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PP - 401 ANDOVER PARK EAST - FATIGUE TECHNOLOGY - PERMITS AND PLANS
401 ANDOVER PARK EAST ASSOCIATED PERMITS 12-F-73 13-S-191 12-F-217 12-F-073 11-F-228 11-F-209 19-S-206 D14-0197 13-S-250 11-S-110 D07-102 D06-315 D06-292 06-F-222 06-S-231 D06-240 19-S-206 SITE LOCATION CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East Tukwila, WA 98188 206-575-4407 Date application accepted: FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** King Co. Assessor's Tax No.: 0223400050 Site Address: 401 Andover Park East Suite Number: Floor: 2 Tenant Name: Fatigue Technologies New Tenant? ❑ - Yes - No Property Owner's Name: Fatigue Technologies Mailing Address: 401 Andover Park East Tukwila WA 98188 City State Zip CONTACT PERSON -if there are questions about the submittal. Name: Clint Carr Day Telephone: 253-284-3411 Company Name: Patriot Fire Protection, Inc. Mailing Address: 2707 70th Ave E Tacoma WA 98424 clintc@patriotfire.com City State Zip E-mail Address: Fax Number: 253-922-6150 Valuation of Project (contractor's bid price): $ 750.00 Scope of Work (please provide detailed information): Add 6 heads to new conference room. PERMIT APPLICATION NOTES Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER OR AUTHORIZED AGENT: Signa Date: 5-16-2011 Print Name: Clint CarrDay Telephone: 253-284-3411 Plan Permit App.doc 5/14/10 TFD FP Form 8 44iitt"44 SITE LOCATION CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East Tukwila, WA 98188 206-575-4407 Date application accepted: FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** King Co. Assessor's Tax No.: Site Address: 401 Andover Park E Suite Number: Floor: Tenant Name: Fatigue New Tenant? ❑ - Yes M - No Property Owner's Name: Fatigue Mailing Address: 401 Andover Park E, Tukwila, 98188 City State Zip CONTACT PERSON -if there are questions about the submittal. Name: Christopher Markham Day Telephone: 206-510-0750 Company Name: Pacific Fire & Security Inc. Mailing Address: 828 Poplar P1 S Seattle, WA 98144 Christopherm@pacificfiresecurity.com City State Zip E-mail Address: Fax Number: Valuation of Project (contractor's bid price): $ 2,000.00 Scope of Work (please provide detailed information): Add monitoring module, heat detector, and relay to machinery fire suppression system. PERMIT APPLICATION NOTES Value of Construction - In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER OR AUTHORIZED AGENT: Signature: Print Name: Christopher Markham Date: 4/10/12 Day Telephone: 206-510-0750 Plan Permit App.doc 5/14/10 TFD FP Form 8 444*"44 SITE LOCATION CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East Tukwila, WA 98188 206-575-4407 Date application accepted: FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** King Co. Assessor's Tax No.: Site Address: 401 Andover Park E Suite Number: Floor: Tenant Name: Fat igue New Tenant? ❑ - Yes ® - No Property Owner's Name: Fatigue Mailing Address: 401 Andover Park E, Tukwila, 98188 City State Zip CONTACT PERSON -if there are questions about the submittal. Name: Christopher Markham Day Telephone: 206-510-0750 Company Name: Pacific Fire & Security Inc. Mailing Address: 828 Poplar P1 S Seattle, WA 98144 Christopherm@pacificfiresecurity.com City State Zip E-mail Address: Fax Number. Valuation of Project (contractor's bid price): $ 2,000.00 Scope of Work (please provide detailed information): Add monitoring module, heat detector, and relay to machinery fire suppression system. PERMIT APPLICATION NOTES Value of Construction - In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER OR AUTHORIZED AGENT: Signature: Print Name: Christopher Markham Plan Permit App.doc Date: 4/10/12 Day Telephone: 206-510-0750 5/14/10 TFD FP Form 8 44iteltwz4f SITE LOCATION CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East Tukwila, WA 98188 206-575-4407 Date application accepted: FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** Site Address: 110 1 Jin 6-A k Tenant Name: C1 C LP Q King Co. Assessor's Tax No.: Suite Number: Floor: New Tenant? 111- Yes N- No Property Owner's Name: Mailing Address: CONTACT PERSON -if there are questions about the submittal. [ Name: C I r+ 6io�44✓' /4a►n k 4a,4t Day Telephone: 2-7d4 737 3.J Company Name: i C` C c r' i y'- O- c w4rj "Ly Mailing Address: g. 2 t"o ricLA e/. s City E-mail Address: Fax Number: City State Zip SIA- 18) (ft/ State Zip Valuation of Project (contractor's bid price): $ % 2 0 0 Scope of Work (please provide detailed information): 11.N.5 -a. ` ©Y L (- 1 14-1 PERMIT APPLICATION NOTES Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER OR AUTHORIZED AGENT: Signature:��2 Print Name: CA/15, Plan Permit App.doc Day Telephone: Date: //// 6t( 7sg-3$�$ 5/14/10 TFD FP Form 8 Ottli'w44 1/-2600 CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East Tukwila, WA 98188 206-575-4407 Date application accepted: FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** SITE LOCATION 401 Andover Parkway Site Address: Suite Number: Floor: Fatigue Technology Tenant Name: New Tenant? 0 - Yes ® - No Property Owner's Name: Craig Alsid King Co. Assessor's Tax No.: 401 Andover Parkway Tukwila WA 98188 Mailing Address: City State Zip CONTACT PERSON -if there are questions about the submittal. Name: Robert Vogt Fire Chief Equipment Company Name: 206-930-5003 Day Telephone: 7661 159th P1 NE Redmond WA 98052 Mailing Address: bobv@fire-chief.com 425-562-6662 E-mail Address: Fax Number: City State Zip Valuation of Project (contractor's bid price): $ 9107.00 Install Fire Trace system on Index 40 Machine. Scope of Work (please provide detailed information): Provide Ansul POS for machine interlock. Provide pressure switch for connections to bldg FA system. PERMIT APPLICATION NOTES Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER OR AUTHORIZED AGENT: Signature: Date: Robert Vogt 425-522-1226 Print Name: Day Telephone: Plan Permit App.doc 5/14/10 TFD FP Form 8 SITE LOCATION CITY OF TUKWILA FIRE MARSHAL'S OFFICE 206-575-4407 PAID r^7 _ 2019 UI,,INILA FIRE to Pe- to FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** King Co. Assessor's Tax No.: 0223'0- CSU Site Address: 416/ P nL ciye4 hit &f9.ST Suite Number: Floor: Tenant Name: Fad, 'gO>✓ Tech 4.a1 G7 (/ Property Owner's Name: Mailing Address: City State Zip New Tenant? ❑ - Yes LA_ No CONTACT there are questions about the submittal. fl Name: ` e I Y Q JS1 Day Telephone: Company Name: '91-Cht Wr'►+fritai; .) �n . Mailing Address: 7253- S 2004%S6 ,e672 /,^��� City State Zip E-mail Address: ki eir itPrec- lsd✓UGh`ri , ccm" Fax Number: Contractor's City of Tukwila Business License number: 1)S — O ct 72.3 Total number of new/relocated devices or sprinkler heads: 5 Valuation of Project (contractor's bid price): $ Scope of Work (please provide detailed information):Qdd RP u-LeNea/S6D/ivL4L //eeta6r �v Qe.!. '1/r2A o -A- !'u -u/ ��; Q G/Jl- -z4 PERMIT APPLICATION NOTES Value of Construction - In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWN R OR A ORIZED AGENT: Signature: l i nature: .��✓� Date: /°/17/610/�/ Print Name: g?/5 V//dM Day Telephone k0 57/ - /e%V2 Plan Pennit App.doc 8/22/14 TFD FP Fonn 8 SITE LOCATION CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East Tukwila, WA 98188 206-575-4407 Date application accepted: FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** King Co. Assessor's Tax No.: 0223400050 Site Address: 401 Andover Park East Suite Number: Floor: Tenant Name: Fatigue Technology Property Owner's Name: Fatigue Technology New Tenant? ❑ - Yes ® - No Mailing Address: 401 Andover Pare East, Tukwila WA 98188 City State Zip CONTACT PERSON -if there are questions about the submittal. Name: Janet Stebbins Day Telephone: 206-291-1468 Company Name: SimplexGrinnell Mailing Address: 9520 10th Ave S, Suite 100, Seattle, WA 98108 City State Zip E-mail Address: jastebbins@simplexgrinnell.com Fax Number: 206-291-1500 Total number of new/relocated devices or sprinkler heads: 2 Valuation of Project (contractor's bid price): $ 5662.00 Scope of Work (please provide detailed information): Add (2) pendent sprinklers in new sorting equipment. PERMIT APPLICATION NOTES Value of Construction - In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER OR AUTHORIZED AGENT: Print Name: Janet Stebbins Plan Permit App.doc Date: 10/17/2013 Day Telephone: 206-291-1468 1/2/13 TFD FP Form 8 44iite,"44 SITE LOCATION CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East Tukwila, WA 98188 206-575-4407 Date application accepted: FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** (Permit # 12-F-73 King Co. Assessor's Tax No.: Site Address: 401 Andover Park E Suite Number: Floor: Tenant Name: Fatigue New Tenant? ❑ - Yes [29- No Property Owner's Name: Fatigue Mailing Address: 401 Andover Park E, Tukwila, 98188 City State Zip CONTACT PERSON -if there are questions about the submittal. Name: Christopher Markham Day Telephone: 206-510-0750 Company Name: Pacific Fire & Security Inc. Mailing Address: 828 Poplar P1 S Seattle, WA 98144 Christopherm@pacificfiresecurity.com City State Zip E-mail Address: Fax Number: Valuation of Project (contractor's bid price): $ 2,000.00 Scope of Work (please provide detailed information): Add monitoring module, heat detector, and relay to machinery fire suppression system. PERMIT APPLICATION NOTES Value of Construction - In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER OR AUTHORIZED AGENT: Signature: Print Name: Christopher Markham Date: 4/10/12 Day Telephone: 206-510-0750 Plan Pcrmit App.doc 5/14/10 TFD FP Form 8 1 FIRE DEPARTMENT SPRINKLER PLAN REVIEW COMMENTS Project Name: Fatigue Technology 401 Andover Park East Permit No.: 19-S-206 Date: November 5, 2019 Reviewer: Al Metzler Fire Protection Project Coordinator (206) 575-4407 option # 2 (Inspection Requests) (206) 971-8718 (Plan Review Questions) • Lateral sway bracing is required at a maximum spacing of 40' for all mains, cross mains, and branch lines 2.5" and larger. Bracing is provided for the last length of pipe but within 6' of the end of a feed or cross main. Bracing is required unless all the pipe is supported by rods less than 6" or by 30 ° wrap-around U -hooks for any size pipe, 9.3.5.3. • Minimum clearance around pipes: 2 " for 1"-3.5", 4" for 4" and larger, see 4 exceptions, 9.3.4. • Longitudinal sway bracing is a maximum of 80' for mains and cross mains and within 40 ` off the end of the line, 9.3.5.4. • Provide lateral and longitudinal bracing for changes in pipe direction per section 9.3.5.11.2 for pipe size 2'/2 inches and larger. • Restrain branch lines at the end sprinkler of each line, restrain against vertical and lateral movement, 9.3.6.3. • Restraints for branch lines shall be at intervals per table 9.3.6.4 and section 9.3.6.4, and restrain sprig ups greater than 4', 9.3.6.6. • Comply with ASCE 7-05, section 13.5.6.2.2. • Provide sprinkler protection beneath all obstructions greater than 4 ft. in width. • Extend sprinkler protection to all combustible concealed spaces. • Weld stamps shall be inspected on the ground, before pipe is hung. • Comply with NFPA 13 obstruction tables. • All valves controlling the water supply for automatic sprinkler systems and waterflow switches on all sprinkler systems shall be electrically supervised. • All interior control valves shall be readily accessible, labeled and located not more than 6 ft. above the floor. • Comply with obstructed/non-obstructed construction rules for sprinkler head placement. • Sprinkler heads spaced closer than 6 ft. apart must be baffled. • Modifications involving 20 or more heads require hydrostatic test and system isolation if necessary. • For dry pipe and double interlock preaction systems, in addition to the standard hydrostatic test, an air pressure leakage test at 40 psi shall be conducted for 24 hours. Any leakage that results in a loss of pressure in excess of 1.5 psi for the 24 hours shall be corrected. • These conditions apply to all sprinkler piping exposed as necessary to accomplish the permitted scope of work. All code references are NFPA 13, 2019 Edition. 444 Andover Park East, T�ikwila; W :$1138 - ?hene 206=575-440?' - Fak 206x=575-4439 E -snail: tulifdpry(ci.tiikwila.wa us CONTRACTOI S MATWit A; .TEST CE1UI ICAfiE FY12� ALAkM AN wigDETION.SY.S1tMS Fire alarm System is ready for Fire Department acceptance testing. Falai. bftestMill iesult in termination of the testing and additional fees will he`assessed. Contir u to7r is irei onsible for supplying manpower for Final Acceptance Test.witli *way tomtiiunticatioris. Date /7 e2CAh tr o?o i 7-- Perimt # /f2/77 Property Address 4/0/ /0,/.,,„ - _ p suite # City _TUKWILA Name of Facility �,� ., 7724 n fa?) `. Occupied as• Owner or Representative 6'1A )/Std Phone # Installing Company Ar -s, -.c. . `- 7 /— Installing Contractor's Address �. (o ��7 City /6 4t h C! / 6J Phone # (J2 5)6 4/7 DI/2 7— Installer's Name (PRINT) St {-4 `Sc..s:D /74 License and/or Certificate General Contractor Electrical Contractor FACP Equipment Manufacturer/rc 7";-^ c -e Model # This system has been install pre -tested and operates in accordance with the standards listed below and was inspected by cc. ,6 S� On (date) and includes the devices listed on back. Circle all that apply: NFPA 72, Chapter 12 4 5 6 7 and/or IFC SEC 907 • NFPA 70, National Electrical Code, Article 760 Manufacturer's Instructions Manufacturer's Instructions Other (specify) Tukwila City Ordinance Numbers 2050, 2051 UL Central Station Monitor System is monitored by SIGNED Date Zip Code %: rg8 System Firmware: Installed version Checksum Date Initial program Installation Date Revisions and Reasons Programmed by EQUIPMENT INSTALLED AND TESTED: . Control Panel — of_ Mak lodel : + Manual Station _ of Mike/Modal Smoke Detectors of Makd/Mbdel Heat Detectors — of _ Make/Motidl . Duct Detectors _ of_ Make/Model A/V Devices — of___ Make/Mbdel Audio Devices — of Make/Model Visual Devices _ of Make/Model Auto Door Release _ of . Make/Model Trouble Indictors _ of__ Make/Model Batteries Readings Battery Full Load • Charge Generator of _ Make/Model HVAC Controls _ of _ Make/Model Fire Alarm Dialer of Make/Model Monitored by Annunciator of Make/Model 0 Sprinkler System. (Fire Alarm connections only) Water Flow Sw. _ of Make/Model Valve Tamper Sw. _ of _ Make/Model PIV _ of _ Make/Model Elec. Alarm Bell of _ Make/Model Automatic time Delay of Water Flow Alarm seconds. None Installed Do you meet audible/visible requirements of WAC 51-20, IFC SEC 907., and/or NFPA 72 Chapter 6? Yes No Test of alarm System on emergency power, satisfactory? Yes _ No Test Witnessed by Title Date Comments: eddinsWire Alarm Certificate.doc Revised: 10/28/04 TFD FP Form 11110 OKWILA FIRE PREVENTION BLi.EAU 444 Andover Park East, Tukwila, WA 98188 - Phone 206-575-4407 - Fax 206-575-4439 E-mail: tukfdprv@ci.tukwila.wa.us CONTRACTORS MATERIAL AND TEST CERTIFICATE FIRE ALARM AND FIRE DETECTION SYSTEMS Fire alarm System is ready for Fire Department acceptance testing. Failure of test will result in termination of the testing and additional fees will be assessed. Contractor is responsible for supplying manpower for Final Acceptance Test with two-waycommunications. \ 2communications. ,A� Permit # - F-1-3 Property Address Cd ' /nn oucr - 964-v._ Suite # City TUKWILA Zip Code Name of Facility rw�ot�C Te. -6144u, (o5 i -5 Occupied as �c�1 t,,,e. "Te -c, 50 LS Owner or Representative crev5 4 (. S o Phone # (a - 6 - 7 1,0 Installing Company Pair,. Pi rc qi- S ac4A4- 14y Installing Contractor's'�Address 40.-TQc.. I.c. pt. S City c�� Tt,L Phone # 2.G6 - JL5 - 0 coq q Installer's Name (PRINT) M. ova/ e•- sa:tht' License and/or Certificate S P ) 3-01-4 -1--2.- General 1 -4 -}'2 - General Contractor Date Cj' Z5 /12, Electrical Contractor FACP Equipment Manufacturer -S 1 l tie'''. V -44,L -J- Model # sr", This system has been installed, pre-tested,and operates in accordance with the standards listed below and was inspected by /\irti". On (date) k Osi / Z and includes the devices listed on back. Circle all that apply: ,�/ NFPA 72, Chapter 1 2 4 5 6 7 and/or IFC SEC 907 ✓/ NFPA 70, National Electrical Code, Article 760 Manufacturer's Instructions V Manufacturer's Instructions V / Other (specify) Tukwila City Ordinance Numbers 2050, 2051 UL Central Station Monitor System is monitored by SIGNED Date System Firmware: / Installed version (Q Z Checksum Date S 2.3 /Z000 Initial program Installation 7 !� Date et, (26/1 Revisions and Reasons Programmed by /ito-r'i EQUIPMENT INSTALLED AND TESTED: Control Panel— of _ Make/Model Manual Station of Make/Model Smoke Detectors of _ Make/Model Heat Detectors L of ( Make/Model 4; i' 4- �Gw1514-i— .5i) s a S — 414 4` Duct Detectors of Make/Model 17 A/V Devices of Make/Model Audio Devices of Make/Model Visual Devices of Make/Model Auto Door Release _ of Make/Model Trouble Indictors ( of V Make/Model S + t e 9 4 S DSGO - Batteries Readings Battery Full Load Charge Generator _ of _ Make/Model HVAC Controls of _ Make/Model Fire Alarm Dialer of Make/Model Monitored by Annunciator of Make/Model ❑ Sprinkler System. (Fire Alarm connections only) Water Flow Sw. _ of _ Make/Model Valve Tamper Sw. _ of _ Make/Model PIV _ of_ Make/Model Elec. Alarm Bell of Make/Model Automatic time Delay of Water Flow Alarm seconds. None Installed Do y u 9eet audible/visible requirements of WAC 51-20, IFC SEC 907., and/or NFPA 72 Chapter 6? Yes No Test of alarm System on emergency power, satisfactory? Yes) i o _ Test Witnessed by Title Date Comments: Fire Alarm Certificate.doc Revised: 10/28/04 TFD FP Fonn #110 1 uKWILA FIRE PR4VENTIONliURBAU 444 Andover Park East, Tukwila; WA 98188 - Phone 206=575-4407 - Fax 206-575-4439 E-mail: tukfdprv@ci.tukwila.wa.us CONTRACTORS MATERIAL AND TEST CERTIFICATE FIRE ALARM AND FIRE DETECTION SYSTEMS Fire alarm System is ready for Fire Department acceptance testing. Failure of test..will result in termination of the testing and additional fees will be assessed. Contractor is rcsponsible for supplying manpower for Final Acceptance Test with two-way communications. Date 06 0(l Permit # tF-- 22 ' Property Address Lie 1 ,ltd,,, q Parer Suite # City TUKWILArr Zip Code 61' L ' Name of Facility 's �t').)(A.e. `fie cit vu,t d5) -S Occupied as "Pa 413 Te_akei.dlcxi�lde S Owner or Representative Phone # Installing Company Po -Ga trk- fl te. c ea t) °,/ Installing Contractor's Address vi0 Pc, P l�„d- P (. S. City gee, t k rPhone # ' O ''o`r?O Nlar 1I.4 Installer's Name (PRINT) License and/or Certificate General Contractor SPS avq-cri-2 Electrical Contractor FAC S k 414 F FACP Equipment Manufacturer S) Model # 9c 26:2)(i-- This 6 This system has been installed, pre -tested and operates in accordance with the standards listed below and was inspected by On (dare) iuiu vu uaun. Circle ally2Lttopfp NFPA 72 Cha ' ter 12 4 5 6 7 and/or IFC SEC 907 NFPA 70, National Electrical Code, Article 760 Manufacturer's Instructions anufacturer's Instructions Other (specify) Tukwila City Ordinance Numbers 2050, 2051 UL Central Station Monitor SIGNED System is monitored by 44.o•rrv► Ccetd-e(` Date (Ul (O([ System Firmware: Installed version Checksum Date Initial p ogram Installationoit t Irl -0-34 / Revisions and Reasons M Cv l n - o oUJ Date l U (I ,,,(a Programmed by /1A9f II A � d EQUIPMENT INSTALLED AND TESTED: Control Panel Manual Station Smoke Detectors Heat Detectors Duct Detectors A/V Devices Audio Devices Visual Devices Auto Door Release Trouble Indictors Batteries of of of of 1 of of of of of of Readings Battery Generator HVAC Controls Fire Alarm Dialer Monitored by Annunciator Make/Model . Make/Model Make/Model Make/Model 5') Make/Model . Make/Model Make/Model Make/Model Make/Model Make/Model Full Load SD oS-.4- s" of _ Make/Model of Make/Model of Make/Model Charge of Make/Model 0 Sprinkler System. (Fire Alarm connections only) Water Flow Sw. Valve Tamper Sw. P1V Elec. Alarm Bell of of of of Make/Model Make/Model Make/Model Make/Model Automatic time Delay of Water Flow Alarm seconds. None Installed Do you meet audible/visible requirements of WAC 51-20, IFC SEC 907., and/or NFPA 72 Chapter 6? Yes X No Test of alarm System on emergency power, satisfactory? Yes 2r_ No Test Witnessed by Title Date Comments: eddins\Fire Alarm Certificate.doc Revised: 10/28/04 TFD FP Form #110 ,,KWIL& FIRE PREVENTION $I Jx.EAU 7 444 Andover Park East, Tukwila, WA 98188 - Phone 206-575-4407 - Fax 206-575-4439 E-mail: tukfdpry@ci.tukwila.wa.us CONTRACTORS MATERIAL AND TEST CERTIFICATE FIRE ALARM AND FIRE DETECTION SYSTEMS Fire alarm System is ready for Fire Department acceptance testing. Failure of test will result in termination of the testing and additional fees will be assessed. Contractor is responsible for supplying manpower for Final Acceptance Test with two-way communications. Date /.Z Ocfv/jc r as / / Permit # //- F ,> . . Property Address 'ID / /jnc/ r �, ,/%.��" Suite # City _TUKWILA Zip Code 9 8/& 8 Name of Facility / ,�i} - Occupied as c_ %c ,C„ v/v,%/ Owner or Representative 6-' ,c9 44,'/ Phone # Installing Company ,c7,-- < a, c A �,,,,v, .I Installing Contractor's Address /'o ,6,,e cs City L4 M � 9/2o52 Installer's Name (PRINT) License and/or Certificate General Contractor Electrical Contractor c p2 Phone # 5-- G47/- -Z/ Z 7 FACP Equipment Manufacturer ,S, A t- Model # This system has been installed, pre -tested and operates in accordance with the standards listed below and was inspected by CW, c On (date) r,2n��,, /; Zo / and includes the devices listed on back. Circle all that apply: J NFPA 72, Chapter 12 4 5 6 7 and/or IFC SEC 907 JNFPA 70, National Electrical Code, Article 760 Manufacturer's Instructions 1 Manufacturer's Instructions Other (specify) Tukwila City Ordinance Numbers 2050, 2051 UL Central Station Monitor SIGNED,4 ' System is monitored by A r h1 6 r 4 System Firmware: Installed version Initial program Installation Checksum Date �� G)e-iD6X' oZv // Revisions and Reasons Date Date Programmed by EQUIPMENT INSTALLED AND TESTED. Control Panel .L of _L Manual Station of Smoke Detectors of Heat Detectors of Duct Detectors of • Make/Model Sr feh .. .1/45-82 o XI-- Make/Model LMake/Model Make/Model Make/Model Make/Model A/V Devices — of . Make/Model Audio Devices of Make/Model Visual Devices _ of _ Make/Model Auto Door Release of _ Make/Model Trouble Indictors of Make/Model Batteries Readings Battery Full Load • Charge Generator of Make/Model HVAC Controls — of _ Make/Model Fire Alarm Dialer of Make/Model Monitored by Annunciator of Make/Model 0 Sprinkler System. (Fire Alarm connections only) Water Flow Sw. _ of _ Make/Model Valve Tamper Sw. _ of _ Make/Model P1V _ of _ Make/Model Elec. Alarm Bell of Make/Model Automatic time Delay of Water Flow Alarm seconds. None Installed Do you meet audible/visible requirements of WAC 51-20, IFC SEC 907., and/or NFPA 72 Chapter 6? Yes J No Test of alarm System on emergency power satis ctory? Yes _ No _ Test Witnessed byS' /-A Title Date .20 —590A. // Comments: eddins\Fire Alarm Certificate.doc Revised: 10/28/04 TFD FP Fonn #110 INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit /1-s- -7,4)k PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 206-575-4407 Project: Sprinklers: Fire Alarm: r_ „ Type of Inspectizav Address: / Suite #: ld ( _I r�✓I �s✓('� �ict Contact Person: / CA iG� special l Instructions: Phone No.: Co X/ --07Z Approved per applicable codes. Corrections required prior to approval. COMMENTS: Cle)\\ZA Do\r0537 Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits:_ Occupancy Type: Inspector: \IA Sy� Date: 17 ' ‘ Ct Hrs.: •/ w $100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Billing Address Attn: Company Name: Address: City: State: Zip: Word/Inspection Record Form.Doc 3/14/14 T.F.D. Form F.P. 113 f INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project: -----0--4-1 —�'"" lo Type of Inspection: Address: Suite #: L(0 PCS v I Contact Person: Special Instructions: Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: --pct-(c. L s_LK c4_,,‘_ Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: F.44 s3 Date: eh, A ,f Hrs.: 1. $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 INSPECTION NUMBER INSPECTION RECORD Retain a copy with prnit 454-v) PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project:--��-- -e i;.,4 All � fq-i'i /e / Type of Inspection: S ri(14Alec ' ' CI 1 Address:' Suite #: L(d/ 041 Contct Person: Pre -Fire: Special Instructions: Occupancy Type: Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: S per`i k4 T 44ok J fr ce/'y,, 4- /?- (-2C0 Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspectprrijly 7 ( Date: ,//eh. -3 Hlrs.: / $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 INSPECTION NUMBER INSPECTION RECORD Retain a copy with p PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project: �� Type of Inspection: Address: ,� Suite #: Lip/ 4PN l.6 Contact Person: Special Instructions: Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: '' 4p r,.) % Aeo,04 ,ie e°, sr,,, ®vr 1-- .,r arynverS o oc<' /2-e du •e 10 i i' AST ,sly 0 IB STl9c 4"f4 nD17 -coni 5 b/1 / fern p use .tor 7 ((.s t; // 3 Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector:(Xf (p-irti Date: ///%/j Q 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 6/11/10 T.F.D. Form F.P. 113 INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project: 544.ce_exType of Inspection: Address: LiV i Ape . Suite #: Contact Person: Special Instructions: Phone No.: YZC- Ga il — Z /Z7 IAApproved per applicable codes. Corrections required prior to approval. COMMENTS: T s.« Aw4-0. coz 6. Pr—E_ 6k.til-%p/. Owl GV••ver....tte-a'2raP .11. 76 - 114yr-wiz., ftre__ _ 5k4. -ti— Ach...A4 0.,,,,-„.4.,,A__ 4 -4,1.-- •& 0 ' - )a, .«r -r A--.-P-4,1.,...4-- C-c--z_ c 'r€ 4-ti.e.,,trA..-. Permits: Occupancy Type: Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: Fiy/,S3 Date: Jo01f2 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 6/11/10 T.F.D. Form F.P. 113 INSPECTION RECORD Retain a copy with permit INSPECTION NUMBER ' 3' 03/ PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 I Project, Type of Inspection: Fire Alarm: Address: Suite #: -o1 pt -p Contact Person: Special Instructions: Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: c -lar �� 1 kez4 cs Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: 64^ Date: 41,917 Hrs.: 1 •-, $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 INSPECTION NUMBER NSPECTION RECORD Retain a copy with permit PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project: Ft-; , Ke_ iGG.✓i�i.0 I05 ,--c.1 Type of Inspection: �� ,442.e.....44. „/ Address: 4/a/ hy,'47 Suite #: Contact Person: Alrlbe1V 574.14A Special Instructions: Phone No.: 2oG - 5,r7— 090 7 Approved per applicable codes. Corrections required prior to approval. COMMENTS: Sprinklers: d ies-sia Sys her 5kua-/elcv A.., ,k . 44/40 `4v44, askkGr4. : Pre -Fire: (p 4ddrass.44.4QCr_ 1htt-L /)�-L-i-.,, _ Occupancy Type: Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: 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 6/11/10 T.F.D. Form F.P. 113 INSPECTION RECORD Retain a copy with permit INSPECTION NUMBER 'vd,' PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project: ra-.,' Ju t . t'c-e-11 ,40/0/ ...1 Type of Inspection: ,Ye_ *1 ,4-rtA4-r l et.a,I Address: dol *P E . Suite #: Contact Person: V 7:‹o J 'I/2, yr) Special Instructions: r Phone No.: yz�— 4-Y1 — 2-12,7 V Approved per applicable codes. Corrections required prior to approval. COMMENTS: Sprinklers: Fire Alarm: Hood & Duct: V 7:‹o J 'I/2, yr) cyL( 0 .57,2rih.Cs 1}-ufYITPl� jos ee_ .s S, c.z10-1 - el osc y 141.¢.l rri._ 1rvvS-.s_ v!G. ,`. 7 _ Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: 5-� Date: jai LG l t I Hrs.: VCit$100.00 REINSPECTION FEE REQUIRED. You will receive an invoice from 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 INSPECTION NUMBER NSPECTION RECORD Retain a copy with pe mit PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project: 1--eci-1- f1 t,62., Type ofInspection: S co U -P2 S io c'(k)ii-c...,_ Address:Contact Suite #: qoi �✓O& Person: Pre -Fire: Special Instructions: Phone No.: roved per applicable codes. Corrections required prior to approval. COMMENTS: Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector:4 4 Date: cy/ ��j/ 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 6/11/10 T.F.D. Form F.P. 113 INSPECTION NUMBER QNSPECTION RECORD Retain a copy with permit FIL AY 2 2007 PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project: 42_----- j ct f --z lJ v� I Yc. t, i 0.s y Type of Inspection: R k ti< FOA., I Address: J Suite #: `I0 I /4-t,dovf„ Pk Contact Person: Paii 'Set (..k.301,-) Special Instructions: Phone No.: 2-o C..p 1 L - o) o RApproved per applicable codes. Corrections required prior to approval. COMMENTS: R& -k F0-1,41 U1 /,&_€ z,. l S v4 5 o ti i J Needs Shift Inspection: A/c- Sprinklers: Fire Alarm: ) Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: 3---) J Date: ,S--,)_ —0 7 Hrs.: ) $80.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Word/Inspection Record Form.Doc 1/13/06 T.F.D. Form F.P. 113 INSPECTION NUMBER rnA NSPECTION RECORD Retain a copy with p JAN 262001 PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project: F4 -n6 a/��,0-^/ate 6 Y Type of InspeOpn: / 6 ni-tom / fliema- Address: yo/ 4-p6- Suite #: Contact Person: LFYLG Monitor: Special Instructions: Phone No.: Zo 4 24.16 - 2®/0 ----717 pproved per applicable codes. I I Corrections required prior to approval. COMMENTS: Y�iN�r-L e 14. �P,GIN� 6»v7 -i '/L Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: 664/5-i2, Date: //Z3 /07 Hrs': / $80.00 REINSPECTION FEE REQUIRED. You will receive an invoice from City of Tukwila Finance Department. Call to schedule a reinspection. Word/Inspection Record Form.Doc 1/13/06 T.F.D. Form F.P. 113 INSPECTION NUMBER INSPECTION RECORD Retain a copy w' pe it JAN 5 2007 PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project:roo �- Type of Inspection: 6>e,4114.emeti fse A.70 i Address: Lioi Suite #: ' A pA., Contact Person: Special Instructions: Occupancy Type: Phone No.: Approved per applicable codes. Corrections required prior to approval. COMMENTS: F r -r- J9)01/4414, I Sot n tit eeteek. Elvia J - AsA 1- o<<► Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: 5s4> ri.r. Date: . Pejo 7 Hrs.: / $80.00 REINSPECTION FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Word/Inspection Record Form.Doc 1/13/06 T.F.D. Form F.P. 113 INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit DEC 222006 poo•3) ' Oa • 2 -4Z - OG• S• 231 PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park EastTukwila, Wa. 98188 206-575-4407 Project: q '�',•cJ+ y rC [ '}� Type of Inspection: 5i -Ors yrs fele«./�wk.. Address: Suite#: yl fP� Contact Person: -72,01Gi 4WQ4,4ts^ Special Instructions: Occupancy Type: Phone No.: Z aaG • 74FL • ?Z7G Approved per applicable codes. Corrections required prior to approval. COMMENTS: D1 Adivn 57 Odra i j f AMIN& guP �c...r%rs• / .lr411,tt.i Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: fAi S,Se- Date: izlj teieG Hrs.: $80.00 REINSPECTION FEE REQUIRED. You will receive an invoice from City of Tukwila Finance Department. CaII to schedule a reinspection. Word/Inspection Record Form.Doc 1/13/06 T.F.D. Form F.P. 113 2 INSPECTION NUMBER CINSPECTION RECORD Retain a copy with per PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206-575-4407 Project: 'borer G u t i1 a c_.l-M o Lo C11 Approved Type of Inspection:' -K- 1 I Iii ►q' V Address: y 0 1 ill G Suite #: Contact Person: -i)PrLL 7dur Special Instructions: Phone o.: C -7 -04d -v -IG, — zo 10 x 2-62...- -6Z Approved per applicable codes. Corrections required prior to approval. COMMENTS: 4 i A -L. O . . Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Inspector: /S 1Z Date: g ells' /p Hrs.: p $80.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be aid at 444 Andover Park East. Call to schedule reinspection. Receipt No.: Date: Word/Inspection Record Form.Doc 12/2/05 T.F.D. Form F.P. 85 FIRETR AUTOMATIC FIRE SUPPRESSION SYSTEMS DESIGN, INSTALLATION, OPERATION AND MAINTENANCE MANUAL FOR PRE-ENGINEERED AUTOMATIC INDIRECT CARBON DIOXIDE EXTINGUISHER UNITS Models: IHP-500, IHP-1000 and IHP-2000 (With Dimensional Restrictions) April 2007 P/N 800024 FM File Firetrace USA LLC. 15690 N. 83rd Way, Suite B Scottsdale, AZ 85260 USA Telephone: 480-607-1218 Fax: 480-315-1316 Website: www.firetrace.com Email: firetrace@firetrace.com FM REV 3 Page 1 4/9/2007 TABLE OF CONTENTS 1.0 FORWARD 4 1.1 General 4 1.2 Safety Precautions 4 2.0 INTRODUCTION 6 2.1 Carbon Dioxide Extinguishing Agent 6 2.1.1 Cleanliness 6 2.1.2 Physical Properties of Carbon Dioxide 6 2.1.3 Fill Density 7 3.0 SYSTEM DESCRIPTION 9 3.1 General 9 3.1.1 Operating Pressure 10 3.1.2 Operating Temperature Range Limitations' 10 3.2 Component Descriptions 10 3.2.1 CO2 Cylinder Valve Assemblies 10 3.2.2 Cylinder Mounting Bracket 12 3.2.3 Firetrace Flexible Detector/Actuation Tubing 12 3.2.4 Discharge Nozzle 12 3.2.5 Pressure Switch 12 3.2.6 Recharge Adapters, CO2 Cylinder 13 3.2.7 Cylinder N2 Recharge Adapter 13 3.2.8 CO2 Warning Nameplate 13 4.0 SYSTEM DESIGN AND LIMITATIONS FOR TOTAL FLOODING 14 4.1 General 14 4.2 Design Procedure 14 4.3 Hazard Endosure Volume Limitations 15 4.4 General Specifications 15 4.4.1 Discharge Time. 15 4.4.2 Storage and Operating Temperature Range: 15 4.4.3 System Operating Pressure: 15 4.5 Minimum Design Concentrations 15 4.6 Openings and Ventilation Shutdown 17 4.7 CO2 Design Concentration Flooding Factors 17 4.8 Maximum Protected Volume 18 4.8.1 Example Calculations 19 4.9 Nozzle and Discharge Tubing Requirements 19 4.9.1 Discharge Nozzle Limitations 19 4.9.2 Discharge Piping & Fitting Specifications 20 4.9.3 Maximum Piping and Fitting Limitations 20 4.10 Firetrace Detector Tubing 20 5.0 INSTALLATION INSTRUCTIONS 22 5.1 CO2 CylinderNalve and Bracket Assemblies 22 5.2 Discharge Piping and Nozzles 22 5.3 Firetrace Detection Tubing 23 5.4 Pressurization of Firetrace Detection Tubing 23 6.0 SERVICE, MAINTENANCE, & FILLING INSTRUCTIONS 25 FM REV 3 Page 2 4/9/2007 6.1 General 25 6.2 Periodic Service and Maintenance 25 6.3 Periodic Service and Maintenance Procedures 25 6.3.1 Weekly/Monthly: Performed by Owner or End User 26 6.3.2 Semi-Annual Inspection 26 6.3.3 Five Year Inspection 26 6.4 Post Fire Maintenance 26 6.4.1 CO2 Cylinder Valve 26 6.5 CO2 Cylinder Retest 27 6.6 Filling Procedures 28 APPENDIX A 29 APPENDIX B 37 FM REV 3 Page 3 4/9/2007 1.0 FORWARD 1.1 General This manual is written for the fire protection professional that designs, installs, and maintains Firetrace Pre-engineered Automatic High Pressure Carbon Dioxide (CO2) Extinguisher Units. Firetrace CO2 automatic high-pressure extinguisher units are to be designed, installed, inspected, tested, maintained, and recharged by qualified trained personnel in accordance with the following: • All instructions, limitations, etc. contained in this manual P/N 800024 • All information contained on the agent cylinder nameplate(s). • NFPA-12, Standard on Carbon Dioxide Extinguishing Systems 2005 Edition. • FM Approval* • Local Authority having jurisdiction. * FM approval for flammable liquid hazards only 1.2 Safety Precautions Safety precautions are essential when any electrical or mechanical equipment is involved. These precautions should be followed when handling, servicing, and recharging Firetrace CO2automatic high-pressure extinguisher unit cylinders and equipment. If safety precautions are overlooked or ignored, personal injury or property damage may occur. The following symbols are used throughout this manual. Always heed these precautions. They are essential to the safe use of the equipment described in this manual. DANGER: This danger symbol identifies immediate hazards and provides specific instructions or procedures, which if not correctly followed WILL result in severe personal injury or death. WARNING: This warning symbol identifies specific instructions or procedures, which, if not correct) followed, COULD result in severe personal in'u of death. CAUTION: This caution symbol identifies specific instructions or procedures, which, if not correctly followed, COULD result in minor personal injury or equipment or property damage. FMREV3 Page 4 4/9/2007 The following safety precautions should always be followed: WARNING Pressurized (charged) cylinders are extremely hazardous and if not handled properly are capable of causing bodily injury, death or property damage. 1. Read and understand this manual and the other documents referenced herein. 2. The valve discharge outlet safety cap and filling port cap MUST be installed on the cylinder valve at all times and only removed when connected into the discharge tubing, or when performing testing, or salvaging operations in accordance with the procedures contained in this manual. 3. Wear safety glasses when working with pressurized cylinders and charging equipment. It is recommended to wear leather gloves to avoid any cryogenic bums if CO2 is accidentally discharged on or near the skin. 4. Make sure that the ball valve (attached to the cylinder valve) is closed (lever is in "OFF" position), the detection tubing has been removed from the cylinder valve; and the safety caps installed, before removing the cylinder from the installation, and before performing any charging, leak tests or salvage operations. 5. Follow all of the safety procedures included on the cylinder nameplate and in this manual. 6. Never assume that a cylinder is empty. Treat all cylinders as if they are fully charged. Any questions concerning the information contained in this manual should be addressed to: Firetrace USA LLC. 15690 N 83rd Way, Suite B Scottsdale, AZ 85260 USA Telephone: 480-607-1218 Fax: 480-315-1316 Email: firetrace@firetrace.com The following web site should be visited for frequent technical announcements www..firetrape.com:-: FM REV 3 Page 5 4/9/2007 2.0 INTRODUCTION The following Firetrace High Pressure CO2 Automatic Fire Extinguisher Units are approved with FM Approvals: IHP 500 IHP 1000 IHP 2000 (With restrictions. See 4.3 Hazard Enclosure Volume Limitations) These units are designed for total flooding using CO2, in accordance with NFPA-12, Standard on Carbon Dioxide Extinguishing Systems. 2005 Edition The Firetrace Pre -Engineered Automatic High Pressure Units have been tested to limits established by FM in compliance with the requirements detailed in this manual. Each installed pre-engineered unit is equipped with its' own detection and its own discharge tubing and nozzles. The pre-engineered concept minimizes the amount of engineering involved in the units design. When the discharge tubing and nozzles are installed within the limitations stated in this manual, no hydraulic calculations are required to determine pressure drop, agent flow or discharge time. The hazard being protected can be any size, shape or volume, provided that the hazard being protected is within the limitations described in this Manual. Each extinguisher unit, when installed, is a self-contained unit, meaning that it is equipped with its own automatic (non -electric) detection system, which when actuated, automatically releases the suppression agent into the hazard area. Local authorities having jurisdiction should be consulted as to the acceptability for particular hazards and requirements covering installation. 2.1 Carbon Dioxide Extinguishing Agent The extinguishing agent used in Firetrace pre-engineered automatic high-pressure extinguisher units is Carbon Dioxide, more commonly_- known as CO2. CO2 is a colorless, odorless, electrically nonconductive inert gas that is an extremely effective fire suppression agent. 2.1.1 Cleanliness CO2 is clean and leaves no residue,_ thereby minimizing any after fire clean up, along wif tg iisfve downtime t&:aiiiiniril4 a711rsC terials such as steel, aluminum, stainless steel, brass, as well as plastics, rubber and electronic components are not affected by exposure to CO2. This agent is also environmentally friendly, having an ozone depletion potential (ODP) of 0.00. 2.1.2 Physical Properties of Carbon Dioxide Chemical Name: Carbon Dioxide Molecular Weight 44.01 FM REV 3 Page 6 4/9/2007 Boiling Point (°F) @ 14.7psia -109.3 Freezing Point (°F) -69.9 Critical Temperature (°F) 87.9 Critical Pressure (psia) 1071 Critical Density (Ibm/ft3) 29.2 Specific Heat, Liquid (BTU/Lb-°F) @ 2°F 0.489 Specific Heat, Vapor (BTU/Lb-°F) @ Constant Pressure (1 ATM) @ 77°F Heat of Vaporization (BTU/Ib) @ Boiling Point Thermal Conductivity (BTU/hr ft oF) of Liquid @ 77°F Viscosity, Liquid (Ib/ft hr) @ 77°F Vapor Pressure (psig) @ 70°F 838 Ozone Depletion Potential 0.00 2.1.3 Fill Density Each Firetrace CO2 storage cylinder has been designed for a maximum fill density as shown in Table 3.1. It is important that these values not be exceeded. Fill density and temperature significantly affect the pressure in the storage cylinder. At elevated temperatures the rate of increase in pressure is very sensitive to fill density (see Figure 2.1). If the maximum fill density is exceeded; the pressure will increase rapidly with temperature increase so as to present a hazard to personnel and property. Adherence to the limits on fill density and pressurization levels will prevent excessively high pressures from occurring if the storage cylinder is exposed to elevated temperature. This will also minimize the possibility of an inadvertent discharge of agent through the cylinder pressure relief device, where provided. It is recommended to not mount the cylinder in direct sunlight as this would create elevated cylinder temperatures. FM REV 3 Page 7 4/9/2007 Pressure VS. Temperature For Carbon Dioxide Cylinders 300 600 900 1200 1500 1800 2100 2400 2706 Pressure (PSIA) Figure 2.1: Pressure vs. Temperature of CO2 Ed 3000 3300 FM REV 3 Page 8 4/9/2007 3.0 SYSTEM DESCRIPTION 3.1 General The Firetrace CO2 Automatic High Pressure units are FM Approved in 3 sizes, namely: IHP-500 Charged with 5.0 Lbs. of CO2 IHP-1000 Charged with 10.0 Lbs. of CO2 IHP-2000 Charged with 20.0 Lbs. of CO2 These units are designed for use in Total Flooding applications where the hazard is not occupiable by a human being. A lock -out valve shall be provided on all systems except where dimensional constraints prevent personnel from entering the protected space. The Firetrace CO2 units can be used, but are not limited, to protect the following: • Electrical and electronic cabinets. • Telecommunication areas. • Data Processing areas and cabinets. • Other high value assets. • Laboratory fume /exhaust cabinets • Pump enclosures • UPS units • Flammable Chemicals storage cabinets • Generator Enclosures • Transformer Cabinets • Computer/Data Storage Cabinets • CNC & VMC Machining centers • Many other applications CO2 is a gaseous fire -extinguishing agent that is effective for use on: • Class A Surface type fires Deep seated fires • Class B — Flammable liquid fires • Class C — Electrical equipment fires CO2 should not be used where the following materials may be present. • P�t cb*.chiemicals,containing_t�h.�e r...qwn oxj g pr�. �+ fs subli as lithium, s uiirvWpn#`hesium, titanium, zirconium, uranium and plutonium. • Metal hydrides. • Chemicals capable of undergoing auto thermal decomposition, such as certain organic peroxides and hydrazine. For hazards beyond the scope described above, it is recommended that the designer consult with Firetrace, NFPA-12, and the local authority having jurisdiction, as to the suitability on the use of CO2 for a particular hazard, for personnel exposure effects from the design concentration, and for installation requirements. FM REV 3 Page 9 4/9/2007 Firetrace CO2Automatic High Pressure Extinguisher Units consist of the following major components: • CO2 CylinderNalve assembly. • Cylinder Mounting Bracket. • Firetrace detector/actuation tubing and fittings (no substitute). • Discharge nozzles. • Discharge Port Adapter • Pressure switch • Discharge tubing and fittings (furnished by others). Once installed, the Firetrace Automatic High Pressure Unit becomes a self-contained, self -actuating unit that does not require an extemal source of power or electricity. The unit utilizes unique Firetrace flexible tubing that is attached to the cylinder valve. This tubing is pressurized with dry nitrogen to maintain the cylinder valve in the closed position. The tubing is temperature sensitive, and acts as a continuous linear thermal detector that ruptures upon direct flame impingement. Once the detector tubing is ruptured, the cylinder valve automatically opens, allowing the CO2 agent to flow through the discharge tubing, distributing the extinguishing agent through the nozzle(s) onto the protected area. Upon actuation, the pressure switch can be used to indicate discharge, shutdown ventilation, close all openings, shut-off electrical power, etc. as may be required. 3.1.1 Operating Pressure The CO2 cylinder is stored as a liquefied gas under its own pressure; 838psig @ 70°F. 3.1.2 Operating Temperature Range Limitations: The ambient operating temperature range for all unit components is: 0°F to +130°F (-17.8°C to +54.4°C). 3.2 Component Descriptions 3.2.1 CO2 Cylinder Valve Assemblies CO2 is stored in DOT/TC aluminum cylinders as a liquefied compressed gas, under its own pressure; 838psig @ 70°F (5,778 KPa @ 21°C). The cylinder/valve assemblies are FM Approved in 3 sizes, namely: 5 LB size filled with 5.0 LBS (2.27 Kg) of CO2 10 LB size; filled with 10.0 LBS (4.54 Kg) of CO2 20 LB size; filled with 20.0 LBS (9.07 Kg) of CO2 Each cylinder is equipped with a brass valve and a quarter tum ball valve that interfaces with the Firetrace detector tubing. The ball valve must be kept closed at all times when the cylinder is not in service. In addition, the CO2 Cylinder valves are equipped with a pressure relief (rupture disc) device in compliance with DOT/TC requirements. FM REV 3 Page 10 4/9/2007 Each valve is also equipped with (1) discharge outlet port and (1) filling port. Each port is provided with a safety cap that must be installed whenever a cylinder is not in service. These caps are safety devices designed to prevent uncontrolled discharge of the cylinder in the event that the valve is accidentally actuated. WARNING The safety caps must be installed on the valve discharge port and filling port at all times, except when connected into the units discharge tubing or when filling. Failure to follow these instructions could result in personal injury, death or property damage. Table 3.1 describes the 5, 10 and 20 LB cylinder assemblies. Each cylinder is equipped with a straight siphon tube and can only be mounted in a vertical (upright) position. Table 3.1: CO2 Cylinder / Valve Assemblies Nom Size Assy Part No. Outside Dia. Overall Hei ht Internal Volume CO2 Agent Fill Density in. cm in. Cm ire cm3 Ib. kg 3ALM124 5 110050 5.25 12.70 20.0 50.67 205 3359 5.0 2.27 68 10 110100 6.89 17.50 22.4 55.32 408 6717 10.0 4.54 68 20 110200 8.00 20.32 29.0 72.14 816 13340 20.0 9.07 68 Table 3.2 describes the DOT/TC Specifications used for the manufacture of the CO2 cylinders. Table 3.2: DOT/TC Cylinder Specifications Nominal Size DOT Spec ,TC,, ,_,Service;_.-_ " Spec = _ ` Cylinder Test Pressure.. Pressure psig _ DOT .;- psig . _ _' TC psig 5 3AL1800 3ALM124 1800 3000 2700 10 3AL1800 3ALM124 1800 3000 2700 20 3AL1800 3ALM124 1800 3000 2700 The Firetrace CO2 Units are designed for an operating temperature range of 0°F to +130°F. Table 3.3 shows the cylinder, pressure -temperature relationship based on a maximum fill density of 68%; and a charged pressure of 838 psig at 70°F Table 3.3: Cylinder Pressure -Temperature Relationship FMREV3 Page11 4/9/2007 Cylinder Pressure Temperature °F °C Pressure psig kPa 32 0.00 505 3,481 40 4.44 567 3,909 50 10.00 652 4,495 60 15.56 747 5,150 70 21.11 852 5,874 80 26.67 975 6,722 90 32.22 1205 8,308 100 37.78 1465 10,100 110 43.33 1725 11,893 120 48.89 1995 13,755 130 54.44 2265 15,616 140 60.00 2545 17,547 150 65.56 2825 19,477 3.2.2 Cylinder Mounting Bracket A wall mounted painted steel bracket is used to mount the 5, 10, and 20Ib cylinder/valve assemblies in a vertical (upright) position. Each bracket is equipped with an interlocking steel strap that is secured with a metallic pin. 3.2.3 Firetrace Flexible Detector/Actuation Tubing The Firetrace tubing is used as a combination linear heat detector and unit activation device to cause actuation of the CO2 agent cylinder. The tubing is installed throughout the hazard volume, with one end connected to the CO2 cylinder valve. The tubing is pressurized with nitrogen to 195 psig while maintaining the ball valve in the "OFF" position. An optional pressure gauge or pressure switch can be connected to the other end of the detector tube to monitor tubing pressure and/or signal unit actuation etc. The detector tubing is heat sensitive and in a fire situation is designed to rupture at any point along the tube. The rupture of the tube releases the nitrogen pressure causing the CO2 cylinder valve to actuate, resulting in complete discharge of the CO2agent through the nozzles. 3.2.4 Discharge Nozzle Discharge nozzles are used to distribute CO2 agent uniformly throughout the hazard area. One size nozzle is available for use with all IHP models, and must be used within the limitations described in this Manual 3.2.5 Pressure Switch A pressure switch is available as an optional item. This switch can be connected at the end of the line of the Firetrace detector tubing to monitor unit pressure, unit actuation and or to energize or de -energize electrically operated equipment. Firetrace recommends that all units use a pressure switch coupled with some device to alert personnel in the event of discharge. FM REV 3 Page 12 4/9/2007 3.2.6 Recharge Adapters, CO2 Cylinder The recharge adapter is connected to the filling port located on the cylinder valve during the cylinder recharging procedure. The adapter is used for refilling the cylinder with CO2. 3.2.7 Cylinder N2 Recharge Adapter The recharge adapter is connected to the Firetrace tubing, and the other end of the tubing is attached to the ball valve, located on the cylinder valve, during the charging procedure. The adapter is used to apply nitrogen pressure to the detection tubing, and to keep the valve piston seated. 3.2.8 CO2 Warning Nameplate The Waming Plate is required to warn personnel not to enter the hazard area during or after discharge. Warning signs shall be provided in a conspicuous location, at the entrance to the protected areas, or in the case of cabinet protection on the front face of the cabinet. Signs must be in accordance with NFPA 12, Section 4.3. FM REV 3 Page 13 4/9/2007 4.0 SYSTEM DESIGN AND LIMITATIONS FOR TOTAL FLOODING 4.1 General The Firetrace series of CO2 Pre -Engineered Automatic High Pressure Extinguisher units were tested and limits established by Firetrace and Factory Mutual. These units were subjected to numerous performance tests, in order to verify their suitability and to establish design limitations for: • Hazard volume • Nozzle placement • Discharge time and flow rates • Design concentrations & design factors • Detector tubing placement The pre-engineered automatic unit concept minimizes the amount of engineering required when evaluating a design for a specific application. So long as the discharge piping, tubing, and nozzles are installed within the limits prescribed in this manual, no calculations are required for pressure drop, flow rates or discharge time. When the additional limitations of hazard volume, design concentration, agent quantity, detector arrangement, etc., are also met, the unit installation can be understood to comply with the design requirements, NFPA-12, and FM Approval. 4.2 Design Procedure The following procedures should be used to design a Firetrace CO2 pre-engineered IHP automatic extinguisher unit. In addition, the applicable requirements specified in NFPA-12 should be followed. a. Conduct a survey and analysis of the hazard to be protected b. Determine the height, length, and width of the enclosure. Calculate the volume. All of these parameters must be within the dimensional limits specified in this t ehual. (See Section 4.3, Table 4.1). c. -bete?mine the anticipated minimum and maximum ambient temperatures expected within the enclosure to be protected. d. Determine the minimum design concentration required for the hazard. (See Section 4.5 and Table 4.3). e. Determine the integrity of the enclosure. Are there any openings that must be - closed,at the time of agent discharge? (See Section 4.6). f. _ Calculateithe quantity of CO2 agent required, with the proper design concentration, to protect the enclosed space. (Refer to Section 4.7 and Example 4.8.1). g. Determine the cylinder size required, based on the hazard volume limitations, enclosure size, and quantity of CO2 agent required. h. Determine the location of the CO2 cylinder. 1 Determine the location and quantity of nozzles required, based on the size and configuration of the enclosure. (See Section 4.9 and Table 4.6). j. Determine the routing and quantity of discharge pipe (tubing) required. The discharge pipe (tubing) and fitting limitations must not be exceeded. (See Section 4.9 and Table 4.6). FM REV 3 Page 14 4/9/2007 k. Determine the arrangement and placement of the Firetrace detector tubing. (See Section 4.10). I. Determine any auxiliary equipment requirements, such as pressure switch(s) to sound alarms, shut -down ventilation, shut-off electrical power, etc.. m. Prepare system drawings, bill of materials list, etc; following Section 4.4 of NFPA-12 2005 Edition. 4.3 Hazard Enclosure Volume Limitations The maximum volume for each size unit is shown in Table 4.1. The protected enclosure can be any size or shape provided that the volume does not exceed the limitations shown in Table 4.1 with the exception of the IHP-2000 as noted below. Table 4.1: Enclosure Size Limitations Model CO2 (Lbs) Volume (Ft3) IHP-0500 5.0 70 IHP-1000 10.0 140 IHP-2000 20.0 300* * At least one dimension (I, w, h) must not exceed 2 feet Volumes are based on 34% Design Concentration 4.4 General Specifications 4.4.1 Discharge Time: Surface fires: The design concentration must be achieved within 1 minute from start of discharge. 4.4.2 Storage and Operating Temperature Range: The Firetrace CO2 units and equipment are designed to be stored and operated at an ambient temperature range of 0°F to +130°F. (-17.8°C to +54.4°C). 4.4.3 System Operating Pressure: The normal operating pressure for the unit is 838 psig at 70°F. 4.5 Minimum Design Concentrations The minimum design concentrations to be used with Firetrace CO2 units shall not be Tess than 34%. For class B hazards, proper consideration must be given to the material involved in the hazard, the design concentration should then be given a safety factor (SF) of 20%, as specified in NFPA-12, Year 2005 edition. FM REV 3 Page 15 4/9/2007 Table 4.2: Minimum Safety Factor Hazard Type Minimum Safety Factor Class B Flammable Liquids 20% Table 4.3 lists CO2 minimum design concentrations that must be used with Firetrace CO2 units for Class A hazards and the various Class B fuels shown. Consult Firetrace website, or contact Firetrace if the hazard you desire to protect is not listed. Table 4.3: Minimum Carbon Dioxide Concentrations for Extinguishment Material Theoretical Minimum CO2 Concentration % Minimum Design CO2 Concentration ok Class A (surface fires) (a) Including plastic materials typically found in electrical/electronic equip. 34 34 Class B fuels (b) Acetylene 55 66 Acetone 27 34 Aviation Gas Grades 115/145 30 36 Benzol, Benzene 31 37 Butadiene 34 41 Butane 28 34 Butane -L3 31 37 Carbon, isulfide 60 72 Carbon Monoxide 53 64 Coal or Natural Gas 31 37 Cyclopropane 31 37 Diethyl Ether 33 40 Dimethyl. Ether -,:33 40 Dowtherrn f .38 46 Ethane`..' -33 - _. 40 Ethyl Alcohol 36 43 Ethyl Ether 38 46 Ethylene 41 49 Ethylene Dichloride 21 34 Ethylene Oxide 44 53 Gasoline 28 34 Hexane 29 35 Higher Paraffin Hydrocarbons CnH2m+2m-5 28 34 Hydrogen 62 75 FMREV3 Page 16 4/9/2007 Hydrogen Sulfide 30 36 Isobutane 30 36 Isobutylene 26 34 Isobutyl Formate 26 34 JP -4 30 36 Kerosene 28 34 Methane 25 34 Methyl Acetate 29 35 Methyl Alcohol 33 40 Methyl Butene - I 30 36 Methyl Ethyl Ketone 33 40 Methyl Formate 32 39 Pentane 29 35 Propane 30 36 Propylene 30 36 Quench, Lube Oils 28 34 Note: The theoretical minimum extinguishing concentrations in air for the materials in the table were obtained from a compilation of Bureau of Mines, Limits of Flammability of Gases and Vapors (Bulletins 503 and 627) For all materials not given in Table 4.3, the minimum theoretical carbon dioxide concentration shall be obtained from some recognized source or determined by test. 4.6 Openings and Ventilation Shutdown Provisions must be made to provide means to close all openings in the hazard enclosure and shut-off ventilation at the time of discharge. 4.7 CO2 Design Concentration Flooding Factors The total flooding quantity of CO2 agent needed to protect an enclosure containing a material requiring a 34% design concentration can be found in Table 4.4. To find the total q uariti ,ofi O2 required, multiply the hazard volume by the Volume Factor found in Table 4:4 If the design concentration is greater than 34%, the basic quantity calculated from Table 4.4 shall be multiplied by the corresponding conversion factor found in Figure 4.1. This table should only be used for materials requiring a 34% CO2 Design Concentration. And for environments where the temperature range is between 0-130° F FM REV 3 Page 17 4/9/2007 Table 4.4: Flooding Factors for 34% Concentration. (A) Volume of Space (B) Volume Factor Cal(C) culated Quantity (LB) (Ft3) Ft3/lb CO2 Ib CO2/Ft3 (Not Less Than) Up to 140 14 0.072 --- 141-500 15 0.067 10 501-1600 16 0.063 35 1601-4500 18 0.056 100 4501-50,000 20 0.050 250 Over 50,000 22 0.046 2500 5 4 0 u. 0 3 0 U 2 30 40 50 60 70 Minimum Design CO2 Concentration (%) Figure 4.1: Conversionactor for Design Concentrations Greater than 34%. 80 4.8 Maximum Protected Volume The maximum volume that can bo'protected by the Firetrace CO2 units is dependent on the minimum design concentration. The maximum volumes -calculated from Table 4.4 for concentrations of 34% for Firetrace CO2 systems are listed below. Table 4.5: Maximum Protected Volume for IHP Systems Model Volume (ft3) IHP 0500 Up to 70 IHP1000 71to140 IHP 2000 141-300 + . - t 1 - - + -I- + J. 1 4- + t -I- -I_ - -i- -- + - - - - L + - , -+--,- --- t I f + --' t r t I I 1 , I , I I 1 t I I 30 40 50 60 70 Minimum Design CO2 Concentration (%) Figure 4.1: Conversionactor for Design Concentrations Greater than 34%. 80 4.8 Maximum Protected Volume The maximum volume that can bo'protected by the Firetrace CO2 units is dependent on the minimum design concentration. The maximum volumes -calculated from Table 4.4 for concentrations of 34% for Firetrace CO2 systems are listed below. Table 4.5: Maximum Protected Volume for IHP Systems Model Volume (ft3) IHP 0500 Up to 70 IHP1000 71to140 IHP 2000 141-300 FMREV3 Page 18 4/9/2007 4.8.1 Example Calculations The requirements given in Sections 4.1 through 4.8 describe the procedures to be used to design and size a Firetrace IHP CO2 unit. The following example provides guidelines, following procedures 4.2.a, through 4.2.e., in order to determine the quantity of CO2 agent required and cylinder size for a total flooding application. Example: Given: • Hazard — Small cabinet storing Ethyl Alcohol. • Class B hazard • Enclosure size: 4' wide x 4' long x 6' high. One (1) access door equipped with self closing apparatus • Minimum anticipated ambient temperature: 50°F • Maximum anticipated ambient temperature: 90°F Procedure: a. Determine min. design concentration required (Refer to Table 4.2) Use 43% min. design concentration for Ethyl Alcohol. b. Calculate hazard volume (V). V = 4' x 4' x 6' =96 Ft3 c. Calculate quantity (Q) of CO2 required first using volume factor for 34% concentration (Refer to Table 4.4) volume of 96 Ft3 shows that a Volume Factor 0.072 Lb CO2/Ft3 Q = 96 Ft3 x 0.072 Lb CO2/Ft3 = 6.912 Lbs. of CO2 is required. Because this is based on a 34% concentration, it must be multiplied by the conversion factor, which can be found in Figure 4.1. For a design concentration of 43%, the conversion factor iso .25. Qtotal = 6.912 z 1.26= 8.64 Lbs (This then requires the use of a IHP-1000 with 10 Lbs of CO2) 4.9 Nozzle and Discharge Tubing Requirements 4.9.1 Discharge Nozzle,cimitations • `�' One size nozzle P/N 510010 is to be used with all Firetrace IHP CD1ext'iriguisher units in total flooding applications. Placement of nozzles shall be such that discharge of CO2 will not splash flammable liquids or create dust clouds that could extend the fire. More than one nozzle can be used to protect a particular hazard, as long as the "Equivalent Length of Pipe" for Firetrace IHP CO2 systems is not exceeded. Refer to section 4.9.3 for information regarding the "Equivalent Length of Pipe". FM REV 3 Page 19 4/9/2007 4.9.2 Discharge Piping & Fitting Specifications All Firetrace IHP Units shall use steel piping for the distribution system. The following piping and fittings shall be used. Piping Specifications: Material: Black or Galvanized steel pipe Type: ASTM A 53 seamless or electric welded, Grade A or B Size: '/Z Pipe Note: For other options consult NFPA 12 2005 Edition Section 4.7 Pipe Fitting Specifications: Material: Malleable or ductile iron fittings Type: Class 300 4.9.3 Maximum Piping and Fitting Limitations The maximum "Equivalent Length of Piping" shall not exceed 24ft. The "Equivalent Length of Piping" includes individual lengths of pipe and all pipe fittings. Table 4.6 includes the equivalent lengths of inch threaded pipe fittings that need to be considered when determining the total "Equivalent Length of Piping". Table 4.6: Equivalent length in feet of threaded pipe fittings. Pipe Size Elbow Std. 45° Elbow Std. 90 ° Elbow 90 ° Long Radius & Tee Thru Flow Tee Side Union Coupling 1/2 0.8 1.7 1.0 3.4 0.4 4.10 Firetrace Detector Tubing For the Indirect. CO2 units, the Firetrace tube is used as a combination heat detector and unit activation device to. cause, actuation of the CO2 agent cylinder. The detector tubing is heat sensitive and in a fire situation is designed to rupture at any point along the tube upon direct flame impingement. Location and spacing of the tubing is critical to the response time in the event of a fire. The tubing should be placed above the hazard areas being protected. The drawing in Appendix A provides general guidelines for placement of the detector tubing along with the maximum spacing and height limitations. Depending on the configuration of specific hazards, the guidelines may, or may not, be applicable. The maximum length of tubing that can be used for any IHP unit is 120 feet. The maximum height that is allowed between layers is 3.28 feet. The maximum distance between passes is 21.12 inches. FM REV 3 Page 20 4/9/2007 NOTE: It is recommended that the tubing not be placed horizontally adjacent to potential fire sources as this may significantly delay response time. FM REV 3 Page 21 4/9/2007 5.0 INSTALLATION INSTRUCTIONS This section provides installation instructions covering components and limitations described in Sections 3 and 4 of this manual. All components should be installed to facilitate proper inspection, testing, recharging, and any other required service or maintenance as may be necessary. Equipment must not be subjected to severe weather conditions or mechanical, chemical, or other damage, which could render the equipment inoperative. The equipment must be installed in accordance with instructions in this manual and NFPA 12. WARNING CO2 cylinder/valve assemblies must be handled, installed, and serviced in accordance with the instruction contained in this manual and on the cylinder nameplate. Failure to follow these instructions could result in severe injury, property damage or death. 5.1 CO2 CylinderNalve and Bracket Assemblies The CO2 cylinders should be located as close as possible to the protected enclosure. In some cases the cylinder can be mounted inside the protected enclosure. The assemblies shall be located in a readily accessible location to allow for ease of inspection service and maintenance. The cylinders shall be located in an environment protected from the weather and where the temperature range is between 0°F and + 130°F. Cylinder and bracket must be mounted in the vertical plane with the cylinder valve facing up. Mount the cylinder where it will not be subject to accidental damage or movement. Suitable protection -must be installed where necessary to prevent damage or movement. CAUTION Make sure that the ball valve, located on the cylinder valve, is maintained in the "OFF" position, and the discharge port safety caps are in place. Failure to follow these instructions will result in actuation and discharge of the cylinder cofitents.- _ • 1. Securely mount the cylinder bracket to structural support using 2 or more mounting holes. 2. Secure cylinder in place using the bracket strap. 5.2 Discharge Piping and Nozzles 1. Locate the nozzle(s) following the guidelines and limitations described in Section 4.9. FM REV 3 Page 22 4/9/2007 2. Determine the routing of the discharge piping following the guidelines and limitations described in Section 4.9 3. Remove the safety cap from the valve discharge port as required. Attach female connection fittings (Firetrace P/N 200201) onto discharge port. 4. Install the necessary piping and fittings between the cylinder and nozzle(s). Secure piping with appropriate size piping clamps as required. 5.3 Firetrace Detection Tubing CAUTION 1. Do not kink, bend, or crush Firetrace tubing in order to prevent leakage, which could result in accidental unit discharge. 2. Do not install tubing in a hazardous environment where the maximum ambient temperature exceeds 176°F (80°C) 3. Do not place the tubing on a surface where the temperature of the surface exceeds 140°F (60°C) 4. Maximum length of detector tubing shall not exceed 120 Feet. 1. Follow guidelines as outlined in section 4.10 and the drawing in Appendix A for the tubing placement. 2. Secure detection tubing using Mounting Tabs at 1.5 it intervals. 3. Use appropriate rubber/plastic grommets when detection tubing is routed through sharp holes in order to prevent damage to the tubing. 4. Connect the end of line adapter and spring top unit to the detection tubing as shown in Appendix A. 5. When installing tubing to the cylinder valve make sure that the detection tubing is.. pushed through the top of the ball valve inlet all the way through to the shoulder and then tighten the spring top unit to a torque of 4-6 Nm. 6. Ensure the detection tubing is pushed through the end of line adapter all the way through to the shoulder. Then tighten the spring top unit to the end of line adapter to a torque:bf 4-6 Nm. 7. The detector tubing is now -ready to be pressurized with Nitrogen. (See section` 5.4 for pressurization procedure) 5.4 Pressurization of Firetrace Detection Tubing 1. Attach the filling adapter (P/N 600023) to the detector -tubing end of line adapter. 2. Using a regulated dry nitrogen supply, pressurize the detection tubing with dry nitrogen through the filling adapter to 195 psig. It is recommended to have a portable dry nitrogen cylinder for on site use. FM REV 3 Page 23 4/9/2007 3. Remove the filling adapter and attach calibrated test pressure gauge & 0 -ring to verify that the tubing is pressurized to at least 195 psig at 70°F. 4. With gauge still attached to the end of line adapter, test for leakage. • Apply soapy water solution to the cylinder valve connection, end of line adapter connection, and the pressure gauge connection. Observe for bubble leaks. • Wait 30 minutes, then observe pressure gauge. Any decrease in pressure is an indication of a leak. • In the event of a leak go back to Section 5.3 and repeat steps 4, 5, & 6. • If no leaks are observed proceed to step 5 of Section 5.4 5. If an optional pressure switch is to be installed in the EOL adapter, remove pressure gauge and install the washer and pressure switch using wiring instructions located on the device. Check pressure switch connection for bubble leaks using soapy water solution. 6. After confirming that there is no leakage within the detector tubing, SLOWLY rotate the ball valve lever counter clockwise to the "ON" position. CAUTION If the ball valve lever is opened abruptly this may result in activation of the cylinder valve and unit discharge. 7. Tamper proof the unit by choosing one of the options below a. Option #1 Remove the ball valve lever completely. Follow directions for removal of lever listed in Appendix A. b. Option #2 Attach tamper seal around the ball valve lever to secure it in the "ON" position, which is the set/ready position also shown in Appendix A. 8. Ensure appropriate electrical connections to the optional EOL pressure switch, which can be used to annunciate unit discharge, shut down ventilation, etc., as may be required by the end user or the AHJ. (All electrical connections are to be in accordance to NFPA 70 National Electric Code)_ 9. Attach the warning nameplate(s) (Firetrace P/N 800031) to -the appropriate locations. 10. Unit is now fully armed and ready for use. FM REV 3 Page 24 4/9/2007 6.0 SERVICE, MAINTENANCE, & FILLING INSTRUCTIONS WARNING 1. CO2 cylinder/valve assemblies must be handled, installed, inspected and serviced only by qualified and trained personnel in accordance with the instructions contained in this manual, the cylinder nameplate, NFPA-12, and any other regulations and codes that may apply. 2. Before performing maintenance or refilling procedures refer to the material safety data sheets in the appendix at the back of this manual. 6.1 General A regular program of systematic maintenance must be established for continuous, proper operation of all CO2 units, and to avoid violating the warranty. A periodic maintenance schedule must be followed and an inspection log maintained for ready reference. As a minimum, the log must record: (1) inspection interval, (2) inspection procedure performed, (3) maintenance performed, if any, as a result of inspection, and (4) name of inspector performing task. 6.2 Periodic Service and Maintenance Perform service and maintenance of the CO2 unit in accordance with the schedule shown in Table 6.2 Table 6.2: Periodic service and maintenance schedule. Schedule Requirement Reference Paragraph Weekly Visually inspect unit components 6.3.1 Monthly ..J, Visually inspect unit components. 6.3.1 Semi=Ar uail .Y �- _ " ' 'Cl ec CO2 cylinderweight.� � ''' Check nozzles for obstruction. - . . ' - '° - ' 6:3.2 ' ` 'h'' Every 5 Years Perform external visual inspection of CO2 Cylinders. 6.3.3 6.3 Periodic Service and Maintenance Procedures FM REV 3 Page 25 4/9/2007 6.3.1 Weekly/Monthly: Performed by Owner or End User 1. Make a general visual inspection of the CO2 cylinder and equipment for damaged or missing parts. 2. Ensure access to hazard areas, discharge nozzles, and cylinders are unobstructed and that there are not obstructions to the operation of the equipment or distribution of CO2 agent. 3. Inspect detection tubing in hazard area for abrasion, distortion, cuts, or dirt accumulation, and that there are no obstructions preventing tubing from sensing a fire should one occur. 4. Verify that there have been no changes in the size of the enclosure and that no new ventilation has been added. 6.3.2 Semi -Annual Inspection 1. Check CO2 cylinder for weight. 2. Remove cylinder from the installation as follows: • Close ball valve, by tuming ball valve lever clockwise to the "OFF" position. • Disconnect detector tubing at the ball valve. Note: There will be a loss of nitrogen pressure out of the tubing. • Disconnect piping and fittings from the cylinder valve discharge port. • Immediately install safety cap onto the valve discharge port. • Remove cylinder from bracket 3. Weigh cylinder. Compare measured weight with weight found on the cylinder nameplate. If the container shows a loss in agent quantity of more than 10 percent, the cylinder shall be refilled or replaced. 4. Remove nozzle(s) and inspect for obstructions. Reinstall nozzles. 5. Reinstall cylinder and re -pressurize detector tubing with nitrogen following the applicable procedures outlined in Section 5.0. 6.3.3 Five Year Inspection CO2 cylinders continuously in service without discharging shall be given a complete extemal visual inspection in place, every 5 years or more frequently if required. 6.4. Post Fire Maintenance In the event of a unit discharge the following procedures shall be performed. 6.4.1 CO2 Cylinder Valve FM REV 3 Page 26 4/9/2007 Remove the cylinder assembly from the installation following procedures detailed in Section 6.3.2, Step 2. Inspect and service the CO2 cylinder valve as follows: WARNING Prior to removal of the valve from the cylinder, verify that all pressure has been released. To relieve any remaining pressure loosen but do not remove the valve safety caps. Then open the ball valve to the "ON" position and allow any residual pressure to leak out past the plugs. 1 Only after verifying that the cylinder has been depressurized, remove valve from cylinder. 2 Perform a visual inspection of the valve to verify that no damage occurred due to the fire. If integrity of the valve looks compromised, contact Firetrace. The valve should not be serviced by anyone other than a Firetrace Technician. 3 Change the cylinder/valve o -ring. Discharge of CO2 causes the o -ring to undergo vacuum decompression; failure to change the o -ring will result in leaks around the cylinder/valve connection. 3. Re -seat the piston in the valve by following the procedure in Section 6.6, Step 2. 6.5 CO2 Cylinder Retest Firetrace CO2 cylinders are built to DOT-3AL specifications and therefore fall under DOT regulations for retest prior to refill. DOT-3AL cylinders used exclusively in CO2 service are required to be retested and re - stamped prior to recharge and shipment if the last retest date has expired. Firetrace CO2 (DOT-3AL) containers requiring retest must be hydrostatically tested in accordance with DOT CFR Title 49, Section 173.34(e). This periodic retest must be performed by an authorized retester having a current identification number issued by the Associated Administrator for Hazardous Material Safety of DOT, and must include an internal and external examination in accordance with CGA pamphlet C-6, C-6.1, C-6.2, or C -6.3, -as applicable. The test procedures are described in CGA pamphlet C-1. Because vol%imetric"rexpansion of the container must be measured, only the water jacket volumetric expansion method or the direct expansion methods are acceptable. As an alternate option, CO2 agent containers may be given a complete extemal visual inspection, as detailed in Section 173.34(e)(13), in lieu of hydrostatic test. The visual inspection shall only be made by competent persons. A person who performs the visual examination specified in 173.34(e)(13) is not required to have a re -tester's identification number. FM REV 3 Page 27 4/9/2007 Retest can be performed by either of the following methods: Retest Method First Retest Due (Yrs) Subsequent Retest Due (Yrs) Special Marking Full hydrostatic test including determination of cylinder expansion. 5 5 Retest Date Month/Year Extemal visual inspection per paragraph 173.34(e)(13) and CGA pamphlet C-6, Section 3. 5 5 Retest Date followed by "E" 6.6 Filling Procedures 1. Weigh and record cylinder empty weight with valve and the 2 safety caps installed. 2. Remove the safety cap from the discharge port and visually check that the piston is seated inside of the valve. Replace safety cap. (If piston is not seated, apply 195 psi of Nitrogen pressure through the ball valve. You will be able to hear the piston change positions. Retum ball valve to "OFF" position and remove hose connection). 3. Remove safety cap from filling port and attach Firetrace CO2filling adapter (P/N 60024) to filling port 4. Attach CO2 supply line to filling adapter. (CO2 is to be pumped) 5. Place the cylinder, with supply line hooked up, on scale and zero the scale. Open the supply of CO2from bulk tank to fill the cylinder to the required weight. 6. Close supply of CO2 while maintaining all connections. 7. Disconnect CO2 recharge adapter and immediately attach discharge port cap to valve. CAUTION Any hissing or discharge coming from vent valve indicates that the piston is not seating properly or has opened. If this occurs, repeat Step 10 and verify that the cylinder valve piston remains closed. 8. Verify weight by checking it against what is printed on the label. 9. Leak test the cylinder. 10. Cylinder is now ready to be transported to the installation site. Note: All reasonable efforts must be made to prevent emitting any CO2 to the environment during filling or servicing of Firetrace units. FM REV 3 Page 28 4/9/2007 APPENDIX A COMPONENT DESCRIPTION DRAWINGS ft FM REV 3 INSTALLATION DRAWINGS ;•, Page 29 4/9/2007 Parts List 5, 10, & 20 LB. PRE-ENGINEERED AUTOMATIC INDIRECT CO2 EXTINGUISHER UNIT MODELS 950504 5 LB. CO2 IHP 951004 10 LB. CO2 IHP 952004 20 LB. CO2 IHP ITEM PART NO. DESCRIPTION SYSTEM 1 310201 IHP Valve All Systems 2 110050 5 Lb. Cylinder 5 LB 2 110100 10 Lb. Cylinder 10 LB 2 110200 20 Lb. Cylinder 20 LB 3 600008 Siphon Tube 5/8"x131/4" 5 LB 3 600005 Siphon Tube 5/8"x151/4" 10 LB 3 600006 Siphon Tube 5/8"x211/2" 20 LB 4 111201 5 Lb. Heavy Duty Bracket 5 LB 4 111010 10 Lb. Heavy Duty Bracket 10 LB 4 111020 20 Lb. Heavy Duty Bracket 20 LB 5 310310 Discharge Port Safety Cap All Systems 6 310305 Collar 0 -Ring All Systems 7 200160 Spring Top Support Unit All Systems 8 600053 Pull Pin All Systems 9 600007 Nameplate: CO2 All Systems * 800100 Warranty/Registration Card All Systems * 200201 Discharge Port Adapter All Systems * PART NOT PICTURED FM REV 3 Page 30 4/9/2007 Discharge Line Parts List ITEM NUMBER PART NUMBER DESCRIPTION 2 200201 IHP Discharge Port Adapter * 200101 5/16" Copper Compression Bulkhead * 200111 5/16" Copper Compression Elbow * 200121 5/16" Copper Compression Tee 3 510010 Small Total Flood Nozzle 5 200145 '/2" Copper Compression Bulkhead * 200147 1/2" Copper Compression Union * 200148 Hydraulic Hose Total Flooding Nozzle Adapter 1 200112 '/2" Copper Compression Elbow 4 200122 %" Copper Compression Tee 6 500024 Total Flooding Nozzle * 510015 IHP Wide Dispersion Nozzle * 510016 IHP Narrow Dispersion Nozzle * 201802 2' Hydraulic Discharge Hose With Elbows * 201804 4' Hydraulic Discharge Hose With Elbows * 201806 6' Hydraulic Discharge Hose With Elbows * 201808 8' Hydraulic Discharge Hose With Elbows * PART NOT PICTURED FM REV 3 Page 31 4/9/2007 Detection Line Parts List ITEM NUMBER PART NUMBER DESCRIPTION * 200005 Firetrace Detection/Actuation Tubing (by the foot) * 200125 Tube Union With Spring Tops 1 200126 Tube Tee With Spring Tops * 200136 Bulkhead With Spring Tops 4 200155 Tube Elbow With Spring Tops * 200160 Spring Top * 200158 Tube Union Slip On Fitting 2 200157 Tube Tee Slip On Fitting 5 200178 Tube Elbow Slip On Fitting * 200179 Tube to Threads Union Slip On Fitting * 200177 Tube to Threads Tee Slip On Fitting * 200159 Tube to Threads Elbow Slip On Fitting * 200133 Tube Plug 3 600064 Manual Release With CO2 Gauge and Spring Top * 200168 End Of Line Adapter With Spring Top * 200169 In Line Adapter With Spring Tops * 310303 Plug With 0 -Ring For End Of Line Adapter * 400029 CO2 195 psi Pressure Gauge * 400004 Pressure Switch With Washer for End Of Line Adapter • 600090 Audible Alarm (Battery Operated) * 200171 Mounting Tabs (Qty. 12) * 200150 Rubber Grommets (Qty. 2) * 200151 Plastic Grommets (Qty. 2) * PART NOT PICTURED '4• l/ lukiraiA,ummilaw 7crrrrr( kik/1111,N FM REV 3 Page 32 4/9/2007 Firetrace Indirect High Pressure (IHP) Valve P/N 310201 FILLING PORT WITH SAFTEY CAP OPTIONAL PRESSURE SWITCH PORT DISCHARGE PORT WITH SAFTEY CAP BURST DISC FM REV 3 Page 33 4/9/2007 DIMENSIONS (INCHES) DIMENSIONS (METERS) VALVE A B C D A B C D CO2 6.625 5 1.125-12 UNF-2A G 3/8 0.168 0.127 1.125-12 UNF-2A G 3/8 FM REV 3 Page 33 4/9/2007 Firetrace IHP System Overview NOZZLE NOZZLE SPRING TOP SUPPORT UNIT INDIRECT HIGH PRESSURE VALVE HIGH PRESSURE DISCHARGE PORT ADAPTER FILLING ADAPTER (REMOVE AFTER PRESSURIZING LINE) END OF THE LINE ADAPTER ift0M1 nunbuuubunbnu SPRING TOP SUPPORT UNIT OPTIONAL MANUAL RELEASE 'NOTE: Manual Release can be used in place of an End of Line Adapter, or can be added at any point along tube by adding a "T" fitting End of Line Adapter may also incorporate an optional Pressure Gauge or a Pressure Switch — TUBING CLIPS FIRETRACE DETECTION TUBING BRACKET FM REV 3 Page 34 4/9/2007 4 1 Firetrace Tubing Placement Dia PLANE OF„TUBING'PLACEMENT 12f 2.16ft (0.658m) PLANE OF TU8ING'PLACEMENT 3.28Ft (1.n) PLANE OF TUBING PLACEMENT 3.28Ft (lm) PLANE OF TUBING PLACEMENT 3.28ft <1n) MAXIMUM HEIGHT` SU8tNG=LAYDUT Side • °=ie Maximum Length: 120ft Maximum Height Between Layers: 3.28ft Maximum Distance Between Passes, 21,12in TUBING PLACED AT 3.28ft (1rm) HIGH INTERVALS ram MAXIMUM AREA TUBING LAYOUT Overhead View FM REV 3 Page 35 4/9/2007 6Ft ._2142._ (53.8cm) (•---- 6Ft MAXIMUM AREA TUBING LAYOUT Overhead View FM REV 3 Page 35 4/9/2007 1. 2. 3. 4. 6. Ball Valve Lever Option #1 Plastic Tie 4" Long 18 LB Tensile Strength Check to see that the ball valve lever is set to the "ON" position. Remove the ON/OFF faceplate. Pull the tie through the hole in the ball valve lever. Wrap the tie around the ball valve assembly. Firmly pull on the tie to tighten and secure the lever. If desired. cut off the excess tie. Option #2 1. Remove the ON/OFF faceplate. 2. Unscrew the ball valve lever from the assembly. 3. Pull the lever off of the ball valve assembly. 4. Keep the items in a bag and secure them to the unit. FM REV 3 Page 36 4/9/2007 APPENDIX B Material Safety Data Sheet FM REV 3 Page 37 4/9/2007 Vico Fire & Security SimplexGrinnell TUKWILA FIRE DEPARTMENT Please call 206-575-4407 and give this Fire Permit No. and exact address for shut- down or restoration approval. August 20, 2013 Tukwila Fire Prevention Department SimplexGrinnell LP 9520 10th Avenue South Suite t00 Seattle, WA 98108 Tele: 206-291-1400 Fax: 206-291-1500 www. sirnplexgrinnell com FILE ,i„gg% Da Attn: Al Metzler 444 Andover Park East Tukwila, WA 98188 Re: Fatigue Technology 401 Andover Park East Tukwila , WA 98188 Al, Fatigue Technology is removing a piece of equipment which has a fire sprinkler drop to it from the overhead system. We need to remove the fire sprinkler and supply drop so the equipment can be taken out. The customer wants to work done tomorrow if possible. Please provide a shut down number for this work scope. Thajik yo . Kenneth W. Bryne SimplexGrinnell J t 4 ' FIRETR AUTOMATIC FIRE SUPPRESSION SYSTEMS DESIGN, INSTALLATION, OPERATION AND MAINTENANCE MANUAL FOR PRE-ENGINEERED AUTOMATIC INDIRECT CARBON DIOXIDE EXTINGUISHER UNITS Models: IHP-500, IHP-1000 and IHP-2000 (With Dimensional Restrictions) April 2007 P/N 800024 FM File Firetrace USA LLC. 15690 N. 83rd Way, Suite B Scottsdale, AZ 85260 USA Telephone: 480-607-1218 Fax: 480-315-1316 Website: www.firetrace.com Email: firetrace@firetrace.com FM REV 3 Page 1 4/9/2007 TABLE OF CONTENTS 1.0 FORWARD 4 1.1 General 4 1.2 Safety Precautions 4 2.0 INTRODUCTION 6 2.1 Carbon Dioxide Extinguishing Agent 6 2.1.1 Cleanliness 6 2.1.2 Physical Properties of Carbon Dioxide 6 2.1.3 Fill Density 7 3.0 SYSTEM DESCRIPTION 9 3.1 General 9 3.1.1 Operating Pressure 10 3.1.2 Operating Temperature Range Limitations* 10 3.2 Component Descriptions 10 3.2.1 CO2 Cylinder Valve Assemblies 10 3.2.2 Cylinder Mounting Bracket 12 3.2.3 Firetrace Flexible Detector/Actuation Tubing 12 3.2.4 Discharge Nozzle 12 3.2.5 Pressure Switch 12 3.2.6 Recharge Adapters, CO2 Cylinder 13 3.2.7 Cylinder N2 Recharge Adapter 13 3.2.8 CO2 Warning Nameplate 13 4.0 SYSTEM DESIGN AND LIMITATIONS FOR TOTAL FLOODING 14 4.1 General 14 4.2 Design Procedure 14 4.3 Hazard Enclosure Volume Limitations 15 4.4 General Specifications 15 4.4.1 Discharge Time• 15 4.4.2 Storage and Operating Temperature Range: 15 4.4.3 System Operating Pressure: 15 4.5 Minimum Design Concentrations 15 4.6 Openings and Ventilation Shutdown 17 4.7 CO2 Design Concentration Flooding Factors 17 4.8 Maximum Protected Volume 18 4.8.1 Example Calculations 19 4.9 Nozzle and Discharge Tubing Requirements 19 4.9.1 Discharge Nozzle Limitations 19 4.9.2 Discharge Piping & Fitting Specifications 20 4.9.3 Maximum Piping and Fitting Limitations 20 4.10 Firetrace Detector Tubing 20 5.0 INSTALLATION INSTRUCTIONS 22 5.1 CO2 CylinderNalve and Bracket Assemblies 22 5.2 Discharge Piping and Nozzles 22 5.3 Firetrace Detection Tubing 23 5.4 Pressurization of Firetrace Detection Tubing 23 6.0 SERVICE, MAINTENANCE, & FILLING INSTRUCTIONS 25 FM REV 3 Page 2 4/9/2007 A 6.1 General 25 6.2 Periodic Service and Maintenance 25 6.3 Periodic Service and Maintenance Procedures 25 6.3.1 Weekly/Monthly: Performed by Owner or End User 26 6.3.2 Semi -Annual Inspection 26 6.3.3 Five Year Inspection 26 6.4 Post Fire Maintenance 26 6.4.1 CO2 Cylinder Valve 26 6.5 CO2 Cylinder Retest 27 6.6 Filling Procedures 28 APPENDIX A 29 APPENDIX B 37 FM REV 3 Page 3 4/9/2007 1.0 FORWARD 1.1 General This manual is written for the fire protection professional that designs, installs, and maintains Firetrace Pre-engineered Automatic High Pressure Carbon Dioxide (CO2) Extinguisher Units. Firetrace CO2 automatic high-pressure extinguisher units are to be designed, installed, inspected, tested, maintained, and recharged by qualified trained personnel in accordance with the following: • All instructions, limitations, etc. contained in this manual P/N 800024 • All information contained on the agent cylinder nameplate(s). • NFPA-12, Standard on Carbon Dioxide Extinguishing Systems 2005 Edition. • FM Approval* • Local Authority having jurisdiction. * FM approval for flammable liquid hazards only 1.2 Safety Precautions Safety precautions are essential when any electrical or mechanical equipment is involved. These precautions should be followed when handling, servicing, and recharging Firetrace CO2automatic high-pressure extinguisher unit cylinders and equipment. If safety precautions are overlooked or ignored, personal injury or property damage may occur. The following symbols are used throughout this manual. Always heed these precautions. They are essential to the safe use of the equipment described in this manual. DANGER: This danger symbol identifies immediate hazards and provides specific instructions or procedures, which if not correctly followed WILL result in severe personal injury or death. WARNING: This warning symbol identifies specific instructions or procedures, which, if not correctly followed, COULD result in severe personal injury of death. CAUTION: This caution symbol identifies specific instructions or procedures, which, if not correctly followed, COULD result in minor personal injury or equipment or property damage. FMREV3 Page 4 4/9/2007 The following safety precautions should always be followed: WARNING Pressurized (charged) cylinders are extremely hazardous and if not handled properly are capable of causing bodily injury, death or property damage. 1. Read and understand this manual and the other documents referenced herein. 2. The valve discharge outlet safety cap and filling port cap MUST be installed on the cylinder valve at all times and only removed when connected into the discharge tubing, or when performing testing, or salvaging operations in accordance with the procedures contained in this manual. 3. Wear safety glasses when working with pressurized cylinders and charging equipment. It is recommended to wear leather gloves to avoid any cryogenic bums if CO2 is accidentally discharged on or near the skin. 4. Make sure that the ball valve (attached to the cylinder valve) is closed (lever is in "OFF" position), the detection tubing has been removed from the cylinder valve; and the safety caps installed, before removing the cylinder from the installation, and before performing any charging, leak tests or salvage operations. 5. Follow all of the safety procedures included on the cylinder nameplate and in this manual. 6. Never assume that a cylinder is empty. Treat all cylinders as if they are fully charged. Any questions concerning the information contained in this manual should be addressed to: Firetrace USA LLC. 15690 N 83rd Way, Suite B Scottsdale, AZ 85260 USA Telephone: 480-607-1218 Fax: 480-315-1316 Email: firetrace@firetrace.com The following web site should be visited for frequent technical announcements www.firetrace.com FM REV 3 Page 5 4/9/2007 2.0 INTRODUCTION The following Firetrace High Pressure CO2 Automatic Fire Extinguisher Units are approved with FM Approvals: IHP 500 IHP 1000 IHP 2000 (With restrictions. See 4.3 Hazard Enclosure Volume Limitations) These units are designed for total flooding using CO2, in accordance with NFPA-12, Standard on Carbon Dioxide Extinguishing Systems. 2005 Edition The Firetrace Pre -Engineered Automatic High Pressure Units have been tested to limits established by FM in compliance with the requirements detailed in this manual. Each installed pre-engineered unit is equipped with its' own detection and its own discharge tubing and nozzles. The pre-engineered concept minimizes the amount of engineering involved in the units design. When the discharge tubing and nozzles are installed within the limitations stated in this manual, no hydraulic calculations are required to determine pressure drop, agent flow or discharge time. The hazard being protected can be any size, shape or volume, provided that the hazard being protected is within the limitations described in this Manual. Each extinguisher unit, when installed, is a self-contained unit, meaning that it is equipped with its own automatic (non -electric) detection system, which when actuated, automatically releases the suppression agent into the hazard area. Local authorities having jurisdiction should be consulted as to the acceptability for particular hazards and requirements covering installation. 2.1 Carbon Dioxide Extinguishing Agent The extinguishing agent used in Firetrace pre-engineered automatic high-pressure extinguisher units is Carbon Dioxide, more commonly known as CO2. CO2 is a colorless, odorless, electrically nonconductive inert gas that is an extremely effective fire suppression agent. 2.1.1 Cleanliness CO2 is clean and leaves no residue, thereby minimizing any after fire clean up, along with keeping expensive downtime to a minimum. Most materials such as steel, aluminum, stainless steel, brass, as well as plastics, rubber and electronic components are not affected by exposure to CO2. This agent is also environmentally friendly, having an ozone depletion potential (ODP) of 0.00. 2.1.2 Physical Properties of Carbon Dioxide Chemical Name: Carbon Dioxide Molecular Weight 44.01 FM REV 3 Page 6 4/9/2007 Boiling Point (°F) @ 14.7psia -109.3 Freezing Point (°F) -69.9 Critical Temperature (°F) 87.9 Critical Pressure (psia) 1071 Critical Density (Ibm/ft3) 29.2 Specific Heat, Liquid (BTU/Lb-°F) @ 2°F 0.489 Specific Heat, Vapor (BTU/Lb-°F) @ Constant Pressure (1 ATM) @ 77°F Heat of Vaporization (BTU/lb) @ Boiling Point Thermal Conductivity (BTU/hr ft oF) of Liquid @ 77°F Viscosity, Liquid (Ib/ft hr) @ 77°F Vapor Pressure (psig) @ 70°F 838 Ozone Depletion Potential 0.00 2.1.3 Fill Density Each Firetrace CO2 storage cylinder has been designed for a maximum fill density as shown in Table 3.1. It is important that these values not be exceeded. Fill density and temperature significantly affect the pressure in the storage cylinder. At elevated temperatures the rate of increase in pressure is very sensitive to fill density (see Figure 2.1). If the maximum fill density is exceeded; the pressure will increase rapidly with temperature increase so as to present a hazard to personnel and property. Adherence to the limits on fill density and pressurization levels will prevent excessively high pressures from occurring if the storage cylinder is exposed to elevated temperature. This will also minimize the possibility of an inadvertent discharge of agent through the cylinder pressure relief device, where provided. It is recommended to not mount the cylinder in direct sunlight as this would create elevated cylinder temperatures. FM REV 3 Page 7 4/9/2007 a Pressure VS. Temperature For Carbon Dioxide Cylinders 300 600 900 1200 1500 1800 2100 Pressure (PSIA) Figure 2.1: Pressure vs. Temperature of CO2 2400 2700 3000 3300 I FM REV 3 Page 8 4/9/2007 3.0 SYSTEM DESCRIPTION 3.1 General The Firetrace CO2 Automatic High Pressure units are FM Approved in 3 sizes, namely: IHP-500 Charged with 5.0 Lbs. of CO2 IHP-1000 Charged with 10.0 Lbs. of CO2 IHP-2000 Charged with 20.0 Lbs. of CO2 These units are designed for use in Total Flooding applications where the hazard is not occupiable by a human being. A Tock -out valve shall be provided on all systems except where dimensional constraints prevent personnel from entering the protected space. The Firetrace CO2 units can be used, but are not limited, to protect the following: • Electrical and electronic cabinets. • Telecommunication areas. • Data Processing areas and cabinets. • Other high value assets. • Laboratory fume /exhaust cabinets • Pump enclosures • UPS units • Flammable Chemicals storage cabinets • Generator Enclosures • Transformer Cabinets • Computer/Data Storage Cabinets • CNC & VMC Machining centers • Many other applications CO2 is a gaseous fire -extinguishing agent that is effective for use on: • Class A Surface type fires Deep seated fires • Class B — Flammable liquid fires • Class C — Electrical equipment fires CO2 should not be used where the following materials may be present. • Pyrotechnic chemicals containing their own oxygen supply. • Reactive metals such as lithium, sodium, potassium, magnesium, titanium, zirconium, uranium and plutonium. • Metal hydrides. • Chemicals capable of undergoing auto thermal decomposition, such as certain organic peroxides and hydrazine. For hazards beyond the scope described above, it is recommended that the designer consult with Firetrace, NFPA-12, and the local authority having jurisdiction, as to the suitability on the use of CO2 for a particular hazard, for personnel exposure effects from the design concentration, and for installation requirements. FM REV 3 Page 9 4/9/2007 Firetrace CO2Automatic High Pressure Extinguisher Units consist of the following major components: • CO2 CylinderNalve assembly. • Cylinder Mounting Bracket. • Firetrace detector/actuation tubing and fittings (no substitute). • Discharge nozzles. • Discharge Port Adapter • Pressure switch • Discharge tubing and fittings (furnished by others). Once installed, the Firetrace Automatic High Pressure Unit becomes a self-contained, self -actuating unit that does not require an external source of power or electricity. The unit utilizes unique Firetrace flexible tubing that is attached to the cylinder valve. This tubing is pressurized with dry nitrogen to maintain the cylinder valve in the closed position. The tubing is temperature sensitive, and acts as a continuous linear thermal detector that ruptures upon direct flame impingement. Once the detector tubing is ruptured, the cylinder valve automatically opens, allowing the CO2 agent to flow through the discharge tubing, distributing the extinguishing agent through the nozzle(s) onto the protected area. Upon actuation, the pressure switch can be used to indicate discharge, shutdown ventilation, close all openings, shut-off electrical power, etc. as may be required. 3.1.1 Operating Pressure The CO2 cylinder is stored as a liquefied gas under its own pressure; 838psig @ 70°F. 3.1.2 Operating Temperature Range Limitations: The ambient operating temperature range for all unit components is: 0°F to +130°F (-17.8°C to +54.4°C). 3.2 Component Descriptions 3.2.1 CO2 Cylinder Valve Assemblies CO2 is stored in DOT/TC aluminum cylinders as a liquefied compressed gas, under its own pressure; 838psig @ 70°F (5,778 KPa @ 21°C). The cylinder/valve assemblies are FM Approved in 3 sizes, namely: 5 LB size filled with 5.0 LBS (2.27 Kg) of CO2 10 LB size; filled with 10.0 LBS (4.54 Kg) of CO2 20 LB size; filled with 20.0 LBS (9.07 Kg) of CO2 Each cylinder is equipped with a brass valve and a quarter turn ball valve that interfaces with the Firetrace detector tubing. The ball valve must be kept closed at all times when the cylinder is not in service. In addition, the CO2Cylinder valves are equipped with a pressure relief (rupture disc) device in compliance with DOT/TC requirements. FM REV 3 Page 10 4/9/2007 1 Each valve is also equipped with (1) discharge outlet port and (1) filling port. Each port is provided with a safety cap that must be installed whenever a cylinder is not in service. These caps are safety devices designed to prevent uncontrolled discharge of the cylinder in the event that the valve is accidentally actuated. WARNING The safety caps must be installed on the valve discharge port and filling port at all times, except when connected into the units discharge tubing or when filling. Failure to follow these instructions could result in personal injury, death or property damage. Table 3.1 describes the 5, 10 and 20 LB cylinder assemblies. Each cylinder is equipped with a straight siphon tube and can only be mounted in a vertical (upright) position. Table 3.1: CO2 Cylinder / Valve Assemblies Nom Size Assy Part No. Outside Dia. Overall Hei ht Internal Volume CO2 A ent Fill Density in. cm in. Cm ire cm3 Ib. kg % 5 110050 5.25 12.70 20.0 50.67 205 3359 5.0 2.27 68 10 110100 6.89 17.50 22.4 55.32 408 6717 10.0 4.54 68 20 110200 8.00 20.32 29.0 72.14 816 13340 20.0 9.07 68 Table 3.2 describes the DOT/TC Specifications used for the manufacture of the CO2 cylinders. Table 3.2: DOT/TC Cylinder Specifications Nominal Size DOT Spec TC Spec Cylinder Service Pressure psig Test Pressure DOT psig TC psig 5 3AL1800 3ALM124 1800 3000 2700 10 3AL1800 3ALM124 1800 3000 2700 20 3AL1800 3ALM124 1800 3000 2700 The Firetrace CO2 Units are designed for an operating temperature range of 0°F to +130°F. Table 3.3 shows the cylinder, pressure -temperature relationship based on a maximum fill density of 68%; and a charged pressure of 838 psig at 70°F Table 3.3: Cylinder Pressure -Temperature Relationship FM REV 3 Page ll 4/9/2007 Cylinder Pressure Temperature °F °C Pressure psig kPa 32 0.00 505 3,481 40 4.44 567 3,909 50 10.00 652 4,495 60 15.56 747 5,150 70; 21:1 fi ;852 $1874 80 26.67 975 6,722 90 32.22 1205 8,308 100 37.78 1465 10,100 110 43.33 1725 11,893 120 48.89 1995 13,755 130 54.44 2265 15,616 140 60.00 2545 17,547 150 65.56 2825 19,477 3.2.2 Cylinder Mounting Bracket A wall mounted painted steel bracket is used to mount the 5, 10, and 201b cylinder/valve assemblies in a vertical (upright) position. Each bracket is equipped with an interlocking steel strap that is secured with a metallic pin. 3.2.3 Firetrace Flexible Detector/Actuation Tubing The Firetrace tubing is used as a combination linear heat detector and unit activation device to cause actuation of the CO2agent cylinder. The tubing is installed throughout the hazard volume, with one end connected to the CO2 cylinder valve. The tubing is pressurized with nitrogen to 195 psig while maintaining the ball valve in the "OFF" position. An optional pressure gauge or pressure switch can be connected to the other end of the detector tube to monitor tubing pressure and/or signal unit actuation etc. The detector tubing is heat sensitive and in a fire situation is designed to rupture at any point along the tube. The rupture of the tube releases the nitrogen pressure causing the CO2 cylinder valve to actuate, resulting in complete discharge of the CO2agent through the nozzles. 3.2.4 Discharge Nozzle Discharge nozzles are used to distribute CO2agent uniformly throughout the hazard area. One size nozzle is available for use with all IHP models, and must be used within the limitations described in this Manual 3.2.5 Pressure Switch A pressure switch is available as an optional item. This switch can be connected at the end of the line of the Firetrace detector tubing to monitor unit pressure, unit actuation and or to energize or de -energize electrically operated equipment. Firetrace recommends that all units use a pressure switch coupled with some device to alert personnel in the event of discharge. FM REV 3 Page 12 4/9/2007 3.2.6 Recharge Adapters, CO2 Cylinder The recharge adapter is connected to the filling port located on the cylinder valve during the cylinder recharging procedure. The adapter is used for refilling the cylinder with CO2. 3.2.7 Cylinder N2 Recharge Adapter The recharge adapter is connected to the Firetrace tubing, and the other end of the tubing is attached to the ball valve, located on the cylinder valve, during the charging procedure. The adapter is used to apply nitrogen pressure to the detection tubing, and to keep the valve piston seated. 3.2.8 CO2 Warning Nameplate The Waming Plate is required to warn personnel not to enter the hazard area during or after discharge. Warning signs shall be provided in a conspicuous location, at the entrance to the protected areas, or in the case of cabinet protection on the front face of the cabinet. Signs must be in accordance with. NFPA 12, Section 4.3. FM REV 3 Page 13 4/9/2007 4.0 SYSTEM DESIGN AND LIMITATIONS FOR TOTAL FLOODING 4.1 General The Firetrace series of CO2 Pre -Engineered Automatic High Pressure Extinguisher units were tested and limits established by Firetrace and Factory Mutual. These units were subjected to numerous performance tests, in order to verify their suitability and to establish design limitations for: • Hazard volume • Nozzle placement • Discharge time and flow rates • Design concentrations & design factors • Detector tubing placement The pre-engineered automatic unit concept minimizes the amount of engineering required when evaluating a design for a specific application. So long as the discharge piping, tubing, and nozzles are installed within the limits prescribed in this manual, no calculations are required for pressure drop, flow rates or discharge time. When the additional limitations of hazard volume, design concentration, agent quantity, detector arrangement, etc., are also met, the unit installation can be understood to comply with the design requirements, NFPA-12, and FM Approval. 4.2 Design Procedure The following procedures should be used to design a Firetrace CO2 pre-engineered IHP automatic extinguisher unit. In addition, the applicable requirements specified in NFPA-12 should be followed. a. Conduct a survey and analysis of the hazard to be protected b. Determine the height, length, and width of the enclosure. Calculate the volume. All of these parameters must be within the dimensional limits specified in this manual. (See Section 4.3, Table 4.1): c. Determine the anticipated minimum and maximum ambient temperatures expected within the enclosure to be protected. d. Determine the minimum design concentration required for the hazard. (See Section 4.5 and Table 4.3). e. Determine the integrity of the enclosure. Are there any openings that must be closed at the time of agent discharge? (See Section 4.6). f. Calculate the quantity of CO2agent required, with the proper design concentration, to protect the enclosed space. (Refer to Section 4.7 and Example 4.8.1). g. Determine the cylinder size required, based on the hazard volume limitations, enclosure size, and quantity of CO2agent required. h. Determine the location of the CO2cylinder. i. Determine the location and quantity of nozzles required, based on the size and configuration of the enclosure. (See Section 4.9 and Table 4.6). j. Determine the routing and quantity of discharge pipe (tubing) required. The discharge pipe (tubing) and fitting limitations must not be exceeded. (See Section 4.9 and Table 4.6). FM REV 3 Page 14 4/9/2007 k. Determine the arrangement and placement of the Firetrace detector tubing. (See Section 4.10). I. Determine any auxiliary equipment requirements, such as pressure switch(s) to sound alarms, shut -down ventilation, shut-off electrical power, etc.. m. Prepare system drawings, bill of materials list, etc; following Section 4.4 of NFPA-12 2005 Edition. 4.3 Hazard Enclosure Volume Limitations The maximum volume for each size unit is shown in Table 4.1. The protected enclosure can be any size or shape provided that the volume does not exceed the limitations shown in Table 4.1 with the exception of the IHP-2000 as noted below. Table 4.1: Enclosure Size Limitations Model CO2 (Lbs) Volume (Ft3) IHP-0500 5.0 70 IHP-1000 10.0 140 IHP-2000 20.0 300* * At least one dimension (I, w, h) must not exceed 2 feet Volumes are based on 34% Design Concentration 4.4 General Specifications 4.4.1 Discharge Time: Surface fires: The design concentration must be achieved within 1 minute from start of discharge. 4.4.2 Storage and Operating Temperature Range: The Firetrace CO2 units and equipment are designed to be stored and operated at an ambient temperature range of 0°F to +130°F. (-17.8°C to +54.4°C). 4.4.3 System Operating Pressure: The normal operating pressure for the unit is 838 psig at 70°F. 4.5 Minimum Design Concentrations The minimum design concentrations to be used with Firetrace CO2 units shall not be less than 34%. For class B hazards, proper consideration must be given to the material involved in the hazard, the design concentration should then be given a safety factor (SF) of 20%, as specified in NFPA-12, Year 2005 edition. FM REV 3 Page 15 4/9/2007 Table 4.2: Minimum Safety Factor Hazard Type Minimum Safety Factor Class B Flammable Liquids 20% Table 4.3 lists CO2 minimum design concentrations that must be used with Firetrace CO2 units for Class A hazards and the various Class B fuels shown. Consult Firetrace website, or contact Firetrace if the hazard you desire to protect is not listed. Table 4.3: Minimum Carbon Dioxide Concentrations for Extinguishment Material Theoretical Minimum CO2 Concentration % Minimum Design CO2 Concentration % Class A (surface fires) (a) Including plastic materials typically found in electrical/electronic equip 34 34 Class B fuels (4) Acetylene 55 66 Acetone 27 34 Aviation Gas Grades 115/145 30 36 Benzol, Benzene 31 37 Butadiene 34 41 Butane 28 34 Butane -I 31 37 Carbon Disulfide 60 -• . 72 Carbon Monoxide 53 64 Coal or Natural Gas 31 37 Cyclopropane 31 37 Diethyl Ether 33 40 Dimethyl Ether 33 40 Dowtherm 38 46 Ethane - 33 40 Ethyl Alcohol 36 43 Ethyl Ether 38 46 Ethylene 41 49 Ethylene Dichloride 21 34 Ethylene Oxide 44 53 Gasoline 28 34 Hexane 29 35 Higher Paraffin Hydrocarbons C„H2m+2m-5 28 34 Hydrogen 62 75 FM REV 3 Page 16 4/9/2007 Hydrogen Sulfide 30 36 Isobutane 30 36 Isobutylene 26 34 Isobutyl Formate 26 34 JP -4 30 36 Kerosene 28 34 Methane 25 34 Methyl Acetate 29 35 Methyl Alcohol 33 40 Methyl Butene - I 30 36 Methyl Ethyl Ketone 33 40 Methyl Formate 32 39 Pentane 29 35 Propane 30 36 Propylene 30 36 Quench, Lube Oils 28 34 Note: The theoretical minimum extinguishing concentrations in air for the materials in the table were obtained from a compilation of Bureau of Mines, Limits of Flammability of Gases and Vapors (Bulletins 503 and 627) For all materials not given in Table 4.3, the minimum theoretical carbon dioxide concentration shall be obtained from some recognized source or determined by test. 4.6 Openings and Ventilation Shutdown Provisions must be made to provide means to close all openings in the hazard enclosure and shut-off ventilation at the time of discharge. 4.7 CO2 Design Concentration Flooding Factors The total flooding quantity of CO2 agent needed to protect an enclosure containing a material requiring a 34% design concentration can be found in Table 4.4. To find the total quantity of CO2 required, multiply the hazard volume by the Volume Factor found in Table 4.4 If the design concentration is greater than 34%, the basic quantity calculated from Table 4.4 shall be multiplied by the corresponding conversion factor found in Figure 4.1. CAUTION This table should only be used for materials requiring a 34% CO2 Design Concentration. And for environments where the temperature ran ' e is between 0-130° F FM REV 3 Page 17 4/9/2007 Table 4.4: Flooding Factors for 34% Concentration. (A) Volume of Space (B) Volume Factor (C) Calculated Quantity (LB) (Ft3) Ft3/Ib CO2 Ib CO2/Ft3 (Not Less Than) Up to 140 14 0.072 -- 141-500 15 0.067 10 501-1600 16 0.063 35 1601-4500 18 0.056 100 4501-50,000 20 0.050 250 Over 50,000 22 0.046 2500 5 4 2 30 40 50 60 70 Minimum Design CO2 Concentration (%) Figure 4.1: Conversion Factor for Design Concentrations Greater than 34%. 80 4.8 Maximum Protected Volume The maximum volume that can be protected by the Firetrace CO2 units is dependent on the minimum design concentration. The maximum volumes calculated from Table 4.4 for concentrations of 34% for Firetrace CO2 systems are listed below. Table 4.5: Maximum Protected Volume for IHP Systems Model Volume (ft3) IHP 0500 Up to 70 IHP1000 71to140 IHP 2000 141-300 FM REV 3 Page 18 4/9/2007 4.8.1 Example Calculations The requirements given in Sections 4.1 through 4.8 describe the procedures to be used to design and size a Firetrace IHP CO2 unit. The following example provides guidelines, following procedures 4.2.a, through 4.2.e., in order to determine the quantity of CO2 agent required and cylinder size for a total flooding application. Example: Given: • Hazard — Small cabinet storing Ethyl Alcohol. • Class B hazard • Enclosure size: 4' wide x 4' long x 6' high. One (1) access door equipped with self closing apparatus • Minimum anticipated ambient temperature: 50°F • Maximum anticipated ambient temperature: 90°F Procedure: a. Determine min. design concentration required (Refer to Table 4.2) Use 43% min. design concentration for Ethyl Alcohol. b. Calculate hazard volume (V). V = 4' x 4' x 6' =96 Ft3 c. Calculate quantity (Q) of CO2 required first using volume factor for 34% concentration (Refer to Table 4.4) volume of 96 Ft3 shows that a Volume Factor 0.072 Lb CO2/Ft3 Q = 96 Ft3 x 0.072 Lb CO2/Ft3 = 6.912 Lbs. of CO2 is required. Because this is based on a 34% concentration, it must be multiplied by the conversion factor, which can be found in Figure 4.1. For a design concentration of 43%, the conversion factor is 1.25. Qtotal = 6.912 x 1.25= 8.64 Lbs (This then requires the' Lite of a IHR -1000 with 10 Lbs of CO2) 4.9 Nozzle and Discharge Tubing Requirements 4.9.1 Discharge Nozzle Limitations One size nozzle P/N 510010 is to be used with all Firetrace-IHP CO2 extinguisher units in total flooding applications. Placement of nozzles shall be such that discharge of CO2 will not splash flammable liquids or create dust clouds that could extend the fire. More than one nozzle can be used to protect a particular hazard, as long as the "Equivalent Length of Pipe" for Firetrace IHP CO2 systems is not exceeded. Refer to section 4.9.3 for information regarding the "Equivalent Length of Pipe". FM REV 3 Page 19 4/9/2007 4.9.2 Discharge Piping & Fitting Specifications All Firetrace IHP Units shall use steel piping for the distribution system. The following piping and fittings shall be used. Piping Specifications: Material: Black or Galvanized steel pipe Type: ASTM A 53 seamless or electric welded, Grade A or B Size: '/z Pipe Note: For other options consult NFPA 12 2005 Edition Section 4.7 Pipe Fitting Specifications: Material: Malleable or ductile iron fittings Type: Class 300 4.9.3 Maximum Piping and Fitting Limitations The maximum "Equivalent Length of Piping" shall not exceed 24ft. The "Equivalent Length of Piping" includes individual lengths of pipe and all pipe fittings. Table 4.6 includes the equivalent lengths of Yz inch threaded pipe fittings that need to be considered when determining the total "Equivalent Length of Piping". Table 4.6: Equivalent length in feet of threaded pipe fittings. Pipe Size Elbow Std. 45° Elbow Std. 90° Elbow 90° Long Radius & Tee Thru Flow Tee Side Union Coupling 1/2 0.8 1.7 1.0 3.4 0.4 4.10 Firetrace Detector Tubing For the Indirect CO2 units, the Firetrace tube is used as a combination heat detector and unit activation device to cause actuation of the CO2agent cylinder. The detector tubing is heat sensitive and in a fire situation is designed to rupture at any point along the tube upon direct flame impingement. Location and spacing of the tubing is critical to the response time in the event of a fire. The tubing should be placed above the hazard areas being protected. The drawing in Appendix A provides general guidelines for placement of the detector tubing along with the maximum spacing and height limitations. Depending on the configuration of specific hazards, the guidelines may, or may not, be applicable. The maximum length of tubing that can be used for any IHP unit is 120 feet. The maximum height that is allowed between layers is 3.28 feet. The maximum distance between passes is 21.12 inches. FM REV 3 Page 20 4/9/2007 NOTE: It is recommended that the tubing not be placed horizontally adjacent to potential fire sources as this may significantly delay response time. FM REV 3 Page 21 4/9/2007 5.0 INSTALLATION INSTRUCTIONS This section provides installation instructions covering components and limitations described in Sections 3 and 4 of this manual. All components should be installed to facilitate proper inspection, testing, recharging, and any other required service or maintenance as may be necessary. Equipment must not be subjected to severe weather conditions or mechanical, chemical, or other damage, which could render the equipment inoperative. The equipment must be installed in accordance with instructions in this manual and NFPA 12. WARNING CO2 cylinder/valve assemblies must be handled, installed, and serviced in accordance with the instruction contained in this manual and on the cylinder nameplate. Failure to follow these instructions could result in severe injury, property damage or death. 5.1 CO2 CylinderNaive and Bracket Assemblies The CO2 cylinders should be located as close as possible to the protected enclosure. In some cases the cylinder can be mounted inside the protected enclosure. The assemblies shall be located in a readily accessible location to allow for ease of inspection service and maintenance. The cylinders shall be located in an environment protected from the weather and where the temperature range is between 0°F and + 130°F. Cylinder and bracket must be mounted in the vertical plane with the cylinder valve facing up. Mount the cylinder where it will not be subject to accidental damage or movement. Suitable protection must be installed where necessary to prevent damage or movement. CAUTION Make sure that the ball valve, located on the cylinder valve, is maintained in the "OFF" position, and the discharge port safety caps are in place. Failure to follow these instructions will result in actuation and discharge of the cylinder contents. 1. Securely mount the cylinder bracket to structural support using 2 or more mounting holes. 2. Secure cylinder in place using the bracket strap. 5.2 Discharge Piping and Nozzles 1. Locate the nozzle(s) following the guidelines and limitations described in Section 4.9. FM REV 3 Page 22 4/9/2007 2. Determine the routing of the discharge piping following the guidelines and limitations described in Section 4.9 3. Remove the safety cap from the valve discharge port as required. Attach female connection fittings (Firetrace P/N 200201) onto discharge port. 4. Install the necessary piping and fittings between the cylinder and nozzle(s). Secure piping with appropriate size piping clamps as required. 5.3 Firetrace Detection Tubing CAUTION 1. Do not kink, bend, or crush Firetrace tubing in order to prevent leakage, which could result in accidental unit discharge. 2. Do not install tubing in a hazardous environment where the maximum ambient temperature exceeds 176°F (80°C) 3. Do not place the tubing on a surface where the temperature of the surface exceeds 140°F (60°C) 4. Maximum length of detector tubing shall not exceed 120 Feet. 1. Follow guidelines as outlined in section 4.10 and the drawing in Appendix A for the tubing placement. 2. Secure detection tubing using Mounting Tabs at 1.5 ft. intervals. 3. Use appropriate rubber/plastic grommets when detection tubing is routed through sharp holes in order to prevent damage to the tubing. 4. Connect the end of line adapter and spring top unit to the detection tubing as shown in Appendix A. 5. When installing tubing to the cylinder valve make sure that the detection tubing is pushed through the top of the ball valve inlet all the way through to the shoulder and then tighten the spring top unit to a torque of 4-6 Nm. 6. Ensure the detection tubing is pushed through the end of line adapter all the way through to the shoulder. Then tighten the spring top unit to the end of line adapter to a torque of 4-6 Nm. 7. The detector tubing is now ready to be pressurized with nitrogen. (See section 5.4 for pressurization procedure) 5.4 Pressurization of Firetrace Detection Tubing 1. Attach the filling adapter (P/N 600023) to the detector -tubing end of line adapter. 2. Using a regulated dry nitrogen supply, pressurize the detection tubing with dry nitrogen through the filling adapter to 195 psig. It is recommended to have a portable dry nitrogen cylinder for on site use. FM REV 3 Page 23 4/9/2007 3. Remove the filling adapter and attach calibrated test pressure gauge & 0 -ring to verify that the tubing is pressurized to at least 195 psig at 70°F. 4. With gauge still attached to the end of line adapter, test for leakage. • Apply soapy water solution to the cylinder valve connection, end of line adapter connection, and the pressure gauge connection. Observe for bubble leaks. • Wait 30 minutes, then observe pressure gauge. Any decrease in pressure is an indication of a leak. • In the event of a leak go back to Section 5.3 and repeat steps 4, 5, & 6. • If no leaks are observed proceed to step 5 of Section 5.4 5. If an optional pressure switch is to be installed in the EOL adapter, remove pressure gauge and install the washer and pressure switch using wiring instructions located on the device. Check pressure switch connection for bubble leaks using soapy water solution. 6. After confirming that there is no leakage within the detector tubing, SLOWLY rotate the ball valve lever counter clockwise to the "ON" position. CAUTION If the ball valve lever is opened abruptly this may result in activation of the cylinder valve and unit discharge. 7. Tamper proof the unit by choosing one of the options below a. Option #1 Remove the ball valve fever completely. Follow directions for removal of lever listed in Appendix A. b. Option #2 Attach tamper seal around the ball valve lever to secure it in the "ON" position, which is the set/ready position also shown in Appendix A. 8. Ensure appropriate electrical connections to the optional EOL pressure switch, which can be used to annunciate unit discharge, shut down ventilation, etc., as may be required by the end user or the AHJ. (All electrical connections are to be in accordance to NFPA.70 National Electric Code) 9. Attach the waming nameplate(s) (Firetrace P/N 800031) to the appropriate locations. 10. Unit is now fully armed and ready for use. FM REV 3 Page 24 4/9/2007 6.0 SERVICE, MAINTENANCE, & FILLING INSTRUCTIONS WARNING 1. CO2cylinder/valve assemblies must be handled, installed, inspected and serviced only by qualified and trained personnel in accordance with the instructions contained in this manual, the cylinder nameplate, NFPA-12, and any other regulations and codes that may apply. 2. Before performing maintenance or refilling procedures refer to the material safety data sheets in the appendix at the back of this manual. 6.1 General A regular program of systematic maintenance must be established for continuous, proper operation of all CO2 units, and to avoid violating the warranty. A periodic maintenance schedule must be followed and an inspection log maintained for ready reference. As a minimum, the log must record: (1) inspection interval, (2) inspection procedure performed, (3) maintenance performed, if any, as a result of inspection, and (4) name of inspector performing task. 6.2 Periodic Service and Maintenance Perform service and maintenance of the CO2 unit in accordance with the schedule shown in Table 6.2 Table 6.2: Periodic service and maintenance schedule. Schedule Requirement Reference Paragraph Weekly Visually inspect unit components 6.3.1 Monthly Visually inspect unit components. 6.3.1 Semi-Anually Check CO2 cylinder weight. Check nozzles for obstruction. 6.3.2 Every 5 Years Perform external visual inspection of CO2 Cylinders. 6.3.3 6.3 Periodic Service and Maintenance Procedures FM REV 3 Page 25 4/9/2007 t. 6.3.1 Weekly/Monthly: Performed by Owner or End User 1. Make a general visual inspection of the CO2 cylinder and equipment for damaged or missing parts. 2. Ensure access to hazard areas, discharge nozzles, and cylinders are unobstructed and that there are not obstructions to the operation of the equipment or distribution of CO2 agent. 3. Inspect detection tubing in hazard area for abrasion, distortion, cuts, or dirt accumulation, and that there are no obstructions preventing tubing from sensing a fire should one occur. 4. Verify that there have been no changes in the size of the enclosure and that no new ventilation has been added. 6.3.2 Semi -Annual Inspection 1. Check CO2 cylinder for weight. 2. Remove cylinder from the installation as follows: • Close ball valve, by tuming ball valve lever clockwise to the "OFF" position. • Disconnect detector tubing at the ball valve. Note: There will be a loss of nitrogen pressure out of the tubing. • Disconnect piping and fittings from the cylinder valve discharge port. • Immediately install safety cap onto the valve discharge port. • Remove cylinder from bracket 3. Weigh cylinder. Compare measured weight with weight found on the cylinder nameplate. If the container shows a loss in agent quantity of more than 10 percent, the cylinder shall be refilled or replaced. 4. Remove nozzle(s) and inspect for obstructions. Reinstall nozzles. 5. Reinstall cylinder and re -pressurize detector tubing with nitrogen following the applicable procedures outlined in Section 5.0. 6.3.3 Five Year Inspection CO2 cylinders continuously in service without discharging shall be given a complete external visual inspection in place, every 5 years or more frequently if required. 6.4 Post Fire Maintenance In the event of a unit discharge the following procedures shall be performed. 6.4.1 CO2 Cylinder Valve FM REV 3 Page 26 4/9/2007 Remove the cylinder assembly from the installation following procedures detailed in Section 6.3.2, Step 2. Inspect and service the CO2 cylinder valve as follows: WARNING Prior to removal of the valve from the cylinder, verify that all pressure has been released. To relieve any remaining pressure loosen but do not remove the valve safety caps. Then open the ball valve to the "ON" position and allow any residual pressure to leak out past the plugs. 1 Only after verifying that the cylinder has been depressurized, remove valve from cylinder. 2 Perform a visual inspection of the valve to verify that no damage occurred due to the fire. If integrity of the valve looks compromised, contact Firetrace. The valve should not be serviced by anyone other than a Firetrace Technician. 3 Change the cylinder/valve o -ring. Discharge of CO2 causes the o -ring to undergo vacuum decompression; failure to change the o -ring will result in leaks around the cylinder/valve connection. 3. Re -seat the piston in the valve by following the procedure in Section 6.6, Step 2. 6.5 CO2 Cylinder Retest Firetrace CO2 cylinders are built to DOT-3AL specifications and therefore fall under DOT regulations for retest prior to refill. DOT-3AL cylinders used exclusively in CO2 service are required to be retested and re - stamped prior to recharge and shipment if the last retest date has expired. Firetrace CO2 (DOT-3AL) containers requiring retest must be hydrostatically tested in accordance with DOT CFR Title 49, Section 173.34(e). This periodic retest must be performed by an authorized retester having a current identification number issued by the Associated Administrator for Hazardous Material Safety of DOT, and must include an internal and external examination in accordance with CGA pamphlet C-6, C-6.1, C-6.2, or C-6.3, as applicable. The test procedures are described in CGA pamphlet C-1. Because volumetric expansion of the container must be measured, only the water jacket volumetric expansion method or the direct expansion methods are acceptable. As an alternate option, CO2 agent containers may be given a complete extemal visual inspection, as detailed in Section 173.34(e)(13), in lieu of hydrostatic test. The visual inspection shall only be made by competent persons. A person who performs the visual examination specified in 173.34(e)(13) is not required to have a re -tester's identification number. FM REV 3 Page 27 4/9/2007 Retest can be performed by either of the following methods: Retest Method First Retest Due (Yrs) Subsequent Retest Due (Yrs) Special Marking Full hydrostatic test including determination of cylinder expansion. 5 5Month Retest Date Date Retest ear External visual inspection per paragraph 173.34(e)(13) and CGA pamphlet C-6, Section 3. 5 5 Retest Date followed by "E" 6.6 Filling Procedures 1. Weigh and record cylinder empty weight with valve and the 2 safety caps installed. 2. Remove the safety cap from the discharge port and visually check that the piston is seated inside of the valve. Replace safety cap. (If piston is not seated, apply 195 psi of Nitrogen pressure through the ball valve. You will be able to hear the piston change positions. Retum ball valve to "OFF" position and remove hose connection). 3. Remove safety cap from filling port and attach Firetrace CO2filling adapter (P/N 60024) to filling port 4. Attach CO2 supply line to filling adapter. (CO2 is to be pumped) 5. Place the cylinder, with supply line hooked up, on scale and zero the scale. Open the supply of CO2from bulk tank to fill the cylinder to the required weight. 6. Close supply of CO2 while maintaining all connections. 7. Disconnect CO2 recharge adapter and immediately attach discharge port cap to valve. CAUTION Any hissing or discharge coming from vent valve indicates that the piston is not seating properly or has opened. If this occurs, repeat Step 10 and verify that the cylinder valve piston remains closed. 8. Verify weight by checking it against what is printed on the label. 9. Leak test the cylinder. 10. Cylinder is now ready to be transported to the installation site. Note: All reasonable efforts must be made to prevent emitting any CO2 to the environment during filling or servicing of Firetrace units. FM REV 3 Page 28 4/9/2007 APPENDIX A COMPONENT DESCRIPTION DRAWINGS INSTALLATION DRAWINGS FM REV 3 Page 29 4/9/2007 Parts List 5, 10, & 20 LB. PRE-ENGINEERED AUTOMATIC INDIRECT CO2 EXTINGUISHER UNIT MODELS 950504 5 LB. CO2 IHP 951004 10 LB. CO2 IHP 952004 20 LB. CO2 IHP ITEM PART NO. DESCRIPTION SYSTEM 1 310201 IHP Valve All Systems 2 110050 5 Lb. Cylinder 5 LB 2 110100 10 Lb. Cylinder 10 LB 2 110200 20 Lb. Cylinder 20 LB 3 600008 Siphon Tube 5le"x131/4 5 LB 3 600005 Siphon Tube 5/8"x151/4' 10 LB 3 600006 Siphon Tube 5/8"x211/2" 20 LB 4 111201 5 Lb. Heavy Duty Bracket 5 LB 4 111010 10 Lb. Heavy Duty Bracket 10 LB 4 111020 20 Lb. Heavy Duty Bracket 20 LB 5 310310 Discharge Port Safety Cap All Systems 6 310305 Collar 0 -Ring All Systems 7 200160 Spring Top Support Unit All Systems 8 600053 Pull Pin All Systems 9 600007 Nameplate: CO2 All Systems * 800100 Warranty/Registration Card All Systems " 200201 Discharge Port Adapter All Systems * PART NOT PICTURED FM REV 3 Page 30 4/9/2007 Discharge Line Parts List ITEM NUMBER PART NUMBER DESCRIPTION 2 200201 IHP Discharge Port Adapter ` 200101 'l1e" Copper Compression Bulkhead * 200111 'l,s" Copper Compression Elbow * 200121 5l16" Copper Compression Tee 3 510010 Small Total Flood Nozzle 5 200145 W Copper Compression Bulkhead ' 200147 W Copper Compression Union ' 200148 Hydraulic Hose Total Flooding Nozzle Adapter 1 200112 W Copper Compression Elbow 4 200122 W Copper Compression Tee 6 500024 Total Flooding Nozzle ' 510015 IHP Wide Dispersion Nozzle * 510016 IHP Narrow Dispersion Nozzle 201802 2' Hydraulic Discharge Hose With Elbows ' 201804 4' Hydraulic Discharge Hose With Elbows ' 201806 6' Hydraulic Discharge Hose With Elbows ' 201808 8' Hydraulic Discharge Hose With Elbows ' PART NOT PICTURED FM REV 3 Page 31 4/9/2007 Detection Line Parts List ITEM NUMBER PART NUMBER DESCRIPTION ` 200005 Firetrace Detection/Actuation Tubing (by the foot) ` 200125 Tube Union With Spring Tops 1 200126 Tube Tee With Spring Tops * 200136 Bulkhead With Spring Tops 4 200155 Tube Elbow With Spring Tops ` 200160 Spring Top ` 200158 Tube Union Slip On Fitting 2 200157 Tube Tee Slip On Fitting 5 200178 Tube Elbow Slip On Fitting * 200179 Tube to Threads Union Slip On Fitting * 200177 Tube to Threads Tee Slip On Fitting ` 200159 Tube to Threads Elbow Slip On Fitting * 200133 Tube Plug 3 600064 Manual Release With CO2 Gauge and Spring Top * 200168 End Of Une Adapter With Spring Top ` 200169 In Line Adapter With Spring Tops * 310303 Plug With 0 -Ring For End Of Line Adapter * 400029 CO2 195 psi Pressure Gauge • 400004 Pressure Switch With Washer for End Of Line Adapter * 600090 Audible Alarm (Battery Operated) * 200171 Mounting Tabs (Qty. 12) * 200150 Rubber Grommets (Qty. 2) * 200151 Plastic Grommets (Qty. 2) " PART NOT PICTURED FM REV 3 Page 32 4/9/2007 Firetrace Indirect High Pressure (IHP) Valve P/N 310201 A FILLING PORT WITH SAFTEY CAP ❑PTI❑NAL PRESSURE SWITCH PORT DISCHARGE PORT WITH SAFTEY CAP BURST DISC FM REV 3 Page 33 4/9/2007 DIMENSIONS (INCHES) DIMENSI❑NS (METERS) VALVE A B C D A B C D CO2 6.625 5 1.125-12 UNF-2A G 3/8 0.168 0.127 1125-12, UNF-2A G 3/8 FM REV 3 Page 33 4/9/2007 a Firetrace IHP System Overview NOZZLE FILLING ADAPTER (REMOVE AFTER PRESSURIZING LINE) END OF THE LINE ADAPTER 11f=IlIkawunmuutuuun SPRING TOP SUPPORT UNIT OPTIONAL MANUAL RELEASE 'NOTE: Manual Release can be used in place of an End of Line Adapter, or can be added at any point along tube by adding a "T" fitting End of Line Adapter may also incorporate an optional Pressure Gauge or a Pressure Switch NOZZLE SPRING TOP SUPPORT UNIT INDIRECT HIGH PRESSURE VALVE HIGH PRESSURE DISCHARGE PORT ADAPTER TUBING CLIPS FIRETRACE DETECTION TUBING BRACKET FM REV 3 Page 34 4/9/2007 Firetrace Tubing Placement Diagram PLANE OF TUBING PLACEMENT 12ft 2.16ft <0.658n) PLANE OF TUBING PLACEMENT 3.28ft (1m) PLANE OF TUBING PLACEMENT 3.28ft (1n) PLANE OF TUBING PLACEMENT 3.28ft <In) MAXIMUM HEIGHT' TUBING. LAYOUT Side View" Maximum Length; 120ft Maximum Height Between Layers 3.28ft Maximum Distance Between Passes: 21.12in TUBING PLACED AT 3.28ft <lri) HIGH INTERVALS 21.12' <53.8cm) 6ft MAXIMUM AREA TUBING LAYOUT Overhead View 6ft FM REV 3 Page 35 4/9/2007 1. 2. 3. 4. 5. 6. Ball Valve Lever Plastic Tie 4" Long 18 LB Tensile Strength Option #1 Check to see that the ball valve lever is set to the "ON" position. Remove the ON/OFF faceplate. Pull the tie through the hole in the ball valve lever. Wrap the tie around the ball valve assembly. Firmly Dull on the tie to tighten and secure the lever. If desired. cut off the excess tie. Option #2 1. Remove the ON/OFF faceplate. 2. Unscrew the ball valve lever from the assembly. 3. Pull the lever off of the ball valve assembly. 4. Keep the items in a bag and secure them to the unit. FM REV 3 Page 36 4/9/2007 APPENDIX B Material Safety Data Sheet FM REV 3 Page 37 4/9/2007 Otkm - • tf) Fire Trace Detection tubing routed through -out machining cabinet 2nd CO-2 nozzle » inside machine 4 Note Manaual is, release Station >> CO-pprotecti� to se of comk onarts during Firetrace IHP System Overview NOZZLE Cr 6'‘"7 I("11"..1 rvl.... �-�[i r14L1 ..... S y 4_-11 t- r_ _ SN‹) -14. •-• FILLING ADAPTER (REMOVE AFTER PRESSURIZING LINE) END OF THE LINE ADAPTER 11f=1:/1 �numuiaununuu. SPRING TOP SUPPORT UNIT OPTIONAL MANUAL RELEASE 'NOTE: Manual Release can be used in place of an End of Line Adapter, or can be added at any point along tube by adding a "T fitting End of Line Adapter may also incorporate an optional Pressure Gauge or a Pressure Switch FM REV 3 NOZZLE SPRING TOP SUPPORT UNIT ale INDIRECT HIGH PRESSURE VALVE HIGH PRESSURE DISCHARGE PORT ADAPTER 1 PIP u � TUBING CLIPS FIRETRACE DETECTION TUBING BRACKET Page 34 4/9/2007 `� c. \ 9J� L l -e c F-7 RSA t.,1 r-4PJ PAID SEP 262012 TUKWILA FIRE Cc i res suppressing risk. securing peace of mind. 7661 159th P1 NE Redmond, WA 98052 P.O. Box 659 Redmond, WA 98073-0659 Tel: 425-641-2127 Fax: 425-562-6662 0 W;thti lit Comments As Note:: Red Per The Attache.0 Letter These plans have iy,,er reviewed by The Tukwila Fire Prevention Bureat with current City stands A c rr;:.t ::iibtect to errors and ornissioh5 which: _ , . , ,., oiat;ons of adopted standafds anui ,- : - .: r"' r;'S'_iitr“>"i i:ty for the adequacy of -.... . ire designer. Additions, ; e;ei_;_::>, '<°vtsiuos :o itiese drawings after this date ;.s:1: y.r=iJtU�c _ 3:;d :,,ii? require a resubmittal i�¢ : �5� , c;; .�,,,;w ":" suosequent approval. Final acceptar,:_ ��o:T� ;o ticic test and inspection by The Tukwila r -i. : "i:• 9Lreeau. Date: /D-3 -1_61- .q )J(( s-(54-ek, 4o a-,ect-I ' 1, Auk alav,t, s.s/s6_ 4:)r ► horn; Vey-. rn,) ctioA vto ty NOTICE A completed, signed, Tukwila Fire Department Pre-test Certificate must be presented to the Inspector prior to commencement of Acceptance Testing of any Fire Alarm and Detection Systems. Failure of test will result in a Re -inspection Fee and t.rrnination of the testing. TUKWILA FIRE DEPARTMENT Please call 206-575-4407 and give this Fire Permit No. :;r°d exact address for shut - or r-storation approval. Firetrace IHP System Overview FILLING ADAPTER (REMOVE AFTER PRESSURIZING LINE) END OF THE LINE ADAPTER SPRING TOP SUPPORT UNIT OPTIONAL MANUAL RELEASE * NOTE: Manual Release can be u sed in place of an End of Line Adapter. or can be added at any point along tube by adding a -r fitting End of Line Adapter may also incorporate an optimal Pressure Gauge or s Pressure Switch FMREV3 Page 34 4/9/2007 Co -z 5 -re rk F (1 e*. 1\rr 1- FM w©c er.,.at.emore, p, PAID SEP -9 2011 TUKWILA FIRE ccs suppressing risk. immuring peace of mind. 7661 159th PINE Redmond, WA 98052 P.O. Box 659 Redmond, W4 98073-0659 Tel: 425-641-2127 Fax: 425-562-6662 ACCEPTED o Without Comments $' As Noted in Red O Per The Attached Letter These plans have been reviewed by The Tukwila Fire nr2vention Bureau for conformance with current City standards. Acceptance is subject to errors and cirnissions which do not authorize violations of adopted 4andards and ordinances. The responsibility for the equacy of design rests totally with the designer. Additions, deletions or revisions to these orawings after leis date will void tliis acceptance and will require a resubmittal of revised drawings for suosequent approval. Final acceptance is subject to field test and inspection by The Tukwila Fire Prevention Bureau. Date: 9-610-(( By: l l SY s kw -iv 113 IL e p•er Par ote lTh e S . k• fski.. 4V ! - 4-iera 6145. FA- fISItr c a hgvt owt. 44Kis. NOTICE A completed, signed, Tukwila Fire Department Pre-test Certificate must be presented to the Inspector prior to commencement of Acceptance Testing of any Fire Alarm and Detection Systems. Failure of test will result in a Re -inspection Fee and termination of the testing.. TUKWILA FIRE DEPARTMENT Please call 206-575-4407 and give tht;5/ F° � Permit No.and ex//act address for shut- down or restoration approval. PARTIAL 2ND FLOOR PLAN SCALE: 1 /8' =1'-d GENERAL NOTES 1. NEW HEADS ARE ADDED FROM EXISTING OUTLETS. 2. ALL LINE PIPING AND OVERHEAD SPRINKLERS ARE EXISTING. 3. NO HANGERS REQUIRED. ACCEPTED Without Comments As Note() in Red Per T` .Araiched Letter :!se plans have bee.I re,,le'-ved r °r. , _t Ttukw Ua Fire ..? ftion Bureau ft), --" curti. Cfy ,.pdards. Accepr_. fissions which d : ndards and •equac°y of aaesi'; .a !oltions, ?is date will vo io • esubmittal of revis`::C =final acceptance is suci ' (ne Tukwila Fire Preventi:),; : • ',ate: S-9-3 -3 ( By;Al^(t,Sl 1 3dooted -or the ger. -,rigs r'Ler a ,; roval. :+- Jction b TUKWILA FIRE DEPARTMENT Please call 206-5754407 and gi-3 this Fire Pebmit No. and exact address for shut- down or restoration approval. SCOPE OF WORK ADD PENDENT HEADS TO CONFERENCE ROOM FROM EXISTING OUTLETS. PAID MAY 18 2011 TUKWILA FIRE ' 7 -z< - v Ci\ TV v HANGER LEGEND -s SPRINKLER HEADS USED SYM MAKE, td ORIFICE SIZE, TYPE & FINISH TEMP Fn's, QTY -- • RELIABLE 64. -SSP, 'h', CHROME j \ T7 (2) a REVISIONS MK DATE BY 1 CONTRACT WITH: FATIGUE TECHNOLOGIES 401 ANDOVER PARK EAST TUKWILA, WA CONTRACT NAME: FATIGUE CONF RV 401 ANDOVER PARK EAST TUKWILA, WA CRAIG — 206-246-2010 MATRIOT PATRIFP099CF T2707 ACOMA, 70thWA AVENUE E FAX 253; 922-6150 01 DESIGNER DATE JOB NUMBER i CLINT CARR fl - 'Irv, 12-13960 k _ _ t� j—1 - 41 �' T , � ._t., - C A-- __ J 1 ,- 1 ,- -r (T --- - I: r-- m 1 L _- _ ' T :0 4 — fl -ti --13. 3 < 1j z . i. --.. distal- ame-sf-•ii ilk-•- me - no --.tat o.- • rirms-ap-, PARTIAL 2ND FLOOR PLAN SCALE: 1 /8' =1'-d GENERAL NOTES 1. NEW HEADS ARE ADDED FROM EXISTING OUTLETS. 2. ALL LINE PIPING AND OVERHEAD SPRINKLERS ARE EXISTING. 3. NO HANGERS REQUIRED. ACCEPTED Without Comments As Note() in Red Per T` .Araiched Letter :!se plans have bee.I re,,le'-ved r °r. , _t Ttukw Ua Fire ..? ftion Bureau ft), --" curti. Cfy ,.pdards. Accepr_. fissions which d : ndards and •equac°y of aaesi'; .a !oltions, ?is date will vo io • esubmittal of revis`::C =final acceptance is suci ' (ne Tukwila Fire Preventi:),; : • ',ate: S-9-3 -3 ( By;Al^(t,Sl 1 3dooted -or the ger. -,rigs r'Ler a ,; roval. :+- Jction b TUKWILA FIRE DEPARTMENT Please call 206-5754407 and gi-3 this Fire Pebmit No. and exact address for shut- down or restoration approval. SCOPE OF WORK ADD PENDENT HEADS TO CONFERENCE ROOM FROM EXISTING OUTLETS. PAID MAY 18 2011 TUKWILA FIRE ' 7 -z< - v Ci\ TV v HANGER LEGEND SPRINKLER HEADS USED SYM MAKE, td ORIFICE SIZE, TYPE & FINISH TEMP Fn's, QTY -- • RELIABLE 64. -SSP, 'h', CHROME REVISIONS MK DATE BY 1 CONTRACT WITH: FATIGUE TECHNOLOGIES 401 ANDOVER PARK EAST TUKWILA, WA CONTRACT NAME: FATIGUE CONF RV 401 ANDOVER PARK EAST TUKWILA, WA CRAIG — 206-246-2010 MATRIOT PATRIFP099CF T2707 ACOMA, 70thWA AVENUE E FAX 253; 922-6150 FIRE PROTECTION DESIGNER DATE JOB NUMBER i CLINT CARR 5-16-201 1 12-13960 4Ib 4laki ab lb 16) 1111b qh• lei 46 glibi CO-p 'protecti� to se of comk onarts during Fire Trace Detection tubing routed through -out machining cabinet 2nd CO-2 nozzle >> inside machine Note Manaual release Station >> ACCEPTED O Without Comments D As Noted in Red ;Er. Per The Attacned Letter These plans have been reviewed by The Tukwila Fire ^revention Bureau for conformance with current City rindards. Acceptance is subject tc errors and Missions which do not authorize violatic s lIs of adopted -indards and ordinances The res; t ns't'li ty for the equacy of design rests totally with rhe editions, deletions c,• revisions to tnest o,awings after is date wdi void trim lc'eptance arc m,1 require a resubmits; of revised drayvinys s if„ccuent approval Final acceptance Is su71I€ •A to field test and inspection by The Tukwila Fire Prei T non Bureau Date. 1[75-- 1 Esy I / Fire Permit Number 0(.0 To Sch9d1.'ie ii l� oc;ivns call 206-575-4407 SECTION A SCALE 1/4" =11-0" SAMMY SIDEWINDER FIRE SPRINKLER PIPING PLAN SCALE 1/4" = SCOPE OF WORK: 1 ADD NEW PENDENT HEADS 2. ADD NEW UPRIGHT HEADS AS NEEDED 3 PLAN SUBMITTAL TO & APPROVAL BY CITY OF TUKWILA 4 MATERIALS PER NFPA #13 STANDARDS AS SELECTED BY ARCHER CONSTRUCTION, INC 5. TESTING PER NFPA #13 & CITY OF MAPLE VALLEY. CLARIFICATIONS: 1 ALL AREAS PROTECTED BY A WET SYSTEM MUST BE MAINTAINED AT A MINIMUM OF 40°F (BY OTHERS) IN ORDER TO PREVENT THE PIPE FROM FREEZING DESIGN CRITERIA: 1 CRITERIA BASED ON NFPA #13 AND CITY OF TUKWILA FITTER NOTES: 1 HANGERS * ALL PIPE HANGERS TO BE PER NFPA 13 2 MAXIMUM HEAD SPACING 130 SQ FT. 3 ALL PIPING TO BE SCHD 10, 40 & DUCTILE FITTINGS NOTE ----------- = EXISTING PIPE - NEW PIPE = EXISTING UPRIGHT SPRINKLERS ® = NEW PENDENT SPRINKLER AEA CF WCC VICINITY MAP SCALE N T S E"-'" had �� ] r WASHINGTON STATE ICERTIFICATE OF COMPENTENCY FIRE PROTECTION SPRINKLER SYSTEMS Michael Maguire 1440-0791—C Level 3 Archer Construction, Inc ARCH I*21• R /)��/ Expires 1212 39 1 1 Slgnatur 111M1 IN/P REVISIONS HANGERS HYDRAULIC DESIGN INFORMATION ABBREVIATIONS WATERFLOW INFORMATION SPRINKLER SYMBOLS DATE DESCRIPTION BY A BEAM CLAMP W/ RETAINING STRAP B c D SIDE BEAM BRACKET EYE SOCKET AREA NA NUMBER CODE NFPA 13 HAZARD OHG II SYSTEM WET TYPE NUT & PLATE WASHER E F KW K -BOLT HDI -P REMOTE NA AREA SQ FT DENSITY NA GPM/SQ. FT INSIDE HOSE NA ALLOWANCE OUTSIDE HOSE NA ALLOWANCE AREA PER SPRINKLER NA G SAMMY SIDEWINDER H SAMMY SUPERSCREW TOTAL SYSTEM REQUIREMENTS. EXISTING SYSTEM J COACH SCREW ROD K CEILING FLANGE HYDRAULIC DESIGN INFORMATION L U -HOOK M SHORT STRAP AREA NUMBER - CODE HAZARD SYSTEM TYPE N WALL BRACKET P TRAPEZE Q REMOTE AREA SQ FT DENSITY GPMISQ. FT INSIDE HOSE ALLOWANCE - OUTSIDE HOSE ALLOWANCE AREA PER SPRINKLER TOTAL SYSTEM REQUIREMENTS, AFF BOB BOD BOJ BOP BOT CTS FO IFOW OFOW NAS UNO —$— ABOVE FINISHED FLOOR BOTTOM OF BEAM BOTTOM OF DECK BOTTOM OF JOIST BOTTOM OF PURLIN BOTTOM OF TRUSS CUT TO SUIT FIELD ORDER INSIDE FACE OF WALL OUTSIDE FACE OF WALL NO AUTO SPRINKLERS UNLESS NOTED OTHERWISE RIGID COUPLING STATIC PSI SYM MAKE MODEL SIN# TYPE FINISH K -FAC. THREAD ORIFICE TEMP CANOPY QTY RESIDUAL PSI VICTAULIC V2708 SSP CP K=5 6 1/u 155° CP 3 GPM FLOWING _ GPM AO VICTAULIC V2704 SSU BRASS K=5 6 1/" 155° NA 2 DATE & TIME DATE PER LOCATION CONSTRUCTION,IIIC Fatigue Technalogy FIRE SPRINKLER PIPING PLAN 401 ANDOVER PARK EAST TUKWILA, WA 4 PERMIT NO - JOB NO S19-118 AUTHORITY CITY OF TUKWILA NOTES • • • FIRE SPRINKLER DIVISION 7855 S 206TH STREET, KENT, WA 98032 PHONE 253-872-7222 FAX 253-872-7277 CONTRACTOR DB GENERAL PHONE FAX rr,3 LI 1Z r3 L01@ DESIGNER MIKE SCALE NOTED DATE 10-17-19 REVISED / / PLOTTED II FP 1 OF 1 AREA OF W f; R K —r * . . I— (n w ANDOVER SITE / KEY PLAN NO SCALE E !I EQ E� T c. " —1 9-5 1 5-3 E o (E o 0 CV CV 6 B.O.BEA4 E E4> E� NI I 107-0 NI I N ! ! 6 N 6 B.O.BEAM E4 N c E 9-11 E c 5-6 E B.O.BEAM E�N ; E 4> A- m A ALL {s NIN ,x Q _cv s� AIvi9 1 �N f� �N s� AGI - 1 w.N L ti>N f- ! !1 u_ 1 .tea 1 ' 1 ❑ , LL I tL I u_ U I Q u_ N! $ - - -- - - -- - --- t - - - i Nl ®-- -- - - - d- N o - ..1 - CO- _ N oGO N1 0 I cI _C rn 01= I 1 I CO 7 4ti> (%2 44;) ! OD N ---a b N�------ i ! N 41> NI `b"c3- 4:1> <1›d) <44› N m 6 B.O.BEA <t> <I> 6 B.O.BEAM I • ! 6 B.O.BEAM I EXISTING RISER FIRE SPRINKLER PIPING PLAN SCALE 1/e = 1-0 0 2' 4` S` 11111 1 GRAPHIC SCALE 16' .41 a ;}, t{3 xc I es S'V'� 4-ectlield !L41 t Baecr Eb. FIRE SPRINKLER LEGEND EXISTING PIPE: NEW PIPE: x x X -X ADDED PENDENT SPRINKLER: OA EXISTING UPRIGHT SPRINKLER: O RELOCATED PENDENT SPRINKLER: REMOVE PENDENT: UP/DN SPRINKLER: 0 131 REMOVE HEADS AND PIPE: OR *OF WOOD SAMMY SIDEWINDER 1"-3" PIPE: SWG 20 4" PIPE: GWG 25-380 ALL THREAD ROD ADJUSTABLE RING HANGER Sita viler Srrackler Blvd Parkl Trr_rk Or SAMMY SIDEWINDER, ROD & RING FLAG NOTES NEW 2ex1e MECH. TEE, 1' PIPE TO NEW PENDENT SPRINKLER. rer- =- - 'u'g EgVtl a 1/ v VICINITY MAP NO SCALE Vat' °" r -+'15 4 ; 3 : „r. Z:1 N-„1444. TUKWILt FIRE DEPARTME Please call 205-575-4407 a; give this Fire Perm:}No. , Zndexact t, or 0 r:... These plans Pre'; enidcri standards.. "_._ erniss:;f3 - t;. _ ?T',t Li 3C y 0 r .iLubmlM;:'(;: kw T- . ._ I ��.: a Pre c..; I :'•:t City - the c er. after cipprovai Phial a certarnC.e -_ �i� -zt tc field test and inspection by 1 The Tukw la i- ' bureau. Cite:`0 2/-1) E . ;"// SCOPE 1 ADD (2) PENDENT SPRINKLERS TO NEW SORTING UNITS AS SHOWN ON PLAN. GENERAL NOTES 1 THE OVER -HEAD SPRINKLER SYSTEM IS EXISTING. 2 THE DESIGN CRITERIA FOR THE T.I. AREAS OF WORK IS BASED ON EXISTING PIPE SIZING. 3 ALL NEW PIPE TO BE SCH 40 PIPE WITH 125 Ib. BLACK CAST IRON FITTINGS OR GROOVED WITH GROOVED FITTINGS & COUPLINGS, AS SHOWN. 4 ALL NEW ARM -OVERS OVER 2-0 SHALL HAVE A HANGER. 5 ALL HANGERS TO BE HANGER "A", UON. ALL HANGERS TO BE INSTALLED IN ACCORDANCE WITH NFPA #13. 6 ALL DESIGN AND INSTALLATION TO BE IN ACCORDANCE WITH NFPA #13 AND THE CITY OF TUKWILA. S for h iiVt- :i33� Epp3 iovc FIELD / LISTING NOTES 1 THREADED PIPE FROM 1" THRU 2" SIZE TO BE SCH. 40 PIPE. 2 GROOVED END PIPE FROM 1-1/2" THRU 4" TO BE SCH. 10 PIPE. 3 ALL GROOVED COUPLING ARE TO BE "RIGID" TYPE U.N.O. (IMPORT) 4 ALL THREADED FITTINGS ARE TO BE 175# CLASS CAST IRON (IMPORT) 5 ALL 1" NIPPLES NOT IDENTIFIED ARE 0-2 U.N.O. 6 ALL HANGER RODS TO BE FIELD CUT 7 ALL DIMENSIONS ON PIPING ARE CENTER TO CENTER FOR SUBMITTAL DRAWINGS 8 ALL DIMENSIONS ON PIPING ARE CUT LENGTHS FOR INSTALLATION DRAWINGS 9 BELOW DECK ELEVATIONS ARE FROM STRUCTURE NOT FROM BOTTOM OF INSULATION IF PRESENT. PAID OCT 18 2013 T UKWI LA FIRE r IMPORTANT In localities subject to freezing conditions, it is the owners responsibility to provide heat throughout wet pipe sprinkler systems areas and in enclosures for dry pipe deluge and other types of valves controlling water supplies to sprinkler systems. This drawing and the information and design application herein contained is the property of TYCO FIRE & SECURITY / SimplexGrinnell and/or Its subsidiaries and is loaned upon express conditions that the same be returned to SimplexGrinnell upon request; all information herein contained shall be treated as secret, and confidential; no reproduction of this drawing or any part thereof shall be mode without written consent of SimplexGrinnell. Created by the SimplexGrinnell , "All rights reserved". `Copyright by SimplexGrinnell 2001 CONTRACT RESPONSIBILITIES ITEM Simple=rGr!nnall /BY OTHERS STREET WATER CONNECTION UNDERGROUNO WATER MAINS EXCAVATIONS BACKFILL WIRING PANTING Hydnuslo Reser.* Point DasigiatIces Mat Designation e13' $ of P,s Bata Bottom of Deck 712'-4• t 01 Pe Abri R. Plane Oc O 04) Devddo.i Mange I, Pipe (not thru tier) SYMBOLS Flow sritaii (F'S) WAN' Mit* Narver Umar Summed d Cap Grooved Cap Screwed Pug Grooved ( # s.l,g - • Val" -Zn- Fls D.ptOcrsn.( x!'OC) -r -ice FIs Dept -Cann- Ftaah) (FIIC) t< Gate Valve N.R.S. (GV) b os&Y Gam Vohs (asav) Butterfly Valve Alam Wye (ALV) Bear% Bad Miter Motor G., (Ynb40) -DI1 wafer ands Vaiw -L Flanged Cameo/1m SysMm Meer FIs DeMttann.(FDC) Poet Indicator Valve (Piv) Fire Hydrant (3 Way) Thrust Blade Key Gam Sectional Vow with Roadway Box Erre Hass Assembly Impeders Test Oahe Vdw Angie Vohs Dry Pipe valor SPRINKLERS MAKE TYPE MODEL SIN NPT / K -FACTOR TEMP. FINISH ESCUTCHEON NOTES SYMBOL REM. AREA QTY. NAME 0. TYCO PENDENT TY -B TY325 1/2" K=5.6 155' BRASS 2 2 HAZARD CLASSIRCATiON HYDRAULIC DESIGN DATA DENSITY GPM/SQ.FT. AREA OF APPLIC. HOSE ALLOW. SQ. FT. /HD. TOTAL SYSTEM REQUIREMENTS GPM PS! AT 3 4 WATER SUPPLY INFORMATION: STATIC PRESSURE 56.0 PSI RESIDUAL PRESSURE 46.0 PSI. WITH 4363 GPM ft01iNG - TOTAL THIS SHEET - 2 TEST LOCATION: 4502 S. STEELE ST. NEAR MAIN ENTRANCE, HYDRANTS 12150, 12151 BY: TACOMA WATER DEPT. TEST DATE: 2-23-2012 ABBREVIATIONS AC - Above Melted Ogling AFF Above Fhit,ed Floor BC - Baba Finished Doling BOB - Battcm of sawn BCD - Bottom of Deck BOJ - Bottom of Joist BOP - Bottom of Pt,* NV - Hasa Valve 8C Not In Cxtract NTS - Not to Scale CCM - Open Bar Joist SP - TOB- Top of Bean TOP - Tap of Pwlb, TOS - Top of Staid UON - Unless Otherwise Nand SYSTEM TYPE %ET ❑ DCLUGE _❑ DRi ❑ PE AcTICN _❑ APPROVALS paw ❑cti r ❑nl OUT IN OUT 84 ❑ SPECIAL n-rnmas 217a - SPECIAL REQUIREMENTS ❑ DOMES= PIPE ❑ SCHErUIE 40 ❑ scrim= sa ❑ GALVANIZED PIP?: ❑ GALVANIZED Fr nuns ❑ GALVANIZED MATERIALS OUT 14 0 F.M. MATE IAL OUT so ❑ oTHFR 3 4 8 10 11 12 tqco Fire & p®ex r®nneii Security SimplexGrinnell 9520 10th Avenue South, Suite 100 Seattle, Wa. 98108 SALES: 206-291-1400 SERVICE: 206-291-1400 © 2002 SIMPLEXGRINNEIL 12 FAX: 206-291-1500 ALL RIGHTS RESERVED REVISIONS - SEE FLAGGED AREA ON PLAN ISSUED FOR INSTALLATION: 03 Lt_i I- 0 d z se 41, _ NI y ll 5/ R SYSTEM IN SCALE: A3 NOTED DRAWN BY: ALAN MAHAFRE CHECKED BY: DATE: 10/1-5/2013 CONTRACT NUMBER: 000000000 SHEET NUMBER: Fp...1 SHEET 1 OF 1 12 FIRE ALARM LEGEND Qty Symbol Description Manufacturer Part # Mounting 0 FIRE ALARM CONTROL PANEL SILENT KNIGHT SK -5808 SELF CONTAINED FACP 0 #16 ADDRESSABLE SIGNAL BOOSTER POWER SUPPLY SILENT KNIGHT SK -5495 SELF CONTAINED BPS# 0 1 REMOTE ANNUNCIATOR SILENT KNIGHT SK -5860 SELF CONTAINED ANN 0 MANUAL FIRE ALARM STATION SILENT KNIGHT SD500-PS 4 SQ DEEP W/1GANG F 0 O PHOTOELECTRIC SMOKE DETECTOR SILENT KNIGHT SD505-APS 4 SQ DEEP W/30/ 1O B ADDRESSABLE 135° FT/ROR HEAT DETECTOR SILENT KNIGHT SD505-AHS 4 SQ DEEP W/30/ 0 #16 DUCT SMOKE DETECTOR BY OTHERS BY OTHERS BY OTHERS 0 ADDRESSABLE NOTIFICATION MODULE SILENT KNIGHT SD500 ANM 4 SQ DEEP ANM 0 THWN-SOLID ADDRESSABLE INPUT MODULE SILENT KNIGHT SD500-AIM 4 SQ DEEP AIM 1 BLUE ADDRESSABLE RELAY MODULE SILENT KNIGHT SD500-ARM 4 SQ DEEP ARM 0 El< MULTI CANDELA WALL MOUNT HORN/STROBE WHEELOCK AS24MCW-FR 4 SQ DEEP 0 El HIGH CANDELA WALL MOUNT HORN/STROBE WHEELOCK AS24MCWH-FR 4 SQ DEEP 0 10: MULTI CANDELA WALL MOUNT STROBE WHEELOCK RSS24MCW-FR 4 SQ DEEP 0 1-044 WEATHERPROOF STROBE WHEELOCK RSSWP2475W-FR WPSBB-R 0 CO 10"RED BELL WHEELOCK MB -G10 -24-R WBB 0 1 1=jI MULTI CANDELA CEILING MOUNT HORN/STROBE WHEELOCK HSC 4 SQ DEEP 0 010 MULTI CANDELA CEILING MOUNT STROBE WHEELOCK STC 4 SQ DEEP 0 WATER FLOW SWITCH BY OTHERS BY OTHERS BY OTHERS IWF 0 - BLACK TAMPER SWITCH BY OTHERS BY OTHERS BY OTHERS TS 0 16/2 - FPLP POST INDICATOR VALVE BY OTHERS BY OTHERS BY OTHERS PIV 0 1.099 DRY CONTACT (FIRE PUMP CONNECTION) BY OTHERS BY OTHERS BY OTHERS a w METALLIC RACEWAY SINGLE CONDUCTOR WIRE LEGEND OPEN RACEWAY MULTICONDUCTOR CABLE LEGEND COLOR AWG QTY TYPE LETTER FUNCTION LETTER TYPE QTY AWG COLOR - BLACK #16 1 THWN-SOLID A ADDRESSABLE INITIATING A 16/2-FPLP 1 #16/2 RED + RED #16 1 X CIRCUIT Main System Board - BLACK #16 2 THWN-SOLID B ADDRESSABLE INITIATING B 16/2- FPLP 2 #16/2 GREEN + RED #16 2 X CIRCUIT LOOP ADDRESSABLE DEVICES 66 - BLUE #14 1 THWN-SOLID C HORN /STROBE C FPLP 1 #14/2 BLUE + WHITE #14 1 X CIRCUIT 0.088 X MSB-1OB-PV4-24 BELL 1 - BLUE #14 2 THWN-SOLID D HORN / STROBE D FPLP 2 #14/2 WHITE + WHITE #14 2 X CIRCUIT LOOP X X X - BLACK #16 1 THWN-SOLID E CONVENTIONAL INITIATING E 16/2- FPLP 1 #16/2 YELLOW + YELLOW #18 1 CIRCUIT - BLACK #16 2 THWN-SOLID F CONVENTIONAL INITIATING F 16/2 - FPLP 2 #16/2 PURPLE + YELLOW #16 2 1.099 Amps CIRCUIT LOOP - BLACK #14 1 THWN-SOLID G 24V DC POWER G FPLP 1 #14/2 BLACK + RED #14 1 Alarm Current Load: CIRCUIT Amps For 5 Minutes= 0.092 Amp -hours RED #14/2 1 TWISTED SHIELDED H SPEAKER CIRCUIT H TWISTED SHIELDED 1 #14/2 RED 10.804 Amp -hours FPLP W/ DRAIN FPLP W/ DRAIN Total System Current Load: RED #14/2 2 TWISTED SHIELDED I SPEAKER CIRCUIT I TWISTED SHIELDED 2 #14/2 RED 12VDC 10 - Amp -hours FPLP W/ DRAIN LOOP FPLP W/ DRAIN BROWN #16 1 16/2 - FPLP _ 1 #16/2 WHITE BLUE #16 1 THWN-SOLID J ANNUNCIATOR CIRCUIT J - BLACK #14 1 FPLP 1 #14/2 BROWN + RED #14 1 18/2 TWISTED FIREMAN'S PHONE 18/2 TWISTED RED #18/2 1 SHIELDED FPLP K CIRCUIT K SHIELDED FPLP 1 #18/2 RED W/ DRAIN Wl DRAIN 18/2 TWISTED FIREMAN'S PHONE 18/2 TWISTED RED #18/2 2 SHIELDED FPLP L CIRCUIT LOOP L SHIELDED FPLP 2 #18/2 RED W/ DRAIN W/ DRAIN - PURPLE #14 1 THWN-SOLID M CONTROL CIRCUIT M FPLP 1 #14/2 ORANGE + ORANGE #14 1 - PURPLE #14 2 THWN-SOLID N SPARE CONDUCTORS N FPLP 2 #14/4 RED + ORANGE #14 2 CABLE COLOR SUBSTITUTIONS ARE ALLOWED ON ALL LETTERS EXCEPT H, I, K, L. IF SUBSTITUTIONS ARE MADE, WIRE AWG & TYPE MUST REMAIN THE SAME & LEGEND MUST BE UPDATED & MATCH CORRECT WIRE FUNCTION. MULTI CONDUCTOR CABLE COLORS AVAILABLE: 16/2 = RED, WHITE, YELLOW, GREEN, DARK BLUE, PURPLE, ORANGE. 14/2 = RED, WHITE, YELLOW, GREEN, DARK BLUE, PURPLE, ORANGE, BROWN, BLACK THWN SOLID COLORS AVAILABLE: BLACK, WHITE, GREEN, RED BROWN, YELLOW, ORANGE, PINK, PURPLE, BLUE, GREY Pacific Fire & Security, Inc. Asbuilt- Requirements ELECTRICAL CONTRACTOR IS RESPONSIBLE FOR PROVIDING PACIFIC FIRE & SECURITY, INC. WITH ACCURATE REDLINE DRAWINGS. DRAWINGS SHALL BED REDLINED AS NECESSARY TO SHOW THE FOLLOWING: DEVICE LOCATIONS - ADDS/DELETES CIRCUIT NUMBERS - ADDRESSABLE/SIGNAL ZONE/AUXILIARY WIRE/CONDUIT - ACCURATE ROUTING WIRE FILL - USING WIRE LEGEND EOL - RESISTOR LOCATIONS PACIFIC FIRE & SECURITY, INC. WILL PROVIDE (UPON REQUEST) A BLANK SET OF FLOOR PLANS TO BE REDLINED. PACIFIC FIRE & SECURITY WILL INCORPORATE ALL REDLINED CHANGES INTO THE RECORD AUTOCAD SET OF DRAWINGS. AUTOCAD ASBUILT COLOR STANDARDS RED - NEW GREEN - DELETED BLUE - NOTES TO DRAFTER • SPECIAL NOTES: FIELD VERIFY LOCATION AND QUANTITY DESIGNATES DEVICE NUMBER DESIGNATES LEVEL OR CIRCUIT NUMBER eg: DESIGNATES TYPE OF CIRCUIT SIGNAL CKT 2 DEVICE 1 S2- TYPICAL DESIGNATES DETAIL NUMBER WHERE THE DETAIL CAN BE FOUND DESIGNATES SHEET NUMBER = DENOTES WEATHERPROOF EQUIPMENT AND/OR BOX SILENT KNIGHT 5820XL Fire Alarm Control Panel INPUT MANUAL PULL STATION SMOKE DETECTION HEAT DETECTION (IF APPLICABLE) DUCT SMOKE DETECTION (IF APPLICABLE) WET FLOW SWITCH WET TAMPER SWITCH Current Load: SYSTEM TROUBLE Standby: Alarm: OUTPUT LATCHING ACTIVATION OF LOCAL ALARM AT FACP X X X X Device Type Quantity! Amps 1 Tota I 1 Amps 1 Tota 1 1 X X X Main System Board 1 0.140 0.140 0.260 0.260 X SHUTDOWN RESPECTIVE HVAC UNITS (IF APPLICABLE) Panel Boards & Devices X ADDRESSABLE DEVICES 66 0.00055 0.0363 0.00055 0.03630 5860 Remote Annunciator 1 0.020 0.020 0.020 0.020 TROUBLE/SUPV. INDICATION AT FACP WM3T-24-VFR OUTSIDE STROBE 1 X 0.088 0.088 X MSB-1OB-PV4-24 BELL 1 TROUBLE/SUPV. INDICATION AT LCD ANNUNCIATOR 0.030 0.030 DUCT DETECTOR 7 0.025 0.175 0.095 0.665 TRANSMIT TROUBLE/SUPV. SIGNAL TO CENTRAL STATION MONITORING X X X X Total Panel Loads: 0.371 Amps 1.099 Amps Standby Current Load: 0.371 Amps For 24 Hours = 8.911 Amp -hours Alarm Current Load: 1.099 Amps For 5 Minutes= 0.092 Amp -hours 20% Derating= 10.804 Amp -hours Total System Current Load: 10.804 Amp -hours Minimum Battery Pair To Be Used: 12VDC 10 - Amp -hours • 7-77 ter' _... ❑ Without Comme i.rs As N Ofed in Rei' Per The Attecheu Lctter piens have teenTI';teTu'14,1a ire cum- t City 9rdJ, G Cti '= ti iS S._D -moi to =1 ;t=_ c::d ri-,;(4 � ..-r :ek-..^tib e _ O t' �:�i c d' ed ij F -t t'= �G �� � ' :6a-r..1s and erc' z .Cf5, The ror ti e _ 'O+ d �:::n re t.S tGtali y rt`e designer. er. r d levy==- ,c' or - O ns to these dra Nin after , �'- ti•i.• _ .te will v.`.d tn:s z.--2ceptence and wIti require a re'i- _;snit` .i of revised drawings for suoseg erit apprOVal. �r- Final acceptance is subrrzt t- t . d test and ins; ectio,-i by The Tukwila Fire Prevention bureau. De -:9-/1-1D- By: l P{.,.-:3 f1 TUKWILA FIRE DEPARTMENT P- ;ease call 206-575-4407 and give this Fire Permit No. / .-F-073 and exact address for shut- down or restoration approval. CEILING )-( 80" AFF TO CENTER OF LENS FOR WALL MOUNT UP TO 54" AFF TO OPERABLE PART AFFIF TITO OPEE ROABLE PART IF FRONT APPROACH NECESSARY. FLOOR l A.D.A. REGULATION COMPLIANCE SWITCHES CONTROLS AND FIRE ALARM PULL STATION SHALL BE MOUNTED AT +48" TO TOP. FIRE ALARM INDICATING APPLIANCES SHALL BE PLACED 80" ABOVE THE HIGHEST FLOOR LEVEL WITHIN THE SPACE OR 6" BELOW THE CEILING, WHICHEVER IS LOWER TO A.D.A. GUIDELINES. IL NOTICE A completed, signed, Tukwila Fire Department Pre-test Certificate must be presented to the Inspector prior to commencement of Acceptance Testing of any Fire Alarm and Detection Systems. Failure of test will result in a Re -inspection Fee and termination of the testing-. SEQUENCE OF OPERATIONS ial1 Imo. INPUT MANUAL PULL STATION SMOKE DETECTION HEAT DETECTION (IF APPLICABLE) DUCT SMOKE DETECTION (IF APPLICABLE) WET FLOW SWITCH WET TAMPER SWITCH POST INDICATOR VALVE SYSTEM TROUBLE OUTPUT LATCHING ACTIVATION OF LOCAL ALARM AT FACP X X X X INDICATION OF ALARM AT LCD ANNUNCIATOR (IF INSTALLED) X X X X ACTIVATE ALL AUDIBLE & VISIBLE DEVICES X X X X SHUTDOWN RESPECTIVE HVAC UNITS (IF APPLICABLE) X TRANSMIT ALARM SIGNAL TO CENTRAL STATION MONITORING X X X X TROUBLE/SUPV. INDICATION AT FACP X X X X TROUBLE/SUPV. INDICATION AT LCD ANNUNCIATOR X X X X TRANSMIT TROUBLE/SUPV. SIGNAL TO CENTRAL STATION MONITORING X X X X Fire Alarm System Check Off List For Final Inspection Following is a list of items that must be completed before the Fire Department will perform a final inspection. 1 Low Voltage Electrical Final 2 Line Voltage Electrical Final 3 Elevator Final 4 Pressurization Completion Date: Completion Date: Completion Date: a Stairwell - Completion Date: b Elevator Completion Date: 5 Sprinkler System (100% Complete) All Valves in normal condition. Completion Date: 6 Interior Building Construction. Completion Date: (i.e. doors, floor covering, ceiling covers, ceiling tiles, windows, etc.) 7 HVAC Completion Date: 8 Suppression Systems Completion Date: 9 Safety and ADA Requirements, Fire Extinguishers Completion Date: 10 Specialty Furniture Completion Date: 11 Monitoring (See Below) 12 Final Fire Alarm Inspection Completion Date: 13 Approved Set of plans and permit on site - Completion Date: Phone line (lines) must be installed and active. Ei 14 Fire Alarm Monitoring Completion Date: a Dual Line Communicator Completion Date: b Scan Line Date Line Due In: (If Required by Jurisdiction) c Contract Signed Completion Date: d Scan Line ordered (Alarm Company) Completion Date: e Stu Installed and Tested - Completion Date: 2 Elevator Monitoring Completion Date: GENERAL NOTES: 1) ALL WIRE AND CONDUIT MUST BE INSTALLED IN ACCORDANCE WITH PLANS AND SPECIFICATION, AND MUST MEET ALL APPLICABLE CODES. 2) ALL WIRE AND CABLE MUST BE RATED FOR FIRE ALARM USER PER THE LATEST REVISIONS, OF THE NATIONAL ELECTRICAL CODE SECTION 760. THIS IS A POWER LIMITED FIRE ALARM SYSTEM, ALL CABLE MUST BE MARKED FPL, FPLR, OR FPLP. 3) ALL CONDUCTORS MUST TEST FREE OF GROUND BEFORE MAKING CONNECTION TO THE FIRE ALARM CONTROL PANEL. 4) TO RETAIN WARRANTEE, THE FIRE ALARM EQUIPMENT MUST BE POWERED UP UNDER THE DIRECTION OF A QUALIFIED MANUFACTURER'S TECHNICIAN. 5) THE LIFE SAFETY SYSTEM IS A COMPLETELY SUPERVISED SYSTEM. 6) INSTALLING CONTRACTOR SHALL COORDINATE ALL FIELD CHANGES WITH THE MANUFACTURER INCLUDING CHANGES IN DEVICES, WIRE CONDUIT RUNS AND OPERATION IN THE SYSTEM. MANUFACTURER SHALL NOT BE HELD RESPONSIBLE CAUSED BY THOSE CHANGES. - 7) LIFE SAFETY AUDIBLE SHALL BE AUDIBLE THROUGHOUT THE SPACE AND HAVE A SOUND PRESSURE LEVEL NOT LESS THAN 15db ABOVE AMBIENT NOISE LEVEL MEASURED AT 4'-0" ABOVE FINISHED FLOOR. 8) SYSTEM SHALL BE CLASS "B" IN CONFIGURATION. 9) LOCATE ALL PULL STATION AND HORN/ STROBE UNITS AT SPECIFIED HIGH PER NFPA 72 AND ADA SEE DETAIL. 10) SMOKE DETECTOR LOCATION ARE FOR REFERENCE ONLY AND SHALL BE INSTALLED PER NFPA 72 - 11) ELECTRICAL CONTRACTOR SHALL COORDINATE ALL ROUGH -IN INSTALLATION WITH THE FIRE ALARM CONTRACTOR 12) SMOKE DETECTORS IN CEILING MUST BE LESS THAN 15' FROM A WALL AND / OR NO FURTHER THAN 30' FROM EACH OTHER. 13) NO SMOKE DETECTOR SHALL BE LOCATED CLOSER THAN 36" TO ANY AIR REGISTER OR DIFFUSER 14) NO HEAT DETECTOR SHALL BE LOCATED CLOSER THAN 24" TO ANY AIR REGISTER OR DIFFUSER. 15) NO HEAT DETECTOR SHALL BE LOCATED CLOSER THAN 36" TO ANY PART OF ANY HEAT GENERATION DEVICE (FUSE, BOILERS, WATER HEATER, ETC..) IN MECHANICAL ROOMS. 16) NO HEAT DETECTOR SHALL BE LOCATED CLOSER THAN 18" TO ANY PART OF LIGHT FIXTURE. 17) INITIATION AND SIGNALING CIRCUITS ARESEPARATE YET MAY BE RUN IN SAME CONDUIT 18) ALL CONDUCTORS SHALL BE LABELED BY ZONE AND ALL COLOR CODES SHALL MATCH 19) ALL CIRCUIT FEED AND RETURN'S SHALL BE SEPARATED BY A MINIMUM OF 6' 20) THESE DRAWINGS DO NOT SUPERSEDE THE CONTRACT DRAWINGS AND SPECIFICATIONS, THEY ARE INTENDED AS A SUPPLEMENT ONLY AND MUST BE USED IN CONJUNCTION WITH THE CONTRACT DOCUMENTS. THEY DO NOT MODIFY THE CONTRACTORS OBLIGATION TO CONFORM TO THE PROJECTS ORIGINAL DESIGN CRITERIA. ?=AID APR 11. 2012 TUKWILA FIRE #210(,( §7 7P 828 Poplar Place South Seattle, Washington 98144 Phone: (206)-957-0907 Fax: (206) 726-8160 www.pacificfiresecurity.com ISSUE DATE: Project Manager: JON LOVERN Design: DALLAS ANDERSON Drafter: KELSEY LUTTON Job Number: 23591 Recived Architects Plan: - PFS REVISIONS REV DATE DESCRIPTION 04-10-12 PERMIT SUBMITTAL SET FIRE ALARM COVER SHEET FAO.O r 0 O ON 0 z L--- L_____ DATA LOOP O RELAY 1 RELAY 2 ADDRESSABLE RELAY MODULE DATA LOOP FROM FACP SMOKE DETECTOR HEAT DETECTOR ADDRESSABLE BASE INSERT HEAT DETECTOR AND ADDRESSABLE RELAY IN EXISTING CIRCUIT LOOP. (N) MACHINE WITH SUPPRESSION SMOKE DETECTOR • A EXISTING FACP SILENT KNIGHT 5820XL DATA LOOP TO NEXT DETECTOR FIRE ALARM RISER DIAGRAM 828 Poplar Place South Seattle, Washington 98144 Phone: (206)-957-0907 Fax: (206) 726-8160 www.pacificfiresecurity.com wco co co wa LIJ Q 0 J LJ.. Z Q I__ 71- m w 0 ISSUE DATE: Project Manager: JON LOVERN Design: DALLAS ANDERSON Drafter: KELSEY LUTTON Job Number: 23591 Recived Architects Plan: - PFS REVISIONS REV DATE DESCRIPTION 04-10-12 PERMIT SUBMITTAL SET FIRE ALARM DETAIL SHEET FA0.1 FIRE ALARM LEGEND OPEN RACEWAY MULTICONDUCTOR CABLE LEGEND Qty Symbol Description Manufacturer Part # Mounting 0 TYPE FIRE ALARM CONTROL PANEL SILENT KNIGHT SK -5808 SELF CONTAINED FACP SELF CONTAINED 0 A ADDRESSABLE SIGNAL BOOSTER POWER SUPPLY SILENT KNIGHT SK -5495 BPS# 0 RED REMOTE ANNUNCIATOR SILENT KNIGHT SK -5860 SELF CONTAINED ANN 0 X MANUAL FIREALARM STATION SILENT KNIGHT SD500-PS 4 SQ DEEP W/1GANG F 0 O PHOTOELECTRIC SMOKE DETECTOR SILENT KNIGHT SD505-APS 4 SQ DEEP W/30/ 1 OH ADDRESSABLE 135° FT/ROR HEAT DETECTOR SILENT KNIGHT SD505-AHS 4 SQ DEEP W/30/ 0 DUCT SMOKE DETECTOR BY OTHERS BY OTHERS BY OTHERS 0 0.020 ADDRESSABLE NOTIFICATION MODULE SILENT KNIGHT SD500-ANM 4 SQ DEEP ANM 0 HORN / STROBE ADDRESSABLE INPUT MODULE SILENT KNIGHT SD500-AIM 4 SQ DEEP AIM 1 #14 ADDRESSABLE RELAY MODULE SILENT KNIGHT SD500-ARM 4 SQ DEEP ARM 0 EK MULTI CANDELA WALL MOUNT HORN/STROBE WHEELOCK AS24MCW-FR 4 SQ DEEP 0 EK1 HIGH CANDELA WALL MOUNT HORN/STROBE WHEELOCK AS24MCWH-FR 4 SQ DEEP 0 I -D: MULTI CANDELA WALL MOUNT STROBE WHEELOCK RSS24MCW-FR 4 SQ DEEP 0 FIDarop WEATHERPROOF STROBE WHEELOCK RSSWP2475W-FR WPSBB-R 0 CO 10" RED BELL WHEELOCK MB -G10 -24-R WBB 0 411) MULTI CANDELA CEILING MOUNT HORN/STROBE WHEELOCK HSC 4 SQ DEEP 0 0 MULTI CANDELA CEILING MOUNT STROBE WHEELOCK STC 4 SQ DEEP 0 IR WATER FLOW SWITCH BY OTHERS BY OTHERS BY OTHERS 0 TAMPER SWITCH BY OTHERS BY OTHERS BY OTHERS TS F 0 PIV POST INDICATOR VALVE BY OTHERS BY OTHERS BY OTHERS 2 0 DRY CONTACT (FIRE PUMP CONNECTION) BY OTHERS BY OTHERS BY OTHERS aF° METALLIC RACEWAY SINGLE CONDUCTOR WIRE LEGEND OPEN RACEWAY MULTICONDUCTOR CABLE LEGEND COLOR AWG QTY TYPE LETTER FUNCTION LETTER TYPE QTY AWG COLOR BLACK #16 1 THWN-SOLID A ADDRESSABLE INITIATING A 16/2 - FPLP 1 #16/2 RED + RED #16 1 Total X CIRCUIT X BLACK #16 2 THWN-SOLID B ADDRESSABLE INITIATING B 16/2 - FPLP 2 #16/2 GREEN + RED #16 2 5860 Renate Annunrta.or CIRCUIT LOOP 0.020 0.020 0.02 0.020 BLUE #14 1 THWN-SOLID C HORN / STROBE C FPLP 1 #14/2 BLUE + WHITE #14 1 Duct C etectc r 7 CIRCUIT 0.175 0.095 0.665 X BLUE #14 2 THWN-SOLID D HORN / STROBE D FPLP 2 #14/2 WHITE + WHITE #14 2 CIRCUIT LOOP X X X - BLACK #16 1 THWN-SOLID E CONVENTIONAL INITIATING E 16/2 - FPLP 1 #16/2 YELLOW + YELLOW #16 1 CIRCUIT - BLACK #16 2 THWN-SOLID F CONVENTIONAL INITIATING F 16/2 - FPLP 2 #16/2 PURPLE + YELLOW #16 2 'tandby current Load: CIRCUIT LOOP Mips For 24 Hogs = 8.872 Arno -hours BLACK #14 1 THWN-SOLID G 24V DC POWER G FPLP 1 #14/2 BLACK + RED #14 1 CIRCUIT RED #14/2 1 TWISTED SHIELDED H SPEAKER CIRCUIT H TWISTED SHIELDED 1 #14/2 RED Tor. l System Current Load: FPLP W/ DRAIN 10.757 Amp -hours FPLP W/ DRAIN RED #14/2 2 TWISTED SHIELDED I SPEAKER CIRCUIT i TWISTED SHIELDED 2 #14/2 RED FPLP W/ DRAIN LOOP FPLP W/ DRAIN BROWN #16 1 16/2 - FPLP 1 #16/2 WHITE BLUE #16 1 THWN-SOLID J ANNUNCIATOR CIRCUIT J - BLACK #14 1 FPLP 1 #14/2 BROWN + RED #14 1 18/2 TWISTED FIREMAN'S PHONE 18/2 TWISTED RED #18/2 1 SHIELDED FPLP K CIRCUIT K SHIELDED FPLP 1 #18/2 RED W/ DRAIN W/ DRAIN 18/2 TWISTED FIREMAN'S PHONE 18/2 TWISTED RED #1812 2 SHIELDED FPLP L CIRCUIT LOOP L SHIELDED FPLP 2 #18/2 RED W/ DRAIN W/ DRAIN - PURPLE #14 1 THWN-SOLID M CONTROL CIRCUIT M FPLP 1 #14/2 ORANGE + ORANGE #14 1 - PURPLE #14 2 THWN-SOLID N SPARE CONDUCTORS N FPLP 2 #14/4 RED + ORANGE #14 2 CABLE COLOR SUBSTITUTIONS ARE ALLOWED ON ALL LETTERS EXCEPT H, I, K, L. IF SUBSTITUTIONS ARE MADE, WIRE AWG & TYPE MUST REMAIN THE SAME & LEGEND MUST BE UPDATED & MATCH CORRECT WIRE FUNCTION. MULTI CONDUCTOR CABLE COLORS AVAILABLE: 16/2 = RED, WHITE, YELLOW, GREEN, DARK BLUE, PURPLE, ORANGE. 14/2 = RED, WHITE, YELLOW, GREEN, DARK BLUE, PURPLE, ORANGE, BROWN, BLACK THWN SOLID COLORS AVAILABLE: BLACK, WHITE, GREEN, RED BROWN, YELLOW, ORANGE, PINK, PURPLE, BLUE, GREY Pacific Fire & Security, Inc. Asbuilt- Requirements ELECTRICAL CONTRACTOR IS RESPONSIBLE FOR PROVIDING PACIFIC FIRE & SECURITY, INC. WITH ACCURATE REDLINE DRAWINGS. DRAWINGS SHALL BED REDLINED AS NECESSARY TO SHOW THE FOLLOWING: DEVICE LOCATIONS - ADDS/DELETES CIRCUIT NUMBERS - ADDRESSABLE/SIGNAUZONE/AUXILIARY WIRE/CONDUIT - ACCURATE ROUTING WIRE FILL - USING WIRE LEGEND EOL - RESISTOR LOCATIONS PACIFIC FIRE & SECURITY, INC. WILL PROVIDE (UPON REQUEST) A BLANK SET OF FLOOR PLANS TO BE REDLINED. PACIFIC FIRE & SECURITY WILL INCORPORATE ALL REDLINED CHANGES INTO THE RECORD AUTOCAD SET OF DRAWINGS. AUTOCAD ASBUILT COLOR STANDARDS RED -NEW GREEN - DELETED BLUE - NOTES TO DRAFTER SPECIAL NOTES: FIELD VERIFY LOCATION AND QUANTITY DESIGNATES DEVICE NUMBER DESIGNATES LEVEL OR CIRCUIT NUMBER eg: DESIGNATES TYPE OF CIRCUIT SIGNAL CKT 2 DEVICE 1 S2-1 TYPICAL DESIGNATES DETAIL NUMBER WHERE THE DETAIL CAN BE FOUND DESIGNATES SHEET NUMBER "WP"= DENOTES WEATHERPROOF EQUIPMENT AND/OR BOX Silent Kniht 5820XL Fire Alamo Control Panel INPUT O ZLL c(!) D il Q 2 Z 0 - W W 0 v) J CO Q U ii a �. 0 w W 0 < 2 w J m 0 a. o_ Q LL Z 0 w 0 W (1) D 0 2 — OJ LL W 2 1- co W o- < 1- W W > j 0 1-- - Z 0 a Current Load: Standby: Alarm: LATCHING ACTIVATION OF LOCAL ALARM AT FACP X X X X Device Type Quantity Amps Total Amps Total X X Main Sys" m rd 1 0.140 0.140 0260 0.260 r A' fires a e Devices 63 0.00058 0 035 0. "55 c 5860 Renate Annunrta.or 1 0.020 0.020 0.02 0.020 "I�t�93T-24-VFR Ovtsade S 'obe 1 X X 0.{388 0.083 X i.1S1-108-i�V4-24 Bell 1 0.03 0.030 Duct C etectc r 7 0.025 0.175 0.095 0.665 X TROUBLE/SUPV. INDICATION AT LCD ANNUNCIATOR X X X X TRANSMIT TROUBLE/SUPV. SIGNAL TO CENTRAL STATION MONITORING X X X X Afnnps °1.008 Amps Total Panel Loads: 0.370 'tandby current Load: 0.370 Mips For 24 Hogs = 8.872 Arno -hours 'aCurrent Lod: 1.008 Arr ps F€ r 5 v = 0.0. 2 Amo -hours 2v f3 Demtina= 10 757 Arm -hours Tor. l System Current Load: 10.757 Amp -hours Battery Pair to be Used: 12VDC E Arnp-hours 12 W;thout Comments o As Noted in Red o Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau for conformance with current City standards. Acceptance is subject to errors and omissions Which deo r-ct aut .once vio!G loris of adopted standards and :,)r dfir?; noes. The responsibility for the rsirets trt ry i•s!gner. adequacy of c1L�;�a: v�.:..sy vv.ai�i the �._.�:� Additions, deletions c' i <v.s;cri to tnese Jr3Wings after this date wi'l void t > yv _ c-cance and 'wit; require a resubmittal o rev drz_rYvi figs for suose ;uent approval. Final accept n a secto fe!d test and inspection by The Tukwila Fir:: Pr event,on stir' u. Date: /0^ 7 —1( 6v: l NOTICE A completed, signed, Tukwila Fire Department Pre-test Certificate must be presented to the Inspector prior to commencement of Acceptance Testing of any Fire Alarm and Detection Systems. Failure of test will result in a Re -inspection Fee and termination of the tes : . . VILA FIRE DEPARTMENT Please call 205-575-4407 and give this Fire Permit Na. and exact address for shut- down or restoradon app, oval. CEILING ):( 80" AFF TO CENTER OF LENS FOR WALL MOUNT UP TO 54" AFF TO OPERABLE PART AFFITO APPROACHAPART IF FRONT APPROACH NECESSARY. FLOOR A.D.A. REGULATION COMPLIANCE SWITCHES CONTROLS AND FIRE ALARM PULL STATION SHALL BE MOUNTED AT +48" TO TOP. FIRE ALARM INDICATING APPLIANCES SHALL BE PLACED 80" ABOVE THE HIGHEST FLOOR LEVEL WITHIN THE SPACE OR 6" BELOW THE CEILING, WHICHEVER IS LOWER TO A.D.A. GUIDELINES. a RIVERS EDGE PROJECT SEQUENCE OF OPERATIONS INPUT O ZLL c(!) D il Q 2 Z 0 - W W 0 v) J CO Q U ii a �. 0 w W 0 < 2 w J m 0 a. o_ Q LL Z 0 w 0 W (1) D 0 2 — OJ LL W 2 1- co W o- < 1- W W > j 0 1-- - Z 0 a 0 o_ W >- u) OUTPUT LATCHING ACTIVATION OF LOCAL ALARM AT FACP X X X X INDICATION OF ALARM AT LCD ANNUNCIATOR (IF INSTALLED) X X X X ACTIVATE ALL AUDIBLE & VISIBLE DEVICES X X X X SHUTDOWN RESPECTIVE HVAC UNITS (IF APPLICABLE) X TRANSMIT ALARM SIGNAL TO CENTRAL STATION MONITORING X X X X TROUBLE/SUPV. INDICATION AT FACP X X X X TROUBLE/SUPV. INDICATION AT LCD ANNUNCIATOR X X X X TRANSMIT TROUBLE/SUPV. SIGNAL TO CENTRAL STATION MONITORING X X X X Fire Alarm System Check Off List For Final Inspection Following is a list of items that must be completed before the Fire Department will perform a final inspection. 1 Low Voltage Electrical Final 2 Line Voltage Electrical Final 3 Elevator Final 4 Pressurization Completion Date: Completion Date: Completion Date: a Stairwell Completion Date: b Elevator Completion Date: 5 Sprinkler System (100% Complete) All Valves in normal condition. Completion Date: 6 Interior Building Construction. Completion Date: (i.e. doors, floor covering, ceiling covers, ceiling tiles, windows, etc.) 7 HVAC Completion Date: 8 Suppression Systems Completion Date: 9 Safety and ADA Requirements, Fire Extinguishers Completion Date: 10 Specialty Furniture Completion Date: 11 Monitoring (See Below) 12 Final Fire Alarm Inspection Completion Date: 13 Approved Set of plans and permit on site Completion Date: Phone line (lines) must be installed and active. El 14 Fire Alarm Monitoring Completion Date: a Dual Line Communicator Completion Date: b Scan Line Date Line Due In: (If Required by Jurisdiction) c Contract Signed Completion Date: d Scan Line ordered (Alarm Company) Completion Date: e Stu Installed and Tested Completion Date: Completion Date: 2 Elevator Monitoring GENERAL NOTES: 1) ALL WIRE AND CONDUIT MUST BE INSTALLED IN ACCORDANCE WITH PLANS AND SPECIFICATION, AND MUST MEET ALL APPLICABLE CODES. 2) ALL WIRE AND CABLE MUST BE RATED FOR FIRE ALARM USER PER THE LATEST REVISIONS, OF THE NATIONAL ELECTRICAL CODE SECTION 760. THIS IS A POWER LIMITED FIRE ALARM SYSTEM, ALL CABLE MUST BE MARKED FPL, FPLR, OR FPLP. 3) ALL CONDUCTORS MUST TEST FREE OF GROUND BEFORE MAKING CONNECTION TO THE FIRE ALARM CONTROL PANEL. 4) TO RETAIN WARRANTEE, THE FIRE ALARM EQUIPMENT MUST BE POWERED UP UNDER THE DIRECTION OF A QUALIFIED MANUFACTURER'S TECHNICIAN. 5) THE LIFE SAFETY SYSTEM IS A COMPLETELY SUPERVISED SYSTEM. 6) INSTALLING CONTRACTOR SHALL COORDINATE ALL FIELD CHANGES WITH THE MANUFACTURER INCLUDING CHANGES IN DEVICES, WIRE CONDUIT RUNS AND OPERATION IN THE SYSTEM. MANUFACTURER SHALL NOT BE HELD RESPONSIBLE CAUSED BY THOSE CHANGES. 7) LIFE SAFETY AUDIBLE SHALL BE AUDIBLE THROUGHOUT THE SPACE AND HAVE A SOUND PRESSURE LEVEL NOT LESS THAN 15db ABOVE AMBIENT NOISE LEVEL MEASURED AT 4'-0" ABOVE FINISHED FLOOR. 8) SYSTEM SHALL BE CLASS "B" IN CONFIGURATION. 9) LOCATE ALL PULL STATION AND HORN/ STROBE UNITS AT SPECIFIED HIGH PER NFPA 72 AND ADA SEE DETAIL. 10) SMOKE DETECTOR LOCATION ARE FOR REFERENCE ONLY AND SHALL BE INSTALLED PER NFPA 72 11) ELECTRICAL CONTRACTOR SHALL COORDINATE ALL ROUGH -IN INSTALLATION WITH THE FIRE ALARM CONTRACTOR 12) SMOKE DETECTORS IN CEILING MUST BE LESS THAN 15' FROM A WALL AND / OR NO FURTHER THAN 30' FROM EACH OTHER. 13) NO SMOKE DETECTOR SHALL BE LOCATED CLOSER THAN 36" TO ANY AIR REGISTER OR DIFFUSER 14) NO HEAT DETECTOR SHALL BE LOCATED CLOSER THAN 24" TO ANY AIR REGISTER OR DIFFUSER. 15) NO HEAT DETECTOR SHALL BE LOCATED CLOSER THAN 36" TO ANY PART OF ANY HEAT GENERATION DEVICE (FUSE, BOILERS, WATER HEATER, ETC..) IN MECHANICAL ROOMS. 16) NO HEAT DETECTOR SHALL BE LOCATED CLOSER THAN 18" TO ANY PART OF LIGHT FIXTURE. 17) INITIATION AND SIGNALING CIRCUITS ARE SEPARATE YET MAY BE RUN IN SAME CONDUIT 18) ALL CONDUCTORS SHALL BE LABELED BY ZONE AND ALL COLOR CODES SHALL MATCH 19) ALL CIRCUIT FEED AND RETURN'S SHALL BE SEPARATED BY A MINIMUM OF 6' 20) THESE DRAWINGS DO NOT SUPERSEDE THE CONTRACT DRAWINGS AND SPECIFICATIONS, THEY ARE INTENDED AS A SUPPLEMENT ONLY AND MUST BE USED IN CONJUNCTION WITH THE CONTRACT DOCUMENTS. THEY DO NOT MODIFY THE CONTRACTORS OBLIGATION TO CONFORM TO THE PROJECTS ORIGINAL DESIGN CRITERIA. PAID OCT -7 2011 TUKWILA FIRE 7752 Of/co 828 Poplar Place South Seattle, Washington 98144 Phone: (206)-957-0907 Fax: (206) 726-8160 www.pacificfiresecurity.com wco o0 (2 Q `c% ELI D < U-1> m%< 0 <1 a —1 <Y oF_ ‘1- ISSUE DATE: Project Manager: KELLY HEIGHTON Design: DALLAS ANDERSON Drafter: KELSEY LUTTON Job Number: 22690 Recived Architects Plan: - PFS REVISIONS REV DATE DESCRIPTION 0 10-07-11 PERMIT SUBMITTAL SET FIRE ALARM COVER SHEET FAO.OTTT r - DATA LOOP RELAY 1 RELAY 2 ADDRESSABLE RELAY MODULE DATA LOOP FROM FACP SMOKE DETECTOR HEAT DETECTOR ADDRESSABLE BASE INSERT HEAT DETECTOR AND ADDRESSABLE RELAY IN EXISTING CIRCUIT LOOP. (N) SMOKE DETECTOR A (E) AIM ARM (N) MACHINE WITH SUPPRESSION EXISTING FACP SILENT KNIGHT 5820XL DATA LOOP TO NEXT DETECTOR FIRE ALARM RISER DIAGRAM • ,fix •n 828 Poplar Place South Seattle, Washington 98144 Phone: (206)-957-0907 Fax: (206) 726-8160 www.pacificfiresecurity.com ■� KI < 0 401 Al I PERMIT SUBMITTAL ISSUE DATE: Project Manager: KELLY HEIGHTON Design: DALLAS ANDERSON Drafter: KELSEY LUTTON Job Number: 22690 Recived Architects Plan: - PFS REVISIONS REV DATE DESCRIPTION 0 10-07-11 PERMIT SUBMITTAL SET FIRE ALARM DETAIL SHEET AOv