.6 Duct Heat Pkup 0 0 0 cfmtfV 1.56 1.56 Underflr Sup Ht Pkup 0 0 - Underflr Sup Ht Pkup 0 0.00 cfm/ton 667.63 Supply Air Leakage 0 0 0 Supply Air Leakage 0 0.00 ft'/ton 426.81 Btu/hrft' 28.12 -13.73 Grand Total=> 115,011 3,788 106,246 100.00 124,727 100.00 Grand Total ==> -23,306 -56,733 100.00 No. People 54 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/FIR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F gr/Ib °F °F gr/b ft' (°h) MBh cfm °F °F Main Clg 8.9 106.3 102.4 6,465 75.6 61.9 62.1 58.4 55.5 62.1 Floor 4,133 Main Htg -31.9 6,465 70.8 75.3 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.8 10.0 10,0 558 81.3 63.5 60.4 65.0 57.6 60.4 ' Int Door 0 Preheat 0.0 0 0.0 0.0 ExFir 0 Total 9.7 116.2 Roof 1,515 0 0 Humidif 0.0 0 0.0 0.0 Wall 1,863 726 39 Opt Vent -24.8 558 24.5 65.0 Ext Door 0 0 0 Total -56.7 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 4.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 2 of 14 System Checksums By Trial ADMIN - FAN COILS Single Zone Variable Air Volume COOLING COIL PEAK Peaked at Time: Mo/Hr: 9 / 13 CLG SPACE PEAK Mo/Hr: 9 / 13 HEATING COIL PEAK Mohr: Heating Design TEMPERATURES Cooling Heating Outside Air OADB/WB/HR: 75/61 /57 OADB: 75 OADB: 25 SADB 40.3 89.2 Ra Plenum 76.7 70.5 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return 76.7 70.5 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 72.4 68.0 Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 0 0 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0 Skylite Cond 0 0 0.00 ---- Roof Cond 0 1,713 1,713 2 : 0 0 Roof Cond 0 -2.947 5.36 Glass Solar 33,831 0 33,831 44 33,831 47 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond -392 0 -392 -1 -392 -1 Glass/Door Cond -8,793 -8,793 16.00 Cooling Heating Wall Cond 1,454 Partition/Door 0 743 2,197 0 3 0 1,454 0 2 0 Wall Cond Partition/Door -2,835 0 -4,260 7.75 0 0.00 Diffuser 3,527 1,081 Floor 0 0 0 0 0 Floor 0 0 0.00 Terminal 3,527 1,081 Adjacent Floor 0 0 0 0 0 0 Adjacent Floor 0 0 0 Main Fan 3,527 1,081 Infiltration 0 0 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total ==> 34,893 2,456 37,349 49 34,893 48 Sub Total =_> -11,628 -16,000 29.11 Nom Vent 670 485 AHU Vent 670 485 Internal Loads Internal Loads 1051 0 0 Lights 13,184 0 13,184 17 13,184 18 Lights 0 0 0.00 MinStop/Rh 1,081 1,081 People 34,242 0 34,242 45 18,912 26 People 0 0 0.00 Return 3,527 1,081 Misc 4,013 0 4,013 5 4,013 6 Misc 0 0 0.00 Exhaust 670 485 Sub Total =_> 51,438 0 51,438 68 36,109 50 Sub Total ==> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 1,191 -1,191 0 0 1,191 2 Ceding Load -2,565 0 0.00 Leakage Dwn 0 0 Ventilation Load 0 0 -12,140 -16 0 0 Ventilation Load 0 -3,730 6.79 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Sizing -6,224 -6,224 11.32 Ov/Undr Sizing 00 0 0 0 Exhaust Heat 813 -1.48 ENGINEERING CKS Exhaust Heat -521 -521 -1 OA Preheat Diff. -29,818 54.25 Sup. Fan Heat0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 00 0 Additional Reheat 0 0.00 % OA 19.0 44.8 Duct Heat Pkup 00 0 cfm/ft' 0.66 0.20 Underflr Sup Ht Pkup0 0 Underfir Sup Ht Pkup 0 0.00 cfm/ton 480.43 Supply Air Leakage 00 0 supply Air Leakage 0 0.00 ft'/ton 723.09 Btu/heft' 16.60 -10.35 Grand Total ==--> 87,522 743 76,125 100.00 72,193 100.00 Grand Total .--> -20,416 -54,959 100.00 No. People 76 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F grab °F °F grub 17 (%) MBh cfm °F °F Main Clg 6.3 76.1 64.8 1,839 72.4 60.7 61.9 40.3 40.2 37.1 Floor 5,308 Main Htg -25.1 1,081 68.0 89.2 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 1.0 12.0 12.0 670 81.3 63.5 60.4 65.0 57.6 60.4 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFIr 0 Total 7.3 88.1 Roof 1,347 0 0 Humidif 0.0 0 0.0 0.0 Wall 1,899 312 16 Opt Vent -29.8 670 24.5 65.0 Ext Door 0 0 0 Total -55.0 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE/0700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 3 of 14 System Checksums By Trial AHU-1 COMMONS SZVAV Single Zone Variable Air Volume COOLING COIL PEAK Peaked at Time: Mo/Hr8 / 15 CLG SPACE PEAK Mo/Hr: 9 / 15 HEATING COIL PEAK Mo/Hr: Heating Design TEMPERATURES Cooling Heating Outside Air: OADB/WB/HR: 79/63/62 OADB: 77 OADB: 25 SADB 49.8 115.1 Ra Plenum 77.7 68.1 Space Plenum Net Percent Space Percent i Space Peak Coil Peak Percent Return 77.7 68.1 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ref/OA 78.7 30.9 Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 0 0 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0 Skylite Cand 0 0 0.00 Roof Cond 0 25,558 25.558 5 0 0 Roof Cond 0 -30,269 9.11 Glass Solar 121,255 0 121,255 25 135,206 41 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond Wall Cond 3,312 3,829 0 2,526 3,3121 6,355 1 449 0 Glass/Door Cond -53,156 -53,156 16.00 Cooling Heating Partition/Door 0 0 4,075 0 0 1 Wall Cord 0 Partition/Door -5,657 0 -9,304 2.80 0 0.00 Diffuser 11,479 3,591 Floor 0 0 0 0 0 Floor0 0 0.00 Terminal 11,479 3,591 Adjacent Floor 0 0 0 0 0 0 Adjacent Floor0 0 0 Main Fan 11,479 3,591 Infiltration 0 0 0 0 0 Infiltration0 0 0.00 Sec Fan 0 0 Sub Total ==> 128,396 28,085 156,481 32 139,730 42 Sub Total ==> -58,812 -92,729 27.92 Nom Vent 6,874 3,062 AHU Vent 6,874 3,062 Internal Loads Internal Loads Infil 0 0 Lights 26,753 0 26,753 6 26,753 8 - Lights 0 0 0.00 MinStop/Rh 3,591 3,591 People 313,898 0 313,898 65 156,971 47 People0 0 0.00 Retum 11,479 3,591 Misc 302 0 302 0 302 0 Misc 0 0 0.00 Exhaust 6,874 3,062 Sub Total ==> 340,954 0 340,954 71 184,027 56 Sub Total ==> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 7,882 -7,882 0 0 5,867 2 Ceiling Load -18,523 0 0.00 Leakage Own 0 0 Ventilation Load 0 0 -2,726 -1 0 0 Ventilation Load 0 -159,802 48.11 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Sizing -92,780 -92,780 27.93 ENGINEERING CKS Ov/Undr Sizing Exhaust Heat 0 -12,572 00 -12,572 -3 919 0 Exhaust Heat OA Preheat Diff. 13,159 -3.96 0 0.00 Sup. Fan Heat 00 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 0 00 Additional Reheat 0 0.00 % OA 59.9 85.3 Duct Heat Pkup 0 00 cfm/W 0.77 0.24 Undertlr Sup Ht Pkup 00 Underflr Sup Ht Pkup 0 0.00 cfm/ton 285.70 Supply Air Leakage 0 00 Supply Air Leakage 0 0.00 fP/ton 371.98 Btu/hrft' 32.26 -22.22 Grand Total=> 477,231 7,632 482,137 100.00 330,542 100.00 Grand Total==o -170,115 -332,152 100.00 No. People 571 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DBI B/HR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh M8h cfm °F °F grub °F °F grab ft' (%) MBh cfm °F °F Main CIg 40.2 482.1 352.8 11,123 78.7 63.5 64.6 49.8 48.1 47.8 - Floor 14,945 Main Htg -332.2 3,591 30.9 115.1 Aux CIg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 1 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 i Int Door 0 Preheat 0.0 0 0.0 0.0 ExF(r 0 Total 40.2 482.1 Roof 14,585 0 0 Humidif 0.0 0 0.0 0.0 Wall 5,185 1,941 37 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -332.2 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 4 of 14 A k System Checksums By Trial AHU-2 AUX GYM SZVAV Single Zone Variable Air Volume COOLING COIL PEAK Peaked at Time: Mo/Hr 8 /12 CLG SPACE PEAK Mo/Hr 8 / 11 HEATING COIL PEAK Mohr Heating Design TEMPERATURES Cooling Heating Outside Air: OADB/WB/HR: 76 / 62 / 62 OADB: 73 OADB: 25 SADB 55.0 180.8 Ra Plenum 77.5 66.9 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return 77.5 66.9 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 76.8 27.8 Btu/h Btu/h Btu/h (%) Btu/h (X) Btu/h Btu/h (X) Fn MtrTO 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 0 0 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0 Skylite Cond 0 0 0.00 Roof Cond 0 9,263 9,263 7 0 0 Roof Cond 0 -14,270 5.23 Glass Solar 66,744 0 66,744 48 75,054 61 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond -1,347 0 -1,347 -1 -3,168 -3 Glass/Door Cond -36,247 -36,247 13.29 Cooling Heating Wall Cond 5,569 2,776 8,345 6 4,468 4 Wall Cond -13,420 -19,662 7.21 Partition/Door 0 0 0 0 0 Partition/Door 0 0 0.00 Diffuser 5,323 1,622 Floor 0 0 0 0 0 Floor 0 0 0.00 Terminal 5,323 1,622 Adjacent Floor 0 0 0 0 0 0 Adjacent Floor 0 0 0 Main Fan 5,323 1,622 Infiltration 0 0 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total==> 70,966 12,039 83,005 60 76,354 62 Sub Total ==> -49,667 -70,179 25.74 Nom Vent 2,014 1,495 AHU Vent 2,014 1,495 Internal Loads Internal Loads Inti! 0 0 Lights 35,260 0 35,260 25 35,260 29 Lights 0 0 0.00 MinStop/Rh 1,622 1,622 People 17,500 0 17,500 13 8,750 7 People 0 0 0.00 Return 5,323 1,622 Misc 0 00 0 0 0 Misc 0 0 0.00 Exhaust 2,014 1,495 Sub Total ==> 52,760 0 52,760 38 44,010 36 Sub Total ==> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 3,425 -3,425 0 0 2,455 2 Ceiling Load -11,422 0 0.00 Leakage Dwn 0 0 Ventilation Load 0 0 6,530 5 0 0 Ventilation Load 0 -78,008 28.61 Leakage Ups 0 0 Adj Air Trans Heat 00 0: 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Sizing -132,854 -132,854 48.72 ov/undr sizing 00 0 0 0 Exhaust Heat 8,375 -3.07 ENGINEERING CKS Exhaust Heat -3,383 -3,383 -2 OA Preheat Diff. 0 0.00 Sup. Fan Heat0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 00 0 Additional Reheat 0 0.00 % OA 37.8 92.1 Duct Heat Pkup 00 0 cfm/ft' 0.75 0.23 Undertlr Sup Ht Pkup 0 0 Underflr Sup Ht Pkup 0 0.00 cfm/ton 459.82 Supply Air leakage 00 0 Supply Air Leakage 0 0.00 ft'/ton 610.63 Btu/hr-W 19.65 -38.57 Grand Total --.=> 127,150 5,231 138,911 100.00 122,819 100.00 Grand Total ---=> -193,944 -272,666 100.00 No. People 35 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F gr/Ib °F °F grub R' (A) MBh cfm °F °F Main Clg 11.6 138.9 123.0 5,131 76.8 61.7 59.3 • 55.0 52.2 54.7 Floor 7,069 Main Htg -272.7 1,622 27.8 180.8 Aux CIg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFIr 0 Total 11.6 138.9 Roof 7,069 0 0 Humidif 0.0 0 0.0 0.0 Wall 7,977 1,324 17 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -272.7 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 5 of 14 System Checksums By Trial AHU-3 WEIGHT TRAINING SZVAV Single Zone Variable Air Volume COOLING COIL PEAK Peaked at Time: Mo/Hr: 7 / 14 CLG SPACE PEAK Mo/Hr 7 / 10 HEATING COIL PEAK Mo/Hr Heating Design TEMPERATURES Cooling Heating Outside Air: OADB/WB/HR: 81/64/63 OADB: 71 OADB: 25 SADB 55.0 123.3 Ra Plenum 79.3 65.9 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return 79.3 65.9 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 80.1 27.8 Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BI6TD 0.0 0.0 Skylite Solar 0 0 0 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0 Skylite Cond 0 0 0.00 Roof Cond 0 8,849 8,849 17 0 0 Roof Cond 0 -8,372 14.18 Glass Solar 9,932 0 9,932 19 23,242 54 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond Wall Cond 1,111 1,814 0 665 1,111 2,479 2 5 -2,073 1,566 -5 4 Glass/Docs Cond Wall Cond -15,151 -6,696 -15,151 -9,615 25.66 16.28 Cooling Heating Partition/Door 0 0 0 0 0 Partition/Door 0 0 0.00 Diffuser 1,859 563 Floor 0 0 0 0 0 Floor 0 0 0.00 Terminal 1,859 563 Adjacent Floor 0 0 0 0 0 0 Adjacent Floor 0 0 0 Main Fan 1,859 563 Infiltration 0 0 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total==> 12,857 9,514 22,371 . 43 22,735 53 Sub Total==> -21,847 -33,137 56.12 Nom Vent 893 518 AHU Vent 893 518 Internal Loads Internal Loads Unfit 0 0 Lights 8,305 0 8,305 16 8,305 19 Lights 0 0 0.00 MinStop/Rh 563 563 People 18,975 0 18,975 36 9,563 22 People 0 0 0.00 Return 1,859 563 Misc 1,029 0 1,029 2 1,029 2 Misc 0 0 0.00 Exhaust 893 518 Sub Total==> 28,309 0 28,309 54 18,897 44 Sub Total =_> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 3,998 -3,998 0 0 1,252 3 Ceiling Load -7,517 0 0.00 Leakage Own 0 0 Ventilation Load 0 0 4,938 9 0 0 Ventilation Load 0 -27,032 45.78 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 OvlUndr Sizing -2,351 -2,351 3.98 ENGINEERING CKS Ov/Undr Sizing Exhaust Heat 0 -3,190 0 -3,190 0 -6 0 0 Exhaust Heat OA Preheat Diff. 3,476 -5.89 0 0.00 Sup. Fan Heat 0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 0 0 0 Additional Reheat 0 0.00 % OA 48.1 92.0 Duct Heat Pkup 0 0 0 cfm/ft' 0.48 0.14 Underflr Sup Ht Pkup 0 0 Undertlr Sup Ht Pkup 0 0.00 cfmlton 425.40 Supply Air Leakage 0 0 0 Supply Air Leakage 0 0.00 ft/ton 889.00 Btu/hr•fN 13.50 -15.20 Grand Total --=> 45,164 2,326 52,428 100.00 42,884 100.00 Grand Total =_> -31,715 -59,044 100.00 No. People 35 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/W8/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm -F °F grab °F °F grab ?t (%) MBh cfm °F °F Main Clg 4.4 52.4 42.7 1,549 80.1 63.6 62.8 55.0 52.0 53.7 Floor 3,884 Main Htg -59.0 563 27.8 123.3 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFIr 0 Total 4.4 52.4 - Roof 3,884 0 0 Humidif 0.0 0 0.0 0.0 Wall 3,865 553 14 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -59.0 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 6 of 14 System Checksums By Trial AHU-4 PAC SEATING Single Zone Variable Air Volume COOLING COIL PEAK Peaked at Time: Mohr. 7 / 14 CLG SPACE PEAK Mohr. 7 / 18 HEATING COIL PEAK Mo/Hr Heatirg Design TEMPERATURES Cooling Heating Outside Air: OADB/WB/HR: 81/64/63 OADB: 77 OADB: 25 SADB 54.2 153.8 Ra Plenum 78.1 67.7 Space Plenum Net Percent • Space Percent Space Peak Coil Peak Percent Return 78.1 67.7 Sens. + Lat. Sens. + Lat Total Of Total : Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 79.3 24.5 Btu/h Btu/h Btu/h (%). Btu/h (%) Btu/h Btu/h (%) Fn MtrTD 0.0 0,0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 0 0 0 . 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0 Skylite Cond 0 0 0.00 Roof Cond 0 25,827 25,827 8 0 0 Roof Cond 0 -19,826 4.81 Glass Solar 0 00 0 0 0 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond 0 00 0 0 0 Glass/Door Cond 0 0 0.00 Cooling Heating Wall Cond Partition/Door 202 00 -18 184 0 0 1,627 0 1 0 Wall Cond Partition/Door -5,016 0 -6,840 1.66 0 0.00 Diffuser 9,678 2,904 Floor 00 0 0 0 Floor 0 0 0.00 Terminal 9,678 2,904 Adjacent Floor 0 00 0 0 0 Adjacent Floor 0 0 5 Main Fan 9,678 2,904 Infiltration 00 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total __> 202 25,809 26,011 8 1,627 1 Sub Total =_> -5,016 -26,666 6.47 Nom Vent 4,536 2,904 AHU Vent 4,536 2,904 Internal Loads Internal Loads Infit 0 0 Lights 37,054 0 37,054 11 37,054 16 Lights 0 0 0.00 MinStop/Rh 2,904 2,904 People 281,716 0 281,716 83 189,727 82 People 0 0 0.00 Return 9,678 2,904 Misc 0 00 0 0 0 Misc 0 0 0.00 Exhaust 4,536 2,904 Sub Total =_> 318,770 0 318,770 93 226,781 98 Sub Total ==> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 3,780 -3,780 0 0 3,997 2 Ceiling Load -7,840 0 0,00 Leakage Own 0 0 Ventilation Load 0 0 6,982 2 0 0 Ventilation Load 0 -151,552 36.74 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Sizing -248,046 -248,046 60.14 Ov/Undr Sizing 00 0 0 0 Exhaust Heat 13,810 -3.35 ENGINEERING CKS Exhaust Heat -10,403 -10,403 -3 OA Preheat Diff. 0 0.00 Sup. Fan Heat0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 00 0 Additional Reheat 0 0.00 % OA 46.9 100.0 Duct Heat Pkup 00 0 cfm/fN 1.69 0.51 Underflr Sup Ht Pkup0 0 Underflr Sup Ht Pkup 0 0.00 cfm/ton 340.23 Supply Air Leakage 00 0 Supply Air Leakage 0 0.00 ft'/ton 200.96 Btu/hrft 59.71 -72.15 Grand Total=> 322,753 11,625 341,360 100.00 232,405 100.00 Grand Total ==> -260,902 -412,454 100.00 No. People 839 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F gr/Ib °F °F grlb ft' (%) MBh cfm °F °F Main Clg 28.5 341.4 265.8 9,610 79.3 63.9 65.8 54.2 51.8 54.5 Floor 5,717 Main Htg -412.5 2,904 24.5 153.8 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFIr 0 Total 28.5 341.4 Roof 5,717 0 0 Humidif 0.0 0 0.0 0.0 Wall 3,311 0 0 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -412.5 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 7 of 14 System Checksums By Trial AHU-5 PAC STAGE COOLING COIL PEAK Peaked at Time: Mo/Hr: 7 / 14 Outside Air: OADB/WB/HR: 81 / 64 / CLG SPACE PEAK Mo/Hr 7 / 18 63 OADB: 77 HEATING COIL PEAK Mo/Hr: Heating Design OADB: 25 TEMPERATURES Cooling Heating SADB 55.0 87.5 Ra Plenum 78.6 65.4 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Retum 78.6 65.4 Sens. + Lat. Sens. + Lat Total Of Total • Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 80.1 24.5 Btu/h Btu/h Btu/h (y,) Btu/h (55) Btu/h Btu/h (55) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 00 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skytite Cond 0 00 0 0 0 Skylile Cond 0 0 0.00 Roof Cond 0 13,782 13,782 10 0 0 Roof Coed 0 -12,679 14.78 Glass Solar 0 00 0 0 0 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond Wall Cond 0 2,516 00 724 3,240 0: 0 2 4,914 0 Glass/Door Cond 5Wall Cond 0 -12,952 0 0.00 20.30 Cooling Heating Partition/Door 00 0 0 0 PartitionaDoor 0 -17,410 0 0.00 Diffuser 4,132 1,240 Floor 00 0 0 0' Floor 0 0 0.00 Terminal 4,132 1,240 Adjacent Floor 0 00 0 0 0 Adjacent Floor 0 0 0 Main Fan 4,132 1,240 Infiltration 00 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total =_> 2,516 14,507 17,023 12 4,914 5 Sub Total =_> -12,952 -30,089 35.08 Nom Vent 2,932 1,240 Internal AHU Vent 2,932 1,240 Loads ' Internal Loads Infil 0 0 Lights 25,567 0 25,567 18 25,567 27 Lights 0 0 0.00 MinStop/Rh 1,240 1,240 People 89,107 0 89,107 63 60,755 64 People 0 0 0,00 Retum 4,132 1,240 Misc 0 0 0 0 0 0 Misc 0 0 0.00 Exhaust 2,932 1,240 Sub Total ==> 114,673 0 114,673 82 86,321 91 Sub Total ==> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 3,167 -3,167 0 0 4,106 4 Ceiling Load -8,109 0 0.00 Leakage Own 0 0 Ventilation Load 0 0 17,088 12 0 0 Ventilation Load 0 -64,699 75.44 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Sizing 0 0 0.00 ENGINEERING CKS Ov/Undr Sizing Exhaust Heat 0 -8,338 0 -8,338 0 -6 0 0 Exhaust Heat OA Preheat Diff. 9,028 -10.53 0 0.00 Sup. Fan Heat 0 0 RA Preheat) Diff. 0 0.00 Cooling Heating Ret. Fan Heat 0 0 0 Additional Reheat 0 0,00 % OA 71.0 100.0 Duct Heat Pkup 0 0 0 cfm/ft' 1.07 0.32 Underflr Sup Ht Pkup 0 0 Underflr Sup Ht Pkup 0 0.00 cfm/ton 353.05 Supply Air Leakage 0 0 0 Supply Air Leakage 0 0.00 fl'/ton 329.92 Btu/heft' 36.37 -22.21 Grand Total a> 120,356 3,002 140,446 100.00 95,342 100.00 Grand Total => -21,061 -85,760 100.00 No. People 270 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F grub °F °F grab ft' (5) MBh cfm °F °F Main Clg 11.7 140.5 110.1 3,987 80.1 63.6 62.8 55.0 51.5 51.8 Floor 3,861 Main Htg -85.8 1,240 24.5 87.5 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 EeFIr 0 Total 11.7 140.5 Roof 3,861 0 0 Humidif 0.0 0 0.0 0.0 Wall 8,548 0 0 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -85.8 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 8 of 14 System Checksums By Trial AHU-6 Single Zone Variable Air Volume COOLING COIL PEAK Peaked at Time: Mohr 7 CLG SPACE PEAK / 16 Mohr: 7 / 17 HEATING COIL PEAK Mo/Hr. Heating Design TEMPERATURES Cooling Heating Outside Air: DADS/WB/FIR: 81 / 63 / 58 OADB: 79 OADB: 25 SADB 55.0 113.1 Ra Plenum 84.3 63.6 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return 84.3 63.6 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 84.3 63.6 Btu/h Btu/h Btu/h (°A) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 0 0 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0 Skylite Cond 0 0 0.00 Roof Cond 0 7,281 7,281 62 0 0 Roof Cond 0 -4,769 79.75 Glass Solar 0 0 0 0 0 0 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond 0 00 0 0 0 Glass/Door Cond 0 0 0.00 Cooling Heating Wall Cond 332 76 408 3 426 5 Wall Cond -816 -1,085 18.14 Partition/Door 0 0 0 0 0 Partition/Door 0 0 0.00 Diffuser 366 110 Floor 0 0 0 0 0 Floor 0 0 0.00 Terminal 366 110 Adjacent Floor 0 00 0 0 0 Adjacent Floor 0 0 0 Main Fan 366 110 Infiltration 00 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total =_> 332 7,356 7,689 65 426 5 Sub Total =_> -816 -5,854 97.90 Nom Vent 0 0 AHU Vent 0 0 Imemal Loads Internal Loads Infil 0 0 Lights 4,091 0 4,091 35 4,091 48 Lights 0 0 0.00 MinStop/Rh 110 110 People 0 0 0 0 0 0 People 0 0 0.00 Retum 366 110 Miss 0 00 0 0 0 Misc 0 0 0.00 Exhaust 0 0 Sub Total ==> 4,091 0 4,091 35 4,091 48 Sub Total ==> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 4,008 -4,008 0 0 3,927 47 Ceiling Load -4,026 0 0.00 Leakage Own 0 0 Ventilation Load 0 00 0 0 0 Ventilation Load 0 0 0.00 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Oehumid. 00 Sizing 0 0 Ov/Undr Sizing -126 -126 2.10 Ov/Undr Sizing 00 0 0 0 Exhaust Heat 0 0.00 ENGINEERING CKS Exhaust Heat 0 0 0 OA Preheat Diff. 0 0.00 Sup. Fan Heat0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 00 0 Additional Reheat 0 0.00 % OA 0.0 0.0 Duct Heat Pkup 00 0 cfm/ft' 0.24 0.07 Underflr Sup Ht Pkup0 0 Underflr Sup Ht Pkup 0 0.00 cfm/ton 372.79 Supply Air Leakage 00 0 Supply Air Leakage 0 0.00 ft./ton 1,545.69 Btu/hrft' 7.76 -3.94 Grand Total .--> 8,432 3,348 11,780 100.00 8,444 100.00 Grand Total ==> -4,968 -5,980 100.00 No. People 0 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter OB/WB/HR Leave DBIWB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F gr/lb °F °F gr/tb ft' (%) MBh cfm 'F 'F Main Clg 1.0 11.8 11.8 365 84.3 61.3 45.5 55.0 49.7 45.2 Floor 1,517 Main Htg -6.0 110 63.6 113.1 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFIr 0 Total 1.0 11.8 Roof 1,517 0 0 Humidif 0.0 0 0.0 0.0 Wall 539 0 0 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -6.0 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACED 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 9 of 14 System Checksums By Trial AHU-7 GYM Single Zone Variable Air Volu COOLING COIL PEAK Peaked at Time: Mo/Hr: 8 / 15 Outside Air: OADB/WB/HR: 79 / 63 / CLG SPACE PEAK Mo/Hr 10 / 14 62 OADB: 65 HEATING COIL PEAK Mohr: Heating Design OADB: 25 TEMPERATURES Cooling Heating SADB 55.0 90.1 Ra Plenum 79.4 66.4 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return 79.4 66.4 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 79.3 24.5 Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 00 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0 Skylite Cond 0 0 0.00 Roof Cond 0 49,507 49,507 15 0 0 Roof Cond 0 -38,934 16.08 Glass Solar 68,509 0 68,509 20 97,113 39 Glass Sdar 0 0 0.00 AIRFLOWS Glass/Door Cond 767 0 767 0 -3,728 -1 Glass/Door Cond -15,838 -15,838 6.54 Wall Cond 2,494 957 3,451 1 355 0 Wall Cond -6,454 3.77 Cooling Heating Partition/Door 0 0 0 0 0 Partition/Door 0 -9,123 0 0.00 Diffuser 10,931 3,359 Floor 00 0 0 0 Floor 0 0 0.00 Terminal 10,931 3,359 Adjacent Floor 0 00 0 0 0 Adjacent Floor 0 0 0 Main Fan 10,931 3,359 Infiltration 0 0 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total ==> 71,770 50,464 122,233 36 93,740 37 Sub Total =_> -22,292 -63,895 26.39 Nom Vent 5,876 3,359 AHU Vent 5,876 3,359 Internal Loads Internal Loads loft 0 0 Lights 31,468 0 31,468 9 31,468 12 Lights 0 0 0.00 MinStop/Rh 3,359 3,359 People 181,500 0 181,500 53 123,750 49 People 0 0 0.00 Return 10,931 3,359 Misc 0 0 0 0 0 0 Misc 0 0 0.00 Exhaust 5,876 3,359 Sub Total ==> 212,968 0 212,968 63 155,218 62 Sub Total ==> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 12,292 -12,292 0 0 3,266 1 Ceiling Load -20,742 0 0.00 Leakage Dwn 0 0 Ventilation Load 0 0 25,889 8 0 0 Ventilation (Load 0 -175,295 72.40 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Sizing -23,803 -23,803 9.83 ENGINEERING CKS Ov/Undr Sizing Exhaust Heat 0 -21,629 0 -21,629 0 -6 0 0 Exhaust Heet OA Preheat Diff. 20,861 -8.62 0 0.00 Sup. Fan Heat 0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 0 0 0 Additional Reheat 0 0,00 % OA 53.8 100.0 Duct Heat Pkup 0 0 0 cfm/ft' 0.94 0.29 Underflr Sup Ht Pkup 0 0 Underflr Sup Ht Pkup 0 0.00 cfm/ton 386.41 Supply Air Leakage 0 0 0 Supply Air Leakage 0 0.00 fr/ton 409.39 Btu/hrft' 29.31 -20.91 Grand Total =.-> 297,029 16,543 339,461 100.00 252,224 100.00 Grand Total --=> -66,837 -242,133 100.00 No. People 550 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F grub °F °F gr/ib ft' (%) MBh cfm °F 'F Main Clg 28.3 339.5 277.1 10,370 79.3 63.1 61.9 55.0 51.8 53.2 Floor 11,581 Main Htg -242.1 3,359 24.5 90.1 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFIr 0 Total 28.3 339.5 Roof 11,581 0 0 Humidif 0.0 0 0.0 0.0 Wall 4,999 528 11 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -242.1 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 10 0114 System Checksums By Trial AHU-9 Single Zone Variable Air Volume COOLING COIL PEAK Peaked at Tme: Mohr 7 CLG SPACE PEAK / 16 Mo/Hr 7 / 17 HEATING COIL PEAK Mo/Hr: Heating Design TEMPERATURES Cooling Heating Outside Air: OADB/WB/HR: 81 / 63 / 58 OADB: 79 OADB: 25 SAOB 59.9 113.7 Ra Plenum 82.7 65.1 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return 82.7 65.1 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 82.3 41.1 BtUPo Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 0 0 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0 Skylite Cond 0 0 0.00 Roof Cond 0 22,370 22,370 52 0 0 Roof Cond 0 -15,137 36.62 Glass Solar 0 0 0 0 0 0 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond 0 0 0 0. 0 0 Glass/Door Cond 0 0 0.00 Cooling Heating Wall Cond 707 Partition/Door 0 76 783 2 0 0 984 0 3 0 Wall Cond Partition/Door -3,794 0 -5,091 12.32 0 0.00 Diffuser 1,725 518 Floor 0 0 0 0 0 Floor 0 0 0.00 Terminal 1,725 518 Adjacent Floor 0 0 0 0 0 0 Adjacent Floor 0 0 0 Main Fan 1,725 518 Infiltration 0 0 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total ==> 707 22,445 23,152 54 984 3 Sub Total =_> -3,794 -20,228 48.94 Nom Vent 311 307 AHU Vent 311 307 Internal Loads Internal Loads Infil 0 0 Lights 11,464 0 11,464 27 11,464 37 Lights 0 0 0.00 MinStop/Rh 518 518 People 10,849 0 10.849 25 5,472 18 People 0 0 0.00 Return 1,725 518 Misc 644 0 644 1 644 2 Misc 0 0 0.00 Exhaust 311 307 Sub Total ==> 22,957 0 22,957 53 17.580 57 Sub Total ==> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 12,125 -12,125 0 0 12,032 39 Ceiling Load -12,508 0 0.00 Leakage Dwn 0 0 Ventilation Load 0 0 -582 -1 0 0 Ventilation Load 0 -16,016 38.75 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Sizing -7,415 -7,415 17.94 Ov/Undr Sizing 0 0 0 0 0 Exhaust Heat 2,325 -5.62 ENGINEERING CKS Exhaust Heat -2,284 -2,284 -5 OA Preheat Diff. 0 0.00 Sup. Fan Heat 0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 0 0 0 Additional Reheat 0 0.00 % OA 18.0 59.2 Duct Heat Pkup 0 0 0 cfm/ft' 0.30 0.09 Underflr Sup Ht Pkup 0 0 Underflr Sup Ht Pkup 0 0.00 cfm/ton 478.75 Supply Air Leakage 0 0 0 Supply Air Leakage 0 0.00 R'/ton 1,588.77 Btu/hr-ft' 7.55 -7.22 Grand Total -=.0. 35,789 8,036 43,243 100.00 30,596 100.00 Grand Total=> -23,716 -41,333 100.00 No. People 22 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WBIHR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F gr/lb 'F °F gr/lb ft' (%) MBh cfm 'F 'F Main Clg 3.6 43.2 40.1 1,715 82.3 65.0 66.1 59.9 56.8 65.3 Floor 5,725 Main Htg -41.3 518 41.1 113.7 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFlr 0 Total 3.6 43.2 Roof 4,640 0 0 Humidif 0.0 0 0.0 0.0 Wall 2,504 0 0 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -41.3 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACES/ 700 v6.3.3 calculated 3110:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 11 of 14 System Checksums By Trial HRU-1 COOLING COIL PEAK Peaked at Time: Mo/Hr. 7 / 15 Outside Air: OADB/WB/HR: 81/63/60 CLG SPACE PEAK Mo/Hr: Sum of OADB: Peaks HEATING COIL PEAK Mo/Hr. Heating Design OADB: 25 TEMPERATURES Cooling Heating SADB 53.2 94.8 Ra Plenum 82.8 67.5 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return 82.8 67.5 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ret/0A 82.4 54.0 Btu/h Btu/h Btu/h (1,.) Btu/h (X) Btu/h Btu/h (%) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTI3 0.0 0.0 Skylite Solar 0 00 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 00 0 0 0 Skylite Cond 0 0 0.00 Roof Cond 0 34,736 34,736 32 0 0 Roof Cond 0 -24,985 19.34 Glass Solar 0 00 0 0 0 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond 0 00 0 0 0 Glass/Door Cond 0 0 0.00 Wall Cond 1,122 404 1,526 1 949 1 Wall Cord -1,776 -2,419 1.87 Cooling Heating Partition/Door 0 0 0 0 0 Partition/Door 0 0 0.00 Diffuser 2,877 2,877 Floor 0 0 0 0 0 Floor 0 0 0.00 Terminal 2,877 2,877 Adjacent Floor 0 0 0 0 0 0 Adjacent Floor 0 0 0 Main Fan 2,877 2,877 Infiltration 0 0 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total==> 1,122 35,141 36,263 33 - 949 1 Sub Total==> -1,776 -27,404 21.22 Nom Vent 907 907 AHU Vent 907 907 Internal Loads Internal Loads Infil 0 0 Lights 16,473 0 16,473 15 16,473 23 Lights 0 0 0.00 MinStoplRh 0 0 People 60,964 0 60,964 56 33,987 47 People 0 0 0.00 Return 2,877 2,877 Misc 2,116 0 2,116 2 2,116 3 Misc 0 0 0.00 Exhaust 907 907 Sub Total =_> 79,553 0 79,553 73 52,577 73 Sub Total ==> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceiling Load 17,429 -17,429 0 0 18,436 26 Ceiling Load -11,456 0 0.00 Leakage Dwn 0 0 Ventilation Load 0 0 -100 0 0 0 Ventilation Load 0 -47,358 36.66 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Siring -58,873 -58,873 45.58 ENGINEERING CKS Ov/Undr Sizing Exhaust Heat 7 -6,627 7 -6,627 0 -6 7 0 Exhaust Heat OA Preheat Diff. 4,470 -3.46 0 0.00 Sup. Fan Heat 0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 0 0 0 Additional Reheat 0 0.00 % OA 31.5 31.5 Duct Heat Pkup 0 0 0 cfm/ft' 0,36 0.36 Underflr Sup Ht Pkup 0 0 Underflr Sup Ht Pkup 0 0.00 cfm/ton 316.44 Supply Air Leakage 0 0 0, Supply Air Leakage 0 0.00 ft'/ton 887.04 Btu/hr•fr 13.53 -16.02 Grand Total ..--> 98,111 11,085 109,096 100.00 71,969 100,00 Grand Total ==> -72,105 -129,166 100.00 No. People 137 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR,Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F gr/lb °F °F gr/lb ft' (SL) MBh cfm T °F Main Clg 9.1 109.1 86.8 2,877 82.2 64.9 66.0 53.2 52.1 57.2 • Floor 8,064 Main Htg -129.2 2,877 54.0 94.8 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFIr 0 Total 9.1 109.1 Roof 7,2300 0 Humidif 0.0 0 0.0 0.0 Wall 1,172 0 0 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -129.2 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 12 of 14 System Checksums By Trial SZVAV FCUs Single Zone Variable Air Volume COOLING COIL PEAK CLG SPACE PEAK Peaked at Time: MolHr 7 / 16 Mo/Hr: 7 / 17 HEATING COIL PEAK Mohr: Heating Design TEMPERATURES Cooling Heating Outside Air: OADB/WB/HR: 81 / 63 / 58 OADB: 79 OADB: 25 SADB 55.0 90.9 Ra Plenum 78.8 68.4 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return 78.8 68.4 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 79.6 34.0 Btulh Btu/h Btu/h (14) Btu/h (°4) Btufh Btu/h (k) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylite Solar 0 0 0 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 0 0 0 0 0 Skylite Cond 0 0 0.00 Roof Cond 0 183,098 183,098 11 0 0 Roof Cond 0 -137,810 10.49 Glass Solar 370,418 0 370,418 23 422,349 33 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond 20,041 0 20,041 1 16,099 1 Glass/Door Cond -206,549 -206,549 15.72 Cooling Heating Wall Cond 14,783 Partition/Door 0 7,885 22,668 1 0 0 16,218 0 1 0 Wall Cond Partition/Door -38,428 0 -59,855 0 4.56 0.00 Diffuser 55,073 20,982 Floor 0 0 0 0 0 Floor 0 0 0.00 Terminal 55,073 20,982 Adjacent Floor 0 0 0 0 0 0 Adjacent Floor 0 0 0 Main Fan 55,073 20,982 Infiltration 0 0 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total =_> 405,242 190,983 596,225 37 454,666 36 Sub Total =_> -244,977 404,214 30.77 Nom Vent 25,202 16,466 AHU Vent 25,202 16,466 Internal Loads Internal Loads Infil 0 0 Lights 252,225 0 252,225 16 252,225 20 Lights 0 0 0.00 MinStop/Rh 20,982 20,982 People 822.199 0 822,199 51 449,821 35 People 0 0 0.00 Return 49,024 16,293 Misc 43,132 0 43,132 3 43,132 3 Misc 0 0 0.00 Exhaust 19,152 11,777 Sub Total ==> 1,117,555 0 1,117,555 69 745,177 59 Sub Total ==> 0 0 0.00 Rm Exh 6,050 4,689 Auxiliary 0 0 Ceiling Load 73,869 -73,869 0 0 68,715 5 Ceiling Load -94,742 0 0.00 Leakage Dwn 0 0 Ventilation Load 0 0 -31,128 -2 0 0 Ventilation Load 0 -859,422 65.41 Leakage Ups 0 0 Adj Air Trans Heat 0 0 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Sizing -96,951 -96,951 7.38 Ov/Undr Sizing 330 330 0 2,211 0 Exhaust Heat 46,746 3.56 ENGINEERING CKS Exhaust Heat -59,273 -59,273 -4 OA Preheat Diff. 0 0.00 Sup. Fan Heat 0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 0 0 0 Additional Reheat 0 0.00 % OA 45.8 78.5 Duct Heat Pkup 0 0 0 cfmlh' 0.67 0.25 Undernr Sup Ht Pkup 0 0 Undertlr Sup Ht Pkup 0 0.00 cfmlton 407.02 Supply Air Leakage 0 0 0 Supply Air Leakage 0 0.00 triton 611.73 Btu/heft' 19.62 -15.87 Grand Total => 1,596,997 57,841 1,623,710 100.00 1,270,770 100.00 Grand Total => -436,670 -1,313,840 100.00 No. People 1,795 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DB/WB/HR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F gr/Ib °F °F gr/lb ft' (1) MBh cfm °F °F Main Ctg 135.3 1,623.7 1,412.3 58,629 79.6 63.3 62.3 55.0 53.9 61.3 Floor 82,773 Main Htg -1,313.9 20,982 34.0 90.9 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFIr 0 Total 135.3 1,623.7 Roof 45,885 0 0 Humidif 0.0 0 0.0 0.0 Wall 30,348 7,318 24 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -1,313.9 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 13 of 14 System Checksums By Trial UNIT HEATERS COOLING COIL PEAK Peaked at Time: Mo/Hr: 0 / Outside Air: OADB/WB/HR: 0 / 0 0 / 0 CLG SPACE PEAK Mo/Hr: 0 10 OADB: 0 HEATING COIL PEAK Mo/Hr: Heating Design OADB: 25 TEMPERATURES Cooling Heating SADB 0.0 125.0 Ra Plenum 0.0 62.6 Space Plenum Net Percent Space Percent Space Peak Coil Peak Percent Return 0.0 72.0 Sens. + Lat. Sens. + Lat Total Of Total Sensible Of Total Space Sens Tot Sens Of Total Ret/OA 0.0 69.1 Btu/h Btu/h Btu/h (%) Btu/h (%) Btu/h Btu/h (%) Fn MtrTD 0.0 0.0 Envelope Loads Envelope Loads Fn BIdTD 0.0 0.0 Skylhe Solar 0 0 0 0 0 0 Skylite Solar 0 0 0.00 Fn Frict 0.0 0.0 Skylite Cond 0 00 0 0 0 Skylite Cond 0 0 0.00 Roof Cond 0 00 0 0 0 Roof Cond 0 -13,056 35.15 Glass Solar 0 0 0 0 0 0 Glass Solar 0 0 0.00 AIRFLOWS Glass/Door Cond Wall Cond 0 0 00 00 0 0 0 0 0 0 Glass/Door Cond Wall Cond -11,644 -7,653 -11,644 31.35 -10,496 28.26 Cooling Heating Partition/Door 00 0 0 0 Partition/Door 0 0 0.00 Diffuser 0 604 Floor 0 0 0 0 0 Floor 0 0 0.00 Terminal 0 604 Adjacent Floor 0 00 0 0 0 Adjacent Floor 0 0 0 Main Fan 0 604 Infiltration 0 0 0 0 0 Infiltration 0 0 0.00 Sec Fan 0 0 Sub Total ==> 0 0 0 0 0 0 Sub Tan =_> -19,296 -35,196 94.76 Nom Vent 0 37 Internal AHU Vent 0 37 Loads Internal Loads In91 0 0 Lights 0 00 0 0 0 Lights 0 0 0.00 MinStop/Rh 0 0 People 0 00 0 0 0 People 0 0 0.00 Retum 0 604 Misc 0 0 0 0 0 0 Misc 0 0 0.00 Exhaust 0 37 Sub Total ==> 0 00 0 0 0 Sub Total ==> 0 0 0.00 Rm Exh 0 0 Auxiliary 0 0 Ceding Load 0 0 0 0 0 0 Ceiling Load -15,899 0 0.00 Leakage Dwn 0 0 Ventilation Load 0 0 0 0 0 0 Ventilation Load 0 -1,947 5.24 Leakage Ups 0 0 Adj Air Trans Heat 00 0 0 0 Adj Air Trans Heat 0 0 0 Dehumid. Ov Sizing 0 0 Ov/Undr Sizing 0 0 0.00 ENGINEERING CKS Ov/Undr Sizing Exhaust Heat 0 0 0 0 0 0 0 0 Exhaust Heat OA Preheat'Diff. 0 0.00 0 0.00 Sup. Fan Heat 0 0 RA Preheat Diff. 0 0.00 Cooling Heating Ret. Fan Heat 0 0 0 Additional Reheat 0 0.00 % OA 0.0 6.2 Duct Heat Pkup 0 0 0 cfm/ft° 0.00 0.11 Underfir Sup Ht Pkup 0 0 Underflr Sup Ht Pkup 0 0.00 cfm/ton 0.00 Supply Air Leakage 0 0 0 Supply Air Leakage 0 0.00 ft'/ton 0.00 Btu/hrft' 0.00 -6.98 Grand Total=> 0 0 0 100.00 • 0 100.00 Grand Total ==> -35,196 -37,143 100.00 No. People 0 COOLING COIL SELECTION AREAS HEATING COIL SELECTION Total Capacity Sens Cap. Coil Airflow Enter DBNVB/HR Leave DB/WB/HR Gross Total Glass Capacity Coil Airflow Ent Lvg ton MBh MBh cfm °F °F gr/Ib °F °F grub ft' (%) MBh cfm °F °F Main CIg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Floor 5,320 Main Htg -37.1 604 69.1 125.0 Aux Clg 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Part 0 Aux Htg 0.0 0 0.0 0.0 Opt Vent 0.0 0.0 0.0 0 0.0 0.0 0.0 0.0 0.0 0.0 Int Door 0 Preheat 0.0 0 0.0 0.0 ExFIr 0 Total 0.0 0.0 Roof 4,269 0 0 Humidit 0.0 0 0.0 0.0 Wall 5,395 425 8 Opt Vent 0.0 0 0.0 0.0 Ext Door 0 0 0 Total -37.1 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 System Checksums Report Page 14 of 14 Load Component Design Cooling Load Summary By Trial System - AC -5/6 Zone - 2023 MDF 200A Coil Location - Zone Coil Peak Calculation Time: July, hour 16 Ambient DB/WB/HR: 81 / 63 / 58 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 766 766 34.9% People 0 0 0.0% Misc. Equipment Loads 0 0 0.0% Cooling Infiltration 0 0 0.0% Sub -Total -0 766 766 34.9% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 84.5/60.8 °F 43.00 grub 55.0 / 49.0 °F 42.68 gr/Ib 2.20 MBh 2.20 MBh 55.00 °F 67.72 cfm 31.73 % Ventilation Load 0 0 0.0% Total Cooling Load 0.2 ton Exhaust Heat 0 0 0.0% Area / Load 1,612.70 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 295 R' Return Fan Load 0 0 0.0% Cooling Airflow 0.23 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 369.95 cfm/on Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 0.0 % Roof Load to Plenum 1,431 1,431 65.1% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0.0% Total Cooling Loads 2,197 2,197 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 1 of 91 1' Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -1 Coil Location - Zone Coil Peak Calculation Time: July, hour 18 Ambient DB/WB/HR: 77/60/50 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 8,958 8,958 79.1% Coil Entering Air (DB / WB) 74.8 / 62.3 °F Glass Transmission 79 79 0.7% Coil Entering Humidity Ratio 65.16 grub Wall Transmission 68 68 0.6% Coil Leaving Air (DB / WB) 61.9 / 57.6 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 65.16 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 11.02 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 11.33 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 61.86 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 814.04 cfm Lighting 924 924 8.2% Resulting Room Relative Humidity 49.87 % People 2,366 1,893 4,259 37.6% Misc. Equipment Loads 203 0 203 1.8% Cooling Infiltration 0 0 0 0.0% Sub -Total => 12,598 1.893 14,491 127.9% General Engineering Checks Ventilation Load -1,537 -1,584 -3,121 -27.5% Total Cooling Load 1.1 ton Exhaust Heat -84 0 -84 -0.7% Area / Load 238.86 W/ton Supply Fan Load 0 0 0.0% Total Floor Area 271 IP Retum Fan Load 0 0 0.0% Cooling Airflow 3.01 cfm/fl' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 718.30 cfmtton Wall Load to Plenum 43 43 0.4% Percent Outdoor Air 15.6 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.01‘ Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 11,020 309 11,329 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative- 1 Design Cooling Load Report Page 2 of 91 ,y Load Component Design Cooling Load Summary By Trial System -ADMIN - CASSETTES Zone - TU -10 Coil Location - Zone Coil Peak Calculation Time: August, hour 14 Ambient DBA/VB/HR: 79 /63 /63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 Glass Transmission 0 Wall Transmission 0 Roof Transmission 0 Floor Transmission 0 Adj Floor Transmission 0 Partition Transmission 0 Net Ceiling Load 0 Lighting 1,521 People 761 Misc. Equipment Loads 698 Cooling Infiltration 0 Sub -Total ==> 2,980 Ventilation Load -420 Exhaust Heat -23 Supply Fan Load 0 Return Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 0 Roof Load to Plenum 0 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 659 0 659 O 0.0% O 0.0% O 0.0% O 0.0% 0 0.0% 0.00 0.0% O 0.0% 0 0.0% 1,521 49.4% 1,420 46.1% 698 22.7% O 0.0% 3,639 118.2% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 74.1 / 62.4 °F 66.93 gr/Ib 58.4 i 56.0 °F 64.06 gr/lb 2.54 MBh 3.08 MBh 58.35 °F 159.72 cfm 49.89 % -539 -17.5% Total Cooling Load 0.3 ton -23 -0.7% Area / Load 1,667.20 111/ton 0 0.0% Total Floor Area 514 IF 0 0.0% Cooling Airflow 0.31 cfm/t1 0 0.0% Airflow / Load 518.27 cfm/ton O 0.0% Percent Outdoor Air 21.8 % O 0.0% Cooling Load Methodology TETD-TAI O 0.0% O 0.0% O 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% Total Cooling Loads 2,538 540 3,078 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 3 of 91 1' Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -11 Coil Location - Zone Coil Peak Calculation Time: September, hour 12 Ambient DB/WB/HR: 73 / 60 / 57 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 5,633 5,633 71.2% Glass Transmission -108 -108 -1.4% Wall Transmission 11 11 0.1% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 439 439 5.5% People 1,607 1,017 2,624 33.2% Misc. Equipment Loads 112 0 112 1.4% Cooling Infiltration 0 0 0 0.0% Sub•Total=> 7,693 1,017 8.710 110.1% Ventilation Load -492 Exhaust Heat -11 Supply Fan Load 0 Return Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 6 Roof Load to Plenum 0 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 -302 0 Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 75.2 / 62.8 °F 66.98 gr/Ib 60.3 / 57.0 °F 65.06 gr/Ib 7.20 MBh 7.91 MBh 60.30 °F 446.49 cfm 49.86 % -794 -10.0% Total Cooling Load 0.7 ton -11 -0.1% Area / Load 182.28 ft'/ton O 0.0% Total Floor Area 131 ft' O 0.0% Cooling Airflow 3.40 cfm/ft' O 0.0% Airflow / Load 620.31 cfm/ton 6 0.1% Percent Outdoor Air 9.1 % 0 0.0% Cooling Load Methodology TETD-TA1 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% O 0.0% O 0.0% O 0.0% 0 0.0% Total Cooling Loads 7,197 714 7,911 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 4 of 91 Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -12 Coil Location - Zone Coil Peak Calculation lime: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 403 403 13.9% People 1,475 933 2,408 83.3% Misc. Equipment Loads 103 0 103 3.6% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 1,980 933 2.913 100.8% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Goofing Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 70.4 / 60.8 °F 65.45 gr/Ib 49.7 / 45.2 °F 38.30 gr/Ib 2.09 MBh 2.89 MBh 49.68 °F 69.44 cfm 50.07 % Ventilation Load -451 -134 -586 -20.3% Total Cooling Load 0.3 ton Exhaust Heat -27 0 -27 -0.9% Area / Load 406.32 ft'fton Supply Fan Load 0 0 0.0% Total Floor Area 120 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.58 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 234.34 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 53.8 % Roof Load to Plenum 589 589 20.4% Coaling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.01/4 Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% OverAlnder Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 2,091 799 2,889 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Altemative - 1 Design Cooling Load Report Page 5 of 91 Load Component Design Cooling Load Summary By Trial System -ADMIN - CASSETTES Zone - TU -13 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 J 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coif Selection Parameters Solar Gain 0 0 0.0 % Coil Entenng Air (DB / WB) 70.4 / 60.8 °F Glass Transmission 0 0 0.01/4 Coil Entering Humidity Ratio 65.45 gr/Ib Wall Transmission 0 0 0.0 % Coil Leaving Air (DB / WB) 49.7 / 45.2 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 38.30 grAb Floor Transmission 0 0 0.0% Coil Sensible Load 2.48 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 3.42 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 49.68 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 82.30 cfm Lighting 477 477 13.9% Resulting Room Relative Humidity 50.07 People 1,748 1,106 2,854 83.3% Misc. Equipment Loads 122 0 122 3.6% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 2,347 1,106 3,453 100.8% General Engineering Checks Ventilation Load -535 -159 -694 -20.3% Total Cooling Load 0.4 ton Exhaust Heat -32 0 -32 -0.9% Area / Load 406.32 fP/ton Supply Fan Load 0 0 0.0m Total Floor Area 143 ft Retum Fan Load 00 0.01/4 Cooling Airflow 0.58 cfm/ft' Net Duct Heat Pickup 0 0 0.0 % Airflow / Load 234.33 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 53.8 % Roof Load to Plenum 698 698 20.4% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.01/4 Lighting Load to Plenum 0 0 0.0 % Misc. Equip. Load to Plenum 0 00 0.0 Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0 % Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.01/4 Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 2,478 947 3,425 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 6 of 91 1 Load Component Design Cooling Load Summary By Trial System -ADMIN - CASSETTES Zone - TU -14 Coil Location - Zone Coil Peak Calculation Time: September, hour 11 Ambient DB/WB/HR: 70 / 59 / 57 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h BtuT of Total Solar Gain 17,151 17,151 86.8% Glass Transmission -420 -420 -2.1% Wall Transmission -17 -17 -0.1% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 1,420 1,420 7.2% People 584 468 1,052 5.3% Misc. Equipment Loads 798 0 798 4.0% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 19,515 468 19,983 101.1% Ventilation Load -480 Exhaust Heat -4 Supply Fan Load 0 Retum Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum -12 Roof Load to Plenum 160 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 Total Cooling Loads 122 0 Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (D8 / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 75.6 / 59.9 °F 53.00 gr/Ib 55.0/51.5 °F 51.79 gr/Ib 19.18 MBh 19.77 MBh 55.00 °F 846.41 cfm 38.86 % -358 -1.8% Total Cooling Load 1.7 ton -4 0.0% Area / Load 273.95 ft'/ton 0 0.0% Total Floor Area 468 ft' 0 0.0% Cooling Airflow 1.81 cfm/n' O 0.0% Airflow / Load 495.99 cfm/ton -12 -0.1% Percent Outdoor Air 4.7 % 160 0.8% Cooling Load Methodology TETD-TA1 O 0.0% O 0.0% O 0.0% O 0.0% O 0.0% O 0.0% 0 0.0% 0 0.0% O 0.0% 19,179 589 19,768 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Altemative - 1 Design Cooling Load Report Page 7 o191 r Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -15 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/B/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btum Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 73.9 / 62.3 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 66.81 gr/Ib Wall Transmission 0 0 0.0% Coil Leaving Air (DB / VVB) 60.5 / 55.2 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 57.70 gr/lb Floor Transmission 0 0 0.0% Coil Sensible Load 1.14 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 1.26 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 60.47 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 59.50 cfm Lighting 495 495 39.4% Resulting Room Relative Humidity 49.85 % People 204 163 367 29.2% Misc. Equipment Loads 278 0 278 22.1% Cooling Infiltration 0 0 0 0.0% Sub -Total -> 978 163 1.141 90.6% General Engineering Checks Ventilation Load -168 -47 -215 -17.1% Total Cooling Load 0.1 ton Exhaust Heat -10 0 -10 -0.8% Area / Load 1,299.64 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 163 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.36 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow /Load 474.08 cfmfon Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 23.3 % Roof Load to Plenum 342 342 27.2% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 1,142 116 1,258 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 8 of 91 Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -16 Coil Location - Zone Col Peak Calculation lime: July, hour 14 Ambient DB/B/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h BtuTh of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 417 417 39.4% People 172 137 309 29.2% Misc. Equipment Loads 234 0 234 22.1% Cooling In6hraticn 0 0 0 0.0% Sub•Total==> 822 137 960 90.6% Ventilation Load -141 Exhaust Heat -8 Supply Fan Load 0 Retum Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 0 Roof Load to Plenum 288 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 -40 0 0 Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 73.9 / 62.3 °F 66.81 gr/Ib 60.5 / 55.2 °F 57.70 gr/Ib 0.96 MBh 1.06 MBh 60.47 °F 50.05 cfm 49.85 % -181 -17.1% Total Cooling Load 0.1 ton -8 -0.8% Area / Load 1,299.64 fF/ton 0 0.0% Total Floor Area 137 ft° 0 0.0% Cooling Airflow 0.36 cfm/ft° 0 0.0% Airflow / Load 474.08 cfmlfon 0 0.0% Percent Outdoor Air 23.3 % 288 27.2% Cooling Load Methodology TETD-TA1 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% Total Cooling Loads 961 98 1.059 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Ahemative - 1 Design Cooling Load Report Page 9 of 91 • Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -17 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 1 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 499 499 39.4% People 206 164 370 29.2% Misc. Equipment Loads 281 0 281 22.1% Cooling lnfihration 0 0 0 0.0% Sub -Total ==> 985 164 1,150 90.6% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 73.9 / 62.3 °F 66.81 gr/Ib 60.5/55.2 °F 57.70 gr/Ib 1.15 MBh 1.27 MBh 60.47 °F 59.97 cfm 49.85 % Ventilation Load -169 -47 -216 -17.1% Total Cooling Load 0.1 ton Exhaust Heat -10 0 -10 -0.8% Area / Load 1299.64 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 164 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 0.36 cfm/ft' Net Dud Heat Pickup 0 0 0.0% Airflow / Load 474.08 cfmtlon Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 23.3 % Roof Load to Plenum 345 345 27.2% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 00 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 1,151 117 1,268 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 10 of 91 Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -2 Coil Location - Zone Coil Peak Calculation Time: July, hour 18 Ambient DB/W13/HR: 77 / 60 / 50 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Blulh of Total Coil Selection Parameters Solar Gain 8,469 8,469 87.9% Coil Entering Air (DB / WB) 76.2 / 59.6 °F Glass Transmission 90 90 0.9% Coil Entering Humidity Ratio 50.66 gr/lb Wall Transmission 61 61 0.6% Coil Leaving Air (DB / WB) 55.0 ( 51.2 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 50.66 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 9.47 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 9.63 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 55.00 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 418.14 cfm Lighting 505 505 5.2% Resulting Room Relative Humidity 37.33 % People 208 166 374 3.9% Misc. Equipment Loads 284 0 284 2.9% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 9,617 166 9,783 101.5% General Engineering Checks Ventilation Load -171-7 -178 -1.8% Total Cooling Load 0.8 ton Exhaust Heat -9 0 -9 -0.1% Area / Load 201.85 ft./ton Supply Fan Load 0 0 0.0% Total Floor Area 166 ft' Return Fan Load 0 0 0.0% Cooling Airflow 2.51 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 507.54 cfmlton Wall Load to Plenum 38 38 0.4% Percent Outdoor Air 3.4 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0 % Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 9,475 159 9,634 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM 00 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Altemative - 1 Design Cooling Load Report Page 11 of 91 Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -3 Coil Location - Zone Coil Peak Calculation Time: July, hour 18 Ambient DB/WB/HR: 77 / 60 / 50 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 8,958 8,958 84.9% Glass Transmission 79 79 0.8% Wall Transmission 66 66 0.6% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission . 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 730 730 6.9% People 300 240 541 5.1% Misc. Equipment Loads 410 0 410 3.9% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 10,544 240 10,784 102.3% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 76.1 / 59.7 °F 51.38 gr/Ib 55.0/51.3 °F 51.38 gr/Ib 10.33 MBh 10.55 MBh 55.00 °F 458.95 cfm 37.89 % Ventilation Load -247 -21 -268 -2.5% Total Cooling Load 0.9 ton Exhaust Heat -13 0 -13 -0.11/4 Area / Load 264.31 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 240 ft' Retum Fan Load 0 0 0.01/4 Cooling Airflow 1.91 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 504.81 cfm/ton Wall Load to Plenum 42 42 0.4% Percent Outdoor Air 4.5 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 10,326 219 10,545 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 12 of 91 Load Component Design Cooling Load Summary By Trial System -ADMIN - CASSETTES Zone - TU -4 Coil Location - Zone Coil Peak Calculation Time: July, hour 18 Ambient DB/WB/HR: 77 / 60 / 50 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 8,469 8,469 88.2% Glass Transmission 90 90 0.9% Wall Transmission 58 58 0.6% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 489 489 5.1% People 201 161 362 3.8% Misc. Equipment Loads 275 0 275 2.9% Cooling Infiltration 0 0 0 0.0% sub -Total =u 9,581 161 9,742 101.5% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 76.2/59.6 °F 50.60 gr/Ib 55.0/51.1 °F 50.60 grill) 9.44 MBh 9.60 MBh 55.00 °F 416.54 cfm 37.28 % Ventilation Load -165 -6 -172 -1.8% Total Cooling Load 0.8 ton Exhaust Heat -9 0 -9 -0.1 Area / Load 196.18 ft'fion Supply Fan Load 0 0 0.0% Total Floor Area 161 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 2.59 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 557.87 cfmrton Wall Load to Plenum 37 37 0.4% Percent Outdoor Air 3.3 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 90% Total Cooling Loads 9,443 155 9,598 100.0 % Project Name: TRACES 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 13 of 91 Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -5 Coil Location - Zone Coil Peak Calculation Time: Jury, hour 17 Ambient DBANB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Bluth Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 20,406 20,406 85.5% Coil Entering Air (DB / WB) 76.3 / 63.3 °F Glass Transmission 449 449 1.9% Coil Entering Humidity Ratio 67.77 gr/lb Wall Transmission 0 0 0.0% Coil Leaving Air (DB / WB) 62.7 / 58.5 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 67.77 gilt Floor Transmission 0 0 0.0% Coil Sensible Load 23.10 MBh Adj Floor Transmission0 0.00 0.0% Coil Total Load 23.87 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 62.69 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1,607.54 cfm Lighting 535 535 2.2% Resulting Room Relative Humidity 50.02 % People 1,959 1,239 3,198 13.4% Misc. Equipment Loads 136 0 136 0.6% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 23.485 1.239 24,724 103.6% General Engineering Checks Ventilation Load -599 -468 -1,067 -4.5% Total Cooling Load 21 tan Exhaust Heat -37 0 -37 -0.2% Area / Load 77.50 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 160 ft' Return Fan Load 0 0 0.0% Cooling Airflow 10.05 cfm/ft' Net Duct Heat Pickup 00 0.0% Airflow / Load 779.15 cfm/tonWall Load to Plenum 0 0 0.0% Percent Outdoor Air 3,1 % Roof Load to Plenum 254 254 1.1% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 00 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 00 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 23.102 771 23,873 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Altemative - 1 Design Cooling Load Report Page 14 of 91 1 Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -6 Coil Location - Zone Coil Peak Calculation Time: July, hour 18 Ambient OB/ B/HR: 77 / 60 / 50 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Bluth of Total Solar Gain 13,966 13,966 88.9% Glass Transmission 222 222 1.4% Wall Transmission 187 187 1.2% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 486 486 3.1% People 200 160 360 2.3% Misc. Equipment Loads 273 0 273 1.7% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 15,334 160 15,494 98.6% Ventilation Load -164 3 Exhaust Heat -9 0 Supply Fan Load 0 Retum Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 181 Roof Load to Plenum 204 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 - OverlUnder Sizing 0 Reheat at Design 0 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 0 Total Cooling Loads 15,546 163 Coil Selection Parameters Coil Entering Air (D8 / WB) Coil Entering Humidity Ratio Coil Leaving Air (D8 / W8) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 76.4/59.4 °F 49.66 gr/Ib 55.0/50.8 °F 49.31 gr/lb 15.55 MBh 15.71 MBh 55.00 °F 665.87 cfrn 36.58 % -162 -1.0% Total Cooling Load 1.3 ton -9 -0.1% Area / Load 120.37 ft'tton 0 0.0% Total Floor Area 160 fP 0 0.0% Cooling Airflow 4.16 cfm/ft2 0 0.0% Airflow / Load 500.93 cfmnon 181 1.2% Percent Outdoor Air 2.0 % 204 1.3% Cooling Load Methodology TETD-TA1 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 15,708 100.0 Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Attemative - 1 Design Cooling Load Report Page 15 of 91 1 Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -7 Coil Location - Zone Coil Peak Calculation Time: August, hour 14 Ambient DB/WB/HR: 79 / 63 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.01/4 Adj Floor Transmission 0 0.00 0.01/4 Partition Transmission 0 0 0.01/4 Net Ceiling Load 0 0 0.01/4 Lighting 504 504 54.0% People 208 166 374 40.0% Misc. Equipment Loads 283 0 283 30.3% Cooling Infiltration 0 0 0 0.01/4 Sub -Total => 995 166 1,161 124.4% Coil Selection Parameters Coil Entering Air (D6 / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 73.9 / 62.3 °F 66.81 gr/Ib 60.5 / 57.2 °F 65.83 gr/Ib 0.82 MBh 0.93 MBh 60.47 °F 60.55 cfm 49.85 % Ventilation Load -171 -48 -218 -23.4% Total Cooling Load 0.1 ton Exhaust Heat -9 0 -9 -1.0% Area / Load 1,680.23 R•tton Supply Fan Load 0 0 0.0% Total Floor Area 166 W Retum Fan Load 00 0.01 Cooling Airflow 0.36 cfm/R' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 612.91 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 23.3 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 00 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.01/4 Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 00 0.01/4 Underfloor Sup Heat Pickup 0 0 0.01/4 Supply Air Leakage 0 0 0 0.01/4 Total Cooling Loads 815 118 934 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 16 of 91 Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -8 Coil Location - Zone Coil Peak Calculation Time: August, hour 14 Ambient DB/WB/HR: 79 / 63 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (GB / WB) 72.8 / 61.8 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 66.25 grab Wall Transmission 0 0 0.0% Coil Leaving Air (DB / WB) 57.0 / 55.1 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 62.60 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 1.80 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 2.30 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 57.02 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 115.91 cfm Lighting 1,341 1,341 58.2% Resulting Room Relative Humidity 49.74 % People 663 631 1,294 56.1% Misc. Equipment Loads 223 0 223 9.7% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 2,227 631 2,858 124.0% General Engineering Checks Ventilation Load -457 -124 -581 -25.2% Total Cooling Load 0.3 ton Exhaust Heat -25 0 -25 -1.1% Area / Load 2,423.56 ft'rion Supply Fan Load 0 0 0.0% Total Floor Area 602 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.19 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 466.78 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 32.6 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 52 52 2.3% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 1,798 507 2.305 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Altemative - 1 Design Cooling Load Report Page 17 of 91 Load Component Design Cooling Load Summary By Trial System - ADMIN - CASSETTES Zone - TU -9 Coil Location - Zone Coil Peak Calculation Time: August, hour 14 Ambient DB/WB/HR: 79 / 63 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Coit Selection Parameters Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Coil Entering Air (DB / VVB) 73.9 / 62.3 "F Glass Transmission 00 0.0% Coil Entering Humidity Ratio 66.81 gr/Ib Wall Transmission 0 0 0.0% Coil Leaving Air (DB / WB) 60.5 / 57.2 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 65.83 grill:, Floor Transmission 0 0 0.0% Coil Sensible Load 1.80 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 2.06 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 60.47 'F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 133.87 cfm Lighting 1.115 1,115 54.0% Resulting Room Relative Humidity 49.85 % People 459 367 826 40.0% Misc. Equipment Loads 626 0 626 30.3% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 2,200 367 2,567 124.4% General Engineering Checks Ventilation Load -377 -105 -482 -23.4% Total Cooling Load 0.2 ton Exhaust Heat -20 0 -20 -1.0% Area / Load 1,680.23 8'/ton Supply Fan Load 0 0 0.0% Total Floor Area 367 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.36 cfm/8' Net Duct Heat Pickup 0 0 0.0% Airflow /Load 612.90 cfmlton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 23.3 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 1,802 262 2,064 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 18 of 91 Load Component Design Cooling Load Summary By Trial System - ADMIN - FAN COILS Zone - HFC -53 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 985 985 5.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 2,559 2,559 13.1% People 9,500 7,700 17,200 88.0% Misc. Equipment Loads 0 0 0 0.0% Cooling Infiltration 0 0 0 0.01/4 Sub -Total==> 13,044 7,700 20,744 106.2% Coil Selection Parameters Cot Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leasing Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 68.4 / 59.8 °F 64.49 gr/Ib 40.3/36.7 °F 26.86 gr/Ib 12.72 MBh 19.54 MBh 40.27 °F 343.20 cfm 50.05 % Ventilation Load -2,988 -885 -3,873 -19.8% Total Cooling Load 2.0 ton Exhaust Heat -305 0 -305 -1.6% Area / Load 625.02 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,247 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.28 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 173.39 cfmflon Wall Load to Plenum 379 379 1.9% Percent Outdoor Air 71.4 % Roof Load to Plenum 2,591 2,591 13.31/4 Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0 % Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.01/4 Total Cooling Loads 12,720 6,815 19,535 100.0 Project Name: TRACES 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 19 of 91 1 Load Component Design Cooling Load Summary By Trial System - ADMIN - FAN COILS Zone - HFC -60 Coil Location - Zone Coil Peak Calculation Time: September, hour 14 Ambient DB/WB/HR: 76 / 61 157 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 20,134 20,134 60.1% Glass Transmission -25 -25 -0.1% Wall Transmission 337 337 1.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 3,696 3,696 11.0% People 6.822 5,458 12,280 36.7% Misc. Equipment Loads 1,160 0 1,160 3.5% Coaling Infiltration 0 0 0 0.0% Sub -Total==> 32,124 5,458 37,582 112.3% Coil Selection Parameters Coil Entering Air (DB / WB) Cod Entering Humidity Ratio Coil Leaving Air (D8 / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 75.4 162.8 °F 66.59 gr/Ib 59.9 / 56.7 °F 64.82 gr/Ib 29.77 MBh 33.48 MBh 59.87 °F 1,833.00 cfm 49.86 % Ventilation Load -2,666 -1,746 -4,412 -13.2% Total Cooling Load 3.1 ton Exhaust Heat -195 0 -195 -0.6% Area /Load 449.69 fr/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,402 ft' Return Fan Load 0 0 0.0% Cooling Airflow 1.32 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 592.18 cfmrton Wall Load to Plenum 367 367 1.1% Percent Outdoor Air 11,9 % Roof Load to Plenum 135 135 0.4% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 29,765 3,712 33,477 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name. 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 20 of 91 Load Component Design Cooling Load Summary By Trial System - ADMIN - FAN COILS Zone - HFC -61 Coil Location - Zone Coil Peak Calculation Time: August, hour 14 Ambient DBMBMR: 79 / 63 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Bluth of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 2,724 2,724 72.5% People 625 500 1,125 30.0% Misc. Equipment Loads 854 0 854 22.7% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 4,202 500 4,703 125.2% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (D8 / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 71.6 / 60.2 °F 61.01 gr/lb 55.0 / 53.6 °F 59.98 gr/Ib 3.03 MBh 3.76 MBh 55.00 °F 198.35 cfm 43.62 % Ventilation Load -1,077 229 -849 -22.6% Total Cooling Load 0.5 ton Exhaust Heat -99 0 -99 -2.6% Area / Load 2,630.05 ft'/ion Supply Fan Load 0 0 0.0% Total Floor Area 1,172 IV Retum Fan Load 0 0 0.0% Cooling Airflow 0.17 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 451.02 cfm8an Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 44.4 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 . 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 3,026 729 3,755 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 21 of 91 Load Component Design Cooling Load Summary By Trial System -ADMIN - FAM COILS Zone - HFC -62 Coil Location - Zone Coil Peak Calculation Time: September, hour 12 Ambient OB/WB/HR: 73 / 60 / 57 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Bluth Btu/h Btu/h of Total Solar Gain 16,898 16,898 84.8% Glass Transmission 325 -325 -1.6% Wall Transmission 33 33 0.2% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 1,637 1,637 8.2% People 674 539 1,212 6.1% Misc. Equipment Loads 919 0 919 4.6% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 19,836 539 20,375 102.2% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 76.0 / 60.1 °F 53.43 gr/Ib 55.0 / 51.8 °F 53.20 gr/Ib 19.26 MBh 19.93 MBh 55.00 °F 863.81 cfm 39.17 % Ventilation Load -554 126 -427 -2.1% Total Cooling Load 1.7 ton Exhaust Heat -28 0 -28 -0.1% Area / Load 311.63 ft./ton Supply Fan Load 0 0 0.0% Total Floor Area 539 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 1.60 cfm/ft° Net Duct Heat Pickup 0 0 0.0% Airflow / Load 499.61 cfmlton Wall Load to Plenum 11 11 0.1% Percent Outdoor Air 5.3 % Roof Load to Plenum 5 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 19,265 665 19,930 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 22 of 91 Load Component Design Cooling Load Summary By Trial System - ADMIN - FAN COILS Zone - HFC -63 Coil Location - Zone Coil Peak Calculation lime: August, hour 14 Ambient DB/WB/HR: 79 / 63 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Muth of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 2,569 2,569 51.8% People 1,291 1,133 2,424 48.9% Misc. Equipment Loads 1,080 0 1,080 21.8% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 4,940 1,133 6,073 122.6% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 74.0 / 62.3 °F 66.76 gr/Ib 58.1 / 56.1 °F 65.11 grab 4.05 MBh 4.95 MBh 58.13 °F 267.00 cfm 49.90 % Ventilation Load -814 -230 -1,044 -21.1% Total Cooling Load 0.5 ton Exhaust Heat -75 0 -75 -1.5% Area / Load 1,847.51 ft'aon Supply Fan Load 0 0 0.0% Total Floor Area 948 ft° Retum Fan Load 0 0 0.0% Cooling Airflow 0.28 cfm/ft° Net Duct Heat Pickup 0 0 0.0% Airflow / Load 525.29 cfmaon Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 25.0 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 4,052 903 4,954 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 23 of 91 Load Component Design Cooling Load Summary By Trial System -AHU-1 COMMONS SZVAV Zone - AHU-1 Coil Location - Zone Coil Peak Calculation lime: August, hour 15 Ambient DB/WB/HR: 79 / 63 / 62 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 121,255 121,255 25.1% Glass Transmission 3,312 3,312 0.7% Wall Transmission 3,829 3,829 0.8% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 26,753 26,753 5.5% People 156,971 156,927 313,898 65.1% Misc. Equipment Loads 302 0 302 0.1% Cooling Infittration 0 0 0 0.0% Sub -Total=> 312,423 156,927 469,350 97.3% Ventilation Load 24,851 -27,576 -2,726 -0.6% Exhaust Heat -12,572 0 -12,572 -2.6% Supply Fan Load 0 0 0,0% Retum Fan Load 00 0.0% Net Duct Heat Pickup 0 0 0.0% Wall Load to Plenum 2,526 2,526 0.5% Roof Load to Plenum 25,558 25,558 5.3.k Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 00 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 352,787 129,351 482,137 100.0 Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (0B / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 78.7 / 63.5 °F 64.61 gr/Ib 49.8/48.1 °F 47.84 gr/lb 352.79 MBh 482.14 MBh 49.79 °F 11,123.20 cfm 50.03 % Total Cooling Load 40.2 tan Area / Load 371.98 fl'/tan Total Floor Area 14,945 6' Cooling Airflow 0.77 cfm/fl' Airflow / Load 285.70 cfm/ton Percent Outdoor Air 59.9 % Cooling Load Methodology TETD-TAI Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 24 of 91 Load Component Design Cooling Load Summary By Trial System - AHU-2 AUX GYM SZVAV Zone - AHU-2 Coil Location - Zone Coil Peak Calculation lime: August, hour 12 Ambient DB/WB/HR: 76 / 62162 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 66,744 66,744 48.0% Coil Entering Air (DB / WB) 76.8 / 61.7 °F Glass Transmission -1,347 -1,347 -1.0% Coil Entering Humidity Ratio 59.28 gr/Ib Walt Transmission 5,569 5,569 4.0% Coil Leaving Air (DB / WB) 55.0 / 52.2 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 54.72 grills Floor Transmission 0 0 0.0% Coil Sensible Load 122.95 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 138.91 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 55.00 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 5,131.29 cfm Lighting 35,260 35,260 25.4% Resulting Room Relative Humidity 42.10 % People 8,750 8,750 17,500 12.6% Misc. Equipment Loads 0 0 0 0.0% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 114,975 8,750 123,725 89.1% General Engineering Checks Ventilation Load -686 7,215 6,530 4.7% Total Cooling Load 11.6 ton Exhaust Heat -3,383 0 -3,383 -2.4% Area / Load 610.63 W/ton Supply Fan Load 0 0 0.0% Total Floor Area 7,069 ft° Return Fan Load 0 0 0.0% Cooling Airflow 0.75 cfm/fl' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 459.82 cfmfton Wall Load to Plenum 2,776 2,776 2.0% Percent Outdoor Air 37.8 % Roof Load to Plenum 9,263 9,263 6.7% Coaling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 122,945 15,965 138,911 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 25 of 91 Load Component Design Cooling Loadl Summary By Trial System -AHU-3 WEIGHT TRAINING SZVAV Zone - AHU-3 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient OB/WB/HR: 81 !64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 9,932 9,932 18.9% Glass Transmission 1,111 1,111 2.1% Wall Transmission 1,814 1,814 3.5% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 8,305 8,305 15.8% People 9,563 9,412 18,975 36.2% Misc. Equipment Loads 1,029 0 1,029 2.0% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 31,754 9.412 41.166 78.5% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 80.1 / 63.6 °F 62.81 gr/Ib 55.0 / 52.0 °F 53.73 gr/lb 42.68 MBh 52.43 MBh 55.00 °F 1,549.45 cfm 45.91 % Ventilation Load 4,604 333 4,938 9.4% Total Cooling Load 4.4 ton Exhaust Heat -3,190 0 -3,190 -6.1% Area / Load 889.00 ft./ton Supply Fan Load 0 0 0.0% Total Floor Area 3,884 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.48 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 425.40 cfm/ton Wall Load to Plenum 665 665 1.3% Percent Outdoor Air 48.1 % Roof Load to Plenum 8,849 8,849 16.9% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 00 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Linder Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 42,682 9,745 52,428 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM an 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Altemative - 1 Design Cooling Load Report Page 26 of 91 Load Component Design Cooling Load Summary By Trial System - AHU-4 PAC SEATING Zone - AHU-4 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btulh Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 79.3 / 63.9 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 65.80 gr/Ib Wall Transmission 202 202 0.1% Coil Leaving Air (DB / WB) 54.2 / 51.8 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 54.47 gr/lb Floor Transmission 0 0 0.0% Coil Sensible Load 265.77 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 341.36 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 54.15 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 9,610.06 cfm Lighting 37,054 37,054 10.9% Resulting Room Relative Humidity 50.08 % People 189,727 91,989 281,716 82.5% Misc. Equipment Loads 0 0 0 0.0% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 226.983 91,989 318,972 93.4% General Engineering Checks Ventilation Load 23,377 -16,395 6,982 2.0% Total Cooling Load 28.5 ton Exhaust Heat -10,403 0 -10,403 -3.0% Area / Load 200.96 fl'tton Supply Fan Load 0 0 0.0% Total Floor Area 5,717 90 Return Fan Load 0 0 0.0% Cooling Airflow 1.69 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 340.23 cfml/on Wall Load to Plenum -18 -18 0.0% Percent Outdoor Air 46.9 % Roof Load to Plenum 25,827 25,827 7.6% Cooling Load Methodology TETO-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 265,766 75,594 341,360 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Coaling Load Report Page 27 of 91 Load Component Design Cooling Load Summary By Trial System -AHU-5 PAC STAGE Zone -1045 PAC SrAGE Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/B/HR: 81 ' 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0,0% Glass Transmission 0 0 0.0% Wall Transmission 2,516 2,516 1.8% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 25,567 25,567 18.2% People 60,755 28,352 89,107 63.4% Misc. Equipment Loads 0 0 0 0.0% Cooling Infiltration 0 0 0 0.0% Sub -Total => 88,837 28,352 117.190 83.4% Ventilation Load 15,109 Exhaust Heat -8,338 Supply Fan Load 0 Return Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 724 Roof Load to Plenum 13,782 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 1,978 0 Coil Selection Parameters Coil Entering Air (D8 / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 80.1 / 63.6 °F 62.78 gr/Ib 55.0/51.5 °F 51.79 gr/Ib 110.12 MBh 140.45 MBh 55.00 °F 3,987.32 cfm 45.59 % 17,088 12.2% Total Cooling Load 11.7 tan -8,338 -5.9% Area / Load 329.92 8'/ton O 0.0% Total Floor Area 3,861 ft' 0 0.0% Cooling Airflow 1.07 cfm/ft' O 0.0% Airflow / Load 353.05 cfmrton 724 0.5% Percent Outdoor Air 71.0 % 13,782 9.8% Cooling Load Methodology TETD-TA1 0 0.0% 0 0.0% 0 0.0% 0 0.0% O 0.0% O 0.0 % 0 0.0% O 0.0% O 0.0% Total Cooling Loads 110,115 30,330 140,446 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 28 of 91 Load Component Design Cooling Load Summary By Trial System - AHU-6 Zone - AHU-6 Coil Location - Zone Coil Peak Calculation Time: July, hour 16 Ambient DB/WB/HR: 81 / 63 / 58 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btua1 Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 84.3 / 61.3 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 45.46 grab Wall Transmission 332 332 2.8% Coil Leaving Air (DB / WB) 55.0 / 49.7 T Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 45.17 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 11.78 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 11.78 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 55.00 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 365.40 cfm Lighting 4,091 4,091 34.7% Resulting Room Relative Humidity 33.52 % People 0 0 0 0.0% Misc. Equipment Loads 0 0 0 0.0% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 4,423 0 4,423 37.5% General Engineering Checks Ventilation Load 0 0 0 0.0% Total Cooling Load 1.0 ton Exhaust Heat 0 0 0 0.0% Area / Load 1,545.69 IP/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,517 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 0.24 cfm/fP Net Duct Heat Pickup 0 0 0.0% Airflow / Load 372.78 cfm/ton Wall Load to Plenum 76 76 0.6% Percent Outdoor Air 0.0 % Roof Load to Plenum 7,281 7,281 61.8% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0.0% Total Cooling Loads 11,780 11,780 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 29 of 91 Load Component Design Cooling Load Summary By Trial System - AHU-7 GYM Zone - AHU-7 Coil Location - Zone Coil Peak Calculation Time: August, hour 15 Ambient DBMS/HR: 79 r 63 / 62 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 68,509 68,509 20.2% Glass Transmission 767 767 0.2% Wall Transmission 2,494 2,494 0.7% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 31,468 31,468 9.3% People 123,750 57,750 181,500 53.5% Misc. Equipment Loads 0 0 0 0.0% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 226,987 57,750 284,737 83.9% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 79.3 / 63.1 °F 61.89 gr/Ib 55.0 / 51.8 °F 53.18 gr/Ib 277.07 MBh 339.46 MBh 55.00 °F 10,370.01 cfm 45.00 % Ventilation Load 21,244 4.645 25,889 7.6°k Total Cooling Load 28.3 ton Exhaust Heat -21,629 0 -21,629 -6.4% Area / Load 409.39 ftrfton Supply Fan Load 0 0 0.0% Total Floor Area 11,581 fV Retum Fan Load 0 0 0.0% Cooling Airflow 0.94 cfm/fP Net Duct Heat Pickup 0 0 0.0% Airflow / Load 386.41 cfm/ton Wall Load to Plenum 957 957 0.3% Percent Outdoor Air 53.8 % Roof Load to Plenum 49,507 49,507 14.6% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 00 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 277,066 62,395 339,461 100.0 % ( Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM 00 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 30 of 91 8 Load Component Design Cooling Load Summary By Trial System - AHU-9 Zone -AHU-9 Coil Location - Zone Coil Peak Calculation Time: July, hour 16 Ambient DBMS/HR: 81 / 63 / 58 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 82.3 / 65.0 'F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 66.11 gr/Ib Wall Transmission 707 707 1.6% Coil Leaving Air (DB / WB) 59.9 / 56.8 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 65.31 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 40.05 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 43.24 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 59.86 'F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1,714.84 cfm Lighting 11,464 11,464 26.5% Resulting Room Relative Humidity 49.86 % People 5,472 5,378 10,849 25.1% Misc. Equipment Loads 644 0 644 1.5% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 16,287 5,378 23,664 54.7% General Engineering Checks Ventilation Load 1,603 -2,185 -582 -1.3% Total Cooling Load 3.6 ton Exhaust Heat -2,284 0 -2,284 -5.3% Area / Load 1,588.77 1V/ton Supply Fan Load 0 0 0.0% Total Floor Area 5.725 IF Retum Fan Load 0 0 0.0% Cooling Airflow 0.30 cfm/fl' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 478.75 cfm/ton Wall Load to Plenum 76 76 0.2% Percent Outdoor Air 18.0 % Roof Load to Plenum 22,370 22,370 51.7% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 40,050 3,193 43,243 100.0 Project Name: Dataset Name: 216101 FOSTER HS.TRC Alternative- 1 Design Cooling Load Report Page 31 of 91 TRACE® 700 v6.3.3 calculated at 10 34 AM on 04/24/2018 Load Component Design Cooling Load Summary By Trial System - HRU-1 Zone - HRU-1 Coil Location - Zone Coil Peak Calculation Time: July, hour 15 Ambient DB/WB/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Bluth Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 82.2 / 64.9 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 66.03 gr/Ib Wall Transmission 1,122 1,122 1.01/4 Coil Leaving Air (DB / WB) 53.2 / 52.1 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 57.21 gr/Ib Floor Transmission 00 0.0% Coil Sensible Load 86.77 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 109.10 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 53.23 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 2,876.83 cfm Lighting 16,473 16,473 15.1% Resulting Room Relative Humidity 50.16 % People 33,987 26,977 60,964 55.9% Misc. Equipment Loads 2,116 0 2,116 1.9% Cooling Infiltration 0 0 0 0.0% Sua•Total==a 53,698 26,977 80,675 73.9% General Engineering Checks Ventilation Load 4,554 -4,653 -100 -0.11/4 Total Cooling Load 9.1 tan Exhaust Heat -6,627 0 -6,627 -6.1 % Area / Load 887.04 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 8,064 fl' Return Fan Load 0 0 0.0 % Cooling Airflow 0.36 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 316.44 cfm/ton Wall Load to Plenum 404 404 0.4% Percent Outdoor Air 31.5 % Roof Load to Plenum 34,736 34,736 31.8% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0 % Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.01/4 Glass Transmission to Plenum 0 0 0.0 % Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 7 7 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 5.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 86,773 22,323 109,096 100.0 % Project Name: Dataset Name 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 32 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -1 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 3,845 3,845 14.9% Glass Transmission 275 275 1.1% Wall Transmission 272 272 1.1% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 5,722 5,722 22.2% People 7,425 5,940 13,365 51.8% Misc. Equipment Loads 1,343 0 1,343 5.2% Cooling Infiltration 0 0 0 0.0% Sub -Total =.c 18,882 5,940 24,822 96.1% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Laad Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 79.9 / 64.0 °F 65.09 gr/Ib 56.6 / 55.1 °F 63.20 grltb 21.87 MBS 25.82 MBh 56.64 °F 961.01 cfm 49.95 % Ventilation Load 2,941 -1,991 950 3.7% Total Cooling Load 2.2 ton Exhaust Heat -64 0 -64 -0.2% Area 1 Load 811.17 ftNtan Supply Fan Load 0 0 0.0% Total Floor Area 1,746 1t Return Fan Load 0 0 0.0% Cooling Airflow 0.58 cfm/ft* Net Duct Heat Pickup 0 0 0.0% Airflow / Load 471.84 cfmIton Wall Load to Plenum 113 113 0.4% Percent Outdoor Air 56.2 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0 % Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 21,872 3,949 25,822 100.0 % Project Name: Dataset Name. 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 33 of 91 TRACE® 700 v6.3.3 calculated at 10.34 AM on 04/24/2018 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -10 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 2,282 2,282 11.6% Glass Transmission 315 315 1.6% Wall Transmission 103 103 0.5% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 3,016 3,016 15.3% People 7726 6,180 13,906 70.6% Misc. Equipment Loads 664 0 664 3.4% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 14,105 6,180 20,285 102.9% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load 80.2/64.0 °F 64.44 gr/Ib 52.1 / 52.1 "F 58.70 gr/Ib 15.02 MBh Coil Total Load 19.71 MBh Cooling Supply Air Temperature 52.11 °F Total Cooling Airflow 567.38 cfm Resulting Room Relative Humidity 50.06 % General Engineering Checks Ventilation Load 2,139 -1,491 648 3.3% Total Cooling Load 1.6 ton Exhaust Heat -1,284 0 -1.284 -6.5% Area / Load 538.19 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 884 fF Return Fan Load 0 0 0.0% Cooling Airflow 0.64 cfm/f5 Net Duct Heat Pickup 0 0 0.0% Airflow / Load 345.62 cfmtton Wall Load to Plenum 57 57 0.3% Percent Outdoor Air 73.1 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0 % Total Cooling Loads 15,017 4,689 19,706 100.0 % Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 34 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -11 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR' 81 / 64 163 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 3.528 3,528 16.3% Coil Entering Air (DB / WB) 79.9 / 64.0 °F Glass Transmission 484 484 2.2% Coil Entering Humidity Ratio 65.25 gr/lb Wall Transmission 471 471 2.2% Coil Leaving Air (DB / WB) 54.8 1 53.9 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 61.37 gr/lb Floor Transmission 0 0 0.0% Coil Sensible Load 16.93 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 21.59 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 54.83 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 714.69 cfm Lighting 3,003 3,003 13.9% Resulting Room Relative Humidity 50.08 % People 7,691 6,152 13,843 64.1% Misc. Equipment Loads 661 0 661 3.1% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 15,836 6,152 21.989 101.9% General Engineering Checks Ventilation Load 2,129 -1,493 637 2.9% Total Cooling Load 1.8 ton Exhaust Heat -1,278 0 -1,278 -5.9% Area / Load 489.02 1'/ton Supply Fan Load 0 0 0.0% Total Floor Area 880 1' Return Fan Load 0 0 0.0% Cooling Airflow 0.85 cfm/1' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 414.72 cfm/ton Wall Load to Plenum 242 242 1.1% Percent Outdoor Air 55.4 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 16,930 4,660 21,589 100.0 Project Name Dataset Name. 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated 0110:34 AM on 04/24/2018 Altemative - 1 Design Cooling Load Report Page 35 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -12 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 2,620 2,620 10.1% Coil Entering Air (DB / WB) 79.8 / 64.0 °F Glass Transmission 361 361 1.4% Coil Entering Humidity Ratio 65.39 gr/Ib Wall Transmission 402 402 1.5% Coil Leaving Air (DB / VVB) 58.4 / 55.1 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 60.66 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 20.40 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 26.05 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 58.38 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 971.65 cfm Lighting 5,825 5,825 22.4% Resulting Room Relative Humidity 49.88 % People 7,391 7,391 14,783 56.8% Misc. Equipment Loads 1,009 0 1,009 3.9% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 17,608 7,391 25,000 96.0% General Engineering Checks Ventilation Load 2,632 -1,747 884 3.4% Total Cooling Load 2.2 ton Exhaust Heat 0 0 0 0.0% Area / Load 619.15 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,344 ft° Return Fan Load 0 0 0.0% Cooling Airflow 1.04 cfm/ft° Net Duct Heat Pickup 0 0 0.0% Airflow / Load 642.78 cfmfton Wall Load to Plenum 162 162 0.6% Percent Outdoor Air 36.6 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0 % Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 20,403 5,644 26,047 100.0 Project Name Dataset Name 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 36 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -13 Coil Location - Zone Coil Peak Calculation Time. July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Bluth of Total Solar Gain 42,741 42,741 57.5% Glass Transmission 1,767 1,767 2.4% Wall Transmission 1,122 1,122 1.5% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 10,599 10,599 14.2% People 11,020 10,197 21,217 28.5% Misc. Equipment Loads 1,211 0 1,211 1.6% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 68,460 10,197 78,658 105.7% Coil Selection Parameters Coil Entering Air (DB / WB) Co/ Entering Humidity Ratio Coil Leaving Air (DB / W8) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 78.8 / 63.7 °F 65.52 gr/Ib 61.6 / 57.6 'F 65.52 gr/lb 71.91 MBh 74.40 MBh 61.63 °F 4,566.10 cfm 49.86 % Ventilation Load 3,091 -7,709 -4,617 -6.2% Total Cooling Load 6.2 ton Exhaust Heat -650 0 -650 -0.9% Area / Load 710.55 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 4,405 ft' Return Fan Load 0 0 0.0% Cooling Airflow 1.04 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 736.50 cfm/ton Wall Load to Plenum 1,006 1,006 1.4% Percent Outdoor Air 18.2 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 71,908 2,489 74,397 100.0 % Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10-.34 AM on 04/24/2018 Altemative - 1 Design Cooling Load Report Page 37 o191 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -14 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 2,282 2,282 7.7% Glass Transmission 315 315 1.1% Wall Transmission 265 265 0.9% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 5,800 5,800 19.6% People 9,145 9,070 18,215 61.6% Misc. Equipment Loads 1,568 0 1,568 5.3% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 19,375 9,070 28,445 96.2% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (D8 / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 80.0 / 64.0 °F 64.87 gr/Ib 56.9 / 54.0 'F 58.60 gr/Ib 22.68 MBh 29.58 MBh 56.87 °F 993.86 cfm 49.90 % Ventilation Load 3,241 -2,164 1,077 3.6% Total Cooling Load 25 ton Exhaust Heat -79 0 -79 -0.3% Area / Load 691.51 W/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,705 ft° Return Fan Load 0 0 0.0% Cooling Airflow 0.78 cfm/fP Net Duct Heat Pickup 0 0 0.0% Airflow / Load 536.01 cfm/ton Wall Load to Plenum 139 139 0.5% Percent Outdoor Air 47.6 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0 Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 22,675 6,905 29,581 100.0 % Project Name: TRACER 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Attemative - 1 Design Cooling Load Report Page 38 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -15 Coil Location - Zone Coil Peak Calculation Time: August, hour 16 Ambient DB/WB/HR: 79 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 9,959 9,959 34.1% Coil Entering Air (DB / WB) 78.6 / 63.5 °F Glass Transmission 170 170 0.6% Coil Entering Humidity Ratio 64.87 gr/Ib Wall Transmission 324 324 1.1% Coil Leaving Air (D8 / WB) 57.0 / 55.4 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 63.98 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 24.55 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 29.24 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 56.98 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1,200.08 cfm Lighting 3,791 3,791 13.0% Resulting Room Relative Humidity 49.91 % People 9,126 7,301 16,427 56.2% Misc. Equipment Loads 784 0 784 2.7% Coaling Infiltration 0 0 0 0.0% Sub -Total==> 24,153 7,301 31,454 107.6% General Engineering Checks Ventilation Load 1,526 -2,613 -1,086 -3.7% Total Cooling Load 2.4 ton Exhaust Heat -1,362 0 -1,362 -4.7% Area l Load 480,09 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,170 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 1.03 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 495.87 cfm/ton Wall Load to Plenum 232 232 0.8% Percent Outdoor Air 41.2 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 24,549 4,688 29,237 100.0 % Project Name: Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 39 of 91 TRACE® 700 v6.3.3 calculated at 10:34 AM an 04/24/2018 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -16 Coil Location - Zone Coil Peak Calculation Time: July, hour 15 Ambient DB/WB/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 4,520 4,520 18.9% Coil Entering Air (DB / WB) 80.1 / 63.9 °F Glass Transmission 542 542 2.3% Coil Entering Humidity Ratio 64.24 gr/Ib Wall Transmission 445 445 1.9% Coil Leaving Air (DB / WB) 56.5 / 54.2 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 59.90 gr/Ib Floor Transmission 0 0 0.0% Cod Sensible Load 19.90 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 23.86 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 56.51 'F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 825.18 cfm Lighting 3,003 3,003 12.6% Resulting Room Relative Humidity 49.95 % People 7,691 6,152 13,843 58.0% Misc. Equipment Loads 661 0 661 2.8% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 16,861 6,152 23,014 96.5% General Engineering Checks Ventilation Load 2,402 -2,193 209 0.9% Total Cooling Load 2.0 ton Exhaust Heat -1,318 0 -1,318 -5.5% Area / Load 442.54 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 880 ft' Return Fan Load 0 0 0.0% Cooling Airflow 1.01 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 446.85 cimlton Wall Load to Plenum 226 226 0.9% Percent Outdoor Air 46.5 % Roof Load to Plenum 1,727 1,727 7.2% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0 % Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 19,897 3,959 23,857 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10.34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 40 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -17 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 2,282 2,282 11.5% Coil Entenng Air (DB 1 WB) 80.2 / 64.0 °F Glass Transmission 315 315 1.6% Coil Entering Humidity Ratio 64.50 gr/Ib Wall Transmission 236 236 1.2% Cod Leaving Air (DB / WB) 52.3 1 52.2 °F Roof Transmission 0 0 0.0% Cod Leaving Humidity Ratio 58.89 gr/lb Floor Transmission 0 0 0.0% Coil Sensible Load 15.16 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 19.84 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 52.28 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 574.90 Om Lighting 3,006 3,006 15.2% Resulting Room Relative Humidity 50.06 % People 7,699 6,159 13,859 69.9% Misc. Equipment Loads 661 0 661 3.3% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 14,200 6,159 20,359 102.6% General Engineering Checks Ventilation Load 2,132 -1,485 646 3.3% Total Cooling Load 1.7 ton Exhaust Heat -1,280 0 -1,280 -6.5% Area / Load 532.82 ft'Ron Supply Fan Load 0 0 0.0% Total Floor Area 881 It Return Fan Load 0 0 0.01/4 Cooling Airflow 0.65 cfm/fe Net Duct Heat Pickup 0 0 0.0% Airflow / Load 348.25 cfm/ton Wall Load to Plenum 112 112 0.6% Percent Outdoor Air 71.9 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0,0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 15,163 4,674 Project Name Dataset Name. 216101 FOSTER HS.TRC 19,837 100.0 % TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 41 of 91 Load Component Design Cooling Load Summary Sy Trial System - SZVAV FCUs Zone - HFC -18 Coil Location - Zone Coil Peak Calculation Time: July, hour 16 Ambient DB/WB/HR• 81 / 63 / 58 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 54,988 54,988 59.9% Glass Transmission 2,826 2,826 3.1% Wall Transmission 980 980 1.1% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceding Load 0 0 0.0% Lighting 8,512 8,512 9.3% People 7,696 6,157 13,852 15.1% Misc. Equipment Loads 661 0 661 0.7% Cooling Infittration 0 0 0 0.0% Sub -Total ...s 75,662 6,157 81,819 89.2% Ventilation Load 3,072 Exhaust Heat -1,845 Supply Fan Load 0 Retum Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 1,037 Roof Load to Plenum 7,086 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 Total Cooling Loads 85,013 Project Name: Dataset Name: 216101 FOSTER HS.TRC Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Cod Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 79.1/61.9 °F 56.60 gr/lb 55.0 / 52.6 'F 56.16 gr/Ib 85.01 MBh 91.76 MBh 55.00 °F 3,430.91 cfm 41.45 % 592 3,664 4.0% Total Cooling Load 7.7 ton 0 -1,845 -2.0% Area / Load 513.30 8'/ton 0 0.0% Total Floor Area 3,925 ft' 0 0,0% Cooling Airflow 0.90 cfm/ft' 0 0.0% Airflow / Load 461.16 cfm/ton 1,037 1.1% Percent Outdoor Air 16.9 % 7,086 7.7% Cooling Load Methodology TETD-TA1 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0 0.0% 6,748 91,762 100.0 % TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 42 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -19 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 164 163 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 2,282 2,282 10.6% Cod Entering Air (DB / WB) 80.2 / 64.0 °F Glass Transmission 315 315 1.5% Cod Entering Humidity Ratio 64.50 gr/Ib Wall Transmission 236 236 1.1% Coil Leaving Air (DB / WB) 52.3 / 51.0 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 54.48 grub Floor Transmission 0 0 0.0% Coil Sensible Load 16.94 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 21.62 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 52.27 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 575.45 cfm Lighting 3,010 3,010 13.9% Resulting Room Relative Humidity 50.06 % People 7,710 6,168 13,878 64.2% Misc. Equipment Loads 662 0 662 3.1% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 14,215 6,168 20,383 94.3% General Engineering Checks Ventilation Load 2,135 -1.487 647 3.0% Total Cooling Load 1.8 ton Exhaust Heat -1,282 0 -1,282 -5.9% Area / Load 489.52 ftMon Supply Fan Load 0 0 0.0% Total Floor Area 882 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 0.65 cfm/fP Net Duct Heat Pickup 0 0 0.0% Airflow / Load 319.82 cfm/ton Wall Load to Plenum 112 112 0.5% Percent Outdoor Air 71.9 % Roof Load to Plenum 1,761 1,761 8.1% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0 % Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 16,941 4,680 21,621 100.0 Project Name Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Altemative - 1 Design Cooling Load Report Page 43 of 91 Load Component Design Cooling Load Summary By Trial System • SZVAV FCUs Zone - HFC -2 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0 % Coil Entering Air (DB / WB) 80.7 / 63.8 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 63.04 gr/lb Wall Transmission 0 0 0.0% Coil Leaving Air (DB / WB) 47.8 / 47,7 "F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 49.68 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 12.46 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 17,71 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 47.75 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 405.38 cfm Lighting 3,112 3,112 17.6% Resulting Room Relative Humidity 49.22 % People + 7,971 6,377 14,348 81.0% Misc. Equipment Loads 685 0 685 3.9% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 11,768 6,377 18,145 102.5% General Engineering Checks Ventilation Load 2,089 -1,130 959 5.4% Total Cooling Load 1.5 ton Exhaust Heat -1,396 0 -1,396 -7.9% Area / Load 617.93 R'/ton Supply Fan Load 0 0 0.0% Total Floor Area 912 8= Return Fan Load 0 0 0.0% Cooling Airflow 0.47 cfm/fy Net Duct Heat Pickup 0 0 0.0% Airflow / Load 290.21 cfmfon Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 100.0 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0 % Total Cooling Loads 12,461 5,247 17,709 100.0 % Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM an 04/24/2018 Alternative - 1 Design Cooling Load Report Page 44 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -20 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR'. 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Stu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 2,282 2,282 7.3% Coil Entering Air (DB / WB) 79.9 / 64.0 °F Glass Transmission 315 315 1.0% Cod Entering Humidity Ratio 65.26 gr/Ib Wall Transmission 728 728 2.3% Coil Leaving Air (DB / WB) 51.1 / 49.8 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 51.71 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 23.71 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 31.07 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 51.14 "F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 758.19 cfm Lighting 4,806 4,806 15.5% Resulting Room Relative Humidity 50.07 % People 10,476 8,930 19,406 62.5% Misc. Equipment Loads 664 0 664 2.1% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 19,270 8,930 28,201 90.8% General Engineering Checks Ventilation Load 2,244 -1,566 678 2.2% Total Cooling Load 2.6 ton Exhaust Heat -1,347 0 -1,347 -4.3% Area / Load 624.44 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,617 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.47 cfm/ft' Net Duct Heat Pickup o 0 0.0% Airflow / Load 294.11 cfm/ton Wall Load to Plenum 332 332 1.1% Percent Outdoor Air 57.2 % Roof Load to Plenum 3,207 3,207 10.3% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 23,706 7,364 31,071 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 45 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -21 Coil Location - Zone Cod Peak Calculation Time. July, hour 14 Ambient DB/WB/HR'. 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 3,684 3,684 15.6% Glass Transmission 417 417 1.8% Wall Transmission 594 594 2.5% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 3,001 3,001 12.7% People 7,685 6,148 13,834 58.7% Misc. Equipment Loads 660 0 660 2.8% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 16,041 6,148 22,189 94.2% Coil Selection Parameters Col Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / W8) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 79.9 / 64.0 °F 65.29 gr/lb 54.9 / 53.1 °F 58.05 gr/lb 18.90 MBh 23.56 MBh 54.89 °F 725.52 cfm 50.08 Ventilation Load 2,128 -1,491 637 2.7% Total Cooling Load 2.0 ton Exhaust Heat -1,277 0 -1,277 -5.4% Area / Load 447.87 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 879 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 0.86 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 383.02 cfm/ton Wall Load to Plenum 302 302 1.3% Percent Outdoor Air 54.9 % Roof Load to Plenum 1,706 1,706 7.2% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0 % Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 18,899 4,658 23,557 100.0 % Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 46 of 91 6 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -22 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR. 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 2,282 2,282 8.3% Coil Entering Air (DB / WB) 79.8 / 64.0 °F Glass Transmission 315 315 1.1% Coil Entering Humidity Ratio 65.30 gr/Ib Wall Transmission 386 386 1.4% Coil Leaving Air (DB / We) 58.1 / 53.9 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 56.18 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 21.95 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 27.38 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 58.06 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 904.82 cfm Lighting 5,609 5,609 20.5% Resulting Room Relative Humidity 49.89 % People 7,117 7,117 14,234 52.0% Misc. Equipment Loads 972 0 972 3.5% Cooling Infiltration 0 0 0 0.0% Sub.Total==> 16,680 7,117 23,797 86.9% General Engineering Checks Ventilation Load 2,534 -1,685 849 3.1% Total Cooling Load 2.3 ton Exhaust Heat 0 0 0 0.0% Area / Load 567.04 fylton Supply Fan Load 0 0 0.0% Total Floor Area 1,294 fE Return Fan Load 0 0 0.0% Cooling Airflow 0.98 cfmRN Net Duct Heat Pickup 0 0 0.0% Airflow / Load 554.00 cfm/ton Wall Load to Plenum 155 155 0.8% Percent Outdoor Air 38.9 % Roof Load to Plenum 2,584 2,584 9.4% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 21,953 5,432 27,385 100.0 Project Name: TRACES 700 v6.3.3 calculated at 10:34 AM on 04/2412018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 47 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -23 Coil Location - Zone Coil Peak Calculation Time: July, hour 15 Ambient DB/WB/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 8,619 8,619 17.0% Glass Transmission 872 872 1.7% Wall Transmission 1,027 1,027 2.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 9,701 9,701 19.2% People 10,950 10,138 21,088 41.7% Misc. Equipment Loads 1.204 0 1,204 2.4% Cooling Infiltration 0 0 0 0.0% Sub -Total =u0 32,374 10,138 42,512 84.0% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 79.8 / 64.0 °F 65.02 gr/Ib 60.0 / 55.8 "F 60.77 grab 44.64 MBh 50.62 MBh 60.00 °F 2,046.40 cfrn 49.86 % Ventilation Load 4,636 -4,161 474 0.9% Total Cooling Load 4.2 ton Exhaust Heat -626 0 -626 -1.2% Area / Load 928.69 R'/ton Supply Fan Load 0 0 0.0 Total Floor Area 3,917 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.61 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 565.24 cfmfton Wall Load to Plenum 527 527 1.0% Percent Outdoor Air 33.4 % Roof Load to Plenum 7,729 7.729 15.3% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 44,639 5,977 50,616 100.0 % Project Name. Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 48 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -24 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Cod Selection Parameters Solar Gain 2,282 2,282 6.9% Coil Entering Air (DB / WB) 80.0 / 64.0 °F Glass Transmission 315 315 1.0% Coil Entering Humidity Ratio 64.87 gr/Ib Wall Transmission 268 268 0.8% Coil Leaving Air (DB / WB) 56.9 / 52.8 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 53.70 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 25.97 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 32.84 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 56.88 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 990.12 cfm Lighting 5,768 5,768 17,6% Resulting Room Relative Humidity 49.90 % People 9,104 9,030 18,134 55.2% Misc. Equipment Loads 1,557 0 1,557 4.7% Cooling Infiltration 0 0 0 0,0% Sub -Total ==> 19,293 9,030 28,323 86.2% General Engineering Checks Ventilation Load 3,227 -2,154 1,073 3.3% Total Cooling Load 2.7 ton Exhaust Heat -78 0 -78 -0.2% Area / Load 619.22 triton Supply Fan Load 0 0 0.0% Total Floor Area 1,695 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.78 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 481.59 cfm/ton Wall Load to Plenum 140 140 0.4% Percent Outdoor Air 47.5 % Roof Load to Plenum 3,384 3,384 10.3% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 25,965 6,876 32,842 100.0 % Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM an 04/24/2018 Alternative - 1 Design Cooling Load Report Page 49 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -25 Coil Location - Zone Coil Peak Calculation Time'. July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 1,744 1,744 6.1% Coil Entering Air (DB / WB) 80.1 / 64.0 °F Glass Transmission 241 241 0.8°A Coil Entering Humidity Ratio 64.75 gr/Ib Wall Transmission 43 43 0.2% Coil Leaving Air (DB / W8) 56.01 53.0 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 55.91 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 22.00 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 28.67 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 55.97 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 879.42 cfm Lighting 4,285 4,285 14.9% Resulting Room Relative Humidity 50.05 % People 10,975 8,780 19,754 68.9% Misc. Equipment Loads 943 0 943 3.3% Cooling Infiltration 0 0 0 0.0% Sub -Total =_> 18,231 8,780 27,010 94.2% General Engineering Checks Ventilation Load 3,039 -2,109 930 3.2% Total Cooling Load 2.4 ton Exhaust Heat -1,824 0 -1,824 -6.4% Area / Load 525.48 /P/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,256 5' Return Fan Load 0 0 0.0% Cooling Airflow 0.89 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 469.64 cfm/ton Wall Load to Plenum 48 48 0.2% Percent Outdoor Air 52.5 % Roof Load to Plenum 2,507 2,507 8.7% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 00 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 00 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 22.000 6,671 28,671 100.0 % Project Name. TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative- 1 Design Cooling Load Report Page 50 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -26 Coil Location - Zone Coil Peak Calculation Time: August, hour 17 Ambient DB/WB/HR: 78 / 61 / 57 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 9,958 9,958 53.1% Glass Transmission 129 129 0.7% Wall Transmission 458 458 2.4% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 1,159 1,159 6.2% People 4,245 2,685 6,930 37.0% Misc. Equipment Loads 296 0 296 1.6% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 16,245 2,685 18,930 101.0% Ventilation Load 199 Exhaust Heat -270 Supply Fan Load 0 Return Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 300 Roof Load to Plenum 442 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 Total Cooling Loads -851 0 Cod Selection Parameters Coil Entenng Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 78.2 / 63.7 °F 66.61 gr/lb 59.5/57.0 'F 66.53 gr/Ib 16.92 MBh 18.75 MBh 59.52 'F 910.91 cfm 49.86 % -651 -3.5% Total Cooling Load 1.6 ton -270 -1.4% Area / Load 221.75 ft'/ton O 0.0% Total Floor Area 347 ft' O 0.0% Cooling Airflow 2.63 cfm/ft' 0 0.0% Airflow / Load 582.97 cfm/ton 300 1.6% Percent Outdoor Air 11.8 442 2.4% Cooling Load Methodology TETD-TA1 O 0.0% 0 0.0% 0 0.0% O 0.0% 0 0.0% 0 0.0% 0 0.0% O 0.0% O 0.0% 16,916 1,835 18,750 100.0 Project Name Dataset Name. 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 51 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -28 Coil Location - Zone Coil Peak Calculation Time: July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 16,813 16,813 42.9% Coil Entering Air (D8 / VVB) 78.9 /62.5 'F Glass Transmission 261 261 0.7°k Coil Entering Humidity Ratio 59.57 gr/Ib Wall Transmission 135 135 0.3% Coil Leaving Air (DB / WB) 55.0 / 53.1 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 58.01 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 34.13 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 39.21 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 55.00 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1,435.27 cfm Lighting 5,070 5,070 12.9% Resulting Room Relative Humidity 46.35 % People 8,576 8,576 17,151 43.7% Misc. Equipment Loads 1,030 0 1,030 2.6% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 31,885 8,576 40,460 103.2% General Engineering Checks Ventilation Load 2,198 -3,498 -1,301 -3.3% Total Cooling Load 3.3 ton Exhaust Heat 0 0 0 0.0% Area / Load 454.55 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,485 8' Return Fan Load 0 0 0.0% Cooling Airflow 0.99 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 451.78 cfm/ton Wall Load to Plenum 49 49 0.1% Percent Outdoor Air 40.0 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0 % Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0 % Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 34,131 5,077 39,209 100.0 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 52 o191 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -29 Coil Location - Zone Coil Peak Calculation Time: July, hour 17 Ambient DB/WB/HR: 79 / 621 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 16,813 16,813 45.3% Glass Transmission 261 261 0.7% Wall Transmission 83 83 0.2% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 4,832 4,832 13.0% People 8,676 8,676 17,351 46.8% Misc. Equipment Loads 1,042 0 1,042 2.8% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 31,707 8,676 40,383 108.8% Ventilation Load 2,223 Exhaust Heat 0 Supply Fan Load 0 Return Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 41 Roof Load to Plenum 0 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 Total Cooling Loads 33,971 Project Name Dataset Name. 216101 FOSTER HS.TRC -5,536 0 Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 78.9/63.4 °F 63.75 gr/Ib 60.4 / 56.7 °F 63.75 gr/Ib 33.97 MBh 37.11 MBh 60.36 °F 1,912.48 cfm 49.85 % -3,313 -8.9% Total Cooling Load 3.1 ton 0 0.0% Area / Load 448.85 ft'/ton 0 0.0% Total Floor Area 1,388 IP 0 0.0% Cooling Airflow 1.42 cfm/fP 0 0.0% Airflow / Load 636.00 cfmtton 41 0.1% Percent Outdoor Air 30.3 % 0 0.0% Cooling Load Methodology TETD-TAI 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 3,139 37,111 100.0 % TRACE® 700 v6.3.3 calculated at 10.34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 53 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -3 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient OB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 838 838 4.8% Glass Transmission 112 112 0.6% Wall Transmission 334 334 1.9% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 2,851 2,851 16.3% People 7,301 5,841 13,141 75.4% Misc. Equipment Loads 627 0 627 3.6% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 12,062 5,841 17,903 102.7% Ventilation Load 2,021 -1,415 606 3.5% Exhaust Heat -1,214 0 -1,214 -7.0% Supply Fan Load 0 0 0.0% Return Fan Load 0 0 0.0% Net Duct Heat Pickup 0 0 0.0% Wall Load to Plenum 142 142 0.8% Roof Load to Plenum 0 0 0.0 % Adj Floor to Plenum 0 0 0.0 % Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 00 0.0 % Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0 % Total Cooling Loads 13,012 4,425 17,437 100.0 Project Name: Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 54 of 91 Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Co/ Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks Total Cooling Load Area / Load 80.1 / 64.0 °F 64.57 gr/Ib 55.0/53.4 °F 59.08 gr/lb 13.01 MBh 17.44 MBh 55.01 °F 555.24 cfm 50.08 % 1.5 ton 574.77 ft'/ton Total Floor Area 835 ft' Cooling Airflow 0.81 cfm/ F Airflow / Load 466.54 cfm/ton Percent Outdoor Air 57.9 % Cooling Load Methodology TETD-TA1 TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -30 Coil Location - Zone Coil Peak Calculation Time: July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 16,813 16,813 45.3% Coil Entenng Air (DB / WB) 78.9 / 63.4 °F Glass Transmission 261 261 0.7% Coil Entering Humidity Ratio 63.75 gr/lb Wall Transmission 83 83 0.2% Coil Leaving Air (DB / WB) 60.4 / 56.7 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 63.75 gr/Ib Floor Transmission 0 0 0.0% Cod Sensible Load 33.97 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 37.11 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 60.36 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1,912.40 cfm Lighting 4,832 4,832 13.0% Resulting Room Relative Humidity 49.85 % People 8,674 8,674 17,349 46.8% Misc. Equipment Loads 1,042 0 1,042 2.8% Cooling Infiltration 0 0 0 0.0% sub -Total =_> 31,705 8,674 40,379 108.8% General Engineering Checks Ventilation Load 2,223 -5,535 -3,312 -8.9% Total Cooling Load 3.1 ton Exhaust Heat 0 0 0 0.0% Area / Load 448.82 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,388 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 1.42 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 636.02 cfmfton Wall Load to Plenum 41 41 0.1% Percent Outdoor Air 30.3 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 33,969 3,139 37,108 100.0 Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 55 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -31 Coil Location - Zone Coil Peak Calculation Time: July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 14,759 14,759 45.3% Coil Entering Air (DB / WB) 78.8 / 63.6 °F Glass Transmission 263 263 0.8% Coil Entering Humidity Ratio 64.75 gr/lb Wall Transmission 120 120 0.4% Coil Leaving Air (DB / WB) 61.1 / 57.0 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 63.78 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 30.38 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 32.55 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 61.12 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1,619.87 cfm Lighting 2,820 2,820 8.7% Resulting Room Relative Humidity 49.87 % People 7,223 5,778 13,001 39.9% Misc. Equipment Loads 620 0 620 1.9% Cooling Infiltration 0 0 0 0.0% Sub-Total==u 25.805 5,778 31,584 97.0% General Engineering Checks Ventilation Load 1,446 -3.609 -2,163 -6.6% Total Cooling Load 2.7 ton Exhaust Heat -1,117 0 -1,117 -3.4% Area / Load 304.66 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 826 ft' Return Fan Load 0 0 0.0% Cooling Airflow 2.12 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 644.38 cfmdon Wall Load to Plenum 41 41 0.1% Percent Outdoor Air 22.2 % Roof Load to Plenum 4,203 4,203 12.9% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 30,378 2,169 32,547 100.0 % Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 56 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -32 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 4,692 4,692 79.4% People 0 0 0 0.0% Misc. Equipment Loads 0 00 0.0% Cooling Infiltration 0 0 0 0.0% Sub -Total =_> 4,692 0 4,692 79.4% Coil Selection Parameters Cod Entering Ar (DB / WB) Cod Entering Humidity Ratio Cod Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 79.8 / 62.7 °F 58.98 gr/lb 55.0 / 53.3 °F 58.98 gr/1b 5.01 MBh 5.91 MBh 55.00 °F 303.62 cfm 40.26 % Ventilation Load 802 896 1,698 28.7% Total Cooling Load 0.5 ton Exhaust Heat -482 0 -482 -8.1% Area / Load 5,267.74 R'/ton Supply Fan Load 0 0 0.0% Total Floor Area 2,594 IV Retum Fan Load 0 0 0.0% Cooling Airflow 0.12 cfm/ft• Net Duct Heat Pickup 0 0 0.0% Airflow / Load 622.93 cfmdon Wall Load to Plenum 00 0.0% Percent Outdoor Air 50.7 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 5,013 896 5,909 100.0 % Project Name Dataset Name 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 57 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -33 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 80.7 / 63.8 °F Glass Transmission 0 0 0.0 % Coil Entering Humidity Ratio 63.04 gr/lb Wall Transmission 0 0 0.0 % Coil Leaving Air (DB / WB) 47.8 / 43.9 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 36.90 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 15.62 MBh Adj Floor Transmission 0 0.00 0.0 % Coil Total Load 20.50 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 47.75 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 377.64 cfm Lighting 2,899 2,899 14.1% Resulting Room Relative Humidity 49.22 % People 7,426 5,941 13,366 65.2% Misc. Equipment Loads 638 0 638 3.1% Cooling Infiltration 0 0 0 0.0% Sub -Total ==a 10,963 5,941 16,903 82.4% General Engineering Checks Ventilation Load 1,946 -1,052 894 4.4% Total Cooling Load 1.7 ton Exhaust Heat -1,300 0 -1,300 -6.3% Area / Load 497.18 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 850 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.47 cfm/IP Net Duct Heat Pickup 0 0 0.0% Airflow / Load 233.50 cfmfton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 100.0 % Roof Load to Plenum 4,007 4,007 19.5% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0 % Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 o 0.0% Total Cooling Loads 15,616 4,888 20,504 100.0 % Project Name. TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 58 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -34 Coil Location - Zone Coil Peak Calculation Time' July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 16,813 16,813 48.8% Glass Transmission 261 261 0.8% Wall Transmission 83 83 0.2% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0°A Lighting 2,794 2,794 8.1% People 7,155 5,724 12,879 37.4% Misc. Equipment Loads 615 0 615 1.8% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 27,720 5,724 33,443 97.1% Ventilation Load 1,432 Exhaust Heat -1,107 Supply Fan Load 0 Return Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 41 Roof Load to Plenum 4,197 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 Total Cooling Loads 32,283 Project Name Dataset Name 216101 FOSTER HS.TRC -3,578 0 0 -2,146 -6.2% -1,107 -3.2% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Enpineerinq Checks Total Cooling Load Area / Load 78.8/63.6 'F 65.03 gr/lb 61.2/57.2 'F 64.45 gr/Ib 32.28 MBh 34.43 MBh 61.23 `F 1,749.27 cfm 49.88 % 2.9 ton 285.29 ft'/ton 0 0.0% Total Floor Area 819 ft' 0 0.0% Cooling Airflow 2.21 cfm/ft' 0 0.0% Airflow / Load 630.80 cfm/ton 41 0.1% Percent Outdoor Air 21.2 % 4,197 12.2% Cooling Load Methodology TETD-TA1 0 0.0% O 0.0% 0 0.0% O 0.0% O 0.0% 0 0.0% 0 0.0% O 0.0% 0 0.0% 2,146 34,429 100.0% TRACE® 700 v6.3.3 calculated at 10.34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 59 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -35 Coil Location - Zone Coil Peak Calculation Time: July, hour 15 Ambient DB/WB/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0 % Coil Entering Air (DB / WB) 80.8 / 63.7 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 62.10 gr/Ib Wall Transmission 0 0 0.0% Coil Leaving Air (DB / WB) 53.2 / 46.7 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 37.53 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 16.55 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 18.77 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 53.22 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 396.60 cfm Lighting 3,368 3,368 17.9% Resulting Room Relative Humidity 50.07 % People 4,884 3,907 8,791 46.8% Misc. Equipment Loads 420 0 420 2.2% Cooling Infiltration 0 0 0 0.0 % Sub -Total==> 8,672 3,907 12,578 67.0% General Engineering Checks Ventilation Load 1,807 -1,684 123 0.7% Total Cooling Load 1.6 ton Exhaust Heat -992 0 -992 -5.3% Area / Load 873.54 R'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,367 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.29 cfm/n' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 253.51 cfmlton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 78.4 % Roof Load to Plenum 7,063 7,063 37.6% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0,0% Lighting Load to Plenum 0 0 0.0 % Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0 % Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0 % Total Cooling Loads 16,550 Project Name: 2,223 18,773 100.016 TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 60 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -36 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 79.4 / 64.1 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 66.53 gr/lb Wall Transmission 0 0 0.0% Coil Leaving Air (DB / WB) 56.8 / 55.9 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 66.53 gr/lb Floor Transmission 0 0 0.0 % Coil Sensible Load 4.99 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 6.12 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 56.80 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 254.47 cfm Lighting 1,857 1,857 30.3% Resulting Room Relative Humidity 49.93 % People 2,054 1,400 3,454 56.4% Misc. Equipment Loads 922 0 922 15.1% Cooling Infiltration 0 0 0 0.0% Sub -Total==s 4,833 1,400 6,233 101.8% General Engineering Checks Ventilation Load 400 -269 131 2.1% Total Cooling Load 0.5 ton Exhaust Heat -240 0 -240 -3.9% Area / Load 1,174.75 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 600 fP Return Fan Load 0 0 0.0% Cooling Airflow 0.43 cfm/fF Net Duct Heat Pickup 0 0 0.0% Airflow / Load 500.18 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 30.4 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0 % Total Cooling Loads 4,993 1,131 6,124 100.0 % Project Name Dataset Name'. 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 61 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -37 Coil Location - Zone Coil Peak Calculation Time: July, hour 17 Ambient OB/WB/HR'. 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 16,813 16,813 48.6% Glass Transmission 261 261 0.8% Wall Transmission 83 83 0.2% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 2,818 2,818 8.1% People 7,217 5,773 12,990 37.6% Misc. Equipment Loads 620 0 620 1.8% Cooling Infiltration 0 0 0 0.0% Sub -Total==» 27,811 5,773 33,585 97.1% Ventilation Load 1,444 Exhaust Heat -1,116 Supply Fan Load 0 Return Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 41 Roof Load to Plenum 4,233 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 -3,608 0 -2,164 -6.3% -1,116 -3.2% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks Total Cooling Load Area I Load 78.8 / 63.6 °F 65.01 gr/Ib 61.2/57.1 °F 64.40 gr/lb 32.41 MBh 34.58 MBh 61.21 °F 1,753.50 cfm 49.88 % 2.9 ton 286.51 9 Icon 0 0.0% Total Floor Area 826 fP 0 0.0% Cooling Airflow 2.20 cfm/ft. 0 0.0% Airflow / Load 629.50 cfmlton 41 0.1% Percent Outdoor Air 21.4 % 4,233 12.2% Cooling Load Methodology TETD-TA1 0 0.0 % p 0.0% p 0.0% p 0.0% p 0.0 % p 0.0% 0 0.0% 0 0.0% 0 0.0% Total Cooling Loads 32,413 2,165 34,579 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name, 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 62 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -38 Coil Location - Zone Coil Peak Calculation Time: July, hour 15 Ambient DBMS/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 - 0 0.0% Coil Entering Air (DB / WB) 80.1 / 63.9 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 64.28 gr/Ib Wall Transmission 0 0 0.0% Coil Leaving Air (DB / WB) 50.2 / 47.3 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 44.59 gr/lb Floor Transmission 0 0 0.0% Coil Sensible Load 8.44 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 10.72 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 50.22 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 230.57 cfm Lighting 1,258 1,258 11.7% Resulting Room Relative Humidity 50.06 % People 4,607 2,915 7,522 70.2% Misc. Equipment Loads 321 0 321 3.0% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 6,186 2,915 9,101 84.9% General Engineering Checks Ventilation Load 678 -630 47 0.4% Total Cooling Load 0.9 ton Exhaust Heat -372 0 -372 -3.5% Area / Load 421.00 ft'Ron Supply Fan Load 0 0 0.0% Total Floor Area 376 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.61 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 258.10 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 50.6 0/0 Roof Load to Plenum 1,944 1,944 18.1% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0 % Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 o.0% Total Cooling Loads 8,436 2,284 10,720 100.0 Project Name: Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 63 of 91 TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -39 Coil Location - Zone Coil Peak Calculation Time: July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 16,813 16,813 48.6% Coil Entering Air (DB / WB) 78.8 / 63.6 °F Glass Transmission 261 261 0.8% Coil Entering Humidity Ratio 65.01 gr/Ib Wall Transmission 83 83 0.2% Coil Leaving Air (DB / WB) 61.2 / 57.1 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 64.40 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 32.41 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 34.58 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 61.21 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1,753.44 cfm Lighting 2,817 2,817 8.1% Resulting Room Relative Humidity 49.88 % People 7,216 5,773 12,989 37.6% Misc. Equipment Loads 620 0 620 1.8% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 27,810 5,773 33,583 97.1% General Engineering Checks Ventilation Load 1,444 -3,608 -2,164 -6.3% Total Cooling Load 2.9 ton Exhaust Heat -1,116 0 -1,116 -3.2% Area ILoad 286.50 ft./ton Supply Fan Load 0 0 0.0% Total Floor Area 826 8 Return Fan Load0 0 0.0% Cooling Airflow 2.20 cfm/rt' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 629.52 cfm/ton Wall Load to Plenum 41 41 0.1% Percent Outdoor Air 21.4 % Roof Load to Plenum 4,233 4,233 12.2% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 32,412 2,165 34,577 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Altemative - 1 Design Cooling Load Report Page 64 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -4 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DBMS/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 1,396 1,396 4.6% Coil Entering Air (DB / WB) 80.1 / 64.0 °F Glass Transmission 187 187 0.6% Coil Entering Humidity Ratio 64.74 gr/Ib Wall Transmission 561 561 1.8% Coil Leaving Air (D8 / WB) 54.4 / 53.0 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 58.81 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 22.44 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 30.33 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 54.37 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 937.82 cfm Lighting 5,193 5,193 17.1% Resulting Room Relative Humidity 50.08 % People 12,540 10,182 22,722 74.9% Misc. Equipment Loads 1,013 0 1,013 3.3% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 20,890 10,182 31,072 102.4% General Engineering Checks Ventilation Load 3,265 -2,289 976 3.2% Total Cooling Load 2.5 ton Exhaust Heat -1,960 0 -1,960 -6.51/4 Area / Load 621.49 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,571 fP Retum Fan Load 0 0 0.0% Cooling Airflow 0.71 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 441.41 cfm/ton Wall Load to Plenum 246 246 0.8% Percent Outdoor Air 56.8 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 22,441 7,893 30,334 100.0 Project Name TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 65 o191 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -40 Coil Location - Zone Coil Peak Calculation Time: July, hour 15 Ambient DB/WB/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 80.5 / 63.8 'F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 63.19 gr/Ib Wall Transmission 0 0 0.0% Coil Leaving Air (D8 / WB) 54.3 / 47.7 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 39.20 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 21.93 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 24.67 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 54.34 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 543.98 cfm Lighting 4,455 4,455 18.1% Resulting Room Relative Humidity 50.07 % People 6,245 4,648 10,893 44.2% Misc. Equipment Loads 503 0 503 2.0% Cooling Infiltration 0 0 0 0.0% Sub -Total==s 11,203 4,648 15,851 64.3% General Engineering Checks Ventilation Load 2,043 -1,905 138 0.6% Total Cooling Load 2.1 ton Exhaust Heat -1,121 0 -1,121 -4.5% Area / Load 922.46 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,896 R' Return Fan Load 0 0 0.0% Cooling Airflow 0.29 cfm/ft° Net Duct Heat Pickup 0 0 0.0% Airflow / Load 264.62 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 64.6 % Roof Load to Plenum 9,801 9,801 39.7% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0 % Total Cooling Loads 21,925 2,743 24,668 100.0 % Project Name: TRACES 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 66 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -41 Coil Location - Zone Cod Peak Calculation Time: July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 16,813 16,813 54.9% Glass Transmission 261 261 0.9% Wall Transmission 83 83 0.3% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 2,873 2,873 9.4% People 7,358 5,887 13,245 43.3% Misc. Equipment Loads 632 0 632 2.1% Cooling Infiltration 0 0 0 5.5% Sub -Total ==> 28,020 5,887 33,907 110.8% Ventilation Load 1,473 -3,678 -2,205 -7.2% Exhaust Heat -1,138 0 -1,138 -3.7% Supply Fan Load 0 0 0.0% Return Fan Load 0 0 0.0% Net Duct Heat Pickup 0 0 0.0% Wall Load to Plenum 41 41 0.1% Roof Load to Plenum 0 0 0.0% Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Dealgn 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 28,396 2,209 30,604 100.0 Project Name. Dataset Name: 216101 FOSTER HS.TRC Alternative- 1 Design Cooling Load Report Page 67 of 91 Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks Total Cooling Load Area / Load 78.8/63.6 °F 64.96 gr/Ib 61.2 / 57.3 'F 64.96 gr/Ib 28.40 MBh 30.60 MBh 61.18 'F 1,763.10 cfm 49.88 % 2.6 ton 330.07 ft./ton Total Floor Area 842 ft' Cooling Airflow 2.17 cfm/ft' Airflow / Load 714.93 cfm/ton Percent Outdoor Air 21.7 % Cooling Load Methodology TETD-TA1 TRACE® 700 v6.3.3 calculated at 10 34 AM an 04/24/2018 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -42 Coil Location - Zone Coil Peak Calculation Time: July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 16,813 Glass Transmission 261 Wall Transmission 83 Roof Transmission 0 Floor Transmission 0 Adj Floor Transmission 0 Partition Transmission 0 Net Ceiling Load 0 Lighting 3,441 People 8,966 Misc. Equipment Loads 620 Cooling Infiltration 0 Sub -Total =_> 30.184 Ventilation Load 1,444 Exhaust Heat -1,116 Supply Fan Load 0 Retum Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 41 Roof Load to Plenum 5,428 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 Total Cooling Loads 35,980 Project Name: Dataset Name 216101 FOSTER HS.TRC 7,523 0 0 7,523 -3,597 -2,153 -5.4% Total Cooling Load 3.3 ton 0 -1,116 -2.8% Area / Load 318.69 R'Ron 0 0.0% Total Floor Area 1,060 R' O 0.0% Cooling Airflow 1.61 cfm/ft. O 0.0% Airflow / Load 513.94 cfm/ton 41 0.1% Percent Outdoor Air 22.7 % 5,428 13.6% Cooling Load Methodology TETD-TA1 0 0.0% 0 0.0% 0 0.0% O 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0.0% 0 0 0.0% 3,925 39,906 100.0 % 16,813 42.1% 261 0.7% 83 0.2% 0 0.0% 0 0.0% 0.00 0.0% 0 0.0% O 0.0% 3,441 8.6% 16,489 41.3% 620 1.6% 0 0.0% 37,706 94.5% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 78.8 / 63.6 °F 64.81 gr/Ib 59.0/55.6 'F 61.53 gr/lb 35.98 MBh 39.91 MBh 58.95 °F 1,657.76 cfm 49.85 % TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 68 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -43 Coil Location - Zone Cod Peak Calculation Time: July, hour 14 Ambient OBNVB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 4,989 4,989 27.7% People 7,516 5,515 13,031 72.4% Misc. Equipment Loads 597 0 597 3.3% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 13,103 5,515 18,617 103.4% Cod Selection Parameters Coil Entenng Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 80.0 / 64.0 °F 64.90 gr/lb 54.0 / 54.0 "F 63.06 gr/lb 13.92 MBh 18.00 MBh 54.00 °F 619.29 cfm 50.08 Ventilation Load 2,056 -1,441 615 3.4% Total Cooling Load 1.5 ton Exhaust Heat -1.234 0 -1,234 -6.9% Area / Load 1,394.23 R'/ton Supply Fan Load 0 0 0.0% Total Floor Area 2,091 rte Return Fan Load 0 0 0.0% Cooling Airflow 0.30 cfm/ft Net Duct Heat Pickup 0 0 0.0% Airflow / Load 414.51 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 64.2 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 13,924 4,074 17,998 100.0 % Project Name' TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 69 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -44 Coil Location - Zone Coil Peak Calculation Time: July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 16,813 16,813 48.4% Coil Entering Air (DB / WB) 78.8 / 63.6 °F Glass Transmission 261 261 0.8% Coil Entering Humidity Ratio 64.76 gr/Ib Wall Transmission 83 83 0.2% Coil Leaving Air (DB / WB) 58.9 / 56.3 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 64.76 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 30.77 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 34.74 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 58.92 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1.666.99 cfm Lighting 3,496 3,496 10.1% Resulting Room Relative Humidity 49.85 % People 9,109 7,637 16,747 48.2% Misc. Equipment Loads 632 0 632 1.8% Cooling Infiltration 0 0 0 0.0% Sub•Total==> 30,394 7,637 38,031 109.5% General Engineering Checks Ventilation Load 1,473 -3,669 -2,196 -6.3% Total Cooling Load 2,9 ton Exhaust Heat -1,138 0 -1,138 -3.3% Area/Load 371.60 9Vtton Supply Fan Load 0 0 0.0% Total Floor Area 1,076 fF Return Fan Load 0 0 0.0% Cooling Airflow 1.60 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 593.54 cfm/ton Wall Load to Plenum 41 41 0.1 % Percent Outdoor Air 23.0 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 o.0% Total Cooling Loads 30,769 3,968 34,737 100.0 % Project Name Dataset Name 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 70 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -45 Coil Location - Zone Cod Peak Calculation Time: July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 16,813 16,813 48.8% Coil Entering Air (DB / WB) 78.8 / 63.6 °F Glass Transmission 261 261 0.8% Coil Entering Humidity Ratio 65.03 gr/Ib Wall Transmission 83 83 0.2% Coil Leaving Air (DB / WB) 61.2 / 57.2 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 64.45 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 32.28 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 34.43 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 61.23 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1,749.27 cfm Lighting 2,794 2,794 8.1% Resulting Room Relative Humidity 49.88 % People 7,155 5,724 12,879 37.4% Misc. Equipment Loads 615 0 615 1.8% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 27,720 5,724 33,443 97.1% General Engineering Checks Ventilation Load 1,432 -3,578 -2,146 -6.2% Total Cooling Load 2.9 ton Exhaust Heat -1,107 0 -1,107 -3.2% Area / Load 285.29 fl'/ton Supply Fan Load 0 0 0.0% Total Floor Area 819 fl' Retum Fan Load 0 0 0.0% Cooling Airflow 2.21 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 630.80 cfm/ton Wall Load to Plenum 41 41 0.1% Percent Outdoor Air 21.2 % Roof Load to Plenum 4,197 4,197 12.2% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum • 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 32,283 2,146 34,429 100.0 Project Name: Dataset Name: 216101 FOSTER HS.TRC Alternative- 1 Design Cooling Load Report Page 71 of 91 TRACE® 700 v6.3.3 calculated at 10:34 AM 00 04/24/2018 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -46 Coil Location - Zone Coil Peak Calculation Time: July, hour 15 Ambient DB/WB/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 5,048 5,048 24.6% People 0 0 0 0.0% Misc. Equipment Loads 0 0 0 0.0% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 5,048 0 5,048 24.6% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooing Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 80.1 / 62.5 °F 57.59 gr/Ib 55.0/37.8 °F 6.87 gr/Ib 19.86 MBh 20.52 MBh 55.00 °F 326.38 cfm 40.24 % Ventilation Load 964 656 1,619 7.9% Total Cooling Load 1.7 ton Exhaust Heat -529 0 -529 -2.6% Area / Load 1,627.19 IP/ton Supply Fan Load 0 0 0.0% Total Floor Area 2,782 fP Return Fan Load 0 0 0.0% Cooling Airflow 0.12 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 192.81 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 50.3 % Roof Load to Plenum 14,380 14,380 70.1% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 19,863 656 20,519 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative- 1 Design Cooling Load Report Page 72 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -47 Coil Location - Zone Coil Peak Calculation Time: July, hour 17 Ambient DB/WB/HR: 79 / 62 / 55 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 16,813 16,813 49.1% Coil Entering Air (DB / WB) 78.8 / 63.6 °F Glass Transmission 261 261 0.8% Coil Entering Humidity Ratio 64.79 gr/Ib Wall Transmission 83 83 0.2% Coil Leaving Air (DB 1 WB) 59.2 / 56.5 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 64.79 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 30.52 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 34.24 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 59.20 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1,680.95 cfm Lighting 3,496 3,496 10.2% Resulting Room Relative Humidity 49.85 % People 8,859 7,387 16,247 47.5% Misc. Equipment Loads 632 0 632 1.8% Cooling Infiltration 0 0 0 0.0% Sub -Total =a 30,144 7,387 37,531 109.6% General Engineering Checks Ventilation Load 1,473 -3,668 -2,195 -6.4% Total Cooling Load 2.9 ton Exhaust Heat -1,138 0 -1,138 -3.3% Area / Load 377.01 ft'tton Supply Fan Load 0 0 0.0% Total Floor Area 1,076 IP Retum Fan Load 0 0 0.0% Cooling Airflow 1.61 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 607.38 cfmllon Wall Load to Plenum 41 41 0.1% Percent Outdoor Air 22.8 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 30,519 3,719 34,239 100.0 % Project Name: Dataset Name: 216101 FOSTER HS.TRC Altemative - 1 Design Cooling Load Report Page 73 of 91 TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -48 Coil Location -Zone Coil Peak Calculation Time: July, hour 18 Ambient DB/WB/HR: 77 / 60 / 50 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 34,854 34,854 61.6% Coil Entering Air (DB /1.8.113) 78.2 / 61.5 °F Glass Transmission 338 338 0.6% Coil Entering Humidity Ratio 56.29 gr/Ib Wall Transmission 479 479 0.8% Coil Leaving Air (DB / WB) 55.0 / 52.0 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 53.84 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 53.21 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 56.61 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 55.00 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 2,092.96 cfm Lighting 3,690 3,690 6.5% Resulting Room Relative Humidity 42.64 % People 7,336 5,869 13,204 23.3% Misc. Equipment Loads 630 0 630 1.1% Cooling Infiltration 0 0 0 0.0% Sub -Total==> 47,327 5,869 53,195 94.0% General Engineering Checks Ventilation Load 677 -2,463 -1,786 -3.2% Total Cooling Load 4.7 ton Exhaust Heat -1,145 0 -1,145 -2.0% Area / Load 275.19 ft'fton Supply Fan Load 0 0 0.0% Total Floor Area 1,298 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 1.61 cfm/lir Net Duct Heat Pickup 0 0 0.0% Airflow / Load 443.62 cfmrton Wall Load to Plenum 237 237 0.4% Percent Outdoor Air 21.2 % Roof Load to Plenum 6,113 6,113 10.8% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 53,209 3,405 56,614 100.0 % Project Name TRACE® 700 v6.3.3 calculated at 10:34 AM an 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Altemative- 1 Design Cooling Load Report Page 74 of 91 1 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -49 Coil Location - Zone Coil Peak Calculation Time: July, hour 15 Ambient DB/WB/HR. 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 81.0 / 63.6 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 61.27 gr/lb Wall Transmission 0 0 0.0% Coil Leaving Air (DB / WB) 45.5 / 40.7 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 30.47 gr/lb Floor Transmission 0 0 0.0% Coil Sensible Load 14.91 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 19.04 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 45.45 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 315.33 cfrn Lighting 2,676 2,676 14.1% Resulting Room Relative Humidity 50.05 People 6,686 5,649 12,335 64.8% Misc. Equipment Loads 445 0 445 2.3% Cooling Infiltration 0 0 0 0.0% Sub -Total =_> 9,808 5,649 15,457 81.2% General Engineering Checks Ventilation Load 1,632 -1,515 116 0.6% Total Cooling Load 1.6 ton Exhaust Heat -896 0 -896 -4.7% Area / Load 531.99 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 844 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.37 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 198.74 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 89.0 % Roof Load to Plenum 4,363 4,363 22.9% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0,0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 14,907 4,134 19,040 100.0 Project Name: Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 75 of 91 TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -5 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 80.2 / 64.0 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 64.49 gr/Ib Wall Transmission 418 418 1.4% Coil Leaving Air (DB / WB) 47.8 / 47.7 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 49.78 gr/lb Floor Transmission 0 0 0.0% Coil Sensible Load 21.24 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 30.19 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 47.81 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 695.18 cfm Lighting 5,272 5,272 17.5% Resulting Room Relative Humidity 50.06 % People 13,472 10,755 24,227 80.2% Misc. Equipment Loads 892 0 892 3.0% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 20,053 10,755 30,808 102.0% General Engineering Checks Ventilation Load 2,581 -1,799 782 2.6% Total Cooling Load 2.5 ton Exhaust Heat -1,549 0 -1,549 -5.1% Area / Load 660.36 ft•tton Supply Fan Load 0 0 0,0% Total Floor Area 1,662 ft° Retum Fan Load 0 0 0.0% Cooling Airflow 0.42 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 277.43 cfm/ton Wall Load to Plenum 154 154 0.5% Percent Outdoor Air 71.7 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 21,238 8,956 30,195 100.0 % Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 76 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -50 Coil Location - Zone Coil Peak Calculation Time. July, hour 14 Ambient DB/WB/HR'. 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0% Coil Entering Air (DB / WB) 80.7 / 63.8 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 63.04 gr/lb Wall Transmission 50 50 0.1% Coil Leaving Air (D8 / WB) 48.6 / 45.1 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 39.48 gr/lb Floor Transmission 0 0 0.0% Coil Sensible Load 27.13 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 34.75 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 48.56 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 673.23 cfm Lighting 5.131 5,131 14.8% Resulting Room Relative Humidity 50.06 % People 12,543 10,034 22,577 65.0% Misc. Equipment Loads 1.224 0 1,224 3.5% Cooling Infiltration 0 0 0 0.0% Sub -Total nos 18,947 10,034 28,981 83.4% General Engineering Checks Ventilation Load 3,469 -2,416 1,054 3.0% Total Cooling Load 2.9 ton Exhaust Heat -2,083 0 -2,083 -6.0% Area / Load 522.60 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,513 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 0.45 cfm/ft° Net Duct Heat Pickup 0 0 0.0% Airflow / Load 233.01 cfm/ton Wall Load to Plenum 18 18 0.1% Percent Outdoor Air 100.0 % Roof Load to Plenum 6,779 6,779 19.5% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0 % Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 27,130 7,618 34.749 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 77 of 91 Load Component Design Cooling Load Summary By Trial System - S?VAV FCUs Zone - HFC -51 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 1,992 1,992 9.5% Coil Entering Air (DB / WB) 79.7 / 64.0 °F Glass Transmission 114 114 0.5% Coil Entering Humidity Ratio 65.57 gr/lb Wall Transmission 284 284 1.4% Coil Leaving Air (DB / WB) 58.5 / 53.1 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 52.52 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 17.45 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 20.90 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 58.46 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 643.94 cfm Lighting 3,838 3,838 18.4% Resulting Room Relative Humidity 49.88 % People 4,555 4,525 9,079 43.4% Misc. Equipment Loads 808 0 808 3.9% Cooling Infiltration 0 0 0 0.0% Sub -Total =_» 11,591 4,525 16,115 77.1% General Engineering Checks Ventilation Load 1,621 -1,074 547 2.6% Total Cooling Load 1.7 ton Exhaust Heat -32 0 -32 -0.2% Area / Load 529.22 fl°/ton Supply Fan Load 0 0 0.0% Total Floor Area 922 fP Return Fan Load 0 0 0.0% Cooling Airflow 1.00 cfm/ft° Net Duct Heat Pickup 0 0 0.0% Airflow / Load 527.04 cfm/ton Wall Load to Plenum 125 125 0.6% Percent Outdoor Air 34.3 Roof Load to Plenum 4,146 4,146 19.8% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 17,451 3,451 20,902 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name. 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 78 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -52 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 164 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 1,992 1,992 9.0% Coil Entering Air (DB / WB) 79.9 / 64.0 °F Glass Transmission 114 114 0.5% Coil Entering Humidity Ratio 65.11 gr/Ib Wall Transmission 284 284 1.3% Coil Leaving Air (DB / WB) 57.1 / 52.7 W Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 53.26 gr/lb Floor Transmission 0 0 0.0% Coil Sensible Load 17.60 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 22.02 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 57.08 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 661.02 cfm Lighting 2,808 2,808 12.7% Resulting Room Relative Humidity 49.90 % People 7,191 5,752 12,943 58.8% Misc. Equipment Loads 618 0 618 2.8% Cooling Infiltration 0 0 0 0.0 % Sub-Total==v 13,006 5,752 18,758 85.2% General Engineering Checks Ventilation Load 1,991 -1,329 662 3.0% Total Cooling Load 1.8 ton Exhaust Heat -1,195 0 -1,195 -5.4% Area / Load 448.24 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 823 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 1.12 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 500.50 cfm/ton Wall Load to Plenum 125 125 0.6% Percent Outdoor Air 42.1 % Roof Load to Plenum 3,672 3,672 16.7% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 17,599 4,423 22,022 100.0 % Project Name: Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 79 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -54 Coil Location - Zone Coil Peak Calculation Time: July, hour 16 Ambient DB/WB/HR: 81 / 63/58 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 186 186 1.7% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 2,229 2,229 19.9% People 2,083 1,766 3,849 34.4% Misc. Equipment Loads 0 0 0 0.0% Cooling Infiltration 0 0 0 0.0% Sub -Total ==a 4,497 1,766 6,263 56.0% Ventilation Load 473 Exhaust Heat -284 Supply Fan Load 0 Return Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 56 Roof Load to Plenum 5,326 Adj Floor to Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 Total Cooing Loads 10,068 Project Name: Dataset Name. 216101 FOSTER HS.TRC -651 0 Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 79.5/63.7 °F 64.35 gr/Ib 56.7 / 48.2 °F 37.38 gr/Ib 10.07 MBh 11.18 MBh 56.65 °F 254.88 cfm 49.92 % -178 -1.6% Total Cooling Load 0.9 ton -284 -2.5% Area / Load 1,109.04 ft./ton 0 0.0% Total Floor Area 1,034 ft' 0 0.0% Cooling Airflow 0.25 cfm/ft° O 0.0% Airflow / Load 276.63 cfm/ton 56 0.5% Percent Outdoor Air 35.6 5,326 47.6% Cooling Load Methodology TETD-TA1 0 0.0% 0 0.0% O 0.0% 0 0.0% 0 0.0% 5 0.0% O 0.0% O 0.0% 0 0.0% 1,115 11,183 100.0 % TRACES 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 80 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -55 Coil Location - Zone Coil Peak Calculation Time. July, hour 15 Ambient DB/WB/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 690 690 1.3% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 7,488 7,488 14,3% People 19,178 15,343 34,521 65.7% Misc. Equipment Loads 1,647 0 1,647 3.1% Cooling Infiltration 0 0 0 0.0% Sub -Total .o 29,004 15,343 44,347 84.4% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 81.0/63.6 °F 61.46 gr/lb 48.8/45.2 °F 39.42 gr/lb 42.04 MBh 52.52 MBh 48.81 °F 1,038.23 cfm 50.06 % Ventilation Load 5,224 -4,861 363 0.7% Total Cooling Load 4.4 ton Exhaust Heat -2,867 0 -2,867 -5.5% Area / Load 501.30 ft./ton Supply Fan Load 0 0 0.0% Total Floor Area 2,194 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 0.47 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 237.83 cfmtton Wall Load to Plenum 205 205 0.4% Percent Outdoor Air 86.3 % Roof Load to Plenum 10,471 10,471 19.9% Cooing Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 42,038 10,482 52,520 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10.34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 81 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -56 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Lateen Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 135 135 0.8% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0,0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 1,734 1,734 10.9% People 8,143 5,873 14,016 88.4% Misc. Equipment Loads 267 0 267 1.7% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 10,279 5,873 16,152 101.8% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 80.1 / 64.0 °F 64.79 gr/Ib 45.5 / 45.4 'F 45.57 gr/Ib 10.78 MBh 15.86 MBh 45.53 °F 331.50 cfm 50.06 % Ventilation Load 1,132 -789 344 2.2% Total Cooling Load 1.3 ton Exhaust Heat -680 0 -680 -4.3% Area / Load 696.56 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 921 9' Return Fan Load 0 0 0.0% Cooling Airflow 0.36 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 251.47 cfm/ton Wall Load to Plenum 47 47 0.3% Percent Outdoor Air 66.1 Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 10,778 5,085 15,863 100.0 % Project Name: TRACE® 700 v6.3.3 calculated 0110:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 82 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -57 Coil Location - Zone Cod Peak Calculation Time. July, hour 15 Ambient DB/WB/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 191 191 0.6% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 5,493 5,493 16.3% People 10,867 8,694 19,561 58.1% Misc. Equipment Loads 1,356 0 1,356 4.0% Cooling Infiltration 0 0 0 0.0% Sub -Total ==» 17,908 8,694 26,602 79.0% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 80.8 / 63.7 'F 62.08 gr/Ib 50.8 / 46.6 'F 40.92 gr/lb 27.98 MBh 33.66 MBh 50.83 °F 707.67 cfm 50.06 % Ventilation Load 3,236 -3,011 225 0.7% Total Cooling Load 2.8 ton Exhaust Heat -1,776 0 -1,776 -5.3% Area / Load 644.21 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,807 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.39 cfm/ft. Net Duct Heat Pickup 0 0 0.0% Airflow / Load 252.28 cfmkon Wall Load to Plenum 66 66 0.2% Percent Outdoor Air 78.7 % Roof Load to Plenum 8,544 8,544 25.4% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 a 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 o.o% Total Cooling Loads 27,979 5,683 33,662 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10.34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Altemative - 1 Design Cooling Load Report Page 83 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -58 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR'. 81 / 64 163 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 0 0 0.0 % Coil Entering Air (DB / WB) 80.6 / 63.9 °F Glass Transmission 0 0 o.o % Coil Entering Humidity Ratio 63.42 gr/lb Wall Transmission 0 0 0.0% Coil Leaving Air (DB / WB) 47.6 / 44.0 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 37.38 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 19.22 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 24.98 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 47.62 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 460.58 cfm Lighting 3,553 3,553 14.2% Resulting Room Relative Humidity 50.05 % People 9,101 7,280 16,381 65.6% Misc. Equipment Loads 782 0 782 3.1% Cooling Infiltration 0 0 0 0.0% Sub -Total ==-> 13,436 7,280 20,716 82.9% General Engineering Checks Ventilation Load 2,198 -1,528 669 2.7% Total Cooling Load 2.1 ton Exhaust Heat -1,319 0 -1,319 -5.3% Area/Load 500.20 fP/ton Supply Fan Load 0 0 0.0% Total Floor Area 1,041 1V Return Fan Load 0 0 0.0% Cooling Airflow 0.44 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 221.73 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 92.4 % Roof Load to Plenum 4,910 4,910 19.7% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0 % Total Cooling Loads 19,224 5,752 24,976 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 84 o191 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -59 Coil Location - Zone Coil Peak Calculation Time: June, hour 9 Ambient DB/WB/HR: 64 / 54 / 46 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 64,865 64,865 105.9% Glass Transmission -4,268 -4,268 -7.0% Wall Transmission -5 -5 0.0% Roof Transmission 0 0 0.0°A Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 1,465 1,465 2.4% People 0 0 0 0.0% Misc. Equipment Loads 0 0 0 0.0% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 62,057 0 62,057 101.3% Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 75.7 / 59.5 'F 51.00 gr/Ib 55.0 / 51.2 'F 50.75 gr/lb 61.41 MBh 61.41 MBh 55.00 °F 2,688.75 cfm 37.63 % Ventilation Load -653 -167 -820 -1.3% Total Cooling Load 5.1 ton Exhaust Heat 3 0 3 0.0% Area / Load 158.29 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 810 ft' Return Fan Load 0 0 0.0% Cooling Airflow 3.32 cfm/fl' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 525.36 cfm/ton Wall Load to Plenum -68 -68 -0.1% Percent Outdoor Air 1.8 % Roof Load to Plenum -255 -255 -0.4% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0 % Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum0 0 0.0% Over/Under Sizing 330 330 0.5% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0 % Total Cooling Loads 61,415 -167 61,248 100.0 % Project Name. Dataset Name. 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 85 of 91 TRACE® 700 v6.3.3 calculated at 1034 AM on 04/24/2018 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -6 Coil Location -Zone Coil Peak Calculation Time: July, hour 15 Ambient DB/WB/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 4,940 4,940 19.1% Coil Entering Air (DB / WB) 79.9 / 63.9 °F Glass Transmission 583 583 23% Coil Entering Humidity Ratio 64.92 gr/Ib Wall Transmission 635 635 2.5% Coil Leaving Air (DB / WB) 59.6 / 56.7 °F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 64.92 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 22.48 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 25.90 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 59.63 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 1,293.57 cfm Lighting 6,281 6,281 24,3% Resulting Room Relative Humidity 49.87 People 7,691 6,152 13,843 53.5% Misc. Equipment Loads 661 0 661 2.6% Cooling Infiltration 0 0 0 0.0% Sub -Total==s 20,790 6,152 26,942 104.0% General Engineering Checks Ventilation Load 3,034 -2,729 305 1.2% Total Cooling Load 2.2 ton Exhaust Heat -1,665 0 -1,665 -6.4% Area / Load 1,247.42 ft'tton Supply Fan Load 0 0 0.0% Total Floor Area 2,692 ft' Retum Fan Load 0 0 0.0% Cooling Airflow 0.50 cfm/fl. Net Duct Heat Pickup 0 0 0.0% Airflow / Load 620.80 cfmtton Wall Load to Plenum 316 316 1.2% Percent Outdoor Air 39.0 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0 Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 22,475 3,423 25,899 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 86 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -64 Coil Location - Zone Coil Peak Calculation Time: July, hour 15 Ambient OB/WB/HR: 81 / 63 / 60 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 0 0 0.0% Glass Transmission 0 0 0.0% Wall Transmission 0 0 0.0% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 2,207 2;207 25.7% People 873 699 1,572 18.3% Misc. Equipment Loads 1.192 0 1,192 13.9% Cooling Infiltration 0 0 0 0.0% Sub -Total==s 4,272 699 4,970 57.9% Coil Selection Parameters Coil Entering Ar (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load Coil Total Load Cooling Supply Air Temperature Total Cooling Airflow Resulting Room Relative Humidity General Engineering Checks 79.4 / 64.1 °F 66.41 gr/Ib 60.5/54.2 "F 53.68 gr/Ib 8.20 MBh 8.59 MBh 60.46 °F 289.51 cfm 49.86 % Ventilation Load 345 -310 35 0.4% Total Cooling Load 0.7 ton Exhaust Heat -189 0 -189 -2.2% Area / Load 1,020.19 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 730 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.40 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 404.37 cfm/ton Wall Load to Plenum 0 0 0.0% Percent Outdoor Air 20.5 % Roof Load to Plenum 3,775 3,775 43.9% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0,0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 8,203 389 8,591 100.0 Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 87 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -65 Coil Location - Zone Coil Peak Calculation Time: August, hour 12 Ambient DB/WB/HR: 76 / 62 / 62 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 29,170 29,170 40.8% Coil Entering Air (DB/ WB) 77.2/61.8 °F Glass Transmission -213 -213 -0.3% Coil Entering Humidity Ratio 59.14 gr/Ib Wall Transmission 154 154 0.2% Coil Leaving Air (DB / WB) 55.0 / 51.9 "F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 53.41 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 63.63 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 71.56 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 55.00 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 2,531.74 cfm Lighting 17,911 17,911 25.0% Resulting Room Relative Humidity 42.65 % People 9,385 5,937 15,322 21.4% Misc. Equipment Loads 0 0 0 0.0% Cooling Infiltration 0 0 0 0.0% Sub -Total ==o 56,407 5,937 62,344 87.1% General Engineering Checks Ventilation Load -222 1,991 1,769 2.5% Total Cooling Load 6.0 ton Exhaust Heat -1,186 0 -1,186 -1.7% Area / Load 642.38 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 3,831 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.69 cfm/IV Net Duct Heat Pickup 0 0 0.0% Airflow / Load 444.94 cfmlton Wall Load to Plenum 78 78 0.1 % Percent Outdoor Air 24.5 % Roof Load to Plenum 8,552 8,552 12.0% Cooling Load Methodology TETD-TAI Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 63,630 7,928 71,558 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 88 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -7 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR'. 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 00 0.0% Coil Entering Air (DB / WB) 80.6 / 63.8 °F Glass Transmission 0 0 0.0% Coil Entering Humidity Ratio 63.21 gr/Ib Wall Transmission 336 336 1.9% Coil Leaving Air (DB / WB) 49.4 / 49.3 'F Roof Transmission 0 0 0.0 % Coil Leaving Humidity Ratio 52.97 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 12.66 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 17.33 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 49.42 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 427.61 cfm Lighting 3,006 3,006 17.3% Resulting Room Relative Humidity 50.06 % People 7,699 6,159 13,859 80.0% Misc. Equipment Loads 661 0 661 3.8% Cooling Infiltration 0 0 0 0.0% Sub -Total ==> 11,703 6,159 17,862 103.1% General Engineering Checks Ventilation Load 2,132 -1,486 646 3.7% Total Cooling Load 1.4 tan Exhaust Heat -1,280 0 -1,280 -7.4% Area / Load 609.82 ft./ton Supply Fan Load 0 0 0.0% Total Floor Area 881 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.49 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 299.57 cfm/ton Wall Load to Plenum 105 105 0.6% Percent Outdoor Air 95.6 Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0% Misc. Equip. Load to Plenum 0 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0 % Total Cooling Loads 12,659 4,673 17,332 100.0 % Project Name - Dataset Name: 216101 FOSTER HS.TRC TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Alternative - 1 Design Cooling Load Report Page 89 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -8 Coil Location - Zone Coil Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Coil Selection Parameters Solar Gain 2,282 2,282 11.6% Coil Entering Air (DB / WB) 80.2 / 64.0 °F Glass Transmission 315 315 1.6% Coil Entering Humidity Ratio 64.44 gr/Ib Wall Transmission 102 102 0.5% Coil Leaving Air (DB / WB) 52.1 / 52.1 'F Roof Transmission 0 0 0.0% Coil Leaving Humidity Ratio 58.71 gr/Ib Floor Transmission 0 0 0.0% Coil Sensible Load 14.99 MBh Adj Floor Transmission 0 0.00 0.0% Coil Total Load 19.67 MBh Partition Transmission 0 0 0.0% Cooling Supply Air Temperature 52.12 °F Net Ceiling Load 0 0 0.0% Total Cooling Airflow 566.58 cfm Lighting 3,011 3,011 15.3% Resulting Room Relative Humidity 50.06 % People 7,711 8,169 13,879 70.5% Misc. Equipment Loads 662 0 662 3.4% Cooling Infiftration 0 0 0 0.0% Sub -Total ==s 14,082 6,169 20,251 102.9% General Engineering Checks Ventilation Load 2,135 -1,488 647 3.3% Total Cooling Load 1.6 ton Exhaust Heat -1,282 0 -1,282 -6.5% Area / Load 538.06 ft'/ton Supply Fan Load 0 0 0.0% Total Floor Area 882 ft' Return Fan Load 0 0 0.0% Cooling Airflow 0.64 cfm/ft' Net Duct Heat Pickup 0 0 0.0% Airflow / Load 345.71 cfmfton Wall Load to Plenum 57 57 0.3% Percent Outdoor Air 73.1 % Roof Load to Plenum 0 0 0.0% Cooling Load Methodology TETD-TA1 Adj Floor to Plenum 0 0 0.0% Lighting Load to Plenum 0 0 0.0 % Misc. Equip. Load to Plenum 0 0 0.0% Glass Transmission to Plenum 0 0 0.0% Glass Solar to Plenum 0 0 0.0% Over/Under Sizing 0 0 0.0% Reheat at Design 0 0 0.0% Underfloor Sup Heat Pickup 0 0 0.0% Supply Air Leakage 0 0 0 0.0% Total Cooling Loads 14,993 4,680 19,673 100.0 % Project Name: TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 90 of 91 Load Component Design Cooling Load Summary By Trial System - SZVAV FCUs Zone - HFC -9 Coil Location - Zone Cod Peak Calculation Time: July, hour 14 Ambient DB/WB/HR: 81 / 64 / 63 COOLING COIL LOAD INFORMATION COOLING COIL SELECTION Sensible Latent Total Percent Btu/h Btu/h Btu/h of Total Solar Gain 2,282 2,282 11.5% Glass Transmission 315 315 1.6% Wall Transmission 235 235 1.2% Roof Transmission 0 0 0.0% Floor Transmission 0 0 0.0% Adj Floor Transmission 0 0.00 0.0% Partition Transmission 0 0 0.0% Net Ceiling Load 0 0 0.0% Lighting 3,010 3,010 15.2% People 7,710 6,168 13,878 69.9% Misc. Equipment Loads 662 0 662 3.3% Cooling Infiltration 0 0 0 0.0% Sub -Total =_> 14,214 6,168 20,381 102.6% Ventilation Load 2,135 Exhaust Heat -1,282 Supply Fan Load 0 Retum Fan Load 0 Net Duct Heat Pickup 0 Wall Load to Plenum 111 Roof Load to Plenum 0 Adj Floor 10 Plenum 0 Lighting Load to Plenum 0 Misc. Equip. Load to Plenum 0 Glass Transmission to Plenum 0 Glass Solar to Plenum 0 Over/Under Sizing 0 Reheat at Design 0 Underfloor Sup Heat Pickup 0 Supply Air Leakage 0 Total Cooling Loads 15,178 Project Name. Dataset Name: 216101 FOSTER HS.TRC Alternative - 1 Design Cooling Load Report Page 91 of 91 -1,487 0 Coil Selection Parameters Coil Entering Air (DB / WB) Coil Entering Humidity Ratio Coil Leaving Air (DB / WB) Coil Leaving Humidity Ratio Coil Sensible Load 80.2/64.0 °F 64.50 gr/lb 52.3 / 52.2 'F 58.88 gr/Ib 15.18 MBh Coil Total Load 19.86 MBh Cooling Supply Air Temperature 52.27 °F Total Cooling Airflow 575.34 cfm Resulting Room Relative Humidity 50.06 % General Engineering Checks 647 3.3% Total Cooling Load 1.7 ton -1,282 -6.5% Area / Load 532.98 ft'tton O 0.0% Total Floor Area 882 ft' O 0.0% Cooling Airflow 0.65 cfm/ft' O 0.0% Airflow / Load 348.14 cfmfton 111 0.6% Percent Outdoor Air 71.9 % O 0.0% Cooling Load Methodology TETD-TAI O 0.0% O 0.0% O 0.0% O 0.0% O 0.0% O 0.0% O 0.0% O 0.0% O 0.0% 4,680 19,858 100.0 % TRACE® 700 v6.3.3 calculated at 10:34 AM on 04/24/2018 Foster High School Modernization and Addition Kitchen Exhaust Calculations Kitchen Exhaust 788 cfm Type !Hood 788 cfm 600 cfm supply air (76%) 188 cfm transfer air (24%) 0 cfm make-up air 788 cfm 2/9/2021 City of Tukwila Department of Community Development JEFF FEENEY 906 COLUMBIA ST SW, STE 400 OLYMPIA, WA 98501 RE: Permit No. M18-0061 FOSTER HIGH SCHOOL 4242 S 144TH ST Dear Permit Holder: Allan Ekberg, Mayor Jack Pace, Director In reviewing our current records, the above noted permit has not received a final inspection by the City of Tukwila Building Division. Per the International Building Code, International Mechanical Code, Uniform Plumbing Code and/or the National Electric Code, every permit issued by the Building Division under the provisions of these codes shall expire by limitation and become null and void if the building or work authorized by such permit has not begun within 180 days from the issuance date of such permit, or if the building or work authorized by such permit is suspended or abandoned at any time after the work has begun for a period of 180 days. Your permit will expire on 3/2/2021. Based on the above, you are hereby advised to: 1) Login to the City of Tukwila's Online Portal https://tukw-egov.aspgov.com/BP/index.html to schedule for the next or final inspection. Each inspection creates a new 180 day period, provided the inspection shows progress. -or- 2) Submit a written request for permit extension to the Permit Center at least seven(7) days before it is due to expire. Address your extension request to the Building Official and state your reason(s) for the need to extend your permit. The Building Code does allow the Building Official to approve one extension of up to 180 days. If it is determined that your extension request is granted, you will be notified by mail. In the event you do not call for an inspection and/or receive an extension prior to 3/2/2021, your permit will become null and void and any further work on the project will require a new permit and associated fees. Thank you for your cooperation in this matter. Sincerely, Laurie Werle Permit Technician File No: M18-0061 6300 Southcenter Boulevard Suite #100 • Tukwila, Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 City of Tukwila Allan Ekberg, Mayor Department of Community Development - Jack Pace, Director December 11, 2019 Dan Beck Pac West Mechanical 30336 Thomas Rd SE Kent, WA 98042 RE: Request for Extension #2 Permit Number M18-0061 Dear Dan Beck, This letter is in response to your written request for an extension to Permit M18-0061. The Building Official, Jerry Hight, has reviewed your letter and considered your request to extend the above referenced permit. It has been determined that the City of Tukwila Building Division will be granting an extension to the permit through June 7, 2019. If you should have any questions, please contact our office at (206) 431-3670. Sincerely, achelle Ripley P\ftt19 Permit Technician File: Permit No. M18-0061 Tukwila City Hall • 6200 Southcenter Boulevard • Tukwila, WA 98188 • 206-433-1800 • Website: TukwilaWA.gov Rachelle Ripley From: Jerry Hight Sent: Wednesday, December 4, 2019 3:39 PM To: Rachelle Ripley Cc: Bill Rambo Subject: M18-0061 Mechanical permit Foster High School Attachments: Permit Letter.pdf This permit expired but did "commenced" it was not suspended or abandoned. Attached is a letter from the contractor stating this, I concur. Please reactivate this permit. Let me know if you have any questions. Section 106.4.3 of the 2015 International Mechanical Code states, 106.4.3 Expiration. Every permit issued by the code official under the provisions of this code shall expire by limitation and become null and void if the work authorized by such permit is not commenced within 180 days from the date of such permit, or if the work authorized by such permit is suspended or abandoned at any time after the work is commenced for a period of 180 days. Before such work recommences, a new permit shall be first obtained and the fee therefor shall be one-half the amount required for a new permit for such work, provided that changes have not been made and will not be made in the original construction documents for such work, and provided further that such suspension or abandonment has not exceeded one year. Jerry Hight Building Official City of Tukwila Jerry Hight Building Official City of Tukwila Pac West Mechanical 11/25/19 City of Tukwila 6300 Southcenter Boulevard, Suite 100 Tukwila, WA 98188 Attention: Jerry Hight Re: Foster High School Mechanical permit LLC As per our conversation on Friday regarding reopening the permit, due to the fact that this is a 2 year project, and the mechanical inspections are generally some of the last on a building of this size, there were no inspections inside the 6 month time window due to weather and construction delays. Mechanical work generally cannot be started until the shell and core of the building is constructed and dried in. This project has been ongoing since issuance of the permits, without any delay or abandonment of project. This can be supported by the other inspections including building, plumbing and electrical permits. In an effort to move forward with this job we request that the mechanical permit be reopened so we can proceed with inspections and keep the project moving forward. Thanks Dan Beck Pac West Mechanical LLC Wit 30336 Thomas Road SE Kent, WA 98042 Office: 253-638-2990 w't, TiPf City of Tukwila Allan Ekberg, Mayor Department of Community Development - Jack Pace, Director August 26, 2019 Alicia Silvas-Porter Andy Johnson & Co. Inc. PO Box 46 Olympia, WA 98507-0046 RE: Request for Expired Permit Reinstatement — M18-0061 Foster High School — 4242 S 144 St Dear Diana, This letter is in response to your request to re -open the already expired permit M18-0061. The Building Official has reviewed your letter and determined that the City of Tukwila Building Division will not be re -opening the permit. A notice was mailed to the designated contact for this permit (Jeff Feeny) a full month ahead of expiration (letter was dated and mailed May 31, 2019) which provided two options to keep the permit in good standing. The first was to continue construction and have an inspection and the second option was to submit for extension at least (7) days in advance of the expiration date. The request we did receive was received (24) days after the actual expiration of the permit. This is why your request for extension has been denied. In order for work to continue and inspections be conducted, a new permit will need to be issued. To do this, complete and submit a new application with two copies of drawings and documents. As with the original submittal of the permit, this submittal will need to be made in person. If you have any concerns or questions, feel free to contact me in the permit center at 206 431-3670. If you wish to discuss the determination made, please contact the Building Official directly at 206 431- 3675. Sincerely, -0AJ Bill Rambo Permit Technician File: Permit No. M18-0061 Tukwila City Hall • 6200 Southcenter Boulevard • Tukwila, WA 98188 • 206-433-1800 • Website: TukwilaWA.gov Bill Rambo From: Alicia Silvas-Porter <alicias@ajcocontractors.com> Sent: Thursday, August 22, 2019 9:36 AM To: Bill Rambo Cc: Craig Lester; Derek Boysen; Dan Beck Subject: Foster High School - Mechanical Permit No. M18-0061 Thanks for talking with me this morning. We are hoping the City of Tukwila will grant us an extension of the mechanical permit for the Foster High School project. Due to design delays, we were unable to get inspections completed by the 7/29/19 permit expiration date. Please let us know what is needed to extend or reopen this permit so we may get our inspections and open the school for students on 9/4/19. Thank you for your help. Alicia Silvas-Porter CAUTION: This email originated from outside the City of Tukwila network. Please DO NOT open attachments or click links from an unknown or suspicious origin. Request for Extension # i Current Expiration Date: 7-.2-9- 1 Extension Request: EyP LI Approved for days Denied (provide explanation) 6,79i/2I Signature/Initials 1 RECEIVED CITY OF TUKWIL/ AUG 2 2 2019 PERMIT CENTER -19OB- October 31, 2018 City of Tukwila Department of Community Development JEFF FEENEY 906 COLUMBIA ST SW, STE 400 OLYMPIA, WA 98501 RE: Correction Letter # 2 MECHANICAL Permit Application Number M18-0061 FOSTER HIGH SCHOOL - 4242 S 144TH ST Dear JEFF FEENEY, Allan Ekberg, Mayor Jack Pace, Director This letter is to inform you of corrections that must be addressed before your development permit can be approved. All correction requests from each department must be addressed at the same time and reflected on your drawings. I have enclosed comments from the following departments: BUILDING DEPARTMENT: LEE SIPE at 206-431-3656 if you have questions regarding these comments. • (GENERAL INFORMATION NOTE) PLAN SUBMITTALS: (Min. size 11 x 17 to a preferably maximum size of 24x36; all sheets shall be the same size; larger sizes may be negotiable. "New revised" plan sheets shall be the same size sheets as those previously submitted.) "STAMP AND SIGNATURES" (If applicable) For Engineers: "Every page of a plan set must contain the seal/stamp, signature of the licensee(s) who prepared or who had direct supervision over the preparation of the work, and date of signature. Specifications that are prepared by or under the direct supervision of a licensee shall contain the seal/stamp, signature of the licensee and the date of signature. If the "specifications" prepared by a licensee are a portion of a bound specification document that contains specifications other than that of an engineering or land surveying nature, the licensee need only seal/stamp that portion or portions of the documents for which the licensee is responsible." It shall not be required to have each page of "specifications" (calculations) to be stamped and signed; Front page only will be sufficient (WAC 196-23-010 & 196-23-020). Architects: "date" only not required (WAC 308-12-081). (BUILDING REVIEW NOTES) 2nd Correction letter: 1. Plan set General Notes indicate to "Refer to Mechanical Notes on sheets M0.01 and M0.02". Please include those two sheets with the mechanical permit plan sheets and add to the index. The index lists drawing sheets A0.11 and A0.12 but these sheets are not included in the Mechanical plans. Also, please include equipment list plan in this correction reply. 2. The fire dampers were added to rooms 214 and 217. The clarification at grid AG should have been at grid AK, where the duct from library room 200 enters the corridor and the duct plenum at grid AK, where fire dampers need to be clarified. ***NOTE: *** Please clarify level 2 area D between grid AL and AK. It does not appear to be on plans for construction. Note: Contingent on response to these corrections, further plan review may request for additional corrections. 6300 Southcenter Boulevard Suite #100 • Tukwila Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 Please address the comments above in an itemized format with applicable revised plans, specifications, and/or other documentation. The City requires that two (2) sets of revised plan pages, specifications and/or other documentation be resubmitted with the appropriate revision block. In order to better expedite your resubmittal, a 'Revision Submittal Sheet' must accompany every resubmittal. I have enclosed one for your convenience. Corrections/revisions must be made in person and will not be accepted through the mail or by a messenger service. Sincerely, Bill Rambo Permit Technician File No. M18-0061 6300 Southcenter Boulevard Suite #100 • Tukwila Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 City of Tukwila Department of Community Development Foster HS Mechanical permit application number M18-0061 Review Comment Responses 06-19-2018 Building — M Department 1. Plan set General Notes indicate to "Refer to Mechanical Notes on sheets M0.01 and M0.02". Please include those two sheets with the mechanical permit plan sheets and add to the index. BCE RESPONSE: Sheets M0.01 and M0.02 are included in the set and are listed in the index of drawings on sheets A0.11 and A0.12. 2. On sheet M2.52D it appears some Fire Dampers are not shown for room 217, 214 and at grid AG Library rm. 200. Please clarify or show dampers as required. BCE RESPONSE: Fire Dampers added for Learning Studio 214 and Learning Studio 217. No fire damper is required at grid AG for Library 200 as it is not a corridor wall. RECEIVED CITY OF TUKWILA OCT 17 Zu;d PERMIT CENTER City of Tukwila Allan Ekberg, Mayor Department of Community Development - Jack Pace, Director October 26, 2018 John Wegener BLRB Architects 1250 Pacific Ave #700 Tacoma, WA 98402 RE: Request for Permit Application Extension #1 Permit Number M18-0061 Dear Mr. Wegener, This letter is in response to your written request for an extension to Application Number M18-0061. The Building Official, Jerry Hight, has reviewed your letter and considered your request to extend the above referenced permit. It has been determined that the City of Tukwila Building Division will be granting an extension to the permit application through May 4, 2019. If you should have any questions, please contact our office at (206) 431-3670. Sincerely, Rachelle Ripley Permit Technician File: Permit No. M18-0061 Tukwila City Hull • 6200 Southcenter Boulevard • Tukwila, WA 98188 • 206-433-1800 • Website: TukwilaWA.gov October 16, 2018 Mr. Jerry Hight Tukwila Building Official City of Tukwila 1 Department of Community Development 6300 Southcenter Boulevard, Suite 100 Tukwila, Washington 98188 SUBJECT: FOSTER HIGH SCHOOL MODERNIZATION AND ADDITIONS 4242 S. 144TH STREET, TUKWILA, WA 98168 EXTENSION REQUEST FOR PERMIT APPLICATION M18-0061 Dear Mr. Hight, RECEliv ED CITY OF TUKWILA OCT 1 / 2018 PERMIT CENTER We are requesting an application extension for Permit Application No. M18-0061. According to a letter issued by the City of Tukwila, dated October 1, 2018, the referenced Permit Application is approaching an expiration date of November 4, 2018 (copy attached). We are requesting an extension of ninety (90) days, as allowed by the Building Code and noted in the attached letter, to finalize the plan review process. A Revision Submittal has been returned to the City in response to the Correction Letter that was issued by the City for this permit. A general contractor is about to be selected by the Tukwila School District for this public school project and it is anticipated that an application for a building permit will be forthcoming within the 90 day extension period. We thank you for your consideration of this request. If you have any questions please contact me. Sincerely, Wegener, Al ect Manage TSD.1608/022 Attachment: City of Tukwila letter dated October 1, '\ Request for Extensior. # Current Expiration Date: Extension Request: Approved for rid Denied (provide explanation) cc: Jeff Feeney, Tukwila SD Project Manager - KMB Arcu II LCI.ts Andreia Brown, Assistant Project Manager - KMB Architects days Signature.' . nitials 1 TACOMA // (253) 627 5599 SPOKANE /1 (509) 252.5090 PORTLAND !i' (503) 595.0270 BEND // (541) 330;6506 BLAB.ec»n 10/1/2018 City of Tukwila Department of Community Development JEFF FEENEY 906 COLUMBIA ST SW, STE 400 OLYMPIA, WA 98501 RE: Permit Application No. M18-0061 FOSTER 111011 SCHOOL 4242 S 144TH 51' Dear JEFF FEENEY, Allan Ekberg, Mayor Jack Pace, Director In reviewing our current application files, it appears that your permit applied for on 5/4/2018, has not been issued by the City of Tukwila Permit Center. Per the International Building Code, International Mechanical Code, Uniform Plumbing Code and/or National Electrical Code every permit application not issued within 180 days fi-om the date of application shall expire and become null and void, Currently your application has a status of COMMENTS OUT and is due to expire on 11/4/2018. If you still plan to pursue your project, you are hereby advised to do one of the following: I) If the plan review is complete for the project and your application is approved, you may pick up the application before the date of expiration. At the time of permit issuance the expiration date will automatically be extended 180 days. -or- 2) If the plan review is not completed submit a written request for application extension (7) seven days in advance of the expiration date. Address your extension request to the Building Official arid state your reason(s) for the need to extend your application. The Building Code does allow the Building Official to approve one extension of up to 90 days. If it is determined that your extension request is granted, you will be notified by mail. In the event that we do not receive your written request for extension or request is denied, your permit application will expire and your project will require a new permit application, plans and specifications, and associated fees. Thank you for your cooperation in this matter. Sincerely., ernit Technician File No t t 8.0061 EtiMCtAlti:1111t_i.�rf; t'YI VMPIA 01A5111N(o r(11,1 6300 Southcerrter- Boulevard Suite ti1f)0 • Tukwila Washington 98188 • Phone 206-431-3670 • Fox 206-431-3665 5/31/2019 City of Tukwila Department of Community Development JEFF FEENEY 906 COLUMBIA ST SW, STE 400 OLYMPIA, WA 98501 RE: Permit No. M18-0061 FOSTER HIGH SCHOOL 4242 S 144TH ST Dear Permit Holder: Allan Ekberg, Mayor Jack Pace, Director In reviewing our current records, the above noted permit has not received a final inspection by the City of Tukwila Building Division. Per the International Building Code, International Mechanical Code, Uniform Plumbing Code and/or the National Electric Code, every permit issued by the Building Division under the provisions of these codes shall expire by limitation and become null and void if the building or work authorized by such permit has not begun within 180 days from the issuance date of such permit, or if the building or work authorized by such permit is suspended or abandoned at any time after the work has begun for a period of 180 days. Your permit will expire on 7/29/2019. Based on the above, you are hereby advised to: 1) Call the City of Tukwila Inspection Request Line at 206-438-9350 to schedule for the next or final inspection. Each inspection creates a new 180 day period, provided the inspection shows progress. -or- 2) Submit a written request for permit extension to the Permit Center at least seven(7) days before it is due to expire. Address your extension request to the Building Official and state your reason(s) for the need to extend your permit. The Building Code does allow the Building Official to approve one extension of up to 180 days. If it is determined that your extension request is granted, you will be notified by mail. In the event you do not call for an inspection and/or receive an extension prior to 7/29/2019, your permit will become null and void and any further work on the project will require a new permit and associated fees. Thank you for your cooperation in this matter. Sincerely, Kandace Nichols Permit Technician File No: M18-0061 6300 Southcenter Boulevard Suite #100 • Tukwila, Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 10/1/2018 (� City of Tukwila Department of Community Development JEFF FEENEY 906 COLUMBIA ST SW, STE 400 OLYMPIA, WA 98501 RE: Permit Application No. M18-0061 FOSTER HIGH SCHOOL 4242 S 144TH ST Dear JEFF FEENEY, Allan Ekberg, Mayor Jack Pace, Director In reviewing our current application files, it appears that your permit applied for on 5/4/2018, has not been issued by the City of Tukwila Permit Center. Per the International Building Code, International Mechanical Code, Uniform Plumbing Code and/or National Electrical Code every permit application not issued within 180 days from the date of application shall expire and become null and void. Currently your application has a status of COMMENTS OUT and is due to expire on 11/4/2018. If you still plan to pursue your project, you are hereby advised to do one of the following: 1) If the plan review is complete for the project and your application is approved, you may pick up the application before the date of expiration. At the time of permit issuance the expiration date will automatically be extended 180 days. -or- 2) If the plan review is not completed submit a written request for application extension (7) seven days in advance of the expiration date. Address your extension request to the Building Official and state your reason(s) for the need to extend your application. The Building Code does allow the Building Official to approve one extension of up to 90 days. If it is determined that your extension request is granted, you will be notified by mail. In the event that we do not receive your written request for extension or request is denied, your permit application will expire and your project will require a new permit application, plans and specifications, and associated fees. Thank you for your cooperation in this matter. Sincerely, 'lI ele1 ermit Technician File No: MI8-0061 6300 Southcenter Boulevard Suite #100 • Tukwila Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 June 13, 2018 l 1 City of Tukwila Department of Community Development JEFF FEENEY 906 COLUMBIA ST SW, STE 400 OLYMPIA, WA 98501 RE: Correction Letter # 1 MECHANICAL Permit Application Number M18-0061 FOSTER HIGH SCHOOL - 4242 S 144TH ST Dear JEFF FEENEY, Allan Ekberg, Mayor Jack Pace, Director This letter is to inform you of corrections that must be addressed before your development permit can be approved. All correction requests from each department must be addressed at the same time and reflected on your drawings. I have enclosed comments from the following departments: BUILDING - M DEPARTMENT: Allen Johannessen at 206-433-7163 if you have questions regarding these comments. • (GENERAL INFORMATION NOTE) PLAN SUBMITTALS: (Min. size 11x17 to a preferably maximum size of 24x36; all sheets shall be the same size; larger sizes may be negotiable. "New revised" plan sheets shall be the same size sheets as those previously submitted.) "STAMP AND SIGNATURES" (If applicable) For Engineers: "Every page of a plan set must contain the seaUstamp, signature of the licensee(s) who prepared or who had direct supervision over the preparation of the work, and date of signature. Specifications that are prepared by or under the direct supervision of a licensee shall contain the seaUstamp, signature of the licensee and the date of signature. If the "specifications" prepared by a licensee are a portion of a bound specification document that contains specifications other than that of an engineering or land surveying nature, the licensee need only seal/stamp that portion or portions of the documents for which the licensee is responsible." It shall not be required to have each page of "specifications" (calculations) to be stamped and signed; Front page only will be sufficient (WAC 196-23-010 & 196-23-020). Architects: "date" only not required (WAC 308-12-081). (BUILDING REVIEW NOTES) 1. Plan set General Notes indicate to "Refer to Mechanical Notes on sheets M0.01 and M0.02". Please include those two sheets with the mechanical permit plan sheets and add to the index. 2. On sheet M2.52D it appears some Fire Dampers are not shown for room 217, 214 and at grid AG Library rm. 200. Please clarify or show dampers as required. Note: Contingent on response to these corrections, further plan review may request for additional corrections. Please address the comments above in an itemized format with applicable revised plans, specifications, and/or other documentation. The City requires that two (2) sets of revised plan pages, specifications and/or other documentation be resubmitted with the appropriate revision block. 6300 Southcenter Boulevard Suite #100 • Tukwila Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 In order to better expedite your rest., ,.ittal, a 'Revision Submittal Sheet' must accom j every resubmittal. I have enclosed one for your convenience. Corrections/revisions must be made in person and will not be accepted through the mail or by a messenger service. If you have any questions, I can be reached at (206)433-7165. Sincerely, ffr 75-kity) achelle Ripley Permit Technician File No. M18-0061 6300 Southcenter Boulevard Suite #100 • Tukwila Washington 98188 • Phone 206-431-3670 • Fax 206-431-3665 f COORD COPY PLAN REVIEW/ROUTING SLID PERMIT NUMBER: M18-0061 DATE: 11/20/18 PROJECT NAME: FOSTER HIGH SCHOOL SITE ADDRESS: 4242 S 144 ST Original Plan Submittal X Response to Correction Letter # 2 Revision # before Permit Issued Revision # after Permit IssuLd DEPARTMENTS: Building Division IN Public Works n Fire Prevention Structural n Planning Division ❑ Permit CoordirNor n PRELIMINARY REVIEW: Not Applicable ❑ (no approval/review required) DATE: 11/21718 Structural Review Required REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: DUE DATE: 12/20/18 Approved Approved with Conditions . Corrections Required Denied (corrections entered in Reviews) (ie: Zoning Issues) Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: 12/18/2013 PERMIT COORD COPY PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M18-0061 DATE: 10/17/18 PROJECT NAME: FOSTER HIGH SCHOOL SITE ADDRESS: 4242 SOUTH 144 ST Original Plan Submittal Revision # before Permit Issued X Response to Correction Letter # 1 Revision # after Permit Issued DEPARTMENTS: 1—S Corm ,m110-3°1 Building Division mil Public Works n Fire Prevention Structural n Planning Division ❑ Permit Coordinator PRELIMINARY REVIEW: Not Applicable (no approval/review required) DATE: 10/18/18 Structural Review Required REVIEWER'S INITIALS: DATE: n APPROVALS OR CORRECTIONS: Approved n Approved with Conditions Corrections Required (corrections entered in Reviews) Denied (ie: Zoning Issues) DUE DATE: 11/15/18 Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only 0 -31 -IS CORRECTION LETTER MAILED: j ( Departments issued corrections: Bldg tg Fire ❑ Ping ❑ PW ❑ Staff Initials: 12/18/2013 r 1 l `,J PLAN REVIEW/ROUTING SLIP PERMIT NUMBER: M18-0061 DATE: 05/07/18 PROJECT NAME: FOSTER HIGH SCHOOL SITE ADDRESS: 4242 S 144TH ST X Original Plan Submittal Revision # before Permit Issued Response to Correction Letter # Revision # after Permit Issued DEPARTMENTS: AI' co Building Division Public Works I Fire Prevention Er Structural Planning Division ❑ Permit Coordinator PRELIMINARY REVIEW: Not Applicable ❑ (no approval/review required) DATE: 05/08/18 Structural Review Required REVIEWER'S INITIALS: DATE: El APPROVALS OR CORRECTIONS: Approved Corrections Required ❑ Approved with Conditions ❑ Denied (corrections entered in Reviews) (ie: Zoning Issues) DUE DATE: 06/05/18 Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: �! Departments issued corrections: Bldg Fire 0 Ping 0 PW 0 Staff Initials: 12/18/2013 City of Tukwila REVISION SUBMITTAL Department of Community Development 6300 Southcenter Boulevard, Suite#100 Tukwila, Washington 98188 Phone: 206-431-3670 Web site: http://www.TukwilaWA.gov Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: 11/12/2018 Plan Check/Permit Number: M18-0061 ❑ Response to Incomplete Letter # X❑ Response to Correction Letter #2 ❑ Revision # after Permit is Issued ❑ Revision requested by a City Building Inspector or Plans Examiner ❑ Deferred Submittal # Project Name: FOSTER HIGH SCHOOL Project Address: 4242 S 144TH ST Contact Person: JOHN WEGENER Phone Number: 253-627-5599 Summary of Revision: - SHEETS M0.01 AND M0.02 ARE INCLUDED IN THIS RESUBMITTAL. - EQUIPMENT IS LISTED ON SCHEDULE SHEETS M6.01, M6.02, M6.03, M6.04 AND M6.05. THESE SHEETS ARE INCLUDED IN THIS RESUBMITTAL. - FIRE DAMPERS ADDED WHERE DUCTS LEAVE LIBRARY 200 AND AT GRID AK. SEE SHEETS M2.21E AND M2.52D INCLUDED IN THIS RESUBMITTAL. - THE NEW WORK ON LEVEL 2 BETWEEN GRID AL AND AK IS SHOWN ON SHEET M2.21E WHICH IS INCLUDED IN THIS RESUBMITTAL. RECEIVED CITY OF TUKWILA NOV 2 0 2018 PERMIT CENTER Sheet Number(s): M0.01. M0.02. M2.21E. M2.52D. M6.01. M6.02. M6.03. M6.04. M6.05 "Cloud" or highlight all areas of revision including date of revision Received at the City of Tukwila Permit Center by: \wl1c fd Entered in TRAKiT on 11 (1 /10 W:\Permit Center\Templates\Forms\Revision Submittal Form.doc Revised: August 2015 r' `. City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Web site: http://www.TukwilaWA.gov 7 \ REVISION SUBMITTAL Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: 10/17/18 Plan ChecWPermit Number: M18-0061 ❑ Response to Incomplete Letter # Response to Correction Letter #1 ❑ Revision # after Permit is Issued ❑ Revision requested by a City Building Inspector or Plans Examiner ❑ Deferred Submittal # Project Name: Foster High School Modernization & Additions Project Address: 4242 S 144th Street, Tukwila, WA 98168 Contact Person: John Wegener, AIA (BLRB Architects) Phone Number: 253-627-5599 Summary of Revision: (SEE ATTACHED REVIEW COMMENTS RESPONSES) RECEIVED CITY OF TUKWILA OCT 17 2018 PERM Sheet Number(s): Sheets M0.01: M0.02: and M2.52D. "Cloud" or highlight all areas of revision includin: _r ate of rev'sion Received at the City of Tukwila Permit Center by: F4 --Entered in TRAKiT on 1 V (7'" W:\Permit Center\Templates\Forms\Revision Submittal Form.doc Revised: August 2015 Washington State Department of Labor & Industries Horne Espanol Contact. Safety & Health Claims & Insurance [Search L&I • A -Z Index 1k1p My L&1 Workplace Rights Trades & Licensing PAC WEST MECHANICAL LLC Owner or tradesperson Principals BECK, DANIEL M, PARTNER/MEMBER BECK, SHANNON S, PARTNER/MEMBER Doing business as PAC WEST MECHANICAL LLC WA UBI No. 602 354 578 30336 THOMAS RD SE KENT, WA 98042 253-638-2990 KING County Business type Limited Liability Company Governing persons DANIEL M BECK SHANNON S BECK; License Verify the contractor's active registration / license / certification (depending on trade) and any past violations. Construction Contractor Active. Meets current requirements. License specialties GENERAL License no. PACWEWM960B9 Effective — expiration 01/29/2004— 01/29/2020 Bond DEVELOPERS SURETY & INDEM CO Bond account no. 856910C $12,000 00 Received by L&I Effective date 01/16/2004 12/31/2003 Expiration date Until Canceled Insurance American Fire & Casualty Co $1,000,000.00 Policy no. 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