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Home My WebLink AboutPP - 5939 S 149TH ST - TUKWILA ELEMENTARY SCHOOL - PERMITS AND PLANS5939 S 149TH ST ASSOCIATED PERMITS D19-0076 D19-0075 19-F-140 19-S-147 4tt SITE LOCATION CITY OF TUKWILA FIRE MARSHAL'S OFFICE 206-575-4407 FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** King Co. Assessor's Tax No.: 3597000120 Site Address: 5939 149th Street Suite Number: Floor: Tenant Name: Tukwila Elementary School New Tenant? ❑ - Yes ® - No Property Owner's Name: Tukwila School District Mailing Address: 5939 S 149th Street Tukwila, WA. 98168 City State Zip CONTACT PERSON -if there are questions about the submittal. Name: Nikki Rodewald Day Telephone: 206-851-1900 Company Name: Cosco Fire Protection Mailing Address: 4308 S 131st Place Tukwila, WA. 98168 City State Zip E-mail Address: nrodewald@coscofire.com Fax Number: 2125-0314-c Contractor's City of Tukwila BUS-0995340 NICET III number: Business License number: Total number of new/relocated devices or sprinkler heads: 6 Valuation of Project (contractor's bid price): $ $17,152.00 Scope of Work (please provide detailed information): provide new 21/2" heat traced sch 40 pipe to tie the pre -designed fire sprinkler system in the portable unit to existing system. Provide new dry system to protect egress canopy. PERMIT APPLICATION NOTES Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. PAD BUILDING OWNER OR AUTHORIZED AGENT: Signature: Print Name: Nikki R ewald Plan Permit App.doc 8/22/14 TFD FP Form 8 !Y_ 13 2019 TUKWILA FIRE Day Telephone: 206-851-1900 Date: 7-15-19 SITE LOCATION CITY OF TUKWILA FIRE MARSHAL'S OFFICE 206-575-4407 FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** Site Address: 5939 149TH STREET, TUKWILA, WA 98168 Tenant Name: TUKWILA ELEMENTARY SCHOOL Property Owner's Name: TUKWILA SCHOOL DIST King Co. Assessor's Tax No.: Suite Number: Floor: New Tenant? ❑ - Yes 0- No Mailing Address: 4640S 144TH ST, TUKWILA, WA 98168 CONTACT PERSON -if there are questions about the submittal. Name: DUSTIN KOENIG Company Name: SECURITY SOLUTIONS NW City State Zip Day Telephone: 360-815-0160 Mailing Address: 1619 N STATE ST, BELLINGHAM, WA 98226 E-mail Address: DUSTINK@SSNW.CO NICET III number: 136366 City State Zip Fax Number: Contractor's City of Tukwila Business License number: 600528172 Total number of new/relocated devices or sprinkler heads: (5 JP tsip Valuation of Project (contractor's bid price): $ 28,870.00 Scope of Work (please provide detailed information): FIRE ALARM FOR THE UPGRADE AND ADDITION AT TUKWILA ELEMENTARY SCHOOL ra dick ff/�- I -t ham) :1 PERMIT APPLICATION NOTES Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING` Oy' tER OR AUTHORIZED AGENT: Signature: Print Na EREMIE FARRELL PAID TY ]32019 TUKWILA FIRE Date: 7/17/2019 Day Telephone: 360-734-4940 Plan Permit App.doc 8/22/14 TFD FP Form 8 FIRE DEPARTMENT SPRINKLER PLAN REVIEW COMMENTS Project Name: Tukwila Elementary 5939 S 149th St. Permit No.: 19-S-147 Date: July 26, 2019 Reviewer: Al Metzler Fire Protection Project Coordinator (206) 575-4407 option # 2 (Inspection Requests) (206) 971-8718 (Plan Review Questions) • Lateral sway bracing is required at a maximum spacing of 40' for all mains, cross mains, and branch lines 2.5" and larger. Bracing is provided for the last length of pipe but within 6' of the end of a feed or cross main. Bracing is required unless all the pipe is supported by rods less than 6" or by 30 ° wrap-around U -hooks for any size pipe, 9.3.5.3. • Minimum clearance around pipes: 2 " for 1"-3.5", 4" for 4" and larger, see 4 exceptions, 9.3.4. • Longitudinal sway bracing is a maximum of 80' for mains and cross mains and within 40 ' off the end of the line, 9.3.5.4. • Provide lateral and longitudinal bracing for changes in pipe direction per section 9.3.5.11.2 for pipe size 2 1/2 inches and larger. • Restrain branch lines at the end sprinkler of each line, restrain against vertical and lateral movement, 9.3.6.3. • Restraints for branch lines shall be at intervals per table 9.3.6.4 and section 9.3.6.4, and restrain sprig ups greater than 4', 9.3.6.6. • Comply with ASCE 7-05, section 13.5.6.2.2. • Provide sprinkler protection beneath all obstructions greater than 4 ft. in width. • Extend sprinkler protection to all combustible concealed spaces. • Weld stamps shall be inspected on the ground, before pipe is hung. • Comply with NFPA 13 obstruction tables. • All valves controlling the water supply for automatic sprinkler systems and waterflow switches on all sprinkler systems shall be electrically supervised. • All interior control valves shall be readily accessible, labeled and located not more than 6 ft. above the floor. • Comply with obstructed/non-obstructed construction rules for sprinkler head placement. • Sprinkler heads spaced closer than 6 ft. apart must be baffled. • Modifications involving 20 or more heads require hydrostatic test and system isolation if necessary. • For dry pipe and double interlock preaction systems, in addition to the standard hydrostatic test, an air pressure leakage test at 40 psi shall be conducted for 24 hours. Any leakage that results in a loss of pressure in excess of 1.5 psi for the 24 hours shall be corrected. • These conditions apply to all sprinkler piping exposed as necessary to accomplish the permitted scope of work. All code references are NFPA 13, 2019 Edition. INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit 1 ub PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: ,...---- ( 0-M10/A. Gl. giS't6-f Type of Inspection: 5farrihl ( J p.J416 , Address:� Suite #: 9731 5. I4.191/ cr Contact Person: i U G'�'-r✓yV� Special Instructions: -- (, M/l VA � -7--,z43 S vii( /W ie/J5 d nI .J 4 /r / 7ir�lr Phone No.:RDO -X -os'-- nApproved per applicable codes. Corrections required prior to approval. COMMENTS: Se 02 S . (g, "( c. '," 'Pe � r(r �MCC' 11(,(_j,,A Hood & Duct: Monitor: fLMil-Pec.S -- (, M/l VA � -7--,z43 S vii( /W ie/J5 d nI .J 4 /r / 7ir�lr tftOiZ GOdormb.J ,1ci 'Tv adib 647 N ) C,662-0(000 r5n4"P -zb 1t i v 7 Cg t gkr(INARKRI, Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: o (1Occupancy Type: Inspector: . \ hi, < 1 Date: JZ /1/'/4'1" Hrs.: $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 CORRECTION NOTICE/REINSPECTION FEE Permit number126''00-7-C-- _ • TUKWILA'FIRE MARSHAL'S OFFICE Office: 206-575-4407 Fax: 206-575-4439. Email: Fire Marshal (aitukwilawa.aov Business Name: 10 kw/ (,,,1 I Type of Inspection: Location -Address: //(i S ./.52)10a - Date : . / ii 9-- Contact Person : Phone No. : ACTION REQUIRED : t cz -0 °c4ivisli ��` 6t2.-6=tom id ,-ccci2mr 0-64 G,iffP to C_ IR-_ Al'/\ 4 t/( CORRECTION 0 FAILURE TO CO Signature: THE ABOVE ITEMS ARE REQUIRED BY : LY MAY RESULT IN THE ISSUANCE OF A CRIMINAL CITATION/TICKET. Billing/Mailing Address : Attn: Company Name: Address: City: State: Zip: ❑ A $100.00 Reinspection Fee is required. You will receive an invoice from the City of Tukwila Finance Department. 0 Ticket Issued. Citation # Correction Notice Reins]) Fee2.doc Revised 6/17/14 T.F.D. Form F.P. 100 l INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit N-3 -/'7 PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: �-- / �� /C� `ems 4 � -'w1 • Type of Inspection: Gd l/,-- l de -a Address:Contact Suite #: 5-`73 1 S / y76 7/4 5-I" Person: Special Instructions: Permits: Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: -±Z) _EA //di-; -7:e -10-ao. ,12-1/1 ,60-/#6?-ar t/ I Le_ f:-/er(t-, 774-c $7R -Q CLVQ&r \-Hk° —QHS noUSir NI,YWCS Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: . Inspector (,5 )1.1 s 3 Date: /00/M// if Hrs.: Z• d $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. CaII to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit $ I(7 im-craip PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: P/qC L4C '1)(1i0t1 Type of Inspection: Fire Alarm: Address: Suite #: 5T5/' 5/17 Contact Person: Cdr 5t‘_e__, Special Instructions: n Occupancy Type: Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: ale ` ��) V"\ 4\ 0 t -7`NAQ, 3 —90 ws ‘,,Ye).4 12,0AA0€ cAn Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: _ Occupancy Type: Inspector: AN \ Date: 10 \21 VA Hrs.: $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 INSPECTION RECORD Retain a copy with permit INSPECTION NUMBER PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: --QA t)- P-titli,*/ Type of Inspection: 54N4-(ff Ce)✓r2 Address: Suite #: 5�3�5 ' `o.? Contact Person: ' p.� -t)(iet Special Instructions: , Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: co\froL 4\tix'FlotArtxDs (a_ ftsF14- Ood Ci�,s>mfki S'rJ,./uac Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy, Type: Inspector:441\c Date: -701 11 Hrs.: 1 $100.00 REINSPECTION FEE REQUIRED. You will Imceive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit ro �Ig —oo7b PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project; - /C y..46 — ,q-Aa¢0 Neba P �1 li 4// New /N/>5 Type of Insp n: b ��1 % Address:� #:$ c,',3 ,Suite � fi Contact Person: Special Instructions: Occupancy Type: 41d 57x4u-es >N fel 6 >1 7-46/ sI -Dy -pi, Phone No.: 71 Approved per applicable codes. Corrections required prior to approval. i COMMENTS: /4f7-k.z Miers /ivJcy4,17 ApeSIC 1 y..46 — ,q-Aa¢0 Neba P �1 li 4// New /N/>5 di,r/t ,i> Ad/ /J'& /-ehIL1c•41 trvi eitveci4 PAS Hood & Duct: Monitor: �j,4- AI .."-- - 5444. idea iii- OA i 4I "ASS Permits: Occupancy Type: 41d 57x4u-es >N fel 6 >1 7-46/ sI -Dy -pi, A- - ''is r /1A -vee /00//'t /Gld% o' -i 71-/r7‘3.i.�447`c1 70 C i$14-/ .57"-77,6,-)7 •=-. O? Cs", A 1ucer /tifr 6 r-( ea&'± Needs Shift Inspection: y..46 Sprinklers: )al!) Fire Alarm: Y4A Hood & Duct: Monitor: �j,4- AI .."-- Pre -Fire: Permits: Occupancy Type: Inspector:, Z.- f Zl,53 Date: M./11/41 Hrs.: Z, 5Ei_ $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 vKWILA FIRE MARSHAL'S OFFICE Phone: 206-575-4407 • Email: FireMarshal@tukwilawa.gov 4etCONTRACTORS MATERIAL AND TEST CERTIFICATE FIRE ALARM AND FIRE DETECTION SYSTEMS Fire alarm System is ready for Fire Department acceptance testing. Failure of test will result in termination of the testing and additional fees will be assessed. Contractor is responsible for supplying manpower for Final Acceptance Test with two-way communications. Date Permit # { F - 140 r Property Address � 139 MCIjh SA- Suite # City Zip Code Cg,t IQ?? Name of Facility '-tAKw 1 ka I O tCy S(s )(lcx-)1 Occupied as ¶jc +*po L Owner or Representative'vpi L * 5r,t Da ync c r Installing Company SEt.A9ext`f So LIi Tlowss' AM Installing Contractor's Address 1 fi 1q 4 yll.rnr si- u r City giii.wirlarPrii Installer's Name (PRINT) C.Ame, q► Si 'DS Phone # Z 4_ 1 o 1- g'000 Phone# 540 — 4 i License and/or Certificate I M 7 S Si General Contractor 11/400&61- PWet, r Electrical Contractor ?Ay Fl ` Ce.rbt' LE L CDM4,t 1.a FACP Equipment Manufacturer 40 totAkit-Model # Nl!52 -31,2e This system has been installed, pre -tested and operates in accordance with the standards listed below and was inspected by 01.9.44-0.4.4) 3,for / 1 Dp #61, r wit.CJr On (date) 6/24'/11 and includes the devices listed on back. Circle all that apply: NFPA 72, Chapter 12 4 5 6 7 and/or IFC SEC 907 NFPA 70, National Electrical Code, Article 760 Manufacturer's Instructions Manufacturer's Instructions Other (specify) Tukwila City Ordinance Numbers 2050, 2051 UL Central Station Monitor b 2.42_ System is monitored by 14/4 pi . SIGNED Date System Firmware: Installed version 1. o Checksum ZS 0 Date einvj4 Initial program Installation Date Revisions and Reasons Programmed by CA Sze") Sul".g EQUIPMENT INSTALLS(' ND TESTED: Control Panel I of I Manual Station a ofl q Smoke Detectors !kr of* (? Heat Detectors Ori ofIZ1j Duct Detectors of S AN Devices (( of by Audio Devices of Visual Devices Il oft_ Auto Door Release of Trouble Indictors l of 1 Batteries Readings Battery VAH Generator of HVAC Controls of Fire Alarm Dialer I of J_ Monitored by L k ALImtM Make/Model Make/Model Make/Model Make/Model Make/Model Make/Model Make/Model Make/Model Make/Model Make/Model Aie41 Fief. /LIPS E. -Se $-0 1�ia31tn 4jgG-124.x 4.010102_ FSt • SS! My /fleet parr- _s't SYSvr1 St9Atsant Q2IJL 53#60:41, gigAxpx 3W1. Full Load lS q Make/Model Make/Model Make/Model Be Charge a1.46 V 91112 Annunciator _ of Make/Model 14.111461l 1...e.D2 ->'o 0 Sprinkler System. (Fire Alarm connections only) Water Flow Sw. 5 of 3 Valve Tamper Sw. $ of Ply of j_ Elec. Alarm Bell of Make/Model Ai.Tic4Er'L Palm- Make/Model idol Foli, -1 Make/Model iii p, Ek, Fp,,�,, — a Make/Model Automatic time Delay of Water Flow Alarm Ai/t, seconds. None Installed Do you meet audible/visible requirements of WAC 51-20, IFC SEC 907., and/or NFPA 72 Chapter 6? Yes ,/ No Test of alarm System on emergency power, satisfactory? Yes No Test Witnessed by Title Date Comments: Fire Alarm Certit'icate.doc Revised: 6/17/14 TFD FP Form #110 April 17, 2017 City of Tukwila Allan Ekberg, Mayor Fire Department Ms. Judith K. Berry, PhD Deputy Superintendent Tukwila School District 4640 S. 144 Street Tukwila, WA 98168 Fl LE Jay C. Wittwer, Fire Chief RE: City of Tukwila Fire and Park Impact Fee exemption for Tukwila School District Dear Ms. Berry: Upon further review of your letter dated February 21, 2017 and consulting with the affected City staff members for Park and Fire Impact fees, the following has been determined. In regard to Park Impact Fees for the upcoming District projects, none will be assessed with the exception of the transportation office building which is assessed $2,105.06 in Park Impact Fees. In regard to Fire Impact Fees, they will apply to all of the proposed projects by the Tukwila School District. The procedure is outlined within Exhibit "A" table 2 of Tukwila City Ordinance number 2365; Educational Occupancies are the second category within this table. Educational Occupancies are specifically included within the office category based on fire department response data. The response data was reviewed from 2014 to 2016, and this analysis confirmed that educational occupancies are correctly placed in the "office" category due to similar response needs. In fact, the most recent data revealed an increased impact to the fire department by educational occupancies. In 2016 under the office category there were 1,352 calls for service, of which 114 were to educational occupancies or 11.8%; of those 11.8%, Tukwila Schools accounted for 33% of those calls for service which is a 6% reduction in calls for service to Tukwila Schools when compared to the 2014 to 2016 calls for service average. (Reduction was most likely from fire alarm panel repairs at Foster High School and because a juvenile fire setter moved out of the area.) Tukwila Fire Marshal's Office • 6300 Southcenter Blvd., Suite #209 • Tukwila, Washington 98188 • Phone: 206-575-4407 • Fax: 206-575-4439 • Email: FireMarshalCtukwilawa.gov City of Tukwila Page 2 In reference to your comments based on Revised Code of Washington 82.020.050, all monies collected for impact fees will be used to support the system improvements caused by the district development and expansion. Fire Department staff has been in discussion with the District's design team and project manager to determine the exact square footage of the expansion. This process has been delayed by the value engineering process phase. When this process is completed and fire staff is made aware of the exact additional square footage for each project, an impact fee calculation can be made. You should be aware that during the calculation process Tukwila Municipal Code 16.26.120 (b) (1) will be applied to more accurately reflect the actual additional square footage added to Foster High School and Showalter Middle School. Your reference to Tukwila Municipal Code 16.26.120 (b) (2), would only apply if no new additional classrooms or common space is constructed, which is not the proposed addition fire staff has reviewed to date. The impact fees for both Foster High School and Showalter Middle School will be calculated such that credit will be given for the square footage of the portable buildings that will be removed from both sites at the end of the projects, estimated by fire staff at 11,000 square feet for Foster High School and 4,000 square feet for Showalter Middle School. Fire staff will continue to work with the District design team to determine the correct impact fee calculation for these two projects. In regard to the Birth to Kindergarten Center, it will be assessed fire impact fees. Fire will experience an increased number of calls for service as a result of this facility. This facility location will bring additional calls for service within the fire station 54 response zone. This is the City's busiest fire response zone and any additional fire calls for service require mitigation strategies to minimize the impact to existing fire service customers. I have included an attachment for you on fire department calls for service to Tukwila School District facilities. Yours truly, Battalion Chief Don Tomaso Fire Marshal cc: David Cline, City Administrator Jay Wittwer, Fire Chief Rick Still, Director Parks and Recreation Jack Pace, Director Department of Community Development Tukwila Fire Marshal's Office • 6300 Southcenter Blvd., Suite #209 • Tukwila, Washington 98188 • Phone: 206-575-4407 • Fax: 206-575-4439 • Email: FireMarshal@jukwilawa.gov Tukwila School District Fire Response Data 2014 - 2016 Administration Building FALSE 2014 EMS 2016 ADDRESS = 4640 S 144 ST Foster High School GOOD INT EMS 2014 FIRE PUB ASSI FALSE GOOD INT EMS 2015 ADDRESS = 4242 S 144 ST OTHER RUPT/EX FALSE EMS 2016 Showlater Middle School EMS FIRE 2014 FALSE EMS 2015 ADDRESS = 4628 S 144 ST Page 1 of 2 Tukwila School District Fire Response Data 2014 - 2016 Tukwila Elementry School 7..f71 EMS 2014 FALSE FIRE 2015 ADDRESS = 5939 S 149 ST GOOD INT EMS 2016 Thorndyke Elementry School D INT EMS 2014 FALSE EMS 2015 ADDRESS = 4415 S 150 ST FALSE EMSI 2016 Cascade View Elementry FALSE 2014 FALSE 2015 ADDRESS = 13601 32 AVE S Page 2 of 2 EMS 2016 .••••••• •••••••• .••••••. .°•••••. COSCO Fire Protection FIRE PROTECTION HYDRAULIC CALCULATIONS TUKWILA ELEMENTARY 5939 149TH ST. TUKWILA, WA. 98168 Fire Protection Contractor Cosco Fire Protection 4308 South 131st PI. Tukwila, Washington 98168 (206) 438-3360 Fax: (206) 438-3356 JOB # 25SD6304 Hydraulic Overview Job Number: 25SD6304 Report Description: Ordinary Group I Job Job Number 25SD6304 Design Engiroer Job Name: TUKWILA ELEMENTARY Phone FAX Areas 1 5939 S 149TH ST slate Certification/License Number Address 2 TUKWILA, WA. 98168 AIM Address 3 Job SM./Suiting System Density 0.15gpm/ft2 Area of Application 1950112 (Actual 296112) Most Demanding spdneer Data 5.6 K -Factor 19.50 at 12.125 Hose steams 100.00 Coverage Per Spdnkler 130112 Number Of Sp alders Calculated 6 sham Pressure Demand 43.762 Swam Flux Demand 120.87 Total Demand 220.87 @ 43.762 Pressure Result +37.272 (46.0%) Supplies Check Point Gauges ttp�.ti Name Flow(aoml }lose Flow(aoml Static(osil Residual(osil Jdentifier pressure(osil }C -Factor( Kl Flow(aoml 1 Water Supply 3878.00 100.00 81.340 20.000 tukwila elementary.cad Water Supply at Node 1 (3878.00, 100.00, 81.340, 20.000) :::,.::. _..,, 2 I M Pressure, psi Static Pressure 81.340 \ 120.87 220.87 @ with 43.762 hose streams 11 \ System demand curve 78 00 @ 20.000 Iimnnouuouuuuu 11111111 nun iii tiiiuiii 111111111 111111111 Po 22503" 3750 45°°52506000 6750 7500 Water flow, gpm M.E.P.CAD, Inc. AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:00:47PM Page 1 Hydraulic Summary Job Number: 25SD6304 Report Description: Ordinary Group I Job Job Meller 25SD6304 Design Engneer Job Name: TUKWILA ELEMENTARY State CerefiretioNLieeroo Meller Arent J 5939 S 149TH ST ANJ Address 2 TUKWILA, WA. 98168 Job Sited3ui ang Address 3 Drawing Name tukwila elementary.cad System Remote Area(s) Most Demanding Sprinkler Dela 5.6 K -Factor 19.50 at 12.125 Occupancy Ordinary Group I Job Suffix Noss Allowance Al Source 100.00 Density 0.15gpm/ft' Area ofApplutbn 1950ft2 (Actual 296ft2) McGlone) Nose Supplies Node Flow(com). Number Of SprinNers Calculated 6 Coverage Per SpiNcbr 130ft2 AutoPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Total Hose Streams 100.00 System Flow Demand 120.87 Total Water Required (Including Hose Allowance) 220.87 Maximus Pressure Unbalance in Loops 0.000 Maximum Velocity Above Ground 13.01 between nodes 12 and 105 adman Velocity Under Ground Volare Maeda/ of Wet Pies 1430.83ga1 Volume opacity of Dry Pipes 77.45ga1 Supplies Node Name Hose Flow (gpm) Static (psi) Residual Flow (psi) @ (gpm) Available Total Demand (psi) © (gam) Required (psi) Safety Margin (psi) 1 Water Supply 100.00 81.340 20.000 3878.00 81.034 220.87 43.762 37.272 Contractor Caarador Number Contact Name Contact Tale Name of Corroactor. Mate Extension Idress1 FAX Address Y Emal Address 3 WebSYa © M.E.P.CAD, Inc. ig AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:00:51PM Page 2 ":14R. Hydraulic GraphJob Number: 25SD6304 Report Description: Ordinary Group I Water Supply at Node 1 ann Pressure, psi D 0 0 0 0 0 0) 0 8 CO E 11111 11111iiii1111111!Il iii1111111iiiiiIllliiIIIiiiiiiiiiI11111 iiii 1111 111 11111 iiiliiiiiiiii Static Pressure 81.340 120.87 220.87 © 43.762 with hose streams Stern demand curve 78.00 @ 20.000 1 1111111111L1111111. I 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 I I I I I I I I I I I I I I I I I I I I I 1 1 1 1 u 0,50 1500 2250 3000 3750 4500 5250 6000 6750 7500 Water flow, gpm Hw Gh Water Supply at Node 1 str . Praau. 81.340 R..Wu.l Prem 20.000 @ 3878.00 Available Pmwre at Tyne of Teat 81.034 @ 220.87 System Owned 43.762 @ 120.87 pion Demand (ewosn. Wee AWwrce at sour.) • 43.762 @ 220.87 M.E.P.CAD, Inc. AutoSPRINK 2018 v14.3.10.0 7/1412019 4:00:53PM Page 3 Summary Of Outflowing Devices Job Number: 25SD6304 Report Description: Ordinary Group I Device Actual Flow (gpm) Minimum Flow (gpm) K -Factor (K) Pressure (psi) b Sprinkler 100 19.50 19.50 5.6 12.125 Sprinkler 101 19.71 19.50 5.6 12.391 Sprinkler 102 21.00 19.50 5.6 14.057 Sprinkler 103 19.65 19.50 5.6 12.306 Sprinkler 104 19.86 19.50 5.6 12.582 Sprinkler 105 21.16 19.50 5.6 14.271 c> Most Demanding Sprinkler Data i © M.E.P.CAD, Inc. ig AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:01:00PM Page 4 Node Analysis Job Number: 25SD6304 Report Description: Ordinary GrouD I Node Elevation(Foot) Fittings Pressure(psi) Discharge(gpm) 1 -4'-9 S 43.762 120.87 100 8'-11 Spr(-12.125) 12.125 19.50 101 9'-11 Spr(-12.391) 12.391 19.71 102 9'-11 Spr(-14.057) 14.057 21.00 103 8'-11 Spr(-12.306) 12.306 19.65 104 9'-11 Spr(-12.582) 12.582 19.86 105 9'-11 Spr(-14.271) 14.271 21.16 2 2'-0 PO(18'-9'/z) 41.050 3 3'-1'/2 BV(15'-9'/2) 40.456 4 4'-2'/2 39.919 5 25'-9 EE(5'-3) 29.998 6 25'-1 E(13'-2) 29.728 7 25'-9 E(9'-5) 29.585 8 25-1 EE(4'-0'/2) 29.206 9 9'-11 P0(4'-3%) 15.947 10 9'-11 PO(7'-1%) 16.644 11 9'-11 PO(7'-1'/2) 18.316 12 9'-11 PO(4'-3'/2) 16.188 13 12'-0 fE(4'-3'/2) 22.295 14 11'-3Y2 cplg(-1.363) 22.240 15 27'-1'% 25.739 16 25'-0 fE(4'-3'/2) 26.353 N [Aj © M.E.P.CAD, Inc. AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:01:02PM Page 5 Hydraulic Analysis Job Number: 25SD6304 Report Description: Ordinary Group I Pipe Type Diameter Flow Velocity HWC Friction Loss Length Eq. Length Total Length Pressure Summary Downstream Upstream Elevation Discharge K -Factor Pt Pn Fittings eat Route 1 _ 1.3800 19.50 4.18 100 0.045761 11'-0 Pf 0.699 100 8'-11 19.50 5.6 12.125 Sprinkler, 4'-3'% Pe -0.434 101 9'-11 12.391 2E(2'-1'/2) 15'-3'/2 Pv BL 1.3800 39.21 8.41 100 0.166633 10'-0 Pf 1.666 101 9'-11 19.71 5.6 12.391 Sprinkler Pe 102 9'-11 14.057 10'-0 Pv BL 1.3800 60.21 12.91 100 0.368378 0'-10 Pf 1.890 102 9'-11 21.00 5.6 14.057 Sprinkler, 4'-3'% Pe 9 9'-11 15.947 P0(4'-3%) 5'-1'/2 Pv BL 2.0670 60.21 5.76 100 0.051499 6-5 Pf 0.697 9 9'-11 15.947 7'-1'% Pe 10 9'-11 16.644 P0(7'-1 %) 13'-6'/2 Pv BL 2.0670 120.87 11.56 100 0.186955 1'-10 Pf 1.672 10 9'-11 60.66 16.644 Flow (q) from Route 2 7'-1'% Pe 11 9'-11 18.316 P0(7 -1%) 8'-11'/2 Pv CM 2.4690 120.87 8.10 100 0.078681 27'-10'% N 4.520 11 9'-11 18.316 12'-3 Pe -0.596 14 11'-3% 22.240 4fE(3'-1), cplg(-1.363) 40'-1'/2 Pv CM 2.4690 120.87 8.10 120 0.056154 2'-1'% Pf 0.362 14 11'-3'% 22.240 4'-3'% Pe -0.307 13 12'-0 22.295 E(4'-3+%) 6'-5'% Pv CM 2.4690 120.87 8.10 100 0.078681 90'-7'% Pf 9.694 13 12'-0 22.295 32'-7 Pe -5.636 16 25'-0 26.353 E(4'-3%), 2fE(3'-1), C(8'-6%), 2f 123'-2% Pv E(4'-3%), DPV, BV(5'-0) CM 2.6350 120.87 7.11 120 0.040903 3.-1% Pf 0.303 16 25'-0 26.353 4'-3'% Pe -0.917 15 27'-1'% 25.739 fE(4'-3'/2) 7'-5 Pv CM 3.2600 120.87 4.65 120 0.014507 89'-7 Pf 2.586 15 27'-1'% 25.739 88'-8 Pe 0.880 8 25'-1 29.206 2E(4'-11), fT(13'-0), 4E(9'-5), PO( 178'-3 Pv 20'-2), 2EE(4'-0%) `CM 4.2600 120.87 2.72 120 0.003942 119'-3'% Pf 0.522 8 25'-1 29.206 13'-2 Pe 6 25'-1 29.728 E(13'-2) 132'-5% Pv CM 3.2600 120.87 4.65 120 0.014507 0'-8 Pf 0.146 6 25'-1 29.728 9'-5 Pe -0.289 7 25'-9 29.585 E(9'-5) 10'-1 Pv CM 4.2600 120.87 2.72 120 0.003942 99'-7% Pf 0.414 7 25'-9 29.585 5'-3 Pe 5 25'-9 29.998 EE(5'-3) 104'-11 Pv FM 4.2600 120.87 2.72 100 0.005524 55'-2% Pf 0.584 5 25'-9 29.998 50'-6'/2 Pe 9.337 4 4'-2% 39.919 4E(9'-4'%) 2E(6'-6) 105'-9% Pv FR 4.2600 120.87 2.72 120 0.003942 1'-1 Pf 0.067 4 4'-2% 39.919 15-9% Pe 0.470 3 3'-1'% 40.456 2f(-0.000), BV(15'-9%) 16'-10'/2 Pv CM 4.2600 120.87 2.72 100 0.005524 1'-1'/2 Pf 0.110 3 3'-1% 40.456 18'-9'/2 Pe 0.484 2 2'-0 41.050 P0(18'-9%) 19'-10% Pv CM 4.2600 120.87 2.72 120 0.003942 13'-8 Pf -0.214 2 2'-0 41.050 15'-9'% Pe 2.926 1 -4'-9 43.762 BFP(-0.330), E(13'-2), PIV(2'-7% 29'-5'% Pv ), S 100.00 Hose Allowance At Source 1 220.87 ® Route 2 BL 1.3800 19.65 4.21 100 0.046393 11'-0 Pf 0.709 103 8'-11 19.65 5.6 12.306 Sprinkler, 4'-3'% Pe -0.434 104 9'-11 12.582 2E(2'-1%) 15'-3'/2 Pv 1L 1.3800 39.51 8.47 100 0.168970 10'-0 Pf 1.690 _ 104 9'-11 19.86 5.6 12.582 Sprinkler Pe 105 9'-11 14.271 10'-0 Pv BL 1.3800 60.66 13.01 100 0.373552 0'-10 Pf 1.916 105 9'-11 21.16 5.6 14.271 Sprinkler, 4'-3'% Pe 12 9'-11 16.188 PO(4'-3%,) 5'-1'%2 Pv M.E.P.CAD, Inc. AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:01:04PM Page 6 Hydraulic Analysis Job Number: 25SD6304 Report Description: Ordinary Group I Pipe Type Diameter Flow Velocity HWC Friction Loss Length Eq. Length Total Length Pressure Summary Downstream Elevation Discharge K -Factor Pt Pn Fittings Upstream BL 2.0670 60.66 5.80 100 0.052222 1'-7 7-1% 8'-9 Pf 0.456 Pe Pv 12 9'-11 68.32 16.188 Flow (q) from Route 1 10 9'-11 16.644 PO(7'-1'/a) Equivalent Pipe Lengths of Valves and Fittings (C=120 only) ` C Value Multiplier 4.87(Actual Inside Diameter Value Of C 100 130 140 150 Schedule 40 Steel Pipe Inside Diameter = Factor p MultiplyingFactor 0.713 1.16 1.33 1.51 Pipe Type Legend Units Legend Fittings Legend AO Arm -Over Diameter Inch ALV Alarm Valve BL Branch Line Elevation Foot AngV Angle Valve CM Cross Main Flow gpm b Bushing DN Drain Dtschar BalV Ball Valve DR Drop e m 9 gp BFP Backflow Preventer DY Dynamic Velocity fps BV Butterfly Valve FM Feed Main Pressure psi C Cross Flow Turn 90° FR Feed Riser Length Foot cplg Coupling MS Miscellaneous Friction Loss psi/Foot Cr Cross Run OR Outrigger HWC Hazen -Williams Constant CV Check Valve RN Riser Nipple Pt Total in DelV Deluge Valve SP Sprig pressure at a point a pipe DPV Dry Pipe Valve ST Stand Pipe Pn Normal pressure at a point in a pipe E 90° Elbow UG Underground Pf Pressure loss due to friction between points EE 45° Elbow Pe Pressure due to elevation difference points between indicated Eel 11',4 Elbow Ee2 22W Elbow Pv Velocity pressure at a point in a pipe f Flow Device fd Flex Drop FDC Fire Department Connection fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve PO Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Tum 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap , M.E.P.CAD, Inc. AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:01:04PM Page 7 EN Flow Diagram (Top View) I Job Number: 25SD6304 Report Description: Ordinary Group I fk, © M.E.P.CAD, Inc. 61AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:01:06PM Page 8 Sprinkler Legend Symbol SIN Quantity K Factor Type Size Response Orifice Finish Temperature Note O VK3001 6 5.6 Upright 1/ Quick '/2' Brass 155°F +97272 (46.0%) Total = 6 NEW DRY SPRINKLER PIPE NEW WET SPRINKLER PIPE EXISTING WET SPRINKLER PIPE EXISTING SPRINKLER HEADS HANGER CORRI C1( 1 • o00o4 4000000© • 00000°° O00Oa© Fire Prteai CLQ TELTIAINILAM7 ___.----_ TO NEW DRY SYSTEM 21/2" DRY VALVE VIC 768N FLEXIBLE COUPLING TOTAL DRY SYSTEM CAPACITY IS 35.17 GALLONS TANK MOUNTED COMPRESSOR. 3X2Y2 CONC REDUCER POINT OF CONNECTION 0 0 NEW MODULAR ADDITION UNDER SEPARATE PERMIT DRAIN PIPING TO BE FIELD COORDINATED DRY CANOPY PIPING SCALE: 1/8" = 1'-17 NEW DRY RISER SCALE: NTS ..tet... Supply Flow Test Data Static Pressure 61.340 Residual Prea.ure: 20.000 Flow 3678.00 Outside Hose Flaw 100.00 g 1.S 17:..TPl k•aAb.q -_ •R 1 qN. 4 • t...µ ' 0. - .0..a..>: • i T£ PLAN A.,a 1- • 4C' -r," ij •l�. Y.fi Y=f f31. A. r.s..a 6..0r., ..•: 4 t(....N Hydraulic In tion OCCUPANCY CLASSIFICATION kleryGreup1 DENSITY (tmadlt) 0.16 for 79000' (Acrid 266117 TOTAL HOSE STREAMS 700.00 DRY CAPACITY 77.46gal 1OTAL1EACS FLOWING6 TO "1" BEAM K.FACTOR 6.6 TOTAL WATER REQUIRED 220.87 TOTAL PRESSURE REQUIRED 43.762 BASE of RISER (gpa) 220.87 BASE of RISER (pal) 43.782 SAFELY MARGIN guy +97272 (46.0%) c4 peen-pwc, 1511 NININI®ENININEMAINEILIII INNIN INIIMIMnt +� 1111 'Il BR! IN��MItligr;ae®� !ININIIINIPEIMIN. 1111111111MI1l■MNIN N1IIuI pwIINI INRIIMIONNINIMMNIIIIMINIc IBLXIlllM IRINININIIIIINNINNININN11114111111MM Litilf PIIII•Pa1M M� alll1511 PA 1 >� -MINUalltaffiiiiiiaiang RUM= ..�LIMII,LW ;mania ,========:=13===1:z... lrallta:W(L•+N.YI =1:`i• a a 'r- z...sIill®ImIAssomJi11I■ I�...11 4I ��/�er::�i Rms. �allil ill�l111i11 I 1 • o • inigingsmareul�lolliiMi� ML4 lI ll►tilS'E ei I�JI IIMMONLE I�.ISI.mumuIi.riIN�.i( 101......I.A 11� IIMMIM �ii,rn ©1•ii♦��®II!!i'2i i ii ispois►wta�r.4t40-1;1111 i�mm� iih®®®unli • Immuliilif®zasiti1IIliiiiinmaim ■I�i®1®®N11111111111211011111111116111/11N1 EIN.�Na1E_1 EN �Il�lar�u�l��i 1 1�I�r� i � n�ll��x ii l>�1(+ i� � 1�1.1MON®NIt• I■ �i�IMMINI iN I.0. III•ii�N GRADE 2 111111111111111M -111P I 11®®® 3! U 111 ®IIII.11I 1 II ■INENIN � NIMIN 11111=® NOIIIBi® AIN®1®IM:�i f ■I��IIMMINNI IIS 1N� J�� Iiia IIIA®® 1L 1��iNI MMI INIMUNI �tf�NIIIN NI IlIW! I I -MEV : [11IVININ 1 SCOPE OF WORK 1. Provide new 2-1/2" schedule 40 heat traced (performed by others) pipe to tie the pre -designed fire sprinkler system in new portable unit to the existing 4" wet main. 2. Provide new metraflex fire loops w/ 4" of movement between the portable unit piping and new 2-1/2" connection piping. 3. Provide new dry system with upright sprinklers below new canopy. 4. Max head spacing 130 ordinary hazard 1 spaces. General Notes 1. All design and installation is in accordance with NFPA 13, 2019 2. All material and equipment to be new and UL and FM listed 3. Black Schedule 40 for 1 "pipe, schedule 40 for 1-1/4"- 6" pipe on all wet system piping and back schedule 40 piping for all dry system piping. 4. 1" Threaded pipe and fittings and 1-1/4"-6" grooved pipe and fittings. 5. Piping dimensions are cut length. 6. Hangers and method of hanging to be in accordance with NFPA 13 2019 7. Joining of pipe and fittings, threaded and welded shall be in accordance with NFPA 13 2019 8. Owner to provide adequate heat to prevent pipe from freezing in areas protected by wet pipe sprinkler system that is not protected by heat trace. BRACE TO STRUCTURE HANGER TO STRUCTURE 44C " FLEX COUP. P. FLEX COUP. FLEX COUP. Sl8 ATR SUPPORT LOOP SUPPORT LOOP HANGER AND BRACE REQUIRED ON BOTH SIDE OF METRAFLEX DRAIN PLUG METRA FLEX SEISMIC LOOP 111 0 TOP BEAM CLAMP 12 12 3 G2I0 G2O3 I GRADE 2 n GH !=1 sr= GRADE 2 G103 MECH PLATFORM DECK 24'-6" AFF EL -21050 oik SECOND FIN FLOOR 4/11 12'-6" AFF EL=1965O FIRST FIN FLOOR O -O" AFF EL=Ia.6.00 ELEVATION VIEW SCALE: NTS VICINITY MAP ACC Without Comments As Noted in Red Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau fnr conformance with current city standards. Accepwr o R b1 to errors and omissions which no ... . i.1 « '.t dations of adopce.c standards and -e;oons' )ilii. ' for the udequaay o . r'' if ~ :. -. = , , 1„ iesigner. Additions, 1;:..d; , .. . _ r.. > .. ; N. drawings ars:e . this date will vo' ew _;1w i't:ti :fr 1 require a resubmittal or ri vis& i LSI S 1'-> it^ - subsequent approv(7,1, Final acceptance is '> r..: ':. _ -est and Inspection by The Tukwila Eire Prevent`�!-t reau. Date: 7 ,a 9 -19 By: Fire Permit Number L: S - P1) To schedule ii.v..:ectiOfls Cali 206-575-4407 PAID Y.. 15 H19 x-0,2/0 TUKWILAFIRE 1566-- 21 0 4 S SCALE - 1/S' = 1'-0' 0001) 0000 C/1/l v v� 0000 0000 0000 O 0 O O 11111111111111 ===== 11111111111111111111112111111 N 2 W VD zo wi_gr 7400-) 002 Zoe 60M 2 U Cr.") > o 0Q. W LL u co mg o co D ID) 0.. Z 0 =tad`¢ =MY.t; G1 D g rn Ln r -I b c 0 10 0' 0 0 W In 0 0 v 3 0 z 0 v H 0 W H 0 z 0 Q 0 0 1- z 0 >. 0 W 1- 0 W F 3 N to or. �. 0 -1-a110 W __• a�3 t/ 310 WWW vU1 > Zig 1.11 witu g Im J a. Ca z a a °a W fZ' W G REVISIONS: APPD. NEV #1 DATE : JULY 14, 2019 SCALE : 1/5' = 11-D DRAWN BY : N RDDEWALD JOB NO.: 25506304 SHEET NO. FP 0.00 BEAM /.MOIST r. FIG. 828 1" FIG. SCH. 4L/.' `fFIG. 980 SWIVEL 40 PIPE 1I �p q� ?' FROM VERT. LONGITUDINAL TO "1" BEAM 111 0 TOP BEAM CLAMP 12 12 3 G2I0 G2O3 I GRADE 2 n GH !=1 sr= GRADE 2 G103 MECH PLATFORM DECK 24'-6" AFF EL -21050 oik SECOND FIN FLOOR 4/11 12'-6" AFF EL=1965O FIRST FIN FLOOR O -O" AFF EL=Ia.6.00 ELEVATION VIEW SCALE: NTS VICINITY MAP ACC Without Comments As Noted in Red Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau fnr conformance with current city standards. Accepwr o R b1 to errors and omissions which no ... . i.1 « '.t dations of adopce.c standards and -e;oons' )ilii. ' for the udequaay o . r'' if ~ :. -. = , , 1„ iesigner. Additions, 1;:..d; , .. . _ r.. > .. ; N. drawings ars:e . this date will vo' ew _;1w i't:ti :fr 1 require a resubmittal or ri vis& i LSI S 1'-> it^ - subsequent approv(7,1, Final acceptance is '> r..: ':. _ -est and Inspection by The Tukwila Eire Prevent`�!-t reau. Date: 7 ,a 9 -19 By: Fire Permit Number L: S - P1) To schedule ii.v..:ectiOfls Cali 206-575-4407 PAID Y.. 15 H19 x-0,2/0 TUKWILAFIRE 1566-- 21 0 4 S SCALE - 1/S' = 1'-0' 0001) 0000 C/1/l v v� 0000 0000 0000 O 0 O O 11111111111111 ===== 11111111111111111111112111111 N 2 W VD zo wi_gr 7400-) 002 Zoe 60M 2 U Cr.") > o 0Q. W LL u co mg o co D ID) 0.. Z 0 =tad`¢ =MY.t; G1 D g rn Ln r -I b c 0 10 0' 0 0 W In 0 0 v 3 0 z 0 v H 0 W H 0 z 0 Q 0 0 1- z 0 >. 0 W 1- 0 W F 3 N to or. �. 0 -1-a110 W __• a�3 t/ 310 WWW vU1 > Zig 1.11 witu g Im J a. Ca z a a °a W fZ' W G REVISIONS: APPD. NEV #1 DATE : JULY 14, 2019 SCALE : 1/5' = 11-D DRAWN BY : N RDDEWALD JOB NO.: 25506304 SHEET NO. FP 0.00 FIRE ALARM UPG DE & MODULAR CLASSROOM ADDITION AT TUKWILA ELEMENTARY SCHOOL 5939 149TH STREET TUKWILA, WASHINGTON 98168 FIRE ALARM SYSTEM INSTALLATION DRAWINGS C gy�pq..y4v: ,N. Without Comments ❑ As Noted in Red ❑ Per The Attached Letter Y-ese plans have been reviewed by The Tukwila Fire evention Bureau tOr conformance With current City ,andards. Acce1°r.�,;c . is subject to errors and nisslons which cc not authorize violations of adopted wndards and ord+nn !c s. The responsiollicy for the _dequacy of design , :ass totally with theaesigner. .dditions, deletions :;. a.:visions to these drawings after this date will void thz acceptance and will require a resubmittal of revised .'w ngs for subsequent approval. Final acceptance Is subjrcr to field test and Inspection by TheTukwila Fire Preventcn Bureau. Date: 7-2-3-) 9 NOTICE A complete, signed, Tukwila Fire Department Pre-test Certificate must be presented to the Inspector prior to. commencement of Acceptance Testing of any Fire Alarm and Detection Systems. Failure of test will result in a Re -inspection Fee and termination of the testing Uptown Transit co Fire Permit Number Tosc: call L x,.06iu-575-x 407 -4" MIN - S 149th St 5939 South 149th Street VICINITY MAP SCALE: NTS A/C SUPPLY OR RETURN DIFFUSER 4" MIN 12" MAX TWISTED PAIR WIRE B+ B - ADDRESS DIAL ON BACK OF DETECTOR ,ti 0 0° .512441 00 SAY. 0 4`\\�.YyI (SET AS INDICATED ON PLANS) FSP -951 - FSH -951 DETECTOR INSTALLED ON B300-6 BASE EVER HERE Up S 149th PI NOTE: MEASUREMENTS SHOWN ARE TO THE CLOSEST POINT OF DETECTOR '`-CEILING-MOUNTED jI —I 36" MIN. i— HEAT DETECTOR AUDIBLE/VISUAL 6" MIN. AND/OR VISUAL ONLY APPLIANCE �a WALL -MOUNTED HEAT DETECTOR 80"-96" TO LOWEST PART OF LENS 90" MIN. WHERE CEILING HEIGHT ALLOWS AUDIBLE -ONLY APPLIANCES WALL -MOUNTED CEILING MOUNTED SMOKE DETECTOR SMOKE/HEAT DETECTOR MANUAL PULLI-5' MAX.— STATION 42"-48" i DOOR WIDTH —LESS 3'=I 6 MAGNETIC E DOOR HOLDER 2" MAX SIDE WALL "-FINISHED WALL FINISHED FLOOR ,,,,,,,,,,,,,,,,, FIRE ALARM DEVICE MOUNTING HEIGHTS SCALE: NOT TO SCALE SIGNALING LINE CIRCUIT B+ B - ADDRESSABLE DETECTOR WIRING DETAIL SCHEMATIC: NO SCALE REMOTE ANNUNCIATOR CAUTION: DO NOT LOOP WIRE UNDER TERMINAL 1 OR 2. BREAK WIRE RUN TO PROVIDE SUPERVISION OF CONNECTIONS. 6" DETECTOR BASE WIRING DETAIL SCHEMATIC: NO SCALE FROM: FACP, NAC POWER, OR PREVIOUS DEVICE CANDELA SELECT WALL MOUNTED CEILING MOUNTED CANDELA SELECT TO: NEXT DEVICE OR EOL TYPICAL L SERIES NOTIFICATION DEVICE WIRING DIAGRAM SCHEMATIC: NO SCALE IN OUT CORRECT IN FIRE ALARM SYMBOL LEGEND NOTE: ALL SYMBOLS MAY NOT BE USED ON THIS PROJECT SYMBOL - DESCRIPTION QTY MANUF. & PART # MOUNTING MOUNT IN TRANSMIT WATERFLOW SIGNAL CABINET, CHASSIS, DOOR, PANELS 1 NOTIFIER - SBB-C4 CABINET TOP @ 6'-2" NOTIFIER - SBB-C4 WITH , DP -1B, BP2-4 DR -C4, BMP1 FIRE ALARM CONTROL PANEL 1 NOTIFIER - CPU2-3030 IN FACP CABINET IN FACP CABINET UDACT DIALER 1 NOTIFIER - UDACT2 IN FACP CABINET IN FACP CABINET AUXILIARY POWER SUPPLY 1 NOTIFIER - AMPS24 IN FACP CABINET IN FACP CABINET WHERE REQUIRED FACP LOOP CONTROL MODULE (SLC1) 1 NOTIFIER - LCM-320 IN FACP CABINET IN FACP CABINET LOOP EXPANDER MODULE (SLC1) 2 NOTIFIER - LEM-320 IN FACP CABINET IN FACP CABINET NETWORK CONTROL ANNUNCIATOR 1 NOTIFIER - NCA -2 IN FACP CABINET IN FACP CABINET BATT BATTERY BOX 1 NOTIFIER - BB -55 FIELD VERIFY HOUSING INCLUDED AMPSi REMOTE POWER SUPPLY (EXISTING) E NOTIFIER - FCPS-24S8 CABINET TOP © 6'-2" IN AMPS CABINET MEE REMOTE POWER SUPPLY (EXISTING) E NOTIFIER - FCPS-24S8 CABINET TOP © 6'-2" IN AMPS CABINET .Ma REMOTE POWER SUPPLY (EXISTING) E NOTIFIER - FCPS-24S8 CABINET TOP ® 6'-2" IN AMPS CABINET MC REMOTE POWER SUPPLY (EXISTING) E NOTIFIER - FCPS-24S8 .CABINET TOP 0 6'-2" IN AMPS CABINET ME REMOTE POWER SUPPLY 1 NOTIFIER - FCPS-24S8 CABINET TOP ee 6'-2" IN AMPS CABINET 02 SMOKE DETECTOR 2NOTIFIER 1 - FSP -951 CEILING 4 SQ. DEEP W/ MUD RING - MOUNTED FLUSH CM CONTROL MODULE 1 NOTIFIER - FCM-1 FIELD VERIFY 4 SQ. DEEP - MOUNTED FLUSH E< HORN STROBE WALL MOUNTED 2 NOTIFIER - P2RL WALL ® 80-96" 4 SQ. DEEP W/ 4 SQ. SINGLE GANG MUD RING - MOUNTED FLUSH ABBREVIATION DESCRIPTION ABBREVIATION DESCRIPTION O DEVICE ADDRESS C L1D100 OR L1M100 b -OTES DENOTES LDETECTOROOP0) (D or M -DENMODULE) E EXISTING AWG AMERICAN WIRE GAUGE G WITH GUARD / PROTECTIVE COVER TWP TWISTED PAIR P PENDENT MOUNT TWSP TWISTED SHIELDED PAIR R RESIDENTIAL (110V) FPLP FIRE POWER LIMITED PLENUM 1- 14 22 TWPWP S SOUNDER BASE FPLR FIRE POWER. LIMITED RISER WIRE TYPE ABBREVIATED WP WEATHERPROOF SPQ — ,C SPEAKERS 2W WATTAGE TAP SETTING �— CONDUCTOR COUNT (0) Le- STROBE �. EOL END OF UNE RESISTOR WIRE SIZE (F OMI1 3w 75. CANDELA 30 I, SETTING EOLR END OF UNE RELAY ONLY BLES :7-- 5 OPERATIONS MATRIX it I— 0 a Q w c FIRE ALARM INPUT EL: ACTIVATE ALARM INDICATOR ACTIVATE AUDIBLE ALARM ACTIVATE SUPERVISORY INDICATOR ACTIVATE AUDIBLE SUPERVISORY SIGNAL ACTIVATE TROUBLE INDICATOR ACTIVATE AUDIBLE TROUBLE INDICATOR TRANSMIT WATERFLOW SIGNAL TRANSMIT ALARM SIGNAL TRANSMIT SUPERVISORY SIGNAL TRANSMIT TROUBLE SIGNAL ACTIVATE ALTERNATE ELEVATOR RECALL ACTIVATE PRIMARY RECALL ACTIVATE ELEVATOR SHUNT ACTIVATE FIREMAN'S HAT ACTIVATE NOTIFlCATION APPLIANCES RELEASE EGRESS MAGLOCKS/UNLOCK EXITS RELEASE MAGNETICALLY HELD SMOKE DOORS CLOSE SMOKE/FIRE DAMPERS IN RATED WALLS SHUTDOWN AIR HANDLERS IN EXCESS OF 2,000 CFM SMOKE DETECTORS HEAT DETECTORS DUCT DETECTORS PULL STATIONS PRIMARY RECALL FLR, ELEV LOBBY SMOKE DET ALTERNATE RECALL FLR, ELEV LOBBY SMOKE DET TOP OF ELEV SHAFT SMOKE DET ELEVATOR EQUIPMENT ROOM SMOKE DET ELEVATOR EQUIPMENT ROOM HEAT DET TOP OF ELEV SHAFT HEAT DET WATERFLOW SWITCHES 0 0 0 VALVE SUPERVISORY SWITCHES - LOW TEMPERATURE SWITCHES FIRE ALARM AC POWER FAIL FIRE ALARM LOW BATTERY OPEN CIRCUIT GROUND FAULT 0 0 0 - NAC SHORT CIRCUIT LOSS OF AC TO BUILDING IN :-_..._ OUT CORRECT OUT IN OUT INCORRECT WHEN INSTALLING DEVICES, CONDUCTORS SHALL NOT BE SPLICED. SPLICES OR CONNECTIONS SHALL OCCUR ONLY AT DEVICES OR APPLIANCES. WIRING METHODS SCHEMATIC: NO SCALE 1-#16/2 TWP EXISTING SLC3 5 #14/2 AWG MODULAR CLASSROOM SMOKE DETECTORS Q Q Q 02 D— EXISTING SLC3 FCPS-24S8 POWER -TRS. SUPPLY CM— f OUT IN AUX AMPS5 1I 00000 .riv ., BATTERY I BATTERY} MODULAR CLASSROOM NAC 75 75 EOL g< E< \AAA, #14/2 AWG AMPS1 E #14/2 AWG EXISTING \-14 EXISTING AWG NO CONDUIT IN BOTTOM OF CAN 120 VAC DEDICATED CKT. LIGHTNING ARRESTOR EOL MA& 102 FIRE ALARM RISER DIAGRAM SCHEMATIC: NO SCALE E E GENERAL NOTES: 1. SCOPE OF WORK: THIS PROJECT SHALL INCLUDE: REMOVAL OF EXISTING FIRE ALARM CONTROL PANEL HEAD END AND REPLACE WITH NEW ADDRESSABLE FIRE ALARM CONTROL PANEL. EXISTING CIRCUITING AND SLC DEVICES SHALL REMAIN COMPATIBLE WITH NEW FACP. CONNECT EXISTING CIRCUITS TO NEW FACP. INSTALL NEW POWER SUPPLY NEXT TO FACP TO POWER NEW HORNS IN MODULAR CLASSROOMS AND TRIGGER EXISTING POWER SUPPLIES. REMOVE AND REPLACE ALL NOTIFICATION APPLIANCES THROUGHT BUILDING REUSE ALL EXISTING POWER SUPPLIES, WIRING AND BACK BOXES. PROVIDE AND INSTALL NEW WIRING AND DEVICES IN NEW MODULAR CLASSROOM BUILDING. CONNECT SMOKE DETECTORS TO NEAREST EXISTING CIRCUIT. FIELD VERIFY AND MAINTAIN EXISTING WIRING, CIRCUITING, AND WIRE STYLE. 2. THESE DRAWINGS ARE DIAGRAMMATIC. REFER TO THE ARCHITECTURAL DRAWINGS FOR EXACT DIMENSIONS. 3. INSTALLATION SHALL COMPLY WITH NEC, NFPA 72 AND ALL OTHER APPLICABLE CODES AS REQUIRED BY THE LOCAL AUTHORITY HAVING JURISDICTION. 4. WIRING DEPICTED ON THESE PLANS IS SCHEMATIC - ACTUAL WIRE LOCATIONS MAY DIFFER FROM THESE PLANS. WIRING SHALL BE PERFORMED AS ACTUAL BUILDING CONSTRUCTION CONDITIONS ALLOW AND TO MINIMIZE PENETRATIONS THROUGH AREA SEPARATION WALLS AND FIRE WALLS. THE USE OF A RACEWAY IS PERMITTED AS LONG AS NO 110V OR HIGHER VOLTAGE CABLES ARE IN THE SAME RACEWAY. 5. FIRE RATINGS SHALL BE MAINTAINED FOR ALL PENETRATIONS THROUGH FIRE -RATED CONSTRUCTION. 6. POWER FOR ALL FIRE ALARM PANELS AND FIRE ALARM POWER SUPPLIES MUST BE PROVIDED BY A DEDICATED AC BRANCH CIRCUIT. THE LOCATION OF THE BRANCH CIRCUIT BREAKER SHALL BE PERMANENTLY IDENTIFIED AT THE CONTROL UNIT AND SHALL HAVE A RED MARKING IN ACCORDANCE WITH NFPA 72. 7. POWER -LIMITED AND NONPOWER -LIMITED CIRCUIT WIRING MUST REMAIN SEPARATED IN CABINET. ALL POWER -LIMITED CIRCUIT WIRING MUST REMAIN AT LEAST 0.25" AWAY FROM ANY NONPOWER -LIMITED CIRCUIT WIRING. FURTHERMORE, ALL POWER -LIMITED AND NONPOWER -LIMITED CIRCUIT WIRING MUST ENTER AND EXIT THE CABINET THROUGH DIFFERENT KNOCK OUTS AND/OR SEPARATE CONDUITS. 8. WHEN UTILIZING CLASS "A" CIRCUITS, SEPARATE OUTGOING AND RETURN CONDUCTORS OF CLASS "A" CIRCUITS BY A MINIMUM OF 12" WHERE RUN VERTICALLY AND 48" WHERE RUN HORIZONTALLY. 9. WHEN UTILIZING SHIELDED CABLE TIE SHIELDS THROUGH AND INSULATE AT EACH JUNCTION BOX. INSULATE AND TAPE BACK AT END. 10. ALL FIRE ALARM CABLING SHALL BE ACCEPTABLE TO THE FIRE ALARM EQUIPMENT MANUFACTURER FOR THE INTENDED PURPOSE. 11. SMOKE DETECTORS SHALL NOT BE INSTALLED UNTIL AFTER CONSTRUCTION CLEAN-UP IS COMPLETED AND FINAL. 12. LOCATE SMOKE DETECTORS A MINIMUM OF THREE (3) FEET FROM MECHANICAL DIFFUSERS. WALL -MOUNTED SMOKE DETECTORS SHALL BE LOCATED A MINIMUM OF 4" AND A MAXIMUM OF 12" FROM CEILING. 13. PROVIDE SYNCHRONIZATION OF ALL VISUAL NOTIFICATION APPLIANCE CIRCUITS. PROVIDE ALL REQUIRED SYNC MODULES. PROVIDE A MULTI -SYNC MODE SLAVE CONNECTION BETWEEN ALL SYNC MODULES. 14. VERIFY ALL FIELD SELECTABLE AUDIBILITY SETTINGS OF NOTIFICATION APPLIANCES WITH FIRE ALARM CONTRACTOR. 15. UPON COMPLETION OF THE FIRE ALARM SYSTEM INSTALLATION AND PROGRAMMING, THE INSTALLING CONTRACTOR SHALL PERFORM FINAL TESTING OF THE ENTIRE SYSTEM, PER ALL APPLICABLE CODES, AND SHALL COORDINATE AND PERFORM A FINAL FIRE ALARM SYSTEM INSPECTION. 16. PROVIDE OFF-SITE MONITORING AS REQUIRED BY THE INTERNATIONAL FIRE CODE, SECTION 907.6.5 AND THE LOCAL AUTHORITY HAVING JURISDICTION. 17. INSTALLING CONTRACTOR SHALL, PHYSICALLY, LABEL ALL INITIATING DEVICES AND NOTIFICATION APPLIANCE CIRCUIT END OF LINE (WHEN WIRING CLASS "B"). THESE LABELS SHALL BE IN PLACE PRIOR TO START-UP AND TESTING. FIRE ALARM SHEET INDEX PAGE FA -1 FIRE ALARM LEGEND, MATRIX, DETAILS, INDEX, RISER 1 FA -2' FIRE ALARM PLAN 2 FA -3 FIRE ALARM BATTERY CALCULATIONS 3 CIRCUIT LEGEND CALLOUT EXAMPLE CIRCUIT TYPE WIRE TYPE & QTY CLASS s -C NOTIFICATION CKT. #14/2 AWG SOLID FIRE RATED CLASS B i e -D SIGNAL LINE CKT. #16/2 AWG TWISTED PAIR SOLID FIRE RATED CLASS B PAID 13 2O1 TU`,'':'!-_. FIRE 3 j .1111, NICET III Fire Alarm Systems Cory W. Hews ET/ Signature Date: 7/10919 Fire Protection Engineering Technology Fire Alarm Systems Cert. No. 112381 Exp 12/1/2019 shop drawings created by. Inc. 5794 W. 4800 So.uNioAD Hooper, UT 84315 Office: 801.985.0410 www.unicod.net w 0 DESCRIPTION ISSUED FOR REVIEW & APPROVAL z 0 C F7iz TUKWILA ELEMENTARY SCHOOL 5939 149TH STREET TUKWILA, WA 98168 FIRE ALARM LEGEND, MATRIX, DETAILS, INDEX, RISER DRAWN CORY W. HAWS UNICAD JOB #19296 CHECKED CORY W. HAWS NICET III 112381 DATE 7/10/2019 REVISION 0 SCALE 1/8"=1'-O" FA -1 MECH/ELECT FIRE ALARM PLAN SCALE: 1/8"=1'--0" 0 4' 8' 16' SLC CKT3. CTD. FROM NAC CKT. CTD. FROM 75 EXISTING SLC CKT. NEW POWER SUPPLY IN ELECTRICAL RM BY FACP c SLC CKT3. CTD. TO EXISTING SLC CKT. MODULAR CLASSROOM MODULAR CLASSROOM MODULAR CLASSROOM FIRE ALARM PLAN SCALE: 1/8"=1'-0" SHEET NOTES: Qi EXISTING FIRE ALARM CONTROL PANEL TO BE REMOVED AND UPGRADED WITH NEW ADDRESSABLE FIRE ALARM CONTROL PANEL. EXISTING SLC DEVICES SHALL BE COMPATAIBLE WITH NEW FIRE ALARM CONTROL PANEL HEAD END UNIT. FIELD VERIFY LOCATION(S) AND DEVICE ADDRESSES OF EXISTING DEVICES. Q PROVIDE AND INSTALL INITIATING DEVICE(S). CONNECT NEW DEVICE(S) TO NEAREST EXISTING SLC. INSTALLING CONTRACTOR SHALL FIELD VERIFY EXISTING CIRCUIT. MAINTAIN EXISTING WIRE STYLE. CLASS, AND SUPERVISION. <> PROVIDE AND INSTALL NOTIFICATION APPLIANCE(S). CONNECT CIRCUIT FOR NEW DEVICES NEW FIRE ALARM POWER SUPPLY LOCATED IN ELECTRICAL ROOM NEXT TO FIRE ALARM CONTROL PANEL. 0 4' 8' 16' FIRST FLOOR FIRE ALARM PLAN SCALE: 1/16"=1' —0" 0 8' 16' 32' Cory W. Firs ET / Signature Date: 7/10/2019 Fire Protection Engineering Technology Fire Alarm Systems Cert. No. 112381 Exp 12/1/2019 shop drawings created by: 5794 W. 4600 So. Hooper, UT 84315 Office: 801.985.0410 www.unicad.net W DESCRIPTION ISSUED FOR REVIEW & APPROVAL z 0 t>_A O > 3 C,) z 0 W LL Q V 0 J 2 CD2 J W J CD C/) TUKWILA ELEMENTARY SCHOOL 5939 149TH STREET TUKWILA, WA 98168 FIRE ALARM PLAN DRAWN CORY W. HAWS UNICAD JOB #19296 CHECKED CORY W. HAWS NICET III 112381 DATE 7/10/2019 REVISION 0 SCALE 1 /8"=1'-0" FA -2 AMPS1 BATTERY PROJECT NAME: Required Standby Time: Required Alarm Time: CALCULATION 7/10/2019 TUKWILA ELEM 24 5 Hours Minutes AC Branch Current AC Branch Current: Amps 0 120V Regulated Load in Standby Device Type Number of Devices x 0.00000 = 0.00000 Current (Amps) x 0.13000 = 0.13000 Total Current (Amps) FCPS-24 MAIN CKT BOARD 1 X 0.06500 = 0.06500 TOTAL STANDBY LOAD 0.06500 Regulated Load in ALARM Device Type Number of Devices 2 Current (Amps) x 0.10000 = 0.20000 Total Current (Amps) FCPS-24 MAIN CKT BOARD AMPS1-1 (See Voltage Drop Calculations) AMPS1-2 (See Voltage Drop Calculations) AMPS1-3 (See Voltage Drop Calculations) AMPS1-4 (See Voltage Drop Calculations) 1 1 1 1 1 X X X X X 0.14500 0.376000 0.987000 0.449000 0.566000 = = = = = 0.14500 0.376000 0.987000 0.449000 0.566000 TOTAL ALARM LOAD 2.52300 Battery Requirements Standby Load Required Standby Time in Hours Current (Amps) 0.06500 X 24.00000 = 1.56000 Alarm Load Required Alarm Time in Hours Current (Amps) 2.52300 X 0.08333 = 0.21025 Total Ampere Hours (before derating factor) 1.77025 Derating Factor X 1.2 TOTAL AMPERE HOURS REQUIRED = 2.12430 BATTERIES TO BE PROVIDED (1 - 12v) 7 All Notifier NFS2-3030 Fire Alarm Control Panel Protected Premises: TUKWILA ELEMENTARY Address: 5939 149TH STREET Date: 7/1 0/201 9 City. TU KWI LA State: WASHINGTON Zip: 9 81 68 Prepared By. C HAWS Phone: 801-710-9959 Address: 5794 W 4600 S Email: CORYCcaUNICAD.NET City. HOOPER State: UTAH Zip: 84315 Clear Project Information AC Branch Current Requirements Current required by source to power the fire alarm system. 5.00 AMPS 120 VAC Check I Primary Standby Load Current load on the primary power supply during non -alarm conditions. Primary Alarm Load Current load on the primary power supply during alarm conditions. 1.70 1.74 Amps Amps p Check I Check Secondary Load Requirements 44.29^ Total Secondary Load from the calculation table below. Amp Hours Check Current Draw Secondary Standby Load 1.532 A Secondary Alarm Load 1.667 A x x Time (hours Tota AH Required Standby Time 24 hours 36.77 Required Alarm Time 0.084 hours Total Seconda Load t; USA t" Canada Derating factor Seconda Load Requirements 0.14 36.91 x 1.2 44.29 Battery Selection Select batteries from the list below. 55 55 AH BAT -12550 Battery(1 2 volt) r: Two r Four (two 12VDC sets in parallel) Amp Hours Check I AH Battery Distribution Chart Shows amp -hour distribution of your selections. Secondary Alarm Load 0% Spare Battery Capacity 20% e9 Spare Battery Capacity o Secondary Standby Wad Secondary Alarm Load Comments 1. Battery size exceeds FACPcapacity. BB -55 or other external battery box 2. Selected battery size meets secondary load requirements. 3. The selected batteries (55AH) are within the charger range of this power supply(12-60AH). Spare Battery Capacity 10.71 Battery Selection (AH) -Secondary Load Requirements (AH) Secondary Standby Load 44.12 Secondary Standby Load (AH)"Derating Factor Secondary Alarm Load 0.17 Secondary Alarm Load (AH) "Derating Factor l NOTIFIER& by Honeywell NFS2-3030 device Qty Fire Alarm Control current draw] =total current Primary Non -Alarm x 0.12000 = 0.12000 CC Tarte [)[,31.':l Panel draw per device (in amps) ; Primary Alarm ;; x 0.12000 = 0.12000 Secondary Non -Alarm x 0.12000 = 0.12000 Quantity x Part Number CPU 2-3030 1 AMPS -24 1 x 0.00000 = 0.00000 x 0.00000 = 0.00000 x 0.13000 = 0.13000 1 0. - : ac ig • ' with oss o , ' 1 x [0.40000] = 0.40000 x [0.40000] = 0.40000 x [020000] = 0.20000 LCM-320 1 x [0.13000] = 0.13000 x [0.13000] = 0.13000 x [0.13000] = 0.13000 LEM-320 2 x 0.10000 = 0.20000 x 0.10000 = 0.20000 x 0.10000 = 0.20000 S LC Dev ice Activation Current 3 x 0.20000 =0.60000 x 0.20000 =0.60000 x 0.20000 =0.60000 FCPS-24S6 Power Su • • lies 5 x 0.00000 = 0.00000 x 0.00000 = 0.00000 x 0.00000 = 0.00000 LCD -80, LCD-80TM 2 x 0.10000 =020000 x 0.10000 = 0.20000 x 0.05000 = 0.10000 UDACT-2 Communicator 1 x 0.05200 =0.05200 x 0.08700 =0.08700 x 0.05200 =0.05200 Tota[ (Amperes): Part Number 1 Qty 1 1.7020 A 1.7370 A 1.5320 A , Alarm Secondary x [1.73700] =1.73700 System Sensor P2RL 15 0.054 Total Primary Alarm Load - C2 AMPS -24 1 x 0.13000 =0.13000 NCA2 - Backli • ht Off with loss of AC 1 x -0.20000 = -0.20000 1.6670 A Total (Amperes): AMPS2 BATTERY PROJECT NAME: Required Standby Time: Required Alarm Time: CALCULATION 7/10/2019 TUKWILA ELEM 24 5 Hours Minutes AC Branch Current AC Branch Current: Amps 0 120V ( Regulated Load in Standby Device Type Number of Devices . Nominal System Voltage Current (Amps) volts Wire Total Current (Amps) FCPS-24 MAIN CKT BOARD 1 X 0.06500 = 0.06500 TOTAL STANDBY LOAD 0.06500 Regulated Load in ALARM I Device Type Number of Devices 14 Current (Amps) Total Circuit Current Total Current (Amps) FCPS-24 MAIN CKT BOARD AMPS2-1 (See Voltage Drop Calculations) AMPS2-2 (See Voltage Drop Calculations) AMPS2-3 (See Voltage Drop Calculations) AMPS2-4 (See Voltage Drop Calculations) _ 1 1 1 1 1 X X X X X 0.14500 0.972000 1.077000 0.652000 0.945000 = = = = = 0.14500 0.972000 1.077000 0.652000 0.945000 1 TOTAL ALARM LOAD 3.79100 Battery Requirements Standby Load Required Standby Time in Hours Current (Amps) 0.06500 X 24.00000 = 1.56000. Alarm Load ' Required Alarm Time in Hours Current (Amps) 3.79100 X 0.08333 = 0.31592 Total Ampere Hours (before derating factor) 1.87592 Derating Factor X 1.2 TOTAL AMPERE HOURS REQUIRED = 2.25110 BATTERIES TO BE PROVIDED (1 - 12v) 7 AH Point to Point NAC Voltage Drop Calculation 7/10/2019 1 24 5 Hours Minutes Project Name I Name TUKWILA ELEM Circuit Number Circuit Number I Ckt # AMPS1-1 Nominal System Voltage Nominal System Voltage volts Wire volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 1 3.00 amps 14 3.07 Total Circuit Current 0.376 amps 1 1 1 1 1 Total Circuit Distance Total Circuit Distance 500.00 feet End of Line Voltage End of Line Voltage 19.25 volts Total Voltage Drop Total Voltage Drop 1.15 volts Percent Voltage Drop Percent Voltage Drop 5.66% 1 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Notes: Manufacturer Model Candela Manufacturer Model Candela Current Quantity Subtotal System Sensor P2RL 15 0.054 System Sensor P2RL 15 0.054 1 0.054 System Sensor P2RL 75 0.121 System Sensor P2RL 75 0.121 2 0.242 System Sensor SRL 15 0.043 System Sensor SRL 30 0.063 1 0.063 System Sensor SRL 30 0.063 System Sensor MDLW , - 0.017 1 0.017 System Sensor MDLW ' - 0.017 Total Current 0.376 0.017 Notes: i Total Current 0.987 Wire resistance is doubled in the calculations for two wires (Positive and Negative). Notes: The voltage calculated to the last device must not be lower than the manufactures listed Wire resistance is doubled in the calculations for two wires (Positive and Negative). minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). The voltage calculated to the last device must not be lower than the manufactures listed Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM Name TUKWILA ELEM Circuit Number Ckt # AMPS1-2 Ckt # AMPS1-3 Nominal System Voltage Nominal System Voltage volts Wire Resistance 20.4, Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 0 3.07 Total Circuit Current 0.987 amps amps 1 1 1 1 1 Total Circuit Distance 500.00 feet feet End of Line Voltage 17.37 volts volts Total Voltage Drop 3.03 volts volts Percent Voltage Drop 14.85% 6.76% 1 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Notes: Manufacturer Model Candela Current Quantity Subtotal Subtotal System Sensor P2RL 15 0.054 5 0.27 0.27 System Sensor P2RL 75 0.121 1 0.121 0.162 System Sensor SRL 15 0.043 12 0.516 0.017 System Sensor SRL 30 0.063 1 0.063 Notes: System Sensor MDLW ' - 0.017 1 0.017 The voltage calculated to the last device must not be lower than the manufactures listed i Total Current 0.987 minimum operating voltage (lE: rated operating voltage 16-33 VDC (24 VDC nominal)). Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (lE: rated operating voltage 10-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 I 24 5 Hours Minutes Project Name Name TUKWILA ELEM Circuit Number Circuit Number I Ckt # AMPS1-3 Nominal System Voltage Nominal System Voltage volts Wire volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.449 amps 1 1 1 1 1 Total Circuit Distance Total Circuit Distance 500.00 feet End of Line Voltage End of Line Voltage 19.02 volts Total Voltage Drop Total Voltage Drop 1.38 volts Percent Voltage Drop Percent Voltage Drop 6.76% 1 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Notes: Manufacturer Model Candela Manufacturer Model Candela Current Quantity Subtotal 0.216 System Sensor P2RL ' 15 0.054 5 0.27 0.121 System Sensor P2RL 110 0.162 1 0.162 0.086 System Sensor MDLW - 0.017 1 0.017 0.126 Total Current 0.449 System Sensor MDLW ' - 0.017 Notes: 0.017 Wire resistance is doubled in the calculations for two wires (Positive and Negative). Total Current 0.566 The voltage calculated to the last device must not be lower than the manufactures listed Notes: minimum operating voltage (lE: rated operating voltage 16-33 VDC (24 VDC nominal)). Wire resistance is doubled in the calculations for two wires (Positive and Negative). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS1-4 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current3.00 Regulated Load in ALARM amps 14 3.07 Total Circuit Current 0.566 amps FCPS-24 MAIN CKT BOARD AMPS3-1 (See Voltage Drop Calculations) AMPS3-2 (See Voltage Drop Calculations) AMPS3-3 (See Voltage Drop Calculations) AMPS3-4 (See Voltage Drop Calculations) 1 1 1 1 1 Total Circuit Distance 500.00 feet 0.14500 0.870000 0.434000 0.658000 0.837000 End of Line Voltage 18.66 volts Alarm Load Required Alarm Time in Hours Current (Amps) 2.94400 X 0.08333 = 0.24533 Total Voltage Drop 1.74 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 8.52% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal Quantity System Sensor P2RL 15 0.054 4 0.216 2 System Sensor P2RL 75 0.121 1 0.121 7 System Sensor SRL 15 0.043 2 0.086 1 System Sensor SRL 30 0.063 2 0.126 1 System Sensor MDLW ' - 0.017 1 0.017 Total Current 0.566 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). AMPS3 BATTERY PROJECT NAME: Required Standby Time: Required Alarm Time: _ CALCULATION 7/10/2019 TUKWILA ELEM 24 5 Hours Minutes AC Branch Current AC Branch Current: Amps 0 120V Regulated Load in Standby Device Type Number of Devices Nominal System Voltage Current (Amps) volts Wire Total Current (Amps) FCPS-24 MAIN CKT BOARD 1 X 0.06500 = 0.06500 TOTAL STANDBY LOAD 0.06500 Regulated Load in ALARM Device Type Number of Devices 3.07 Current (Amps) 0.972 Total Current (Amps) FCPS-24 MAIN CKT BOARD AMPS3-1 (See Voltage Drop Calculations) AMPS3-2 (See Voltage Drop Calculations) AMPS3-3 (See Voltage Drop Calculations) AMPS3-4 (See Voltage Drop Calculations) 1 1 1 1 1 X X X X X 0.14500 0.870000 0.434000 0.658000 0.837000 = = = = = 0.14500 0.870000 0.434000 0.658000 0.837000 TOTAL ALARM LOAD 2.94400 Battery Requirements Standby Load Required Standby Time in Hours Current (Amps) 0.06500 X 24.00000 = 1.56000 Alarm Load Required Alarm Time in Hours Current (Amps) 2.94400 X 0.08333 = 0.24533 Total Ampere Hours (before derating factor) 1.80533 Derating Factor X 1.2 TOTAL AMPERE HOURS REQUIRED = 2.16640 BATTERIES TO BE PROVIDED (1 - 12v) 7 Al! Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS2-1 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.972 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.622000 0.838000 0.542000 0.000000 End of Line Voltage 17.42 volts Alarm Load Required Alarm Time in Hours Current (Amps) 2.14700 X 0.08333 = 0.17892 Total Voltage Drop 2.98 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 14.63% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 15 0.054 2 0.108 2 System Sensor P2RL 75 0.121 7 0.847 1 System Sensor MDLW - 0.017 1 0.017 3 Total Current 0.972 1 Notes: 1 Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS2-2 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau•e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 1.077 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.622000 0.838000 0.542000 0.000000 End of Line Voltage 17.09 volts Alarm Load Required Alarm Time in Hours Current (Amps) 2.14700 X 0.08333 = 0.17892 Total Voltage Drop 3.31 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 16.21% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 15 0.054 3 0.162 2 System Sensor P2RL 75 0.121 3 0.363 1 System Sensor SRL 75 0.107 5 0.535 3 System Sensor MDLW - 0.017 1 0.017 1 Total Current 1.077 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS2-3 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau•e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.652 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.622000 0.838000 0.542000 0.000000 End of Line Voltage 18.40 volts Alarm Load Required Alarm Time in Hours Current (Amps) 2.14700 X 0.08333 = 0.17892 Total Voltage Drop 2.00 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 9.81% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 15 0.054 2 0.108 2 System Sensor P2RL 75 0.121 4 0.484 1 System Sensor SRL 15 0.043 1 0.043 3 System Sensor MDLW - 0.017 1 0.017 1 Total Current 0.652 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS2-4 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.945 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.622000 0.838000 0.542000 0.000000 End of Line Voltage 17.50 volts Alarm Load Required Alarm Time in Hours Current (Amps) 2.14700 X 0.08333 = 0.17892 Total Voltage Drop 2.90 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 14.22% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 15 0.054 2 0.108 2 System Sensor P2RL 110 0.162 4 0.648 1 System Sensor SRL 15 0.043 4 0.172 3 System Sensor MDLW - 0.017 1 0.017 1 Total Current 0.945 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). AMPS4 BATTERY PROJECT NAME: Required Standby Time: Required Alarm Time: CALCULATION 7/10/2019 TUKWILA ELEM 24 5 Hours Minutes AC Branch Current AC Branch Current: Amps 0 120V Regulated Load in Standby Device Type Number of Devices Nominal System Voltage Current (Amps) volts Wire Total Current (Amps) FCPS-24 MAIN CKT BOARD 1 X 0.06500 = 0.06500 TOTAL STANDBY LOAD 0.06500 Regulated Load in ALARM Device Type Number of Devices 3.07 Current (Amps) 0.870 Total Current (Amps) FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 X X X X X 0.14500 0.622000 0.838000 0.542000 0.000000 = = = = = 0.14500 0.622000 0.838000 0.542000 0.000000 TOTAL ALARM LOAD 2.14700 Battery Requirements Standby Load Required Standby Time in Hours Current (Amps) 0.06500 X 24.00000 = 1.56000 Alarm Load Required Alarm Time in Hours Current (Amps) 2.14700 X 0.08333 = 0.17892 Total Ampere Hours (before derating factor) 1.73892 Derating Factor X 1.2 TOTAL AMPERE HOURS REQUIRED = 2.08670 BATTERIES TO BE PROVIDED (1 - 12v) 7 Al! Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS3-1 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau • e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.870 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.242000 0.040000 0.040000 0.000000 End of Line Voltage 17.73 volts Alarm Load Required Alarm Time in Hours Current (Amps) 0.46700 X 0.08333 = 0.03892 Total Voltage Drop 2.67 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 13.09% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 75 0.121 5 0.605 2 System Sensor P2RL 110 0.162 1 0.162 1 System Sensor SRL 15 0.043 2 0.086 3 System Sensor MDLW - 0.017 1 0.017 1 Total Current 0.870 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS3-2 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.434 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.242000 0.040000 0.040000 0.000000 End of Line Voltage 19.07 volts Alarm Load Required Alarm Time in Hours Current (Amps) 0.46700 X 0.08333 = 0.03892 Total Voltage Drop 1.33 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 6.53% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 15 0.054 1 0.054 2 System Sensor P2RL 75 0.121 3 0.363 1 System Sensor MDLW - 0.017 1 0.017 3 Total Current 0.434 Notes: 1 Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS3-3 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.658 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.242000 0.040000 0.040000 0.000000 End of Line Voltage 18.38 volts Alarm Load Required Alarm Time in Hours Current (Amps) 0.46700 X 0.08333 = 0.03892 Total Voltage Drop 2.02 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 9.90% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). System Sensor P2RL 15 0.054 2 0.108 4 System Sensor P2RL 75 0.121 2 0.242 5 System Sensor P2RL 110 0.162 1 0.162 1 System Sensor SRL 15 0.043 3 0.129 System Sensor MDLW - 0.017 1 0.017 Total Current 0.658 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS3-4 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4, Minimum Device Voltage 16.0 volts Gau • e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.837 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.242000 0.040000 0.040000 0.000000 End of Line Voltage 17.83 volts Alarm Load Required Alarm Time in Hours Current (Amps) 0.46700 X 0.08333 = 0.03892 Total Voltage Drop 2.57, volts System Sensor P2RL 75 0.121 Percent Voltage Drop 12.60% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). System Sensor P2RL 75 0.121 5 0.605 4 System Sensor SRL 15 0.043 5 0.215 5 System Sensor MDLW - 0.017 1 0.017 1 Total Current 0.837 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). AMPS5 BATTERY PROJECT NAME: Required Standby Time: Required Alarm Time: CALCULATION 7/10/2019 TUKWILA ELEM 24 5 Hours Minutes AC Branch Current AC Branch Current: Amps 0 120V Regulated Load in Standby Device Type Number of Devices 20.4, Current (Amps) 16.0, Total Current (Amps) FCPS-24 MAIN CKT BOARD 1 X 0.06500 = 0.06500 TOTAL STANDBY LOAD 0.06500 I Regulated Load in ALARM Device Type Number of Devices 500.00 Current (Amps) End of Line Voltage Total Current (Amps) FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 X X X X _ X 0.14500 0.242000 0.040000 0.040000 0.000000 = = = = = 0.14500 0.242000 0.040000 0.040000 0.000000 TOTAL ALARM LOAD 0.46700 Battery Requirements Standby Load Required Standby Time in Hours Current (Amps) ! 0.06500 X 24.00000 = 1.56000 Alarm Load Required Alarm Time in Hours Current (Amps) 0.46700 X 0.08333 = 0.03892 Total Ampere Hours (before derating factor) 1.59892 Derating Factor X 1.2 TOTAL AMPERE HOURS REQUIRED = 1.91870 BATTERIES TO BE PROVIDED (1 - 12v) 7 Al! Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Project Name Name TUKWILA ELEM Circuit Number Ckt # AMPS4-1 Nominal System Voltage Circuit Number volts Wire Resistance 20.4, Minimum Device Voltage Max Output Current 16.0, volts amps Gau.e Per 1000 3.07 3.0 14 Total Circuit Current 0.622 amps 3.00 amps Total Circuit Distance 500.00 feet End of Line Voltage 18.49 volts Total Voltage Drop 1.91, volts Percent Voltage Drop 9.36% End of Line Voltage CIRCUIT IS WITHIN LIMITS volts Manufacturer Model Candela Current Quantity Subtotal System Sensor P2RL 75 0.121 5 0.605 System Sensor MDLW - 0.017 1 0.017 Total Current 0.622 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Name TUKWILA ELEM Circuit Number Ckt # AMPS4-2 Nominal System Voltage Resistance Per 1000 3.07 volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.838 amps Total Current 0.242 Total Circuit Distance 500.00 feet End of Line Voltage 17.83 volts Total Voltage Drop 2.57 volts Percent Voltage Drop 12.61% CIRCUIT IS WITHIN LIMITS Manufacturer Model Candela Current Quantity Subtotal 3 System Sensor P2RL 15 0.054 4 0.216 3 System Sensor P2RL 75 0.121 5 0.605 1 System Sensor MDLW - 0.017 1 0.017 Total Current 0.838 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Name TUKWILA ELEM Circuit Number Ckt # AMPS4-3 Nominal System Voltage Resistance Per 1000 3.07 volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau • e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.542 amps Total Current 0.242 Total Circuit Distance 500.00 feet End of Line Voltage 18.74 volts Total Voltage Drop 1.66 volts Percent Voltage Drop 8.16% CIRCUIT IS WITHIN LIMITS Manufacturer Model Candela Current Quantity Subtotal System Sensor P2RL 15 0.054 3 0.162 System Sensor P2RL 75 0.121 3 0.363 System Sensor MDLW - 0.017 1 0.017 Total Current 0.542 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Max Output Current Total Circuit Current Total Circuit Distance End of Line Voltage Total Voltage Drop Percent Voltage Drop Name TUKWILA ELEM Ckt # AMPS5-1 volts Wire volts Gau.e Resistance Per 1000 3.07 20.4 16.0 3.00 amps 14 0.242 amps feet volts volts 500.00 19.66 0.74 3.64% CIRCUIT IS WITHIN LIMITS Current 0.121 Quantity Subtotal Manufacturer Model Candela System Sensor P2RL 75 I 2 I 0.242 Total Current 0.242 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Max Output Current Total Circuit Current Total Circuit Distance End of Line Voltage Total Voltage Drop Percent Voltage Drop Name TUKWILA ELEM Ckt # AMPS5-2 volts Wire volts Gau.e Resistance Per 1000 3.07 20.4 16.0 3.00 amps 14 0.040 amps feet volts volts 500.00 20.28 0.12 0.60% CIRCUIT IS WITHIN LIMITS Current 0.02 Quantity Subtotal Manufacturer Model Candela Notifier FCPS-24 - I 2 I 0.04 Total Current 0.040 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Max Output Current Total Circuit Current Total Circuit Distance End of Line Voltage Total Voltage Drop Percent Voltage Drop Name TUKWILA ELEM Ckt # AMPS5-3 volts Wire volts Gau•e Resistance Per 1000 3.07 20.4 16.0 3.00 amps 14 0.040 amps feet volts volts 500.00 20.28 0.12 0.60% CIRCUIT IS WITHIN LIMITS Current 0.02 I Quantity Subtotal Manufacturer Model Candela Notifier FCPS-24 - 2 I 0.04 Total Current 0.040 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). NICET III Fire Alarm Systems 1 r1 / Cory W. Haws ET / Signature Date: 7/10/2019 Fire Protection Engineering Technology Fire Alarm Systems Cert. No. 112381 Exp 12/1/2019 shop drawingsu imicA created by Inc. 5794 W. 4800 So. Hooper, UT 84315 Office: 801.985.0410 www.unlcod.net rn N r` DESCRIPTION ISSUED FOR REVIEW & APPROVAL 2 0 VN 0 Cr) z 0 W U. 0 J 2 C9 2 J LU TUKWILA ELEMENTARY SCHOOL 5939 149TH STREET TUKWILA, WA 98168 FIRE ALARM BATTERY CALCULATIONS DRAWN CORY W. HAWS UNICAD JOB #19296 CHECKED CORY W. HAWS NICET III 112381 DATE 7/10/2019 REVISION 0 SCALE 1 /8"=1'-0" FA -3 5939 S 149TH ST ASSOCIATED PERMITS D19-0076 D19-0075 19-F-140 19-S-147 4tt SITE LOCATION CITY OF TUKWILA FIRE MARSHAL'S OFFICE 206-575-4407 FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** King Co. Assessor's Tax No.: 3597000120 Site Address: 5939 149th Street Suite Number: Floor: Tenant Name: Tukwila Elementary School New Tenant? ❑ - Yes ® - No Property Owner's Name: Tukwila School District Mailing Address: 5939 S 149th Street Tukwila, WA. 98168 City State Zip CONTACT PERSON -if there are questions about the submittal. Name: Nikki Rodewald Day Telephone: 206-851-1900 Company Name: Cosco Fire Protection Mailing Address: 4308 S 131st Place Tukwila, WA. 98168 City State Zip E-mail Address: nrodewald@coscofire.com Fax Number: 2125-0314-c Contractor's City of Tukwila BUS-0995340 NICET III number: Business License number: Total number of new/relocated devices or sprinkler heads: 6 Valuation of Project (contractor's bid price): $ $17,152.00 Scope of Work (please provide detailed information): provide new 21/2" heat traced sch 40 pipe to tie the pre -designed fire sprinkler system in the portable unit to existing system. Provide new dry system to protect egress canopy. PERMIT APPLICATION NOTES Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. PAD BUILDING OWNER OR AUTHORIZED AGENT: Signature: Print Name: Nikki R ewald Plan Permit App.doc 8/22/14 TFD FP Form 8 !Y_ 13 2019 TUKWILA FIRE Day Telephone: 206-851-1900 Date: 7-15-19 SITE LOCATION CITY OF TUKWILA FIRE MARSHAL'S OFFICE 206-575-4407 FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** Site Address: 5939 149TH STREET, TUKWILA, WA 98168 Tenant Name: TUKWILA ELEMENTARY SCHOOL Property Owner's Name: TUKWILA SCHOOL DIST King Co. Assessor's Tax No.: Suite Number: Floor: New Tenant? ❑ - Yes 0- No Mailing Address: 4640S 144TH ST, TUKWILA, WA 98168 CONTACT PERSON -if there are questions about the submittal. Name: DUSTIN KOENIG Company Name: SECURITY SOLUTIONS NW City State Zip Day Telephone: 360-815-0160 Mailing Address: 1619 N STATE ST, BELLINGHAM, WA 98226 E-mail Address: DUSTINK@SSNW.CO NICET III number: 136366 City State Zip Fax Number: Contractor's City of Tukwila Business License number: 600528172 Total number of new/relocated devices or sprinkler heads: (5 JP tsip Valuation of Project (contractor's bid price): $ 28,870.00 Scope of Work (please provide detailed information): FIRE ALARM FOR THE UPGRADE AND ADDITION AT TUKWILA ELEMENTARY SCHOOL ra dick ff/�- I -t ham) :1 PERMIT APPLICATION NOTES Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING` Oy' tER OR AUTHORIZED AGENT: Signature: Print Na EREMIE FARRELL PAID TY ]32019 TUKWILA FIRE Date: 7/17/2019 Day Telephone: 360-734-4940 Plan Permit App.doc 8/22/14 TFD FP Form 8 FIRE DEPARTMENT SPRINKLER PLAN REVIEW COMMENTS Project Name: Tukwila Elementary 5939 S 149th St. Permit No.: 19-S-147 Date: July 26, 2019 Reviewer: Al Metzler Fire Protection Project Coordinator (206) 575-4407 option # 2 (Inspection Requests) (206) 971-8718 (Plan Review Questions) • Lateral sway bracing is required at a maximum spacing of 40' for all mains, cross mains, and branch lines 2.5" and larger. Bracing is provided for the last length of pipe but within 6' of the end of a feed or cross main. Bracing is required unless all the pipe is supported by rods less than 6" or by 30 ° wrap-around U -hooks for any size pipe, 9.3.5.3. • Minimum clearance around pipes: 2 " for 1"-3.5", 4" for 4" and larger, see 4 exceptions, 9.3.4. • Longitudinal sway bracing is a maximum of 80' for mains and cross mains and within 40 ' off the end of the line, 9.3.5.4. • Provide lateral and longitudinal bracing for changes in pipe direction per section 9.3.5.11.2 for pipe size 2 1/2 inches and larger. • Restrain branch lines at the end sprinkler of each line, restrain against vertical and lateral movement, 9.3.6.3. • Restraints for branch lines shall be at intervals per table 9.3.6.4 and section 9.3.6.4, and restrain sprig ups greater than 4', 9.3.6.6. • Comply with ASCE 7-05, section 13.5.6.2.2. • Provide sprinkler protection beneath all obstructions greater than 4 ft. in width. • Extend sprinkler protection to all combustible concealed spaces. • Weld stamps shall be inspected on the ground, before pipe is hung. • Comply with NFPA 13 obstruction tables. • All valves controlling the water supply for automatic sprinkler systems and waterflow switches on all sprinkler systems shall be electrically supervised. • All interior control valves shall be readily accessible, labeled and located not more than 6 ft. above the floor. • Comply with obstructed/non-obstructed construction rules for sprinkler head placement. • Sprinkler heads spaced closer than 6 ft. apart must be baffled. • Modifications involving 20 or more heads require hydrostatic test and system isolation if necessary. • For dry pipe and double interlock preaction systems, in addition to the standard hydrostatic test, an air pressure leakage test at 40 psi shall be conducted for 24 hours. Any leakage that results in a loss of pressure in excess of 1.5 psi for the 24 hours shall be corrected. • These conditions apply to all sprinkler piping exposed as necessary to accomplish the permitted scope of work. All code references are NFPA 13, 2019 Edition. INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit 1 ub PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: ,...---- ( 0-M10/A. Gl. giS't6-f Type of Inspection: 5farrihl ( J p.J416 , Address:� Suite #: 9731 5. I4.191/ cr Contact Person: i U G'�'-r✓yV� Special Instructions: -- (, M/l VA � -7--,z43 S vii( /W ie/J5 d nI .J 4 /r / 7ir�lr Phone No.:RDO -X -os'-- nApproved per applicable codes. Corrections required prior to approval. COMMENTS: Se 02 S . (g, "( c. '," 'Pe � r(r �MCC' 11(,(_j,,A Hood & Duct: Monitor: fLMil-Pec.S -- (, M/l VA � -7--,z43 S vii( /W ie/J5 d nI .J 4 /r / 7ir�lr tftOiZ GOdormb.J ,1ci 'Tv adib 647 N ) C,662-0(000 r5n4"P -zb 1t i v 7 Cg t gkr(INARKRI, Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: o (1Occupancy Type: Inspector: . \ hi, < 1 Date: JZ /1/'/4'1" Hrs.: $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 CORRECTION NOTICE/REINSPECTION FEE Permit number126''00-7-C-- _ • TUKWILA'FIRE MARSHAL'S OFFICE Office: 206-575-4407 Fax: 206-575-4439. Email: Fire Marshal (aitukwilawa.aov Business Name: 10 kw/ (,,,1 I Type of Inspection: Location -Address: //(i S ./.52)10a - Date : . / ii 9-- Contact Person : Phone No. : ACTION REQUIRED : t cz -0 °c4ivisli ��` 6t2.-6=tom id ,-ccci2mr 0-64 G,iffP to C_ IR-_ Al'/\ 4 t/( CORRECTION 0 FAILURE TO CO Signature: THE ABOVE ITEMS ARE REQUIRED BY : LY MAY RESULT IN THE ISSUANCE OF A CRIMINAL CITATION/TICKET. Billing/Mailing Address : Attn: Company Name: Address: City: State: Zip: ❑ A $100.00 Reinspection Fee is required. You will receive an invoice from the City of Tukwila Finance Department. 0 Ticket Issued. Citation # Correction Notice Reins]) Fee2.doc Revised 6/17/14 T.F.D. Form F.P. 100 l INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit N-3 -/'7 PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: �-- / �� /C� `ems 4 � -'w1 • Type of Inspection: Gd l/,-- l de -a Address:Contact Suite #: 5-`73 1 S / y76 7/4 5-I" Person: Special Instructions: Permits: Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: -±Z) _EA //di-; -7:e -10-ao. ,12-1/1 ,60-/#6?-ar t/ I Le_ f:-/er(t-, 774-c $7R -Q CLVQ&r \-Hk° —QHS noUSir NI,YWCS Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: . Inspector (,5 )1.1 s 3 Date: /00/M// if Hrs.: Z• d $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. CaII to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit $ I(7 im-craip PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: P/qC L4C '1)(1i0t1 Type of Inspection: Fire Alarm: Address: Suite #: 5T5/' 5/17 Contact Person: Cdr 5t‘_e__, Special Instructions: n Occupancy Type: Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: ale ` ��) V"\ 4\ 0 t -7`NAQ, 3 —90 ws ‘,,Ye).4 12,0AA0€ cAn Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: _ Occupancy Type: Inspector: AN \ Date: 10 \21 VA Hrs.: $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 INSPECTION RECORD Retain a copy with permit INSPECTION NUMBER PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: --QA t)- P-titli,*/ Type of Inspection: 54N4-(ff Ce)✓r2 Address: Suite #: 5�3�5 ' `o.? Contact Person: ' p.� -t)(iet Special Instructions: , Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: co\froL 4\tix'FlotArtxDs (a_ ftsF14- Ood Ci�,s>mfki S'rJ,./uac Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy, Type: Inspector:441\c Date: -701 11 Hrs.: 1 $100.00 REINSPECTION FEE REQUIRED. You will Imceive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit ro �Ig —oo7b PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project; - /C y..46 — ,q-Aa¢0 Neba P �1 li 4// New /N/>5 Type of Insp n: b ��1 % Address:� #:$ c,',3 ,Suite � fi Contact Person: Special Instructions: Occupancy Type: 41d 57x4u-es >N fel 6 >1 7-46/ sI -Dy -pi, Phone No.: 71 Approved per applicable codes. Corrections required prior to approval. i COMMENTS: /4f7-k.z Miers /ivJcy4,17 ApeSIC 1 y..46 — ,q-Aa¢0 Neba P �1 li 4// New /N/>5 di,r/t ,i> Ad/ /J'& /-ehIL1c•41 trvi eitveci4 PAS Hood & Duct: Monitor: �j,4- AI .."-- - 5444. idea iii- OA i 4I "ASS Permits: Occupancy Type: 41d 57x4u-es >N fel 6 >1 7-46/ sI -Dy -pi, A- - ''is r /1A -vee /00//'t /Gld% o' -i 71-/r7‘3.i.�447`c1 70 C i$14-/ .57"-77,6,-)7 •=-. O? Cs", A 1ucer /tifr 6 r-( ea&'± Needs Shift Inspection: y..46 Sprinklers: )al!) Fire Alarm: Y4A Hood & Duct: Monitor: �j,4- AI .."-- Pre -Fire: Permits: Occupancy Type: Inspector:, Z.- f Zl,53 Date: M./11/41 Hrs.: Z, 5Ei_ $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 vKWILA FIRE MARSHAL'S OFFICE Phone: 206-575-4407 • Email: FireMarshal@tukwilawa.gov 4etCONTRACTORS MATERIAL AND TEST CERTIFICATE FIRE ALARM AND FIRE DETECTION SYSTEMS Fire alarm System is ready for Fire Department acceptance testing. Failure of test will result in termination of the testing and additional fees will be assessed. Contractor is responsible for supplying manpower for Final Acceptance Test with two-way communications. Date Permit # { F - 140 r Property Address � 139 MCIjh SA- Suite # City Zip Code Cg,t IQ?? Name of Facility '-tAKw 1 ka I O tCy S(s )(lcx-)1 Occupied as ¶jc +*po L Owner or Representative'vpi L * 5r,t Da ync c r Installing Company SEt.A9ext`f So LIi Tlowss' AM Installing Contractor's Address 1 fi 1q 4 yll.rnr si- u r City giii.wirlarPrii Installer's Name (PRINT) C.Ame, q► Si 'DS Phone # Z 4_ 1 o 1- g'000 Phone# 540 — 4 i License and/or Certificate I M 7 S Si General Contractor 11/400&61- PWet, r Electrical Contractor ?Ay Fl ` Ce.rbt' LE L CDM4,t 1.a FACP Equipment Manufacturer 40 totAkit-Model # Nl!52 -31,2e This system has been installed, pre -tested and operates in accordance with the standards listed below and was inspected by 01.9.44-0.4.4) 3,for / 1 Dp #61, r wit.CJr On (date) 6/24'/11 and includes the devices listed on back. Circle all that apply: NFPA 72, Chapter 12 4 5 6 7 and/or IFC SEC 907 NFPA 70, National Electrical Code, Article 760 Manufacturer's Instructions Manufacturer's Instructions Other (specify) Tukwila City Ordinance Numbers 2050, 2051 UL Central Station Monitor b 2.42_ System is monitored by 14/4 pi . SIGNED Date System Firmware: Installed version 1. o Checksum ZS 0 Date einvj4 Initial program Installation Date Revisions and Reasons Programmed by CA Sze") Sul".g EQUIPMENT INSTALLS(' ND TESTED: Control Panel I of I Manual Station a ofl q Smoke Detectors !kr of* (? Heat Detectors Ori ofIZ1j Duct Detectors of S AN Devices (( of by Audio Devices of Visual Devices Il oft_ Auto Door Release of Trouble Indictors l of 1 Batteries Readings Battery VAH Generator of HVAC Controls of Fire Alarm Dialer I of J_ Monitored by L k ALImtM Make/Model Make/Model Make/Model Make/Model Make/Model Make/Model Make/Model Make/Model Make/Model Make/Model Aie41 Fief. /LIPS E. -Se $-0 1�ia31tn 4jgG-124.x 4.010102_ FSt • SS! My /fleet parr- _s't SYSvr1 St9Atsant Q2IJL 53#60:41, gigAxpx 3W1. Full Load lS q Make/Model Make/Model Make/Model Be Charge a1.46 V 91112 Annunciator _ of Make/Model 14.111461l 1...e.D2 ->'o 0 Sprinkler System. (Fire Alarm connections only) Water Flow Sw. 5 of 3 Valve Tamper Sw. $ of Ply of j_ Elec. Alarm Bell of Make/Model Ai.Tic4Er'L Palm- Make/Model idol Foli, -1 Make/Model iii p, Ek, Fp,,�,, — a Make/Model Automatic time Delay of Water Flow Alarm Ai/t, seconds. None Installed Do you meet audible/visible requirements of WAC 51-20, IFC SEC 907., and/or NFPA 72 Chapter 6? Yes ,/ No Test of alarm System on emergency power, satisfactory? Yes No Test Witnessed by Title Date Comments: Fire Alarm Certit'icate.doc Revised: 6/17/14 TFD FP Form #110 April 17, 2017 City of Tukwila Allan Ekberg, Mayor Fire Department Ms. Judith K. Berry, PhD Deputy Superintendent Tukwila School District 4640 S. 144 Street Tukwila, WA 98168 Fl LE Jay C. Wittwer, Fire Chief RE: City of Tukwila Fire and Park Impact Fee exemption for Tukwila School District Dear Ms. Berry: Upon further review of your letter dated February 21, 2017 and consulting with the affected City staff members for Park and Fire Impact fees, the following has been determined. In regard to Park Impact Fees for the upcoming District projects, none will be assessed with the exception of the transportation office building which is assessed $2,105.06 in Park Impact Fees. In regard to Fire Impact Fees, they will apply to all of the proposed projects by the Tukwila School District. The procedure is outlined within Exhibit "A" table 2 of Tukwila City Ordinance number 2365; Educational Occupancies are the second category within this table. Educational Occupancies are specifically included within the office category based on fire department response data. The response data was reviewed from 2014 to 2016, and this analysis confirmed that educational occupancies are correctly placed in the "office" category due to similar response needs. In fact, the most recent data revealed an increased impact to the fire department by educational occupancies. In 2016 under the office category there were 1,352 calls for service, of which 114 were to educational occupancies or 11.8%; of those 11.8%, Tukwila Schools accounted for 33% of those calls for service which is a 6% reduction in calls for service to Tukwila Schools when compared to the 2014 to 2016 calls for service average. (Reduction was most likely from fire alarm panel repairs at Foster High School and because a juvenile fire setter moved out of the area.) Tukwila Fire Marshal's Office • 6300 Southcenter Blvd., Suite #209 • Tukwila, Washington 98188 • Phone: 206-575-4407 • Fax: 206-575-4439 • Email: FireMarshalCtukwilawa.gov City of Tukwila Page 2 In reference to your comments based on Revised Code of Washington 82.020.050, all monies collected for impact fees will be used to support the system improvements caused by the district development and expansion. Fire Department staff has been in discussion with the District's design team and project manager to determine the exact square footage of the expansion. This process has been delayed by the value engineering process phase. When this process is completed and fire staff is made aware of the exact additional square footage for each project, an impact fee calculation can be made. You should be aware that during the calculation process Tukwila Municipal Code 16.26.120 (b) (1) will be applied to more accurately reflect the actual additional square footage added to Foster High School and Showalter Middle School. Your reference to Tukwila Municipal Code 16.26.120 (b) (2), would only apply if no new additional classrooms or common space is constructed, which is not the proposed addition fire staff has reviewed to date. The impact fees for both Foster High School and Showalter Middle School will be calculated such that credit will be given for the square footage of the portable buildings that will be removed from both sites at the end of the projects, estimated by fire staff at 11,000 square feet for Foster High School and 4,000 square feet for Showalter Middle School. Fire staff will continue to work with the District design team to determine the correct impact fee calculation for these two projects. In regard to the Birth to Kindergarten Center, it will be assessed fire impact fees. Fire will experience an increased number of calls for service as a result of this facility. This facility location will bring additional calls for service within the fire station 54 response zone. This is the City's busiest fire response zone and any additional fire calls for service require mitigation strategies to minimize the impact to existing fire service customers. I have included an attachment for you on fire department calls for service to Tukwila School District facilities. Yours truly, Battalion Chief Don Tomaso Fire Marshal cc: David Cline, City Administrator Jay Wittwer, Fire Chief Rick Still, Director Parks and Recreation Jack Pace, Director Department of Community Development Tukwila Fire Marshal's Office • 6300 Southcenter Blvd., Suite #209 • Tukwila, Washington 98188 • Phone: 206-575-4407 • Fax: 206-575-4439 • Email: FireMarshal@jukwilawa.gov Tukwila School District Fire Response Data 2014 - 2016 Administration Building FALSE 2014 EMS 2016 ADDRESS = 4640 S 144 ST Foster High School GOOD INT EMS 2014 FIRE PUB ASSI FALSE GOOD INT EMS 2015 ADDRESS = 4242 S 144 ST OTHER RUPT/EX FALSE EMS 2016 Showlater Middle School EMS FIRE 2014 FALSE EMS 2015 ADDRESS = 4628 S 144 ST Page 1 of 2 Tukwila School District Fire Response Data 2014 - 2016 Tukwila Elementry School 7..f71 EMS 2014 FALSE FIRE 2015 ADDRESS = 5939 S 149 ST GOOD INT EMS 2016 Thorndyke Elementry School D INT EMS 2014 FALSE EMS 2015 ADDRESS = 4415 S 150 ST FALSE EMSI 2016 Cascade View Elementry FALSE 2014 FALSE 2015 ADDRESS = 13601 32 AVE S Page 2 of 2 EMS 2016 .••••••• •••••••• .••••••. .°•••••. COSCO Fire Protection FIRE PROTECTION HYDRAULIC CALCULATIONS TUKWILA ELEMENTARY 5939 149TH ST. TUKWILA, WA. 98168 Fire Protection Contractor Cosco Fire Protection 4308 South 131st PI. Tukwila, Washington 98168 (206) 438-3360 Fax: (206) 438-3356 JOB # 25SD6304 Hydraulic Overview Job Number: 25SD6304 Report Description: Ordinary Group I Job Job Number 25SD6304 Design Engiroer Job Name: TUKWILA ELEMENTARY Phone FAX Areas 1 5939 S 149TH ST slate Certification/License Number Address 2 TUKWILA, WA. 98168 AIM Address 3 Job SM./Suiting System Density 0.15gpm/ft2 Area of Application 1950112 (Actual 296112) Most Demanding spdneer Data 5.6 K -Factor 19.50 at 12.125 Hose steams 100.00 Coverage Per Spdnkler 130112 Number Of Sp alders Calculated 6 sham Pressure Demand 43.762 Swam Flux Demand 120.87 Total Demand 220.87 @ 43.762 Pressure Result +37.272 (46.0%) Supplies Check Point Gauges ttp�.ti Name Flow(aoml }lose Flow(aoml Static(osil Residual(osil Jdentifier pressure(osil }C -Factor( Kl Flow(aoml 1 Water Supply 3878.00 100.00 81.340 20.000 tukwila elementary.cad Water Supply at Node 1 (3878.00, 100.00, 81.340, 20.000) :::,.::. _..,, 2 I M Pressure, psi Static Pressure 81.340 \ 120.87 220.87 @ with 43.762 hose streams 11 \ System demand curve 78 00 @ 20.000 Iimnnouuouuuuu 11111111 nun iii tiiiuiii 111111111 111111111 Po 22503" 3750 45°°52506000 6750 7500 Water flow, gpm M.E.P.CAD, Inc. AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:00:47PM Page 1 Hydraulic Summary Job Number: 25SD6304 Report Description: Ordinary Group I Job Job Meller 25SD6304 Design Engneer Job Name: TUKWILA ELEMENTARY State CerefiretioNLieeroo Meller Arent J 5939 S 149TH ST ANJ Address 2 TUKWILA, WA. 98168 Job Sited3ui ang Address 3 Drawing Name tukwila elementary.cad System Remote Area(s) Most Demanding Sprinkler Dela 5.6 K -Factor 19.50 at 12.125 Occupancy Ordinary Group I Job Suffix Noss Allowance Al Source 100.00 Density 0.15gpm/ft' Area ofApplutbn 1950ft2 (Actual 296ft2) McGlone) Nose Supplies Node Flow(com). Number Of SprinNers Calculated 6 Coverage Per SpiNcbr 130ft2 AutoPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Total Hose Streams 100.00 System Flow Demand 120.87 Total Water Required (Including Hose Allowance) 220.87 Maximus Pressure Unbalance in Loops 0.000 Maximum Velocity Above Ground 13.01 between nodes 12 and 105 adman Velocity Under Ground Volare Maeda/ of Wet Pies 1430.83ga1 Volume opacity of Dry Pipes 77.45ga1 Supplies Node Name Hose Flow (gpm) Static (psi) Residual Flow (psi) @ (gpm) Available Total Demand (psi) © (gam) Required (psi) Safety Margin (psi) 1 Water Supply 100.00 81.340 20.000 3878.00 81.034 220.87 43.762 37.272 Contractor Caarador Number Contact Name Contact Tale Name of Corroactor. Mate Extension Idress1 FAX Address Y Emal Address 3 WebSYa © M.E.P.CAD, Inc. ig AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:00:51PM Page 2 ":14R. Hydraulic GraphJob Number: 25SD6304 Report Description: Ordinary Group I Water Supply at Node 1 ann Pressure, psi D 0 0 0 0 0 0) 0 8 CO E 11111 11111iiii1111111!Il iii1111111iiiiiIllliiIIIiiiiiiiiiI11111 iiii 1111 111 11111 iiiliiiiiiiii Static Pressure 81.340 120.87 220.87 © 43.762 with hose streams Stern demand curve 78.00 @ 20.000 1 1111111111L1111111. I 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 I I I I I I I I I I I I I I I I I I I I I 1 1 1 1 u 0,50 1500 2250 3000 3750 4500 5250 6000 6750 7500 Water flow, gpm Hw Gh Water Supply at Node 1 str . Praau. 81.340 R..Wu.l Prem 20.000 @ 3878.00 Available Pmwre at Tyne of Teat 81.034 @ 220.87 System Owned 43.762 @ 120.87 pion Demand (ewosn. Wee AWwrce at sour.) • 43.762 @ 220.87 M.E.P.CAD, Inc. AutoSPRINK 2018 v14.3.10.0 7/1412019 4:00:53PM Page 3 Summary Of Outflowing Devices Job Number: 25SD6304 Report Description: Ordinary Group I Device Actual Flow (gpm) Minimum Flow (gpm) K -Factor (K) Pressure (psi) b Sprinkler 100 19.50 19.50 5.6 12.125 Sprinkler 101 19.71 19.50 5.6 12.391 Sprinkler 102 21.00 19.50 5.6 14.057 Sprinkler 103 19.65 19.50 5.6 12.306 Sprinkler 104 19.86 19.50 5.6 12.582 Sprinkler 105 21.16 19.50 5.6 14.271 c> Most Demanding Sprinkler Data i © M.E.P.CAD, Inc. ig AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:01:00PM Page 4 Node Analysis Job Number: 25SD6304 Report Description: Ordinary GrouD I Node Elevation(Foot) Fittings Pressure(psi) Discharge(gpm) 1 -4'-9 S 43.762 120.87 100 8'-11 Spr(-12.125) 12.125 19.50 101 9'-11 Spr(-12.391) 12.391 19.71 102 9'-11 Spr(-14.057) 14.057 21.00 103 8'-11 Spr(-12.306) 12.306 19.65 104 9'-11 Spr(-12.582) 12.582 19.86 105 9'-11 Spr(-14.271) 14.271 21.16 2 2'-0 PO(18'-9'/z) 41.050 3 3'-1'/2 BV(15'-9'/2) 40.456 4 4'-2'/2 39.919 5 25'-9 EE(5'-3) 29.998 6 25'-1 E(13'-2) 29.728 7 25'-9 E(9'-5) 29.585 8 25-1 EE(4'-0'/2) 29.206 9 9'-11 P0(4'-3%) 15.947 10 9'-11 PO(7'-1%) 16.644 11 9'-11 PO(7'-1'/2) 18.316 12 9'-11 PO(4'-3'/2) 16.188 13 12'-0 fE(4'-3'/2) 22.295 14 11'-3Y2 cplg(-1.363) 22.240 15 27'-1'% 25.739 16 25'-0 fE(4'-3'/2) 26.353 N [Aj © M.E.P.CAD, Inc. AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:01:02PM Page 5 Hydraulic Analysis Job Number: 25SD6304 Report Description: Ordinary Group I Pipe Type Diameter Flow Velocity HWC Friction Loss Length Eq. Length Total Length Pressure Summary Downstream Upstream Elevation Discharge K -Factor Pt Pn Fittings eat Route 1 _ 1.3800 19.50 4.18 100 0.045761 11'-0 Pf 0.699 100 8'-11 19.50 5.6 12.125 Sprinkler, 4'-3'% Pe -0.434 101 9'-11 12.391 2E(2'-1'/2) 15'-3'/2 Pv BL 1.3800 39.21 8.41 100 0.166633 10'-0 Pf 1.666 101 9'-11 19.71 5.6 12.391 Sprinkler Pe 102 9'-11 14.057 10'-0 Pv BL 1.3800 60.21 12.91 100 0.368378 0'-10 Pf 1.890 102 9'-11 21.00 5.6 14.057 Sprinkler, 4'-3'% Pe 9 9'-11 15.947 P0(4'-3%) 5'-1'/2 Pv BL 2.0670 60.21 5.76 100 0.051499 6-5 Pf 0.697 9 9'-11 15.947 7'-1'% Pe 10 9'-11 16.644 P0(7'-1 %) 13'-6'/2 Pv BL 2.0670 120.87 11.56 100 0.186955 1'-10 Pf 1.672 10 9'-11 60.66 16.644 Flow (q) from Route 2 7'-1'% Pe 11 9'-11 18.316 P0(7 -1%) 8'-11'/2 Pv CM 2.4690 120.87 8.10 100 0.078681 27'-10'% N 4.520 11 9'-11 18.316 12'-3 Pe -0.596 14 11'-3% 22.240 4fE(3'-1), cplg(-1.363) 40'-1'/2 Pv CM 2.4690 120.87 8.10 120 0.056154 2'-1'% Pf 0.362 14 11'-3'% 22.240 4'-3'% Pe -0.307 13 12'-0 22.295 E(4'-3+%) 6'-5'% Pv CM 2.4690 120.87 8.10 100 0.078681 90'-7'% Pf 9.694 13 12'-0 22.295 32'-7 Pe -5.636 16 25'-0 26.353 E(4'-3%), 2fE(3'-1), C(8'-6%), 2f 123'-2% Pv E(4'-3%), DPV, BV(5'-0) CM 2.6350 120.87 7.11 120 0.040903 3.-1% Pf 0.303 16 25'-0 26.353 4'-3'% Pe -0.917 15 27'-1'% 25.739 fE(4'-3'/2) 7'-5 Pv CM 3.2600 120.87 4.65 120 0.014507 89'-7 Pf 2.586 15 27'-1'% 25.739 88'-8 Pe 0.880 8 25'-1 29.206 2E(4'-11), fT(13'-0), 4E(9'-5), PO( 178'-3 Pv 20'-2), 2EE(4'-0%) `CM 4.2600 120.87 2.72 120 0.003942 119'-3'% Pf 0.522 8 25'-1 29.206 13'-2 Pe 6 25'-1 29.728 E(13'-2) 132'-5% Pv CM 3.2600 120.87 4.65 120 0.014507 0'-8 Pf 0.146 6 25'-1 29.728 9'-5 Pe -0.289 7 25'-9 29.585 E(9'-5) 10'-1 Pv CM 4.2600 120.87 2.72 120 0.003942 99'-7% Pf 0.414 7 25'-9 29.585 5'-3 Pe 5 25'-9 29.998 EE(5'-3) 104'-11 Pv FM 4.2600 120.87 2.72 100 0.005524 55'-2% Pf 0.584 5 25'-9 29.998 50'-6'/2 Pe 9.337 4 4'-2% 39.919 4E(9'-4'%) 2E(6'-6) 105'-9% Pv FR 4.2600 120.87 2.72 120 0.003942 1'-1 Pf 0.067 4 4'-2% 39.919 15-9% Pe 0.470 3 3'-1'% 40.456 2f(-0.000), BV(15'-9%) 16'-10'/2 Pv CM 4.2600 120.87 2.72 100 0.005524 1'-1'/2 Pf 0.110 3 3'-1% 40.456 18'-9'/2 Pe 0.484 2 2'-0 41.050 P0(18'-9%) 19'-10% Pv CM 4.2600 120.87 2.72 120 0.003942 13'-8 Pf -0.214 2 2'-0 41.050 15'-9'% Pe 2.926 1 -4'-9 43.762 BFP(-0.330), E(13'-2), PIV(2'-7% 29'-5'% Pv ), S 100.00 Hose Allowance At Source 1 220.87 ® Route 2 BL 1.3800 19.65 4.21 100 0.046393 11'-0 Pf 0.709 103 8'-11 19.65 5.6 12.306 Sprinkler, 4'-3'% Pe -0.434 104 9'-11 12.582 2E(2'-1%) 15'-3'/2 Pv 1L 1.3800 39.51 8.47 100 0.168970 10'-0 Pf 1.690 _ 104 9'-11 19.86 5.6 12.582 Sprinkler Pe 105 9'-11 14.271 10'-0 Pv BL 1.3800 60.66 13.01 100 0.373552 0'-10 Pf 1.916 105 9'-11 21.16 5.6 14.271 Sprinkler, 4'-3'% Pe 12 9'-11 16.188 PO(4'-3%,) 5'-1'%2 Pv M.E.P.CAD, Inc. AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:01:04PM Page 6 Hydraulic Analysis Job Number: 25SD6304 Report Description: Ordinary Group I Pipe Type Diameter Flow Velocity HWC Friction Loss Length Eq. Length Total Length Pressure Summary Downstream Elevation Discharge K -Factor Pt Pn Fittings Upstream BL 2.0670 60.66 5.80 100 0.052222 1'-7 7-1% 8'-9 Pf 0.456 Pe Pv 12 9'-11 68.32 16.188 Flow (q) from Route 1 10 9'-11 16.644 PO(7'-1'/a) Equivalent Pipe Lengths of Valves and Fittings (C=120 only) ` C Value Multiplier 4.87(Actual Inside Diameter Value Of C 100 130 140 150 Schedule 40 Steel Pipe Inside Diameter = Factor p MultiplyingFactor 0.713 1.16 1.33 1.51 Pipe Type Legend Units Legend Fittings Legend AO Arm -Over Diameter Inch ALV Alarm Valve BL Branch Line Elevation Foot AngV Angle Valve CM Cross Main Flow gpm b Bushing DN Drain Dtschar BalV Ball Valve DR Drop e m 9 gp BFP Backflow Preventer DY Dynamic Velocity fps BV Butterfly Valve FM Feed Main Pressure psi C Cross Flow Turn 90° FR Feed Riser Length Foot cplg Coupling MS Miscellaneous Friction Loss psi/Foot Cr Cross Run OR Outrigger HWC Hazen -Williams Constant CV Check Valve RN Riser Nipple Pt Total in DelV Deluge Valve SP Sprig pressure at a point a pipe DPV Dry Pipe Valve ST Stand Pipe Pn Normal pressure at a point in a pipe E 90° Elbow UG Underground Pf Pressure loss due to friction between points EE 45° Elbow Pe Pressure due to elevation difference points between indicated Eel 11',4 Elbow Ee2 22W Elbow Pv Velocity pressure at a point in a pipe f Flow Device fd Flex Drop FDC Fire Department Connection fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve PO Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer/Adapter S Supply sCV Swing Check Valve SFx Seismic Flex Spr Sprinkler St Strainer T Tee Flow Tum 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap , M.E.P.CAD, Inc. AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:01:04PM Page 7 EN Flow Diagram (Top View) I Job Number: 25SD6304 Report Description: Ordinary Group I fk, © M.E.P.CAD, Inc. 61AutoSPRINK 2018 v14.3.10.0 7/14/2019 4:01:06PM Page 8 Sprinkler Legend Symbol SIN Quantity K Factor Type Size Response Orifice Finish Temperature Note O VK3001 6 5.6 Upright 1/ Quick '/2' Brass 155°F +97272 (46.0%) Total = 6 NEW DRY SPRINKLER PIPE NEW WET SPRINKLER PIPE EXISTING WET SPRINKLER PIPE EXISTING SPRINKLER HEADS HANGER CORRI C1( 1 • o00o4 4000000© • 00000°° O00Oa© Fire Prteai CLQ TELTIAINILAM7 ___.----_ TO NEW DRY SYSTEM 21/2" DRY VALVE VIC 768N FLEXIBLE COUPLING TOTAL DRY SYSTEM CAPACITY IS 35.17 GALLONS TANK MOUNTED COMPRESSOR. 3X2Y2 CONC REDUCER POINT OF CONNECTION 0 0 NEW MODULAR ADDITION UNDER SEPARATE PERMIT DRAIN PIPING TO BE FIELD COORDINATED DRY CANOPY PIPING SCALE: 1/8" = 1'-17 NEW DRY RISER SCALE: NTS ..tet... Supply Flow Test Data Static Pressure 61.340 Residual Prea.ure: 20.000 Flow 3678.00 Outside Hose Flaw 100.00 g 1.S 17:..TPl k•aAb.q -_ •R 1 qN. 4 • t...µ ' 0. - .0..a..>: • i T£ PLAN A.,a 1- • 4C' -r," ij •l�. Y.fi Y=f f31. A. r.s..a 6..0r., ..•: 4 t(....N Hydraulic In tion OCCUPANCY CLASSIFICATION kleryGreup1 DENSITY (tmadlt) 0.16 for 79000' (Acrid 266117 TOTAL HOSE STREAMS 700.00 DRY CAPACITY 77.46gal 1OTAL1EACS FLOWING6 TO "1" BEAM K.FACTOR 6.6 TOTAL WATER REQUIRED 220.87 TOTAL PRESSURE REQUIRED 43.762 BASE of RISER (gpa) 220.87 BASE of RISER (pal) 43.782 SAFELY MARGIN guy +97272 (46.0%) c4 peen-pwc, 1511 NININI®ENININEMAINEILIII INNIN INIIMIMnt +� 1111 'Il BR! IN��MItligr;ae®� !ININIIINIPEIMIN. 1111111111MI1l■MNIN N1IIuI pwIINI INRIIMIONNINIMMNIIIIMINIc IBLXIlllM IRINININIIIIINNINNININN11114111111MM Litilf PIIII•Pa1M M� alll1511 PA 1 >� -MINUalltaffiiiiiiaiang RUM= ..�LIMII,LW ;mania ,========:=13===1:z... lrallta:W(L•+N.YI =1:`i• a a 'r- z...sIill®ImIAssomJi11I■ I�...11 4I ��/�er::�i Rms. �allil ill�l111i11 I 1 • o • inigingsmareul�lolliiMi� ML4 lI ll►tilS'E ei I�JI IIMMONLE I�.ISI.mumuIi.riIN�.i( 101......I.A 11� IIMMIM �ii,rn ©1•ii♦��®II!!i'2i i ii ispois►wta�r.4t40-1;1111 i�mm� iih®®®unli • Immuliilif®zasiti1IIliiiiinmaim ■I�i®1®®N11111111111211011111111116111/11N1 EIN.�Na1E_1 EN �Il�lar�u�l��i 1 1�I�r� i � n�ll��x ii l>�1(+ i� � 1�1.1MON®NIt• I■ �i�IMMINI iN I.0. III•ii�N GRADE 2 111111111111111M -111P I 11®®® 3! U 111 ®IIII.11I 1 II ■INENIN � NIMIN 11111=® NOIIIBi® AIN®1®IM:�i f ■I��IIMMINNI IIS 1N� J�� Iiia IIIA®® 1L 1��iNI MMI INIMUNI �tf�NIIIN NI IlIW! I I -MEV : [11IVININ 1 SCOPE OF WORK 1. Provide new 2-1/2" schedule 40 heat traced (performed by others) pipe to tie the pre -designed fire sprinkler system in new portable unit to the existing 4" wet main. 2. Provide new metraflex fire loops w/ 4" of movement between the portable unit piping and new 2-1/2" connection piping. 3. Provide new dry system with upright sprinklers below new canopy. 4. Max head spacing 130 ordinary hazard 1 spaces. General Notes 1. All design and installation is in accordance with NFPA 13, 2019 2. All material and equipment to be new and UL and FM listed 3. Black Schedule 40 for 1 "pipe, schedule 40 for 1-1/4"- 6" pipe on all wet system piping and back schedule 40 piping for all dry system piping. 4. 1" Threaded pipe and fittings and 1-1/4"-6" grooved pipe and fittings. 5. Piping dimensions are cut length. 6. Hangers and method of hanging to be in accordance with NFPA 13 2019 7. Joining of pipe and fittings, threaded and welded shall be in accordance with NFPA 13 2019 8. Owner to provide adequate heat to prevent pipe from freezing in areas protected by wet pipe sprinkler system that is not protected by heat trace. BRACE TO STRUCTURE HANGER TO STRUCTURE 44C " FLEX COUP. P. FLEX COUP. FLEX COUP. Sl8 ATR SUPPORT LOOP SUPPORT LOOP HANGER AND BRACE REQUIRED ON BOTH SIDE OF METRAFLEX DRAIN PLUG METRA FLEX SEISMIC LOOP 111 0 TOP BEAM CLAMP 12 12 3 G2I0 G2O3 I GRADE 2 n GH !=1 sr= GRADE 2 G103 MECH PLATFORM DECK 24'-6" AFF EL -21050 oik SECOND FIN FLOOR 4/11 12'-6" AFF EL=1965O FIRST FIN FLOOR O -O" AFF EL=Ia.6.00 ELEVATION VIEW SCALE: NTS VICINITY MAP ACC Without Comments As Noted in Red Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau fnr conformance with current city standards. Accepwr o R b1 to errors and omissions which no ... . i.1 « '.t dations of adopce.c standards and -e;oons' )ilii. ' for the udequaay o . r'' if ~ :. -. = , , 1„ iesigner. Additions, 1;:..d; , .. . _ r.. > .. ; N. drawings ars:e . this date will vo' ew _;1w i't:ti :fr 1 require a resubmittal or ri vis& i LSI S 1'-> it^ - subsequent approv(7,1, Final acceptance is '> r..: ':. _ -est and Inspection by The Tukwila Eire Prevent`�!-t reau. Date: 7 ,a 9 -19 By: Fire Permit Number L: S - P1) To schedule ii.v..:ectiOfls Cali 206-575-4407 PAID Y.. 15 H19 x-0,2/0 TUKWILAFIRE 1566-- 21 0 4 S SCALE - 1/S' = 1'-0' 0001) 0000 C/1/l v v� 0000 0000 0000 O 0 O O 11111111111111 ===== 11111111111111111111112111111 N 2 W VD zo wi_gr 7400-) 002 Zoe 60M 2 U Cr.") > o 0Q. W LL u co mg o co D ID) 0.. Z 0 =tad`¢ =MY.t; G1 D g rn Ln r -I b c 0 10 0' 0 0 W In 0 0 v 3 0 z 0 v H 0 W H 0 z 0 Q 0 0 1- z 0 >. 0 W 1- 0 W F 3 N to or. �. 0 -1-a110 W __• a�3 t/ 310 WWW vU1 > Zig 1.11 witu g Im J a. Ca z a a °a W fZ' W G REVISIONS: APPD. NEV #1 DATE : JULY 14, 2019 SCALE : 1/5' = 11-D DRAWN BY : N RDDEWALD JOB NO.: 25506304 SHEET NO. FP 0.00 BEAM /.MOIST r. FIG. 828 1" FIG. SCH. 4L/.' `fFIG. 980 SWIVEL 40 PIPE 1I �p q� ?' FROM VERT. LONGITUDINAL TO "1" BEAM 111 0 TOP BEAM CLAMP 12 12 3 G2I0 G2O3 I GRADE 2 n GH !=1 sr= GRADE 2 G103 MECH PLATFORM DECK 24'-6" AFF EL -21050 oik SECOND FIN FLOOR 4/11 12'-6" AFF EL=1965O FIRST FIN FLOOR O -O" AFF EL=Ia.6.00 ELEVATION VIEW SCALE: NTS VICINITY MAP ACC Without Comments As Noted in Red Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau fnr conformance with current city standards. Accepwr o R b1 to errors and omissions which no ... . i.1 « '.t dations of adopce.c standards and -e;oons' )ilii. ' for the udequaay o . r'' if ~ :. -. = , , 1„ iesigner. Additions, 1;:..d; , .. . _ r.. > .. ; N. drawings ars:e . this date will vo' ew _;1w i't:ti :fr 1 require a resubmittal or ri vis& i LSI S 1'-> it^ - subsequent approv(7,1, Final acceptance is '> r..: ':. _ -est and Inspection by The Tukwila Eire Prevent`�!-t reau. Date: 7 ,a 9 -19 By: Fire Permit Number L: S - P1) To schedule ii.v..:ectiOfls Cali 206-575-4407 PAID Y.. 15 H19 x-0,2/0 TUKWILAFIRE 1566-- 21 0 4 S SCALE - 1/S' = 1'-0' 0001) 0000 C/1/l v v� 0000 0000 0000 O 0 O O 11111111111111 ===== 11111111111111111111112111111 N 2 W VD zo wi_gr 7400-) 002 Zoe 60M 2 U Cr.") > o 0Q. W LL u co mg o co D ID) 0.. Z 0 =tad`¢ =MY.t; G1 D g rn Ln r -I b c 0 10 0' 0 0 W In 0 0 v 3 0 z 0 v H 0 W H 0 z 0 Q 0 0 1- z 0 >. 0 W 1- 0 W F 3 N to or. �. 0 -1-a110 W __• a�3 t/ 310 WWW vU1 > Zig 1.11 witu g Im J a. Ca z a a °a W fZ' W G REVISIONS: APPD. NEV #1 DATE : JULY 14, 2019 SCALE : 1/5' = 11-D DRAWN BY : N RDDEWALD JOB NO.: 25506304 SHEET NO. FP 0.00 FIRE ALARM UPG DE & MODULAR CLASSROOM ADDITION AT TUKWILA ELEMENTARY SCHOOL 5939 149TH STREET TUKWILA, WASHINGTON 98168 FIRE ALARM SYSTEM INSTALLATION DRAWINGS C gy�pq..y4v: ,N. Without Comments ❑ As Noted in Red ❑ Per The Attached Letter Y-ese plans have been reviewed by The Tukwila Fire evention Bureau tOr conformance With current City ,andards. Acce1°r.�,;c . is subject to errors and nisslons which cc not authorize violations of adopted wndards and ord+nn !c s. The responsiollicy for the _dequacy of design , :ass totally with theaesigner. .dditions, deletions :;. a.:visions to these drawings after this date will void thz acceptance and will require a resubmittal of revised .'w ngs for subsequent approval. Final acceptance Is subjrcr to field test and Inspection by TheTukwila Fire Preventcn Bureau. Date: 7-2-3-) 9 NOTICE A complete, signed, Tukwila Fire Department Pre-test Certificate must be presented to the Inspector prior to. commencement of Acceptance Testing of any Fire Alarm and Detection Systems. Failure of test will result in a Re -inspection Fee and termination of the testing Uptown Transit co Fire Permit Number Tosc: call L x,.06iu-575-x 407 -4" MIN - S 149th St 5939 South 149th Street VICINITY MAP SCALE: NTS A/C SUPPLY OR RETURN DIFFUSER 4" MIN 12" MAX TWISTED PAIR WIRE B+ B - ADDRESS DIAL ON BACK OF DETECTOR ,ti 0 0° .512441 00 SAY. 0 4`\\�.YyI (SET AS INDICATED ON PLANS) FSP -951 - FSH -951 DETECTOR INSTALLED ON B300-6 BASE EVER HERE Up S 149th PI NOTE: MEASUREMENTS SHOWN ARE TO THE CLOSEST POINT OF DETECTOR '`-CEILING-MOUNTED jI —I 36" MIN. i— HEAT DETECTOR AUDIBLE/VISUAL 6" MIN. AND/OR VISUAL ONLY APPLIANCE �a WALL -MOUNTED HEAT DETECTOR 80"-96" TO LOWEST PART OF LENS 90" MIN. WHERE CEILING HEIGHT ALLOWS AUDIBLE -ONLY APPLIANCES WALL -MOUNTED CEILING MOUNTED SMOKE DETECTOR SMOKE/HEAT DETECTOR MANUAL PULLI-5' MAX.— STATION 42"-48" i DOOR WIDTH —LESS 3'=I 6 MAGNETIC E DOOR HOLDER 2" MAX SIDE WALL "-FINISHED WALL FINISHED FLOOR ,,,,,,,,,,,,,,,,, FIRE ALARM DEVICE MOUNTING HEIGHTS SCALE: NOT TO SCALE SIGNALING LINE CIRCUIT B+ B - ADDRESSABLE DETECTOR WIRING DETAIL SCHEMATIC: NO SCALE REMOTE ANNUNCIATOR CAUTION: DO NOT LOOP WIRE UNDER TERMINAL 1 OR 2. BREAK WIRE RUN TO PROVIDE SUPERVISION OF CONNECTIONS. 6" DETECTOR BASE WIRING DETAIL SCHEMATIC: NO SCALE FROM: FACP, NAC POWER, OR PREVIOUS DEVICE CANDELA SELECT WALL MOUNTED CEILING MOUNTED CANDELA SELECT TO: NEXT DEVICE OR EOL TYPICAL L SERIES NOTIFICATION DEVICE WIRING DIAGRAM SCHEMATIC: NO SCALE IN OUT CORRECT IN FIRE ALARM SYMBOL LEGEND NOTE: ALL SYMBOLS MAY NOT BE USED ON THIS PROJECT SYMBOL - DESCRIPTION QTY MANUF. & PART # MOUNTING MOUNT IN TRANSMIT WATERFLOW SIGNAL CABINET, CHASSIS, DOOR, PANELS 1 NOTIFIER - SBB-C4 CABINET TOP @ 6'-2" NOTIFIER - SBB-C4 WITH , DP -1B, BP2-4 DR -C4, BMP1 FIRE ALARM CONTROL PANEL 1 NOTIFIER - CPU2-3030 IN FACP CABINET IN FACP CABINET UDACT DIALER 1 NOTIFIER - UDACT2 IN FACP CABINET IN FACP CABINET AUXILIARY POWER SUPPLY 1 NOTIFIER - AMPS24 IN FACP CABINET IN FACP CABINET WHERE REQUIRED FACP LOOP CONTROL MODULE (SLC1) 1 NOTIFIER - LCM-320 IN FACP CABINET IN FACP CABINET LOOP EXPANDER MODULE (SLC1) 2 NOTIFIER - LEM-320 IN FACP CABINET IN FACP CABINET NETWORK CONTROL ANNUNCIATOR 1 NOTIFIER - NCA -2 IN FACP CABINET IN FACP CABINET BATT BATTERY BOX 1 NOTIFIER - BB -55 FIELD VERIFY HOUSING INCLUDED AMPSi REMOTE POWER SUPPLY (EXISTING) E NOTIFIER - FCPS-24S8 CABINET TOP © 6'-2" IN AMPS CABINET MEE REMOTE POWER SUPPLY (EXISTING) E NOTIFIER - FCPS-24S8 CABINET TOP © 6'-2" IN AMPS CABINET .Ma REMOTE POWER SUPPLY (EXISTING) E NOTIFIER - FCPS-24S8 CABINET TOP ® 6'-2" IN AMPS CABINET MC REMOTE POWER SUPPLY (EXISTING) E NOTIFIER - FCPS-24S8 .CABINET TOP 0 6'-2" IN AMPS CABINET ME REMOTE POWER SUPPLY 1 NOTIFIER - FCPS-24S8 CABINET TOP ee 6'-2" IN AMPS CABINET 02 SMOKE DETECTOR 2NOTIFIER 1 - FSP -951 CEILING 4 SQ. DEEP W/ MUD RING - MOUNTED FLUSH CM CONTROL MODULE 1 NOTIFIER - FCM-1 FIELD VERIFY 4 SQ. DEEP - MOUNTED FLUSH E< HORN STROBE WALL MOUNTED 2 NOTIFIER - P2RL WALL ® 80-96" 4 SQ. DEEP W/ 4 SQ. SINGLE GANG MUD RING - MOUNTED FLUSH ABBREVIATION DESCRIPTION ABBREVIATION DESCRIPTION O DEVICE ADDRESS C L1D100 OR L1M100 b -OTES DENOTES LDETECTOROOP0) (D or M -DENMODULE) E EXISTING AWG AMERICAN WIRE GAUGE G WITH GUARD / PROTECTIVE COVER TWP TWISTED PAIR P PENDENT MOUNT TWSP TWISTED SHIELDED PAIR R RESIDENTIAL (110V) FPLP FIRE POWER LIMITED PLENUM 1- 14 22 TWPWP S SOUNDER BASE FPLR FIRE POWER. LIMITED RISER WIRE TYPE ABBREVIATED WP WEATHERPROOF SPQ — ,C SPEAKERS 2W WATTAGE TAP SETTING �— CONDUCTOR COUNT (0) Le- STROBE �. EOL END OF UNE RESISTOR WIRE SIZE (F OMI1 3w 75. CANDELA 30 I, SETTING EOLR END OF UNE RELAY ONLY BLES :7-- 5 OPERATIONS MATRIX it I— 0 a Q w c FIRE ALARM INPUT EL: ACTIVATE ALARM INDICATOR ACTIVATE AUDIBLE ALARM ACTIVATE SUPERVISORY INDICATOR ACTIVATE AUDIBLE SUPERVISORY SIGNAL ACTIVATE TROUBLE INDICATOR ACTIVATE AUDIBLE TROUBLE INDICATOR TRANSMIT WATERFLOW SIGNAL TRANSMIT ALARM SIGNAL TRANSMIT SUPERVISORY SIGNAL TRANSMIT TROUBLE SIGNAL ACTIVATE ALTERNATE ELEVATOR RECALL ACTIVATE PRIMARY RECALL ACTIVATE ELEVATOR SHUNT ACTIVATE FIREMAN'S HAT ACTIVATE NOTIFlCATION APPLIANCES RELEASE EGRESS MAGLOCKS/UNLOCK EXITS RELEASE MAGNETICALLY HELD SMOKE DOORS CLOSE SMOKE/FIRE DAMPERS IN RATED WALLS SHUTDOWN AIR HANDLERS IN EXCESS OF 2,000 CFM SMOKE DETECTORS HEAT DETECTORS DUCT DETECTORS PULL STATIONS PRIMARY RECALL FLR, ELEV LOBBY SMOKE DET ALTERNATE RECALL FLR, ELEV LOBBY SMOKE DET TOP OF ELEV SHAFT SMOKE DET ELEVATOR EQUIPMENT ROOM SMOKE DET ELEVATOR EQUIPMENT ROOM HEAT DET TOP OF ELEV SHAFT HEAT DET WATERFLOW SWITCHES 0 0 0 VALVE SUPERVISORY SWITCHES - LOW TEMPERATURE SWITCHES FIRE ALARM AC POWER FAIL FIRE ALARM LOW BATTERY OPEN CIRCUIT GROUND FAULT 0 0 0 - NAC SHORT CIRCUIT LOSS OF AC TO BUILDING IN :-_..._ OUT CORRECT OUT IN OUT INCORRECT WHEN INSTALLING DEVICES, CONDUCTORS SHALL NOT BE SPLICED. SPLICES OR CONNECTIONS SHALL OCCUR ONLY AT DEVICES OR APPLIANCES. WIRING METHODS SCHEMATIC: NO SCALE 1-#16/2 TWP EXISTING SLC3 5 #14/2 AWG MODULAR CLASSROOM SMOKE DETECTORS Q Q Q 02 D— EXISTING SLC3 FCPS-24S8 POWER -TRS. SUPPLY CM— f OUT IN AUX AMPS5 1I 00000 .riv ., BATTERY I BATTERY} MODULAR CLASSROOM NAC 75 75 EOL g< E< \AAA, #14/2 AWG AMPS1 E #14/2 AWG EXISTING \-14 EXISTING AWG NO CONDUIT IN BOTTOM OF CAN 120 VAC DEDICATED CKT. LIGHTNING ARRESTOR EOL MA& 102 FIRE ALARM RISER DIAGRAM SCHEMATIC: NO SCALE E E GENERAL NOTES: 1. SCOPE OF WORK: THIS PROJECT SHALL INCLUDE: REMOVAL OF EXISTING FIRE ALARM CONTROL PANEL HEAD END AND REPLACE WITH NEW ADDRESSABLE FIRE ALARM CONTROL PANEL. EXISTING CIRCUITING AND SLC DEVICES SHALL REMAIN COMPATIBLE WITH NEW FACP. CONNECT EXISTING CIRCUITS TO NEW FACP. INSTALL NEW POWER SUPPLY NEXT TO FACP TO POWER NEW HORNS IN MODULAR CLASSROOMS AND TRIGGER EXISTING POWER SUPPLIES. REMOVE AND REPLACE ALL NOTIFICATION APPLIANCES THROUGHT BUILDING REUSE ALL EXISTING POWER SUPPLIES, WIRING AND BACK BOXES. PROVIDE AND INSTALL NEW WIRING AND DEVICES IN NEW MODULAR CLASSROOM BUILDING. CONNECT SMOKE DETECTORS TO NEAREST EXISTING CIRCUIT. FIELD VERIFY AND MAINTAIN EXISTING WIRING, CIRCUITING, AND WIRE STYLE. 2. THESE DRAWINGS ARE DIAGRAMMATIC. REFER TO THE ARCHITECTURAL DRAWINGS FOR EXACT DIMENSIONS. 3. INSTALLATION SHALL COMPLY WITH NEC, NFPA 72 AND ALL OTHER APPLICABLE CODES AS REQUIRED BY THE LOCAL AUTHORITY HAVING JURISDICTION. 4. WIRING DEPICTED ON THESE PLANS IS SCHEMATIC - ACTUAL WIRE LOCATIONS MAY DIFFER FROM THESE PLANS. WIRING SHALL BE PERFORMED AS ACTUAL BUILDING CONSTRUCTION CONDITIONS ALLOW AND TO MINIMIZE PENETRATIONS THROUGH AREA SEPARATION WALLS AND FIRE WALLS. THE USE OF A RACEWAY IS PERMITTED AS LONG AS NO 110V OR HIGHER VOLTAGE CABLES ARE IN THE SAME RACEWAY. 5. FIRE RATINGS SHALL BE MAINTAINED FOR ALL PENETRATIONS THROUGH FIRE -RATED CONSTRUCTION. 6. POWER FOR ALL FIRE ALARM PANELS AND FIRE ALARM POWER SUPPLIES MUST BE PROVIDED BY A DEDICATED AC BRANCH CIRCUIT. THE LOCATION OF THE BRANCH CIRCUIT BREAKER SHALL BE PERMANENTLY IDENTIFIED AT THE CONTROL UNIT AND SHALL HAVE A RED MARKING IN ACCORDANCE WITH NFPA 72. 7. POWER -LIMITED AND NONPOWER -LIMITED CIRCUIT WIRING MUST REMAIN SEPARATED IN CABINET. ALL POWER -LIMITED CIRCUIT WIRING MUST REMAIN AT LEAST 0.25" AWAY FROM ANY NONPOWER -LIMITED CIRCUIT WIRING. FURTHERMORE, ALL POWER -LIMITED AND NONPOWER -LIMITED CIRCUIT WIRING MUST ENTER AND EXIT THE CABINET THROUGH DIFFERENT KNOCK OUTS AND/OR SEPARATE CONDUITS. 8. WHEN UTILIZING CLASS "A" CIRCUITS, SEPARATE OUTGOING AND RETURN CONDUCTORS OF CLASS "A" CIRCUITS BY A MINIMUM OF 12" WHERE RUN VERTICALLY AND 48" WHERE RUN HORIZONTALLY. 9. WHEN UTILIZING SHIELDED CABLE TIE SHIELDS THROUGH AND INSULATE AT EACH JUNCTION BOX. INSULATE AND TAPE BACK AT END. 10. ALL FIRE ALARM CABLING SHALL BE ACCEPTABLE TO THE FIRE ALARM EQUIPMENT MANUFACTURER FOR THE INTENDED PURPOSE. 11. SMOKE DETECTORS SHALL NOT BE INSTALLED UNTIL AFTER CONSTRUCTION CLEAN-UP IS COMPLETED AND FINAL. 12. LOCATE SMOKE DETECTORS A MINIMUM OF THREE (3) FEET FROM MECHANICAL DIFFUSERS. WALL -MOUNTED SMOKE DETECTORS SHALL BE LOCATED A MINIMUM OF 4" AND A MAXIMUM OF 12" FROM CEILING. 13. PROVIDE SYNCHRONIZATION OF ALL VISUAL NOTIFICATION APPLIANCE CIRCUITS. PROVIDE ALL REQUIRED SYNC MODULES. PROVIDE A MULTI -SYNC MODE SLAVE CONNECTION BETWEEN ALL SYNC MODULES. 14. VERIFY ALL FIELD SELECTABLE AUDIBILITY SETTINGS OF NOTIFICATION APPLIANCES WITH FIRE ALARM CONTRACTOR. 15. UPON COMPLETION OF THE FIRE ALARM SYSTEM INSTALLATION AND PROGRAMMING, THE INSTALLING CONTRACTOR SHALL PERFORM FINAL TESTING OF THE ENTIRE SYSTEM, PER ALL APPLICABLE CODES, AND SHALL COORDINATE AND PERFORM A FINAL FIRE ALARM SYSTEM INSPECTION. 16. PROVIDE OFF-SITE MONITORING AS REQUIRED BY THE INTERNATIONAL FIRE CODE, SECTION 907.6.5 AND THE LOCAL AUTHORITY HAVING JURISDICTION. 17. INSTALLING CONTRACTOR SHALL, PHYSICALLY, LABEL ALL INITIATING DEVICES AND NOTIFICATION APPLIANCE CIRCUIT END OF LINE (WHEN WIRING CLASS "B"). THESE LABELS SHALL BE IN PLACE PRIOR TO START-UP AND TESTING. FIRE ALARM SHEET INDEX PAGE FA -1 FIRE ALARM LEGEND, MATRIX, DETAILS, INDEX, RISER 1 FA -2' FIRE ALARM PLAN 2 FA -3 FIRE ALARM BATTERY CALCULATIONS 3 CIRCUIT LEGEND CALLOUT EXAMPLE CIRCUIT TYPE WIRE TYPE & QTY CLASS s -C NOTIFICATION CKT. #14/2 AWG SOLID FIRE RATED CLASS B i e -D SIGNAL LINE CKT. #16/2 AWG TWISTED PAIR SOLID FIRE RATED CLASS B PAID 13 2O1 TU`,'':'!-_. FIRE 3 j .1111, NICET III Fire Alarm Systems Cory W. Hews ET/ Signature Date: 7/10919 Fire Protection Engineering Technology Fire Alarm Systems Cert. No. 112381 Exp 12/1/2019 shop drawings created by. Inc. 5794 W. 4800 So.uNioAD Hooper, UT 84315 Office: 801.985.0410 www.unicod.net w 0 DESCRIPTION ISSUED FOR REVIEW & APPROVAL z 0 C F7iz TUKWILA ELEMENTARY SCHOOL 5939 149TH STREET TUKWILA, WA 98168 FIRE ALARM LEGEND, MATRIX, DETAILS, INDEX, RISER DRAWN CORY W. HAWS UNICAD JOB #19296 CHECKED CORY W. HAWS NICET III 112381 DATE 7/10/2019 REVISION 0 SCALE 1/8"=1'-O" FA -1 MECH/ELECT FIRE ALARM PLAN SCALE: 1/8"=1'--0" 0 4' 8' 16' SLC CKT3. CTD. FROM NAC CKT. CTD. FROM 75 EXISTING SLC CKT. NEW POWER SUPPLY IN ELECTRICAL RM BY FACP c SLC CKT3. CTD. TO EXISTING SLC CKT. MODULAR CLASSROOM MODULAR CLASSROOM MODULAR CLASSROOM FIRE ALARM PLAN SCALE: 1/8"=1'-0" SHEET NOTES: Qi EXISTING FIRE ALARM CONTROL PANEL TO BE REMOVED AND UPGRADED WITH NEW ADDRESSABLE FIRE ALARM CONTROL PANEL. EXISTING SLC DEVICES SHALL BE COMPATAIBLE WITH NEW FIRE ALARM CONTROL PANEL HEAD END UNIT. FIELD VERIFY LOCATION(S) AND DEVICE ADDRESSES OF EXISTING DEVICES. Q PROVIDE AND INSTALL INITIATING DEVICE(S). CONNECT NEW DEVICE(S) TO NEAREST EXISTING SLC. INSTALLING CONTRACTOR SHALL FIELD VERIFY EXISTING CIRCUIT. MAINTAIN EXISTING WIRE STYLE. CLASS, AND SUPERVISION. <> PROVIDE AND INSTALL NOTIFICATION APPLIANCE(S). CONNECT CIRCUIT FOR NEW DEVICES NEW FIRE ALARM POWER SUPPLY LOCATED IN ELECTRICAL ROOM NEXT TO FIRE ALARM CONTROL PANEL. 0 4' 8' 16' FIRST FLOOR FIRE ALARM PLAN SCALE: 1/16"=1' —0" 0 8' 16' 32' Cory W. Firs ET / Signature Date: 7/10/2019 Fire Protection Engineering Technology Fire Alarm Systems Cert. No. 112381 Exp 12/1/2019 shop drawings created by: 5794 W. 4600 So. Hooper, UT 84315 Office: 801.985.0410 www.unicad.net W DESCRIPTION ISSUED FOR REVIEW & APPROVAL z 0 t>_A O > 3 C,) z 0 W LL Q V 0 J 2 CD2 J W J CD C/) TUKWILA ELEMENTARY SCHOOL 5939 149TH STREET TUKWILA, WA 98168 FIRE ALARM PLAN DRAWN CORY W. HAWS UNICAD JOB #19296 CHECKED CORY W. HAWS NICET III 112381 DATE 7/10/2019 REVISION 0 SCALE 1 /8"=1'-0" FA -2 AMPS1 BATTERY PROJECT NAME: Required Standby Time: Required Alarm Time: CALCULATION 7/10/2019 TUKWILA ELEM 24 5 Hours Minutes AC Branch Current AC Branch Current: Amps 0 120V Regulated Load in Standby Device Type Number of Devices x 0.00000 = 0.00000 Current (Amps) x 0.13000 = 0.13000 Total Current (Amps) FCPS-24 MAIN CKT BOARD 1 X 0.06500 = 0.06500 TOTAL STANDBY LOAD 0.06500 Regulated Load in ALARM Device Type Number of Devices 2 Current (Amps) x 0.10000 = 0.20000 Total Current (Amps) FCPS-24 MAIN CKT BOARD AMPS1-1 (See Voltage Drop Calculations) AMPS1-2 (See Voltage Drop Calculations) AMPS1-3 (See Voltage Drop Calculations) AMPS1-4 (See Voltage Drop Calculations) 1 1 1 1 1 X X X X X 0.14500 0.376000 0.987000 0.449000 0.566000 = = = = = 0.14500 0.376000 0.987000 0.449000 0.566000 TOTAL ALARM LOAD 2.52300 Battery Requirements Standby Load Required Standby Time in Hours Current (Amps) 0.06500 X 24.00000 = 1.56000 Alarm Load Required Alarm Time in Hours Current (Amps) 2.52300 X 0.08333 = 0.21025 Total Ampere Hours (before derating factor) 1.77025 Derating Factor X 1.2 TOTAL AMPERE HOURS REQUIRED = 2.12430 BATTERIES TO BE PROVIDED (1 - 12v) 7 All Notifier NFS2-3030 Fire Alarm Control Panel Protected Premises: TUKWILA ELEMENTARY Address: 5939 149TH STREET Date: 7/1 0/201 9 City. TU KWI LA State: WASHINGTON Zip: 9 81 68 Prepared By. C HAWS Phone: 801-710-9959 Address: 5794 W 4600 S Email: CORYCcaUNICAD.NET City. HOOPER State: UTAH Zip: 84315 Clear Project Information AC Branch Current Requirements Current required by source to power the fire alarm system. 5.00 AMPS 120 VAC Check I Primary Standby Load Current load on the primary power supply during non -alarm conditions. Primary Alarm Load Current load on the primary power supply during alarm conditions. 1.70 1.74 Amps Amps p Check I Check Secondary Load Requirements 44.29^ Total Secondary Load from the calculation table below. Amp Hours Check Current Draw Secondary Standby Load 1.532 A Secondary Alarm Load 1.667 A x x Time (hours Tota AH Required Standby Time 24 hours 36.77 Required Alarm Time 0.084 hours Total Seconda Load t; USA t" Canada Derating factor Seconda Load Requirements 0.14 36.91 x 1.2 44.29 Battery Selection Select batteries from the list below. 55 55 AH BAT -12550 Battery(1 2 volt) r: Two r Four (two 12VDC sets in parallel) Amp Hours Check I AH Battery Distribution Chart Shows amp -hour distribution of your selections. Secondary Alarm Load 0% Spare Battery Capacity 20% e9 Spare Battery Capacity o Secondary Standby Wad Secondary Alarm Load Comments 1. Battery size exceeds FACPcapacity. BB -55 or other external battery box 2. Selected battery size meets secondary load requirements. 3. The selected batteries (55AH) are within the charger range of this power supply(12-60AH). Spare Battery Capacity 10.71 Battery Selection (AH) -Secondary Load Requirements (AH) Secondary Standby Load 44.12 Secondary Standby Load (AH)"Derating Factor Secondary Alarm Load 0.17 Secondary Alarm Load (AH) "Derating Factor l NOTIFIER& by Honeywell NFS2-3030 device Qty Fire Alarm Control current draw] =total current Primary Non -Alarm x 0.12000 = 0.12000 CC Tarte [)[,31.':l Panel draw per device (in amps) ; Primary Alarm ;; x 0.12000 = 0.12000 Secondary Non -Alarm x 0.12000 = 0.12000 Quantity x Part Number CPU 2-3030 1 AMPS -24 1 x 0.00000 = 0.00000 x 0.00000 = 0.00000 x 0.13000 = 0.13000 1 0. - : ac ig • ' with oss o , ' 1 x [0.40000] = 0.40000 x [0.40000] = 0.40000 x [020000] = 0.20000 LCM-320 1 x [0.13000] = 0.13000 x [0.13000] = 0.13000 x [0.13000] = 0.13000 LEM-320 2 x 0.10000 = 0.20000 x 0.10000 = 0.20000 x 0.10000 = 0.20000 S LC Dev ice Activation Current 3 x 0.20000 =0.60000 x 0.20000 =0.60000 x 0.20000 =0.60000 FCPS-24S6 Power Su • • lies 5 x 0.00000 = 0.00000 x 0.00000 = 0.00000 x 0.00000 = 0.00000 LCD -80, LCD-80TM 2 x 0.10000 =020000 x 0.10000 = 0.20000 x 0.05000 = 0.10000 UDACT-2 Communicator 1 x 0.05200 =0.05200 x 0.08700 =0.08700 x 0.05200 =0.05200 Tota[ (Amperes): Part Number 1 Qty 1 1.7020 A 1.7370 A 1.5320 A , Alarm Secondary x [1.73700] =1.73700 System Sensor P2RL 15 0.054 Total Primary Alarm Load - C2 AMPS -24 1 x 0.13000 =0.13000 NCA2 - Backli • ht Off with loss of AC 1 x -0.20000 = -0.20000 1.6670 A Total (Amperes): AMPS2 BATTERY PROJECT NAME: Required Standby Time: Required Alarm Time: CALCULATION 7/10/2019 TUKWILA ELEM 24 5 Hours Minutes AC Branch Current AC Branch Current: Amps 0 120V ( Regulated Load in Standby Device Type Number of Devices . Nominal System Voltage Current (Amps) volts Wire Total Current (Amps) FCPS-24 MAIN CKT BOARD 1 X 0.06500 = 0.06500 TOTAL STANDBY LOAD 0.06500 Regulated Load in ALARM I Device Type Number of Devices 14 Current (Amps) Total Circuit Current Total Current (Amps) FCPS-24 MAIN CKT BOARD AMPS2-1 (See Voltage Drop Calculations) AMPS2-2 (See Voltage Drop Calculations) AMPS2-3 (See Voltage Drop Calculations) AMPS2-4 (See Voltage Drop Calculations) _ 1 1 1 1 1 X X X X X 0.14500 0.972000 1.077000 0.652000 0.945000 = = = = = 0.14500 0.972000 1.077000 0.652000 0.945000 1 TOTAL ALARM LOAD 3.79100 Battery Requirements Standby Load Required Standby Time in Hours Current (Amps) 0.06500 X 24.00000 = 1.56000. Alarm Load ' Required Alarm Time in Hours Current (Amps) 3.79100 X 0.08333 = 0.31592 Total Ampere Hours (before derating factor) 1.87592 Derating Factor X 1.2 TOTAL AMPERE HOURS REQUIRED = 2.25110 BATTERIES TO BE PROVIDED (1 - 12v) 7 AH Point to Point NAC Voltage Drop Calculation 7/10/2019 1 24 5 Hours Minutes Project Name I Name TUKWILA ELEM Circuit Number Circuit Number I Ckt # AMPS1-1 Nominal System Voltage Nominal System Voltage volts Wire volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 1 3.00 amps 14 3.07 Total Circuit Current 0.376 amps 1 1 1 1 1 Total Circuit Distance Total Circuit Distance 500.00 feet End of Line Voltage End of Line Voltage 19.25 volts Total Voltage Drop Total Voltage Drop 1.15 volts Percent Voltage Drop Percent Voltage Drop 5.66% 1 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Notes: Manufacturer Model Candela Manufacturer Model Candela Current Quantity Subtotal System Sensor P2RL 15 0.054 System Sensor P2RL 15 0.054 1 0.054 System Sensor P2RL 75 0.121 System Sensor P2RL 75 0.121 2 0.242 System Sensor SRL 15 0.043 System Sensor SRL 30 0.063 1 0.063 System Sensor SRL 30 0.063 System Sensor MDLW , - 0.017 1 0.017 System Sensor MDLW ' - 0.017 Total Current 0.376 0.017 Notes: i Total Current 0.987 Wire resistance is doubled in the calculations for two wires (Positive and Negative). Notes: The voltage calculated to the last device must not be lower than the manufactures listed Wire resistance is doubled in the calculations for two wires (Positive and Negative). minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). The voltage calculated to the last device must not be lower than the manufactures listed Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM Name TUKWILA ELEM Circuit Number Ckt # AMPS1-2 Ckt # AMPS1-3 Nominal System Voltage Nominal System Voltage volts Wire Resistance 20.4, Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 0 3.07 Total Circuit Current 0.987 amps amps 1 1 1 1 1 Total Circuit Distance 500.00 feet feet End of Line Voltage 17.37 volts volts Total Voltage Drop 3.03 volts volts Percent Voltage Drop 14.85% 6.76% 1 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Notes: Manufacturer Model Candela Current Quantity Subtotal Subtotal System Sensor P2RL 15 0.054 5 0.27 0.27 System Sensor P2RL 75 0.121 1 0.121 0.162 System Sensor SRL 15 0.043 12 0.516 0.017 System Sensor SRL 30 0.063 1 0.063 Notes: System Sensor MDLW ' - 0.017 1 0.017 The voltage calculated to the last device must not be lower than the manufactures listed i Total Current 0.987 minimum operating voltage (lE: rated operating voltage 16-33 VDC (24 VDC nominal)). Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (lE: rated operating voltage 10-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 I 24 5 Hours Minutes Project Name Name TUKWILA ELEM Circuit Number Circuit Number I Ckt # AMPS1-3 Nominal System Voltage Nominal System Voltage volts Wire volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.449 amps 1 1 1 1 1 Total Circuit Distance Total Circuit Distance 500.00 feet End of Line Voltage End of Line Voltage 19.02 volts Total Voltage Drop Total Voltage Drop 1.38 volts Percent Voltage Drop Percent Voltage Drop 6.76% 1 CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Notes: Manufacturer Model Candela Manufacturer Model Candela Current Quantity Subtotal 0.216 System Sensor P2RL ' 15 0.054 5 0.27 0.121 System Sensor P2RL 110 0.162 1 0.162 0.086 System Sensor MDLW - 0.017 1 0.017 0.126 Total Current 0.449 System Sensor MDLW ' - 0.017 Notes: 0.017 Wire resistance is doubled in the calculations for two wires (Positive and Negative). Total Current 0.566 The voltage calculated to the last device must not be lower than the manufactures listed Notes: minimum operating voltage (lE: rated operating voltage 16-33 VDC (24 VDC nominal)). Wire resistance is doubled in the calculations for two wires (Positive and Negative). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS1-4 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current3.00 Regulated Load in ALARM amps 14 3.07 Total Circuit Current 0.566 amps FCPS-24 MAIN CKT BOARD AMPS3-1 (See Voltage Drop Calculations) AMPS3-2 (See Voltage Drop Calculations) AMPS3-3 (See Voltage Drop Calculations) AMPS3-4 (See Voltage Drop Calculations) 1 1 1 1 1 Total Circuit Distance 500.00 feet 0.14500 0.870000 0.434000 0.658000 0.837000 End of Line Voltage 18.66 volts Alarm Load Required Alarm Time in Hours Current (Amps) 2.94400 X 0.08333 = 0.24533 Total Voltage Drop 1.74 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 8.52% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal Quantity System Sensor P2RL 15 0.054 4 0.216 2 System Sensor P2RL 75 0.121 1 0.121 7 System Sensor SRL 15 0.043 2 0.086 1 System Sensor SRL 30 0.063 2 0.126 1 System Sensor MDLW ' - 0.017 1 0.017 Total Current 0.566 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). AMPS3 BATTERY PROJECT NAME: Required Standby Time: Required Alarm Time: _ CALCULATION 7/10/2019 TUKWILA ELEM 24 5 Hours Minutes AC Branch Current AC Branch Current: Amps 0 120V Regulated Load in Standby Device Type Number of Devices Nominal System Voltage Current (Amps) volts Wire Total Current (Amps) FCPS-24 MAIN CKT BOARD 1 X 0.06500 = 0.06500 TOTAL STANDBY LOAD 0.06500 Regulated Load in ALARM Device Type Number of Devices 3.07 Current (Amps) 0.972 Total Current (Amps) FCPS-24 MAIN CKT BOARD AMPS3-1 (See Voltage Drop Calculations) AMPS3-2 (See Voltage Drop Calculations) AMPS3-3 (See Voltage Drop Calculations) AMPS3-4 (See Voltage Drop Calculations) 1 1 1 1 1 X X X X X 0.14500 0.870000 0.434000 0.658000 0.837000 = = = = = 0.14500 0.870000 0.434000 0.658000 0.837000 TOTAL ALARM LOAD 2.94400 Battery Requirements Standby Load Required Standby Time in Hours Current (Amps) 0.06500 X 24.00000 = 1.56000 Alarm Load Required Alarm Time in Hours Current (Amps) 2.94400 X 0.08333 = 0.24533 Total Ampere Hours (before derating factor) 1.80533 Derating Factor X 1.2 TOTAL AMPERE HOURS REQUIRED = 2.16640 BATTERIES TO BE PROVIDED (1 - 12v) 7 Al! Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS2-1 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.972 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.622000 0.838000 0.542000 0.000000 End of Line Voltage 17.42 volts Alarm Load Required Alarm Time in Hours Current (Amps) 2.14700 X 0.08333 = 0.17892 Total Voltage Drop 2.98 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 14.63% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 15 0.054 2 0.108 2 System Sensor P2RL 75 0.121 7 0.847 1 System Sensor MDLW - 0.017 1 0.017 3 Total Current 0.972 1 Notes: 1 Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS2-2 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau•e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 1.077 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.622000 0.838000 0.542000 0.000000 End of Line Voltage 17.09 volts Alarm Load Required Alarm Time in Hours Current (Amps) 2.14700 X 0.08333 = 0.17892 Total Voltage Drop 3.31 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 16.21% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 15 0.054 3 0.162 2 System Sensor P2RL 75 0.121 3 0.363 1 System Sensor SRL 75 0.107 5 0.535 3 System Sensor MDLW - 0.017 1 0.017 1 Total Current 1.077 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS2-3 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau•e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.652 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.622000 0.838000 0.542000 0.000000 End of Line Voltage 18.40 volts Alarm Load Required Alarm Time in Hours Current (Amps) 2.14700 X 0.08333 = 0.17892 Total Voltage Drop 2.00 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 9.81% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 15 0.054 2 0.108 2 System Sensor P2RL 75 0.121 4 0.484 1 System Sensor SRL 15 0.043 1 0.043 3 System Sensor MDLW - 0.017 1 0.017 1 Total Current 0.652 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS2-4 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.945 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.622000 0.838000 0.542000 0.000000 End of Line Voltage 17.50 volts Alarm Load Required Alarm Time in Hours Current (Amps) 2.14700 X 0.08333 = 0.17892 Total Voltage Drop 2.90 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 14.22% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 15 0.054 2 0.108 2 System Sensor P2RL 110 0.162 4 0.648 1 System Sensor SRL 15 0.043 4 0.172 3 System Sensor MDLW - 0.017 1 0.017 1 Total Current 0.945 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). AMPS4 BATTERY PROJECT NAME: Required Standby Time: Required Alarm Time: CALCULATION 7/10/2019 TUKWILA ELEM 24 5 Hours Minutes AC Branch Current AC Branch Current: Amps 0 120V Regulated Load in Standby Device Type Number of Devices Nominal System Voltage Current (Amps) volts Wire Total Current (Amps) FCPS-24 MAIN CKT BOARD 1 X 0.06500 = 0.06500 TOTAL STANDBY LOAD 0.06500 Regulated Load in ALARM Device Type Number of Devices 3.07 Current (Amps) 0.870 Total Current (Amps) FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 X X X X X 0.14500 0.622000 0.838000 0.542000 0.000000 = = = = = 0.14500 0.622000 0.838000 0.542000 0.000000 TOTAL ALARM LOAD 2.14700 Battery Requirements Standby Load Required Standby Time in Hours Current (Amps) 0.06500 X 24.00000 = 1.56000 Alarm Load Required Alarm Time in Hours Current (Amps) 2.14700 X 0.08333 = 0.17892 Total Ampere Hours (before derating factor) 1.73892 Derating Factor X 1.2 TOTAL AMPERE HOURS REQUIRED = 2.08670 BATTERIES TO BE PROVIDED (1 - 12v) 7 Al! Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS3-1 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau • e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.870 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.242000 0.040000 0.040000 0.000000 End of Line Voltage 17.73 volts Alarm Load Required Alarm Time in Hours Current (Amps) 0.46700 X 0.08333 = 0.03892 Total Voltage Drop 2.67 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 13.09% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 75 0.121 5 0.605 2 System Sensor P2RL 110 0.162 1 0.162 1 System Sensor SRL 15 0.043 2 0.086 3 System Sensor MDLW - 0.017 1 0.017 1 Total Current 0.870 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS3-2 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.434 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.242000 0.040000 0.040000 0.000000 End of Line Voltage 19.07 volts Alarm Load Required Alarm Time in Hours Current (Amps) 0.46700 X 0.08333 = 0.03892 Total Voltage Drop 1.33 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 6.53% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal 2 System Sensor P2RL 15 0.054 1 0.054 2 System Sensor P2RL 75 0.121 3 0.363 1 System Sensor MDLW - 0.017 1 0.017 3 Total Current 0.434 Notes: 1 Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS3-3 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.658 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.242000 0.040000 0.040000 0.000000 End of Line Voltage 18.38 volts Alarm Load Required Alarm Time in Hours Current (Amps) 0.46700 X 0.08333 = 0.03892 Total Voltage Drop 2.02 volts System Sensor P2RL 75 0.121 Percent Voltage Drop 9.90% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). System Sensor P2RL 15 0.054 2 0.108 4 System Sensor P2RL 75 0.121 2 0.242 5 System Sensor P2RL 110 0.162 1 0.162 1 System Sensor SRL 15 0.043 3 0.129 System Sensor MDLW - 0.017 1 0.017 Total Current 0.658 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name 24 5 Hours Minutes Name TUKWILA ELEM AC Branch Current: Amps 0 120V Circuit Number Ckt # AMPS3-4 Number of Devices Nominal System Voltage Current (Amps) volts Wire Resistance 20.4, Minimum Device Voltage 16.0 volts Gau • e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.837 amps FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 Total Circuit Distance 500.00 feet 0.14500 0.242000 0.040000 0.040000 0.000000 End of Line Voltage 17.83 volts Alarm Load Required Alarm Time in Hours Current (Amps) 0.46700 X 0.08333 = 0.03892 Total Voltage Drop 2.57, volts System Sensor P2RL 75 0.121 Percent Voltage Drop 12.60% System Sensor MDLW - 0.017 1 CIRCUIT IS WITHIN LIMITS Total Current 0.622 Notes: Manufacturer Model Candela Current Quantity Subtotal minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). System Sensor P2RL 75 0.121 5 0.605 4 System Sensor SRL 15 0.043 5 0.215 5 System Sensor MDLW - 0.017 1 0.017 1 Total Current 0.837 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). AMPS5 BATTERY PROJECT NAME: Required Standby Time: Required Alarm Time: CALCULATION 7/10/2019 TUKWILA ELEM 24 5 Hours Minutes AC Branch Current AC Branch Current: Amps 0 120V Regulated Load in Standby Device Type Number of Devices 20.4, Current (Amps) 16.0, Total Current (Amps) FCPS-24 MAIN CKT BOARD 1 X 0.06500 = 0.06500 TOTAL STANDBY LOAD 0.06500 I Regulated Load in ALARM Device Type Number of Devices 500.00 Current (Amps) End of Line Voltage Total Current (Amps) FCPS-24 MAIN CKT BOARD AMPS4-1 (See Voltage Drop Calculations) AMPS4-2 (See Voltage Drop Calculations) AMPS4-3 (See Voltage Drop Calculations) AMPS4-4 (See Voltage Drop Calculations) 1 1 1 1 0 X X X X _ X 0.14500 0.242000 0.040000 0.040000 0.000000 = = = = = 0.14500 0.242000 0.040000 0.040000 0.000000 TOTAL ALARM LOAD 0.46700 Battery Requirements Standby Load Required Standby Time in Hours Current (Amps) ! 0.06500 X 24.00000 = 1.56000 Alarm Load Required Alarm Time in Hours Current (Amps) 0.46700 X 0.08333 = 0.03892 Total Ampere Hours (before derating factor) 1.59892 Derating Factor X 1.2 TOTAL AMPERE HOURS REQUIRED = 1.91870 BATTERIES TO BE PROVIDED (1 - 12v) 7 Al! Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Project Name Name TUKWILA ELEM Circuit Number Ckt # AMPS4-1 Nominal System Voltage Circuit Number volts Wire Resistance 20.4, Minimum Device Voltage Max Output Current 16.0, volts amps Gau.e Per 1000 3.07 3.0 14 Total Circuit Current 0.622 amps 3.00 amps Total Circuit Distance 500.00 feet End of Line Voltage 18.49 volts Total Voltage Drop 1.91, volts Percent Voltage Drop 9.36% End of Line Voltage CIRCUIT IS WITHIN LIMITS volts Manufacturer Model Candela Current Quantity Subtotal System Sensor P2RL 75 0.121 5 0.605 System Sensor MDLW - 0.017 1 0.017 Total Current 0.622 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Name TUKWILA ELEM Circuit Number Ckt # AMPS4-2 Nominal System Voltage Resistance Per 1000 3.07 volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau.e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.838 amps Total Current 0.242 Total Circuit Distance 500.00 feet End of Line Voltage 17.83 volts Total Voltage Drop 2.57 volts Percent Voltage Drop 12.61% CIRCUIT IS WITHIN LIMITS Manufacturer Model Candela Current Quantity Subtotal 3 System Sensor P2RL 15 0.054 4 0.216 3 System Sensor P2RL 75 0.121 5 0.605 1 System Sensor MDLW - 0.017 1 0.017 Total Current 0.838 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Name TUKWILA ELEM Circuit Number Ckt # AMPS4-3 Nominal System Voltage Resistance Per 1000 3.07 volts Wire Resistance 20.4 Minimum Device Voltage 16.0 volts Gau • e Per 1000 Max Output Current 3.00 amps 14 3.07 Total Circuit Current 0.542 amps Total Current 0.242 Total Circuit Distance 500.00 feet End of Line Voltage 18.74 volts Total Voltage Drop 1.66 volts Percent Voltage Drop 8.16% CIRCUIT IS WITHIN LIMITS Manufacturer Model Candela Current Quantity Subtotal System Sensor P2RL 15 0.054 3 0.162 System Sensor P2RL 75 0.121 3 0.363 System Sensor MDLW - 0.017 1 0.017 Total Current 0.542 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Max Output Current Total Circuit Current Total Circuit Distance End of Line Voltage Total Voltage Drop Percent Voltage Drop Name TUKWILA ELEM Ckt # AMPS5-1 volts Wire volts Gau.e Resistance Per 1000 3.07 20.4 16.0 3.00 amps 14 0.242 amps feet volts volts 500.00 19.66 0.74 3.64% CIRCUIT IS WITHIN LIMITS Current 0.121 Quantity Subtotal Manufacturer Model Candela System Sensor P2RL 75 I 2 I 0.242 Total Current 0.242 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Max Output Current Total Circuit Current Total Circuit Distance End of Line Voltage Total Voltage Drop Percent Voltage Drop Name TUKWILA ELEM Ckt # AMPS5-2 volts Wire volts Gau.e Resistance Per 1000 3.07 20.4 16.0 3.00 amps 14 0.040 amps feet volts volts 500.00 20.28 0.12 0.60% CIRCUIT IS WITHIN LIMITS Current 0.02 Quantity Subtotal Manufacturer Model Candela Notifier FCPS-24 - I 2 I 0.04 Total Current 0.040 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). Point to Point NAC Voltage Drop Calculation 7/10/2019 Project Name Circuit Number Nominal System Voltage Minimum Device Voltage Max Output Current Total Circuit Current Total Circuit Distance End of Line Voltage Total Voltage Drop Percent Voltage Drop Name TUKWILA ELEM Ckt # AMPS5-3 volts Wire volts Gau•e Resistance Per 1000 3.07 20.4 16.0 3.00 amps 14 0.040 amps feet volts volts 500.00 20.28 0.12 0.60% CIRCUIT IS WITHIN LIMITS Current 0.02 I Quantity Subtotal Manufacturer Model Candela Notifier FCPS-24 - 2 I 0.04 Total Current 0.040 Notes: Wire resistance is doubled in the calculations for two wires (Positive and Negative). The voltage calculated to the last device must not be lower than the manufactures listed minimum operating voltage (IE: rated operating voltage 16-33 VDC (24 VDC nominal)). NICET III Fire Alarm Systems 1 r1 / Cory W. Haws ET / Signature Date: 7/10/2019 Fire Protection Engineering Technology Fire Alarm Systems Cert. No. 112381 Exp 12/1/2019 shop drawingsu imicA created by Inc. 5794 W. 4800 So. Hooper, UT 84315 Office: 801.985.0410 www.unlcod.net rn N r` DESCRIPTION ISSUED FOR REVIEW & APPROVAL 2 0 VN 0 Cr) z 0 W U. 0 J 2 C9 2 J LU TUKWILA ELEMENTARY SCHOOL 5939 149TH STREET TUKWILA, WA 98168 FIRE ALARM BATTERY CALCULATIONS DRAWN CORY W. HAWS UNICAD JOB #19296 CHECKED CORY W. HAWS NICET III 112381 DATE 7/10/2019 REVISION 0 SCALE 1 /8"=1'-0" FA -3