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Home My WebLink AboutPermit M11-030 - CORELINK DATA CENTER - GENERATORCORELINK DATA CENTER GENERATOR 3311 S 120 PL M11-030 City of/Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Inspection Request Line: 206 - 431 -2451 Web site: http: //www.ci.tukwila.wa.us MECHANICAL, PERMIT Parcel No.: 1023049069 Address: 3311 S 120 PL TUKW Project Name: CORELINK DATA CENTER - GENERATOR Permit Number: Issue Date: Permit Expires On: M11 -030 04/04/2011 10/01/2011 Owner: Name: SABEY CORPORATION Address: 12201 TUKWILA INTL BLVD 4TH FL , SEATTLE WA 98168 Contact Person: Name: Address: Email: PAT BURKE 900 N 34 ST, SUITE 108 , SEATTLE WA 98103 PATB@TITANELECTRIC.NET Contractor: Name: TITAN ELECTRIC INC Address: 900 N 34 ST, SUITE 108 , SEATTLE WA 98103 Contractor License No: TITANEI963OB Phone: 206 - 235 -2570 Phone: 206 - 633 -2811 Expiration Date: 09/02/2012 DESCRIPTION OF WORK: INSTALL GENERATOR AND GENERATOR PAD IN EXISTING EQUIPMENT YARD Value of Mechanical: 450,000.00 Type of Fire Protection: UNKNOWN Electrical Service Provided by: Permit Center Authorized Signature: I hereby certify that I have read and governing this work will be complie The granting of this permit does construction or the perform back of this permit. Signature: Fees Collected: $4,644.56 International Mechanical Code Edition: 2009 Date: tLOLA11 xam ned this permit and know the same to be true and correct. All provisions of law and ordinances with whether specified herein or not. e to give authority to violate or cancel the provisions of any other state or local laws regulating am authorized to sign and obtain this mechanical permit and agree to the conditions on the Print Name: iy►'1 Date: This permit shall become null and void if the work is not commenced within 180 days from the date of issuance, or if the work is suspended or abandoned for a period of 180 days from the last inspection. doc: IMC -4/10 M11-030 Printed: 04 -04 -2011 • • PERMIT CONDITIONS Permit No. M11 -030 1: ** *BUILDING DEPARTMENT CONDITIONS * ** 2: No changes shall be made to the approved plans unless approved by the design professional in responsible charge and the Building Official. 3: All mechanical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center (206/431- 3670). 4: All permits, inspection records, and approved plans shall be at the job site and available to the inspectors prior to start of any construction. These documents shall be maintained and made available until final inspection approval is granted. 5: The special inspections and verifications for concrete construction shall be required. 6: When special inspection is required, either the owner or the registered design professional in responsible charge, shall employ a special inspection agency and notify the Building Official of the appointment prior to the first building inspection. The special inspector shall furnish inspection reports to the Building Official in a timely manner. 7: A final report documenting required special inspections and correction of any discrepancies noted in the inspections shall be submitted to the Building Official. The final inspection report shall be prepared by the approved special inspection agency and shall be submitted to the Building Official prior to and as a condition of final inspection approval. 8: All construction shall be done in conformance with the approved plans and the requirements of the International Building Code or International Residential Code, International Mechanical Code, Washington State Energy Code. 9: Notify the City of Tukwila Building Division prior to placing any concrete. This procedure is in addition to any requirements for special inspection. 10: Remove all demolition rubble and loose miscellaneous material from lot or parcel of ground, properly cap the sanitary sewer connections, and properly fill or otherwise protect all basements, cellars, septic tanks, wells, and other excavations. Final inspection approval will be determined by the building inspector based on satisfactory completion of this requirement. 11: Manufacturers installation instructions shall be available on the job site at the time of inspection. 12: All plumbing and gas piping work shall be inspected and approved under a separate permit issued by the City of Tukwila Building Department (206- 431 - 3670). 13: All electrical work shall be inspected and approved under a separate permit issued by the City of Tukwila Building Department (206- 431 - 3670). 14: VALIDITY OF PERMIT: The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, any violation of any of the provisions of the building code or of any other ordinances of the City of Tukwila. Permits presuming to give authority to violate or cancel the provisions of the code or other ordinances of the City of Tukwila shall not be valid. The issuance of a permit based on construction documents and other data shall not prevent the Building Official from requiring the correction of errors in the construction documents and other data. 15: ** *FIRE DEPARTMENT CONDITIONS * ** 16: The attached set of building plans have been reviewed by the Fire Prevention Bureau and are acceptable with the following concerns: 17: The total number of fire extinguishers required for an extra hazard occupancy with Class A fire hazards is calculated at one extinguisher for each 1,000 sq. ft. of area. The extinguisher(s) should be of the "all purpose" (4A 40 B:C) dry chemical type. The travel distance to any extinguisher must be 75' or less. (IFC 906.3) (NFPA 10, 3 -2.1) 18: Portable fire extinguishers, not housed in cabinets, shall be installed on the hangers or brackets supplied. Hangers or brackets shall be securely anchored to the mounting surface in accordance with the manufacturer's installation instructions. Portable fire extinguishers having a gross weight not exceeding 40 pounds (18 kg) shall be installed so that its top is not more than 5 feet (1524 mm) above the floor. Hand -held portable fire extinguishers having a gross doc: IMC -4/10 M11-030 Printed: 04 -04 -2011 weight exceeding 40 pounds (18 k ° l be installed so that its top is not more th • 5 feet (1067 mm) above the floor. The clearance between the fled the bottom of the installed hand -held ex fishers shall not be less than 4 inches (102 min). (IFC 906.7 and IFC 906.9) 19: Fire extinguishers shall not be obstructed or obscured from view. In rooms or areas in which visual obstruction cannot be completely avoided, means shall be provided to indicate the locations of the extinguishers. (IFC 906.6) 20: Extinguishers shall be located in conspicuous locations where they will be readily accessible and immediately available for use. These locations shall be along normal paths of travel, unless the fire code official determines that the hazard posed indicates the need for placement away from normal paths of travel. (IFC 906.5) 21: Fire extinguishers require monthly and yearly inspections. They must have a tag or label securely attached that indicates the month and year that the inspection was performed and shall identify the company or person performing the service. Every six years stored pressure extinguishers shall be emptied and subjected to the applicable recharge procedures. If the required monthly and yearly inspections of the fire extinguisher(s) are not accomplished or the inspection tag is not completed, a reputable fire extinguisher service company will be required to conduct these required surveys. (NFPA 10, 4 -3, 4 -4) 22: The installation of flammable /combustible liquid storage tanks, both aboveground and underground, requires a separate fire department permit for each tank. Permits can be obtained from the fire prevention office at 444 Andover Park East, Tukwila, WA 98188. 206 -575 -4407. 23: All flammable /combustible liquid tank installations and piping shall comply with 2009 International Fire Code Chapter 34, NFPA 30 and manufacturers installation guidelines. 24: Generator installation shall comply with NFPA 30 chapter22, NFPA 31, NFPA 37, NFPA 110, NFPA 111, and manufacturers installation guidelines. 25: A stamped licensed engineers' letter may be submitted to the fire inspector at the time of inspection certifying compliance with the referenced code requirements. 26: An electrical permit from the City of Tukwila Building Department Permit Center (206- 431 -3670) is required for this project. 27: All electrical work and equipment shall conform strictly to the standards of the National Electrical Code. (NFPA 70) 28: Contact The Tukwila Fire Prevention Bureau to witness all required inspections and tests. (City Ordinances #2050 and #2051) 29: Any overlooked hazardous condition and/or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. 30: These plans were reviewed by Inspector 511. If you have any questions, please call Tukwila Fire Prevention Bureau at (206)575 -4407. doc: IMC -4/10 M11-030 Printed: 04 -04 -2011 CITY OF TUKWIP Community Develop Wt Department Permit Center 6300 Southcenter Blvd., Suite 100 Tukwila, WA 98188 http://www.ci.tukwila.wa.us MECHANICAL PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mail or by fax. * *please print ** SITE LOCATION Site Address: 311/ � //5 / i6 Tenant Name: L!'7�r.U,Zit Property Owners Name: 4 Mailing Address: 3f/l' g at a, pC King Co Assessor's Tax No.: 10 Z 3a 4' - 9Dl� Suite Number: Floor: New Tenant: ❑ Yes 111.. No City 1" 78hirg Zip CONTACT PERSON - who do we contact when your permit is ready to be issued Name: Mailing Address: 9i9 h 30 E -Mail Address: ligkv1 © 74.4- ../1,442 Day Telephone: 2 10 ' 2 's 2CAI City State Zip Fax Number: &1i' F-74'2/0 MECHANICAL CONTRACTOR INFORMATION Company Name: Mailing Address: City Contact Person: Day Telephone: E -Mail Address: Fax Number: Contractor Registration Number: Expiration Date: State Zip ARCHITECT OF RECORD - All plans must be stamped by architect of record Company Name: (�= Mailing Address: City Contact Person: Day Telephone: Fax Number: E -Mail Address: State Zip ENGINEER OF RECORD — All plans must be stamped by engineer of record Company Name: /- / 41 s 7 j h 1-•-ie-J Mailing Address: 4 0 L g love t- 44/4 vis- zd i lAark City t�- leitr State Zip Contact Person: Day Telephone: 2040 S2 `r ?-$' d E -Mail Address: Fax Number: -2-o1 e S 2 ? ' 4418 H:\Applications\Forms- Applications On Line\2010 Applications \7 -2010 - Mechanical Permit Applicadon.doc Revised: 7 -2010 bh Page 1 of 2 IDate Application Accepted: J_,. " ` 1 w Valuation of project (contractor's bid price): $/ 0011 Scope of work (please provide detailed information): en." -n ifs 4 &/ Use: Residential: New ❑ Replacement ❑ Commercial: New ❑ Replacement ❑ Fuel Type: Electric ❑ Gas ❑ Other: Indicate type of mechanical work being installed and the quantity below: Unit Type: Qty Unit Type: Qty Unit Type: Qty Bioler /Compressor Qty furnace <100k btu air handling unit >10,000 cfm fire damper 0 -3 hp /100,000 btu furnace >100k btu evaporator cooler diffuser 3 -15 hp /500,000 btu floor furnace ventilation fan connected to single duct thermostat 15 -30 hp /1,000,000 btu suspended/wall/floor mounted heater ventilation system wood/gas stove 30 -50 hp /1,750,000 btu appliance vent hood and duct emergency generator 50+ hp /1,750,000 btu repair or addition to heat/refrig/cooling system Incinerator — domestic other mechanical equipment / 64-A—,A,YVV--- air handling unit <10,000 cfm incinerator — comm/ind 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 permit center to comply with current fee schedules. Expiration of plan review — applications for which no permit is issued within 180 days following the date of application shall expire by limitation. The building official may grant one extension of time for additional periods not to exceed 90 days each. The extension shall be requested in writing and justifiable cause demonstrated. Section 105.3.2 international building code (current edition). 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 OF WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWN -° OR AUTHO ZED A ENT: Signature: Print Name: AG4'' tom Mailing Address: - I7 A/ >e on ,i2 /DS Date: 7-20-1/ Day Telephone: ger& — z g i Ss City State Zip Date Application Expires: 8- Staff Initials: H:Vlpplications \Forms - Applications On Line\2010 Applications \7-2010 - Mechanical Petmit Application.doc Revised: 7 -2010 bh Page 2 of 2 • • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Fax: 206-431-3665 Web site: http: / /www.TukwilaWA.wv RECEIPT Parcel No.: 1023049069 Permit Number: M11 -030 Address: 3311 S 120 PL TUKW Status: ISSUED Suite No: Applied Date: 02/28/2011 Applicant: CORELINK DATA CENTER - GENERATOR Issue Date: 04/04/2011 Receipt No.: R11 -02164 Payment Amount: $63.00 Initials: WER Payment Date: 10/04/2011 11:59 AM User ID: 1655 Balance: $0.00 Payee: D & J CUSTOM METAL FABRICATION TRANSACTION LIST: Type Method Descriptio Amount Payment Check 12609 63.00 Authorization No. ACCOUNT ITEM LIST: Description Account Code Current Pmts MECHANICAL - NONRES 000.322.102.00.00 63.00 Total: $63.00 doc: Receipt -06 Printed: 10 -04 -2011 • • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Fax: 206 - 431 -3665 Web site: htqx//www.ci.tulcwila.wa.us RECEIPT Parcel No.: 1023049069 Permit Number: M11 -030 Address: 3311 S 120 PL TUKW Status: APPROVED Suite No: Applied Date: 02/28/2011 Applicant: CORELINK DATA CENTER - GENERATOR Issue Date: Receipt No.: R11 -00642 Payment Amount: $3,715.65 Initials: JEM Payment Date: 04/04/2011 11:57 AM User ID: 1165 Balance: $0.00 Payee: TITAN ELECTRIC, INC. TRANSACTION LIST: Type Method Descriptio Amount Payment Check 10772 3,715.65 Authorization No. ACCOUNT ITEM LIST: Description Account Code Current Pmts MECHANICAL - NONRES 000.322.102.00.00 3,715.65 Total: $3,715.65 doc: Receiot -06 Printed: 04 -04 -2011 • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Fax: 206 - 431 -3665 Web site: http:/lwww.ci.tukwila.wa.us Parcel No.: 1023049069 Address: 3417 S 120 PL TUKW Suite No: Applicant: CORELINK DATA CENTER RECEIPT Permit Number: M11 -030 Status: PENDING Applied Date: 02/28/2011 Issue Date: Receipt No.: R11 -00360 Payment Amount: $928.91 Initials: WER Payment Date: 02/28/2011 10:56 AM User ID: 1655 Balance: $3,715.65 Payee: MARGARET CORBETT (PHONE) TRANSACTION LIST: Type Method Descriptio Amount Payment Credit Crd VISA Authorization No. 025534 ACCOUNT ITEM LIST: Description 928.91 Account Code Current Pmts PLAN CHECK - NONRES 000.345.830 928.91 Total: $928.91 doc: Receipt -06 Printed: 02 -28 -2011 INSPECTION NO. INSPECTION RECORD Retain a copy with permit mil -036 PERMIT NO: CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 (206) 431 -3670 Permit Inspection Request Line (206) 431 -2451 Project n to r e:� , A. /� Type o ns 4 t k AA C- + Address- !! ( / f ;� PL 33 t f ( /' Dat�Calle� ff ,r �(� kiCCJ r Special Instructions: Date Wanted: -} I - I O �p.m. Requester: . - • Phone 40 r 5 1 J , _ t-4 17 Approved per applicable codes. IlCorrections required prior to approval. ‘! "/ COMMENTS: ,r■{, — Dom' ir 4,11418(€ 'Inspector: A../1 Date: ❑ REINSPECTION FEE REQUIRED. Prior to next inspection, fee.mu'sf be . paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. • INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila: WA 98188 F.., (206) 431 -3670 Permit Inspection Request Line (206) 431 -2451 INSPECTION RECORD Retain a copy with permit ,Mt( -d3) Projgct: �(; i /� _DATA A TYPe oF, tkik („ ikke _ Q Addr s3 1 / / I 74 PL. Date Called: Special Instructions: • Date Wanted: _ t f p.m. Requester: Phone a 1 4447 Approved per applicable codes. Corrections required prior to approval. COMMENTS: i rJee '&s e614 -f yec 'liI "4 Sr-1J olv 1 A. .k 5 (_4 =r. �{. -A.l fi e.. ef-- ( Q. F' io h L- twst iv oxi 1Inspect?r: 1Date:2 - r, I ri REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd.. Suite 100. Call to schedule reinspectioh. INSPECTION RECORD Retain a copy with permit PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 ;„_. (206) 431-3670 Permit Inspection Request Line (206) 431-2451 • ' INSPECTION NO. Proje t: p / i LL s 1\ IC Typf Ip,onspection: .r.„„vti ildte A K-0 kJ 6 ft Address: 3 3 1 ( 5: t it) Date Called: - Special Instructions: ipl---- Date Wanted: 4.0 .- ( --- a. a.m. . . Requester: d=t--- s-t i Phone No: ■ao (e, —.5-5 ( -- r7 /N cot- it-‘ 4----r,'0 , Approved per applicable codes. Corrections required prior to approval. • COMMENTS: C 4-1) ire 4e pi A-t`r it-% e/ty-- . .L . _a. d=t--- s-t i f--0 ,- /N cot- it-‘ 4----r,'0 , A-1 ( AiFf A _ . .. . _. . _ . ... , . ..,. lnsp (tor: Date: 4.0 r7 REINSPECTION FEE REQUIRED. Prior to next inspection. fee must be paid at 6300 Sou....tlic)Lri e _Blvd., Suite 100. Call to schedul0 reinspedtiort. • • • . INSPECTION RECORD Retain a copy with permit e. INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION • . 6300 Southcehter Blvd., #100, Tukwila. WA 98188 (206) 431 -3670 Permit Inspection Request Line (206) 431 -2451 R S . Jul l l - 030 project: r k r Type of Ir . e —', A Ce4CI e Address: r L 333 II Si 120 PL_ Date Oiled: Special Instructions: ��/ d �� v r 4:, E ,&S 1 6-civet A-0 'I . C.1).- yAAQ • Date Wanted -7,2,-1( '� .‘---‘.a1-13.m. Requester: Phone 7� CO -3S - d -32-I5 ElApproved per applicable codes. El Corrections required prior to approval. r COMMENTS: j� �:A-4 p� OH 11 i�iAa LS 'x` ,s4 � to A S' 1 ?>C . t� ; 1' ` P /,?pj,ti,ni p J' I 1 r w • f __ • I .. it A , A 1 ns•ector: Date / REINSPECTION FE REQUI'REB -or to next inspection, fee must be paid at 6300 Southcenter Blvd., Suit 100. Call to schedule reinspection. T 3 INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit /14/l — o3D PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206- 575 -4407 Project: '' . Fire Alarm: Hood & Duct: Type of Ins ect'on: Address: 3 31 j Suite #: la 0 5 )a. 6 �%� Contact Perso : Special Instructions: Phone No.: fApproved per applicably codes. Corrections required prior to approval. COMMENTS: . Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: I1/1eJ — ,k 74,40 � - i// e, A A /AAA. SYXA ivdcal c,0—et c-6/4 ) S OW 906- NAG-. te_... qe— Si&I 4'a-- Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: b5 ..c..., Date: �l �5�� 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: 1 Zip: Word /Inspection Record Form.Doc 6/11/10 T.F.D. Form F.P. 113 ��" 1 INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit Mil-03o PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206- 575 -4407 Project: Cwt. Aivic- Sprinklers: Type of Inspection: er,41)- .. Address: 3 3 1/ Suite #: s /d 0 p/ Contact Person: • - Special Instructions: Phone No.: • i'Ay Approved per applicable codes. D4I. Correcti ns required prior, to approval. J I COMMENTS: Yv r.' OK Br��a� l� • iDac,� Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: - Occupancy Type: _... Inspector: cell; C c'— Date: ?// ( 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 T.F.D. Form F.P. 113 7 . INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit l�- •3o PERMIT NUMBERS CITY OF TUKWIi* FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206 -575 -4407 Project: 3 /, ok Sprinklers: Fire Alarm: Type of Ins ection: qa /.4.02c1, 1. Thwk /[rte Address: 33 it Suite #: c /.o/7.- (1 Contact Person: Special Instructions: fr ui ce e Phone No.: shy, A6-er Approved per applicable codes. corrections required prior to approval. COMMENTS: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: . fr ui ce e , u .e..1S shy, A6-er r rkel G€,u li1.1 ` te. VI f'o' 5 010 CoAk4141 ow-S r'f 71-e ■ Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: A Inspector: A vim se-- Date: ‘7/ Hrs.: J $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 6/11/10 T.F.D. Form F.P. 113 • • • • • .• • • • • • : REC E tVED oFEB222G11 Client: Core link Data Center 3311 S. 120th Place Suite 120 Tukwila, WA 98168 Contact: Project Number: 12 -147 Permit #: M11 -030 Project Name: Corelink Data Center Address: 3311 S. 120th PI. Suite 120 Inspection Performed: Welding Date: 2/9/2012 Time: Temperature: Generator access platforms (3) per drawing A / 2A, engineers calculations August 20, 2011. Platforms were erected per plans, with the exception of frames 1A- 1B, which require a 1/2" x 2" steel bracing strap, except as noted. All welding per AWS D1.1 and per plan. Distribution: Distribute Client ❑ Distribute Contractor ❑ Distribute Engineer ❑ Distribute Owner Distribute Municipality ❑ Distribute Other ❑ Distribute Architect ❑ Distribute Other Inspector: Trow, Michael Reviewed by: Mike Blackwell All reports are considered confidential and are the property of the client and A.A.R. Testing Laboratory, Inc. Reproduction except in full without the written consent of A.A.R. Testing is strictly forbidden Stephen Tapp Architect/P.E. 2330 East Madison Street Seattle, Washington 98112 (206) 320 -0534 archeng2330@gmail.com cell: (206)459 -5151 Date: September 14, 2011 Architect: Burgess Design, Inc. Project: Corelink Generator Platforms Integrated East — Building 2 3311 South 120t place Tukwila, Washington 98168 Special Inspection of Steel Erection pzLe Phan , Est No. COp As the Engineer of Record I designate Cascade Testing Laboratories, Inc., 12919 NE 126th Place, Kirkland, Washington 98034 (425- 823 -9800) to perform the field inspections for the structural steel. ':COMPLETE 4O REVISION N M t\O3O 1 REVIEWED l/ifED FOR CODE COMPLIANCE APPROVED SEP 2 6 2011 City of Tukwila BUILDING DIVISION RECEIVED SEP 16 2011 PERMIT CENTER Project Number: T11H5 Date: August 2011 Code: 2009 IBC 8/26/201112:52 PM Stephen Tapp Architect/PE 2330 East Madison Street Seattle. Washington 98112 (206) 320-0534 Engineering Calculations Gravity load analysis for Generator Access Platforms 2311 South 120th Place Tukwila, Washington 98168 (across for metro south base) Permit fvo COPY - ... �.._ REVIEWED FOR p` CODE COMPLIANCE APPROVED SEP 2 6 2011 City of Tukwila BUILDING DIVISION REVISI$.:NN.O1L t111%.. �1 ij ;� 3 RECEIVED SEP 0 7 2011 PERMITCENTER 0 Loading Requirements ASCE 7-05 Codes 2009 IBC AISC /ASD Ninth Edition ACI 318-05 Soil Loads (assumed) No soils report available Assumed Soil density = 115 pef Assumed soil Bearing Pressure = 2500 psf Building Loads Upper Platform (DL) = 20 psf, (LL) =psf STEPHEN TAPP ARCHITECT/P.E. 2330 East Madison Street SEATTLE, WASHINGTON 98112 (206) 320 -0534 OB QU r11514- SHEET NO. ff-Akifrr-er CALCULATED BY v, f DATE !J /1 Z /Il CHECKED BY DATE SCALE (31 1 k („r; � L L L- 03"'LF 16KL1-- D PRODUCT 207 Generator Rattan's Dlwarrash Ids Seattle, Washington Steel Beam Design Tale : Paled • Desc-: Pn ed Notes : Job # Printed 25 AUG 2411 884.1 BERCALC, INC. 1983,2039. Vet: 61123. tt07183 Lic. ; : KW- 06007783 1 License Owner : STEPHEN TAPP AP..CHITECT PE Description : P8-100 Material Properties Analysis Method : Allowable Stress Design Beam Bracing : Beam is Fully Braced against lateral- torsion budding Bending Axis : Major Axis Bending Load Combination 2006 IBC & ASCE 7 -05 0(0.0751 L(0.18) Calculations per IBC 2006, CBC 2007, 1381 AEC Fy : Steel Yield : 50.0 ksi E: Modulus : 29,000.0 ksi Spa, =11.04 C8x10.5 Applied Loads Service loads entered. Load Factors we be applied for calculations. Load for Span Number 1 Uniform Load : D = 0.0750. L = 0.180 kilt. Tributary Width = 1.0 ft DESIGN SUMMARY Maximum Bending Stress Ratio = 0.250:1 Section used for this span C6X10.5 Mu : Applied 3.857 k-ft Mn / Omega : Allovrabie 15.419 k-ft Load Combination 4D+L+H Location of macimum on span 5.500ft Span # where maximum occurs Span # 1 Maximum Deflection Max Downward L+Lr+S Deflection 0.136 in Max Upward l4Lr+S Deflection 0.000 in Max Downward Total Deflection 0.193 in Max Upward Total Deflection 0.000 in Maximum Forces & Stresses for Load Combinations Load Combination Max Stress Ratios Segment Length Span Overai Mailmen Envelope DAL= 11.00ft 1 4D Dean. L = 11.001 1 4D+L4 1 D sgn. L = 11.00 ft 1 4041414 Dsgn. L = 11.001 1 40.0.7501H0.7501.41 D sgn. L = 11.00 ft 1 Overall Maximum Load Combination D+L4Lr Maximum Deflections for Load Load Combination Maximum Shear Stress Ratio = Section used for this span Vu : Applied Vn/Omega : Allowable Load Combination Location of maximum on span Span # where maicim mr occurs Ratio = Ratio = Ratio = Ratio = 967 O <360 682 0 <180 Design OK 0.041 : 1 CBX10.5 1.403 k 33.844 k 40+L+H 0.000 ft Span #1 Summary of Mom itValues Sumner/of Shear Values M V Minn + Limas - Ma - Max Max Max/Omega Cb Rbn Va Max Vnx Va ./Omega 0.250 0.041 386 0.074 0.250 0.041 3.86 0.074 0.012 1.13 0.206 0.034 3.18 0.012 1.13 Deflections - Unfactored Loads Span Max. • - Dell Location in Span 1 0.1934 5.565 Combinations - Unfactored Loads Span Max_ DOI■mard Dee Location In Span 186 25.75 15.42 1.00 1.00 1.40 56.52 33.84 1.13 25.75 15.42 1.00 1.00 0.41 56.52 33.84 3.86 25.75 15.42 1.00 1.00 1.40 56.52 33.84 1.13 25.75 15.42 1.00 1.00 0.41 56.52 33.84 3.18 25.75 15.42 1.00 1.00 1.16 56.52 3184 Load Combination 00*1 1 LOny 1 D +L+6 1 O .14t.r 1 Vertical Reactions - Unfactored Load Combination Support 1 Nara MAXirami 1.403 D Ordy 0.413 L Only 0.990 D41.4 1.403 0.0569 0.1365 0.1934 0.1934 Support 2 1403 0.413 0.990 1.403 5.555 5.555 5.555 5.555 Support natation : Far left is 81 Max.'. Dell Location in Span 0.0000 0.000 Max. Upward Dell Location to Span 0.0000 0.000 0.0000 0.000 0.0000 0.000 0.0000 0.000 Values In KIPS Generator Platforms Duwarnish Metals Seattle, Washington Steel Beam Design Trtle : Dsgnr. Proiect Desc.: Paled Notes : Job # Pureed 25 AUG 2011 11-084A ENERCAL.C. INC. 19113-2009. vac 6.023. we7183 Lic. : KW-06007783 License Owner STEPHEN TAPP ARCHtTECT PE Description : P8-100 Vertical Reactions - Unfactored Load Combinabon Support 1 Support 2 1141_41.r 1.403 1.403 Steel Section Properties: C6X10.5 Support notabon : Far len is 41 Yams li TOPS Depth = 6.000 in 1 10C 2 15.10 inA4 J = 0.128 in*4 Web Thick = 0.314 in S tot 5.04 in*3 Cw = 5.91 ina6 Flange Width = 2.030 in R tot = 2.220 m Ro = 2.480 in Flange Thick = 0.343 m Zx = 6.180 in"3 H = 0.842 m Area = 3.080 in"2 I yy = 0.860 ha4 Weight = 10.500 plf S yy = 0.561 ina3 Wno = 3.490 in"2 Kdesign = 0.813 in R yy = 0.529 in Sw = 0.740 ino4 Zy = 1.140 W3 Qf = 1.720103 its = 0.669 in Ow = 3.130103 Ycg = 3.000 m Wn2 = 1.820 Xe9 = 0.500 m Sw2 = 0.540 XP 0.256m Eo 0.486b Sw3 = 0.270 • Generator Platforms Diminish Metals Ste. Washington Steel Beam Design tic. # : KW- 06007783 Description) : PS-101 Material Properties Analysis Method : Allowable Stress Design Bearn Bracing : Bearn is Fully Braced against lateral-torsion budding Bering Axis : Major Axis Bending Load Combination 2006 IBC & ASCE 7-05 0(0.075)1(0.18) Tdfe : D Projed Desc.: Project Notes : Job# Pd. 15 auG Ton. 812W ENERCxc. INC. 1983.2008. Ver. 6.0.23, 1407183 License Owner STEPHEN TAPP ARCHITECT PE. Cab:W.0 rrs per IBC 2008, CBC 2007, 13th AtSC Fy : Steel Yield : 50.0 ksi E Modulus : 29,000.0 ksi Applied Loads Span =8.508 08X10.5 Load for Span Number 1 Uniform Load : D = 0.0750, L = 0.180 k/It, Tributary Width = 1.0 ft Load for Span Number 2 Uniform Load : D = 0.0750. L = 0.180 k/ft. Tributary Width =1.0 ft DESIGN SUMMARY Maximum Bending Stress Ratio = Section used for this span Mu : Applied Mn / Omega : Allowable Load Combination Location of maxima on span Span # where maximum occurs Maximum Deflection Max Downward L +Lr +S Deflection Max Upward L +Lr+S Deflection Max Downward Total Deflection Max Upward Total Deflection 0.103: 1 C6X10.5 1.588 k-ft 15.419 k-ft +D+L+H 3.531 fl Span #1 0.029 m -0.007 m 0.042 in -0.010 in 0(0.075) 1(0.18) Span =3.5011 08X10.5 Service loads entered. Load Factors will be applied for calculations. Maximum Shear Stress Ratio = Section used for this span Vu : Applied VrlOmega : Allowable Load Combination Location of maximum on span Span # where maximum ooaus Ratio = 3480 Ratio = 11640 Ratio = 2456 Ratio = 8216 Deign OK 0.037: 1 C6X10.5 1.268 k 33.844 k +D+L+H 8.500 ft Span # 1 Maximum Forces & Stresses for Load Combinations Load Co ti ation Max Stress Ratios Summary of Moment Values Siarmary of Shear Values Segment Length Span # M V himax + Mmax - Ma - Max rrfix PArorfOrnega Cb Rm Va Max Vnx VmJOmega Overall MAXenum Envelope Dsgn. L = 8.50 ft 1 0.103 0.037 1.59 -1.56 1.59 25.75 15.42 1.00 1.00 1.27 56.52 33.84 Dsgn. L = 3.50 ft 2 0.101 0.026 -1.56 1.56 25.75 15.42 1.00 1.00 0.89 56.52 33.84 +0 Dsgn. L = 8.50 ft 1 0.030 0.011 0.47 -0.46 0.47 25.75 15.42 1.00 1.00 0.37 56.52 33.84 Dsgn. L = 3.50 ft 2 0.030 0.008 -0.46 0.46 2515 15.42 1.00 1.00 0.26 56.52 33.84 +041.. Dsgn. L = 8.506 1 0.103 0.037 1.59 -1.56 1.59 25.75 15.42 1.00 1.00 1.27 56.52 33.84 Dsgn. L = 3.50 ft 2 0.101 0.026 -1.56 1.56 25.75 15.42 1.00 1.00 0. 56.52 33.84 +D+Lr+H Dsgn. L = 8.50 ft 1 0.030 0.011 0.47 -0.46 0.47 25.75 15.42 1.00 1.00 0.37 56.52 33.84 Dsgn. L = 3.50 ft 2 0.030 0.008 -0.46 0.46 25.75 15.42 1.00 1.00 0.26 56.52 33.84 +D+0.7501r+0.7501+H Dsgn. L = 8.50 ft 1 0.085 0.031 1.31 -1.29 1.31 25.75 15.42 1.00 1.00 1.04 56.52 33.84 Dsgn. L = 3.50 ft 2 0.083 0.022 -1.29 1.29 25.75 1542 1.00 1.00 0.74 56.52 33.84 Overall Maximum Deflections - Unfactored Loads Load Combination Span max. MO Location in Span - Load Combination Max. '4-* Deft Location In Span D+14r ■ 1 0.0415 3.923 0.0000 0.000 2 0.0000 3.923 D+4.+tr -0.0102 3.500 Maximum Deflections for Load Combinations - Unfactored Loads Load Combination Span Max. Downward Dell Location in Span Max. Upward Dell Location in Span 0 Only 1 0.0122 3.923 0.0000 0.000 L Only 1 0.0293 3.923 0.0000 0.000 D+L +S 1 0.0415 3.923 0.0000 0.000 D+1.4r 1 0.0415 3.923 0.0000 0.000 Generator Platforms Duwarnish Metals Seattle, Washington Steel Beam Design Title : D Project Desc.: Project Notes : Job # csinted. 25 4120 X11. 8-1214A ENERCAtes INC 19612009. Vet: 6.023. ft07183 Lic. # : KW-06007783 1 ! License Owner :: STEPHEN TAPP 'ARCHITECT PE Description : P8-101 Vertical Reactions - Unfactored Support notation : Far left is #1 Load Combination Support 1 Support 2 Support 3 Overall MAXimum D Only L Only D4t+S D44.41./ 0.900 2.160 0.265 0.635 0.635 1.525 0.900 2.160 0.900 2.160 Values in KIPS Steel Section Properties : C6X10.5 Depth = 6.000 m 1 n E 15_10 inM J = 0.128 inM Web Thick = 0314 in S a 5.04 in43 Or = 5.91 in% Flange Width = 2.030 in R xx = 2.220 in Ro = 2.480 in Range Thick = 0.343 m Zx = 6.180 an H = 0.84201 Area = 3.080 ina2 I yry . 0.860 104 Weight = 10.500 plf S yy = 0.561 inA3 Wno = 3.490 ina2 Kdesign = 0.813 in R yy = 0.529 in Sw = 0.740 in*4 Zy ' = 1.140 in"3 Of = 1.720 kr3 rts = 0.669 in Ow = 3.130 in"3 Ycg = 3.000 in Via = 1.820 XIV = 0.500 in 9d2 = 0.540 XP = 0256 in Sea = 0.270 Eo = 0.486 in Indiana Gratings, Inc. - 15 -W-4 Light Duty Welded Steel Grating http:// indianagratingsinc .thomasnetcom/printitems /light- duty - welded -... Indiana Gratings, Inc. 212 W. Douglas St,Mattinsville 46151,US Phone: 765 -342 -7191 Fax 765 - 342 -0382 Toll -free: 800- 634 -1988 Email: igi@indianagratingsinc.com Website: http :! /www.indianagratingsinc.com All Categories > Ught Duty Welded Steel Grating > 15-W-4 Light Duty Welded Steel Grating > View Items 15-W -4 Light Duty Welded Steel Grating Check up to five results to perform an action. • 15/16 center to center on bearing bars • 4° center to center on cross rods • Ught Duty Welded Steel Grating larger image larger image Results 1 - 16 of 16 1 Item # Height x Bar Panel Length Panel Width Weight Ped Span, Cross Bar Thickness Available Available Lbs.' Sq. Ft. Inches Spacing G -27 3/4 x 3/16 20 ft 23 5/8 7 11 49 4 in 24 ft 35 13/16 (15 -W -4) J -27 1 x 3/16 20 ft 23 518 9.27 60 4 in 24 ft 35 13/16 (15 -W-4) L -27 11/4x3/16 20ft 23518 11.43 71 4in 24 ft 35 13/16 (15 -W-4) 20ft • 235/8 4in N-27 1 1/2 x 3/16 24 ft 35 13/16 13.82 82 (15 -W-4) 0 -27 1 3/4 x 3/16 20 ft 23 518 15.98 92 4 in 24 ft 35 13/16 (15 -W-4) P -27 2 x 3/16 20 ft 23 5!8 18.14 102 4 in 24 ft 35 13/16 (15 -W-4) 0-27 2 1/4 x 3/16 24 ft 35 13!86 20.16 111 4 in (15 -W-4) Surface Smooth Smooth Smooth Smooth Smooth Smooth Smooth I of 2 8/6/2011 11:17 AM fl rini MUM CD -Vaal 1411-3VP\flQ 1 1.111.1...1111 w 11111111111111111111111•11•11111111111- MOM •11111O1110111111111 = =S11111 il1111111111111111111a=11r his f =- w1111111111111111111.1.i11.1• WIN 11111111111111111111111114111J11101111111114111111 1111111111111101111=1tiR0111A � 111�ZiicS!!�1111111 1♦w11111.11.wwi•.11•1 1111111■�.1111111•1/MM/11//iM111- itilUiTiWeal1ill•/,i1 111111101M1111611111 •AAMi>ri1111111 111 a^IS11'>•111111111111•ty1li ONI1111111.1111M.LCIII1IIIIIIIrAw111111iitlr! 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(m.) 0 Lk) [iEl Dl 100 0 I 00 IeI O F00; 0i0; 0— op 4p; a, .op of pp.Ve°�� s_ .'d 0. .'d rd VI 4 GENERAL NOTES II I HililtilhlL 0S o NO PLOP. MOW= OA W °m.. (°.J O SHEET NOTES i MA .fin La.. tar, 0m11 w! m.. •m■w P. im y• . CM:WM mama (2.2 C • PT. TOO. 0027.01 t. ILK 02Z3+ iftI OQte D • w .°°. MOM TO WOO OT) =IOW COM MO SIM OW! w 4114./DC ..m° (MI 11. SIM MIAOW (2211.1 YEW LOAM ON u0 moil°. A °m... (m! 1 ENLARGED EQUIPMENT ENCLOSURE PL "aN°''" 8 Y m' METAL GATE JAMB (TYP.) ENCLOSURE FOUNDATION PLAN WEST ELEVATION 4SOUTH ELEVATION SOUTH 3EAST ELEVATION Tenant Improvement: New Offices /Data Center 3417 S. 120th Place NOPOTI ENCLOSURE 3LANS AILS SECTI DE °•" JOT °`°mR WL rc 25JANO0 AS NOTED O°' 99133 A. COSMIC j A i i i 1, NM 6 , A i �.1 ,I -MUIDI 7111.1.1. C; O CONSTRUCTION PLAN 0 e' u' O PLATFORM ELEVATION —TYP. 3' e' 12' T�.e.[ COREINK INTEACATE EAST • MIMING 2 33115 120111 RACE 11.KM11A W.SBC188 .,.., des, :..,........ KRIM RCMP. 13111.07.11 -.1... +: 11.5X1101 MECH. PLATFORM PLAN & ELEVATION A.2A.1 WSTRUCTURAL ENGINEERS Engineers Northwest Inc., P.S. FILE COPY P .,.r 1% pI,,t SABEY INTERGATE EAST Building 2 Tukwila, WA 98168 STRUCTURAL CALCULATIONS CORELINK GENERATOR #2 January 31, 2011 ENW Project No. 99- 149015 M11 --030 • REVIEWED FOR — CODE ODE COMPLIANCE APINZAVEn MAR 28 2011 City of Tukwila BUILDING niv,s,nhl RECEIVED FEB 28 2011 PERMIT CENTER a 6869 Woodlawn Avenue NE . Seattle, WA 98115 • 206.525.7560 . fax 206.522.6698 www.enwseattle.com ENWENGINEERS NORTHWEST, INC., P.S. ^' STRUCTURAL ENGINEERS PROJECT # SUBJECT PROJECT flow i'ICI�Q�r 6869 WOODLAWPI AVE. N. E., #205, SFArn.F, Wa 98115 (206) 525- -7560 Fax (206) 522 -6698 S ad ev - 24r & #e (et 2 ;y1/),) DATE SHEET � OF BY AANV 5'1 6. eneatkr t 47, k - - + d*ik. 10.5k. ;46 ?A. _ 11. k = 43540(6, d� 7 q k 44, PL C)"16 152(150 r .t'7 t 4-rib • _ (tI)27' •% 570. (') #evel„ ly st4 ^' 8 "-1 10,196 P + I's 411 At 4 1 / —� 7(9t )(1) 12FpO , ?i7k• • --45ty lit; new .le ji4, 4 Si/!(4I k-4, levell 441 Z_ (71tio +2M..iteet 4k)°IdkPL J jetifrik 1vf ENWENGINEERS NORTHWEST, INC., P.S. ^- STRUCTURAL ENGINEERS 6869 WOODLAWN AVE. N. E., #205, SEATTLE., WA 98115 (206) 525-7560 FAx (206) 522-6698 PROJECT # PROJECT crbey, DATE ��/ J SUB11iCT �}�/ �i1'�/ w��i% � SHI:EI' � OF 9 (es) BY AN° f %as `IL 514. _ f; : TL4 2l 2 40 , e. deileti r 9 io, A If Ole Inew. - tag - 7 r -Lt t 2124. t agk�,q x30 , f g i ski f £Ia' 9o/4 i/1ev. spa Qt = [((u) +,7c i -t i(9.5)594 L 4, ,. 212. f 7_4k ir ° . ®k 117.; per fI- = tvo c, r (2 !. 5 f e- f) /2 2.. fi , , l pit, r ,142 kerIft- to/ �6s6 as @j r 1.4-(424/) =.3 /�+ g 6 e t27h. 1.64= g2 /11161/5) 444 r g % 33)1/ 434 = 2, � k70 � y 661 t 'r 2 r ityr4, ENWENGINEERS NORTHWEST, INC., P.S. ^- STRUCTURAL ENGINEERS 6869 WOODLAWN AVE. N. E., #L205, SEATTLE, WA 98115 (206) 525-7560 FAX (206) 5226698 PROJECT # PROJECT , e/ '1�1.'f e /Lj t Neff . DATE �j �j SHEET .7 OF SuEJECr new pier&ter 6111, BY Gh Mkt " 446 s C (1. td.5��22,� 4 -..07c e , 217. war/50 bll2' kqr 165 M g (4/33D , 7� 2, �4 k It - tie 4.0 eta, 4, 3 /4 f ,171. 111 /0, t .GAO , bar; e then 10.5 4min 32k wag Ems) e�(/ tow, L77e chew r . fk (fee fid.0 e[five w/ liik 4t-010 r r 436 : Meek '€i, ®N glad (t. 679 22,g mtie ' 0 ;e Wit, c1. i(&t4t Gvidl 14 ea 2 f kk 4iefef 1 iter 4v /o4h (&Illt4,t 4, ems, e4) 4 1. Or 444. (reh i2,.) (fei 00:7) (1-0 5 a0, 6) 7)8,(46/5"Z Tic 64/ay) - �irPr�l rl3,2 //�s = e.67 ° [1.�, 90.0 71(47)1 79k Fp r , 114 :,, S(2 2, 5j75Pffi] f 2,51e 7- 31, 'clef, f11b 56,4, 4, G --�2—�-57 , _ . cY idif. . --� /04 e Lb 41114) t /, 96 2, /t44 = 02,0.96 11,46e !JIMA. #:rielM0/- bk. S64,/ - n4ee1 Bgif . 2 ENGINEERS- NORTHWEST, INCP.S. 6869 WOODLAWN AVE N.E. (SUITE 205) SEATTLE, WA. 98115 Property of Engineers Northwest, Inc., Seattle - Use by others unlawful Input = 'Shaded cells Job number : Job name : Sabey- Intergate, New generator support 4r cell, 1AI-env( SHEET4 OF 9/29/09 REV.1: 7/7 /10 SEISMIC IBC 2008 Section 1613.1 / ASCE 7-05 Section 12.8 Equivalent lateral Force Procedure - Building design base shear All references below are to ASCE 7.05 (IMO.) kraut Basic Seismic- Force- Resisting System = NUN GI All other steel & relnf. conc. Distanass cantilevered structures not similar to buildings = Nonbuilding Structures NOT Similar to Buildings Section 15.1.1 - for Naming Structure definition. Section 123.1 height to top level in main portion of structure (abv.base) Section 11.3 Spectral response acceleration at 0.2 seconds for Site Class B. Spectral response acceleration at 1 0 seconds for Site Crass B. Long - period transition period Figure 22 -15 thtu 22-20 Section 20.1 Soil properties 'D" is default unless the Geotech data orBuilding Table 1 -1 page 3 Official thinks it is Site Class "E "or "P. Basic Seismio-Force- Resisting System = Is this considered a Building Structure ? Is Diaphragm considered nonlife? hn= Ss = S1 = T� = Site Class (soil) = Occupancy Category = Top of wall elevation (parapet) = Elevation of top of wall lateral support (max.) = Elevation of top of wail lateral support (min.) = Regular Stricture 5 5 Stories? No height limit Site Coefficient Fa Site Coefficient Fv = Sms = Sml = Sds = Sd1 = Seismic Design Category (SDC) = To = Ts Ct= Period = T = Sa= R= Qo = Cd = IE Detailing Reference Section = Cs cant. = Cs max. = Cs min. = Cs use = Vu design = V design = Ev = NBN N Y 5.00 ft. 1.5 0.52 6 0 11 15.00 ft. 15.00 ft. 15.00 R Output 1.000 1.600 1.500 0.780 1.000 0.620 D 0.104 0.520 0.02 0.087 0.787 3 2 2.5 1 roof high point (minimum parapet) roof low point (maximum parapet) Section 12.8.1.3 W = Building weight (g or tips) Table 11.4 -1 Table 11.4 -2 Sms = FaSs Section 11.4.3 (Eq. 11.4 -1) Sml = FvS1 Section 11.4.3 (Eq.11.4 -2) Sds = 2/3Sms Section 11.4.4 (Eq. 11.4 -3) Sd1 = 2/3Sml Section 11.4.4 (Eq. 11.4-4) Section 11.6 & Tables 11.6 -1 & 11.6.2 0.2Sd1/Sds Section 11.4.5 Sdi/Sds Section 11.4.5 Section 12.8.21 Table 12.8 -2 Table 12.8 -1 seconds - Sectlon12.821 (Eq. 12.8-7) Cu =1.4 Section 11.4.5 (Eq. 11.45)or (Eq.11.4-6)or (Eq. 11.4 -7) Table 12.2-1 Response Modification Coefficient (reduces tomes to USD) System Overstrength Factor modified for flexible diaphragm Deflection Amplification Factor for use in Sections 12.8.6. 12.8.7 & 12.9.2 Occupancy Importance Factor - Table 11.5 -1 0.333 Section 12.8.1.1 (Eq. 12.8-2) 2.5887 Section 12.8.1.1 (Eq. 12.8-3 & Eq. 12.8-4) 0.044 Section 12.8.1.1 (Eq. 12.8-5 & Eq. 12.86) 0.333 Section 12.8.1.1 (Eq. 12.8-2 thru Eq. 12.8.6) 0.333 'W At strength level USD (Eq. 12.8-1) 0.234 IN Wortdng (0.7-E ) ASD 0. 200 'D n */-.2 Sds D (Eq. 12.4 -4) - May be Zero for proportioning foundations. Philtres= wp = The weight tributary to the diaphragm at that level Fpu Talc. = 0.333 Fpu min.= 0.200 Fpu max.= 0.400 Fpu design = 0.333 Fp design = 0.233 1np (Eqs. 12.8-2 thru 12.8-6 above) *wp (min. Section 12.10.1.1) "wp (max. Se ctlon 12.10.1.1) "wp USD "wp ASD (0.7'USD) EQ. 12/16/2010 ASCE7-05 2009IBC Seismic.xls 131 11, 2 (BnBr few :4 /e - -1-iv►k 47 Inert Job Number: Jett None: Location: ENGINEERS- NORTHWEST, INC.P.S. 6869 WOODLAWN AVE N.E. (SUITE 705) SEATTLE, WA. 98115 Property of &drams Nd0mest 5 .. Salle- Use by others tetrad LATERAL LOADING FOR MECHANICAL UNITS Saber- lamas Genenda 1Uath. WA Convener* DOM= Table 13.6-1 Calaway . Site Class gait) • 4' Eapiprnem bmouded on Wind Speed = aware = y' Ls this a /anima prone region? K.. Wbtdds The medraimi uitis MU Operating Wdgli= MU Heigta• MU Length= MU V4dh= Roof height above ground leas! • edam Wialb Wind Output Comparison: F°, design = F, design • F, design • Area Fecta • Fad •%DAN• Fww • ttr aCA SHEET 5 OF REV.1 12/2/09 REV.2 2/3110 Sailed= ASCE 7-05 Section 135.1 Maclenlcall & EleadACOl Component ADad•nente Wind: AWE 7-0S Section ll.S1E1 & nines 6-21 (rooftop equipment) ME8) Ge eratorq batteries, inwetws, etotors, banalormers. and other electrlml components contracted ol hlghlTetle 13.6-1 $ochsnieal end Finnan at Components O 1.5 1.0 Roof 85 mpb 8 0 NO 100 Normal to lam 57500Iba 132011 22.50 ft. 9.0011 BJIOK 112.001. 1.00 1.600 1 0.400 1.0000 16000 0.4800 0.3000 0.4800 0.3]80 193201be 12.6011. 1 100 18801 0.70 0.70 1296 pat 12.95 psf 0.650 1.3 14.32 psi 14.31 psf 297.0 sq11. 1.568035714 66266s 4250 ®s 68281ba Section 13.1.3 TOP OF ROOF Table 1-1 Table 61 Table 8-4 Dynastically &matte.° 22.5 ft 31600 IDs (MAX.) MU 132ft No7ar 1 lief fr ieetlertieento 611 11211 Table 11. -1 Sins •FeSs Sectiat 11.4.3 (Eq.1 .4.1) gds = 2l3Sas Section 11.4.4 (Eq. 1.4-3) Tat 13.6-1 at roof send W, Upper Cant (Eq. 13.3-2) Wr Caladated (E413.3 -1) W, Lower bound (Eq 13.3-3) W (U.S.D.) •W [A.&D.i Wareing (0.7 factor ) 4 - Total Farce [.43.0.2 (height at cedrdd of MU) Table 61 Sec. 6.5.7.2 (Eq. 83) Sec. 6.5.10(Eg6-15) Tale 63 Tae 6-3 Velocity pressure al beige z=bone to good Velodty premise et help h above the gouts Ousteftegta:Mr- Section 8.5.8 Net face coeffcienttiom Fig. 6-21 (Eq. 628 ) EQ. 0-28 Projected arearonndbthelendexeptaae C. is specified far Ole aquas seta=e area. Section 6.5.15.1 ( Eq. 6-28) ELL 028 e-- Total Force [ASD.3 Fesimdc> Poled .. Solmtic Governs Lateral Design 181111 CLOADS8REACTIONS 9ft 193201be 13.211 9n t•c/2 `1 l�po• 6.8011 Mai!** of lateral teed) C,o• ROO1n (ndddosnclearance) lo° 9.001E (length oflelddovn) Mot' 00✓ 9A (AM T ° 14168 be (ASDI rnsr • T -0.6(po2) (SD Canto: 061340.7E) -30821be MD) WORKING [A801 SEt8I8C UPLIFT 00 FACH END OF HEM. 0 ibs WOW UPLIFT! EACH END "OF-UNIT • 01ba SESMC BREAK ON EACH SIDE OF MT ■ 9600166 WND SHEAR ON EACH &DE OF UNIT 3313 IDs MU Lateral - Basic No uplift occurs ULTIMATE (U80) 01ba 0Ite 1852415. 5301 tea 12/16/2010 ASCE7-05 20091BC MU LateraUdsx S4 lei- flak -ecru 5'04046 - f �y1k 441 Input= Job Number: Job Name: Location: ENGINEERS- NORTHWEST, INC.P.S. 6869 W000LAWN AVE N.E. (SUITE 205) SEATTLE, WA. 98115 Properly of Ere/avers Noreaast 8 Settle- Use by others mist' LATERAL LOADING FOR MECHANICAL UNITS Sebes- kite, Generator Tifodfe. WA Table 13.61 Calegwy ° Ede Class (sad). Es= 4' Equprnerd Is maned an IWO Speed n F]poade° Category' Is this a teatime prams region? K.' Wirdis The inecharioaluril Is MUOpera tgWelt= MU /WO a MU Lrrafi MU WIdt a R0011)8974 above ground lead &Meng Wlovm° Selsmle Output S,s° stn° Feu= 1.85000%= Fnp 0.4`e,•S, 1dRr'(1 +2tTm)W,° 0.3•Sre'4Wr SHEET 6 OF REV.1 12/2/09 REV.2 213/10 Seismic ASCE T-05 Socdon 1AS.1 Mechanical & Electrical Component Ataahments Wink ASCE 745 Section 02.15.1 d Figure 0-21 (rooftop equipment) 7900018. (MAX.) MU 1f5 mpt e b 110 1.00 Normal to face Fkodber Tav W WW Table 1-1 Table 6-1 Table 64 7800041* 10508. 22308. 9.008. ��//�)/)��(fj Woe �A�g�� F.,desigm° V'r(�VN1 4tle r� F,d1gn. Mond Output Comparison: Area Fader F°u ° krAG11r ° F= 0200. 112.001E Opramdmllp Sensitive 4 Mune 1.00 Tale 11.4 -1 1,500 Sens.. FaSss Section 11.43 (Eq.1 .4-1) 1 SOS = 2/33ns Sedan 11.4.4 (E4 1.43) 0.400 Table 13.61 1.0000 at roof Wel 1.6000 1W. Upper bon (64133-2) 0.4800 Wo wo 3-s (64133-1) 02000 •, Lower band (Eq. 13.3-3) 0.4800 W (U.S.D.) 0.5380 9N (AAD.] Working (0.7factor) 285441ba r- Total Form [ASA] 11250. 1 1.00 10.50 9Q 0.70 0.70 12.98 pet 12.95 p81 0.850 1.3 14.32 per 14.31 p51 23.3s4h 1.484378 55776s 338009 5571 lea (bdg8e1ce 0oidofMU) Teble 6-1 Sec.60.72 (463) SW. 6.5.10(E46-15) Table 6.3 Tatee 6,3 Verocityisesate at he etz above the ground Vdodly p eware d height h Owe Its guild Gust effect f ctor- Solon63.8 Net tote coefficient from Fig. 621 (64 6.28 ( Eq. 6-28 ) Projected area normal to the gird excel:4 1mre G is Waled tor Me &Mal arfaoe eree. Serum 0.5.15.1 (.4628) (E4 6-28 •-- Tots! Foroo (8.5.0.] Fsobadc a Find - Seismic Governs Latent Design 265441be PURR no Nis¢ r ,L DS &REACTIONS 9ft 1 v Rom ciu= I0.0010. A 10.58 5.25 ft (hd& of Weird load) (hoe:Moan clearance) lo° 9.008. (length ofhalddovem) Mom = WNW= (A8DI 7 = 15484 be (ASO) Tyr= T -0.0(P.2) (ASO Combo: 0.6D40 .7E) � �j {, a 41218 the [ASO) , 'fff • No uplift occwa WSW UPLIFT i] EACH END OF UNIT= MIOID UPLIFT @ EACH END OF UNIT - SESIOC SHEAR ON EACH SIDE OF UNIT • POND SHEAR ON EACH SIDE OF UNIT a MU Lateral - Basic WORKING (ASO] ULTIMATE (USD] O lba 0Iba Olds a lba 15272 [be 10501161 27E9 Me 44010* 12/16/2010 ASCE7 -06 2009IBC MU Laterabdsx Sa d ey - e� B'4j ENGINEERS- NORTHWEST, INCF.S. eieneraior 6869 WOODLAWN AVE. N.E. (SUITE 205) SEATTLE, WA. 98115 Input Job Number: Job Name: Locatiorc 64,ecie (hr ic) 1 Pnbpefty of Engineers wawa. Mc.. Snneee- Use Waters anisette LATERAL LOADING FOR MECHANICAL UNITS Saber bearlmle,aaleratr WA Ca npawt Dd rn= Table 13.6 -1 Category= 8tte Cbs1(seal= O $= 1.5 1 SHEET 7 OF REV.1 12/2/09 REV. 2 2/3/10 8eimda ASCE 7.05 Section 13.3.1 Mechanical & Electrical Componsnl Attachments Wind: ASCE 7E5 Section 66.15.18 Figure 6-21 (rooftop equipment) ME-6) Generators, batteries. inverters, motors. tmnsfon s. and other electrical components constructed of lagt4Tatte 135-1 Mechanical and BOW(gf Components = Eg cement is mantel on World Sp09re= Cori 2GY` U 513 a harimne prole region? Wild Is The medrsiml wit is MU Opealtg Weight. MU WO. MU Length = MU Width= Root height above grated level= EImrp ytwtin= Seismic Output So• SOS • n- FPO. 1.6.Sre1,W,• Fa 0.41a,1S0,11 +22tnftV,= Fp? 0.3130NWo = Wind Output Comparison: 1.0 65 mph B p NO Fp, design' F, design = F. design = z= = = (K)mm= (K1e.m • (aam = fa)� e, Co= (a)J=. ACt= 1.00 lacuna, toface F1WtIDA► Section 13.1.3 ]OF OP ROOF Table 1-1 Table 61 TOM 6-4 57500 UM 15.00 A. 22.506 9.008 Area Factor= F.0-111041&= Fvwm = o,GA8 F= 1 6.0oft 112.0011. Dynanticalty Sensitive 22.8 M 6750010s (MAK) MU 15ft UO7E• Wind dhadionaabene peg° L6 ft w 112 f1 J 1.00 Table 11.4.1 - 1.500 Sms n FeSs Sedan 11.43 (Eq. 1 .4-1) 1 Sds= 2ASms SaOm 11.4.4 (Eq. 1.4-3) 0.400 Table 13.6-1 1.0000 atrootlaiel 1.6000 W, Upper bard (Ea 13.3-2) 0.4800 1Wo Calerdnled (Eq. 13.3-1) 03000 1W, Lame bard (Eq 13.33) 0.4800 W (U.S.D.1 0.3380 'W 19.60.1 Waking ( 0.7 factor ) 19320Ibs 4-- Total Face 81.80.) 1350 f1 Melt et coined 'EMU) 1 Table 6-1 1.00 Sec. 65.72 (Eq. 6-3) 18.5011(2 Sec. 6.5.10 (Eq..6-15) 0.70 Table 6-3 0.70 Table 83 12.08 psf Velocity pressure at Mktg zabwe the gan0 12.95psf Velocity pressure atheigldh emote grated 0.850 Gust effect factor - Section 65.8 1.3 Nat force Coefficient from Fig 8-21 14.32 psi ( Eq. 8.28) 14.31 psi (Eq 628 ) 337.5 sq.ft Projected area fumed to lie Wed accept atom C, Is spelled forte actual surface area. 1.497787857 Section 85.15.1 7239 b ( Eq. 648 ) 98291bs ( Eq. 628) 7239 the 4- Total Force (A13.D3 Fseiaede> Ftaind - Governs Lateral Design 9ft 18320 Ibo (ASO) 1511 / e 7 rV n -1150 the FASO] No upldt ocean 7.511 Y V Nbt 9L ItR NA km' 7.50 ft. 1(heicta Miami load) Oa • 1001. (beldame' clearance) 9.005. (length of hoedosn) Mot= OJi.. J (A1s01 T = 18100bs (ASIA r u,=T- 0.6(P012) (ASDCOmba0.60.0.7E) WORKING (Afro] SBSMC UPLIFT §EACH END OF UNIT - 0 [be WINO UPUFT()EACH END OFMST= 0 M p �yy� /} SESm1C SII6AR ON EACH 670E OF UNIT = MOM ibe �2 G r��l r`/ J r'2 / t/67 MBMDSNEAK di EACH SIDE OF W�OT 3819 DM ever 44/14 bo4'ti k era 9 �7 MU Lateral - Basic ULTIMATE (USD] O the o Ibe 13524Ibo 5791 Rs 12/16/2010 ASCE7-05 2009IBC MU Lateral.ldsx wrowhilti.us Specifier. Address: Phone 1 Far E -Mail: 54bby - t zie i Yu , 2 tiew1 -I- PROFS Anchor 2.1.1 Page: Sub-Project I Pas. No.: Date: Specifier's comments: 1 Om- 8 12/162010 1. Input data Anchor type and diameter: Effective embedment depth: Material: Evaluation Service Report: Issued I Valid: Proof: Standoff irstaibtion: Anchor plate: Profile Base material: Installation: Reinforcement: Geometry Lind HIT-RE 600-SD Reber A 616 0r 60, SS 5. area ° -r ASTM A 615 Gr.60 ESR 2322 411120101 - method Ad 3181AC308 e, = 0.000 b. (no stand -oft); t = 0.500 b. I„ x I x t = 27.000 x 6.000 x 0500 in. (Recommended plate th'ida►ess: not calculated) S shape (RISC): (Lx W x Tx FT) = 3.000 in. x 2330 In. x 0.170 in. x 0.260 in. cracked concrete , 3000, f; = 3000 psi: h = 15.000 in., Temp. short/long: 32/32'F hammer dialed hole, Instalbtion condition: dry tension: condition B. shear. condition B; no supplemental spatt g minforeemend present edge reinforcement none or < No. 4 bar -piaw4a Iiit i V= oak hoe g 44444. irs0/6 x Loading pa, in.4b] Governing bads N =0 M,= 0.000 V, =0 K.0.000 V, = 6300 M, 0.000 X0.500 h,=6.000 159k 1,f e44 for Gd �� uyls gig (e 461414) 1, = 27.000 Governing bads (Load ease 1) N V, V, M. x h= 15.000 63 ° ' (i o )t,i 00 cu �,} _ 0 0.000 0.000 M, 0.000 Eccentricity (structural section) Brij e, =0.000; e, = 0.000 Seismic bads (categories C, D, E, or 9: no Input Mete end resole mot be dunked for agreement with Me existing conditions end for pteusbiiyt FROFIS Redo ( e)2003-2009 ftati AG, Fl.e194 &diem Hie Is a registered rredemert d Hai AG, Sdeer www.hiltlus Company: Speclfler. Address: Plane I Fax: E-Maik Sa6ey - Zry4-errie, 8, 2 Mew leevt*fiv Page: Project Sub - Project I Pos. No.: Date: PROFS Anchor 2.1.1 2 12/16/2010 Sheet 9 2. Load case/Resulting anchor forces Load case (governing): Anchor reactions IN Tension force: (*Tension, -Compression) Ardor Tension force Shear force Shear force x Shear force y 1 0 2100 2100 0 2 0 2100 2100 0 3 0 2100 2100 0 max concrete compressive strain rla): 0.00 max concrete compressive stress [psi]: 0 resulting tension force in Oc/y)=(0.00010.000) ilbj: 0 resulting canpression force in (x/y)~(010) (lb): 0 x 9 3. Tension toad Proof Load N. PI Capacity et (b) Utilization p„ ( %) a N./4N„ Status Steel Strength* WA WA WA WA Bond Strength"' WA WA WA WA Concrete Breakout Strength" WA WA N/A N/A • anchor having the highest loading 'anchor group (anchors in tension) 4. Shear toad Proof Load V,. um Capacity 0V Im) Ublization fivrAi= V,.I�V• Stags Steel Strength' 2100 10881 19 OK Steel failure (With * Mrarm)• WA WA WA WA Pryout Strength" 6300 37406 17 OK Concrete edge failure In deedion 6300 32543 19 OK x+.a • anchor having the highest loading **anchor group (relevant anchors) Steel Strength Equations V�, m (n 0.6lacy Lb) refer to ICC-ES ESR 2522 V*.* Vt. Ad 3188 Eq. (0-1) Variables n A.av M -21 (n 0.6 A,av fib) (lb] 1 0.31 16740 Calculations V,, lib] 16740 Results V1, Ilbi thaw .14. Pal Vac (lb) 16740 0.650 10881 2100 atpd data mid astute must be checked tar agreement con the etrdhe cmaffiam and tar platteldhyl PROFLS Mena (c ) 20012099 MI AG. FL-9494 Sateen MI Is registered Tradanrk d rah AG, adman wwer.hiltixis Company: Specifier. Address Phone I Fax: E-Mait Sabry 7,.vde ui-ei Sal 2 Pew jeew-iTer -I- PROFlS Anchor 2.1.1 Project 3 5 t t e, /r 16 Sub-Project I Pos. No.: ..--- -- Date: 12/16/2010 Pryout Strength (Bond Strength controls) Equations Vero'°[lWlml vaaw. Wux+ W." Kbw N,o]ACI 318-08 Eq. (D31) • 2 Ve, ACI 318-08 Eq. (D-1) Ada see ICC-ES AC308, Part D.5.3.7 Ares _ siol. ICC-ES AC308 Eq. -16c) sS1 = 20 d ° S 3 lid ICC-ES AC308 Eq. (D -16d) Cola = ICC-ES AC308 Eq. (D -16e) ha = 0.7+ 0.3 (OaJ ) 1.0 ICC-ES AC308 Eq. (D -16m) `\ \sal [( )o.5 . (1- 4,0.42 1.0 ICC-ES AC308 Eq. (D-lSg) e wow _ w i t - [ ( J r t 1) ( c )1121.0 ICC-ES AC308 Eq. (3-16h) ,p = sk°d { ICC-ES AC308 Eq. (D -161) 1 grad. = (1 +-2' -8-) 51.0 ICC-ES AC308 Eq. (D-160 =ko)a WAND = MAX ( Cis) 51 A ICC-ES AC308 Eq. .18p) NaD _ ta=m u d h,r ICC-ES AC308 Eq. (D -161) Variables McAteer IPSO Ike [P511 dananer ri►J her IN sow MJ 2.000 2145 1045 0.625 5.000 12.000 3 17 �o [PA enl rmJ scan MJ ca.& rmJ tame 3000 0.000 0.000 48.000 7.500 1.00 Calculations Nana th -] ;ma M -1 Aim [M•21 AH.O me1 aids, tluaot Ipso wb wo Mary 15.000 7.500 585/10 225.00 1.000 1060 1.016 1.002 Wawa W Woe Noe Ilk] 1.000 1.000 1.000 10259 Results V„,,,[114 tamale Om IbJ V. [m 53437 0.700 37406 6300 Input dam end reeds must be checked 0pr agreement nth the edging wedges and for pleusinedel PROFIS Anchor (c)20064009H5iA0.FL- 0494Schoen Hdtisa registered Trudan 1tdI80A0.8d=rr www.h0tius Ads: Phone 1 Fax: EaMail: Cab -I- at/ $I, 2 of PRORS Anchor 2.1.1 Page: Project 4 11 Sub - Project 1 Pos. No.: Date: 12/16/2010 Concrete edge failure In direction x+ Equations Vma = 1Aveo) ip.o v ,N,dv Wkv 4e v ,yo .V VP, ACI 318-08 Eq. (0•22) t) V,.a 2 V,m Aa 318-08 Eq. (I11) Av. see ACI 318-08. Pad 0.62.1. Fig_ RD.621(b) ° 45 c i Aa 318-08 Eq. (D-23) 1 %re..v (11 +) 51.0 Aa 31848 Eq. (D-26) %Play =0.7 +0.3( ) 61.0 wby Vb °7( 0.2 el Aa 316-08 Eq. (0.28) Aa 318-08 Eq. (D-29) Aa 318-08 EQ. 0-24) Variables e., CI-J c,2 43.v [irtJ WAY he ON 1. [in -J x d. M•J 32.000 48.000 0.000 1.000 15.000 5.000 1 0.625 4 [PSIJ gWasdv 3000 1.000 Calculations Av. M.21 Awo Lu-21 t)r..v *Amy %* v Vb [lbJ 1440.00 4808.00 1.000 1.000 1.789 83165 Results Vdg rib] eooan,a. • Vero (IbJ Vu, IJbJ 46490 0.700 32543 6300 5. Warnings • Condi8on A applies when supplementary reinforoemerd is used. Them factor b Increased for non-steel Design Strengths except Pullout Strength and Pnyeut *smith. Condition B applies when supplemenboy reinforcement is not used and for PWlout Strength and Pryout Strength. Rarer to Aa 318. Pad D.4.4(c). • Design Strengths of adhesive anchor systems am influenced by the darning method. Refer to the INSTRUCTIONS FOR USE given In the Evaluation Service Report for damning and inatalladon Instructions • The present version of the software does not account for adhesive anchor special design provisions corresponding to overhead applications. Refer to the ICC-ES Evaluation Service Report (e .g. section 4.1.1 of the ICC ESR 2322) for details. • Checking the transfer of loads into the base material and the swear resistance are requited in accordance with ACI318 or the relevant standard! • The anchor plebe b assumed to be sufficiently stir in order to be not deformed when subjected to the actions! Fastening meets the design criterial twiddle and smuts crud be domed 6r agreement wits the existing =deices end a pieust ayl PROFL9 Andes (c ) 2001.2009 Hilt AG. FL -9194 Selman 1151 is • mattered tYadsnaR d Imo AG. Slicer Global Power Supply Submittal for Approval CoreLink Data Centers LLC Loren Zweig Ship to Address: SEA02, 3311 S. 120th Place Seattle WA 98168 Project Name: 2000 kW Enclosed MTU Generator - Seattle GPS Project Number: 1743 Version: A Revision: 1 FILE COPY Date: 12/06/10 Pettit No., Project Contacts: Ron Firestone Project Manager Primary point of contact from Global Power Supply's receipt of PO through project completion 805 - 683 -3828 ext. 247 ron.firestone c(�olobalpwr.com Bob Haden Power Systems Engineer Responsible for technical support 805 - 683 -3828 ext. 378 bob.haden(a�globalpwr.com Nicole Sanchez Director of Logistics Responsible for freight and logistics 805 - 683 -3828 ext. 218 nicole.sanchez(a�globalpwr.com Scott Feinberg Production Manager 805 - 683 -3828 ext. 358 scott.feinbergt globalpwr.com Rob Hansen 805 - 683 -3828 ext. 353 rob.hansen @globalpwr.com REVIEWED FOR CODE COMPLIANCE APPROVED MAR 2 8 2011 City of Tukwila BUILDING DIVISION RECEIVED M O FEB 28 2011 PERMIT CENTER Global Power Supply - 5383 Hollister Ave Suite 100 - Santa Barbara CA 93111 Phone: 805- 683 -3828 - Fax: 805- 683 -3823 - Email: info @globalpwr.com Gres Global Power Supply Project Name: 2000 kW Enclosed MTU Generator - Seattle GPS Project #: GPS1743a -1 Dear Loren Zweig, wI ltd f 149—;1 fir' in t.1 Thank you for your order! I will be the Project Manager in charge of processing your order and your main point of contact through completion. Please feel free to contact me with any questions or comments. Attached you will find the electronic submittal for this project. Please review the submittal and return to me as soon as possible along with your approval and /or changes clearly indicated so we can continue to process your order. By signing the line on the next page, CoreLink Data Centers LLC agrees to release all components in this submittal for production, pages 1 through 82. The current lead time on this enclosed generator set is approximately 15 weeks after approval of submittals. Additional time (approximately two weeks) will be necessary for transit and shipping to the site. Our company policy states we cannot order any materials or proceed with any production without an approved submittal returned from you. Customer Requested Delivery Date: * *Note: Requested delivery date is not a guarantee of delivery date. If no requested date is given, then the order will be processed according to lead times given in previous section and customer must take delivery of product when unit is ready for shipment. Enclosure Color: Standard: ANSI Gray Tank Color: Black *Note: Some on site assembly including the following will be required by customer's contractor. External muffler ships loose and is to be installed by others. Vibration isolators will ship loose to be installed by others. Fused disconnect is a stand -alone item with an outdoor enclosure. NGR is a stand -alone item. *Note: Up to 2 consecutive 10 hour days, during normal business hours, have been allocated for warranty start-up. Startup must be scheduled 3 weeks in advance. Additional trips, overtime or extra days on site are not included and will be additional. Switchgear vendor must be present to coordinate paralleling functions with the generator technician on the second day of start-up. *Note: Once submittal is approved, any changes must be in writing, signed by Customer and approved by Global Global Power Supply - 5383 Hollister Ave Suite 100 - Santa Barbara CA 93111 Phone: 805 - 683 -3828 - Fax: 805 - 683 -3823 - Email: info @globalpwr.com G Global Power Supply Approved by: Date: Signature Disapproved by: Date: Signature Comments: Thank you for choosing Global Power Supply. Sincerely, Ron Firestone Project Manager Global Power Supply Phone #: 805 - 683 -3828 ext. 247 Email: ron.firestone(c�dlobalpwr.com Global Power Supply - 5383 Hollister Ave Suite 100 - Santa Barbara CA 93111 Phone: 805 - 683 -3828 - Fax: 805 - 683 -3823 - Email: info @globalpwr.com Lansaw energy MTU ONSITE ENERGY MODEL #2000SXC6DT2 ENGINE GENERATOR SET GENERATOR: 2000 kW, 2500 kVA, 0.8 PF, 2400/4160ACV volt, 3- phase, 6 wire, 60 Hz, 1800 RPM, revolving field type with amortisseur windings and direct connected brushless exciter, Model 2000SXC6DT2, DVR2000E voltage regulator, 130 degree temperature rise per NEMA MG1 -22.40 & MG1- 22.84, commercial RFI shielding, single bearing style, direct connected to the engine flywheel through a semi - flexible coupling. ENGINE: Model: Detroit Diesel 16V- 4000- 3058HP, unit radiator - cooled with fan guard. A 6.69 inch bore and 8.27 inch stroke and a 4,656 cubic inch displacement developing a 3,058 BHP. Engine equipped for operation on Diesel # 2 and complete with all necessary accessories to include the following: 24 volt DC starting with charging alternator and regulator; with standard at +/ -114% regulation and oil drain extension. DGC -2020 (Expanded) CONTROL PANEL W /ACCESSORIES: DGC 2020: This Expanded MTU Onsite Energy Digital Genset Controller is a highly advanced integrated genset control system. The DGC -2020 is perfectly focused, combining rugged construction and microprocessor technology to offer a product that will hold up to almost any environment and flexible enough to meet your application's needs. This device provides genset control, transfer switch control, metering, protection and programmable logic in a simple, easy to use, reliable, rugged, and cost effective package. ANNUNCIATOR PANEL: The RDP -110 Remote Display Panel is microprocessor -based technology that provides remote annunciation of engine - generator status. The RDP -110 is designed to be used in conjunction with the MTU Onsite Energy control panels to provide installations with NFPA 110 Levels 1 & 2 compliance. Microprocessor based technology allows the use of serial communications for quick and simple connection to the control panel. RS -485 compatible signals insure noise immunity over long distances. The RDP -110 functions include the following: * Switch Not in Auto Alarm * Low Coolant Level Alarm * High Coolant Level Alarm * Low Oil Pressure Alarm * Overcrank Alarm * Overspeed Alarm * Emergency Stop Push Button * Airbox Closed Alarm * Sender Failure Alarm * Display Panel on Led * Emergency System Supplying Load Led * High Coolant Temperature Pre -alarm * Low Coolant Temperature Pre -alarm * Low Oil Pressure Pre -alarm * Low Fuel Level Pre -alarm * Battery Overvoltage Pre -alarm * Weak Battery Pre -alarm * Battery Charger Failure Pre -alarm * BATTERIES: Extra ruggedness and resistance to vibration, heat, chemicals, and physical abuse are built into every commercial battery. The battery design features the latest in power storage technology as well as incorporating proven designs developed with the most experience in the business. Two sets of QTY four, model 1300CCA @ 0 F lead -acid, 24 volt DC batteries with unit mounted steel rack and cables. Best Battery Selector Redundant batteries BATTERY CHARGER: Model: NRG 22- 10 -RCL, 10 amp, 12/24 volt DC, 120 volt AC lead acid battery charger, mounted & DC wired - AC wired to terminal strip. 2nd Battery Charger mounted and wired for a redundant system HEATER: Model: CSM11202 -000, 12000 watts, 240 volt water heater with thermostat, Heater wired to a Terminal. EXHAUST SILENCER & FLEX: Critical grade muffler with 16" stainless steel flexible exhaust connections, mounting brackets, rain cap, tailpipe, and exhaust flex. FUEL TANK: 3,540 gallons, sub base with stub up, rupture basin, double wall, UL approved, heavy gauge steel tank, interior protective coating, rust proofed and finish painted exterior. Tank fittings for engine supply, engine return, low fuel level contacts, leak detector contacts, 2" manual lockable fill, emergency vent, 2" mechanical fuel gauge. Extra accessories include Electric Fuel Gauge (mounted in control panel) 5 Gallon Spill /Fill Box Custom Options Included: Emergency Pressure Relief vent Cap Set ENCLOSURE: Weather Proof Enclosure includes bolt together sheet metal enclosure constructed with 14 -gauge material, lockable hinged doors, keyed alike, a fixed storm proof air intake louver and expanded metal air discharge, muffler support brackets and exhaust piping allowing the muffler to be mounted on top of the roof; including rain cap. VIBRATION ISOLATORS: Earthquake certified spring isolators (these will ship loose to be mounted by contractor between the tank and the pad) MISCELLANEOUS: The unit is painted MTU Onsite Energy Grey; with a 2 years / 3000 hour Basic Standby Limited Warranty with standard commercial tests; and one set of instruction manual(s) for the installation, operation and maintenance of all equipment described herein. The issuance of this submittal brochure does not initiate the delivery schedule quoted. The delivery schedule quoted will begin only after formal approval of the submitted material and the approved submittal brochure has been returned to and received by MTU Onsite Energy Corporation. TOGNUMCGROUP. BRA■f)', DIESEL ENGINE - GENERATOR SET 2000-XC6 DT2 2000 kWe / 60 Hz /Standby 1800 kWe /60 Hz /Prime 480 - 13.8kV SYSTEM RATINGS 'energy Standby Voltage (L L) , ; 480V ti Phase 3 3 PF 0.8 0.8 Hz 60 60 kW 2000 2000 kVA AMPS skVA @30% Voltage Dip 5800 Generator Model* 744RSL4054 Temp Rise 130 °C /27 °C Connection 4 BAR WYE 2500 2500 3007 2406 Prime +Voltage`(L Phase ........... ............................... . PF ..... ............................... Hz kW ................. ............................... . kVA AMPS skVA @30% Voltage Dip .............. ............................... . Generator Model* ........ ............................... Temp Rise ........ ............................... Connection „480Vrvi`? 1600; 3 3 0.8 0.8 60 60 1800 1800 2250 2250 2710 2168 5800 3600 744RSL4054 744RSS4292 105 °C /40 °C 105 °C /40 °C 4 BAR WYE 4 BAR WYE 41601lr 5100 744FSM4374 105 °C /40 °C .... ............................... 4 BAR WYE 12470V 3 60 60 2000 2000 2500 2500 3200W2,-7-' <_ 3 0.8 116 109 = 13200V, +,* • The Generator Model Number identified in the table is for standard C Series Configuration Consult the factory for alternate configuration • • UL2200 Offered 13800Vi 0.8 60 ................ 2000 2500 105 C/F ............................... . 1020FDH5582 ...... ............................... 130 °C /27 °C 4 BAR WYE �13800V 3 0.8 ........... 60 1800 2250 94 C/F .............................. 1020FDH5582 105 °C /40 °C 4 BAR WYE 2 / 1/ / 2000- XC6DT2 • STANDARD FEATURES // EPA Tier 2 Certified // Engine- Generator Set Tested to ISO 8528 -5 for Transient Response // UL2200 Listed, CSA Certified - Offered // Accepts Rated Load in One Step Per NFPA 110 // All engine - generator sets are prototype and factory tested // MTU Onsite Energy is a single source supplier // Global Product Support // 2 Year Standard Warranty // 16V 4000 Diesel Engine - 76.3 Liter Displacement - Common Rail Fuel Injection - 4 -Cycle // Complete Range of Accessories STANDARD EQUIPMENT // Generator - Brushless, Rotating Field Generator - PMG (Permanent Magnet Generator) supply to regulator - 300% Short Circuit Capability - 2/3 Pitch Windings - Standard for 570 frame and larger - Optional for 430 frame and smaller // Digital Control Panel(s) - UL Recognized, CSA Certified, NFPA 110 - Complete System Metering - LCD Display // Cooling System - Integral Set - Mounted - Engine Driven Fan // Engine Air Cleaner ......................................... ............................... . Oil Pump Full Flow Oil Filter ........................................... ............................... Closed Crankcase Ventilation Jacket Water Pump ........................................................... ............................... . Inter Cooler Water Pump ............................................. ............................... Thermostats ................................................. ............................... . Exhaust Manifold - Dry Blower Fan & Fan Drive ........................................................... ............................... Radiator - Unit Mounted ................................................ ............................... . Electric Starting Motor - 24V ............... _................................... ............................... Governor - Electronic Isochronous Base - Structural Steel ............................................ ............................... . SAE Flywheel & Bell Housing Charging Alternator- 24V .................................................... ............................... Battery Box & Cables ........................................................ ............................... Flexible Fuel Connectors ................................................. ............................... . Flexible Exhaust Connection EPA Certified Engine /1 Generator NEMA MG 1, IEEE and ANSI standards compliance for temperature rise and motor starting Sustained short circuit current of up to 300% of the rated current for up to 10 seconds ........................................................................................................................ ............................... Self- Ventilated and Drip -Proof .................................................................................................................................................. ............................... Superior Voltage Waveform ........................................................................................................................... ............................... Digital, Solid State, Volts- per -Hertz Regulator No Load to Full Load Regulation Brushless Alternator with Brushless Pilot Exciter 4 Pole, Rotating Field 130°C Maximum Standby Temperature Rise .......................................................................................... ............................... 1 Bearing, Sealed .... ............................... _................................................ ...._.......................... Flexible Coupling ................................................................................. ............................... . Full Amortisseur Windings .................................................................................. ............................... 125% Rotor Balancing ....................................................................................... ............................... 3 -Phase Voltage Sensing ±0.25% Voltage Regulation 100% of Rated Load - One Step 3% Maximum Harmonic Content // Digital Control Panel(s) Digital Metering ........................................................... ............................... Engine Parameters Generator Protection Functions ......................................................................... ............................... Engine Protection ................................................................ ............................... SAE 1 1939 Engine ECU Communications Windows -Based Software Multilingual Capability ............................................................................................................................ ............................... Remote Communications to our RDP -110 Remote Annunciator ............................................................................................................. ............................... . 16 Programmable Contact Inputs Up to 11 Contact Outputs UL Recognized, CSA Certified, CE Approved ................................................................................................................... ............................... Event Recording ........................................................................................... ............................... IP 54 Front Panel Rating with Integrated Gasket NFPA110 Compatible 3 / N / 2000- XC6DT2 APPLICATION DATA // Engine Manufacturer MTU Model 16V 4000 G43 (T1638A36) Type 4 -Cycle ........................................................................................................................................... ............................... Arrangement 16 -V .................................................................................................................................. ............................... Displacement: L (in') 76.3 (4,656) Bore: cm (in) 17 (6.69) Stroke: cm (in) 21 (8.27) ................................................................................................................................................ ............................... _......... Compression Ratio 16.5:1 ...................................................................................................................................... ............................... Rated RPM 1,800 Engine Governor Electronic Isochronous (ADEC) Maximum Power: Standby: kWm (bhp) 2,280 (3,058) Maximum Power: Prime: kWm (bhp) 2,020 (2,709) Speed Regulation ±0.25% ............................................................................................................................................... ............................... Air Cleaner Dry // Liquid Capacity (Lubrication) Total Oil System: L (gal) ................................................. ............................... Engine Jacket Water Capacity: L (gal) ......................................................... ............................... After Cooler Water Capacity: L (gal) System Coolant Capacity: L (gal) // Electrical // Fuel Consumption STANDBY PRIME At 100% of Power Rating: L /hr (gal /hr) 558 (147.3) 487 (128.6) ....................................................................................................................................................... ............................... At 75% of Power Rating: L /hr (gal /hr) 426 (112.6) 381 (100.7) At 50% of Power Rating: L /hr (gal /hr) 299 (78.9) 265 (69.9) // Cooling - Radiator System STANDBY .............................................................................................................. ............................... Ambient Capacity of Radiator: °C ( °F) 40 (104) Maximum Restriction of Cooling Air, Intake, and Discharge Side of Rad.: kPa (in. H20) 0.12 (0.5) Water Pump Capacity: L /min (gpm) 1,350 (357) .......................................... ............................... After Cooler Pump Capacity: L /min (gpm) ............................................... ............................... Heat Rejection to Coolant: kW ( BTUM) ........ ............................... 874 (49,704) 770 (43,790) Heat Rejection to After Cooler: 300 (79.3) kW (BTUM) 671 (38,160) 572 (32,530) 175 (46.2) Heat Radiated to Ambient: kW (BTUM) 184 (10,478) 173.6 (9,871) 50 (13.2) 651 (172) PRIME 40 (104) 0.12 (0.5) 1,350 (357) 583 (154) 583 (154) // Air Requirements Aspirating: *m3/min (SCFM) Electric Volts DC 24 Air Flow Required for Rad. Cold Cranking Amps Under-17.8°C (0 °F) 2,600 Cooled Unit: *m3/min (SCFM) // Fuel System Fuel Supply Connection Size 1" NPT ................................................................................................................................. ............................... Fuel Return Connection Size 3/4" NPT ..................................................................................................................................... ............................... Maximum Fuel Lift: m (ft) 1 (3) Recommended Fuel Diesel 4#2 Total Fuel Flow: L /hr (gal /hr) 1,020 (269) Air Flow Required for Heat Exchanger /Remote Rad. based on 25 °F Rise: *m3/min (SCFM) STANDBY PRIME ........................................ ............................... 186 (6,569) 180 (6,357) 2,270 (80,160) 2,270 (80,160) 673 (23,631) 634 (22,262) * Air density = 1.184 kg/m3 (0.0739 Ibm/ft3) // Exhaust System STANDBY PRIME Gas Temp. (Stack): °C ( °F) 480 (896) 435 (815) Gas Volume at Stack Temp: m' /min (CFM) 456 (16,103) 426 (15,044) .............................................................................................................................................. ............................... . Maximum Allowable Back Pressure: kPa (in. H20) 8.5 (34.1) 8.5 (34.1) ... 4 / /1 / 2000- XC6DT2 WEIGHTS AND DIMENSIONS rawin -above,for.illustratio purposes,only „based o'nstandard:open powerL480yoIt engine= Reneratorset.:Lengths:may v, aryiwith- other„ voltages; iDo ;notwse.for;installation_design ( See ;welisiteiforu lspecdiclteiriplate drawings system' Dimensions (Lx,W x )4Wereitli(less tanlif tf 6,550 x 2,560 x 2,860 mm (258 x 100.6 x 112.5 in) 16,477 kg (36,326 Ib) Weights and dimensions are based on open power units and are estimates only Consult the factory for accurate weights and dimensions for your specific engine - generator set SOUND DATA UnitTyper:•.a.'. Standby4Full Load Pnm'e Full,Load',t Level 0: Open Power Unit (dBA) 104 102.5 Sound data is provided at 7 m (23 ft) Engine - generator set tested in accordance with ISO 8528 -10 and with infinite exhaust EMISSIONS DATA ,NQ; +,`NMHC C/F C/F C/F All units are in g /hp-hr and are EPA D2 cycle values. Emission levels of the engine may vary as a function of ambient temperature, barometric pressure, humidity, fuel type and quality, installation parameters, measuring instrumentation, etc. The data provided are laboratory results from one engine representing this rating. The data was obtained under controlled environmental conditions with calibrated instrumentation traceable to the United States National Bureau of Standards and in compliance with US EPA regulations found within 40 CFR Part 89. The weighted cycle value from each engine is guaranteed to be below the US EPA Standards at the US EPA defined conditions. Materials and specifications subject to change without notice. C/F = Consult Factory/MTU Onsite Energy Distributor RATING DEFINITIONS AND CONDITIONS // // 1/ Standby ratings apply to installations served by a reliable utility source. The standby rating is applicable to varying Toads for the duration of a power outage. No overload capability for this rating. Ratings are in accordance with ISO- 8528 -1, ISO- 3046 -1, BS 5514, AS 2789, and DIN 6271. Permissible average power output during 24 hours of operation is approved up to 85 %. Prime power ratings apply to installations where utility power is unavailable or unreliable. At varying load, the number of generator set operating hours is unlimited. A 10% overload capacity is available for one hour in twelve. Ratings are in accordance with ISO- 8528 -1, ISO- 3046 -1, BS 5514, AS 2789, and DIN 6271. Permissible average power output during 24 hours of operation is approved up to 75 %. Deration Factor: Altitude: Consult your local MTU Onsite Energy Power Generation Distributor for altitude derations. Temperature: Consult your local MTU Onsite Energy Power Generation Distributor for temperature derations. © MTU Onsite Energy. Subject to alteration due to technological advances. 2010-06 /1 Tognum Group Companies: Europe / Middle East / Africa / Latin America / MTU Onsite Energy / 88040 Friedrichshafen / Germany / Phone + 49 7541 90 7060 / Fax +49 7541 90 7084 / powergenregion1@mtu-online.com // Asia / Australia / Pacific / MTU Onsite Energy / 1, Benoi Place / Singapore 629923 / Republic of Singapore / Phone + 65 6861 5922 / Fax + 65 6861 3615 / powergenregion2 @mtu -online.com // USA / Canada / Mexico / MTU Onsite Energy Corporation / 100 Power Drive / Mankato, Minnesota 56001 / USA / Phone + 1 507 625 7973 / Fax + 1 507 625 2968 / powergenregion3 @mtu- online.com // Worldwide for HotModule / MTU Onsite Energy / 81663 Munich / Germany / Phone + 49 89 203042 800 / Fax +49 89 203042 900 / info @mtu -online.com / /www.mtu -online.com MARATHON ELECTRIC GENERATORS TYPICAL SUBMITTAL DATA MODEL : 744FSM4374 BASE MODEL: 744FSM4374 Winding H- SG740240 Submittal Data: 4160 Volts *, 2050.4 kW, 2563 kVA, 0.8 P.F., 1800 RPM, 60 Hz, 3 Phase 211812009 Kilowatt ratings at 1800 RPM 60 Hertz 6 LEADS Standard Medium Voltage kW (kVA) 3 Phase 0.8 Power Factor Dripproof or Open Enclosure Voltage* Class B Class F Class H 80° C m Continuous 90° C m Lloyds 95° C D ABS 105° C British Standard 105° C Continuous 130° C CD Standby C British Standard 125° 125° C Continuous 150° C m Standby 4160 1525 (1906) 1680 (2100) 1680 (2100) 1860 (2325) 1875 (2344) 2050 (2563) 1860 (2325) 2050 (2563) 2050 (2563) 0 Rise by resistance method, Mil- Std -705, Method 680 lb. British Standard Rating per BS 5000 Submittal Data: 4160 Volts *, 2050.4 kW, 2563 kVA, 0.8 P.F., 1800 RPM, 60 Hz, 3 Phase STD. CONNECTION Mil- Std -705B Mil- Std -705B Method Description Value Method Description Value 301.1b Insulation Resistance >10 Meg 505.3b Overspeed 2250 RPM 302.1a High Potential Test 507.1c Phase Sequence CCW -ODE ABC Main Stator 9320 Volts 508.1c Voltage Balance, L -L or L -N 0.20% Main Rotor 1500 Volts 601.4a L -L Harmonic Maximum - Total 5.0% Exciter Stator 1500 Volts (Distortion Factor) Exciter Rotor 1500 Volts 601.4a L -L Harmonic Maximum - Single 3.0% PMG Stator 1500 Volts 601.1c Deviation Factor 5.0% 401.1a Stator Resistance, Line to Line - -- TIF (1960 Weightings) < 50 High Wye Connection 0.072 Ohms - -- THE (IEC, BS & NEMA Weightings) < 2 % Rotor Resistance 1.196 Ohms 652.1a Shaft Current < 0.1 ma Exciter Stator 22.1 Ohms Exciter Rotor 0.066 Ohms - -- Main Stator Capacitance to ground 0.06 mfd PMG Stator 2.1 Ohms 410.1a No Load Exciter Field Amps 0.79 A DC at 4160 Volts Line to Line Additional Prototype Mil -Std Methods 420.1a Short Circuit Ratio 0.575 are Available on Request. 421.1a Xd Synchronous Reactance 2.108 pu -- Generator Frame 744 14.222 ohms -- Type MAGNAMAXDVR 422.1a X2 Negative Sequence React. 0.207 pu -- Insulation Class H 1.397 ohms -- Coupling - Single Bearing Flexible 423.1a XO Zero Sequence Reactance 0.023 pu -- Amortisseur Windings Full 0.155 ohms -- Excitation Ext. Voltage Regulated, Brushless 425.1a X'd Transient Reactance 0.126 pu -- Voltage Regulator DVR2000E 0.85 ohms -- Voltage Regulation 0.25% 426.1a X "d Subtransient Reactance 0.098 pu 0.661 ohms -- Xq Quadrature Synch. React. Not Available -- Cooling Air Volume 3400 CFM 427.1a T'd Transient Short Circuit -- Heat rejection rate 5655 Btu's /min Time Constant 0.178 sec. 428.1a rd Subtransient Short Circuit - Full load current 356 amps Time Constant 0.013 sec. 430.1a T'do Transient Open Circuit -- Minimum Input hp required 2881.8 Time Constant 2.55 sec. Efficiency at rated load : 95.4% 432.1a Ta Short Circuit Time Constant of Armature Winding 0.055 sec. -- Full load torque 8405 Lb -ft (3) Excitation support system or PMG required to sustain short circuit currents. * Voltages refer to wye (star) connection, unless otherwise specified. } MARATHON ELECTRIC GENERATORS TYPICAL DYNAMIC CHARACTERISTICS MODEL : 744FSM4374 BASE MODEL: 744FSM4374 Winding H- SG740240 Submittal Data: 4160 Volts*, 2050.4 kW, 2563 kVA, 0.8 P.F., 1800 RPM, 60 Hz, 3 Phase 0 500 1000 1500 2000 2500 d E d 0 0 IMIMMIMMEMMMMMMINIMMIN 1111111111111MMEMENAIII MMMIIMMIIIMMIMMMIMIMMM PLAIMMIMMIMMMEMMEMMIMMIM ME 0 500 1000 1500 2000 2500 30% a C 20% 0 10% > 0% Load application - - - --- simmEncrai il•-- l:- kW 0 500 1000 1500 2000 2500 30% N 20% > 10% • 0% Load rejection ■■■■■mE■■■■■■■■■p■■■■ - - -- v- 0 500 1000 1500 2000 2500 kW 98.0% 97.0% 96.0% 95.0% 94.0% 93.0% 92.0% 91.0% 90.0% 89.0% 88.0% 0 Efficiency at rated voltage and frequency vs. Toad kW .8 pf — —1.O pf J i 500 1000 kW Output 1500 2000 2500 Percent dip 40% 35% — 30% — 25% — 20% — 15% — 10% — 5% 0% Voltage dip with motor starting 0 1000 2000 3000 4000 5000 6000 7000 8000 Locked rotor kVA MARATHON ELECTRIC GENERATORS . Customer : Order : Model : 744FSM4374 Phase : 3 Hertz : Volts : RPM : DECREMENT CURVE Prepared by : Date : 11/23/10 BASE MODEL: 744FSM4374 STD. CONN. 60 KVA : 2500 Full Load Current : 347 amps 4160 KW : 2000 Steady State S.C. Current : 1041 amps 1800 P.F.: 0.8 Max. 3 ph. Symm. S.C. Current : 3615 amps INCLUDES EXCITATION SUPPORT (PMG) Symmetrical Component va ues, Maximum Asymmetrical Values Are 1.732 Times Symmetrical Values — — 3 Phase - - - Line to Line — - Line to Neutral rr at NINO Ai. me —1 •=,w- Thermal Capability Limit 100 10 1 Seconds 0.1 Version Win2001.1 Data rev. : 2002.1 10,000 1,000 100 10 0.01 Short Circuit Amps Digital Genset Controller DGC -2020 0 HIGHLIGHTS • UL Recognized, c i i , CE approved ♦ NFPA -110 compatible • Microprocessor based • Windows -based software for optional remote operation (Software can be downloaded at www.mtuonsitenergy.com) • Complete system metering • Expandable to meet customer needs ♦ Optional accessories for Ethernet communication nits ene qg 0 DESCRIPTION MTU Onsite Energy's Digital Genset Controller (DGC -2020) is a highly advanced integrated genset control system. The DGC -2020 is perfectly focused, combining rugged construction and microprocessor technology to offer a product that will hold up to almost any environment and flexible enough to meet your application's needs. This device provides genset control, transfer switch control, metering, protection and programmable logic in a simple, easy to use, reliable, rugged, and cost effective package. c) DIAGRAM .Liquid C.tystat Dispjsy. 9lipplyInti,Ldad ledlcator--' Atatrall ieator— tlot'iri.Atitb IriBicator :AtaretSi)eriee Pus6D1.4n Edit P[tshbutto fltB . .,...i.. .... ...1 i n Lamp Test fiusbt ftont .Iiuto fpiJh51tt h nd Mode Intl tnr Arro* Pkishbuttons Dttfkuattkitthq.atielmede dridicehor LReset.P.Usb button 'Run Pusti puttrittendModeinalsetar Front Panel LED Indicators: • Run: Green - Indicates the DGC is in the RUN mode. • Off: Red - Indicates the DCG is in the OFF mode. • Auto: Green - Indicates the unit is in the AUTO mode of operation. • Not in Auto: Red - Indicates unit is not in the AUTO mode. • Supplying Load: Green - Indicates the system is supplying current to a connected load. • Alarm: Red - Indicates an alarm situation by continuous illumination. Indicates a Pre -alarm by flashing. DGC- 2020_12pgBrochure_10 -09 Page 1 Engine Monitoring J Digital Genset Controller DGC -2020 Standard Features Level 1 iGeneratorrMetenng rrt GensetiCOntrol Emergency Stop J 1 Level 2 Level 3 Windows -Based Software (BESTCOMSPIus) Automatic Transfer Switch;Controla ,,% Event Recording J Suitable forkuse on rental!gensets,wdh'Hi /Lo line sensing orisingle'or three, phase sensing,overnde = 11� J SAE J1939 Engine ECU Communications (Expandable I/O Capability) J Modbu)Communication`swia RS=485 Multilingual Capability (English, Spanish, Chinese) Extremely egged Fup EncapsulatedDesignr r 16 Programmable Contact Inputs J - 123Pr6grammabtet2 AdciFormiA!Rated CodntactfOutputs Wide Ambient Temperature Range (-40 to -70 °C / -40 to - 158 °F) HALT (Highly Accelerated Life Tests) Tested IP 54''Front.Panel Rating. With`. LCD Heater iUL 508Compatble UL Recognized, cl m, CE Approved Cunt aSe smg (5A CT, Inputs) Generator Frequency - 50/60 Hz Battery for Real Time,Clo'ck . J Generator Protection (27, 32, 400, 59, 810, 81U) Generator Protechon)(47 `5,1) ' Internal Dial -Out Modem (Remote Dial -Out and Dial -In Capability) Automatic Synchronizer`' Optional Accessories Level 1 Level 2 Level 3 ".'#? log "A"b5'afiS Gi". "'gj $ i^u`;w'"uI e+° aqK, yv'a:,x.a x�Rw,s✓u .r:;,u } *;'; i yl,'l i'C�' `. :. .� yC ' t. ` 7 Analo Extension Module <2020 AEM 2020 �� " 9 ` "N',; Jr¢ p 1 q +f'` c p 5 + .' ae , y {gyp 4 S 1k'f+7r f"y?�¢ Paf ji yea f Ja Load Share Module 2020 (LSM -2020) S *Sr,".a'•',A, „ 1 erne f .y .�!,•4 ' g &;,, }a•,kJ' "�.AV"vP^�r'�. rra 1r , �k' . bE� f �„ k. 4 ' t, r, � �'d eara+ .' `*w t � 4€,�.. � •-#� k �a�� • Parallel (Must have autosync panel to /oadshare) 471:' - `., -.e. Y sa' a',t9+ w I, "Ar.as. T otE p a io ModuIe 20i( VEM202t) ifr '� „� n�ti 'fii .i it Y, '¢ §' Modbus RTU -TCP Gateway J Al J } emoe ° 4 f° : °R. P3110RemofefA aaLVial4 tr° �'i° �x J. 4tra Page 2 DGC- 2020_12pg Brochure_10 -09 Digital Genset Controller DGC -2020 0 FUNCTIONS Genset Protection: Generator (All Levels): ANSI Codes Generator (Level 2 / 3 only): ANSI Codes ansite ene gg Undervoltage (27) Reverse Power (32) Loss of Excitation (40Q) Overvoltage (59) Overfrequency (81 O) Underfrequency (81U) Phase Imbalance (47) Generator Overcurrent (51) All Generator Protection features are programmable as alarms, pre - alarms, status or not used. Engine: Alarms (Shutdowns) Low Oil Pressure High Coolant Temperature Low Coolant Level Low Fuel Level Overspeed Overcrank Engine Sender Unit Failure Fuel Leak/Fuel Sender Failure Emergency Stop Battery Charger Failure Critical Low Fuel Shutdown Pre - Alarms (Warnings) Low Oil Pressure High Coolant Temperature Low Coolant Temperature Battery Overvoltage Weak Battery Battery Charger Failure Engine Sender Unit Failure Engine kW Overload (3 levels) Maintenance Interval Timer Low Coolant Level Low Fuel Level Fuel Leak Detect High Fuel Level All alarms and pre - alarms can be enabled or disabled via the BESTCOMSPIus PC software or the front panel. Additional custom alarms and pre - alarms are available upon request. Genset Metering: • Generator parameters consist of 8 standard parameters including, but not limited to voltage, current, Hz, real power (watts), apparent power (VA), and power factor. The view can be programmed to display up to 20 parameters using the scrolling and time delay feature. • Engine parameters include oil pressure, coolant temperature, RPM, battery voltage, fuel level, engine runtime, and various J1939 supported parameters. Engine Control: • Cranking Control: Cycle or Continuous (Quantity and Duration Fully Programmable) ♦ Engine Cooldown: Smart Cooldown function saves fuel and engine life. ♦ Successful Start Counter: Counts and records successful engine starts • Timers including, but not limited to: • Engine Cooldown Timer • Engine Maintenance Timer • Pre -Alarm Time Delays for Weak/Low Battery Voltage • Alarm Time Delay for Overspeed • Alarm Time Delay for Sender Failure • Arming Time Delays after Crank Disconnect: - Low Oil Pressure - High Coolant Temperature DGC- 2020_12pgBrochure_10 -09 Page 3 Digital Genset Controller DGC -2020 0 FUNCTIONS Event Recording The DGC -2020 has an event recorder that provides a record of alarms, pre - alarms, engine starts, engine runtime loaded, engine runtime unloaded, last run date, and many other events that are all date and time stamped to help the user determine the cause and effect of issues related to the generator set. Contains 30 event records each retaining up to 99 occurrences in memory. Time, date and engine hour detail is available for the most current 30 occurrences within each event record. Transfer Switch Control (Mains Failure) - Level 3 only The DGC -2020 monitors utility (mains) and determines if it is providing voltage that is suitable for the loads. If the utility (mains) goes beyond predetermined levels, the generator is started and the utility (mains) is disconnected from the load and the generator is connected. When the utility (mains) returns to acceptable levels for a sufficient time, the generator is disconnected and the utility (mains) is reconnected to the load. It also includes appropriate adjustable timers or time delays for establishing stable utility (mains) operation. Utility breakers must be electronically operated. RS-485 Communications When utilized, the user can send and receive information from the DGC -2020 via the RS-485 communications port and Modbus -RTU protocol. This feature allows the DGC -2020 controlled genset to be fully integrated into the building management system. Please see the Instruction Manual for the Modbus register list. Programmable Logic The DGC -2020 offers a very powerful, yet easy to use, programmable logic scheme for custom programming of the various inputs, outputs, alarms, and pre - alarms. It allows these elements to be integrated into a complete logic scheme so that the user can meet even the most complex specification. The Programmable Logic control includes the selection of logic gates and timers with drag- and -drop technology to make it fast and simple. Remote Display Panel Annunciation The DGC -2020 can communicate to a remote display panel, Model RDP -110. This requires only two wires to annunciate all of the alarms and pre - alarms required by NFPA -110 Level I and II. External power is required. Modem - Level 2 and 3 only A dial -out modem enables remote control, monitoring, and setting of the DGC -2020. When an alarm or pre -alarm condition occurs, the DGC -2020 can dial up to four telephone numbers, in sequence, until an answer is received and the condition is annunciated. J1939 Communications J1939 CANBUS communications allows the DGC -2020 to communicate to the engine's ECU (Engine Control Unit) to gather critical engine information like oil pressure, engine coolant temperature, RPM, battery voltage, and many more. By utilizing the ECU, adding analog engine senders is no longer required. This can save substantial money for the installer. It also eliminates any errors or discrepancies between the ECU data and the data displayed on the DGC -2020 that may be present due to analog sender inaccuracies or incompatibility. A total of 47 engine parameters can be obtained via the ECU. You also can derive the added benefit of having access to the ECU's diagnostic troubleshooting codes, or DTCs. The DTCs provide information about the engine's operating conditions and communicates these via J1939, to the DGC, thus eliminating the need for hand -held service tools to diagnose simple engine issues. With the optional modem, the DTCs can be accessed remotely, and valuable service time can be saved by remote diagnostics and taking the right parts to fix the problem the first time. Page 4 DGC- 2020_12pgBrochure_l0 -09 • Digital Genset Controller DGC -2020 SPECIFICATIONS onsite e term Operating Power: ♦ Nominal: 12 or 24 Vdc • Range: 6 to 32 Vdc ♦ Power Consumption: - Sleep Mode: 5W with all relays non - energized - Typical Operational Mode: 14.2W - Run mode, LCD heater on, 6 relays energized • Battery Ride Through: Withstands cranking ride - through down to 0 V for 50 ms (typical) Current Sensing: 5 Amps AC Current Sensing Continuous Rating 0.1 to 5.0 Amps AC 1 Second Rating 10 Amps AC Burden 1 VA Voltage Sensing: • Range: 12 to 576 V rms, line -to -line • Frequency Range:10 to 72 Hz for 50/60 style • Burden: 1 VA • 1 Second Rating: 720 V rms Contact Sensing /Input Contacts: ♦ Contact sensing inputs include 1 emergency stop input and 16 programmable inputs. The factory utilizes up to (3) of these inputs. The emergency stop input accepts normally closed, dry contacts. The remote emergency stop is limited to 75 ft. standard. Extended runs are available with optional relay. All programmable inputs accept normally open, dry contacts. Engine System Inputs: • Fuel Level Sensing Resistance Range: 33 to 240 0 nominal • Coolant Temperature Sensing Resistance Range: 62.6 to 637.5 C nominal • Oil Pressure Sensing Resistance Range: 34 to 240 D nominal • Engine Speed Sensing: - Magnetic Pickup - Voltage Range: 3 to 35 V peak (6 to 70 V peak -peak) - Frequency Range: 32 to 10,000 Hz - Generator Voltage Range: 12 to 576 V rms Output Contacts: ♦ 15 Form A Total Programmable Outputs: (3) 30 Adc and (12) 2 Adc - The factory typically utilizes (5) on each gen -set which can be reprogrammed as needed: • (3) 30 Adc for Run, Start and Pre -Start • (2) 2 Adc for Audible Alarm and Alarm Output - (10) 2 Adc remain as user - defined outputs DGC- 2020_12pg Brach ure_10 -09 Page 5 Digital Genset Controller DGC -2020 0 SPECIFICATIONS nnsite erg Metering: • Generator Voltage (rms) - Metering Range: 0 to 576 Vac (direct measurement), 577 to 9,999 Vac (through VT using VT ratio setting) - Accuracy: ±1.0% of programmed rated voltage or ±2 Vac • Generator Current (rms) - Generator current is measured at the secondary windings of user - supplied 1 A or 5 A CTs. - Metering Range: 0 to 5,000 Aac - CT Primary Range: 1 -5,000 Aac,in primary increments of 1 Aac - Accuracy: ±1.0% of programmed rated current or ±2 Aac • Generator Frequency - Metering Range: 10 to 72 Hz (50/60 Hz), 10 to 480 (400 Hz) - Accuracy: ±0.25% or 0.05 Hz ♦ Apparent Power - Indicates total kVA and individual line kVA (4 -wire, line -to- neutral or 3 -wire, line -to- line). - Accuracy: ±3% or the full -scale indication or ±2 kVA • Power Factor - Metering Range: 0.2 leading to 0.2 lagging - Accuracy: ±0.02 • Real Power - Indicates total kW and individual line kW (4 -wire, Tine -to- neutral or 3 -wire line -to -line) - Accuracy: ±3% of the full -scale indication or ±2 kW • Oil Pressure - Metering Range: 0 to 145 psi or 0 to 1,000 kPa - Accuracy: ±3% of actual indication or ±2 psi or ±12 kPa (subject to accuracy of sender) • Coolant Temperature - Metering Range: -40 to 410 °F or -40 to 210 °C - Accuracy: ±3% or actual indication or ±2° (subject to accuracy of sender) ♦ Fuel Level - Metering Range: 0 to 100% - Accuracy: ±2% (subject to accuracy of sender) • Battery Voltage - Metering Range: 6 to 32 Vdc - Accuracy: ±3% of actual indication or ±0.2 Vdc ♦ Engine RPM - Metering Range: 0 to 4,500 rpm - Accuracy: ±2% of actual indication or ±2 rpm • Engine Run Time - Engine run time is retained in nonvolatile memory. - Metering Range: 0 to 99,999 h, Update Interval: 6 min - Accuracy: ±1 % of actual indication or ±12 min • Maintenance Timer - Maintenance timer indicates the time remaining until genset service is due. Value is retained in nonvolatile memory. - Metering Range: 0 to 5,000 h, Update Interval: 6 min - Accuracy: ±1 % of actual indication or ±12 min Page 6 DGC -2020_ 12 pg B ro c h u re_ 10 -09 • Digital Genset Controller DGC -2020 0 SPECIFICATIONS nns to energy Generator Protection Functions: ♦ Overvoltage (59) and Undervoltaae (27) - Pickup Range: 70 to 576 Vac - Activation Delay Range: 0 to 30 s ♦ Underfrequency (81U) and Overfrequencv (81 O) - Pickup Range: 45 to 66 Hz (50/60 Hz nominal), - Pickup Increment: 0.1 Hz (50/60 Hz nominal), 0 - Activation Delay Range: 0 to 30 s • Reverse Power (32) - Pickup Range: —50 to 5% - Pickup Increment: 0.1% - Hysteresis Range: 1 to 10% - Hysteresis Increment: 0.1% - Activation Delay Range: 0 to 30 s - Activation Delay Increment: 0.1 s 360 to 440 Hz (400 Hz nominal) .1 Hz (400 Hz nominal) Loss of Excitation (40Q) - Pickup Range: —150 to 0% - Pickup Increment: 0.1% - Hysteresis Range: 1 to 10% - Hysteresis Increment: 0.1% - Activation Delay Range: 0 to 30 s - Activation Delay Increment: 0.1 s • Phase Imbalance (47): Level 2 and 3 only - Pickup Range: 5 to 100 Vac - Pickup Increment: 1 Vac - Activation Delay Range: 0 to 30 s, Activation Delay Increment: 0.1 s ♦ Overcurrent (51): Level 2 and 3 only - Pickup Range: 0.18 to 1.18 Aac (1 A current sensing), 0.9 to 7.75 Aac (5 A current sensing) - Time Dial Range: 0 to 30 s (fixed time curve), 0 to 9.9 (inverse curve time multiplier) - Inverse Time Curves: 17 selectable Time Overcurrent Characteristic Curves Environmental: • Temperature: Operating: -40 to 70 °C (-40 to 158 °F), Storage: -40 to 85 °C ( -40 to 185 °F) ♦ Humidity: IEC 68 -2 -38 • Salt Fog: ASTM B 17 -73, IEC 68 -2 -11 (tested while operational) • Ingress Protection: IEC IP54 for front panel • Shock: 15 G in 3 perpendicular planes ♦ Vibration: 5 to 29 to 5 Hz: 1.5 G peak for 5 min. 29 to 52 to 29 Hz: 0.036" DECS -A for 2.5 min. 52 to 500 to 52 Hz: 5 G peak for 7.5 min. Swept over the above ranges for 12 sweeps in each of 3 mutually perpendicular planes with each 15- minute sweep. Agency Approvals: • UL /CSA Approvals: "cURus" approved to UL 508 R and CSA C22.2 No.14 ♦ NFPA Compliance: Complies with NFPA Standard 110, Standard for Emergency and Standby Power. CE Compliance: This product complies with the requirements of the following EC Directives: • Low Voltage Directive (LVD) - 73/23/EEC as amended by 93/68 /EEC • Electromagnetic Compatibility (EMC) - 89/336/EEC as amended by 92/31/EEC and 93/68/EEC • EN 50178:1997 - Electronic Equipment for use in Power Installations • EN 61000 -6- 4:2001 - Electromagnetic Compatibility (EMC), Generic Standards, Emission Standard for Industrial Environments • EN 61000 -6- 2:2001 Electromagnetic Compatibility (EMC), Generic Standards, Immunity for Industrial Environments DGC- 2020_12pgBrochure_10 -09 Page 7 Digital Genset Controller DGC -2020 Irma tE eerier � °' 1 `67 0 ADDITIONAL SPECIFICATIONS The DGC -2020 has been designed to provide maximum functionality at a minimum price. You only buy what you need. Below are options selected to help maximize the value provided by the DGC -2020. Battery Backup for Real Time Clock - All Levels A ten -year (typical life) lithium battery is used to provide long -term maintenance of the real time clock setting. This battery is serviceable by removing the rear cover. The settings, programming, and event records are saved in nonvolatile memory and do not require battery backup. Internal Dial -In / Dial -Out Modem - Levels 2 and 3 The DGC -2020 can provide long distance communications by including an internal modem. There are two modems available, one for U.S. and one for European telephone systems. When a modem is selected, the user can access the DGC - 2020 from virtually anywhere via a telephone line. The user can control and monitor the genset as if standing right next to it. The DGC -2020 can also dial out for pre - programmed circumstances to alert the user of selected conditions. Additional Generator Protection - Levels 2 and 3 In addition to the standard generator protection (27, 32, 40Q, 59, 810, 81U), the DGC -2020 also can be equipped with a more sophisticated generator protection system. This option provides an overcurrent element (51) with 17 selectable time current characteristic curves and a voltage phase balance protection function (47). Breaker Management - Level 3 only The DGC -2020 is capable of controlling the generator breaker and the mains breaker. The status of the breakers is determined by using BESTLogicPlus Programmable Logic to setup the GENBRK and MAINSBRK logic blocks. These logic blocks have outputs that can be configured to energize an output contact and control a breaker as well as inputs for breaker control and status. The DGC -2020 will attempt to close a breaker only after verifying that it can be closed. If the breaker cannot be closed, the close request will be ignored. Only one breaker can be closed at a time. Synchronization is required before closing the breaker to a live bus. Closure to a dead bus can be performed after meeting dead bus threshold and timing requirements set by the user. Auto - Synchronizer - Level 3 only When the DGC -2020 is configured with this option, the user can select between 2 types of autosynchronizers, phase lock or anticipatory style. In both methods, the DGC -2020 adjusts generator frequency and voltage to match that of the bus (mains) via contact outputs, then connects the generator to the bus by closing the connecting breaker. When the control mode is set to Power Factor (PF) or kVar, the setpoint can be derived either from a user setting or from an analog input. Multigen Management - Level 3 only Enabling sequencing on a networked group of load share units allows these units to manage load by starting and stopping appropriate units based on a factor of load demand and available capacity. The mode of operation is used to determine the order in which each generator in a group will contribute to the systems power production upon a demand start/stop request. Modes of operation include: • Staggered service time • Balanced service time • Largest size first • Smallest size first • Smallest unit ID Page 8 DGC -2020_ 12pg Brochure_10 -09 • Digital Genset Controller DGC -2020 nsitE n W ern/ 0 OPTIONAL ACCESSORIES Analog Extension Module 2020 (AEM -2020) The optional AEM -2020 is a remote auxiliary device that provides additional DGC -2020 analog inputs and outputs. Its features include: • 8 Analog Inputs: The AEM -2020 provides 8 analog inputs that are user - selectable for 4 to 20 mA or 0 to 10 Vdc. Each analog input has under /over thresholds that can be configured as status only, alarm, or pre - alarm. When enabled, an out of range alarm alerts the user of an open or damaged analog input wire. The label text of each analog input is customizable. • 8 RTD Inputs: The AEM -2020 provides 8 user - configurable RTD inputs for monitoring gen -set temperature. Each RTD input can be configured as status only, alarm, or pre -alarm to protect against high or low temperature conditions. When enabled, an out of range alarm alerts the user of an open or damaged RTD input wire. The label text of each RTD input is customizable. • 2 Thermocouple Inputs: The AEM -2020 provides 2 thermocouple inputs for monitoring gen -set temperature. Each thermocouple input can be configured as status only, alarm, or pre -alarm to protect against high or low temperature conditions. When enabled, an out of range alarm alerts the user of an open or damaged thermocouple input wire. The label text of each thermocouple input is customizable. • 4 Analog Outputs: The AEM -2020 provides 4 analog outputs that are user - selectable for 4 to 20 mA or 0 to 10 Vdc. A wide selection of parameters including oil pressure, fuel level, generator voltage, and bus voltage can be configured as analog outputs. Refer to Section 4, BESTCOMSPIus Software, for a full list of parameter selections. • Communications via CANbus: A Control Area Network (CAN) is a standard interface that enables communication between the AEM -2020 and the DGC -2020. • Functionality of Inputs and Outputs assigned via BESTCOMSPIus software. aab nd 74O $ o4 /1130,201.0 Prig: �.i�ib uKertf (mil lux Input and Output Terminals DGC- 2020_12pgBrochure_10 -09 Page 9 Digital Genset Controller DGC -2020 10 OPTIONAL ACCESSORIES Load Share Module 2020 (LSM -2020) with Ethernet Capability The LSM -2020 is an easy to connect and use add -on module that allows the DGC -2020 to control VAR/PF and kW load sharing of a paralleled generator set. The LSM -2020 is remotely mounted and communicates to the DGC -2020 via J1939 CANbus communications. With the Level 3 controller, this module provides the flexibility to use the same model DGC -2020 gen -set controller for single unit (standalone power) applications and parallel gen -set applications. Pure flexibility is one of the benefits of the DGC -2020, and this add -on module enhances that. onsite eneig • Analog Input (Configurable): The LSM -2020 provides one analog input that is user - selectable for 4 to 20 mA or 0 to 10 Vdc. This input can be used to control the power factor (PF) or kVar setpoint when paralleled to the utility. • Analog Outputs: The LSM -2020 has (3) analog outputs —one connected to the voltage regulator and one to the speed governor. There is also one output connected to the Toad sharing lines. All of these outputs can be selected via BESTCOMSPIus for 4 -20 mA or ±10 Vdc. The analog outputs also can be scaled to adapt to the compatibility requirements of existing analog equipment. • Multiple Generator Management: This module adds demand start/stop control and generator sequencing to the feature packed DGC -2020. The generator sequencing can be selected by priority number, generator size, service hours remaining, and balanced service hours. This sequencing function is even smart enough to determine if all the connected controllers are in the same mode. • Ethernet Port: The LSM -2020 also adds Ethernet communications to the many communications features of the DGC -2020. It is IP addressable and allows all of the functionality of BESTCOMSPIus to be utilized via Ethernet. Note: This option is only for use with the BESTCOMSPIus software. For other Ethernet options, please refer to the Modbus RTU -TCP Gateway (Netbiter RTU -TCP Gateway). • Communications via CANbus: The LSM -2020 is remotely mounted and communicates to the DGC -2020 via SAE J1939 CANbus communications. To Sysbun Lo al Slum Lira 12 o 24 Volt SHIELD DGC -2020 CN44 CARL Governor ,vd,o Aux Voltage Aux rpvi Regulator GND 2 3 8. 4 L8' 5 LS- 8 Ethernet LS• 7 8 IN. s v. Load Share 10 GND Module 11 CANN 12 CANL 13 GOV 14 GOV- 15 GOV• 16 AVR 17 AVR- 18 AVR• Po05111 Typical LSM -2020 Connections C 8 0 O O f I 0 ocYd' °❑ xvt< CE ❑ r- 1.107 soN Los ISO LSM -2020 Overall Dimensions Page 10 DGC- 2020_12pgBrochure_10 -09 Digital Genset Controller DGC -2020 3 site energy 0 OPTIONAL ACCESSORIES Contact Expansion Module 2020 (CEM -2020) The CEM -2020 is a remote device that provides additional DGC -2020 contact inputs and outputs giving the user flexibility to use the same model DGC -2020 genset controller for simple or more complicated applications that require contact functionality or duplication of contacts for remote annunciation. Its features include: • 10 Contact Inputs: The CEM -2020 provides 10 programmable contact inputs with the same functionality as the contact inputs on the DGC -2020. • 24 Output Contacts: The CEM -2020 provides 24 Form C programmable output contacts with the same functionality as the output contacts on the DGC -2020. The output ratings of the Form C contacts are: Output No. Rating (Cont.) Additional Information 13 -24 1 Adc @ 30 Vdc This is a gold flash contact for low current circuits. 25 -36 4 Adc @ 30 Vdc 26 — 30 Alternate ratings shown in the following table may be used to allow a higher rating on selected contacts: Output No. Rating (Cont.) Output No. Rating (Cont.) 13 -24 1 Adc @ 30 Vdc 25, 31, 36 7 Adc @ 30 Vdc 26 — 30 4 Adc @ 30 Vdc 32 -35 2 Adc @ 30 Vdc • Communications via CANbus: The CEM -2020 communicates to the DGC -2020 via SAE J1939 CANbus communications and allows the user to program the functionality of these inputs and outputs in the BESTCOMSPIus software. The user can add labels for the inputs and outputs that appear in BESTCOMSPIus, show up on the front panel, and in programmable logic. All the functionality can be assigned to these inputs and outputs as if they were an integrated part of the DGC -2020. The CEM -2020 module has all of the environmental ratings, like the DGC -2020, including a model for UL Classl Div2 applications. The CEM -2020 terminals accept a maximum wire size of 12 AWG while the chassis ground requires 12 AWG wire. Flexibility is one of the benefits of the DGC -2020, and this add -on module enhances that benefit even further. The CEM -2020 is available for all levels, but is only functional for paralleling with Level 3. CEM -2020 Overall Dimensions DGC- 2020_12pgBrochure_10 -09 Page 11 Digital Genset Controller DGC -2020 0 OPTIONAL ACCESSORIES Critical Low Fuel Shutdown ansite ener y ModBus RTU -TCP Gateway connects the DGC -2020 with Ethernet and mobile networks. The gateway acts as a transparent bridge translating DGC -2020 Modbus registers allowing control systems, such as PLCs, SCADA, etc. to communicate over Ethernet. One gateway is required per generator allowing multiple generator sets to be accessed and monitored simultaneously. Note: This option does not work with BESTCOMSPIus software. Features include: • Connectivity between serial Modbus devices and the Modbus TCP • RS -232, RS-485 and RS -422 connectivity • Ethernet and mobile network connectivity • 10/100 Mbit/s Ethernet • Web -based configuration • DIN rail mounting • Network and serial status indicators Below is a brief illustration of the integration of the RTU -TCP gateway with the DGC -2020 device. Modbus RTU — Modbus TCP Gateway DGC -2020 (Slave) Modbus RTU Modbus TCP Modbus TCP (Master) Modbus Gateway For support or information, call us at 800 - 325 -5450 or visit us at www.mtuonsiteenergy.com Materials and specifications subject to change without notice. MTU Onsite Energy. 100 Power Drive, Mankato, MN 56001. A Tognum Group Company. Page 12 DGC- 2020_12pg Brochure_10 -09 Remote Display Panel RDP -110 0 HIGHLIGHTS ♦ 18 light engine control package • Used in conjunction with the RDP family of controllers ♦ NFPA -110 compliant ♦ Available in two mounting configurations: surface and semi -flush mount • Interconnect up to 4000' with Twinaxial shielded computer Cable ( *2- Conductor Twisted Pair) 0 DESCRIPTION The RDP -110 is a remote annunciation device used in conjunction with the DGC family of digital genset controllers to provide remote annunciation of the emergency standby generator system. This panel complies with the requirements of NFPA -110. 0 STANDARD FEATURES ♦ Eight (8) LEDs to indicate Alarms — Low coolant level — Low oil pressure Engine overspeed — Fuel leak ♦ Seven (7) LEDs to indicate Pre - Alarms — High coolant temperature — Low oil pressure — Battery overvoltage — Battery charger failure ♦ Three (3) LEDs to indicate operating conditions — Switch not in auto — EPS supplying load High coolant temperature Engine overcrank Emergency stop activated Sender failure Low coolant temperature Low fuel level Weak battery Display panel on ♦ Audible alarm horn rated at 80db (from a distance of two feet) ♦ Lamp test and alarm silence ♦ Power supply inputs for 12, 24Vdc or 120Vac (at the RDP -110 location) ♦ Two mounting configurations: semi -flush and surface mounted. ♦ Conduit box included ♦ Designed for use in harsh environments RDP- 1 10_Spec_5-07 Remote Display Panel RDP -11 Q O DIMENSIONS — 4,10 -- 400 (104,0) DASHED LINE INDICATES OUTLINE OF SEMI-FLUSH MOUNT OPTION COVER OD SPECIFICATIONS Power Input DC Voltage: 8 -32Vdc (2.5W) AC Voltage: 80- 144Vac (5VA) El site energy 11.00 (279.4) 0,50 10.00 (12.7) (254.0) 0.50 7.00 (177,8) (38,1) (REAR VIEW) GROUNDING POINT 8.00 8.00 (203.2) (228.6) 1 7.00 --1 (177.8) 0.281 (7.14) q . MTG HOLE (4 PL ON REAR WALL OF ENCLOSURE) 0,50 (12.7) AU. DIMENSIONS ARE IN INCHES (MIWMETERS) TOLERANCE ON ALL DIMENSIONS 10,09 (0.8) Isolation 1800Vdc for one minute between chassis ground and AC voltage input. 700Vdc for one minute between any of the following groups: chassis ground, battery, AC voltage inputs RFI (Radio Frequency Interference) Type tested using 5 watt, handheld transceiver operating at random frequencies centered around 144MHz and 440MHz with the antenna located within six inches (15 centimeters) of the device in both vertical and horizontal planes. Environmental and Physical Operating temperature: -40°C to +85°C ( -40 °F to +185 °F) Storage temperature: -40°C to +85°C (-40°F to +185°F) Salt Fog: Qualified to ASTM B 117 -1989 Vibration: The device withstands 2g in each of the three mutually perpendicular planes, swept over the range of 10 to 500Hz for a total of six sweeps, 15 minutes each sweep, without structural damage or degradation of performance. Shock: 15g Grounding: Twisted Pair Belden 9463 is grounded on the remote display side to earth ground. For support or information, call us at 800 - 325 -5450 or visit us at www.mtu - online.com Materials and specifications subject to change without notice. MTU Onsitc Energy Corporation / 100 Power Drive / Mankato, MN 56001 / USA / A Tognum Group Company ©MAAASMON' DVO 2000E DIGIT AI. REGULATOR ADA /SIMI :'!TS F1111JF. S1 Ai,JS " 3 Sl D.hl; R.Jry,e l`DlCoO Undn FrN.00t/ VAR:1 F Mani l ll. „ 1 .3 n,l.s, S,ns.na Canso vollayo sliECI 1' cen:n TrueRMSSensing) '®ne or Three -Phase Connectothesensing d�ou prefer'�Senses 95 to ��0 4,,„o r;" .r.�4'� a -": ,d` h ,. r u tt600, volts +,b0ltt 50%60- hertz -, `Patented, kuitry,;senses k x.3'sY*J.i'dafi19�``"d'rz'` dky'irk' it'v. "'k.. 3�+'i*SSX'"�' �. true .MS voltagekratherrthari 4 avera efor superior �-'�:t load.regulatton�a., Soft Starr Ramp on Inttral;Start ebntrolledfltntreasq to gefkw, voltage.dunng voltage build upA x Engine Unloading o f �Monitor�hee rate o�fifrequenccy channgetduring1transient- 1condttions --Proavides.addinonalvoltage dip durmg}speet tin; c is rm<w drop to. allowweengine to recover, faster. Omervoltage • Shutdown *fix .4•, *,s4 a ..,�,�fi e: e =°� Provides generator protection; during sustamedi- -,. §a# ,' °"_,� . x ' - 43' .lf4 :_;Y"" :.*- -O overvoltage The =overvoltage point tsopreset.aty20% overinormal generator:xoperating voltage, witht a preset rttmeoutof 0R5aseconds. VAR/PF Controller �� Model. DVR'. 2000EC _(option l)4providestcontrol w ',,"'f....':; 4s .'� A 2� ,t r a uk - �'. paralleled to .... htyspower. VAR ormr control cang d rcselecteorcanged yregulato adjuiGstd9i ma2eaMn.fEt , 1 ' ! . En apstilate Des gn 'J c Maximum,protecaontagamst moisture�or. abrasive contammat�om, which�,can le rd toaearly regulator fall`ure Tested, o MIL ST a M E D 7 0x5, Megthod 71e1 1C S l i f 'seed 1L STD 811110 Auto/Manual=Mode Exetterifieldteurrent can befcontrolled- bythe i '- .� manuall '� y set at a fixedualue a °M �,, DVR °2000E Regulator Specifications Voltage Regulation. 0.25% for precise voltage control on most applications. Voltage drift less than 0.5% for 40 °C ambient temperature change (15 to 70 °C range). Output Power. 3.0 ADC, 75 VDC, 225 watts, maximum continuous rating; 7.5 ADC, 150 VDC, 1125 watts forcing for one (1) minute. Exciter Field DC Resistance. Nominal hot resistance 18 to 25 ohms. Voltage Adjustment. Minimum of ±10% of nominal voltage range. Remote adjustment can be made up to 150 feet from voltage regulator. 50 or 60 Hz Operation. No reconnection required for frequency change. Power Input. 180 -240 volts AC, 200 -360 hertz PMG supply. Wide Operating Temperature Range. -40 °C to +70 °C covers all normal operating environments. Regulator "latches" off when +70 °C is exceeded. Loss of Sensing Shutdown. Protects the generator against uncontrolled voltage output when the sensing circuit to the regulator is opened. Regulator shuts down when the sensing circuit to the regulator does not find continuity. Regulator also shuts down when voltage unbalance exeeds 20% for a specified duration, adjustable by the user. Overexcitation Shutdown. Protects the generator against damage caused by prolonged field forcing. Paralleling Mode. Paralleling for multiple generator setups is standard. Simply add 5 VA current transformers for parallel operation in "droop" or "cross current" compensation. Shock. Withstands up to 20 Gs in each of three (3) perpendicular planes. Vibration. Withstands 0.036 inch peak, 27 -52 Hz; 1 G from 5 -26 Hz and 5.0 Gs from 53 -500 Hz. Multiple Use of Current Transformers. The same current transformers can be used for multiple functions. The voltage regulator does not require separate transformers for paralleling or metering. Ease of Use. All regulator adjustments and LED indicators are located on one side for easy use and adjustment. Push button controls allow adjustment of the various regulator functions. External Device Port. PC or Palm connectivity allows access to enhanced operational features using custom software available from our website or upon request. Volts - per -Hertz Operation. Protects the generator during underspeed operation and aids the prime mover during 100% block load pickup. Adjustable transition between flat regulation and volts - per -hertz ramp adjustable from 40 to 65 Hz. Provides selectable slope of 1 to 3 times PU volts/hertz. Accessory Input. ±1 VDC creates a ±10% adjustment for AVR, FCR, and VAR. ±1 VDC creates a ±0.1 PF adjustment in the PF mode (adjusts only the active regulation mode). EMI Suppression. Internal electromagnetic interference filter meets MIL - STD -461C, Part 9. for radiated and conducted emissions susceptibility when mounted in the MAGNAMAXDVR° generator connection box. 140 120 100 80 60 II MII -STD 4610 CEU? CLASS UMW HASI.ER FIFCTRIC COMPANY D VR2MU11 2vfVAC•Sollz OUTPUT PHASEA 11111111 2 I" 011 71(2 , MMHz z • ' i7 ? S dBdBiWuAMMfIH ' ' (.�.1il";�' .Jn 2922 40 17 21 MI6. W6. 5I2 dB°A/MI 51 2 dB iAMfI lingionip IIUIUIIijIii!1111_______ I•uI'MIi1I 015 1 FREQUENCY [MHz] ( *) 10 50 MARIUDN® E LECTR�C A Subsidiary of Regal-Beloit Corporation Marathon Electric Mfg. Corp. P.O. Box 8003 Wausau, WI 54402 -8003 USA Phone: 715.675.3359 Fax: 715.675.8026 www.marathonelectric.com GPN023 05- 02/2.5M Printed in the USA 14 Functional Description 1.3 ADEC — Functions Control functions Following engine functions are controlled: • Engine start • Engine stop • Sequences when "Override" feature is activated (safety system override), engine start with start interlock interrogation deactivated ( "emergency start"). • Nominal speed switching between two set values (optional operation as 50 Hz or 60 Hz genset). • Injection quantity as a function of engine loading and speed. • Torque regulation Engine start The starting sequence is controlled by the software integrated in the engine governor as follows. Starting sequence activation The SAM takes a few seconds to boot up. It signals operational availability on the CAN bus by an appropriate PV. Only then may starting be initialized. Under normal operating conditions bothe the SAM and the engine governor are constantly switched on (standby mode). Start request The engine is started by a so- called "non- stored start", i.e. the start signal must be applied until the engine has reached idling speed. The actual starting sequence itself is executed automatically. Furthermore, starting can be requested via the CAN bus. There are correspondingly three CAN receive variables. The start requests are OR operations. Stop request Starting is terminated if an external (manual) or internal (automatic) stop request from another part of the software is received. A stop request resets the start interlock time thus allowing immediate restarting in case of internal start termination providing that the engine is at a standstill and no other start request was active. Coolant temperature monitoring — Start termination The engine may suffer mechanical damage if started at too low a temperature. The coolant temperature is used to determine the engine temperature. Excessively low coolant temperature is indicated by a lamp. Indication by the lamp is independent of any alarm signal. Usually the alarms "LO T- Preheat" (for the first limit value) or "SS T- Preheat" (for the second limit value) are tripped when the corresponding limits are violated; even when the engine is at a standstill. When the second limit value is violated the internal "Stop starting sequence" signal is set providing that Override is not active. This trips a stop and the engine does not start. The alarm is reset again when the coolant limit value is reached (plus hysteresis). Starting The starter is activated via engine governor binary output TOP 4. The engine runs up to starting speed on the starter within a configurable period. If this is not the case starting is terminated and the "SS Starter Speed Not Reached" alarm is output. The starter disengages and a new starting sequence is automatically attempted after a configurable pause. The starter disengages when the disengagement speed (300 rpm) is reached. The start button may be released once the disengagement speed has been reached. Pressing the start button has no effect from this point on and only takes effect again when the engine has come to a standstill. The "SS Starter Speed Not Reached" alarm is set if the disengagement speed is not reached within a set time and "terminate start" is activated. Starting is also terminated if the starting signal is no longer received. Engine start with Override ( "emergency start") Various configurable start interlock criteria are bypassed when override is active on starting the engine: Engine stop An engine stop is tripped by interrupting the 24V supply at the binary input of the engine governor or by the engine protection system. Fuel is no longer injected as injector activation is disrupted. Any starting procedure which has been initiated is interrupted. E532233/00E 06 -06 © MTU Use, Structure and Function 15 Override (safety system bypass) The "Override" feature is used to bypass safety functions tripped by limit value violations or sensor faults and to bypass start interlocks (see above). Operating states which would normally lead to engine shutdown are ignored when the "Override" function is activated. The following operational data can be configured to trip engine shutdown in case of limit value violation even in Override mode: • Coolant level • Coolant temperature • Coolant pressure • Charge air coolant level • Lube oil pressure • Lube oil temperature 50 Hz/60 Hz switching on bifrequency engines To increase the genset application scope the network frequency can be adjusted prior to engine start. The nominal speed is set as follows: • Network frequency 50 Hz: Nominal speed 1500 rpm • Network frequency 60 Hz: Nominal speed 1800 rpm Caution! Switching is only possible when the engine is at a standstill! Switching requires programming of corresponding performance maps and parameters in the governor and appropriate engine hardware. Monitoring functions The engine management system fulfils the following monitoring tasks: • Control of analog instruments; • Engine lube oil pressure • Engine coolant temperature • Transmission of all measurands, warnings and alarms to monitoring system via CAN bus. • Automatic shutdown in case of limit value violations. Refer to the measuring -point list for order - specific configuration data. Engine monitoring can basically be divided into two different areas: • Engine protection system, monitors the engine during operation, • Safety system, generates automatic engine shutdown in case of limit value violation. These two functional areas are constantly monitored by the internal "Integral Test System (ITS)" to ensure operational availability. Oil priming pump option An optional oil priming pump may be integrated in the system. The pump is activated manually via a binary input on the SAM. Closed -loop control functions Closed -loop engine control functions: • Speed regulation • Injection control with mapped commencement of injection. • Two adjustable speed droops. • Setpoint speed regulation • Analog or binary speed demand on CAN bus, CANopen and SDE J1939 • Analog speed setting 0 V to 10 VDC / 0 V to 5 VDC / 4 mA to 20 mA. • Binary speed demand via Up /Down signal • Frequency speed setting. • HP fuel governor. • Torque control Speed - injection control Functions of the closed -loop engine speed control integrated in the engine governor: • Maintaining the desired engine speed under changing load conditions. • Adjusting the engine speed when the setting is changed by the operator. E532233/00E 06 -06 © MTU 16 Functional Description Fuel quantity control during engine start The quantity of fuel injected during engine start increases along a time ramp from a set initial value to a specified value. This ensures that the engine starts reliably. This fuel quantity control is effective until idling speed has been reached. Desired speed handling The desired speed is the command variable for the engine speed control loop. Providing that speed demand is set by Up /Down signals, the engine runs up to an internally programmed nominal speed when started (for 50 Hz network frequency: 1500 rpm, for 60 Hz network frequency: 1800 rpm). The engine runs up to the set value in case of analog speed demand. The starting sequence is completed when idling speed has been reached ( "open -loop control" mode) and switching over to "closed -loop control" mode is effected. The following speed setting variants are possible: • Desired speed setting via an analog input: The setpoint speed may be adjusted within a (configurable) range around the preset synchronous speed (depending on the set network frequency) (relative speed control, the voltage /current or frequency controls the speed window only). Absolute speed control is also possible (the voltage /current or frequency can cover the entire speed range). The internal setpoint speed follows the applied speed setting value along a configurable acceleration /deceleration curve (speed ramp). The setting value last applied is maintained or the engine is set to a default speed should the applied signal fail. The response can be configured as desired: • Speed setting via CAN bus. • Speed setting via an analog speed setting input (0 V to 10 V). • Speed setting via an analog speed setting input (4 mA to 20 mA). • Frequency input. • Setpoint processing via binary inputs "Setpoint speed up "/ "Setpoint speed down ": The setpoint speed can be adjusted within a (configurable) range around the preset synchronous speed (depending on the set network frequency). Briefly actuating the appropriate optocoupler input for less than 0.3 s increases or decreases the setpoint speed by 1 rpm. The setpoint speed is automatically adjusted at a configurable rate if the input is activated for longer than 0.3 seconds. Speed droop Speed droop calculation Speed droop influences the effective setpoint speed depending on engine power. Maximum, speed- dependent engine power is limited by the MCR curve. The setpoint speed is not influenced by speed droop at 100% power. The effective setpoint speed increases at lower power. This allows power to be balanced when operating a number of engines in a network. Switchable speed droop Two different speed droop settings can be selected at the engine governor. The speed droop is selected by a binary input at the engine governor. Speed droop is required to balance the load of coupled prime movers. Speed droop can be adjusted to meet plant requirements via the dialog unit. Quantity limitations Dynamic quantity limitation Dynamic quantity limits protect the engine against overloading and optimize exhaust emission values. The engine govemor determines the maximum injection quantity based on preset and stored engine performance maps. Fuel quantity is limited as a function of speed (DBR). Fixed quantity limitation Fixed quantity limitations are used for power limitation and power reduction to protect the engine from sustained overload sustained overload. E532233/00E 06 -06 © MTU 1H0TSTAII • 1 • ° 1 $ • • • CIRCULATING HEATING SYSTEMS CSM Model Engine Size CID Liter COOLANT HEATING Part Number Wattage SYSTEMS Voltage Phase Hz Amps 1000 CSM10301 -000 3000 120 1 60 27.0 to 15 -30 CSM10308 -000 3000 208 1 60 16.4 2000 CSM1030C -000 CSM 10302 -000 3000 3000 220 240 1 1 50 60 15.6 14.5 CSM10608 -000 6000 208 1 60 30.8 2000 CSM106OC -000 6000 220 1 50 29.3 to 25 -50 CSM10602 -000 CSM 10604 -000 6000 6000 240 480 1 1 60 60 27.0 14.5 3000 CSM30603 -000 6000 380 3 50 11.1 CSM30604 -000 6000 480 3 60 9.2 CSM10908 -000 9000 208 1 60 45.3 3000 CSM 1090C-000 9000 220 1 50 42.9 CSM10902 -000 9000 240 1 60 39.5 to 50 -75 CSM10904 -000 9000 480 1 60 20.8 CSM30903 -000 9000 380 3 50 15.7 4500 CSM30904 -000 9000 480 3 60 12.8 CSM 10905 -000 9000 575 1 60 18.0 4500 ICSM11202 -000 12000 240 1 60 52.01 to 75 -100 CSM11204 -000 CSM31203 -000 12000 12000 480 380 1 3 60 50 27.0 20.3 6000 CSM31204 -000 12000 480 3 60 16.5 Other wattage and voltage configurations available CSM Features /Advantages • UL -C /US listed (60Hz models) - E250789 • CE compliant (50Hz models) • Adjustable thermostat (90 °- 130 °F /32 ° -55 °C) • Forced circulation provides uniform engine heating • Reduced outlet temperature - extends hose life • Reduced electrical consumption • Includes all required controls for automatic operation • Compact design - simple to install The CSM is a coolant heating system designed for engines ranging in size from 15L -100L. The 10 GPM (2.2 m3 /hr) pump - driven CSM offers more efficient heating than thermo- siphon tank heaters, delivering uniform heating throughout the entire engine. On larger engines, one CSM eliminates the need for two thermo- siphon heaters. Forced circulation of the coolant extends element life and offers a significant reduction in electrical consumption. Lower outlet temperatures result in extended hose life requiring less heater maintenance.The CSM features a low -watt density heating element and adjustable thermostat with optional temperature settings. The compact design requires minimal space for mounting and requires less installation time and material compared to configurations with two tank heaters. All 60Hz systems are UL listed to United States and Canadian safety standards and meet requirements for installation on any UL 2200 listed generator set. All 50Hz models are CE compliant. Kim Hotstart Mfg. • Customer Service: (509) 536 -8660 • www.kimhotstart.com CSM Dimensions 10 240v or less 1 "NPT OUTLET 1 .3 (287mm) 1 "NPT INLET 3.9 (99mm) 3 Shipping Weight: 371bs (16.8kg) 9.8* 49mm) 10 or 30 Over 240v 19.4 (493mm) 13.9 (353mm) 11.4 (290mm) 58 1 "NPT INLET (147mm) Shipping Weight: bs (24.5kg) For CE compliant models, overall depth measures 10.8" (274mm) 8.50 MTG (216mm) 0.44 MTG (11mm) 3.22 (82mm) 1 "NPT INLET The Smart Choice for Mission - Critical Engine Starting • Fast, accurate, mission - critical charging — gives best starting reliability • 4 -rate, temperature- compensated output — offers longest battery life • Replace nearly any charger — without planning ahead • Industry -first battery -fault alarm — helps dispatch service early • Lasting reliability — field MTBF > 1 million hours with industry -best warranty • IBC seismic certification — meets latest building codes, no installation delays This component meets the following standards and certifications: www.mtu- online.com • Phone 507.625.7973 • Fox 507.625.2968 1 I US LISTED CE 1 ®■5®iiE energy 0 4e Failure to start due to battery proble ns:4 tl et . F leading cause of inoperable engine generator-sets .. AT • e :•R MTU Onsite Energy NRG battery charger maximizes starting system reliability while slashing aenset • , servicing costs: One NRG replaces almost any charger without extra site visits. Installers can select or change at • any time 120, 208 or 240 volts AC input, 12 or 24 -volt battery and output settings optimized for nearly • , ;; f ±: any lead -acid or nickel cadmium battery. w.. • Easy to understand user interface provides state -of- the -art system status — including digital metering, NFPA 110 alarms and a battery fault alarm that can send service personnel to the site before failure to start. .. .r }7- rh ; Batteries charged by NRG give higher performance and last longer. In uncontrolled environments..:> • ; precision charging by MTU Onsite Energy increases battery life and watering intervals 400 %- o•more.' '- NRG meets all relevant industry standards — including UL, NFPA 110 and CE. Seismic Cett ficatiori. • per International Building Code (IBC) 2000, 2003, 2006. All units are C -UL listed. 50160 'Hi-units; •; add CE marking to UL agency marks. - ' INRG Tenability. technology built into every charger includes: . • • *All electronic operation with generous component Lde rating : ' • • • • • • • Il isco Heated /reversed /mcorrectwoltage battery:alarm an"d'protection. p • Protecfon ,of:connected'equipment against; load' dump transients • _ • -' �PWidest temperature rating, and overtemperrature protection . • , ' `Superiot lightning and voltage -transient :protection::: • y`.:'' Demon traced field'MTBF; > �1 ..million hours • ° :''• =: •,.;� +'} t . ••• • • • • • w. :•'- i .am' •:• "...f Standard,3gyear warranty (710„ years magnetics and ;powerrsegi onductors)' available179f,year complete warranty withileimbu rsementtofSfreld tiger {. Energ` N RG Specifications AC Input Voltage 110-120/208-240 VAC, ±10 %, single phase, field selectable Input current 10A charger: 6.6/3.3 amps maximum 20A charger: 12.6/6.3 amps maximum Frequency 60 Hz ±5% standard; 50/60 Hz ±5% optional Input protection 1 -pole fuse, soft - start, transient suppression Charger Output Nominal voltage ratings 12 or 24 volt nominal Optional voltage rating 12/24 volt, field selectable Battery settings Six discrete battery voltage programs - Low or high S.G. flooded - Low or high S.G. VRLA - Nickel cadmium 9, 10, 18, 19 or 20 cells Regulation ±0.5% (1/2 %) line and load regulation Current 10 or 20 amps nominal Electronic current limit 105% rated output typical - no crank disconnect required Charge characteristic Constant voltage, current limited, 4 -rate automatic equalization Temperature compensation Enable or disable anytime, remote sensor optional Output protection Current limit, 1 -pole fuse, transient suppression Standard 4-rate charging Fast volt limit Charger in "fast charge mode" Float volt limit w on m 0 it v m on Current limit Transition from fast charge voltage to / float voltage Charger in "float mode" Transition from current limit to fast charge voltage limit Constant current charge High -rate Finishing Maintaining taper charge charge charge User Interface, Indication and Alarms Digital meter Automatic meter alternately displays output volts, amps° Accuracy ±2% volts, ±5% amps Alarms LED and Form C contact(s) per table: Front panel status display Alarm System Functions Alarm code "1" Alarm code "C" (meets requirements of NFPA 110) AC good LED LED Float mode LED LED Fast charge LED LED Temp comp active LED LED AC fail LED2 LED and Form C contact Low battery volts LED and Form C contact High battery volts LED and Form C contact Charger fail LED2 LED and Form C contact Battery fault3 LED2 LED and Form C contact 1. Alarms "1" available only on 10A charger 2. Form C contact provides summary alarm of these conditions. BBHH chargers include this alarm configuration. Contacts rated 2A @ 30 VDC resistive 3. Battery fault alarm indicates these fault conditions: - Battery disconnected - Battery polarity reversed - Mismatched charger battery voltage - Open or high resistance charger to battery connection - Open battery cell or excessive internal resistance 4. Three - position jumper allows user to select from three display settings: alternating volts / amps (normal), constant volts, or constant amps ; m-llo ` -.T.P- sn,I,d..rt' n "rrfifS PT ? n::'. raw" "Fw" x.. .rwp, .21:1" «tt's". ^orizmi.'comora 7.,.. °„" ':F4 u�59t.. `- .,.,,. M 'tttt. : 3?•€v�-':%x;°,. ^ ' ,�,. . xmr w"'s$e" F79. >:�.' ' ' "��u3�R1+3.° 'a: "r k? Controls AC input voltage select Optional 12/24 -volt output select Battery program select Meter display select Fast charger enable /disable Temp compensation enable Remote temp comp enable Field- selectable switch Field - selectable two- position jumper Field- selectable six - position jumper Field- selectable three - position jumper Field- selectable two- position jumper Standard. Can be disabled or re- enabled in the field Connect optional remote sensor to temp comp port +1JUMP °,1,7.,3,'.11 7 . -J 1 .NBL"I O.- .ial•,..a, . 14.00/28.0ef -_ 13.62/27.23 • r • 13.50/27.02 w� - 13.31/26.52> 13.05 '26 -1,6 :- • 1-2= 68/25 =20 '1 - i id/ / - \ '1.z , il Simple field adjustments Environmental Operating temperature Over temperature protection Humidity Vibration (10A unit) Transient immunity Seismic Certification -20C to +60C, meets full specification to +45C Gradual current reduction to maintain safe power device temperature 5% to 95 %, non - condensing UL 991 Class B (2G sinusoidal) ANSI /IEEE C62.41, Cat. B, EN50082 -2 heavy industrial, EN 61000 -6 -2 IBC 2000, 2003, 2006 Maximum Sds of 2.28 g Agency Standards Safety C -UL listed to UL 1236 (required for UL 2200 gensets), CSA standard 22.2 no. 107.2 -M89 CE: 50/60 Hz units DOC to EN 60335 Agency marking 60 Hz: C -UL -US listed 50/60 Hz: C -UL -US listed plus CE marked EMC Emissions: FCC Part 15, Class B; EN 50081 -2 Immunity: EN 61000 -6 -2 NFPA standards NFPA 70, NFPA 110. (NFPA 110 requires Alarms "C ") Optional agency compliance Units with Alarms "1" configuration available with additional compliance to UL category BBHH and NFPA 20 Construction Housing /configuration Material: Non - corroding aluminum. Configuration options: • Fully enclosed: C -UL listed enclosure • Open frame: C -UL recognized Packaging Open -frame and Slimline configurations only available in bulk OEM quantities and packaging Dimensions See Drawings and Dimensions page for details Printed circuit card Surface mount technology, conformal coated Cooling Natural convection Protection degree Listed housing: NEMA -1 (IP20). Optional IP21 drip shield. Optional NEMA 3R enclosure Damage prevention Fully recessed display and controls Electrical connections Compression terminal blocks Warranty Standard warranty Optional warranty Three year parts and labor warranty (10 years magnetics and power semiconductors) from date of shipment If specified at time of order, warranty coverage can be increased to reimburse customer's documented field service costs up to the original charger price or increased to 5 or 10 years with field service cost reimbursement. Contact the factory for full details Optional features Input Input frequency, 50/60 Hz Remote temp comp sensor Recommended where battery and charger are in different locations Drip shield meets s/b (IP21) Protects from dripping water NEMA 3R housing Enables outdoor installation (remote temp sensor recommended) UL BBHH listing Available in 10A units with Alarms "1" Field service warranty Reimbursement of customer field service expenses up to charger price for 3, 5, or 10 years Drawings and Dimensions 20A Chargers 13.06" :332 mm) 6.83" (173 mm) 13.95" (354 mm) Housing Dimensions Table • Am•s Width De • th Hei • ht 10 7.66" (195 mm) 6.50" (165 mm) 12.50" (318 mm) 20 13.95" (354 mm) 6.83" (173 mm) 13.06" (332 mm) Tr. 0 0 'o 0 NRG Ordering Information Output Output Model volts amps Available configurations NFPA 110 Lbs /Kg Alarms 12/24 10 83187 Enclosed Yes 24 / 10.9 12/24 20 90170 Enclosed 0 • en -frame Yes 42 / 19.1 12/24 10 89983 Enclosed Yes 24 / 10.9 All models offer field - selectable input 120/208 -240 volts. 60 Hz input is standard with C -UL listing. Optional 50/60 Hz input includes C -UL listing and adds CE mark. The Smart Choice for Mission - Critical Engine Starting Additional Information Contact MTU Onsite Energy or your local sales representative for additional specification, engineering and installation information. Check the MTU Onsite Energy web site for latest available data. Specification is subject to change without notice. This component meets the following standards and certifications: MIENTIEITEM C C US USTED CE Contact Information For information and service on any MTU Onsite Energy product, please contact us at: Phone 507.625.7973 • Fax 507.625.2968 www.mtu - online.com 100 Power Drive, Mankato, MN 56001 USA E,a = �/D�P h • iI Best Batter Selector BBS -1600 & BBS -4800 Cross - couples Two Batteries to Two Independent Loads for Highest DC System Reliability • For dual battery, dual or single load configurations • Delivers current to both loads from either one or both batteries • Isolates one battery from the other • All solid -state design, oversized heat sinks assure reliable operation • IBC seismic certified SENS Best Battery Selectors (BBS) deliver power from two different batteries to one or two loads, such as engine starter motors or electrical switchgear. In case one battery is weak or failed, power automatically flows to both starters or loads from the other battery. Although the BBS can deliver battery power from either battery to either load, it prevents parallel connection of two batteries so that the failure of one battery does not take down the other. All solid -state design uses large diodes mounted on generously sized heat sinks. There are no moving parts or need for control electronics. Two units are available, both suitable for a wide range of loads in applications ranging from 12 volts to 120 volts DC nominal. The BBS -1600 is rated for 2800 peak amps (for engine starting) and 50 amps for continuous loads. The BBS -4800 is rated for 8400 peak amps and 150 amps for continuous loads. _FII1I1 _ • ' i� e�ocr�rcwico'w•.tcvca cwwc Z. • Specifications Model Specifications BBS -1600 BBS -4800 Electrical configuration Two diodes, common cathode DC system nominal voltage Up to 120 volts DC BBS 1 sec. rated current 2,800 amps 8,400 amps BBS 30 sec. rated current 2,800 amps @ -18C 1,600 amps @ +50C 8,400 amps @ -18C 4,800 amps @ +50C Engine start duty cycle 90 second continuous duty max BBS continuous rated current 50 amps @ +50C 150 amps @ +50C Wire size #6 AWG to 250 MCM #6 AWG to 350 MCM Dimensions 12.3 "W x 8.6 "D x 16.3 "H 19.4 "W x 13.0 "D x 17.6 "H Weight 20 lbs / 9.1 kg 55 lbs / 24.9 kg Transient protection Large sized MOV Seismic Certification IBC seismic certified to Sd, value of 2.28g * Diode rating only, not BBS rated output. Typical Connection Diagrams Simplified Connection Diagram — Two Batteries and Two Loads Charger A Battery A - + Best Battery Selector Charger B Battery B - + Load A + - Load B Simplified Connection Diagram — Two Batteries and One Load Charger A Battery A - + Load Best Battery Selector Charger B Battery B 0 U' 0 During normal operation, current to either a single load or dual loads flows from both chargers and both batteries through the BBS. Should one battery fail (e.g. shorted cell or open circuit) the other battery will continue to power one or both loads automatically and without interruption. The Best Battery Selector (BBS) OR diodes fully isolate a bad battery from the rest of the system. The BBS must be sized to carry the worst -case loads anticipated from one battery into one load. I S o 9 0 0 0 Contact information For information and service on any SENS product, please contact us at: Sales 1.866.736.7872 • 303.678.7500 • Fax 303.678.7504 www.sens- usa.com • info @sens - usa.com Stored Energy Systems, LLC 1840 Industrial Circle, Longmont, CO 80501 USA S E STORED ENERGY SYSTEMS S EXIDE Commercial Battery Technology .rsite leaver O DESCRIPTION Extra ruggedness and resistance to vibration, heat, chemicals, and physical abuse are built into every EXIDE commercial battery. EXIDE battery design features the latest in power storage technology as well as incorporates proven designs developed with the most experience in the business. O FEATURES Unique Manifold Vent - Virtually eliminates corrosion by venting gases away from terminals and cable. Exclusive TRPTM Construction - Ribreinforced TRPTM container significantly improves the vibration and impact resistance. Armored Plate Cell Bonding - Vibration is the number one killer of commercial batteries. To solve this problem, the cells of every EXCIDE battery are bonded. Polyethylene Enveloped Separator Design - Super tough polyethylene material reduces electrical resistance and provides higher cranking performance. Center Lug Design - Suppresses the vibration inherent in traditional construction for improved performance. TTPTM - Through- the - Partition intercell connectors create a shorter current path to deliver more power to the terminals. Heavy Duty Cases - Reinforced polyethylene or hard rubber cases stand up to the abuses common on commercial and off - highway vehicles. Convenient Lifting Slots - Handling inserts are incorporated into the cover for easier battery handling. Protective Bottom Design - Waffled bottom design provides protection against nuts, bolts, or stones that might become lodged under the battery. Computer Design Radical Grids - An improved state -of- the -art design which adds power and resists vibration. Threaded Accessory Parts - Features a sealed "0" ring that does not work loose during severe service. Also allows for ease of inspection. Torque Resistant Stud Terminals - The EXIDE Group 31 is available with 3/8" stainless steel stud terminal. Torque Resistant SAE Terminals - The EXIDE Group 31 is available with the SAE (automotive) terminals. Cover the Heavy Duty Market - 6, 8, and 12 -volt models cover a broad range of commercial ap- plications including diesel power and Group 31 vehicles. Qty Volt Group Size Type Cranking Performance at 0° F Reserve Capacity Overall Dimension Length Width Height 12 -24 4D COM -4D -P 1000 320 20 11/16" 8 11/16" 9 7/6" 2X4 12 -24 8D COM -8D -P 1 150 400 20 3/4" 1 1 7/8" 10 7/8" 12 -24 30H COM -30H -P 625 150 13 9/16" 6 13/16" 9 3/16" 12 31 HP -31E 950 160 13 6 3/4" 9 5/16" For support or information, call us at 800 - 325 -5450 or visit us at www.mtu - online.com Materials and specifications subject to change without notice. MTU Onsite Energy Corporation / 100 Power Drive / Mankato, MN 56001 / USA / A Tognum Group Company 4D_8D_30H_3I E_Commercial_Spec_5 -07 SOUTH COAST AIR QUALITY MANAGEMENT DISTRICT 21865 Copley Drive, Diamond Bar, CA 91765 Application No. yarious Page Legal Owner or Operator: MTU DETROIT DIESEL, INC. 13400 W. OUTER DRIVE DETROIT, MI 48239 -7090 ATTN: Christine Ueno Equipment Location: SAME AS ABOVE Granted as of July 3, 2007 Expires on December 31, 2010 ID 148329 The equipment described below and as shown on the approved plans and specifications are subject to the special condition or conditions listed. Equipment Description APPLICATIO NO. 469312 INTERNAL COMBUSTION ENGINE, DETROIT. DIESEL, 12 CYLINDER, TURBOCHARGED, AFTERCOOLED, MODEL T1238A34; 1482 BHP, DIESEL- FUELED, DRIVING AN EMERGENCY ELECTRICAL GENERATOR. APPLICATIO NO. 470532 INTERNAL COMBUSTION ENGINE, DETROIT DIESEL, 12 CYLINDER, TURBOCHARGED, AFTERCOOLED, MODEL T1237M36, 2561 BHP, DIESEL - FUELED, DRIVING AN EMERGENCY ELECTRICAL GENERATOR. APPLICATIO NO. 470533 INTERNAL COMBUSTION ENGINE, DETROIT DIESEL, 16 CYLINDER, TURBOCHARGED, AFTERCOOLED, MODEL T1638A36, 3353 BHP, DIESEL - FUELED, DRIVING AN EMERGENCY ELECTRICAL GENERATOR. APPLICATIO NO. 470534 INTERNAL COMBUSTION ENGINE, DETROIT DIESEL, 12 CYLINDER, TURBOCHARGED, AFTERCOOLED, MODEL T1237M36, 2328 BHP, DIESEL- FUELED, DRIVING AN EMERGENCY ELECTRICAL GENERATOR. APPLICATIO NO. 470535 INTERNAL COMBUSTION ENGINE, DETROIT DIESEL, 16 CYLINDER, TURBOCHARGED, AFTERCOOLED, MODEL T1638A36, 3057 BHP, DIESEL - FUELED, DRIVING AN EMERGENCY ELECTRICAL GENERATOR. APPLICATIO NO. 470536 INTERNAL COMBUSTION ENGINE, DETROIT DIESEL, 20 CYLINDER, TURBOCHARGED, AFTERCOOLED, MODEL G83L, 4680 BHP, DIESEL- FUELED, DRIVING AN EMERGENCY ELECTRICAL GENERATOR. ORIGINAL SOUTH COAST AIR QUALITY MANAGEMENT DISTRICT 21865 Copley Drive, Diamond Bar, CA 91765 T A PERM TO CONSTRUCT OR OPERAT IT Application No. yarious Page APPLICATIO NO. 470537 INTERNAL COMBUSTION ENGINE, DETROIT DIESEL, 20 CYLINDER, TURBOCHARGED, AFTERCOOLED, MODEL G83L, 4036 BHP, DIESEL- FUELED, DRIVING AN EMERGENCY ECTRICAL ENERATOR. , APPLICATIO NO. 470538 INTERNAL COMBUSTION ENGINE, DETROIT DIESEL, 20 CYLINDER, TURBOCHARGED, AFTERCOOLED, MODEL G43D, 3674 BHP, DIESEL - FUELED, DRIVING AN EMERGENCY ELECTRICAL GENERATOR. Manufacturer Condition 1. THIS CERTIFIED EQUIPMENT PERMIT (CEP) IS NOT A PERMIT TO CONSTRUCT OR OPERATE. THE PERSON CONSTRUCTING, INSTALLING OR OPERATING THE EQUIPMENT AT EACH SPECIFIC SITE SHALL OBTAIN ALL NECESSARY PERMIT(S) TO CONSTRUCT AND PERMIT(S) TO OPERATE AND COMPLY WITH ANY OTHER DISTRICT RULES AND REGULATIONS INCLUDING THE REQUIREMENTS OF REGULATION XIII. End User Conditions. 1. OPERATION OF THIS EQUIPMENT SHALL BE CONDUCTED IN ACCORDANCE WITH ALL DATA AND SPECIFICATIONS SUBMITTED WITH THE APPLICATION UNDER WHICH THIS PERMIT IS ISSUED UNLESS OTHERWISE NOTED BELOW. 2. THIS EQUIPMENT SHALL BE PROPERLY MAINTAINED AND KEPT IN GOOD OPERATING CONDITIONS AT ALL TIMES. 3. A NON- RESETTABLE TOTALIZING TIMER SHALL BE INSTALLED AND MAINTAINED TO INDICATE THE ENGINE ELAPSED OPERATING TIME. 4. AN ENGINE OPERATING LOG SHALL BE KEPT AND MAINTAINED ON FILE TO RECORD WHEN THIS ENGINE IS STARTED MANUALLY. THE LOG SHALL LIST THE DATE OF OPERATION, THE TIMER READING IN HOURS AT THE BEGINNING AND END OF OEPRATION, AND THE REASON FOR OPERATION FOR A MINIMUM OF THREE YEARS FROM THE DATE OF ENTRY AND MADE AVAILABLE TO DISTRICT PERSONNEL UPON REQUEST. THE TOTAL HOURS OF OPERATION (INCLUDING HOURS FOR MANUAL AND AUTOMATIC OPERATION) SHALL BE RECORDED SOMETIME DURING THE FIRST 15 DAYS OF JANUARY OF EACH YEAR. 5. THIS ENGINE SHALL NOT OPERATE MORE THAN 200 HOURS IN ANY ONE YEAR WHICH INCLUDES NO MORE THAN 50 HOURS IN ANY ONE YEAR FOR MAINTENANCE AND TESTING PURPOSES. 6. THE OPERATOR SHALL NOT PURCHASE ANY DIESEL FUEL UNLESS THE FUEL IS LOW SULFUR DIESEL FOR WHICH THE SULFUR CONTENT DOES NOT EXCEED 15 PPM BY WEIGHT. EFFECTIVE JANUARY 1, 2006, THE OPERATOR SHALL ONLY USE DIESEL FUEL WITH A SULFUR CONTENT THAT DOES NOT EXCEED 15 PPM BY WEIGHT, UNLESS THE OPERATOR DEMONSTRATES IN WRITING TO THE EXECUTIVE OFFICER THAT SPECIFIC ADDITIONAL TIME IS NECESSARY. ORIGINAL SOUTH COAST AIR QUALITY MANAGEMENT DISTRICT 21865 Copley Drive, Diamond Bar, CA 91765 M�.ifYt ° 6E IFIED EQIUIPMENT PERMIT.(, IT A PERMIT TO CONSTRUCT OR OPERATI Application No. yY Page 3us 7. OPERATION BEYOND THE 50 HOURS PER YEAR ALLOTTED FOR ENGINE MAINTENANCE AND TESTING SHALL BE ALLOWED ONLY IN THE EVENT OF A LOSS OF GRID POWER OR UP TO 30 MINUTES PRIOR TO A ROTATING OUTAGE, PROVIDED THAT: (A) THE UTILITY DISTRIBUTION COMPANY HAS ORDERED ROTATING OUTAGES IN THE CONTROL AREA WHERE THE ENGINE IS LOCATED OR HAS INDICATED THAT IT EXPECTS TO ISSUE SUCH AN ORDER AT A CERTAIN TIME; AND (B) THE ENGINE IS LOCATED IN A UTILITY SERVICE BLOCK THAT IS SUBJECT TO THE ROTATING OUTAGE. ENGINE OPERATION SHALL BE TERMINATED IMMEDIATELY AFTER THE UTILITY DISTRIBUTION COMPANY ADVISES THAT A ROTATING OUTAGE IS NO LONGER IMMINENT OR IN EFFECT. 8. THIS ENGINE SHALL BE A US EPA CERTIFIED, NON -ROAD COMPRESSION- IGNITION ENGINE, AS EVIDENCED BY THE MANUFACTURER'S ENGINE TAG. Please notify Raman Patel at 909/396 -2466 when SCAQMD information packets are needed or if you have any questions conceming the Certification/Registration Program. This Certified Equipment Permit is based on the plans, specifications, and data submitted as it pertains to the release of air contaminants and control measures to reduce air contaminants. No approval or opinion concerning safety and other factors in design, construction or operation of the equipment is expressed or implied. This Certified Equipment Permit will become invalid if this application is canceled. THIS PERMIT SHALL EXPIRE ON December 31, 2010 unless an extension is granted by the Executive Officer. ORIGINAL By fi//. /i. RA AN C. PATE , P.E. Senior Air Quality Engineer DetwoIT DIESEL TKF -Nr. 1127 -07 Anlage Emission (Nominal)' Engine Unit 16V4000G43 3D (Standby) 2280 kWm 1710 kWm 1140 kWm 570 kWm NOx g /kWh 6.933 5.456 4.64 4.549 HC g /kWh 0.134 0.17 0.236 0.494 CO g /kWh 0.799 0.831 0.905 1.883 PM g /kWh 0.074 0.114 0.182 0.427 Emission (Nominal)' Engine Unit 16V4000G43 313 (Prime) 2020 kWm 1515 kWm 1010 kWm 505 kWm NOx g /kWh 7.192 5.533 5.136 4.89 HC g /kWh 0.164 0.199 0.291 0.641 CO g /kWh 0.604 0.695 0.794 1.908 PM g /kWh 0.086 0.115 0.198 0.383 ' Emission data measurement procedures are consistent with those described in EPA CFR 40 Part 89, and ISO 8178 -1 for measuring NOx, I-IC, CO, and PM. Data shown is based on steady state operating conditions of 25 °C and 960 mbar and diesel fuel due to EN 590. The nominal emission data shown is subject to instrumentation, measurement, facility, and engine -to- engine variations. Field emission test data are not guaranteed to these values. Emission data cannot be used to compare to EPA regulations which use values based on weighted cycle. Manufacturer: MTU DETROIT DIESEL, INC. Engine Family: AMDDL95.4XTR Certificate Number: MDD- NRCI -10 -06 Intended Service Class: NR 9 ( >560) Fuel Type: DIESEL FELs: NMHC +NOx: N/A NOx: N/A pM: N/A Effective Date: 12/17/2009 Date Issued: 12/17/2009 Karl J. Simon, Director Compliance and Innovative Strategies Division Office of Transportation and Air Quality '' i `. UNITED STATES ENVIRONMENTAL PROTECTION AGENCYr4s OFFICE OF TRANSPORTATION AND AIR QUALITY WASHINGTON, DC 20460 CERTIFICATE OF CONFORMITY 2010 MODEL YEAR :, -'- 6 , 1- =' "- �Y.1MS'3!Aa?44f? :,..a», , ;a- :.� . . . - ; ., _,... _ a aC,iPsL. -}:: _ . ➢ik39fiP£i" vier "L:'SPptli'?+tl?"u?'SfiS�^"'' Manufacturer: MTU DETROIT DIESEL, INC. Engine Family: AMDDL95.4XTR Certificate Number: MDD- NRCI -10 -06 Intended Service Class: NR 9 ( >560) Fuel Type: DIESEL FELs: NMHC +NOx: N/A NOx: N/A pM: N/A Effective Date: 12/17/2009 Date Issued: 12/17/2009 Karl J. Simon, Director Compliance and Innovative Strategies Division Office of Transportation and Air Quality Pursuant to Section 111 and Section 213 of the Clean Air Act (42 U.S.C. sections 7411 and 7547) and 40 CFR Part 60 and Part 89, and subject to the terms and conditions prescribed in those provisions, this certificate of conformity is hereby issued with respect to the test engines which have been found to conform to applicable requirements and which represent the following stationary and nonroad engines, by engine family, more fully described in the documentation required by 40 CFR Part 60 and 89, and produced in the stated model year. This certificate of conformity covers only those new stationary and nonroad compression- ignition engines which conform in all material respects to the design specifications that applied to those engines described in the documentation required by 40 CFR Part 60 and 89 and which are produced during the model year stated on this certificate of the said manufacturer, as defined in 40 CFR Part 60 and 89. It is a term of this certificate that the manufacturer shall consent to all inspections described in 40 CFR 89.129 -96 and 89.506 -96 and authorized in a warrant or court order. Failure to comply with the requirements of such a warrant or court order may lead to a revocation or suspension of this certificate for reasons specified in 40 CFR Part 89. It is also a term of this certificate that this certificate may be revoked or suspended or rendered void ab initio for other reasons specified in 40 CFR Part 89. This certificate does not cover stationary and nonroad engines sold, offered for sale, or introduced, or delivered for introduction, into commerce in the U.S. prior to the effective date of the certificate. „b.A..,.., „d,E..� � MTU DETROIT DIESEL, INC. EXECUTIVE ORDER U-R -062 -0014 New Off-Road Compression- Ignition Engines e. AIR RESOURCES BOARD Pursuant to the authority vested in the Air Resources Board by Sections 43013, 43018, 43101, 43102, 43104 and 43105 of the Health and Safety Code; and Pursuant to the authority vested in the undersigned by Sections 39515 and 39516 of the Health and Safety Code and Executive Order G -02 -003; IT IS ORDERED AND RESOLVED: That the following compression- ignition engines and emission control systems produced by the manufacturer are certified as described below for use in off -road equipment. Production engines shall be in all material respects the same as those for which certification is granted. MODEL YEAR ENGINE FAMILY DISPLACEMENT (liters) FUEL TYPE USEFUL UFE (hours) 2010 AMDDL95.4XTR 57.2, 76.3, 95.4 Diesel 8,000 ACCEL SPECIAL FEATURES & EMISSION CONTROL SYSTEMS TYPICAL EQUIPMENT APPLICATION Electronic Direct Injection, Turbocharger, Charge Air Cooler, Electronic Control Module Loader, Tractor, Pump, Compressor, Generator Set The engine models and codes are attached. The following are the exhaust certification standards (STD) and certification levels (CERT) for hydrocarbon (HC), oxides of nitrogen (NOx), or non - methane hydrocarbon plus oxides of nitrogen (NMHC +NOx), carbon monoxide (CO), and particulate matter (PM) in grams per kilowatt-hour (g /kW -hr), and the opacity -of -smoke certification standards and certification levels in percent ( %) during acceleration (Accel), lugging (Lug), and the peak value from either mode (Peak) for this engine family (Title 13, California Code of Regulations, (13 CCR) Section 2423): RATED POWER CLASS EMISSION STANDARD CATEGORY EXHAUST (glkW -hr) OPACITY (%) HC NOx NMHC +NOx CO PM ACCEL LUG PEAK kW > 560 Tier 2 STD N/A N/A 6.4 3.5 0.20 20 15 50 CERT — -- 5.9 1.9 0.20 4 2 5 BE IT FURTHER RESOLVED: That for the listed engine models, the manufacturer has submitted the information and materials to demonstrate certification compliance with 13 CCR Section 2424 (emission control labels), and 13 CCR Sections 2425 and 2426 (emission control system warranty). Engines certified under this Executive Order must conform to all applicable California emission regulations. This Executive Order Is only granted to the engine family and model -year listed above. Engines in this family that are produced for any other model -year are not covered by this Executive Order. Executed at El Monte, California on this / / day of February 2010. Annette Hebert, Chief Mobile Source Operations Division Engine Family 1.Engine Code 2.Engine Model AMDDL95.4XTR 7000 12V4000G83 3D AMDDL95.4XTR 7001 12V4000G43 3D AMDDL95.4XTR 7002 12V4000G83 3B AMDDL95.4XTR AMDDL95.4XTR 7003 12V4000G43 3B 7004 16V4000G83 3D Engine Model Summary Template 3.BHP @RPM (SAE Gross) 4.FueI Rate: 5.Fuel Rate: mm/stroke @ peak HP (Ibs/hr) @ peak HP (for diesel only) (for diesels only) 2561 @ 1800 2328 @ 1800 2328 @1800 2038 @ 1800 3353@1800 73302561 877 @2561 655 @2328 788 @2328 655 @2328 788 @2328 571 @2038 760 @3353 687 @2038 1155 @3353 6.Torque (CO RPM (SEA Gross) Genset Genset Genset Genset Genset 7.Fuel Rate: mm/stroke @peak torque (I V - 12- 03.1 icy 8.Fuel Rate: 9.Emisslon Control bslhr) @peak torquepeyloe Per SAE J1930 NA NA NA NA NA NA DFI, TC, CAC, ECM NA DFI, TC, CAC, ECM NA DFI, TC, CAC,_ECM NA DFI, TC, CAC, ECM NA DFI, TC, CAC, ECM LAMDDL95.4XTR 7005 16V4000G43 3D 3057 @1800 690 @3057 1046 @3057 Genset NA NA DFI, TC, CAC, ECM I AMDDL95.4XTR 7006 16V4000G83 3B AMDDL95.4XTR 7007 16V4000G43 3B AMDDL95.4XTR 7008 20V4000G83L 3D AMDDL95.4XTR 7009 3D AMDDL95.4XTR 7010 20V4000G43 3D AMDDL95.4XTR 7011 20V4000G83L 3B AMDDL95.4XTR 7012 20V4000G83 3B AMDDL95.4XTR 7013 20V4000G43 3B AMDDL95.4XTR 7014 12V4000C23 AMDDL95.4XTR 7015 12V4000C23R AMDDL95.4XTR 7016 12V4000C13L AMDDL95.4XTR 7017 12V4000C13 AMDDL95.4XTR 7018 12V4000C13R AMDDL95.4XTR 7019 16V4000C23 AMDDL95.4XTR 7020 16V4000C23R AMDDL95.4XTR 7021 16V4000C13L AMDDL95.4XTR 7022 16V4000C13 AMDDL95.4XTR 7023 16V4000C13R AMDDL95.4XTR 7024 20V4000C23L AMDDL95.4XTR 7025 20V4000C23 AMDDL95.4XTR 7026 20V4000C13L AMDDL95.4XTR 7027 12V4000S23 3353 @1800 2709 @ 1800 4680 @1800 4036 @1800 3674 a 1800 4036@ 1800 3674@ 1800 3339 @1800 2253 1800 2025 @ 1800 1911 @ 1800 1801 @ 1800 1600@ 1800 690 @3057 500_02709 852 @4680 704 @4036 642 @3674 704@4036 642 @3674 1046 @3057 912 @2709 1641 @4680 1468 @4036 1272 @3674 1468 @4036 1272 @3674 582 @3339 1152 03339 667@2253 597 @2025 567 @1911 539@ 1801 756 @2253 679 2025 647@1911 613 @1801 438@1600 550 @1600 3004 @ 1800 701 @3004 2699 @ 1800 628 @2699 2501 @ 1800 589 @2501 2347 @ 1800 555 @2347 2001 @ 1800 4023 @ 1800 3755 al 800 3185 @ 1800 1911 @ 1900 1022 @3004 919 @2699 868 @2501 822 @2347 480 @2001 701 @2001 740 @4023 1409 @4023 680 3755 1308 3755 580 @3185 1100 @3185 649 @1911 _ 663@1911 Genset Genset Genset Genset Genset Genset Genset Genset 9440 @1700 848_0_01700 9072 @1500 8550 @1500 7595 @1500 12583@ 1700 11308@ 1700 11873@ 1500 11140 @1500 9550 @1500 16850 @1700 15730 1700 15120@ 1500 9221 @ 1475 NA NA NA NA NA NA NA NA 690 @9440 630 @8480 66509072 630 @8550 560 @7595 720 @12583 648 @11308 670 @11873 635 @11140 540 @9550 765@ 16850 705 15730 640 @15120 619 @9221 NA DFI, TC, CAC, ECM NA DFI, TC, CAC, ECM NA DFI, TC, CAC, ECM NA DFI, TC, CAC, ECM NA DFI, TC, CAC, ECM NA DFI, TC, CAC, ECM NA DFI, TC, CAC, ECM NA DFI, TC, CAC, ECM 748 @9440 673 @8480 628 @9072 598 @8550 534 @7595 987 @12583 896 @11308 827 @11873 780 @11140 691 @9550 1377@ 16850 1265 @15730 1037 @15120 613 @9221 DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM DFI, TC, CAC, ECM Engine Family AMDDL95.4XTR AMDDL95.4XTR AMDDL95.4XTR AMDDL95.4XTR AMDDL95.4XTR AMDDL95.4XTR AMDDL95.4XTR AMDDL95.4XTR AMDDL95.4XTR AMDDL95.4XTR 1.Engine Code 7028 7029 _._ 7032 7033 7073 7081 7082. 7090 7116 7117 2.Engine Model 12V4000S83 12V4000S83L 12V4000G73 3A 12V4000G73 3B 12V4000C23 TB 16V4000G73 I6V4000G73 12V4000R33 12V4000P83 16V4000P83 Engine Model Summary Template NT- Thattn T 2 o f- Z 3.BHP@RPM (SAE Gross) 2253 @ 1900 2501 @ 1900 1167 @ 1200 1482 @ 1200 2253@ 1900 1529 @ 1200 1864 @ 1200 2250 @ 1800 2478 @ 1800 3304 @ 1800 4.Fuel Rate: 5.Fuel Rate: mm/stroke @ peak HP (Ibslhr) @ peak HP 6.Torque @ RPM (for diesel only) (for diesels only) (SEA Gross) 7.Fuel Rate: mm/stroke @peak torque 8.Fuel Rate: 9.Emission Control (lbs/hr)@peak torqueoevice Per SAE J1930 633@2253 807@2253 696@2501 876@2501 44801167 40801167 601 @1482 480@1482 659@2253 802@2253 465 @1529 464@1529 56101864 598@ 1529 663@2250 796 @2250 733@2478 10014 @1600 10472@17 Genset Genset 678@10014 729 010014 DFI, TC, CAC, ECM 00 740@10472 831@10472 DFI, TC, CAC „ECM NA NA DFI, TC, CAC, ECM NA NA DFI, TC, CAC, ECM 696@8410 52708410 DFI, TC, CAC, ECM 8410@ 1900 Genset Genset 6572@ 1800 NA NA DFI, TC, CAC, ECM NA NA DFI, TC, CAC, ECM 66306572 796 @6572 DFI, TC, CAC, ECM 872 @2478 Genset NA NA DFI, TC, CAC, ECM 722 @3304 1146@3304 Genset NA NA DFI, TC, CAC, ECM 1 kl 1 . EM PRODUCTSTM PHILLIPS & TEMRO INDUSTRIES Engine Exhaust Silencers Model JC Series Critical Grade Standard Silencer Application • Heavy -duty critical grade series silencer • Designed for heavy duty stationary, marine systems and mobile power units • JC Series silencers provide a high degree of silencing where the ambient noise level is very low and a high quality silencer is re- quired Standard Construction Features • Aluminized steel standard for silencers up to 26 inch body diameter • Silencers larger than 28 inch body diameter standard carbon steel • All welded steel construction • Can be mounted vertically or horizontally • Standard high temperature (1200° F.) satin black finish • Drains standard item • Standard npt inlet and discharge connections on sizes 2 inch to 3.5 inch • Standard 125/150# ASA drilled plate flanges on inlet and discharge of silencers 4 inch and larger • Multi- chamber design z 0 F j m za W 4 REPRESENTATIVE ATTENUATION CURVE FOR "JC" SERIES SILENCER 40 35 30 25 20 15 10 5 0 63 125 250 500 1000 2000 4000 OCTAVE BAND CENTER FREQUENCY (Hz) 8000 Optional Construction Features and Accessories • Stainless steel and aluminum construction • Special inlet and outlet connections • Special inlet and outlet locations • Special finishes available • Vertical mounting legs • Horizontal mounting saddles • Mounting bands • Horizontal and vertical shell legs • Special acoustical designs • Internal and external shell lagging • Inspection openings • Air leak tests • ASME code construction • Complete line of engine exhaust accessories Engine Exhaust Silencer & Accessories: 1. Silencer 5. Mitered Exhaust 2. Flex Connector 6. Elbows 3. Mounting Band 7. Flange / Gasket i a REV. 01/99 99EC -1000 EM ProductsTM• 5380 Cottonwood Lane • Prior Lake, MN 55372 • (612) 440 -9200 • Fax: (612) 440 -3400 EM PRODUCTS"' PHILLIPS & TEMRO INDUSTRIES Engine Exhaust Silencers Model JC Series - Critical Grade Average Attenuation Curve: 25 - 34 dBA End Inlet/End Outlet D f i 7 \__ 1 1/2 inch to 3 1/2 inch stan- dard with male NPT con- nections; 4 inch and larger standard with 125/150# ANSI drilled plate flange connections. End Inlet/End Outlet Model No. Part No. A B D WT JCE -15 100070 1.5 6 30 10 JCE -02 100071 2 6 42 29 JCE -25 100072 2.5 8 42 38 JCE -03 100073 3 8 43 43 JCE -35 100074 3.5 10 55 72 JCE -04 100075 4 10 56 72 JCE -05 100076 5 12 68 81 JCE -06 100077 6 12 68 84 JCE -08 100078 8 18 92 249 JCE -10 100079 10 22 108 370 JCE -12 100080 12 26 120 506 JCE -14 100081 14 30 132 743 JCE -16 100082 16 36 160 1050 JCE -18 100083 18 42 174 1750 JCE -20 100084 20 48 203 2550 Side Inlet/End Outlet C B----- - - - - -- 1-"I-F Side Inlet/End Outlet Model No. Part No. A B C E F WT JCS -15 200380 1.5 6 27.75 5 5.25 10 JCS -02 200381 2 6 39.75 5.5 7.25 29 JCS -25 200382 2.5 8 39.88 6.5 7.38 38 JCS -03 200383 3 8 40.62 7 7.38 43 JCS -35 200384 3.5 10 53.0 8 9.25 72 JCS -04 200385 4 10 53.5 8.5 9.25 72 JCS -05 200386 5 12 65.62 10 12.25 81 JCS -06 200387 6 12 65.62 10 12.25 84 JCS -08 200388 8 18 90.50 13 16.5 249 JCS -10 200389 10 22 105.0 15 20.0 370 JCS -12 200390 12 26 117.5 17 21.5 506 JCS -14 200391 14 30 130.0 19 23.0 743 JCS -16 200392 16 36 157.0 22 29.0 1050 JCS -18 200393 18 42 171.5 25 33.0 1750 JCS -20 200467 20 48 199.0 27 36.0 2550 • Larger sizes available upon request. Dimensions in inches, weights in pounds. Dimensions and weights are nominal and may vary slightly with production models. Re- quest certified drawings for exact dimensions. EM ProductsTM • 5380 Cottonwood Lane • Prior Lake, MN 55372 • (612) 440 -9200 • Fax: (612) 440 -3400 Spring Isolator Type TJ Shatter Proof Ductile Iron CD HIGHLIGHTS ♦ Protection for: • Compressors • Pumps • Blowers • Boilers • Generators • Air Handling Units • Mills s® energy CHOICE OF 3 LEVELING-ATTACHING CONFIGURATIONS AVAILABLE IN 3 SIZES SHATTER PROOF DUCTILE IRON HOUSING NEOPRENE CUSHIONED TELESCOPING GUIDES RIBBED NEOPRENE SI TJB Stamm SOUND PAD O� DIMENSIONS Dimensions (inches) Size L W S G K M H* H ** B 6 7/8 2 1/16 6 9/16 1/2 4 1/2 5 1/2 6 C 13 2 3/8 12 5/8 5/8 7 5 3/4 6 1/2 E 13 1/4 4 5/8 12 11/16 5/8 7 5 3/4 6 1/2 H* Minimum free height T at aching H ** Minimum free height U & V attaching Operating height may equal free height depending on load and adjustment L TJ_Spec_7 -07 Spring Isolator Type TJ Shatter Proof Ductile Iron wis t energy O SPECIFICATIONS Load Rating - Deflection Rating- Spring Constant Size TJB (1 spring) Size TJC (2 springs) Size TJE (4 springs) Mount No. Max. Load (Ibs) Max. Deft. (ins) Spring Rate (lbs/ins) Mount No. Max. Load (lbs) Max. Deft. (ins) Spring Rate (lbs /ins) Mount No. Max. Load (Ibs) Msx. Defl. (ins) Spring Rate (lbs/ins) TJB 21 1.13 18 TJC 42 1.13 36 TJE 84 1.13 72 TJB 55 1.13 49 TJC 110 1.13 98 TJE 220 1.13 196 TJB 79 1.13 70 TJC 158 1.13 140 TJE 316 1.13 280 TJB 106 1.13 94 TJC 212 1.13 188 TJE 452 1.13 376 TJB 120 2.3 52 TJC 240 2.3 104 TJE 480 2.3 208 TJB 152 2.0 76 TJC 304 2.0 152 TJE 608 2.0 304 TJB 201 1.7 118 TJC 402 1.7 236 TJE 804 1.7 472 TJB 244 1.13 216 TJC 488 1.13 432 TJE 976 1.13 864 TJB 296 1.6 185 TJC 592 1.6 370 TJE 1 184 1.6 740 TJB 318 1.13 281 TJC 636 1.13 562 TJE 1272 1.13 1124 TJB 395 1.8 220 TJC 790 1.8 440 TJE 1580 1.8 880 TJB 511 1.5 341 TJC 1022 1.5 682 TJE 2044 1.5 1364 TJB 715 1.3 550 TJC 1430 1.3 1100 TJE 2860 1.3 2200 TJB 1060 1.0 1060 TJC 2120 1.0 2120 TJE 4240 1.0 4240 TJB 1520 .78 1950 TJC 3040 .78 3900 (JE' 6080) f 78) 010) TJB 1650 .64 2580 TJC 3300 .64 5160 TJE 6600 .64 10320 TJB 1960 .78 2515 TJC 3920 .78 5030 TJE 7840 .78 10060 For assistance: Our staff of engineers stands ready to help you select isolators for your particular application. T External Leveling Salted Attaching U � Attaching FELT PAD u Internal Levering Stud Attaching _. Vt For support or information, call us at 800 - 325 -5450 or visit us at www.mtu - online.com Materials and specifications subject to change without notice. MTU Onsite Energy Corporation / 100 Power Drive / Mankato, MN 56001 / USA / A Tognum Group Company MTU ONSITE ENERGY ENCLOSURES HIGHLIGHTS // Flexibility to mee site requirements II Double doors create accessiblity y Secure locking doors K Steel or aluminum construction V Sound attenuation options 0 UL2200 Listed Alognum Group Company wouon ite Energy / 100 Powe Drive / Mankato / Minnesota 56001 Phone 507 625 7973 / Fax 507 625 2968 / Toll Free 800 325 5450 V Durable exterior y Factory assembled and installed V Rodent proo construction II High retention gloss paint // Full line of accessories K ISO 9001 : 2008 DEPENDABLE POWER SOLUTIONS. IT'S ALL WE DO. MTU Onsite Energy's durable enclosure designs offer quality construction that will withstand the elements. Enclosure flexibility supports a variety of applications and industry specifications. MTU Onsite Energy offers multiple packaging levels that work to reduce noise levels, protect, and conceal the engine generator set. Weather Proof Enclosure (WPE) 11 Protects the generator set and components from the elements and reduces noise levels. // Modular design. Ultra Quiet Enclosure (UQE) 1I Similar design to CQE with further dBa reduction for larger generator sets. II Controlled air intake louvers with top flow ventilation. II Vertical air flow design reduces generator space. /I Bird screen. // Available on 600 kW - 2 MW models. Alognum Group Company MTU Onsite Energy / 100 Power Drive / Mankato / Minnesota 56001 Phone 507 625 7973 / Fax 507 625 2968 I loll Free 800 325 5450 www.mtu online.com 04 09 Crystal Quiet Enclosure (CQE) 11 Designed specifically to meet dBa and wind requirements. // Sound attenunated polyether polyurethane foam 1.5" of 2.15 lbs/c3, meets UL94 flame resistance. 11 Interior mounted silencer. 11 Available on 30 — 500 kW models. Optional Enclosure Features 11 UL listed fuel tanks I/ Fixed, motorized or gravity louvers // Scoops // Rain cap II Storm collar // Interior lighting // Electrical package // Stainless steel Custom paint color Ellenergly "'site ' Sub -Base Fuel Systems UL 142 Listed ®rl5®ft2 energy 0 DESCRIPTION MTU Onsite Energy's sub -base fuel tanks are manufactured and listed per UL142 standards for steel above - ground tanks. UL142 assures that our tanks meet the structural and mechanical integrity requirements for mounting engine - generator sets directly on top, providing our customers with a safe and efficient fuel storage system. These tanks are intended for above - ground storage of non- corrosive, stable flammable and combustible liquids that have a specific gravity not exceeding that of water and are in accordance with the Flammable and Combustible Liquids Code, NFPA 30; the Standard for Installation of Oil Burning Equipment, NFPA 31; and the Automotive and Marine Service Station Code, NFPA 30A. 0 STANDARD FEATURES • Fuel supply standard (size may vary with engine - generator set model), fuel return, normal vent, emergency vent, manual fill, optional level alarm (plugged), level gauge, basin drain (plugged; tank drain if single wall or double wall), removable supply dip tube standard (size may vary with engine - generator set model), leak detection option (plugged), low level option (plugged). • Electrical stub -up area: Provides space for generator set electrical connections. Removable end channel available, when stub -up selected. • Baffle: Separates cold engine supply fuel from hot returning fuel. • Fuel level gauge: A direct - reading fuel level gauge. 0 OPTIONAL FEATURES • Electrical stub -up openings are available to provide internal generator set wiring capabilities through the base skid • High and low fuel level and rupture basin alarms • Full pumping applications create a true day tank option list for additional electrical options Sub- Base_Fuel_Systems_Spec_09 -2010 Sub -Base Fuel Systems UL 142 Listed aneite easel y OO SUB -BASE DESIGN CONFIGURATIONS MTU Onsite Energy has provided these four (4) representative sub -base drawings to assist in the specification process. The drawings represent actual views of sub -base fittings and construction features. The drawings below show typical options including rupture basins and electrical setup -up openings. Additional electrical, mechanical and plumbing options are also available. These drawings are for informational purposes only. Unit specific dimensional drawings are supplied by MTU Onsite Energy. BASE MTG HOLE Standard Sub -Base Tank RUPTURE BASI TANK BAFFLE STUB -UP AREA (ACROSS THE BACK) RUPTURE BASIN VENT BASE MTG HOLES SUPPORT CHANNELS Sub -Base Tank with Electrical Stub -Up BAFFLE BASE MTG HOLES RUPTURE BASI VENT RUPTURE BASIN TANK SUPPORT CHANNELS Sub -Base Tank with Secondary Containment RUPTURE BASI TANK BAFFLE STUB -UP AREA (ACROSS THE BACK) RUPTURE BASIN VENT BASE MTG HOLES SUPPORT CHANNELS Sub -Base Tank with Secondary Containment and Electrical Stub -Up For support or information, call us at 800 - 325 -5450 or visit us at www.mtu - online.com Materials and specifications subject to change without notice. MTU Onsite Energy Corporation / 100 Power Drive / Mankato, MN 56001 / USA / A Tognum Group Company APPROX. WATER HEATER LOCATION `9 90 (DUCT FLANGE WIDTH) APPROX. BATTERY LOCATION 49 17 EXHAUST: 16' CRITICAL MUFFLER BATTERY CHARGER BEST BATTERY SELECTOR (2) 30 DOORS (BOTH SIDES) (289 3/8) (2) 30 DOORS (BOTH SIDES APPROX. BATTERY LOCATION (2) 30 DOORS (BOTH SIDES) FUEL INLET /8 AC LIGHTS 30 FIXED LOUVER 60W x 32T x 6D w/ BIRDSCREEN (6 PLCS) FUEL RETURN CONTROL PANEL AS SPECIFIED 91 1/2 (DUCT AIR FLANGE FLOW HEIGHT) 68 (DOORS) 53 1/4 DUAL BATTERY CHARGER LOCATION 260 275 24HR /3540GL OW UL LISTED SUB -BASE FUEL TANK W/ STUB -UP AREA AND 5GL SPILL/FILL 2000SXC6DT2(T1638A36)WPF -0-307 NOTES: 1) ENCLOSURE & EXHAUST SYSTEMS ARE NOT SHOWN ON TOP VIEW 2) [X] DIMENSION MAY TART DUE TO SPRING HEIGHT 223 1/8 (EXTERNAL EXHAUST) 30 FIXED LOUVER 90W x 120T x 6D w/ BIRDSCREEN 13/16 MTG. HOLES (16 PLCS) 181 51 L ACCESS PANEL W /(16) 1/4 -20 BOLTS DRAWING TOLERANCES: ±1/4� EXCEPT BASE MTG. HOLES: ±1/8' 12 -01 -10 INITIAL RELEASE FOR SALES AND ENGINEERING TCO A 11 -18 -10 SUBMITTAL TCO REVISION DATE REVISION DESCRIPTION INITIALS lo7 oogar, ,igogoo GEN -SET INFORMATION ENGINE: T1638A36 GENERATOR: 744 RADIATOR: 86762(F51 -43278) RADIATOR AMBIENT: HOC DUCT FLANGE: 105 -4837 CONTROL PANEL: DGC 2020 BASE: 102 - 3011 -A ENCLOSURE: 103 -317 BREAKER: NA TANK: 108 -2494 MUFFLER: I6' CRITICAL TRAILER: NA ISOLATORS: TJE- 6080(16) DIMENSIONAL LAYOUT DRAWN TO SCALE ALL DIMENSIONS ARE IN INCHES 2000SXC6DT2 YAM 11 -18 -10 or» TCO snY 1 -1 � k 2000SXC6DT2(T1638A36)WPF -MD -307 9 0) (49) 0 0 1 I I Ogi 000000000000000000000 0 0 2111 0 ii 0 0 ' Y 0 eaoaoo ®e®®DD 9Oe©o ©B BBOUMBOOO 0 5 °kA- 5 •''A V §B v. 9 (9) .I El F 9 Q Q 0 E m m -I-►= og 8 - - 5 �oBII�E CI 01, CS E IIN A e r Ore cto �; U. Y CR r q'-y Tq , _ m= m g g gIR RIR _ g g r r---� -_y'_ 4, 41 r i _ ____'i i ¶-P I - -0— , =P F =P e p ti P m „ ` u - - - 8 00 �' W I I R g8g��yy€ m p .g; 5 3t S S S S S S S S S S S °s 8 OU Q S g m S v n @IKkkfrfrig N, l6"Id.k. fr-dtI i*i kid :m IgImj gqg= CFgm- 819 -M -22844 DATE- 12 -2 -10 I DRAWING 2 SIZE. 2 B -SIZE DRAWN BY: RJB SHEET: OF 0 7J TO MINIMIZE ANY ELECTRICAL NOISE BEING INTRODUCED INTO THE ENGINE CONTROLLER, CONTROL WIRING AND AC POWER LINES NEED TO BE RUN IN SEPARATE CONDUITS. I. 11 ii 1,PEgg X14' ggIgLgj OM 11 �3= = 0 REGUUTOR- DVR 2000E CONTROL PANEL: OGC -2020 ENGINE: 4000 SERIES GENERATOR: N/A �9 uUoo d o pp . 1 a k � ° S li e TBI 191 (5100) 5100 (5100) 5100 TB41�f] BA110N 0550805 A 9) (900) (1509) 001085 71 WSJ 33 BATTERY 12 /0 BBS aln /0CA 00µ00u FBI: 9/0 a BABE. Bwa B1 (9/0 CA 00RON BNa Bt 12/000 12/0 00 05 %0 (0BB)ITOa� 10/055 2/0 CA 12/000 C) (10 CA Ire (9E) 110 CO MEG. (90) (9) 110 a CRC 3 OiARGER TERMINAL BLOCK I9) 8010000055501900 1 aur 182 7 caaoff l "SPECIAL NOTE** TO NINWIZE ANY ELECTRICAL NOISE BEING INTR000CE0 INTO THE ENGINE CONTROLLER, CONTROL YARING AND AC POWER UNES NEED TO BE RUN IN SEPARATE CONDUITS ENGINE' 4000 SERIES GENERATOR:N /A REGULATOR:0YR 2000E CONTROL PANEL: 00C -2070 VOLTAGE: 24VDC GOVERNOR: ADEC DC DI DATE- 12 -2 -10 DRAWN BY. RJB 81 9 —M AGRAM DRA0 IZE: SNEET- 20 1 SOF 2 8-0176 —22844 COSIGNER CONNECTIONS 132 BATTE I I C't.ER �H L_ -rG^IO BATTE ZL I CAMDEN I-N B Q a a 181 M GENERATOR STRIP MATER ANN NW9NG LERRS 182 �� IINEM I �rL I--� - - IIOaM A-0- NOTES: I 052 520 WE TOR LI, LI. LI. N. IRO ME 'RANSOMER LINES morn AM CPRECTEO 10 LI, LI, LI NO N. 2 OW 8211(00 LRES ( ) VOGTE MERRIER *2*.TCIION OR OPTgwi EURNEM RAI I MOON p6pRIP1wN I DATE I Bf OGJ &a, ,(0171Eaq **SPECIAL NOTE" TO MINIMIZE ANY ELECTRICAL NOISE BEING INTRODUCED INTO THE ENGINE CONTROLLER, CONTROL WIRING AND AC POWER USES NEED TO BE RUN IN SEPARATE CONDUITS. ENGINE: NA GENERATOR: 6 WIRE REGULATOR: DVR -2000E CONTROL PANEL DGC— 2020 VOLTAGE. NI60 /2400 30 GOVERNOR: NA AC DIAGRAM DATE 12 -2 -10 I DRAWING SIZE- B —SIZE DRAWN 07. KIB SHEET: 2 OE 2 819 —M -22843 CONTROL PANEL OGC -2020 wOROTROCESSOR 41 39 S] IS 69 68 72 71 5 71 G] 04 C9 N N 35 6 9 TOI 1 67 1 68 1 G9 1 1 c11 1 1 CT] 1 1 Oi] 1 1 9 1 LICENO GNO CROUNO 1B1 1ERw4L &OCN I (PeNEl) G] GB 14 31 GENERATOR OUTLET BOX DtC11EA F]- r- 741D r,-77 WXTALE ,'- OO]H REOLATOR BOB OUTPUT SOONG WETN2 VM/PE CONTROL PNMNIEI CON1ROl 261INNAL 40141 v1.1. 6112151 E] E2 521 526 524 524* END •007r OKR O E3 El L1 7.5 of 1 iI rra ere L2 T2 L3 1= NS SEE NOTE II T5 U l2 TO NOTES 4. 1.10 5102 NNE fOR L1, U. l3 N 610 III 11085EORII13 1165 e100O2 ARE 02I06CRD TO Li. 12. U. ANO N ]. LORI Dl4<D U]ES ( ) NOW CU5,0NER COOECTO2 OR OPTDNN ECUPIEEO REN I MOOT OESCR,POR* I MR 1 BY r-lOgu &R ) GGi7C�� • "SPECIAL NOTE" TO MINIMIZE ANY ELECTRICAL NOISE BEING INTRODUCED INTO THE ENGINE CONTROLLER, CONTROL WIRING AND AC POWER USES NEED TO BE RUN IN SEPARATE CONDORS ENGINE: NA GENERATOR: 6 WIRE REGULATOR: CNA -2000E CONTROL PANEL: OGC -2020 VOLTAGE: 1160 /2400 30 GOVERNOR. NA AC DIAGRAM DATE. 12 -2 -10 I DRAYRNG SIZE: B -SIZE DRAWN BY. TUB SHEET: I OF 2 819 -M -22843 39 39 39 39 — (301) 459 NC — (51) DGC 28 — (961 DGC 9 E — • (5104) 051 27 — • (5126) 251 26 C C C 03 — (G1) 005 11 6' — (G8) 0GC ¢ — (69) DGG 31 — (N) DGC 35 2 — (34) DGC 60 2 — (35) OGC 72 2 — (36) DGC 75 T47019417 9 — (25) OGC 30 -- (,03) 73 116 C.E L IID3) n +' t- (2) 0GC RUN NO /16 GA - \ (3) DGC 5748 NO p� I1 e (32) Da PRE ND c- (9) 513 (9(9) 1 /12 GA 9)191E 051 G N —�- (9) 951 u 110 ; fA GP( O - (9) KC 23 J 004) DGC 2 Y (51) 73 /26 U • (51) ESP NC — (21) DGC 29 • (23) OGC 54 8 — (10) DGC B — (41) DGC 10 (100) OGC 49 (100) CB 1 (101) 2GN; 48 (100 CD — (91) DGC 53 0 0 A A ggc 0 R �A 8 0 a ii 19 1 111 (20) Da 46 (51) 191 51 (9) BPS /14 CA ORN (103) 181 103 70 11 (50) DGC 3 (18) 18I IB 116 94 (12 OM G. (103) 701 165 116 V V (51) TB1 51 116 CA (30) DOC 52 (9) 181 E (20) UGC 47 ()D,) 791 30, (3) 191 3 (1)1811 (2) 191 2 /16 CA (1) 181 1 916 W (31) 1B1 32 (1) 1B1 1 (20) (5P NC (20) ESP NC (101) 101 102 l,00) 1131 ,W (1) TB, 1 (30) u (97) TB( 97 (23) 181 23 (I) 18, 1 (134) 955 10 134) 1B1 112 (135) 6K 14 (35) 741 112 (136) NK 18 (36) 191 113 g 2 2 J ^ 757 ESA u \939 CAN 409 • 0939 C92 ,, j5 21939 049 524610 a CR.S GNU 9411 - &n a ro - TAO a PRESSURE Pun 100E C00 09 114? SENDER 609 85 -465 314410 RS -R6 B RS -. I A4AUT 16 A400 15 4100 11 41M 13 NU 12 Al. 11 41621 10 W V 9 1411101 6 0991 7 AM 6 (940 CHARGER B 1411) 4100 5 IBSn CWGER 6 '61) Al. 4 DPUT 3 9262f 2 O W 1 962 . 962 - 00 0001030 t PHC Sat PH B 2047 w . BUS 200 AN B MS 4017006 8 8 )9 M k 000) 781 100 000 18, 101 (9) 197 9 912 G4 [RN (104) 191 104 (50) 71 (40) 181 40 (98) 181 96 (41) 791 41 (9) 101 9 (213) KG 13 (114) 940 14 x000 13NVd (5208) 1B, 5100 (5104) 191 5194 (Si) 701 51 (21) 791 21 (25) 7B, 1 22 i0Og��F, 41401.W gl NWB 13NVd MTU ONSITE ENERGY PERFORMANCE ASSURANCE CERTIFICATION A lognum Group Company M1 U Onsite Energy / 100 Power Drive / Mankato / Minnesota 56001 Phone 507 625 7973 / Fax 507 625 2968 / loll Free 800 325 5450 www.mtu online.com PROTOTYPE TEST PROCEDURES & METHODS MTU Onsite Energy has been producing superior engine generator sets for over five decades. We understand the importance of reliable cost - effective products, and have developed industry- leading test procedures to ensure we exceed this criteria. Our testing program confirms that our customers will receive products of the highest quality. The Performance Assurance Certification provided by MTU Onsite Energy certifies that every engine generator set undergoes rigorous prototype testing including the following: PROTOTYPE TEST PROCEDURES Rated Load (NFPA 110) MTU Onsite Energy certifies that all engine generator set models will produce the name - plated load in all conditions within the design tolerance of the gen set. Extended Run Testing MTU Onsite Energy certifies that all engine generator set prototypes have been subjected to major run time testing. Transient Response Analysis (ISO 8528 -5) MTU Onsite Energy certifies that all new gen -set models have undergone transient response analysis per ISO 8528 -5. Torsional Analysis MTU Onsite Energy certifies that all engine generator set models have undergone torsional stress analysis. Engine Cooling System MTU Onsite Energy certifies that all gen -set models will cool sufficiently within the ambient design conditions per each model. Anticipatory Alarms & Shutdowns MTU Onsite Energy certifies that the pre - alarms and alarms function appropriately to protect the engine generator set from any foreseen unnecessary failures. Vibrational Analysis (ISO 8528 -9) MTU Onsite Energy certifies that all new engine gen set models have undergone vibration analysis to ensure that each engine generator coupling is balanced and that there is no destructive resonant vibration. PROTOTYPE TEST METHODS MTU Onsite Energy performs prototype testing by following the methods and guidelines established by MIL - STD -705c. MTU Onsite Energy is proud to perform these stringent procedures because they showcase engine generator set superiority in providing precise power for all types of critical applications including hospitals, data centers, UPS systems and government and military installations. TEST STANDARDS MTU Onsite Energy engine generator sets are compliant with many different codes and standards. MTU Onsite Energy's philosophy and performance are regularly reviewed to ensure continuity with these codes and standards: UL2200, CSA, EPA, NFPA 99— Health Care Facilities, NFPA 70— National Electrical Code, NFPA 110—Standard for Emergency and Standby Power Systems, Department of Labor and Industry, ISO 8528 -5— Generating Sets, and ISO 8528 -9 Measurement and Evaluation of Mechanical Vibrations. In addition: ISO 8528- 10– Measurement of airborne noise by the enveloping surface method, IEEE 115 –Test Procedures for Synchronous Machines, NEMA MG 1– Motors and Generators, MIL - STD -705 -c MIL - STD -705C METHODS Method Description 301.1c Insulation Resistance Test* 302.1 b High Potential Test* 401.1 b Winding Resistance Test 503.1c Start and Stop Test 505.2b Over Speed Protective Device Test 507.1d Phase Sequence Test (Rotation) 508.1d Phase Balance Test (Voltage) 510.1d Rheostat Range Test (as applicable) 511.1d Regulator Range Test 511.2c Frequency Adjustment Range Test (as applicable) 513.2a Indicating Instrument Test (Electrical) 515.1b Low Oil Pressure Protective Device Test 515.2b Over Temperature Protective Device Test 516.1a Controls, Direction of Rotation 640.1d Maximum Power Test * Performed by Alternator OEM A lognum Group Company Ml U Onsite Energy / 100 Power Drive / Mankato / Minnesota 56001 www.mtu online.com Phone 507 625 7973 / Fax 507 625 2968 / Toll Free 800 325 5450 FACTORY ACCEPTANCE TESTING MTU Onsite Energy's factory testing is performed with the same extreme diligence and attention to detail that is given to the prototype testing process. Every engine generator set receives a complete factory acceptance test that certifies and ensures that the set will function in accordance to every specific application. Test metering will have an accuracy of 1.3% or better. This metering is calibrated a minimum of once per year, and is directly traceable to the Bureau of Standards. Factory Acceptance Testing Procedures: // Insulation Resistance Inspection (301.1c)* II High Potential Test (302.1b)* I/ Alternator Over Speed (1 min.)* 11 Engine Inspection II Generator Inspection /I Resistances Inspection (401.1 b) — Exciter Field Stator — Alternator Armatures // Mounting & Coupling Inspection // Engine Fuel Oil System Inspection // Engine Lube Oil System Inspection II Engine Cooling System Inspection /I DC Charging System Inspection // Circuit Breaker Inspection 11 Anticipatory Alarms and Shutdowns Inspection (505.2b, 515.1b, 515.2b) 11 Optional Equipment Inspection (513.2a) // Load Test Inspection — Regulator Range Test (511.1d) — No Load Inspection — MAX Load @ 1.0 P.F. (640.1d) — MAX Load @ 0.8 P.F. — Block Loads @ 0 -25 %, 0 -50 %, 0 -75 %, 0 -100% II Phase Balance and Sequence Inspection (507.1d, 508.1d, 516.1a) *Performed by Alternator OEM Extended Run Factory Acceptance Testing: In some cases, extended run testing may be requested. Unless specified otherwise, extended run testing will be performed in the following manner. II 1.0 Power Factor /I Full name plate rated load. /I Standard readings taken every 15 minutes. WITNESSED FACTORY ACCEPTANCE TESTING Standard witnessed factory tests must be scheduled and approved at least four weeks prior to the engine generator set's scheduled shipping date. Any requests for witnessed factory testing after this four week period must be approved by the Regional Sales Manager and are subject to additional fees. WITNESSED EXTENDED RUN FACTORY ACCEPTANCE TESTING Witnessed extended run tests must be scheduled and approved at least six weeks prior to the engine generator set's scheduled ship date. Any requests for witnessed extended run testing after this six week period must be approved by the Regional Sales Manager and are subject to additional fees. STANDARD READINGS RECORDED DURING LOAD TEST INSPECTION Run Time Frequency AC Voltage Exciter Field Voltage AC Amperage Exciter Field Current kVA Lube Oil Pressure kWe Engine Coolant Temp. Power Factor Ambient Temp. ATognum Group Company MTU Onsite Energy / 100 Power Drive / Mankato / Minnesota 56001 www.mlu online.com Phone 507 625 7973 / Fax 507 625 2968 / Toll tree 800 325 5450 mITunite energy ADDITIONAL FACTORY ACCEPTANCE TESTING Additional testing is available upon request. The following is a list of supplementary tests which can be performed on MTU Onsite Energy engine generator sets. Non - standard testing is subject to additional charges. • CANADIAN AtANDANDI AI16001At1ON n MIL - STD -705C METHODS Method Description 503.2c Start and Stop Test (remote control) 505.2b Over Speed Protective Device Test 602.1b Voltage Modulation 608.1b Frequency and Voltage Regulation, Stability and Transient Response Test 610.1b Voltage and Frequency Droop 614.1b Voltage and Frequency Regulation Test Voltage Dip and Rise For Rated Load Test 619.2c 670.1 b Fuel Consumption Test (consult engineering) National Fire Protection Assodatlon Nip ibit The authority on fire. electrical. and building safety A Tognum Group Company MTU Onsite Energy / 100 Power Drive / Mankato / Minnesota 56001 Phone 507 625 7973 / Fax 507 625 2968 / loll Free 800 325 5450 www.mtu online.com 04 09 ISO ElsP,nsi -e :s . Eng MTU Onsite Energy Corporation STANDBY LIMITED WARRANTY "TWO (2) YEAR / 3,000 HOUR BASIC" LIMITED WARRANTY: Your MTU Onsite Energy Product has been manufactured and inspected with care by experienced craftspeople. If you are the original consumer, MTU Onsite Energy warrants, for the limited warranty period indicated below, each product to be free from defects in materials and workmanship, and will perform under normal use and service from valid start-up performed by MTU Onsite Energy. This Limited Warranty shall apply only when the product has been property installed, serviced, and operated in accordance with the applicable MTU Onsite Energy instruction manuals. If this Limited Warranty applies, the liability of MTU Onsite Energy shall be limited to the replacement, repair, or appropriate adjustment of the product, at MTU Onsite Energy's option. This Limited Warranty does not apply to malfunctions caused by normal wear and tear, or by damage, unreasonable use, misuse, repair, or service by unauthorized persons. LIMITED WARRANTY PERIOD: Engine Generator Set: Parts and labor for two (2) years from invoice date or 3,000 hours of use, whichever is earlier. Accessories: Parts and labor for one (1) year from invoice date or 3,000 hours of use, whichever is earlier. The warranty period can be adjusted to the date of start-up if start-up is completed within twelve (12) months of invoice date. For a description of accessories and items excluded from this Limited Warranty, review the listings on the reverse side of this document. LIMITED WARRANTY CONDITIONS: Before you have any protection under this Limited Warranty, you must: (1) complete the MTU Onsite Energy Warranty, Start-Up Validation and Pre- Inspection form and return it to MTU Onsite Energy within 60 days of the start-up date, and (2) complete the engine registration form and return it to the manufacturer as stated in the instructions with engine registration form. In addition, this Limited Warranty is not valid or enforceable unless: (1) all supporting maintenance records is to be kept on file with the end user and made available upon request from factory, (2) the generator set is routinely exercised in accordance with operating instructions, and (3) the installation meets the general guidelines, standards, and recommendations as laid out in the Installation Guide provided with the product and all local standards and codes applicable in the location of installation. Buyer must deliver the Product to Seller at its factory in Mankato, MN or other point designed by Seller. Buyer shall bear the full cost and risks involved in delivering the Product to Seller. Engine generator sets that are stored by Buyer longer than 180 days from date of shipment are subject to special requirements. Contact MTU Onsite Energy's Factory Service Center for instructions. Seller shall return the Product to Buyer, F.O.B. Seller's factory or other point designated by Seller for all Buyers located in the U.S. when a common carrier is used, and Ex Works Seller's factory or other point designated by Seller for all Buyers located outside the U.S. When the Product is returned to Buyer using Seller's truck, Buyer shall also bear all risk of loss as well as the full cost of delivering the Product. TO OBTAIN WARRANTY SERVICE: Warranty service may only be performed by MTU Onsite Energy authorized service providers. Service provided by unauthorized persons will void this Limited Warranty. Non -MTU Onsite Energy replacement part(s) will void this Limited Warranty. Contact your nearest MTU Onsite Energy Service Representative to obtain warranty service. For assistance in locating your nearest authorized service representative, contact MTU Onsite Energy, Attention: Service Department, 100 Power Drive, Mankato, MN 56001, (507) 625 -7973. THIS WARRANTY IS IN LIEU OF ALL OTHER WARRANTIES EXPRESS OR IMPLIED. NO WARRANTIES SHALL BE IMPLIED OR OTHERWISE CREATED UNDER THE UNIFORM COMMERCIAL CODE, INCLUDING BUT NOT LIMITED TO A WARRANTY OF MERCHANTABILITY OR A WARRANTY OF FITNESS FOR A PARTICULAR PURPOSE. MTU ONSITE ENERGY SHALL NOT BE LIABLE FOR ANY CLAIM GREATER IN AMOUNT THAN THE PURCHASE PRICE OF THE PRODUCT AT ISSUE, AND IN NO EVENT SHALL MTU ONSITE ENERGY BE LIABLE FOR ANY SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES. STATE LAWS REGARDING THE RIGHTS OF CONSUMERS MAY VARY FROM STATE TO STATE. 1. The following items are not considered nor will they be covered under this Limited Warranty. If there are questions as to coverage under this Limited Warranty, it is advisable to contact the factory in advance of filing a claim. a. Battery or batteries of any type or kind. The battery manufacturer's warranty, if any, is the only warranty that applies to batteries. Any warranty claim should be handled with the manufacturer according to its policies. b. Adjustments to fuel systems or governor system at time of start-up or any time after. A warranty claim for such adjustments is acceptable only when a defective part has been replaced, returned to the factory, and approved as defective. c. Normal maintenance costs, including but not limited to adjustments, loose and /or leaking fittings or clamps, and tune - ups performed during start-up or anytime thereafter. d. Due to shipping, manufacturer is not responsible for loose connections. All connections must be checked at time of start-up. e. Non -MTh Onsite Energy replacement part(s) will void this Limited Warranty. f. Products that are modified in any form without the written consent of MTU Onsite Energy will void this Limited Warranty. g. Shipping damage of any type. h. Any installation errors or damage of the equipment when shipped as ordered. i. Any overtime travel or labor to make repairs under warranty. j. Any special access fees required to gain access to MTU Onsite Energy equipment, including but not limited to any training or safety policy requirements to gain access. k. Additional costs associated with inaccessible installations, including but not limited to removal and reinstallation of the generator set. I. Rental equipment used during warranty work including but not limited to generators, rigging equipment such as a crane or boom truck, load banks and special test equipment above factory requirements. m. Excess mileage charges. Any authorized service provider may perform warranty service anywhere, but will only be paid for mileage expenses from the nearest service center and limited to 400 miles roundtrip. n. Any equipment not factory approved and engineered for use on MTU Onsite Energy products. This includes but is not limited to after market items such as special fuel systems, enclosures, exhaust systems, or switch gear that had been sought out and quoted by a third party to be included in billing of the MTU Onsite Energy equipment. o. Misuse or abuse during installation and thereafter. p. Normal wear and tear, maintenance, and consumable items that are not required as part of a warranty repair. Consumable items include but are not limited to belts, hoses, coolant, oil, filters, and fuses. q. Acts of nature or acts of God such as lightning, wind, flood, or earthquake. r. Any damage due to situations beyond the control of the manufacturing of the product or workmanship of the product. s. Installation or operation outside the guidelines as stated in the Installation Guide and Owners Manual. t. Diesel engine "Wet Stacking" due to lightly loaded diesel engines. u. Misapplication of the equipment such as usage outside the original design parameters as stated on the nameplate of the equipment. v. Travel expense on portable equipment. w. Trailer lights, wiring, and brakes. x. More than one trip to the job site because a service vehicle was not stocked with normal service parts. y. Lodging expense of person(s) performing service, unless approved in advance by factory. z. Engine fluids. aa. Units purchased at the Standby Power rating that are being used in a prime power application. bb. Any repair labor time that is determined to be excessive, e.g., two or more people performing a one - person job. cc. Any expenses associated with investigating performance complaints in which no defect is found. dd. Any associated costs for replacing components that are found not to be defective. ee. Any adjustments covered in the start-up and inspection forms that are to be completed during start-up. 2. The accessories that are limited to one (1) year parts and labor from invoice date include but are not limited to: a. Water heaters b. Load banks c. Tap changing switches d. Day tank pumps and controls e. Hand priming pumps f. Oil leveler systems g. Gas solenoid valves h. Gas flex pipes i. Cords, receptacles, and cord reels j. Housing lights, space heaters, and associated equipment. Rev: 20070715 MTU Onsite Energy Corporation / 100 Power Drive / Mankato, MN 56001 / USA / A Tognum Group Company Phone: (507) 625 -7973 / www.mtu- online.com Neutral Grounding Resistors The Avtron Advantage Designed in strict accordance with IEEE Standard 32 -1972 Reliable, all stainless steel HelidyneTM resistor elements Corrosion resistant aluminized steel enclosures Elements are triple insulated from ground for added safety Internal bushings eliminate the need for costly elevating stands Fully factory assembled — no field assembly required UL Listed AIITY.SYSTEM CERT1FIED,TO trop Neutrai�rounaing < designed to;,providefadded safe distribution. systems by limiti t current to reasonablelevels art . ,� v �•� _ �x. solidly es istors -' hground, faulty current`(typically: )OO ,arnps)and excessive dam - jenerators, motors, wiring mInserting.an,Avtron imenorrna rent flow tooperatetfault clearin �g�faul retirreritta so reduces h' ransient o ervolt gesx (ups to s I voltage) which, canr occur dorm round, fat, . a Neutra1• GroundinNeutral Grounding Resistors' Type ANG) INDUSTRY LEADING DESIGNS Avtron Neutral Grounding Resistors are engi- neered with reliability, safety, and ease of installation as top priorities. Resistor elements, terminals, support rods and exterior fasteners are made from stainless steel for added durability. Enclosures are manufactured from corrosion resistant aluminized steel finished with ASA -61 gray powder coat paint. Multi- lingual voltage warn- ing signs are provided for increased safety. Forged lifting eyes are furnished for easy handling. Internal connection points eliminate conven- tional "live" external bushings and the need for expensive elevating stands or towers. The following information is required when specifying Avtron Neutral Grounding Resistors or Avtron Neutral Grounding Transformers: • System Voltage • Line -to- Neutral Voltage • Current Rating • Maximum Time On • Open or Enclosed • Current Transformer Ratio (if applicable) • Grounding Transformer KVA Rating (if applicable) • Special Options Grounding Resistor rated 4160 volts L -L, 2400 volts L -N, 400 amps, 10 seconds. ® Grounding Resistor rated 13800 volts L -L, 8000 volts L -N, 200 amps, 10 seconds. on' Neutral GroUndihq Transformers �irnilar in design toy Avtron Neutral Grounding resistors and provide high .resistance grounding or. medium voltage generators and transformers the standard p cckage consists of a single phase type }x Epoxycast , transformer pl :a second,o-r 3rypower resistor mounted in a;commonenclosure°Y The transformeis typically'selected� with a primary voltage equal ,to ;or grea e.r-.than tthe system ¢voltage, to maintain, ago. igh° insulation gating for added safety The transformer secondar.y�ist rated at 240x, volts and' 1J,"T'�+'4i N "k�.. Xi factory, wiredd;to; the resistor. The�resistorisfsizedit? the fault,3current reflecd,through the transormer pro- duces thhdes edtlfault current =on the system neutral (typlcali to.r1 damp fo 0 seconds) A olttage relay connected to the secondary resistorris(used .to detect "c„alr" air Kok Ground ng Tr ormer rated14160 voltstL l '2400 volts' L= 10 a ps, 601V on �nW 60-seconds :wdh 15KVA 4i60:246'F a ground fault ;Ifthe fault persists certain time periood, the relay will send aasi- n the.: mainilcircuiUbreaker. CERTIFIED PRODUCTS Avtron Neutral Grounding Resistors are designed, manu- factured, and tested in strict accor- dance with IEEE Standard 32 -1972 and are UL listed and certified (up to 1000 amps). LISTED NEUTRAL GROUNDING RESISTOR . . .'47SY FLEXIBLE SOLUTIONS Avtron Neutral Grounding Resistors can be supplied with open frame construction, for install- ation inside switchgear or similar enclosures, or fully assembled with indoor /outdoor safety enclosures. Options include: • Current Transformers • Potential Transformers • Disconnect Switches (oil or air insulated) • Aluminum or Stainless Steel Enclosures • Special Paint • Seismic Qualified Units • High Altitude Ratings (above 6000 feet) • Hazardous Location Ratings (Class 1, Group D, Division II) JHVTRON i American Made,.. American Owned { 81Y v f �,. Y� Dinnty le Max Temp R, : TYP CSOIS^t u{"!ren+.!}t s 60 seconds or less 760 °C 100 to 2000 amps rM Extended ' 610 °C 15 / 25 / 50 amps Continuous 385°C 1 to 25 amps Ya IM., Defined as 10 minnute o ,f .. greater, no Ymorettthan 90adays to perYyear Alsd�s^ree erredIto:as Merin ngDuty, fir. 'VII ^-f ^1 Td RS^= 1,/ lvtron s Catalo T $ � Number ', , System ; -4 Voltage- •e�,i�,v ~#' -j. „�FY.jeu`F �# k t Line To Tnrt►al , "� sOluns Neutral Current x , e � +10% Volts efi Am s + k ,!'dd Len 't 1 g L+ v •'Y` +tl'y 4 = c e � �`� Width ° Her��ht .° ° W <4H? f r s" �r r ''� "*T Approa h tfi Weight i;,, ` , , t 1 5,c ,4, Ratings, (7, §099 o a� Teni sue) eril. Rise , # ttc «Yfi :° £ •1 - r ' .... ANG14 -1 ANG14 -2 ANG14 -4 ANG14 -6 ANG14 -8 ANG14 -10 nn=rin 1./ 2400 2400 2400 2400 2400 2400 1n1111 1390 1390 1390 1390 1390 1390 10n11 100 200 400 600 800 1000 1 Inn 13.9 6.9 3.4 2.3 1.7 1.3 1 1 42 42 42 42 42 42 na 42 42 42 42 42 42 an 42 42 42 42 42 42 Al 300 300 300 350 400 450 aan ? <. ANG24 -1 4160 2400 100 24 42 42 42 300 ANh14 -L ANG24 -4 ANG24 -6 ANG24 -8 ANG24 -10 ANG24 -12 41b0 4160 4160 4160 4160 4160 L4UU 2400 2400 2400 2400 2400 LUU 400 600 800 1000 1200 11 6 4 3 2.4 2 4L 42 42 42 42 46 41 42 42 42 42 60 4Z 42 42 42 42 76 JUU 350 400 500 550 700 Ip 5 ANG42 -1 ANG42 -2 ANG42 -4 ANG42 -6 ANG42 -8 ANG42 -10 ANG42 -12 7200 7200 7200 7200 7200 7200 7200 4160 4160 4160 4160 4160 4160 4160 100 200 400 600 800 1000 1200 41.6 20.8 10.4 6.9 5.2 4.1 3.4 46 46 46 46 46 46 46 60 60 60 60 60 60 60 42 42 76 76 76 76 96 600 650 700 750 800 900 1200,?• .3 • r ; ' ANG80 -1 ANG80 -2 ANG80 -4 ANG80 -6 ANG80 -8 ANG80 -10 ANG80 12 13800 13800 13800 13800 13800 13800 13800 8000 8000 8000 8000 8000 8000 8000 100 200 400 600 800 1000 1200 80 40 20 13.3 10 8 6.6 46 46 46 46 46 46 46 60 60 60 60 60 60 60 76 76 76 76 76 76 96 650 800 900 1000 1100 1200 1400 "` VA T& Time fetal s, 610 C Tem eiacuce Rise x �� ANG3 -15E ANG3 -25E 480 480 277 277 15 25 18.4 11 30 30 20 20 31 31 50 75 " ANG14 -15E ANG14 -25E ANG14 -50E 2400 2400 2400 1390 1390 1390 15 25 50 92.6 55.6 27.8 42 42 42 42 42 42 42 42 42 300Y, 350 400 %A ..' ' `•"�" ANG24 -15E ANG24 -25E ANG24 -50E 4160 4160 4160 2400 2400 2400 15 25 50 160 96 48 42 46 46 42 60 60 42 76 76 350 800 900 ANG42 -15E ANG42 -25E ANG42-50E 7200 7200 7200 4160 4160 4160 15 25 50 277 166 83.2 42 46 46 60 60 60 76 76 96 800 900",`.^ 1200 et t 'ontmuou IiimetR (438 amigs 5 C Temperature use ) ` ' s �� i5� �F. ANG3 -5C 480 ANG3 -1OC 480 • ANG3 -15C 480 277 277 277 5 10 15 55.4 27.7 18.4 30 30 30 20 20 20 15 15 31 50 75 100 F" f- • . S..tt : ; •;r, " h < 4' -e �� 1"' 'y . A. Yl 7 .� �ha k � [ .f��'r- � � ��y a a.4. 1. . .�- .. 6�.; j OT -r� .•°r i4a .. ` 5� r.•ys'�'�W'r�. 0 hers olt g % rren an+ time ratan ?T ,id' "1.t r 7' 1" .y _ �. g F�.'b°_ -I.* 1 `' aA7� , o-n r 1. , JE ".r'r{ �y F� yI +r i�ti =1i1 .•� 1�l�'q,�!' �., +r'... � „� �''` -�:e� s,avada a Please c ns It'factory �j. r yar r; S 4 4-. u"�`.fTyvf~J ,- ` " {{'/'! �. ' ' ," y � }�.,, ,r -f_ C t_rw:.. }.s i?�•�T�,.... ar' pis :.x,.�" TYPICAL OUTLINE DRAWING 46.00 111681 40.00110161 LIFTING EYE (TYP 4 PLACES) NEUTRAL CONNECTION DIRECT TO C.T. Hi TERMINAL (12.13 BOLT) 46.0011160] GROUND CONNECTION DIRECT TO BUSHING (1/2.13 STUD) 46.0011166] 4600 I1 BM 40.00 (1016) - CURRENT TRANSFORMER LIFTING EYES VIEW 'B-B" 42.00 [10671 REMOVABLE PANEL (FRONT 6 REAR) 5.0011271 OPEN AREA AVAILABLE FOR CABLE ENTRY & EXIT 362. 1.00114.251 4 MOUNTING SLOTS FOR 177, 011.012 ANCHOR BOLTS( 42.00110671 GOD A (1/2 -13 1 HOW) 40.00110161 42.00110671 1 --1.00 12 1 All dimensions are in inches [millimeters]. Specifications subject to change without notice. For total"su� nght�neutral ,,resistorg. lication, contact= your sales engrneer'at (216)) 57 portin4selectmgrthe groundingreslstoror uW 3�; �yo y vtronl ;orR resistors @a '1 VTRON WWW.AVTRONRESISTORS.COM 6255 Halle Drive, Cleveland, OH, U.S.A. 44125 Phone: (216) 573 -7600 • FAX: (216) 573 -5953 E -Mail: resistors @avtron.com HelidyneT`" is a trademark of Avtron LoadBank, Inc. Epoxycastrm is a trademark of AFP Transformers. PAGE 2 OF 3 Q2C Number: 29309363 Quote Number: 1 Project Name: ACOUSTICAL CONTROLS / CORELINK DATA Revision Number: 0 Quote Name: ACOUSTICAL CONTROLS /CORELINK DATA Item No. Qty. Catalog Number / Details 001 -00 1 METAL ENCLOSED SWITCHGEAR METAL ENCLOSED SWITCHGEAR > 1000 VOLTS GENERAL PRODUCT INFORMATION PRODUCT TYPE: HVL 1 SECTION LINE -UP OUTDOOR (Type3R) 1 - 38.00 MAIN SECTION OVERALL DIMENSIONS: 38.00" 965mm WIDE 97.65" 2480mm HIGH 60.00" 1524mm DEEP APPROXIMATE WEIGHT: 1157 LBS 526 KG SWITCHGEAR RATINGS SWITCHGEAR MAXIMUM VOLTAGE RATING: 5.0 KV MAIN BUS: 600A TIN - PLATED ALUMINUM GROUND BUS: SILVER - PLATED COPPER BIL : 60 KV INTEGRATED SHORT CIRCUIT CURRENT RATINGS FOR SWITCHES WITH FUSES: THE INTEGRATED SHORT CIRCUIT CURRENT RATINGS FOR SWITCHES WITH FUSES CAN BE FOUND IN THE INTEGRATED RATINGS TABLES. REFER TO THE CATALOG SECTIONS FOR EACH PRODUCT LINE. NON -FUSED SWITCH RATINGS MOMENTARY CURRENT: 40 KA ASYM (25 KA SYM) FAULT CLOSE CURRENT: 40KA ASYM (25KA SYM) SHORT TIME CURRENT 2 SEC: 25 KA SYM (40 KA ASYM) SPECIFIC APPLICATION INFORMATION NOMINAL SYSTEM VOLTAGE: 4160 VOLTS SYSTEM GROUNDING: 3 WIRE WYE LOW RESISTANCE GROUNDED FREQUENCY: 60 HZ MAX AVAILABLE SHORT CKT CURRENT: 25KA SYM (40 KA ASYM) FRONT AND REAR ACCESS AMBIENT AIR TEMP: > -30C, <40 DEG C STANDARD & OPTIONAL ITEMS COMMON TO LINEUP EXTERIOR PAINT COLOR: ANSI 61 LIGHT GREY INSULATORS : GLASS POLYESTER AC CONTROL POWER PROVIDED BY: USER / CUSTOMER STANDARD ENCLOSURE HARDWARE APPLIES TO CATEGORY B APPLICATIONS WHERE THE GENERAL PUBLIC WILL NOT HAVE ACCESS TO THE SWITCHGEAR SPACE HEATER OUTDOOR: 1200W- 240VAC (300W- 120VAC) QUOTATION PRINTED 12/06/2010 9:25:00 AM PAGE 3 OF 3 Q2C Number: 29309363 Quote Number: 1 Project Name: ACOUSTICAL CONTROLS /CORELINK DATA Revision Number: 0 Quote Name: ACOUSTICAL CONTROLS /CORELINK DATA Item No. Qty. Catalog Number / Details PADLOCK PROVISIONS FOR UP TO 3 PADLOCKS ON SWITCH HANDLE CASTING LABEL REQUIREMENTS : UL STANDARDS: ANSI TIN - PLATED SWITCHES FOR CORROSIVE ENVIRONMENTS PROVISIONS ONLY FOR CABLE LUGS ARE PROVIDED PROVISIONS FOR LUGS ARE SUITABLE FOR COPPER OR ALUMINUM CABLES (UL LISTED) IF UNKNOWN ANSWERS ARE LISTED BELOW IN THIS BILL OF MATERIAL : DEFAULT ASSUMPTIONS WERE MADE. THESE ASSUMPTIONS MAY ALTER THE FINAL PRICE, FINAL LAYOUT AND DIMENSIONS. THIS HVL METAL - ENCLOSED SWITCHGEAR SHALL BE DEPICTED IN THE ATTACHED DRAWINGS AND SHALL INCLUDE THE FOLLOWING: SECTION # 1, MAIN - 1 - 5.0KV, 600A, 25KA HVL SWITCH Type3R SINGLE 600A CONTINUOUS & INTERRUPTING CURRENT 3 - SQUARE D CURRENT LIMITING 5.5 KV 450E FUSES 1 - KEY INTERLOCK FOR SWITCH AND FUSE DOOR 1 - KEY INTERLOCK SWITCH TO SECONDARY MAIN BREAKER 1 - PROVISION FOR 1 - 2/0 AWG COPPER OR ALUMINUM (UL LISTED) LUGS PER PHASE ON LINESIDE 1 - PROVISION FOR 1 - 2/0 AWG COPPER OR ALUMINUM (UL LISTED) PER PHASE ON LOADSIDE - LINESIDE, TOP CABLE ENTRY - LOADSIDE, BOTTOM CABLE EXIT QUOTATION PRINTED 12/06/2010 9:25:00 AM DESCRPTiON 9765 (2480) MAIN DANGER HIGH VOLTAGE PF I SECT 01 38.00 (96S] 38.00 FRONT ELEVATION. DATE !;nic�1� -- i - -S --S -- K - i - - -- MN SECTION UL/C —UL LABEL LUG PROVISIONS ONLY SUITABLE FOR ONE 2/0 AWG CABLE(S) /PH TOP INCOMING 0 LUG PROVISIONS ONLY SUITABLE FOR ONE 2/0 AWG CABLES) /PH BOTTOM OUTGOING PR?MS10N FOR MOUNTING ONE HOLE GROUND LUG ONE IJNE DIAGRAM tA1D SECT t 20 ORMOND atm T Mort cotenumoN • 0%Ni F2EL1011163-1 ENGLISH DIMENSIONS: INCHES w•rwrr� 1PG1' GF•t JREV — 1 GENERAL NOTES: IMODUCLDESGESEDGNAILAIIIIIM 4160 VOLTS. 3 PHASE, 3 WIRE WYE LOW RESISTANCE GROUNDED 5.0 kV MAXIMUM VOLTAGE RATING 60 kV BIL, 60 HERTZ FREQUENCY AC CONTROL POWER USER /CUSTOMER SUPPUED BinininKAIM 600A ALUMINUM, TIN PLATED MAIN BUS GLASS POLYESTER BUS SUPPORTS SILVER PLATED COPPER GROUND BUS 40 kA Asym (25 kA Sym) MAIN BUS BRACING FLMR elmme 111T< . TYPE 3R OUTDOOR NON - WALKIN CONSTRUCTION CATEGORY '8' ENCLOSURE ANSI #81 FINISH FRONT TYPE 3R REMOVED FOR CLARITY FRONT AND REAR ACCESS IS AVAILABLE PADLOCK PROVISIONS TOP CABLE ENTRY: ENTRY THRU TOP TO BE PUNCHED DURING INSTALLATION IN GENERAL AREA SHOWN ON TOP VIEW. IF APPLICABLE. RECOMMENDED POWER CABLE ENTRY AREA, 6' X 34" (152 X 864) AS SHOWN ON TOP VIEW. BOTTOM CABLE ENTRY: BOTTOMS ARE OPEN. RECOMMENDED POWER CABLE ENTRY AREA. 6' X 34" (152 X 864) AS SHOWN ON FLOOR PLAN. MUM SWITCHGEAR SECTIONS ARE FURNISHED WITH UFTING ANGLES AND ARE SHIPPED ON SKIDS. ROLLERS OR FORKUFT SHALL ONLY BE USED WITH SKID IN PLACE. • APPROXIMATE WEIGHT: 1157 LBS 526 KG SHIPPING SPLIT 1 WEIGHT: 1157 LBS 526 KG garaffeinargit THIS EQUIPMENT BEARS THE UL USING MARK FOR THE UNITED STATES. #14 AWG, TYPE SIS CONTROL WIRING, UNLESS OTHERWISE SPECIFIED #12 ANC. TYPE SIS HEATER CONTROL WIRING WIRES SHALL BE LABELED WITH DESTINATION MARKING (ORIGIN- DESTINATION). LOW VOLTAGE WIRE TERMINATIONS (WHERE REQUIRED) SHALL BE UNINSULATED RING TYPE WGS (STYLE 25009- XXIO0Q. TERMINAL BLOCKS ARE SQUARE D COMPRESSION SOLDERLESS BOX LUG (TYPE 90BOGR8), FUSE BLACK (90BOGF6). anglaaMESSOM UnAUSLACCIMM STRIP HEATERS n AC MIf CtOMM711OP I MUl. TIN PLATED SWITCHES Sett eC &2 MTn11Iyn 71:41:1112,1r 3� suLK:air �L _r..� !■ u::�ria i t��1�71� O4TE: P C 201 BMW= sTATa 011.107E I FOR COMMONS" 0WC I 339363 -3 w IPO I OF I I REV - REV 1 - - -_ 0 SCfiPT10N EN l CA1E - CONTROL CONDUIT AREA, 9 x [702D] POWER CABLE CONDUIT AREA 2.00 [51] 4.00 64 00 (102] [1626] 60 00 (1524) 12.00 51 (MF OVERHANG FRONT & REAR) CONTROL ITT pCONDU AREA. 2.0 [51] x [102] CONDUIT AREA 2.00 4.00 I— [51 ] [10211 TOP EW 60.00 [1 2[ 3 50 [1359] 3.25 83) (4) .88/22 MTG HOLES FLOOR PLAN ENGLISH DIMENSIONS: INCHES OMFG GATE '. .6.20 GRASSING STATUS '_11:1�.r.3.l�lllrn� J��ll..�jll.�yl1�ytl n: FOR Club!! root F29304363-2 1PG1 Of !REV -- #i iri#i iv UFA C i iii'riii axe ;NC. 2601 Commerce B/vd,, Denison, TX 75020 903- 4624002 ACS TERMS OF WARRANTY ACCEPTANCE OF DOCUMENT. This document is the acknowledgment of a contract between ACS Manufacturing, Inc. ( "Seller") and the party to whom this form is directed ( "buyer") providing for the sale of the goods (the "goods ") specified on the Purchase Order. If this document is construed to be an acceptance, however, acceptance is expressly made conditional on the Buyer's agreement to all of the terms and conditions contained herein. DELIVERY. Title to and risk of loss of all Goods sold hereunder by Seller shall pass to Buyer upon their delivery F.O.B. Seller's factory to an agent of Buyer, including a common carrier. Buyer upon discovering loss or damage shall demand an inspection report immediately, regardless of its opinion as to the cause and shall arrange promptly to file claim against the carrier. INSPECTION. Buyer must inspect all goods and notify the Seller within ten (10) days of receipt if there are any obvious defects or shortages. If Seller is not so notified, the Buyer will not be entitled to any recourse for those defects and shortages. WARRANTY. Seller warrants that, at the time of shipment, the Goods furnished hereunder will be free from defects in material and workmanship for a period of one year from the date of shipment. Buyer agrees to notify Seller in writing within 30 days of the discovery of any defect which would give use to a claim under the Warranty. Seller agrees to repair or replacement of the defective Good(s) or Part(s) thereof which are demonstrated to Seller's reasonable satisfaction to be defective. At Seller's option, repair or replacement may be made at Buyer's facility, job site or at Seller's facility and, if so, the Good(s) must be returned to Seller at Buyer's expense and pursuant to Seller's authorization and shipping instructions. EXCLUSIONS AND LIMITATIONS. The foregoing Warranty is Seller's sole and exclusive Warranty. It is in lieu of all other remedies, including without limitation remedies in tort or strict liability. It shall not apply to damage or defects caused by ordinary wear and tear. There are no implied warranties (including and Warranty or merchantability or fitness for purpose). The remedies under this Warranty are exclusive and Seller neither assumes nor authorizes anyone to assume for it any other obligation. Seller shall not be liable for any penalty or for any special, liquidated, direct, or consequential damages, such as but not limited to lost profits or www.acsmanufacturing.com revenues, loss of other goods, downtime costs, costs associated with the removal of goods from service or with reinstallation, disassembly or reassembly. Seller shall in no event be responsible or liable for modification or repairs made to its products or goods by Buyer or others, or for damage caused thereto by negligence, accident or improper use or installation by Buyer or others. DELAYS, DAMAGE OR LOSS. Seller is not and shall not be liable for delays in shipment of deliver of goods, detention thereof, loss or damage thereto, when due to Acts of God, acts of the Buyer, acts of civil or military quarantine restrictions, defaults or delay by supplies, breakdown in manufacturing facilities, machinery or equipment, delays in transportation or difficulties in obtaining necessary materials, labor or manufacturing facilities due to such caused or any other cause beyond its reasonable control. SALES AND TAX. Unless otherwise indicated, prices are F.O.B. Seller's factory and do not include Federal, state or municipal sales, use, exercise or similar taxes. If any such tax is stated on the invoice, Buyer will promptly remit same to Seller. All other sales or use taxes upon goods shall be paid by the Buyer to the appropriate taxing authority. PAYMENT. Unless otherwise indicated, payment terms are net 30 days from date of invoice. MODIFICATIONS AND APPLICABLE LAW. No modifications or waiver of any of these terms and conditions shall be binding on Seller unless made in writing and signed by an authorized representative of Seller. This contract shall be interpreted in accordance with, and the construction there of shall be governed by, the laws of the State of Texas. www.acsmanufacturing.com 07 -02 -2012 City of Tukwila Jim Haggerton, Mayor Department of Community Development Jack Pace, Director PAT BURKE 900 N 34 ST, SUITE 108 SEATTLE WA 98103 RE: Permit No. M11 -030 CORELINK DATA CENTER - GENERATOR 3311 S 120 PL TUKW Dear Permit Holder: In reviewing our current records, the above noted permit has not received a final inspection by the City of Tukwila Building Division. Per the International Building Code, International Mechanical Code, Uniform Plumbing Code and/or the National Electric Code, every permit issued by the Building Division under the provisions of these codes shall expire by limitation and become null and void if the building or work authorized by such permit has not begun within 180 days from the issuance date of such permit, or if the building or work authorized by such permit is suspended or abandoned at any time after the work has begun for a period of 180 days. Your permit will expire on 08/06/2012. Based on the above, you are hereby advised to: 1) Call the City of Tukwila Inspection Request Line at 206 -431 -2451 to schedule for the next or final inspection. Each inspection creates a new 180 day period, provided the inspection shows progress. -or- 2) Submit a written request for permit extension to the Permit Center at least seven (7) days before it is due to expire. Address your extension request to the Building Official and state your reason(s) for the need to extend your permit. The Building Code does allow the Building Official to approve one extension of up to 180 days. If it is determined that your extension request is granted, you will be notified by mail. In the event you do not call for an inspection and/or receive an extension prior to 08/06/2012, your permit will become null and void and any further work on the project will require a new permit and associated fees. Thank you for your cooperation in this matter. Sincerely, Bill Rambo Permit Technician File: Permit File No. M11 -030 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone 206 -431 -3670 • Fax 206 -431 -3665 City of Tukwila Jim Haggerton, Mayor Department of Community Development Jack Pace, Director PAT BURKE 900 N 34 ST, SUITE 108 SEATTLE WA 98103 RE: Permit No. M11 -030 CORELINK DATA CENTER - GENERATOR 3311 S 120 PL TUKW Dear Permit Holder: In reviewing our current records, the above noted permit has not received a final inspection by the City of Tukwila Building Division. Per the International Building Code, International Mechanical Code, Uniform Plumbing Code and/or the National Electric Code, every permit issued by the Building Division under the provisions of these codes shall expire by limitation and become null and void if the building or work authorized by such permit has not begun within 180 days from the issuance date of such permit, or if the building or work authorized by such permit is suspended or abandoned at any time after the work has begun for a period of 180 days. Your permit will expire on 02/21/2012. Based on the above, you are hereby advised to: 1) Call the City of Tukwila Inspection Request Line at 206 - 431 -2451 to schedule for the next or final inspection. Each inspection creates a new 180 day period, provided the inspection shows progress. -or- 2) Submit a written request for permit extension to the Permit Center at least seven (7) days before it is due to expire. Address your extension request to the Building Official and state your reason(s) for the need to extend your permit. The Building Code does allow the Building Official to approve one extension of up to 180 days. If it is determined that your extension request is granted, you will be notified by mail. In the event you do not call for an inspection and/or receive an extension prior to 02/21/2012, your permit will become null and void and any further work on the project will require a new permit and associated fees. Thank you for your cooperation in this matter. Sincerely, c --prit Bill Rambo Permit Technician File: Permit File No. MI 1 -030 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone: 206 - 431 -3670 • Fax: 206 - 431 -3665 Stephen Tapp Architect/P.E. 2330 East Madison Street Seattle, Washington 98112 (206) 320-0534 archeng2330@gmail.com cell: (206)- 459 -5151 Date: September 14, 2011 Architect: Burgess Design, Inc. Project: Corelink Generator Platforms Integrated East — Building 2 3311 South 120th place Tukwila, Washington 98168 Special Inspection of Steel Erection As the Engineer of Record I designate Cascade Testing Laboratories, Inc., 12919 NE 126th Place, Kirkland, Washington 98034 (425- 823 -9800) to . perform the field inspections for the structural steel. INCOMPLETE LTR# ao REVISION NO M L1-03 1 RECEIVED SEP162011 PERMIT CENTER • City of Tukwila Jim Haggerton, Mayor Department of Community Development Jack Pace, Director September 7, 2011 Randy Morgan Burgess Design 1326 Fifth Av NE, Suite 500 Seattle, WA 98101 RE: Incomplete Letter #1 to Revision #1 Mechanical Permit Application M11 -030 Corelink — 3311 S 120 PI Dear Mr. Morgan, This letter is to inform you that your permit application received at the City of Tukwila Permit Center on September 7, 2011 is determined to be incomplete. Before your application can continue the plan review process the attached/following items from the following department(s) need(s) to be addressed: Building Department: Allen Johannessen at 206 433 -7163 if you have any questions concerning the attached comment. Please address the comment above in an itemized format with applicable revised plans, specifications, and /or other documentation. The City requires that two (2) sets of revised plans, specifications and /or other documentation be resubmitted with the appropriate revision block. In order to better expedite your resubmittal a `Revision Submittal Sheet' must accompany every resubmittal. I have enclosed one for your convenience. Revisions must be made in person and will not be accepted through the mail or by a messenger service. If you have any questions, please contact me at the Permit Center at (206) 431 -3670. Sincerely, Bill Rambo Permit Technician Enclosures File: MI 1 -030 W:\Permit Center \Incomplete Letters\2011\M11 -030 Inc Ltr #1 to Rev # 1.doc 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 o Phone: 206 - 431 -3670 • Fax: 206 - 431 -3665 Tukwila Building Division Allen Johannessen, Plan Examiner Determination of Completeness Memo Date: September 8, 2011 Project Name: Corelink Permit #: M11 -030 Plan Review: Allen Johannessen, Plans Examiner The Building Division has deemed the subject permit application incomplete. To assist the applicant in expediting the Department plan review process, please forward the following comments. (GENERAL NOTE) PLAN SUBMITTALS: (Min. size 11x17 to maximum size of 24x36; all sheets shall be the same size). (If applicable) Structural Drawings and structural calculations sheets shall be original signed wet stamped, not copied.) 1. Engineer shall specify special inspection requirements for the steel work. Special inspections shall be shown on the plan. Should there be questions concerning the above requirements, contact the Building Division at 206 -431- 3670. No further comments at this time. March 9, 2011 • City of Tukwila • Jim Haggerton, Mayor Department of Community Development Jack Pace, Director Pat Burke Titan Electric 900 N 34 St, Suite 108 Seattle, WA 98103 RE: Correction Letter #1 Mechanical Permit Application Number MI1 -030 Corelink Data Center - Generator — 3417 S 120 PI Dear Mr. Burke, This letter is to inform you of corrections that must be addressed before your mechanical permit can be approved. All correction requests from each department must be addressed at the same time and reflected on your drawings. I have enclosed comments from the Fire Department. The Building Department has no corrections at this time. Fire Department: Al Metzler at 206 575 -4407 if you have questions regarding the attached memo. Please address the attached comments in an itemized format with applicable revised plans, specifications, and /or other documentation. The City requires that two (2) sets of revised plans, specifications and /or other documentation be resubmitted with the appropriate revision block. In order to better expedite your resubmittal, a `Revision Submittal Sheet' must accompany every resubmittal. I have enclosed one for your convenience. Corrections /revisions must be made in person and will not be accepted through the mail or by a messenger service. If you have any questions, please contact me at (206) 431 -3670. Sincerely, , a Bill Rambo Permit Technician encl File: M11 -030 W:\Permit Center \Correction Letters \2011\M11-030 Correction Letter #1.DOC 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone: 206 - 431 -3670 • Fax: 206 - 431 -3665 • Tukwila Fire Prevention 13ureau Al Metzler, Fire Project Coo rdinaltor Fire Prevention Bureau Review Memo Date: March 7, 2011 Project Name: Corelink Data Center - Generator Address: 3417 S 120 PI Permit #: M11 -030 Plan Reviewer: Al Metzler, Fire Project Coordinator The Fire Prevention Bureau conducted a plan review on the subject permit application. Please address the following comments in an itemized format with revised plans, specifications and /or other applicable documentation. 1. The total quantities of flammable /combustible liquids stored aboveground per site is limited per Tukwila Municipal Code. 2. Please provide the aggregate total of all aboveground flammable /combustible liquids stored at this address. Should there be questions concerning the above requirements, contact the Fire Prevention Bureau at 206- 575 -4407. No further comments at this time. r • PLAN REVIEW /ROUTING SLIP ACTIVITY NUMBER: M11 -030 PROJECT NAME: CORELINK SITE ADDRESS: 3311 S 120 PL Original Plan Submittal Response to Correction Letter # DATE: 09 -16 -11 X Response to Incomplete Letter # 1 X Revision # 'I After Permit Issued DEPARTM NTS• �I BtSifi9ing ivision Public Works Fire Prevention Structural Planning Division Permit Coordinator n tit DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete Incomplete DUE DATE: 09-20 -11 Not Applicable Comments: Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: TUES/THURS ROUTING: Please Route rfj Structural Review Required n No further Review Required n REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: Approved Notation: n Approved with Conditions DUE DATE: 1 0-18 -11 Not Approved (attach comments) n REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: Documents/routing slip.doc 2 -28 -02 • PLAN REVIEW /ROUTING SLIP ACTIVITY NUMBER: M11 -030 PROJECT NAME: CORELINK SITE ADDRESS: 3311 S 120 PL Original Plan Submittal Response to Correction Letter # DATE: 09 -07 -11 Response to Incomplete Letter # X Revision # 'I After Permit Issued EPAR MENTS: IA 9 uilding ivision Public Works 1\ AVV\ .41Fire Prevention Planning Division Structural ❑ Permit Coordinator DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete ❑ Incomplete DUE DATE: 09-08 -11 Not Applicable Comments: Permit Center Use Only Q, INCOMPLETE LETTER MAILED: 9+ 4 I LETTER OF COMPLETENESS MAILED:_ Departments determined incomplete: Bldg ]q Fire ❑ Ping ❑ PW ❑ Staff Initials: V VV( TUES/THURS ROUTING: Please Route n Structural Review Required REVIEWER'S INITIALS: No further Review Required DATE: APPROVALS OR CORRECTIONS: Approved n Approved with Conditions Notation: REVIEWER'S INITIALS: DUE DATE: 10-06-11 Not Approved (attach comments) DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: Documents/routing slip.doc 2 -28 -02 *PENT PLAN REVIEW /ROUTING SLIP ACTIVITY NUMBER: M11 -030 DATE: 03 -15 -11 PROJECT NAME: CORELINK DATA CENTER - GENERATOR SITE ADDRESS: 3417 S 120 PL Original Plan Submittal Response to Incomplete Letter # X Response to Correction Letter # 1 Revision # After Permit Issued DEPARTMENTS: Building Division Public Works e Prevention 1. Planning Division Structural ❑ Permit Coordinator ii DETERMINATION OF COMPLETENESS: (Tues., Thurs.) DUE DATE: 03-17 -11 Complete Incomplete ❑ Not Applicable ❑ Comments: Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: TUES/THURS ROUTING: Please Route Structural Review Required REVIEWER'S INITIALS: ❑ No further Review Required DATE: APPROVALS OR CORRECTIONS: DUE DATE: 04 -14 -11 Approved ❑ Approved with Conditions Not Approved (attach comments) ❑ Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: Documents /routing slip.doc 2 -28 -02 PERMIT PLAN REVI • INCA SLIP ACTIVITY NUMBER: M11 -030 DATE: 02 -28 -11 PROJECT NAME: CORELINK DATA CENTER - GENERATOR SITE ADDRESS: 3417 S 120 PL X Original Plan Submittal Response to Correction Letter # Revision # After Permit Issued Response to Incomplete Letter # DEPARTMENTS: ding i'[7 vision Public Works lire Prevention wt (6611a-1-lc Structural S( Awe- Planning Division -v1 ❑ Permit Coordinator DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete Incomplete DUE DATE: 03 -01 -11 Not Applicable Comments: Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: TUES /THURS ROUTING: Please Route cyl Structural Review Required ❑ No further Review Required REVIEWER'S INITIALS: DATE: n APPROVALS OR CORRECTIONS: Approved n Approved with Conditions Notation: DUE DATE: 03-29-11 Not Approved (attach comments) REVIEWER'S INITIALS: DATE: Permit Center Use Only Q CORRECTION LETTER MAILED: 7- -s*ll C, _/� Departments issued corrections: Bldg ❑ Fire, Ping ❑ PW ❑ Staff Initials: �/C Documents/routing slip.doc 2 -28 -02 I PROJECT NAME: C.OrEih,v- SITE ADDRESS: 336 S Id0 P( • PERMIT NO: O 3O ORIGINAL ISSUE DATE: Lk--'-{- tk REVISION LOG REVISION NO. DATE RECEIVED STAFF INIT ALS ISSUED DATE STAFF INITIALS I K---)- I 1.0-1-4--1 I UU2 Summary of Revision: acres 4-, v.....1 `O s i A -p , T PAe✓oi, i- as rec,t,o TL ; �-e 1-e ,p4. Received by:laN A 3- LAcc,f I O I'iaoy REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: (please print) City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Fax: 206 - 431 -3665 Web site: http: / /www.ci.tukwila.wa.us Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: L Plan Check/Permit Number: M 1 1 -03 0 • Response to Incomplete Letter # 1 ❑ Response to Correction Letter # ® Revision # 1 after Permit is Issued ❑ Revision requested by a City Building Inspector or Plans Examiner Project Name: Corelink Project Address: 3311 S 120 P1 Contact Person: 7ZAAD31 /ndt 4 Phone Number: 2.06 3 42-0//7 Summary of Revision: ADO No 7 PL) p 8Di P ViP /4)6 SPA /g 5p «✓ fioR. Sttgt 6j &iiaJ- ,aao V4 amajt- PR,Orw 5y11)071/j b EP6I R , emf OP TUKWILA SEP.16 2011 Sheet Number(s): #' • • 1 0ER11,41T CCNTEP "Cloud" or highlight all areas of revision including date of revisio C Received at the City of Tukwila Permit Center by: (k -Entered in Permits Plus on ` I tn` \applications \forms- applications on line\revision submittal Created: 8 -13 -2004 Revised: I City of Tukwila REVISION SUBMITTAL Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 -431 -3670 Web site: httn: / /www.ci.tukwila.wa.us Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: 09/07/2011 Plan Check/Permit Number: M11-030 ❑ Response to Incomplete Letter # ❑ Response to Correction Letter # ® Revision # 1 after Permit is Issued O Revision requested by a City Building Inspector or Plans Examiner Project Name: Corelink Project Address: 3311 South 120th Avenue, Bldg 2 Contact Person: Randy Morgan Phone Number: (206) 342 -0117 Summary of Revision: Revision to add access platform to side of generator as requested by the Fire Inspector. RECEIVED SEP 0 7 2011 P RM17 calvre$. Sheet Number(s): A.2A.1, Sheet 1 Shop Drawings, & Structural Calcs. "Cloud" or highlight all areas of revision including i i - of rev j' on Received at the City of Tukwila Permit Center by: • Entered in Permits Plus on 1��— i, ( H: Applications \Fornu•Applicat ions On Line \21110 Applications0-2010 - Revision SubmetnLdoc Creased: 0 -13 -2(0)4 Revised: 7 -2010 • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Fax: 206 - 431 -3665 Web site: http: / /www.ci.rukwila.wa.us REVISION SUBMI TTAL Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: .3 -4- " Plan Check/Permit Number: M11-030 ❑ Response to Incomplete Letter # • Response to Correction Letter # 1. ❑ Revision # after Permit is Issued ❑ Revision requested by a City Building Inspector or Plans Examiner Project Name: Corelink Data Center - Generator Project Address: 3417 S 2k 'C120P1 Contact Person: .k Zutke Phone Number: ° Summary of Revision: CD exisrt r15 ceh ' l �s4,s 4 0.7. q4 l/ 74/9 //c . TI ,t/ew MTt1 66rleAetioL // S A 35No ��.1/ �/ '�tv+ti•'��Q Sheet Number(s): N /A" QERUArl astingt "Cloud" or highlight all areas of revision including date of re Received at the City of Tukwila Permit Center by: Entered in Permits Plus on' ( t \applications forms -app !cations on Ime\revision submittal Created: 8 -13 -2004 Revised: Contractors or Tradespeople Prer Friendly Page • Page 1 of 2 Electrical Contractor A business licensed by L &I to contract electrical work within the scope of its specialty. Electrical Contractors must maintain a surety bond or assignment of savings account. They also must have a designated Electrical Administrator or Master Electrician who is a member of the firm or a full -time supervisory employee. Business and Licensing Information Name Phone Address Suite /Apt. City State Zip County Business Type Parent Company TITAN ELECTRIC INC 2066332811 900 N 34Th Ste 108 Seattle WA 98103 King Corporation UBI No. Status License No. License Type Effective Date Expiration Date Suspend Date Specialty 1 Specialty 2 602250925 Active TITANEI9630B Electrical Contractor 9/2/2004 9/2/2012 General Unused Other Associated Licenses License Name Type Specialty 1 Specialty 2 Effective Date Expiration Date Status TITANE*986Q5 TITAN ELECTRIC Electrical Contractor General Unused 11/25/2002 11/25/2004 Expired Electrical Administrator INFORMATION License CROOKT "011 PB Name CROOK, TRAVIS Status Active Business Owner Information Name Role Effective Date Expiration Date FUNG, LAWRENCE H Agent 09/02/2004 Bond Amount BURKE, PATRICK D President 09/02/2004 LPM4066933 FUNG, LAWRENCE H Secretary 09/02/2004 CROOK, TRAVIS J Vice President 09/02/2004 Bond Information Bond Bond Company Name Bond Account Number Effective Date Expiration Date Cancel Date Impaired Date Bond Amount Received Date 1 COLONIAL AM CAS & SURETY OF MD LPM4066933 08/03/2004 Until Cancelled $4,000.00 08/10/2004 Assignment of Savings Information No records found for the previous 6 year period https://fortress.wa.gov/lni/bbip/Print.aspx 04/04/2011 C `®I vii ACCESS LADDER NEW MECHANICAL PLATFORM(S) –REFER TO STRUCTURAL CALCULATIONS SPECIAL INSPECTION: ALL STEEL ERECTION WILL BE FIELD INSPECTED BY A SPECIAL INSPECTOR. CASCADE TESTING LABORATORIES, INC. 12919 I1E 126TH PL. KIRKLAND, WA 98034 (425) 823 -9800 IS DESIGNATED BY THE STRUCTURAL ENGINEER AS THE SPECIAL INSPECTOR. CONSTRUCTION PLAN 0 P e' 12' r L Ad% Al 1/4" = 1'— ff TUBE STEEL — HANDRAIL & GUARDRAIL L r a M SEPARATE PERMIT REQUIRED FOR: 0 Mechanical Electrical Plumbing Gas Piping City of Tukwila BUILDING DIVISION I OUTLINE OF NEW /EXISTING GENERATOR BEYOND NEW MECHANICAL PLATFORM LADDER –REFER TO STRUCTURAL CALCULATIONS CJ 11 L7 NEW MECHANICAL PLATFORM SUPPORT POST –REFER TO STRUCTURAL CALCULATIONS PLATFORM ELEVATION —TYP. 0 4' 8' 12' 1/4" = 1'— 0" —OUTLINE OF NEW FUEL TANK BEYOND REVISIONS No changes shall be made to the scope of work without prior approval of Tukwila Building Division. NOTE: Revisions will require a new plan submittal and may include additional plan review fees. REVIEWED FOR CODE COMPLIANCE. APPROVED SEP 2 6 2011 City of u €Ia BUILDING ISION FILE COPY Permit No. 'T O Phn raw approval Is subject to wore and omalone. Approval of constution documents does not authothe th€ violation of any adopted code or ordinance. Receipt of apixoved Field Copy and ° lay isadmowledged: Debt c9C5 cWorrs BUILDING DIVISION REVISION N0,1 Ml1%-o30 INCOMPLETE LTR# RECEIVED SEP 16 2011 PERMIT CENTER Tenant: CORELINK INTERGATE EAST - BUILDING 2 3311 S. 120TH PLACE TUKWILA, WA 98168 burgess design I interiors 0 architecture 1326 Fifth Avenue Suite 500. Seattle . WA 86101 TEL 206.587.71 20 FAX:206. 587.7122 All reproduction & intellectual property rights reserved c 2010 FURNITURE SHOWN FOR DESIGN INTENT ONLY. ALL FURNITURE DESIGNED BY TENANT'S FURNITURE VENDOR. Professional seal ar ► ARCHITECT i RANDALL A1M MORGAN STATE OF WASHINGTON No. Issue Description Date PERMIT REVISION / I \ PERMIT REVISION 2 09.07.11 09.16.11 Drawn by: MK Reviewed by: RM Project No: 1 1.SB 13.01 MECH. PLATFORM PLAN & ELEVATION Original drawing is 24" x 36 ". Scale entities accordingly if reduced A.2A.1 22-to !' = a..._.. _..._ .................._._... *. 114 fit taL14 3 (t) x 23'-Q 4 Icy` -0 ONE. ONE mit i2`-O`4 12 -8 t:1. i 2S -4 4 vs'-o'41-1 IA rIc I `! I>e �' V 5- 24 a ,,. , .. ,...,,.� ,.,._,,-„,.•,._ REVIEWED FOR CODE COMPLIANCE APPROVED SEP 2 6 2011 BUILDING Tukwila City of T DIVISION z J (61 w 2 W r'k IC -- 3STP(Pa I"k I D r'lc I F - Vkftt - "k 15 1-1.c, IT MKR/:J MdW oto oko Ata cAo k P --r C ' Jt AG dji oLo b k 1-1. . ?_f GA. •51.-0P a, 013 U !to 2. Z. 4'4 Owe—, -, D D I X 4 PA V -o QN n ly Ico 8,ri� L' -v r-,r 4, r -tom ...... t! _... vfQ- 4 1-2-Ck1 1 i gc1 9 16) 6C• srt MfLCJC F 1 Nosy., 11\.)''izre►•Azy - 6,E,I ;, G-T12,6YP J, our IxG Av)b. 01444\ Li 1 � .t . r,,A�c -re, rt. ' LATp0rzi 4fi OLO GC ` Aror P &TT::.o r W-0 O MK PC BILL OF MATERIAL MAT% FT IN REMARKS WT QTY 0 01 -kia t cr 1 C.- Co 10.5 2 i 2 "� k 2, 1� 2. 11 i 0(4, 3A P-INZO 14 4 L\r- 0 11 t C. .. Pt Pa 4 V ''-'l C.l G ' IF 1" . 2. t I iir MIII MI. .. C.. ii IA WIP e 1 111111.1111111111111M11 Ir _ 1'3 .t3)1 2. c 4:71—pc. ) \ littcp V? 4 F.0 c- 7 A. a (49 ,w1 CL c I riw. tr, Fre> ° * S 0 ! C 2 i.�• - F0 Fe' ice.'W It x' 3 `t S , [ p 3 'J• t FII1 ,r i- v w rl 't , 4. 0 4..:: er.,,,q, ._ _...... _...._. ...,......,..“ ..,. . . all ............ A3 MAT'L SPEC (.0 WELD PROCED D WE, .--. ...Wi.t.•.r...,,..,............ TI_. • MAT'L CERTS DOMESTIC MAT'! WELD CERTS HOLES 1 CP 4) PAINT Fi It. L :O Z4 :. t ..- _1, I 34 WA-1 4 3S.\). W pi .. B. , .. 1-2,40-85, x t,, /,..r REVlSIONNO1J_ M ii...03 0 /\ REV #f BY DATE REVISION DESCRtPT�pN REVISIONS 1,.....,....A wiam 5 ti Du .,,_ ...ANI'TLS WA (2a;)-74,,,3-- .. 4',,,, „: Mal CLIENT G Ew>.12./A7rarc. �"�...AT'F'orzrI5 c�!` RECEIVED SEP 07 PERMIT JOI3# PERMIT ,,,. .: 2011 • ",1 .: DATE . TO R DRAWN, ,.. 1r. � oe R DATE am' . C al vL I CHECK ® DATE .. LI\99fIles\ 99149\ 99149015- EY \EastMargInal- S1- EY- FndPlan -64- 99149015 dwg, 02- 01 -11, 10107ari, bharatp, 64 O_ I N a 0 N 0 7' —O" • r EXISTING HVAC UNITS EXISTING HVAC UNITS (E) TIMBER PILES BELOW jrj EXISTING GENERAT & FUEL TANK l ///// A///////�/// / /I.i/ / //////II //// //////////// AWAK /// MA IAA ZWAI P/////////////////////// ///// ///// / / / / / / / / // /////////// NEW FU ED DISCONNECT (MAX. 1 60 #) R 11, -0" EQ. B -1 A- EQ. • A -1 NEW GENERATOR #2 & FUEL TANK MAX. 79,000# TOT. WEIGHT x 0 DIMENSION EXIST. 15" CONC. SLAB TIMBER PILES BELOW CHAIN LINK FENCE 0 6' —O" 8' -0" 6' —O" 8' -0" 18' -0" 8' -0" 2- (N) NEUTRAL GROUNDING RESISTORS (MAX. 300# EA.) --EXISTING 8" C.M.U. SCREEN WALL 58' -8" VERIFY OPENING OPENING OPENING 112' -8" 60' -0" 60' -0" AREA OF WORK / S " W EQUIPMENT YARD FOUNDATION PLAN 1.) FIELD VERIFY ALL DIMENSIONS. 3/16 " =1' -0" PLANNING APPROVED • No changes .can be made to these plans without approval from the Planning Division of DCD Approved By:, S M "C`I 49 fr Date: , 3• 's• � 1 KEY PLAN SE, %'?SITE PERMIT REQUIRED FOR: ❑ Mechanical Wltectrical arPlumbing tas Piping City of Tukwila BUILDING DIVISION 0 0 J U 5" MIN. TYP. z CO 10" C.I.P. STEM WALL TYP. s ELEV. VARIES (E) 15" SLAB REVISIONS No changes shall be made to the scope of work without prior approval of Tukwila Building Division. War:: Revisions will require a new plan submittal and may include additional plan review fees. INSPECTION FOR VERIFICATION OF DRILLED HOLES AND HOLE PREPARATION FOR EPDXY SHALL BE REQUIRED PRIOR TO INSTALLATION OF EPDXY AND RE -BAR (OR BOLTS IF APPLICABLE). INSPECTION SHALL BE INCLUDED WITH THE FOUNDATION INSPECTION. NEW GENERATOR (MAX. 47,000 #) NOTE; USE HILTI HR RE -500SD ADHESIVE 0 ALL EPDXY BOLTS Sc DOWELS co PROVIDE GEO -FOAM FORM, TYP. 0 NEW GENERATOR SUPPORT DETAILS SECTION A -1 " = 1' -0" MIN. i "O EPDXY ANCH. ® 12 "oc N & S (END) WALLS & 24"oc 0 E & W (LONG) WALLS (EMBED 6 ") #5 CONT. OUTSIDE ANCHORS, TYP. #5 [ EPDXY DOWELS 0 12 "oc O N & S (END) WALLS & 1' -6 "oc 0 E & W (LONG) WALLS REVIEWED FOR CODE COMPLIANCE pDDRQVED MAR 2 8 2011 City of Tukwila BUILDING DIVISION VARIES 9 0 x 7" MIN. TYP. Fifa COPY ItNo.. � t plan review approval is to and orr lan& &pproval of construction , + . ruts does not authorize the violation of any a .. , or o�diNnoe. Receipt %i�' " of Field e f, , oat�iorwlsaclainowledgei. Bye dbg/L city Ot Ia BUILDING DIVISION NEW EQUIPMENT PER PLAN NEW EQUIPMENT SLAB w/ LEVEL SURFACE (E) SLAB #5 0 16 "oc EA. WAY SECTION B -1 " = 1._o- GENERAL NOTE THE FOLLOWING NOTES APPLY UNLESS NOTED OTHERWISE - ASTM'S NOTED ARE TO BE LATEST EDITION N 9. 0 2 0 #4 EPDXY DOWELS 0 24 "oc MAX. SPCG. PERIM. 0 36 "oc MAX. SPCG. EA. DIR. 0 INTERIOR USE HILTI HIT RE -500SD ADHESIVE Building Name & Site Location -Sabey Intergate East, Tukwila, WA 1. DESIGN CODE AND STANDARDS Applicable Code (Edition /Name) - 2009 International Building Code (IBC) 2. DESIGN LOADS a. Snow Live Load b. Seismic c. Wind Load 25 psf Ss = 1.5 S1 = 0.52 Seismic Design Category = "D ". SDS = 1.00 SD1 = 0.52 Basic wind speed (3 sec. gust) = 85 (mph) Exposure B CAST -IN -PLACE CONCRETE F'c = 3000 PSI. CONCRETE MAY BE PROPORTIONED ON THE BASIS OF FIELD EXPERIENCE AND /OR TRIAL MIXTURES AS DESCRIBED IN CODE. MIXING AND PLACING OF ALL CONCRETE AND SELECTION OF MATERIALS SHALL BE IN ACCORDANCE WITH ACI CODE 318. PROPORTION AGGREGATE TO CEMENT TO PRODUCE A DENSE WORKABLE MIX WITH 4" MAXIMUM SLUMP WHICH CAN BE PLACED WITHOUT SEGREGATION OR EXCESS FREE SURFACE WATER. SEE SPECIFICATIONS FOR ADMIXTURES. PROVIDE 5% + 1 -1/2% TOTAL AIR CONTENT FOR CONCRETE EXPOSED TO FREEZING AND THAWING EXPOSURES. SEE SPECIFICATIONS FOR CURING. 3/4" CHAMFER ALL EXPOSED CONCRETE EDGES UNLESS INDICATED OTHERWISE ON ARCHITECTURAL DRAWINGS. REINFORCING STEEL USE DEFORMED CONCRETE REINFORCING STEEL CONFORMING WITH ASTM A 615, GRADE 60 (fy= 60,000 PSI). LAP CONTINUOUS REINFORCING BARS PER TABLE IN TYPICAL DETAIL SHEET, UNLESS NOTED OTHERWISE. PROVIDE CORNER BARS (2' -0" MIN. BEND) FOR ALL HORIZONTAL REINFORCEMENT. DETAIL STEEL IN ACCORDANCE WITH "AC1 MANUAL OF STANDARD PRACTICE OF DETAILING REINFORCED CONCRETE STRUCTURES ". REINFORCING HOOKS TO COMPLY WITH STANDARD ACI HOOKS EXCEPT STIRRUPS AND TIES SHALL HAVE 135 DEGREE ACI SEISMIC HOOKS. Mtt-O3O DATE ENGINEER: D. KAEMINGK DRAWN: BR DATE: 12 -07 -10 01 -31 -11 I DRAWING REVISIONS DRAWING SUBMITTALS SUBMIT FOR PERMIT SUBMIT FOR BID z 0 U D Z U o: O C m m m z I � DATE ENGINEER: D. KAEMINGK DRAWN: BR DATE: 12 -07 -10 SHEET NO: S1 -EY DRAWING REVISIONS z I 0 N o rn 3 ai0) co co cn co c N W " d 8..: co u o� N rn '- • EQUIPMENT YARD FOUNDATION PLAN I— U) w Lw a ♦R� w cc J I— Z �L I— w co co RECEIVED FEB 28 2011 PERMIT CENTER JOB NO: 99149015 ENGINEER: D. KAEMINGK DRAWN: BR DATE: 12 -07 -10 SHEET NO: S1 -EY