ML19354E807

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Test Procedure, Cable Vault Room Encl Integrity Test.
ML19354E807
Person / Time
Site: Vermont Yankee File:NorthStar Vermont Yankee icon.png
Issue date: 11/15/1989
From:
VERMONT YANKEE NUCLEAR POWER CORP.
To:
Shared Package
ML19354E801 List:
References
PROC-891115, NUDOCS 9002010388
Download: ML19354E807 (214)


Text

{{#Wiki_filter:. i NOTE: The following " cable Vault Room Enclosure Integrity Test" was t repeated and performed three times to gather information with the room in various ventilation configurations. Therefore certain  ! steps in procedure sections 5.6,&7 are NA'd since these steps did , not apply to that configuration or the step was previously  ! performed. Taken in composite, all procedure steps were completed , and were controlled by this procedure or other plant procedures. , i P 6 1 l l 9002010388 900116 w ' i PDR ADOCK 05000271- ' P PDC. g

TEST PROCEDURE

CABLE VAULT ROOM ENCLOSURE INTEGRITY TEST l l

1.0 PURPOSE 1 l This procedure provides a method to equate Cable vault enclosure i 9terminedkage to worst by case Carbon Dioxide the tracer gas and leakage. door Enclosure leakage will be f an test procedure outlined bel The l calculation method provided by NFPA 12A, App. B, 1989 edition makes it possible to predict the level of the descending interface of the CO2/ air-mixture with respect to time. This calculated value provides a conservative prediction of the CO2 concentration and maximum hold time for the Cable Vault room. 2.0 DISCUSSION 2.1 Background The CO2 total flooding system was installed in the Cable vault to provide protection from a potential deep seated fire. The original installation was a manually activated system, which was installed in 1970. In j 1977 the system was upgraded to an automatically initiated system with second shot capability provided from the west switchgear room. The system was not discharge tested for design concentration as such a test was not required by NFPA 12, 1968 or 1973 edition.  ; In 1977 a Tech Spec ammendment was issued which reflected the modifications to the Cable Vault CO2 system. The Safety Evaluation Report which was issued in support of this ammendment, refers to the design criteria for the system. At the time of installation the system was tested to the criteria of the National Fire Protection Association standard for CO2 systems (NFPA-12, 1977). The standard of record at that time did not require a full d Recently, the NRC, claiming the powers of the Authority Having (Jscharge test.isdiction, has interpreted that a full discharge test is required to prove L a adequacy of the CO2 system (ref. 3.9). In the response to the VY response to the notice of violation, the NRC stated that they would entertain an alternate to the full discharge test if a conclusive test method could be designed (ref. 3.10). The 1989 Edition of NFPA 12A, The Standard on Halon 1301 rire Extinguishing Systems includes an Enclosure Integrity Procedure in Appendix B. This test was developed for the subcommittee of the NFPA 12A committee which was charged with the task of developing an acceptable alternative to full discharge testing of Halon 1301 gaseous fire suppression systems. Appendix B is the result of the efforts of the subcommittee and the research team. This alternative test was presented to the NFPA 12A committee and approved. The test was then added to the draft of the new edition of the code. This draft j was then reviewed by the membership of the NFPA and approved by them for

inclusion in the 1989 cdition of the code.

In cases where a substantial differential pressure exists across the bound 6ry of the enclosure additional test methods are required. In this case the differential pressure across the Ceble Vault - Reactor Building wall may be as auch as 1 1/2 inches of water. To ensure that this boundary of the enclosure it, leah tight, a tracer gas test will be conducted prior to the Enclosure Integrity test. The_ tracer gas test wil?. ensure the integrity of the cable Vault - Reactor Building wall thus guarenteeing the validity of the model usod in the Enclosure Integrity test analysis. I 1

To coot the recont NRC intorprototion of NFPA 12, and to test the adequacy and operability of the CO2 system, a tracer gas test and an Enclosure Integrity Test will be completed in the cable vault room. This will verify I t the Cabis Vault CO2 system is p ysically capable of providing and l ntaining a CO2 concentration of 5 % CO2 (by volume) for a period of ten  : utes. In the event that these criteria are not achieved, further evaluation l will be performed with the potential for the performance of addit al Enclosure Integrity tests. 2.1.1 The Engineering Support Department is the organization with the overall responsibility for the test. 2.1.2 The vendor for these tests will be Retrotech Energy Innovations . Limited. 2.1.3 The vendor will provide the personnel for the completion of the tracer gas test and the Enclosure Integrity test. 2.1.4 The tracer gas and tracer gas analyzer equipment will be t provided by Vermont Yankee. 2.1.5 A calibrated door fan assembly will be provided by the vendor for the completion of this test. 2.1.6 In support of the test a Temporary Modification (89-53) may be installed to provide controlled ventilation of the Cable Vault room during a CO2 discharge. 2.1.7 The results of the Enclosure Integrity test will dictate the necessity for the installation of the Temporary Modification. 2.2 Safety Evaluation 2.2.1 Safety Class The cable vault automatic total flooding CO2 suppression system , (machanical equipment, piping, and electrical control equipment) is a non-safety class system. The CO2 system provides fire protection for safety class electrical cable and equipment, and is therefore designated a vital fire protection system. The walls which comprise the boundaries of the Cable Vault cro designated as vital Fire Barriers. These walls provide protection from fires which may occur outside of the Cable Vault. Additionally, the walls are designed to confine a fire which may occur within the Cable vault. The walls also serve the function of confining the CO2 which will be discharged in the ! event of a fire within the cable vault. 2.2.2 System / Test Discussion l The automatic total flooding high pressure CO2 fire suppression system , provides protection from a deep seated electrical fire for the Cable Vault. ' The system was installed in accordance with the requirements of the National Fire Protection Association (NFPA) fire code No. 12, 1969, 1973, and 1977 editions. The required concentration for this application is 50% CO2 by volume. The design flow rate is 840 lbs/ min of CO2 for 200 seconds. This will , provide a CO2 concentration of 30% within two minutes, and a 50% concentration l

   /-Aghin seven minutes.                               The design " soak" time at 50% concentration is ten g jutes.              The design calculations are documented in Reference 3.8.

i l

l Tho discharge of CO2 in the Cablo Vcult raises o potential lifo safoty consideration. Since CO2 is an asphyxiant, this test procedure addresses precautions that ensure that a 50.73(a)(2)(x) event (i.e. hampering site l l does not occur. The completion of this test procedure will not 9tsonnel)

      /olve  the actual    discharge  of CO2.

The initial portion of this test involves the introduction of a tracer gas to the Cable Vault atmosphere. The tracer gas to be utilized in this test is Sulfur Hexafluoride (Sr6). The tracer gas will be used in concentrations of 250 ppm or less. This level of Sr6 is well below the toxic limit of 1000 ppm. The Toxic Gas Monitoring System is not capable of detecting ST6, therefore the control Room Ventilation system and the Toxic Gas Monitoring system will be left in their normal operating configurations. The potential for overpressurization of the room due to the discharge of CO2 has been evaluated utilizing the guidance provided in NrPA No. 12; 1989. This possibility will be examined through a comparison of the Equivalent Leakage Area as determined by this test with the required free ' venting area as determined by the NrPA 12 code requirements. This ensures that sufficient vent area will be available to prevent excessive pressure buildup within the room during CO2 discharge. A review of the Switchgear room CO2 full discharge test results indicated that controlled venting of the room during the initial phase of the CO2 discharge was necessary. This provided a controlled means of evacuating air and allowing for a uniform concentration of CO2 throughout the room. This test will determine the need for the installation of such a controlled venting mechanism in the Cable Vault. Should these test results indicate the necessity for a controlled ventilation, Temporary Modification 89-53 will be installed. (The controlled psure ventilation of the exhaust fanwill andbe damper provided by delaying the for approximately deenergization three and minutes. This

 \_ 4    prevent the pressurization of the Cable vault room and will enhance the distribution of CO2.

By controlling and minimizing the pressure within the room by delayed closure of the exhaust damper (TM 89-53), it is assured that wall, door, and fire barrier seal integrity will be maintained during the discharge test. The tracer gas and Enclosure Integrity test of the Cable vault will verify the design capabilities of the total flooding CO2 system. 2.3 This test does not present significant hazards not described or implicit in the safety analysis report, and there is reasonable assurance that the health and safety of the public will not be endangered in that: 2.3.1 The probability of occurrence of an accident is not increased in that the Enclosure Integrity test will only slightly increase the air pressure within the room. There will be no change in ambient temperature, nor any adverse impact on the operability of equipment or systems. The tracer gas test will be conducted at a concentration well below the toxic limits. To ensure that licensing commitments and fire protection standards are maintained, the continuous fire watch will be continued throughout the test. Although the automatic initiation of the O

CO2 systea will bo discblod, tho syston will still be availcble for manual activation. This will provide an equivalent or better level of fire protection for the Cable vault during the implementation of this test. and 2.3.2 The consequences of an accident is not increased in that the tracer gas test or the Enclosure Integrity test will in no way affect the operation of equipment powered or controlled by cables or components located in this area, and 2.3.3 The probability of equipment malfunction is not increased because the Enclosure Integrity test only serves to slightly increase the rooms air presure. hvIther the tracer gas test nor the Enclosure Integrity test alters the condition or configuration of any equipment within or outside of the Cable vault room, and 2.3.4 The consequences of equipment malfunction is not increased , because the introduction of SF6 or the pressurization of the room will have no detrimental effect on the operability of equipment within the Cable vault or Reactor Building, and 2.3.5 The possibility for an accident of a different type than O previously analysed is not created in that this test does not change or modify the intent of the design or equipment configurations. The CO2 system will remain available for manual

activation.

and 2.3.6 The possibility of malfunction of a different type than previously analysed is not created because this test does not change the bases for any previous analyses. and 2.3.7 The m:* gin of safety as defined in the basis for any technical speci'. cation is not reduced because this test makes no changes to an-; safety limits or controls. 2.4 Based upon the above this test does not constitute an unreviewed safety question as defined in 10CFR50.59(a)(2).

3.0 REFERENCES

3.1 NFPA No. 12, 1973 edition, Standard on Carbon Dioxide Extinguishing Systems 3.2 NFPA No. 12, 1985 edition, Standard on Carbon Dioxide O Extinguishing Systems 4

3.3 NFPA No. 12, 1989 odition, Standard en Carbon Dioxid2 i Extinguishing Systems i 3.4 NFPA No. 12A, 1989 edition, App. 8, Enclosure Integrity Test O Procedure (attached) i 3.5 " Enclosure Integrity Procedure for Halon 1301 Total riooding  ! rire Suppression Systems", January 10, 1989, Edited by casey C. Grant, P.E. 3.6 "Cardox" rire Extinguishing Equipment Operation and Service  : Manual , 3.7 PDCR 79-06; Switchgear/ Cable Vault Suppression Systems ' i 3.8 "Cardox" High Pressure Carbon Dioxide Flow-Calculations dated  ; 04-02-70 i 3.9 Letter, USNRC to VYNPC, NVY 89-108, dated 05-18-89 3.10 Letter, USNRC to VYNPC, NVY 89-172, dated 08-21-89 . 4.0 APPARATUS 4.1 Enclosure Integrity Test Equipment (provided by RETROTEC) 4.2 Tracer Gas analyzer (provided by VY) O1 PREREQUISITES (_) Verified /Date 5.1 Vendor personnel on site. 10- $( 8, 5.2 Testequipmentcalibrationdataprovidedbyvendor.[]I (0-1-0, 5.3 rire Control Permit initiated as required by AP 0042. [ )f k-)L 9) ( 5.4 Material Safety Data Sheet on file for tracer gas, d7 Le g t. ae 5.5 ers and light objects which may be h)hI t h -$b ee Securepabytheaircurrentsfromthedoorfan. affected (' 1 5.6 Place a smoke ejector unit with two. lengths of /I ta -h- Ae flexible ducting in the cable Vault Battery room '/ l prior to beginning the test. (Tech Spec section 3.10.B.2.a) 5.7 Provide the capability for hydrogen sampling of krt veutrol the Cable vault Battery room atmosphere should the test exceed 12section requirement, hours in4.10.B.2) length. M(TechtSpech but \TO. N ve.st.eeA m \U M . / /-f 5.8 The Security Shift Supervisor has been notified of 4// \0~)l 87 the test schedule, p'

         --        w      -

5.9 Verify that oil personnel not involved with this test procedure have evacuated the Cable Vault room. [6 3[.aa l (The continuous fire watch will be maintained within the cable vault room.) 6.0 PRECAUTIONS  ! Verified /Date 6.1 observe precautions in the Vermont Yankee I \0-)l 99 i Safety Manual, d 6.2 Caution shall be exercised when working in the 4 - 1(- 8, vicinity of energized circuits. v . f 7.0 PROCEDURE { Ve ified/Date 7.1 Notify shift Supervisor prior to beginning test. (6- $( Sy 7.2 Verify that the cable vault room doors are. closed le h-se and latched. J' l NOTE The following steps will disable the automatic discharge portion of the Cable Vault CO2 system. O

    .          7.3 7.4 Close the valve on the CO2 pilot cylinder.

Disconnect the two flexible pipes from the pilot h, No to- A-s. ! cylinder pipe to the two discharge initiating heads ( ~~. )QAdt b-h-t' , ~ on the CO2 cylinders. 7.4.a Disconnect leads 13 (red) and 14 (green) on TB2 in the junction box directly above the Cable Vault M /8bt[M panel in accordance with AP 0020. These leads are for the ETL's of the supply air fire dampers. - [ 7.4.b Manually release the supply air fire dampers. @K4/Jih? ' NOTE The following action will cause an alarm on the local cable Vault panel as well as the Control Room Pyrotronics panel. Caution Do not place the activate / abort switch in tre "Second Shot" position. 7.5 Activate the Cable vault CO2 system by placing the 958 cl3)/M activate / abort switch in the 1st shot position. O

l l 7.6 Vorifythatthofollowinginlotandoxhaustdarpers!)I 10-31593 have closed / i

a. Computer Room su ply ventilation damper, s b. Cable vault supp y ventilation fire damper. i
c. Cable Vault supp.y ventilation air operated l louvers.
d. Cable vault exhaust ventilation damper.

NOTE , Tho tracer gas / air exchange test will be conducted by vendor personnel.  ! 7.7 Position tracer gas / air exchange test equipment-in h*M-$ the cable vault. i I , t 7.8 Start tracer gas blowers to ensure complete mixing of tracer gas. , hb 7.9 Start tracer gas analyzer, calibrate, and /,g_W s  : establish baseline. gppr 4 7.10 Add tracer gas to air entering blowers until c4 w 1 l approximately 250 ppm of tracer gas is attained in i the outlet air and level remains stable. 7.11 Maintain blowers in a running state while monitoring and recording gas concentration. 7.12 Ensure that blowers do not direct flow towards j (} known openings in the enclosure, 7.13 continue test for 1 1/2 hours, or until initial. concentration decreases to 50%. 7.14 Secure test equipment. ! 7.15 Seal all supply dampers with poly film and tape.  ! 7.16 Repeat steps 7.10 through 7.13.  ; i 7.17 Upon completion of both tests, purge the room of the tracer gas utilizing the cable vault exhaust fan. , 7.18 Remove any poly film which was installed on supply dampers 7.19 Seal those leakage areas which will be detrimental , to the proper operation of the Cable Vault CO2 system using OP 5981. 7.20 Remove tracer gas / air exchange test equipment from the Cable vault room. 7.21 Shutdown exhaust fan. 1 ( 7.22-Verify that exhaust damper and supply dampers are 3/ closed.

7.23 station Socurity personnel ot Door 103.  %-M-g, 7.24 open Door 103 and secure in the open position. h to-3( AP l NOTE The Enclosure Integrity Test will be conducted by vendor personnel. 7.25 Install door fan unit in the opening of Door 103. M 16- 31 09 7.26 Pressurize room and determine static pressure [ w-$\-99 within the Cable vault as directed by NFPA 12A, ( App. B, section B-2.5.2. 7.27 Make adjustments as necessary to minimize static # pressure. (eg fire barrier seal leaks) < 7.28 Repeat measurement of static pressure of the Cable I///T U Y{!h vault. / 7.29 Determine the column pressure as directed by NFPA (0-$l- 6 9 12A, App. B, section B-2.6.1.3. ( 7.30 Depressurize the Cable Vault to column pressure. [, ~[ lo-$l-69 , 7.31 Measure air flow. / I h-h-60 7.32 Pressurize the Cable Vault to column pressure. [ 16-1l-89

 /

7.33 Calculate Equvalent Leakage Area as directed by NFPA 12A, App. [ lo-$( -Op

B, section B-2.6.3.5.

[ 7.34 Identify leakage areas within the Cable Vault. #//J /M) 7.35 Generate Maintenance Re uests as required to seal M1 those leakage areas whi h will be detrimental to

  • the proper operation of the Cable Vault CO2 system.

7.36 The ESS shall evaluate the Enclosure Integrity test results and determine if additional free venting 8/A '

                                                                                                     /df area is required.

Note: If additional Free vent area is required, a time delay may be installed on the cable vault room exhaust damper. The~ESS shall initiate other. processes if this action is deemed insufficient. 7.37 Install TM # 89-53 as required to ensure /W9 s/57 sufficient free venting area. ' 7.38 Repeat test steps 7.28 through 7.31 to verify the A A' WO

                                                                                                ,ohi/sf pro er operation of the TM 89-53 and the succesful                               '

sea ing of excessive leakage paths. 7.39 Secure the test equipment upon completion of the M /o/M/ test.

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7.40 ROCova 011 tost OquipO3 frc3 he aul A r o o m . -f., g g,qag \g

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                               -t u tt 7.41 Secure Door l03 in the closed position.

J /.1 V( \p-1(-89 7.42 Reset the activate / abort switch to the Abort position. [f[ ( lb- M- M 7.42.a Restore the ETL's on the sup 1 duct dampers. M tbf}f !$ f[ Independent verification of h s action is required. -M /03/j'/'U

                                                                                                             //
        \   7.42.b Reconnect leads 13 and 14 on TB2 in junction box M                                 fo/1t b l directly above the Cable Vault panel. Independent verification of this action is required.                              M /o/r//P7 7.43 Reconnect the two flexible pipes to the two                                    n     R . w .c. ,

I discharge initiating heads on the CO2 cylinders. '

                                                                                                                 \

Independent verification of this action is t.w u required. l l 7.44 open the valve to the pilot cylinder. e,mded i Independent verification of this action is u.ut s, L l required, g 7.45 Check for leaks with a soap solution at the point tu h m , where the two flexible pipes were reconnected in - i step 7.41. Independent verification of this action i / \\-4-a, . is required. 7.46 Deleted. g 7.47 Reset activate / abort switch to the Normal position. (0 - $l- SS 9 7.48 Reset Cable Vault CO2 control panel. [ (0-)(- 6 9 7.49 Clear all alarms from local panel. [ ~[ (0-$\-89

7.50 Clear alarm from Control Room panel. \o-St- M 7.51 Verify that Computer Room supply damper has 34,,d./d/h?

reopened. 7.52 Verify that the cable Vault supply damper and air JO/1 'MJ t operated louver have reopened. ~ 7.53 verify that the Cable Vault Exhaust damper has J bL 'D! EI reopenec. 7.54 Notify Shift Supervisor that the test is ((I \0-3( < B_5 complete. ( 8.0 DATA Verified /Date 8.1 verify that all required data was collected. (o ')t-Bs O l

3.3 NFPA No. 12, 1989 odition, Standord on Corben Dioxido Extinguishing Systems 3.4 NFPA No. 12A, 1989 edition, App. 8, Enclosure Integrity Test O Procedure (attachod) 3.5 " Enclosure Integrity Procedure for Halon 1301 Total riooding ' Fire Suppression Systems", January 10, 1989, Edited by casey C. Grant, P.E. . t 3.6 "Cardox* Fire Extinguishing Equipment Operation and Service Manual 3.7 PDCR 79-06; Switchgear/ Cable Vault suppression Systems , 3.8 "Cardox" High Pressure Carbon Dioxide Flow Calculations dated  ! 04-02-70 i 3.9 Letter, USNRC to VYNPC, NVY 89-108, dated 05-18-89 3.10 Letter, USNRC to VYNPC, NVY 89-172, dated 08-21-89 1 4.0 APPARATUS f 4.1 Enclosure Integrity Test Equipment (provided by RETROTEC) + 4.2 Tracer Gas analyzer (provided by VY) Verified /Date r 5.1 vendor personnel on site. Il7 R-0(- 8 9 5.2 Test equipment calibration data provided by vendor. [ !I R-01-99 5.3 Fire control Permit initiated as required by R-0(-83 AP 0042. ' 5.4 Material Safety Data Sheet on file for tracer gas.  !/ ' M-ot - g e 5.5 Secure papers and light objects which may be / I h -o t - Be affected by the air currents-from the. door fan. / 5.6 Place a smoke ejector unit with two lengths of [J/ tt.o(-83 flexible ducting in the Cable vault Battery' room /~ prior to beginning the test. (Tech Spec section ,4 jh.4

  • 3.10.B.2.a) dd "

4s. r 5.7 Provide the capability for hydrogen sampling of Jo+Y)'

                                                                                         /U          hf the Cable Vault Battery room atmosphere should the-test exceed 12 hours in length.       Tech Spec r9qu(rement, sect:.on 4.10.B.2) No(m b w te.aneda.x M *.10 W .                    .

Ven$\at a- resw so at \9'50 W j i 5.8 The Security shift Supervisor has been notified of C R-a-93 the test schedule. '

5.9 Vorify that 011 parsonnol not involved with this ll-o("8f test procedure have evacuated the cable Vault room. ( (The continuous fire watch will be maintained within the Cable vault room.) 6.0 PRECAUTIONS Verified /Date 6.1 Observe precautions in the Vermont Yankee Q-D\-93 Safety Manual. t 6.2 Caution shall be exercised when working in the R-0(-81 vicinity of energized circuits, p 7.0 PROCEDURE Ve ified/Date 7.1 Notify Shift Supervisor prior to beginning test. R- ol-89 7.2 Verify that the Cable Vault room doors are closed 4 l\-o\- 89 and latched. ( NOTE The following steps will disable the automatic discharge portion of the cable l Vault CO2 system. 7.3 Close the valve on the CO2 pilot cylinder, y n //N 7.4 Disconnect the two flexible pipes from the pilot ,nAL /e ///D cylinder pipe to the two discharge initiating heads-on the CO2 cylinders. l 7.4.a Disconnect leads 13 (red) and 14 (green) on TB2 JM N N in the junction box directly above the Cable Vault panel in accordance with AP 0020. These leads are for the ETL's of the supply air fire dampers. 7.4.b Manually release the supply air fire dampers. M "! t !II* NOTE The following action will cause an alarm on the local Cable' vault panel as well as the Control Room Pyrotronics panel. Caution Do not place the activate /ebort switch in the "Second Shot" position. 7.5 Activate the cable Vault CO2 system by placing the activate / abort switch in the 1st shot position. ' O

7.6 vorify that the 1. towing inlet and oxhaust datpors R-ot-99 have closed: I-

a. Computer Room su ply ventilation damper.
b. Cable vault supp y ventilation fire damper.
c. Cable Vault supp y ventilation air operated l louvers.
d. Cable Vault exhaust ventilation damper. ,

! NOTE

       'the tracer gas / air exchange test will be conducted by vendor personnel.

7.7 Position tracer gas / air exchange test equipment in R-M-9 9 the cable vault. ( 7.8 start tracer gas blowers to ensure complete mixing ((-0\- 8 9 of tracer gas. (

    *j                           7.9          Start tracer gas analyzer, calibrate, and                                                                                  ll-d-69 establish baseline.                                                                                                I                      j 7.10 Add tracer gas to air entering blowers until                                                                                       tt-o\-Bs d

approximately 250 ppm of tracer gas is attained in the outlet air and level remains stable, / j 7.11 Maintain blowers in a running state while monitoring and recording gas concentration, f f /[ u-ot-M i () 7.12 Ensure thht blowers do not direct flow towards (t 09 . known openings in the enclosure. I M2 7.13 continue test for 1 1/2 hours, or until initial concentration decreases to 50%. I/7 I u-M 89 # 7.14 secure test equipment, fN WM-99 g ll-Ol-99 7.15 seal all supply dampers with poly film and tape. J s 7.16 Repeat steps 7.10 through 7.13. a ll OL-6#-

  '+

I 7.17 Upon completion of both tests, purge the room of kb re///S'/ ~l the tracer gas utilizing the Cable Vault exhaust fan. 1 7.18 Remove any poly film which was installed on supply AfA ,,/,/;f j dampers., j 1 7.19 seal $ hose leakage areas which will be detrimental . Av Su4/ l to the proper operation of the' Cable vault CO2 system us ng OP 5981. p ,,N57 7.20 Remove tracer gas / air exchange test equipment from I# 0 '[ M the Cable vault room. 4tuec ,gy 7.21 shutdown exhaust fan. 242 etM j 0

 .,                              7.22 Verify that exhaust damper and supply dampers are closed.

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I 7.23 station Socurity personnel at Door 103. ,#6 ,,/d ; 7.24 open Door 103 and secure in the open position. Acd ///W l NOTE Tho Enclosure Integrity Test will be conducted by vendor personnel. i 7.25 Install door fan unit in the opening of Door 103. /rd y//M 7.26 Pressurize room and determine static pressure fcb f,A/g , within the Cable Vault as directed by NFPA 12A, ' App. B, section B-2.5.2. ' 7.27 Make adjustments as necessary to minimize static iM O <<4/k 7 pressure. (eg fire barrier seal leaks) 7.28 Repeat measurement of static pressure of the Cable A2- D <rd d ; Vault. 7.29 Determine the column pressure as directed by NFPA <td ,,/M S 12A, App. B, section B-2.6.1.3. 7.30 Depressurize the Cable Vault to column pressure. Nb <</< d ? 7.31 Measure air flow. neQ </f/t t 7.32 Pressurize the Cable Vault to column pressure. r4 n/,4 9 i 7.33 Calculate Equvalent Leakage Area as directed by M O re // 4 9 NFPA 12A, App. B, section B-2.6.3.5. ' 7.34 Identify leakage areas within the Cable Vault. <b.) <<//oG 7.35 Generate Maintenance Requests as required to seal A/4 df those leakage areas which will be detrimental to the proper operation of the cable vault CO2 system.  ; 7.36 The ESS shall evaluate the Enclosure Integrity test dCD </MS9 > results and determine if additional free venting area is required. Note: If cdditional Free Vent area is required, a time delay may be installed on the Cablo vault room exhaust damper. The ESS shall initiate other processes if this action is deemed insufficient. 7.37 Install TM # 89-53 as required to ensure // [67 /th sufficient free venting area. 7.38 Repeat test steps 7.28 through 7.31 to verify the //[/ b Nd proper operation of the TM 89-53 and the succesful sealing of excessive leakage paths. 7.39 Secure the test equipment upon completion of the test.

                                                                                                               /'/[/37 M O

7.40 R3pDv0 011 tost OguipOOnt frco th3 C0blo VCult

                                                                                           ? 6' Y M MM </,[Cf l

l room. i 7.41 secure Door 103 in the closed position. det udd y f O 7.42 Reset the activate / abort switch to the Abort NO .f d ? position. yp l 7.42.a Restore the ETL's. on the supply duct dampers. M[66 akt, di /b Independent verification of this action is Au ra, w  ! required. ' L 7.42.b Reconnect leads 13 and 14 on TB2 in junction box hold  ! C) i directly above the cable vault panel. Independent /, ,/  ? I verification of this action is required, f/ 7 . t f7.43 Reconnect the two flexible pipes to the two M4 Mp///p I p{ discharge initiating heads on the CO2 cylinders. #p i g* i  ; Independent verification of this action is / m . i required. f fh rr

 ,            t 7.44 Open the valve to the pilot cylinder,                                                    /w Independent verification of this action is gg[f{j Ng gr                        required.

7.45 Check for leaks with a soap solution at the point where the two flexible pipes were reconnected in step 7.41. Independent verification of this action 3/ is required. 7.46 Deleted. 7.47 Reset activate / abort switch to the Normal position. /N5 h// [8-) 7.48 Reset Cable Vault CO2 control panel. D*Q e4 M F i i ! 7.49 Clear all alarms from local panel. e ch/FG ' 7.50 Clear alarm from Control Room panel. 16 ,,///g 9 7.51 verify that Computer Room supply damper has MD <//edf reopened. 7.52 Verify that the cable Vault supply damper and air MD n///i'i  :' operated louver have reopened. 7.53 Verifh that the Cable Vault Exhaust damper has Aeo u/< d f reopened, i 7.54 Notify Shift Supervisor that the test is D ,,///D bD ' complete. 8.0 DATA Verified /Date 8.1 Verify that all required data was collected. \\- et 4, O - l 1

3.3 NFPA No. 12, 1989 edition, standard on Carbon Dioxide

Extinguishing systems 3.4 NFPA No. 12A, 1989 edition, App. 3, Enclosure Integrity Test O4 Procedure (attached) 3.5 "Enclosu;e Integrity Procedure for Halon 1301 Total Flooding Fire suppression systems", January 30, 1989, Edited by casey C.

J Grant, P.E. 3.6 "Cardox" rire Extinguishing Equipment operation and service . Manual  ; j 3.7 PDCR 79-06; switchgear/ Cable Vault suppression systems { 3.8 "Cardox" High Pressure Carbon Dioxide Flow Calculations dated 04-02-70 f l l g I 3.9 Letter, USNRC to VYNPC, NVY 89-108, dated 05-18-89 ~ ! 3.10 Letter, USNRC to VYNPC, NVY 89-172, dated 08-21-89 l ( ! 4.0 APPARATUS l 4.1 Enclosure Integrity Test Equipment (provided by RETROTEC)  ! 4.2 Tracer Gas analyzer (provided by VY) ' j PREREQUISITES ver fled /Date 5.1 vendor personnel on site. I [ ll-Df-n? 5.2 Test equipment calibration data provided by vendor. [ h it-Dt Bs j 5.3 rire Control Permit initiated as required by AP 0042. [( ((~Dt-99 f 5.4 Material safety Data sheet on file for tracer gas. ((-Of-RS . 5.5 R-DE-Bs securepabersandlightobjectswhichmaybe ~7 affected y the air currents from the door fan. '( ' t 5.6 Place a smoke ejector unit with two lengths'of flexible ducting in the Cable vault Battery room

                                                                                                        /               h-ot.-g 9 l

( prior to beginning the test. (Tech spec section 2 .f  ; 3.10.s.2.a) 5.7 Provide the capability for hydrogen samplin of .r/n the Cable Vault Battery room atmosphere she ld the / test exceed 12 hours in length. (Tech spec reqv$ QVAQ rement, ratsed a.tsection 4.10.B.2)

                                                              \5: So   W       %N} AC, . se..cd cc \t'.45 ket.                        .

5.8 The security shift supervisor has been notified of n-et-SS i [ the test schedule. ( t

        ..   ..    .- - ---          -. . .~.        .  - .-   .-.            .         .   .

i 5.9 verify that 011 porsennel not involved with this R-ot.qq test procedure have evacuated the cable vault room, t (The continuous fire watch will be maintained within the Cable Vault room.) 6.0 PRECAUTIONS Verified /Date j 6.1 Observe precautions in the Vermont Yankee Safety Manual. [  !!0t.99  ;

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6.2 Caution shall be exercised when working in the U.0t-87 vicinity of energized circuits. / l l 7.0 PROCEDURE i Verified /Date ' 7.1 Notify Shift Supervisor prior to beginning test. I bO7-09 l I 7.2 Verify that the cable Vault room doors are closed ll- 67-69 and latched. / i i NOTE 3 Tho following steps will disable the automatic discharge portion of the cable Vault CO2 system. i 7.3 Close the valve on the CO2 pilot cylinder. . C6( n M19 7.4 Disconnect the' two flexible pipes f rom the pilot M /r/ft  : cylinder pipe to the two discharge initiating heads [ on the CO2 cylinders. 7.4.a Disconnect leads 13 (red) and 14 (green) on TB2 in the junction box directly above the Cable vault M n/w[19 , panel in accordance with AP 0020.- These-leads are for the ETL's of the supply air fire dampers. , l 7.4.b Manually release the supply air fire dampers. M H 8T ' NOTE The following action will cause an alarm on the local Cable vault panel as well as the Control Room Pyrotronics panel. Caution Do not place the activate / abort switch in the "Second shot" position. 7.5 Activate the Cable Vault CO2 system by placing the M-ct se activate / abort switch in the 1st shot' position. ( O

                                                                                                \

l l

t l 7.6 VerifythatthefollowinginlotandexhaustdampersC3bk.Obf)? , have closed: 4

a. Computer Room su ply ventilation damper. i
b. Cable vault supp y ventilation fire damper. i
c. Cable Vault supp y ventilation air operated >

louvers, i

d. Cable vault exhaust ventilation damper.  !

1 NOTE  ! 7 Thetracergas/airexchanget63twillbeconductedbyvendorpersonnel.f!k / i 7.7 Position tracer gas /cir exchange test equipment in _ i the cable vault. j 7.8 start tracer gas blowers to ensure complete mixing I of tracer gas.

                                                                                                                       ~

l I 7.9 start tracer gas analyzer, calibrate, and . establish baseline.  !

?

, 7.10 Add tracer gas to air entering blowers until  ! approximately 250 ppm of tracer gas is attained in  ; the outlet air and level remains stable.  ;, , 7.11 Maintain blowers in a running state while -  : monitoring and recording gas concentration. l i 7.12 Ensure that blowers do not direct flow towards i known openings in the enclosure'. 7.13 continue test for 1 1/2 hours, or until initici concentration decreases to 50%.  ! j 7.14 secure test equipment. _ } 7.15 seal all supply dampers with poly film and tape. 7.16 Repeat steps 7.10 through 7.13. _ t 7.17 Upon completion of both tests, purge the room of j the tracer gas utiliring the cable vault exhaust fan. , 7.18 Remove any poly film wnich was installed on supply _ # dampers. 7.19 seal those leakage areas which will be detrimental . to the proper operation of the Cable vault CO2 l' system using or 5981.- 7.20 Remove tracer gas / air exchange test equipment from the Cable vault room. - l 7.21 Shutdown exhaust fan, j O 7.22 Verify that exhaust damper and supply dampers are closed. he o u3 We. -g: s)'

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7.23 station security personnel at Door 103. N'Q-99 , 7.24 open Door 103 and secure in the open position. ll 69 O  ! V NOTE

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The 2nclosure Integrity Test will be conducted by vendor personnel. 7.25 Install door fan unit in the opening of Door 103. M-02-Bo 7.26 Pressurize room and determine static pressure lf[ R-Ot 99

;                             within the cable Vault as directed by NFPA 12A,                                    [

i App. 8, section B-2.5.2. 7.27 Make adjustments as necessary to minimize static pressure. (eg fire barrier seal leaks) A /I i i i 7.28 Repeat measurement of static pressure of the Cable vault. 2/h ' 7.29 Determine the column pressure as directed by NFPA U-Ot-69 l 12A, App. 8, section B-2.6.1.3. ( , 7.30 Depressurize the Cable Vault to column ptessure. u-of-0) 7.31 Measure air flow. R 8 9

'/.3.1 rressurize the cable Vault to column pressure. R.o't-Sy  !

7.33 Calculate Equvalent Leakage Area as directed by R-ot.-Bf (O) NFPA 12A, App. , 8, section B-2.6.3.5. I

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7.34 Identify leakage areas within the Cable Vault. h-01-9) .) 7.35 Generate Maintenance Re uests as required to seal

  • l those leakage areas whi h will be detrimental to ' *

, the proper operation of the cable Vault CO2 system. 7.36 The Ess shall evaluate the Enclosure Integrity test _ Adad bot e . results and determine if additional free venting N area is required. Note: If additional Free Vent area is required, a time delay may be installed on the Cable Vault room exhaust damper. The ESS shall initiate other processes if this action is deemed insufficient. 7.37 Install TM # 89-53 as required to ensure 4a me, , sufficient free venting area. 7.38 Repeat test steps 7.28 through 7.31 to verify the proper operation of the TM 89-53 and the succesful* sealing of excessive leakage paths. 7.39 Secure the test equipment upon completion ef the  %( - test. k oev-a1 'wh T*M W m4 ge 39 ( ght %gert QMe[ Q

 .                      b Ar% 3.M. 6 s ~ h 4 M4 proeceu)

i 7.40 Remove all test equipment from the Cable vault R- 63-g, room. (  ; 7.41 Secure Door 103 in the closed position. t\-ot-Q 7.42 Reset the activate / abort switch to the Abort '[ h-og-ee - position. / 7.42.a Restore the ETL's on the supply duct dampers. E n/s /1f ' Independent verification of this action is required. u/*/sy  : 7.42.b Reconnect leads 13 and 14 on T32 in junction box M n b h directly above the Cable vault panel. Independent / p  : verification of this action is required. c;A- ,,/r/r/ t 7.43 Reconnect the two flexible pipes to the two discharge initiating heads on the CO2 cylinders. h als \f1 i Independent verification of this action is 7 < n /r /# VM, required. 7.44 Open the valve to the pilot cylinder. A ti lt [j f Independent verification of this action is # ,, o /ps required. 7.45 Check for leaks with a soap solution at the point h uls ff ? where the two flexible pipes were reconnected in step 7.41. Independent verification of this ; action Ik < /r /e/ ' is required. . 7.46 Deleted. 7.47 Reset activate / abort switch to the Normal position. I h-ot-0 9 7.48 Reset Cable Vault CO2 control panel. I ((rO!-$3 1 7.49 Clear all alarms from local panel. I R-6t-89 7.50 Clear alarm from Control Roon panel. I u -O t-9 9 < 7.51 Verify that Computer Room supply damper has "[ R-ot-89 r reopened. /- 7.52 Verify that the Cable vault supply damper and air h B, l operated louver have reopened, t 7.53 verify that the Cable Vault Exhaust damper has- I tt-bt-9, reopened. / , 7.54 Notify Shift supervisor that the test is R.ot,89 l complete. ( 8.0 DATA Verified /Date 8.1 verify that all required data was collected. [Y < h-07-M 9

 --....,.r , . . . . -     v-..        -_, .               - - - - ~  ,     , , . . . _ - . , . - . . - . . _ - - - . - - - - ,-.-.y---           +   -            * - - - - - - - - , - - - - * -

l 1 i l 9.0 INSPECTION AND TEST ACCEPTANCE j Verified /Date J

9.1 verify that all procedure steps have been it- eA -a ,

i completed, t J I 9.2 Verif resol ed. that all discrepancies have been [N

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{(-03-89 l 9.3 The Ess shall evaluate the height of the 50% [II R-os-83 f i CO2/ air descending interface against the critical (. i elevation of 7 feet at time equals 10 minutes, (Ref. 3.4, section 8-2.7.1.7) 9.4 Notify the TSS of of system status / acceptability. ( [ R-oi 89 i i 10.0 r!NAL CONDITIONS Verified /Date 10.1 rull Cardox cylinders in place. . (1-02-99 10.2 rull pilot bottle in place. 7 \l -O t.- 9 9 10.3 Pilot bottle valve open. Il- 0 2. -B p 10.4 continuous fire watch in place. I n-of-69  ! 10.5 ETL's repl 7 ((-02-99 f m g,,d c hed and be. e.wam ci s. Werestor cuits c. e.d. 4 % GT( 2[ U-02-f g 10.6 All alarms cleared (local and Control Room panels). 5 i 10.7 All test equipment removed. (tracer gas / air exchange measurement equipment and enclosure h7 h-03-99 , ( integrity test equipment) 10.8 Temporary Modification 89-53 (Cable vault' exhaust ll-ot- 09 I damper time delay) installed if required. ' ! 10.9 Shift Supervisor notified of test completion h - o t. -O S and acceptability of test results. / . i 10.10 Test Procedure data sheets completed. ll-Oil - S $

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,  11.0               EVALUATION                                                                                                     ,

l Evaluation of collected data and-the vendors test report will be completed by the Plant Fire Protection Coordinator and ESS as a portion of the test procedure. 9 O

I

 *12.0 NOTIFICATION Verified /Date        :

f Notify the Engineering Support Records Clerk that this test procedure is completed.

                                                                                 //7

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. u .,:. D w L , u x . L .. .aos ao+~ mva _ uh QA LA, ' er w W ~: easeanao av cuscaro sv M d'/H meviewso- h-Odwkes kap PAscA t,,3 1 EOGL\s4 C oa4 G(L%\ ou s (% ppc A w M Ano Q, sa g.gg. l A . (i.zw )(& w ,Q (!*'llL28Ifr' (s. tai _rr)Y(6 owe) A = . 92%7 Qc l I W l i od l k* . "'~ tuMGear k=M - /. 0 7 W Ti s e G; - cfst i .-.. AP= PA S Chl $ GI.E.L% ; Qe=. S "? *> c.f % AP l'5 T% seat s Ai g g /F#.) m I ementf 7b Natt e vu o r.s s <m e<~y,.G~,,y( .~;;) . zm L g l O, A' ' ' * * ' ' * (/,27 / ) [.7 7.32 " hee. , ,oo A3 / Q ,/ N3 ~ 1 t- . O o) G 3 M~ = .o*d,*3H""f3.78IR*_ .! W :: P/C) p ** V' \ /m. Ifr d.'.0 *vs7Mov7* /5 t*Mr're T~ l VERMONT YANKEE NUCLE AR POWER CORPORATION * . P.O. BOX 167 VERNON,VEIMONT 063W atPORT \\-\5-09 O, DAT , 1 e4 " ' ~ ~ .u. .et Do\ed.,:o- 2 h k hecsuee be:m Co., 6,L.. , t L OA\, uh. ........., C77 . ....... m a u a ,,,,,,,, % ,,A.,/n. I i <  ; l g O I O Calculation of Peak Preosuro Durina Diocharao Problem Description The purpose of this calculation is to determine the maximum pressure which will be developed in the Cable Vault during a discharge of the CO2 system. NFPA 12, the Standard on Carbon Dioxide Extinguishing Systems, 1989 Edition, provides guidance in determining necessary leakage area for very tight enclosures. This method accounts for the discharge rate of the installed system as well as the structural strength of the enclosure. On October 31, November 1, and November 2, 1989, data was gathered by Retrotec Energy Inovations Ltd. personnel to determine the Equivalent Leakage Area for the Cable Vault. This information, in conjunction with these calculations allowed for a prediction of the Equivalent Leakage Area as well as the maximum pressure anticipated during a CO2 discharge.

2) Method of Solution The maximum pressure was determined utilizing the approved methodology provided in NFPA 12, section 2-6.2, Pressure Relief Venting. This calculation assumes the expansion of the CO2 to be 9 cu ft/lb. .

From section 2-6.2.1 of Reference 3.1: [ X = Q / (1.3) (P) X = Free venting Area (in E) Q = Calculated carbon dioxide flow rate (lbs/ min) P = Allowable strength of the enclosure (psf) = From Table 2-6.2.3 of Reference 3.1: Tvoe Construction Windace Pressure In. H2O PSI Bars-cace Light Building 100 MPH 25 psf .175 5 0.012 To determine the maximum pressure anticipated, the above calculation can rearranged to: P = (Q/1.3 X) Where: X = ELA (in )

  • 0.61 0.61 is the discharge coefficient for a hole in a flat plate.

, , -------um i-===--'= i " " ff ,jh .eferences 3.1 NFPA 12, The Standard on Carbon Dioxide Extinguishing Systems, 1989 Edition 3.2 "Cardox" High Pressure Carbon Dioxide Flow Calculations dated I 04-20-70

4) Eauations Equations are provided in Section 2, Method of Solution.
5) Qgpian Inputs Provided as Attachment 41; Retrotech Test Data. l
6) Assumptions i

Assumptions'have been stated in Section 2, Method of Solution.

7) Calculations  !

Q = 840 lbs/ min as defined by Reference.{2. , l X= (dischargecoefficientof0.61 +70iI .9 \*a k a as M I*" =rh.(,I)hio+to)

  • G2,5

-( = $(\52.5')

0. 95 psf

= 3.+5 inches of water

3) Conclusions The above calculation provides a maximum pressure during the discharge-of CO2 in the Cable Vault. The value of 5 inches of water as specified by NFPA  ;

12 is for light building construction. The enclosure which.makes up the Cable- ' Vault is of much heavier construction, with the exception of the doors. The values for light building construction account for the. construction of the doors. The value predicted by this calculation demonstrates that the room , .will remain intact during a discharge of the CO2 system in the Cable Vault. fe.gank  : [ E Twge, \(-\5-89 chm %.ea&A H er  %~d % . 6. i, ,sf y . i 5Eg 891aizt E se test HoTettecey Rm ~ , Py Vaf-Y C#seussma e9  % *onum P4mese Pfikt ekArsrapp b NFPA /L Akumows wfirm ser e Aevh w //vvrar reuenea  : > a Q[0 S W i r= .mue

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  • JNSEqtgo NOV 1;gg.

1 (j. ' IIME ' IINE ' 8.398 SF8 =- 198.388 rlME = 2.898 SF6.= Lei,gge 4.333 grg.,  ;,- lME s - 1.33 ggg. . 1 rlME ' 8.See SFS = ( ( , TIME

  • 8.888 SF3 .

13,389 FS * ' _173,gggl-Agg,ggg h , TINE'* 12.'Seg,p g =- 161;883 ' i . TIME-= 158,ess. c . TIME

  • 14, gge; yg . 3 ,149.908

. L TIME = 16. ses'ys' .11 - 143, ggg - ~4 TIME = la,agg 'py ;138.002 23, egg' g'yg i . i TIME * . 132.See . 22. SOS ',$FB *- . TIME

  • 128.888 '

.,,.7,,. , T1ME

  • 24.800 SF8 =i 123,33g --

28.389_.SFS,e s ' TIME

  • 117,ggg; 28.000 F8 V ; 112,880 -

TIME = '. 33,agg pg . ' TIME = _32, gag pg . ; ;1gg,ggg. s.

ggg,gg ,'_

TIME = 4, 34,333 ya . gy,ggg 1 CORRELATIONS .3,337 11'kfRY.'U:fh0h:f-Vl.;E'b'kh%'$; 7 _ ""** . A

  • 1

. v . - tn . Ik h.tt VOLUME

  • CFM= 32417.888_ '

g34,314 . 9. . ,. .; - 3.;,. . .. . . . . . . . . . . ~ . . . {  ; \, . : . a . . ... - - , ' y, :. . ' .a , .x ..,'.j,... . .. g >. y. . . .{ -  ; ,, . . .>. . : u. , .n .') f... / , j .I \ h NOV-14 '8912822 WA SE 1651 HOTELECOPY RAr%DA ' .. . .,) P.3 % . .. .;' 1 c ., J , , .

  • 3.; , s Q' .;. ,

t ',g.4 ggg,(g.., ;;:. , . , ,x., i ') i . . .. , 5 l 'x' TR4CER G49 4IR EXCHANGE TEST ' LOC 4 TION: VY CA8LE V40L7-SUPPLY SE4 LED - , PEST'2 , , JEST DetEs .NOV L 89 ' t1ME s 0.888 SF6 = '178.888-

  • riNE
  • 2.888 SF6 V L7!. 888-TIME * .

d.888 SF6 s 188.888 - rlME s 6.888 SFS s L f1ME s 18L.888 L '7.888 9F6 = 159.888 ! flME s ll.888 9F6 = 'IME = 150.888 i 12.888 9F6 * - 149.888 TIME

  • 14.888 SF8 =

l' lME

  • 144.888:

L 18.888 SFS

  • 138.888 f1ME
  • 18,888 SFS-s .....

i 71ME = 134.888 - - 28.888'SF8 = 138.888 ' . 1ME = 22.888:SF8 = TIME = 122.888-- . i } . ... - 24.888 SFS = 119.888, .' TIME = i 28.888 SF8'=- ,114.008 - TIME =  : ! - 28.888 SF8.'= 118.088- " TIME = - 38.888'SF8 3 f. ' TIME = '.185.888 ' 32.888 SF8 m 1. ~191.088. TIME * ." ' 1 ' RIME'= 34.888 SF8 e.i 95.888- ' N 38.888.9F8 L TIME = 92.888 *<'J 3,8. 888 SFS m.,.: .87.888.. TIME = 48.888 SF8,=.6 , 64.888 TIME = . 42.888 SF8 = ,81.888 ' , TIME = ,23.888 SF8 = 121'888 . CORRELATION = 0.888 ' . '! 1, .. CONSTANT = 182.873 M. 2f. . 3,$:(f.4$3Nj';N4;i ..N ACPH= 1 127 , VOLUME = - 3241N888

  • 5.)::Y.R. Dh y . !

.cFn= ,. 80s. sex - .. . , , , . .. ;+ .. < . .. .-~. ... y, ,: :. . . a,- -) .,,.':*). ,s ..+ ' ,. *, .', ' '-, 's . g ,. . . '.r ( ' ,,. . 'l, . .t , ', ' ' ,, .'**t . . .,n . l ,i -. ';;.. .j '.;. ., * . , .. ::; , ,( *. . * ' ' (, , ' *'i' .,, .. 5I * .....e , 9 , g .y *. ** .f "; a ., e ,,.8" 4 l . * 'I ,' ~ b' , .., #',,, ,,a e ,v . , e4 a: - { ..:y., 3; g,'g.c. ., , . .g '8 , . e ~ . p 14 '99 12:23 WA SE 1631 HOTELECOPY RAMADA .M Ph~ & Q- -

.M .

.* ., . . :.- @ , [s','s.qje f $ $ (, M ) h., e ll;. .'; s. 4 ~. j 1 I ~- TRACER SAS 41R EXCHANGE TEST LOCAT10N8 ' , VY 3 TEST DATE NOV 1 89-rlME 5 8.888 SF6 = TIME

  • 178.888 5-2.888 SF6 =- 175.888 t1ME * ' ,

4.888 SFS = L72.888 TIME = G.888 SF6 = 188.888 T1ME s ilhE s 9.888 SF8 r 164.888- '

18. 888 978 = ' 161.888 T1ME S 12.888 SF8
  • 1*55.888 a f1NE $

La.888 SFB t 151.888 TIME s FINE s -18.888 SFB.s 144.888 f1NE s 18.888 Sr8 * . '148.888 28.888 SF8 s 136'888 , T1ME = ' 22.888 SFS = 138.888 TIMF = 24.888~SFB = 127.888 TIME * ~ "' ? 28.888 SFS

  • 123.888

. TIME = TIME = 27.888 F8 =- 121.888 28.888 SF8 3.'. = 119.888-TIME = * .. . - 88.888 SF8in 115.888 TIME = , .32.888 SF8 = ~118.888 TIME = . 38.888 9F8.=, '.. TINE - = 183.888- - 38.888 SF8' d ' 98.888 TIME = - . * .

  • 48.888 SFS = ' .

95.888 ' TIME =, 42.888 SFS = TIME = i i. 91.888- I 44.888 SF8~= '88.888: '<";'. - TIME = 48.888 SF8 = ' .* TIME = 88.880' TIME =! 48.888 F5 'a -"' i 81.888- - ' i ~48.888 SFS el ~78.888 CORRELAT10N=. 8.985 CONST4HT= 187.978 , .ACPHa- ' ,. 1.832 'fWeq.'s,.. ..v.. = : . d,5 S' '2 .%  %' -.;.~'< y.L . .:.

n . . ..

VOLUME = 32417.888f cyn, ' e. ; ggy, ggs . .c i . , ..<,,c,J,.3g.l{.,; 1.' a :. .. s 5: " . .. ,., . .). . ......................,....s:........,......r. m . ,..;s...s.,,,..........,................. , ., . e' .a. * ,. f' ; ',;.,3.,. '. ,',',.f,., lb . , I ,g __- -[, m l- , , , , . e ,  ;, , ,. ..y , , '. n , 0 . g .N .e . , . , k * . . g , . h* ' , [ . . ; ; ['); h.h '..d. . } S '. 'a ,, ,e < .* 4 "k s . - * .'4 . A. , - g 'i VERMONT YANKEE NUCLE A4 POWER CORPORATION . P.O BOX 157 ,. } VERNON. VERMONT 05364 1 \ ..PO.T .AT.- // / 2" 89 0 . ....... >tr . .. c 1 am v-tv 6t-r a s= M n ? ........., as _ c~. coo . - e # n .......o @ % e # \ . TiTte. : t<Tw.sia ATtod oF CA4,ts VAOLT 's osT A m. Vet m c  !

z. Tue c.%cc v w er Acca is - ne.si c,u A rm % " vite u" , Ta ar STd2.44 e e i6 $Af~gi y AELAML S. W S M t C. " , & r.T c LA-g g Y 3 f ,

d . 9eo bl.c.sA Dss.c.v-iPTod'. DET ER.M t 0 E MnT Atit Yelo4E W tihad THE CA6Lc VAutr AR.EA W iTA c.om io En A TTc 4.5 FeA Ex t ST)e 3 4 C O L th o b s c.T,5 wo Room ' PR.otracticas /eswswriou s (w HicA woou s Ad d To in Eco#s - VotvQ

4. b es u ineuT :
4. l Att bWs Fie.D V E R.) Fi c )

C AscoMe ri ed s. :

6. l Ass uME 2h2 imi t Ar c. '2 0 N L.t.
s. z. wasc -\ 2M' wp uc soo% rueu
s. a SATTm Room it Pm.r of cate VAccr 4tme-l G. C Atcut%Tt ea s d S e.Tc4s s T4C 46%ob of A9 AWsts w i tt._ G E- 7b D CT91.M i N E %fl05.1 Volume " oF R.o on SAses od oJER Att biM'.t ' TH Et3 BET EtLMiuE THE "9ET YolodE Gy ADDW4 Votosas oF PWsTrz.AT?s~5/P44T4vnerJf' ko s m3u. coa 4 y s tid erm m s w a.a oisews y air. (ie cet e s, h w s, c. w s L e s , o c . )

O J 4:: A(6Ls -- VAULT"' Ve lum 4-sv m a<a to>Hn w a: 9 h.In

9. uds WMM "O*~ P, no .2-t'1 O TOTAL 40wmL Ca u s 14e w T (8.5)(.48.83.)(S).M) 8.0FT. 81 (ol n

= 338cn.5 cr 3 , ,g, 48.834T ~ (%)(24 +3+3)(264)(12)= 11686d , 3" = L.815 gr3 FAcTt>e og G.t) TD Aum4T (tR uaisThT sums = "7 %2[pT3 ' 24" O 9 'aav3 = ' 5625 ^'t = 68 o( sat 2.0% 4 uiRe to 9 Tems i I (,3" x 29")(264.)(Zo %): 26.4973 [ W/// / ////' i 9Tems X 26.4sT3 = 23% ma l  % mCocM m Tws . ~~(3SD(2FT)(3%f)  : N,5FT3 47ets X I45Fr3 = 58 gr3 . o  ; C A6.Lg VAQL.T* VoLu Mgt ' st. ma na se,4.p, Pms 3 d1 O Mme = ,3 Fr3 // ~~ 12 " / / w. h me:2.t5r' "" TiP6, __ j '5 " la" IS' .__ 1 Ceium item 96" 20 m z Btrregles l 20 TNN *2 am Tecies l gqqn 5,ggy' , J'3"  ; W. ( ' ' Vhu HusrtT ' -W: &' # G '2 " 24 TA 1 E%ncen m - s, z ,, /,k . 7-. p - .7 g _ home o F NRc 1. ~6mTeces 46 X . B = N. 4 f-T3 %wmeop Tspe z. 6erracies 12o 8 2.15 : 258 FT3 %wme. o f env.nia su =52.36PT3 Q %mE oF oaTsce u A (.8is) x(.% FT) X($6FT); ' NFT' E ~ 8(o6.80 { WTPn., acuam6:- . PT3 - VE MSNT YANxEE NUCLEA2 .OwtQ CO3%CCAT,0N V$1NIN. VtIM2:st C 63 $4 N . ...., ..,. (,bs/s,/Ws rY qG . . . . . . . . i,'v p 7 .u.a e, ...... . Hst- e .co..v b e p ah o m ... - C e umom sce on*an swe mome. i) 4 co9ca.m. cotomus auas I (4cowus)(J,5')(i.5')(8.5'.) en l'h n e*" _L = 76.TP r5 -\V - z) 3 eaveun.-n was ex*1 3.5 ' X 3' x 2. 5 = L.25' &x=2. \ ,5' x B' x .2' = is,o' = GI,5 Fr3 bx*3 i . 5 ' A '5' x 9. 5 ' = 20.2.5' O 3)wamt eemem tecemrees ico , x 5 .e5 = e 4 . 0 g ra i 4) *eous w Au sea (.e. 24,332. pr3 TOTAL UuhTLt McLum6 = %5 +ti.5 +64,0 + 24m = 2%.4 i- L3 k)EW NotumE = T6897.7 FT3 U g VERWONT YANKEE NUCLE AA POWEA CORPORATION '! .. P.O.90X 167 i VERNON. VERMONT 06364 ) ( 7f.n/n) REPORT DATC h!/>~!$ Y , PAoE wo. fM7 SUSJE CT PREPARED BY CHECKED BY - / RE VIE WED - svaa.sss su fan Kewe; CTr)L)M ped 5 , TJF6 (D L = 11, - E Votose - (It'-s")(l'-*/)(i - sh((p ped w i-e H

  • l'- 5" _

Y, - l G ), F .Qr* + i Tyc (D L = I 4'- 2" Vo tw o (d'-t)(l'-G')(\ '-s ')(A Pea'D w t'. w " K - l'- 5 " Y*g 17O N St # t- ' i VG ! TyedD t. = ie' he (i 6) (t%')(1,s ') = , w=zi" H I6" Ya

  • 4 d' D hT Y' nfe (D L: 6-G" V tous = (9.r)(zi/r.l)(i.6 :

w= z \" K* 18"  : 24.0.)N(y 3. 4 @ M6t'*; V )') -d' (l - G' (2 i t A+a h28.B.4T 2 .p SNm ; V-(3 -5")(l -(l)(6-6h = V, 5 32.8 a; 1r 2 -i- .p fW e 6act wAu. nee Doom : 2 V)(f.d(i.f')

  • V,*fSA4F t

,'d %e ene wAw.,cesTart = (s (ta'/,t)(s'-g") = % - G1oBe + Peu e est med , R) Gar s loc = ('i )(zf'/t)(G' *)") : w Ass w e.1 bim's 4 , , 'T o W 1 P eN. 'S 87I ST* i r VE2dONT VANKEE N LEA 4 Q CORPORATION t'ERNONERMONT 06364 . *y 8 - h.PO.T DAT.

h. ._.., _ c me or 6, - eaa. uo.

t g1 r..P.... . em.s . . ... + a n ........ m F DECEGASE;5 iM k 00M oLou6 y cow 44s=(G)(l.dvi,[)(8.6's)= \ 14 6 4r' (3 ea.m . . . . s = 02 vxu Q (10. ')( s a ns.) = ,. ,, em Ce k  % \,w ' h4 h % ), ssy 1 ,s [ dW ') ) ' /M'7 kt  ! / ',$ ',[Q') (2/Y)[E d C*-' h ' }8 fr' O s col .Or' ( ') SW AOLT- c L O M E. *. . Geos s Luc = u,a37. r ' Pu' s + 57/1 . 4 TRAjS ( % HisH') - - 68 , wiri% (@ usQ - 23 7. C. To.M s (4 He u , Ru.) -58 Lxes (uavaarn') - 2eG.4 htTor.ses+ wrM.s - 8 oS co t.vu a .s - 1 I f. SEAM 5 - 66I O- Ner %bma = 3 Z I4 M Sr 2 <* AAt s VAu ct" 1 1 (

  • VERWONT YANKEE NUCLE AR POWER CORPORATO4 P.O.DC-K 167 i

i I VERNON.VEHMONT 05364 1 i / /3o [s */ o' s SUSJECT [Df t_ bAI helvm % REPont DAtt PA06 NO. + s, PREPARED SY CHECKED BY /!/ mtviewe0 , h S. C one L :,,a - MtET CN6Lur VAVW YrLW f = 32., dl 7 c,46t c Ir. i O. /M " Vy t..tw 6 pl.l f g,y y 7 3y, , y ,._ c%, , l0. Atracasq : 6eLo Q Sxacu e /biv.s k r . = u . _+ - 345, I a . I s f i- .I i e D 1 J b

l. --

,, ,, a s,.- - - - - - 't-va c C$ i -p ,, 1. d.-')- @ / +D  ; cm } \.? \F i ~ i v - f _. @ =- O- 47,p 1 y L sRe e. - + ~ . s r w= s >L e - x' h L. , p.

a. h T. b o
  • 1 y

\ v , sA ' i o g - n l A / N . r c 1 " .l , J' v/ ~  %. @ g i V .h 3 @! \ C I e M 5 5/*W f k l i ! rf,\4f t *~ e T S , \ 5 r r/.n, l l , ( _ hh ,H - . N j a.,w es = , \' b e*f] I */g.E c w 1 p v gc[ ~, O  %, J m - - vT ,\ \,- % C gg# - C.)- g g@ T l M l 'M e. .P Q,tepp 9, , ~f / ( bb ,3 3 i g -. l ty" t 's  % N f 3 h - - Y u* c  ; ' 7i - ~ 1' M v  % t, . \' - ) O > t f -) o \\ a j N/f 2") - 1 \ \, 'fkk ' / . N ap \ s A'* ,S A  % -\ \  %'C / '/ ' .=_: \i \,. \ \E' i, y c , Ms SfN , \ s ~' ( r d 'd \ uO . . 1 1 -l pgo sa w w c a s i s 3:,o ~ ' x '< LaWM 4 +,on1 4 ., n~ ii .' r " J//'(// /- nps tenhl M'-z "  %' N ID 6" ///l ') _ Q (t i {C Len/M gg ' Tl3 "r" </- w ,,>w v'"- // Nhb ff ff YW i . 1 upy := z - t f 9 m <_, ' n te m ,)/ - L-G i  ! It . My , q ',. (, " ~k HlW  ; ) 4 &ns n 'f/~w r z i ll ~,x n p goy , ff I //  ! O NN Nh } ' - \, a, ie y V w,,,y it r -n b i a , k _f b .) M/ 6t7 - 2 000' OV uL / 3 -6 se x &,, , 8' ' x.N~%... ,p.- QQ - c' . S Him L = 5 '- G ",, o = i ' - c, y j W ' 2.wioc  ! , v.:-1~, mm gg23... 3==2,,o~ VsINEs, VaIween C S 3 $$ e 'Y \ mePon? oAte _ l\-(5 - 69 ]' e..e uo. - ioh . . , d.h \l ob On, besud:~ Lu.be fiolet. ~ wr ~ ~ enePaneo ev AI Y __ cwecuso ev E D N N 9 aaviewoo - h ) ww- wis<oc  % yot R :s es\e h uom x , si Am,+ b Jescdgt~e - Le o ecg/ew wer c~e. n gexh~e 1 - 0TN W3 c. N1e{ Ca\edan:to~ yode.1 h xe b\asA hee.~ b e.v g h o.xcoaOogTex:L,W . ~u voli 6 tem maa mee i  % m. WaA -! it A seqvw se.as.  ! l e. 9SCG.w s q i g t e.e a.c, c, ye,y q'W 6 VoS h e*T Se'Mg } i g' os% b \tA(_yh.vc S.\ .~% Am A.o, LLo,} he o d e l % A T, k ; ,( a l NYTA c e v e c., . (3.a (. ye,; y i ! o s.t) I

3. h ot" ON 4 0% DDh - cc. - V.T'(gb(S g

%3 ss~g ,we E b , Agx4.:s3. g  ! w ad  % e.cs .a ETT. us-e, , ss 30 ws.  ! A es, k.Ted isAic.ax.i Aax de. co l _b l be.s ver6hd pt- NVR A n Agg.%. [}ut e % ~ k V.q= uoa %a1d h L compm %L\.  ; h%% Le O sa,1 ts sq 3.1 ,

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VE% MENT YANICC NUCLEA3 CWC2 COIDDRATION ValNIN, VEIMONT S S 3 64 * *V N . 'N

  • REPORT DATE

(]

  • SUBJECT

, , A. RO. E o9_) PRt0Amt0 SY CHECNED BY / h REVIEWED l c kd.cv\a.,tC ows %dd yc,yme-#AA ' %Au axxack.d. % ey 3.f a  ! Oodosiow ' s ,A v aas %exeA.ybm& y_aws  ! ydseed to bo.1 3 , couemam  ! & bso Y4 a. peoa e 9 ** t" " * ' l O n'"aums ^* "' S' ' r l i W-i l ' i] l -l i ~  ! j M p' '99 a21241.A SE 1651 HOTELECOPY R@AIA. aus ., 4 ,' .. . c.  ; .M . . . - . , , 4 .- 9 N"34_b ~4 M G- V$80 "TD CA6 , Cos was A ev e ,6.v evee,.=ve 4 T 8 - w e Ac4&F sf ' RETROTEC DISCHARGE 51MULATOR . 3 VER. H4 NALON 1381 RETENTION TIME .- PREDICTION MODEL

  • y.

Testing Compangs RETROTEC i Technician Namet RE10 Date.of Tests NOV 2 99 'ocationIUY CABLE V4 ULT . NORMAL RETENTION CONFISURATION Walls Go Slab to Slab. . Gae Being Modelloat Lbs, of Agens Not Entered 1381 *^otected Room Volume (cu ft>8 3241 Elevacion Room HeightAbove r(538 Sea Levoir(c): 8.88 . M\6tmum Protected Height rf t) 9.58 . - 8.41f Minimum Rotention Time- (mini 18.88 Inicial Halon Concent. (%): 8 19 65 /. ,. r Room Static b eoewee NES pal . Avg. Total' Room ELA (em in>e 8.88 f#t' ) Assumed BCLA teq in)t 122.88 ' ' . . ' ,s 81.88 , stsst . This Room FAILS ' thy,~That- ao the- . J hocedure predicts ,that 4s will: take ,.. 2.82 minutes foegshe halon/ ate inteofase to coop'below the minimu,m- . ., ., s,, . . . . , , , Peotected height. ,' c . - 3 4HJ Acceptances . 'jil$'G6.pyfhNDYdit4@ . This tofosano Cont'oeme'To The-1999 WMb '.s,,  : ~ ' ' t NFPA 124 Room Integeity Peccedues ' RM'= 1.819 PCs 18.5AB pa, 18.5M pa

4T= . 8.848 ALL= '8.824.Pe= 0.588 C3= 2.895 C4=

AR= 0.888 CF= 1.888 354 T= 139' . . . . . . . . . . '.,g 5' . .' . .s .. .;. '[. . .[. .y,.g.'l ..* .* . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ). . . l' . 't. . . ., ' # ' . ' m . , . , . .- .,, e. ) . - . . - - . . . .- . - . = - . . s VERWONT YANKEE NUCLE AR POWER CORPORATION

  • P.SBOX167 VER*0N.VE RMONT 06364 '

'y ~ l neront oats l l -l E-'e % PAos wo. - I f0 _. susJeet dA%LE YAVLT" LE A K A-(a f / /i'de/ T +J.s /e' > < - C i . .. , - ,.i r i No h/ PasPAnto ey Mb cHacuso av M ' I 9 neviewso_ h l l I. TITLE i C ASLtE' YAoLT" dos Co eae.e.u12.ATl c4 LEAK.~boWd 2, b ot.t.GiM M cR.iP1t00' W c Ab c v L ATi o 4 it Pest 1%R.s tb To bE.TER.MiR E TWC TIME h.EG usftEb Fom. TWE Co a. c opcE9TftATied To tft.o P To 5'o*/j6giVE4 A N Ax. COs C ow e.WT/t.ATiov oF GS% As A S E.h LEA EA (eE. R.A T E. oF G H O . ~Z. c. F M . 2 M s.TI.10 h oF SolvT1ou '. THE MsT4 cb oF Se t-ti o O wtLL F oLL ot,0 Tac Aan tO TAab Nt-D E. -7'll - 8 o w Rt c44 uTi t.ite 5 TM E ' T R A c G$t. l DitoTiod M E.T4 c b " . THE 7 2 A c.6ft. bi t uito a " te.u v a ito w is G# v6w BE. Low . tvWEat : C = tasvJ Coacsmentio 3 (JO C = C,, e. (Kt/ c, . m iw i com c. , g3 K

  • LEAKA6E RATE (cF%) ,

A "E.em E P*osaAm as waiTrew T o 6 = Time (Mid incesmoJr Tims (th Aue Lt.vc nft C. V = Yoluu t (. Fr* D e = 2.718

4. _AssumpTioes  : ,

d-l LEAKA6E R.AT1r I5 (owsThwT" 4.2 press utt.E i6 c 4 9 star.aT"" i.3 YOLv %s - is c o 9 sTA9T~ 5 DESI GO luPOT O s., v sz. . 7 ,,, c m.. m e s ,. o , S.2. K = (o40. 7.2 cF% (PER. REE %2.) l I. 3 C ,

  • G E 7. ( PER. REF. *>. 2.)

l . ,~- - , VERMONT YANKEE NUCLE AR POWER CORPORATION P.O.s0K167 VERNON. VERMONT 06364 *Y mtPORT DATE- *bb ( e PAGE NO. - E$b m ,- eusJec1 C h *1 "" YA0GT L6A3;htSE PnePanao ey MM cssexeosy. M // /s? naviewso h-au

b. C.o MPursfC. Cobe % ;

6.1 TuA s T' 51cus e ~T s Ti*.)*.>/4A ext h eEd Basic l c.. t c,w a si c. 7 c-AL cu t ATic,v[AN6 Ly s t a 7.I S e e. A 77Ar 4 d b c o MPUTEft- PRINT *

  • w T MR. MPLETC I AN Ay sis Fr o % TIM c = om... THR0 " Tim c : 2o smo.

l

7. 7. Eco cR- Ma<t.t / com estere. Pao 6R Am VseirTmTtcd j i cuect nee Coac..cp Tiuc =14 mia.  ;

I - (_. = ( G F) [2. 718) (x)- __  % = (640.22)(i4) 7 = 0, 2.7(, q j .: c =. % 30 % . c.o-ews . %. zw % <  : PJiTM C o'w#v1 Eft. I R wr4 j 8.o ConcLoston /RESVLTS oF Eo /* (r7r.o tA A a i m 1,A t. MR oF G r */. 3 is Aperaer. 13 7 uiu /

  • I a

h.O kshNce S * ~ *J . I DET62.Me w Ah ov oF CABic' hNL.1- slvME (VY cALU B.1 CM.LE YAvtr LEAKAfaE TEST p)  % '. o .

9. 3 ATTAcMMEMTs A s*T tA E - 79 ) - FC to.i co%pown PRiar .sr " ceri.c At.r Co CouceaTeaned s  :

l 5 . _ - . -. .-. . .. .. - . . . - ~. - - . . .- . . - .-- -- -- - - - - - - - - = - - - - - - - - - - - 4 W H H 'H H H H H H H H H H & H H H -Z Z Z Z Z Z H & Z Z Z Z . Z Z Z H Z Z Z Z H W W W W W W Z Z H W W W W F W W W Z W W W W Z U O .O O H O O W W Z U O O O Z O O O W H O O O O W E E E E Z E E O O W E E E- E' W E E E O Z E E E E O W W W W W W. W E E O W W -W W U- W W W E W W W W W E A A A A O A .A W W E A A A A E A A A W U A A A A W E A A W W A E' A S S .4 04 W M N L' W .M & S A b S w W

  • 4 4
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  • H O O b 4 4 M & v b 4 6 04
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  • 4 O M & S O *
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O b M H M- O 4 b N S & S 4 O 4 M b & e & .O 4 M O M

  • S '

S T

  • S b 04 h 04 O M & 4 O 4
  • b M O 4 N & M 04 0 ..

E

  • S M S S T C4 & b 04 N & b E O O 6 m M Of S E M
  • S W b g 04 & 04 . . . . S . . . . 4 . . . . 4 . . . . S-A

= . . . b M M C4 04 e 04 * *

  • N
  • O O O O & > > > S .

T 4 M . 4 4 4 4 . 4 4 4 4 . 4 4 4 4 . O H H H . M 4 4 4 4 M c4 - ' O S 4 4 5 5 5 5 4 5 5 5 5 4 'E 5 5 5 4 5 5 5 5 O 5 5 5 5 . . . . . . . . - 5 . . . . 5 O O O O 5 O O O O 5 O O O O 5 O O O. O 5 . O O O O . Z Z Z Z . Z Z Z Z . Z Z Z Z = Z Z Z Z

  • O Z Z Z Z O O O O O O O O O O O O O O- O O- O O O O O Z O O O O Z U U U U Z U U U U Z O O O O Z O O O O Z O O O O O O O O O O 4 O 04 . 04

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. m ~ .E. .E. m m .E< m m m m m .E. . m .E. b I"* h"* D b b h" b h"" b h* b b h"" h" k- k- h"* h- k" I'-* h'- >- b h" b b b b I"" h* h" 6- P- b t- b- P- >- F- 6- t- >- t- F- t- >- t- F- >- F- t- b F- 6- >- >- t- >- f- 6- k- >- >- G 4 G 4 4 4 4 4 4 C G G G G 4 # G G G 4 G G 4 4 4 4 4 4- 4 4 G _ O O AT TIME =T+ 19.6 MIN.3 THE REVISED CO2 CONC.o 45.01712682 PERCENT AT TIME =T+ 18.9 MIN.g THE REVISED CO2 CONC.= 44.83944267 PERCENT 4T TIME =T+ 19 MIN.I THE REVISED CO2 CONC.= 44.6628981 PERCENT ()ATTIME=T+19.2 MIN.; THE REVISED CO2 CONC.= 44.48683037 PERCENT AT TIME =T+ 19.4 MIN. THE REVISED CO2 CONC.= 44.31145672 PERCENT AT TIME =r+ 19.6 MIN.; THE REVISED CO2 CONC.= 44.13677443 PERCENT i AT TIME =T+ 19.0 MIN. THE REVISED CO2 CONC.= 43.96278075 PERCENT AT TIME =T+ 20 MIN. THE REVISED CO2 CONC.= 43.78947298 PERCENT O i l REFERENCES 1 NFPA No. 12, 1973 odition, Stondord en Corban Dicxide Extinguishing Systems 2 NFPA Ho. 12, 1985 edition, Standard on Carbon Dioxide Extinguishing Systems 3 NFPA No. 12, 1989 edition, Standard on Carbon Dioxide Extinguishing Systems 4 NFPA No. 12A, 1989 edition, App. 8, Enclosure Integrity Test Procedure 5 " Enclosure Integrity Procedure for Halon 1301 Total Flooding Fire Suppression Systems", January 10, 1989, Edited by casey C. Grant, P.E. 6 "Cardox" Fire Extinguishing Equipment Operation and Service Manual 7 PDCR 79-06; Switchgear/ Cable Vault Suppression Systems 8 "Cardox" High Pressure Carbon' Dioxide Flow' Calculations dated 04-02-70 9 Letter, USNRC to VYNPC, NVY 89-108, dated 05-18-89 10 Letter, VYNPC to USNRC, BVY 89-52, dated 06-16-89 11 Letter, USNRC to VYNPC, NVY 89-172, dated 08-21-89 12 ASTM E 741-80, Standard Practice for Measuring Air Leakage Rate by 0 the Tracer Dilution Method 13 Safety Evaluation Report, Supporting Ammendment No. 43 to Facility Operating License No. DPR-28, Vermont Yankee Nuclear Power Station, Docket No. 50-271. 14 " Chemical Engineers Handbook", Fifth Edition; 1973; Robert H. Perry, consultant; pg. 4-20 to 4-23. I O rem wwwa m m s... , I W. J. CIULEWICZ l J" .".,.f.f.f,.".*. .. J ' h b " . ... O PE R ATIO N . I and SEkVICE  ! 'M A N U A L { N  : V O . N i ~ e e feire extinguisheing  : 1 equipment. . .  ; 1 O - CHEMETRON CORPORATION CARDOX DIVISION

  • CHICAGO. ILLINOIS 60611 /cHEMETMON/

-~.,.=-___.._...___.___..___=__. 4 j I 6ARD0E F2R3 ETINGUISHING EQUIPMENT Page 1 Of 2 i IEEE OF PuT45 Issued 5-68 g) PLAT 5 30. DESC11Pfl0E ] ' Folio 8-2 Cardox High Pressure Carbon Dioxide Fire System

. Folio 8-3 How to Specify Cardos Systems H-1 Typical System Arrangement Rate-of-Rise i H-2 Typical System Arrangement Electric Thermostat '

H-3 Typical Systes Arrangement Pneumatic Dura-Speed H-4,5 Schematic Series 60 Single Hasard, Waitiple Hasard  ! 50-75 LB, CTLIE ER RAC14 H-9A 1 Row 1 Side 1 - 2 Cylinder H-11,13 1 Row 1 Side 3 - 6 Cylinder & 7 -12 Cylinder  ! H-15,17 2 Row Back to Back 5 - 12 & 13 - 24 Cylinder H-19,21 2 Row 1 Side 6 - 12 Cylinder & 14 - 24 Cylinder  !  ! H-22,24 Cylinder Clamping - Even cylinder ) H-24A,243 Cylinder Clamping - Odd Cylinder ' 100 LE. CYLIE ER RACES j H-93 1 Row 1 Side 1- Cylinder i H-12,14 1 Row 1 Side 3 - 6 & 7 - 12 Cylinder H-14,18 2 Row Back to Back 5 - 12 & 13 - 24 Cylinder H-20,21A 2 Row 1 Side 6 - 12 & 14 - 24 Cylinder H-25A,24C Clamping Even - Cylinder H-24D,243 Clamping 044 - Cylinder STORAGE SECTION H-28 Beam Scale - 50 & 75 lb. Cylinder H-26A,27P 50 100 lb. Cylinder & Cylinder Valve With Parts  ; H-29,30 Discharge Head Pressure Oper. Less Handwheel & With Handsheel B-31 1/2" Flexible Connector H-35,34A Discharge Head Pilot Operated W/HW & Without Handwheel PIIATIES SECT 10E H-36,34A Pilot Connection Eit Dual - Single H-38 1/4" Shuttle Yalve H-39,39A Switch Yalve - Main to Reserve & Mounting Details H-40,40F Control Cabinet Series 64 & Servicing Details l H-403,405 Actuator Yalve & Solenoid Actuator Assembly 400 Actuator Yalve Mounting Detail H-40H,40J Control Cabinet Series 64 (NITROG D) and Servicing Details E-41,41A 10 lb. Control Cylinder & 5 lb. Control Cylinder H-42,42AA Ermeto Fitting Assembly Instructions & Tubing-Fittings Listings  ! i I 1 I C506-Rev. CPC 5-64 1 -- . - _ - - -. - . . _ .. - --..- - .. - .. _ . -_ - .- .. . - . - . - . -.- ,l i i j . CARD 01 FIRE EITINGU15EIBG EQUIPMENT Page 3 of 2 IIDEI 0F PLATES Issued 5-68 l , @) PLATE E0, DESC11Ffl05 ACTDATION SECTIO 5 , i H-43-44 Electric Therscatat & Cardez Socke Detector > H-43A,43B Rate-of-Rise Release & Installation i H-430 Mercury Check > H-46 Pushbutton Station - Electrio i i B-47 Solenoid Yalve * - B-48 Pneumatic Remote Manuel . E3EaB ' H-50,50A Spot Nossle and Flange Mounting Kit l Seal cap - Metal ~ H-500 1 H-50D Tankside Nossle H-51,52 Orifice Nossle & Total Flood Bossle H-52A Wide Angle Nossle (Total Flood) l 4 l H-533,53C 1/4" Pilot control Valve Pneumatic Lock and Pilot Control , , Valve Mounting Detail H-54,54A 1" - 2" & 1/2", 3/4" Selector Yalve H-548 Master Selector Valve 1/2" & 3/4" - H-55,56 Hi-Flow Check Talve 1/2" - 2" & 31eeder Yalve  ; H-57A Prangible Disc Relief ' MIS CELLANEDUS_BCEARICAL_A. ELECTRICAL _EEUIPMIrf ' H-58 Pressure Release H-59 4-Pole Pressure Switch - Westberproof H-59A,593 4 & 2-Pole Pressure Switch - Explosion-proof H-60,61 Pneumatic Discharge Delay & Valve Detail + H-62A CO, Whistle . HOSEREIL/ RACES H-64,65 Hosereel Mounting and Hoserack Mounting , SPECIFICATIONS - H-70 Mechanical & Electrical Installation H-72 Installation, Inspection & Test H-4HP Field Test Report , ANT-60 Electric Specifications APR-60 Rate-of-Rise Specifications l Double Plate Numbers Indicate Printing Both Sides late Numbers checked are Included in Partial Sets' s .,,,,...,,r- y.y- .....,,,.7,, . . . - - _ , , . , ,_,n,, m. , , , , , - _w.g r.. ..,,,.~~m___ ,_i__m -__m-...-em__._ . . . _ _ .___.,m,.m FOLIO 83 O CARDOX'7 highpressure g, carbondioxide ~ j '" fireextinguishing systems g - , Me , . .._--~- -.-. - - - - - - - - .-- -. - # ;87AIIDBY P90lT100 , HOW THE 9, ~ i 1 t - , ! CARDOX' nN # - l s AUT0eeAfic RELLAlf Wt l

HIGH- -

W ! PRESSURE L *E Y w x< SYSTEM *sibi;eigk " 1 WORKS - q. ! The CARDOX High Pressure System operates on efficient  ;, g' " ,n . n @ pneumatic principles. Pressure ,s i j stovutoa y at, g ,,,,  ; used to open valves, release doors - and dampers, and to operate L switches and accessories. 1 i l Operating pressures are multiplied @EYa'actevusota g j by large pistons to give safety - contnot cru80t* factors of more than 10 to 1. No < cables, pulleys, equalizers or falling i weights are used in the CARDOX

  • System. Operating parts are POSITip he ee for bulk pro ec c ges, to CARDOX Systems can be "

independent of external electric r power sources. 9 h The typical CARDOX System has three independent means of actuation . . . g t AUTOMATIC REMOTE MANUAL ( - y ~ jl DIRECT MANUAL  % 0, I I h ( 9"li , g gr - I I Presane 3 300 4. CentraHed i l MN ( '}i&*. . m TYPICAL CARDOX HIGH. PRESSURE SYSTEM LAYOU .c_ , s. , -__. -- a n',

L ::h:":;

O ' ' ~ 1  : Ss 1  : , , _- '-== 24 - . g pg-a . - 4WM "!b># W' ZM ge a w w w w. 4 ,.. I'Oa ,k k , _. . ki . d 'wintr$ ?gi:;ft:' * , .A ~~y hM oc ,e =  : z z-  ;  %{ , l7# Y g . eq ~ minahmiert j -a," . e *1 s MAJOR COMPONENTS-gg f ELECTRIC THERMOSTAT FUSIBLE HEAD 8LSE ME AT AC' ATED :: M so a , ,, NO s . ._N Oft high ,_ without daegga ADAPTA for 8 Wide I ' Of *  %@ and materiajs i ,; ' Si bbE- "N RATE OF RISE RELEASE mEMOTE Y ANL AL ST AT 0 e g 9 684 4 NOZZLES # AESSLRE S A ' 1 PERFORMANCE ENGINEERING O THECARDOX WAY METHODS ( AUTOMATIC ACTUATION is oowered by a a pressure of 2.300 psig (at 1304] car ce cylincer A of carbon dioxide entirely separate opened by a piston pressure of 230 cs:g from the fire extinguishing supply, as shown in Control pressure of 300 osig as' ma n:a + - the diagram. Carbon' dioxide vapor under 300 outomatically through the pressure re; tat:* G osig regulated pressure is supplied continuous. in the control center. It recuires an avera;+ : ly to a normally closed automatic release valve. two ounces of carbon dioxice to act.; ate a s.1 B. This valve is connected to detection devices tem . . . the control cylinder has a cacac tv : in the hazard area through a separate circuit of five pounds. tubmg or winng, depending on whether rate

  • of nse or electncal detectors are used. A signal SUPERVISED CONTROL PRESSURE. Cer: :

pressure availability is visually sucervise: ev r from a detector will cause the release valve to indicating pressure gauge H. Additional s ce-open 300 psig carbon dioxice vapor then is delivered to operating head D of pilot cylinder vision is available when soecified from s. >:- C to start discharge into the manifold. Manifold contacts I connected to a trouble alarm. T + pressure then operates all other connected alarm will signal if pressure falls to 275 :s : heads. These are self energizing and hold the while there is still sufficient reserve to actuais the system. These novel monitonng feat re3 O- cylinder valves E open while the system dis. charges completely' foster reliance in the readiness of ine sis em :: operate and help keep plant personnel a.sare 10 to 1 SAFETY FACTOR. The pistons F of all that the protection is there to be used. cylinder discharge heads have an operating METHODS OF DETECTION-Pneumatic Rate. ratio of more than 10 to 1. so that a cylinder at of Rise. The expansion of air in the heat ac:.,- ....i. l ~ CARDOX SERVICE CARDOX' L( Cardox maintains supply depots in strategic locations to provide its fire protection and industrial users with trouble free, worry-free service. Through its own large fleet of transport trucks and railway cars. Cardox can supply its customers with pounds or "- . tons of carbon dioxide whenever it's needed. Cardox has an organization of installation supervisors and field service engineers available for any location. Also. Cardox has an extensive and highly trained eng,ineenng

f. ' C j

staff ready and able to appraise all fire hazards. They can advise on how vulnerable it is and what is the best method of safe- .;, guarding it. All Cardox systems are " Performance Engineered" ". for the hazard involved. O. This is another BIG Cardox " extra" at no extra cost. n ,g- _,, .4 14 = ...-ii.iii=------'= ' 1 OF ACTUATION De atec cevices (H A D ) ,s multiplied by a dia- J of carbon dioxide located near the "a:a*: phragm to trip a latch ano open the Release other spot remote from the c, :nce' 0 5 . e3 valve (at B) causing discharge External power connected with r pipe to the c :t :.  :+ G is not recuireo Momentary hand operation reieases e": C^ carbon dioxide to presturtze the cet e3: Electrical Heat or Smoke Detection. A solenoid-3 initiate discharge As the pressur e n e e ei g operatea va!ve (at B) is released Dy an electric " ~ cylinder is substantially higher t*aa K: :E t' eat or srnoxe cetector causing system cis- g , , ,, charge ._g discharge head assures instantaae: 5 *e e3: Fixed Temperature Fusible Head. Fusible heads There are no cab /es to stretch or bind, and r [n locatea m or over tre hazard anc connected to equalizers or other adjustments. the release valve by gas tight tubing can be .c n used. Melting of the fusible latch releases the DIRECT MANUAL ACTUATION of t e s.ci- .he is done by handwheel K at tre CyM3er 03 - pilot pressure and causes system oischarge. The ^9' **'*'**"*****'f';*' advantage of the Cardox Fusible System is the constant supervision of the detection line as #"..****k to crac the cylinder valve and te esse ; +i ' sure to cause M openmg an: m em : well as the system controlpressure. I charge of the system Tne nam::.s ee s :- are REMOTE MANUAL ACTUATION also is per- pact and not subject to acc ce tel ::e at r ' formed with pressure from a self-contained Long levers. cables or weights are :t se: ate supply entirely indepenaent of any other means Actuation is mechanical and airect an: ent e tv. of actuation or external power. A small cylinder independent of all other means x ___.__._M asemaapas ""88 _t. _ Sm__._. . ..^ ., E  ; l[ __ . ogg. . an gamm 9 L v' - .- . : / .P 9

s. ,

%l ." A ^ i i i I ".110 may 4 ** -~. ggge 7 -_ W M N ens si f5 4-m p .~y g , eam , l G- .. . ~w; * - n .-w- - eg gew- p. p 4.g .1 g, , ,,g . .,p ~QM; g . _ ; f; 1 g*n g m a ., *- sg p , a _ _ ' e) &gnki@- lL yn {  ; l) == ' ~4 , - _ , - - qMc- . ... p;_ -= , 4 p ' .c. w. .. . s * -k, .~ .. +  ; < <en , 4 y ,4 + , + , , . m.4 ,. . _ -u + + - V* l fff . y,, . , w #. .fY, . ff y- .m +w Q- ~- ~, ; i - . ., . .. . #. j .yml y +gg , y t  ; .g = vtsmre rsemeese ) \ Solonged Velve HeaerW Alarme 1 Selector Velve Pilet Coresi Discharge liteley Timer l l OPTIONAL COMPONENTS DELAYED DISCH ARGE. Delavec cisenarge may nave nanawnee's for direct *arust 3:tuat 0-te 'nciv0ec as a cersonnet safety 'estu'e .,suadv The :voncer man;folc is secaratec ato MO 'Or syste*s to hooc la'ge rooms Generally. tNs sectior's with f ull flow Check valves f ac" e*C Of featu?e 8He:ts only tne aulcraatic reitase anc the manifold has a Oleecer valse to Orevert a;- Oe avs ChsC*a'ge long enougn for t*e scate to cicentalieagage from pressurizing t*e ic'e Can< Oe eva0,atec An alarm gives a CItar warning of This vane Will C10se if tne manifolc section O'es-i *Dencmg c sOnarge as soon as a detector sig- sure exceeds 20 csig. as during cis: arge *8 s fire Aemote anc cirect manual releases by- Vain and reserve Danks Derf or* .0e"* ;3 cass ?*e Oe.av t: :a ,se im*eciate discharge functions in CARDOX Systems This arrangement results in # cy/inder manifold MULTIPLE HAZAROS. Multicie razarcs a, ce Clear of stop valves which must be SCluoted bV orotectec from a common suoply Dy t* e .,se : durt/idry contro/s for immediate drJcharge. Un the pneumatic selector. or cirectio*al va es s000 al + stances. 't may be cesirable to imDose This is essentially an ecor'erry *easure to te  !"e ce'a < or the man ual'e' eases as well. In wniCn used only if there is strong assur ance t*at ;" Case a st00 valve 's included in tne manifold ) one nazarc may be invoNec at any o*e t ~e The discharpe de/sy timer consists of a Diiot-Simnar Controis are croucee 'Or each *a23'O

e'atec vane anc a00vmulator cesignec for SeieClor valves are odot Ontrovec anc 00e' ate

300 '000 esig work:ng pressures A aeedle ev line pressure Tne oilet controi is actuate s va>ve Cont'o $ t*e timing whlCh is aOJustaDie Dressure from the automatic anc reraote maNa tetnee" 5 aac 90 secones. Longer celays are releases Feedback from the cehvery sace 0cks C0ss t e A'th larger accumulators. Dut are sel- the control open oneumatlCally until cistna'ge com 'ecs'ed is ComDlete and the actuating system is reset RESERVE BANKS. Reserve banks of cylinders The selector ve/ve then closes automatics //y. The c'Ouce :entinued crotection while the main automatic reset feature eliminates the danger of canw s ceing serwced after discharge or during splitting dischstge with another hasard as could rout ae escection They also provice a second occur if the selector valve control always had to snet if aeeced Tnere is a choice of methocs for be reset manually. The pilot control also has a actuating tne reserve A manually operated direct manual operator. The pilot control is secs-switening valve is included in the automatic re- rate from the selector valve and can be instanec l ease cirevit its lever is moved to " Reserve" at any convenient location after the control system has been reset. Multiple hazard systems usually incluce re-Remote manual actuation is the same as for serve banks In CARDOX Systems tne manuai the main bank. using a duplicate release near the and automatic controls perform duplicate fure- "azarc Simnarly, the reserve bank odot Oyhncers tions so that either bank may be set off first. X DIVISION OF CHEMETRON CORPORATION CN#Aff740N/ 810 N Micnigan Aven ue. Chicago. Ilhnois 60611 M* FIRE EXTINGUISHING EQUIPMENT Folio 8 3 l $ New to spes#y #18# F#fSS##f CARBell IltXIBE SYSTEMS l j #18# F#fSS##f NAllB 1103E LINE SYSTEM 8 PORTABLE FIRE EXTINtul8 Hits i

1. The fouowing guide sysmosetions oSur a number of might sudRes. The risk is a condemed specincetion

, choissa. The spentantion weher should senest those is that it indientes willingness to accept a minimum i whisk best suit the situatios by delsdag items la system. Such systems may constitute an empense but parvatheses which are not required, notassessarilyaninvestmentin reliable Are pretection. S. The spesi$sations basienGy describe feastion so that ,,,,,

bidders wiu understand wbs,t is aseded and why.

' 3. A number of parayaphe describe feastions and L SCOPE: This speciAcetion covers a high pressure arrangements which esa best be provided by Cardon carbon dioside Are eatinguishing system for protection systems. Some of these featares are esclusive with of the following hasard(s): i Cardon "perforsanese Engineered" systems and Doesribe the hasard(s), giving , their superiority is obvious. A. Name and location j B, Dimensions (refer to drawings and provide) mgg C. Nature of combustible materials involved. m B.-The operadas raue of 10:1 is the highest la IL FEATt'RES: The system shall be designed in accord. the industry and assures retable and fast release,of anse with requirements of National Board of Fire carboa dioxide from cylinders. The handwheel oper* Underwriters pamphist No.12 sad the insuranes camer 4 stor, ualike a lever, is compact and is not subiest (Spesity Faetorylasuranse Assomation, Asanciated Fac-to needestal operation. The readient seal of the tory Mutual Fire Insuraaes Companies, etc.) and thau operating pistos on the cylinder valve permits hand provide the fouowing primeipal features: tight ceasections. A. Automatic. detection and release by (Amed tem. m E t.-ne Cardon Smoke Detector is described. perature electric thermoerat) (smoke detector)  ; 4 It is considered to be the Seest ofits type and, where (pseumatic rate of rise), it serves the purpose, a good investment. R. Remote manual actuation by a pneumatic release  ! This paragraph also requires that automatic actus* that operates directly on pilot discharse heads tion shall be powered from a separate monitored and is entire /p endependent of automatic releases. pneumatic supply. This feature, pioneered by Cardon, C. Direst manual astustion at the cylinder bank, is sa obvious improvement over drop weights. It D. A conaamed reserw bank of cylinders duplicating l increases the reliability of automatic actuation and au feastions of the main bank, permits entire /p hidspendrar means of manual aerna* E. Hasard alare. tion, the only moders system with this feature. y, cogny gdischargefor( ) seconds after automatic m E S,-This paragraph emphasians the advantages release only. , of the Cardon pneumatic reasone retenas, imeloding G. Pressure switch shut down of electrical equipment, the elimination of embles, pubspo and weghts, and (Fans, coewyors, paint or fuel pumps, miners, etc.) in provuhas thessises for mais and gg. preneuse rensass. (Doors, windows, dampers, reserw bas - touvers, and fuel supply valves.) m F.-The 'on asiester volves is densripti" L System must be operable Automatically (11 A). of Cardos e that the release of the solemot Remote Manusuy (11 g) and Direst Manually valw pilot is performed r=-^8'y and (11 C) without any dropping weights or pull cables. ! the pilot operator is self-resettes eher automatie or l remote manual rolsass, ne pGot operater and IIL DETAILS: selector valw may be toested together at the hasard A. CYUNDERS: Cyllader unemblies shall be of 75-or cyllader storage or they may be widely separated, poemd empasity at 63 percent Sulas density and ne latter is a distiastin Cardos system advantage. shaB ooaform to regulations of the Interstate M G l.-The Cardos discharga delay normaDy is Commeros Commision. Cylinders shall be Atted instaued in the automans control line so that it la with a readient pressure seat type valve and shat , entirely by passed by manual relenssa. Dis feature have a threaded siest cap for physical protection p eliminates the seed for a stop valve la the cylinder of the valve during handling and shipment. ., header and ausiliary by pass controls which tend to C)9aders shall be stored in steel racks designed a-Impede Sow and complisats the control systein. to hold the cylinders securely la an upright post

  • a d Should are=== disato preferesse for a less tion with clamps or straps. Rack uprights (for la

~ designed to support the pipe manifold connecting (For Papianoisc Aste of Aise Deteerden-The the cylinders. The vprights than be spanned with system shall be released automatically if the a bar to support a portable weighing devios, when . temperature in the hasard increases faster O specined. The arrangement of cylinders in the rack Aall be such as to require the least Soor space, including service aisles, than the pneumatic rate of. ries release setting. Operation of the release shall sanne opening of a valve to admit control pressure to the pilot B. Dt$ CHARGE HEADS: Each cylinder shall be cylinder discharge heads.) Atted with a swivel joint pressure. operated dis. (for Smoke Detection-The system shall be charge head. Each head shall include an integral released autorr.stically if the smoke content of check valve to prevent major loss of carbon the room reaches a predetermined level. The dioxide during system discharge if the cylinder is smoke detector shall be a two stage device, disconnected. Heads on pilot cylinders shallincor. with the second operating at twice the obecunty potate a piston to be operated by pressure from level of the Arst. The Arst stage Aall be con. the automatic and remote manual releases. The nected to a trouble alarm. The second stage ratio of piston area to cylinder valve seat area shall actuate the system. De smoke detector shall be not less than 10:1 pilot heads shall also shall include a Anod ' temperature electnc ther. include a direct manual handwheel operator not mostat which will detect the Are if heat intensity subject to accidental release ky falling weights, builds up faster than smoke density.The smoke

  • Handwheels shall be locked in inactive position detector shall include a trouble circuit which with pin and seal wire. The swivel joint for will indicate power failure. Actuation of the connecting all heads to cylinder valves shall be second stage or of the thermostat shall cause designed for hand tight make up. The gas seal opening of a normally-deenergized, normally.

shall be made by a resilient insert of the operating closed solenoid valve to admit control pressure piston on the top of the cylinder valve to eliminate to the pilot cylinder discharge heads.) the use of gaskets. (A manually operated pneumatic switching C. FLEXIBLECONNECTORS Eachdischargehead valve shall be provided for diversion of released shall be connected to the manifold with metal coritrol pressure to the pilot cylinders of the braid reinforeed Remible metal hoes with %. inch reserve bank after discharge of the main bank.) bore. One end shall hsve a union joint for easy Control press 6re shall be contained in a connection to the discharge head without causing small cylinder separate from the main storage twist in the hose. and shall be continuously toonitored. D. MANIFOLD: The manifold shall be fabricated & REMOTE MANUAL: A pneumatic remote of galvanized pipe and Attings. Tees with %. inch manual release shall be located acosssibly near branches shall be spaced on 10 inch centers for the hazard and piped to the pilot cylinders, cylinder connections. pipe in sites through %. inch Cables and weights shall not be used. The shall be standard weight (schedule 40) steel and in release shall consist essentially of a smail sites over M. inch entra heavy (schedule 80) steel, cylinder of carbon dioxide with siphon tube  ! Standard malleable iron banded Attings shall be and manually. operated valve. The valve, when used up through %. inch, estet heavy malleable operated, shall admit carbon dioxide through iron Attings through 2. inch and forged steel a shuttle valve to the pilot cylinder discharge Attings in larger sizes. (Manifold sections serving heads. (A second release shall be provided for main and reserve banks, respectively, shall be the reserve bank. Main and reserve bank separated with check valves. Each section shall releases shall perform similar functions and also include means for venting small assidental shall be direct and independent of the auto. back leakage through a check valve that might matic release.) (Where selector valves are set off the idle bank. The vent shall close auto. involved, it shall be possible to open the valve matically when the section is discharging to pre. by operation of either release.) vent loss of gas.)(For selector valve systems add: A DIRECT MANUAL: pilot cylinder discharge ,"A pressure relief devios shall be provided in a heads shall be Atted with handwheel manual  ; common section of piping and shall be designed operators. (in systems with selector valves the to operate between 2400 and 3000 pai.") pilot operators for the valves shall also be E. CONTROLS: Atted with manual operators.)

1. AUTOM ATIC: (for Klectric fnermester F. DISTRIBUTION SYSTEM: The carbon dioxide Deseerden-The system shall be released auto. shall be discharyd through nocales in the hasard.

matically if the temperature in the hasard The nossles shall be siaod and loested to provide reaches the thermostat setting. Closing of the the rates of diesharp and coverap seeded to normally open switsh element is a thermostat eatinguish the Ave.The aise of pipe and socales shall cause opeaias of a normally<iconergmed, shall be determined on the basis of calculated normally closed solenoid valve to adsait control Row and terminal pressures. Flow charta and pressure to the pilot cylinder discharp hhads.) nossle data shall be in accordanes with standares ^ .. ~

appresed by Underwrhers' Laboratortes and Fao, these which ased more). De relmans shas 1 tory Musual taglesering Division. Nosolse shall consist essentiety of a stainless enest eyheder i

he Anbrisased af eerres6se.resistaat meterials or and piston with a spring elip arranged for a shat be taished wth a pressotive oestias. Nosalvs perpendisular puu. . i is whisk the born, or shot, and ortese pisse are d. MAEARD as amas: De system shnu inslede  ! l separate elements shaB be designed so that as an alarm of outstanding sound level and dia. 1 oritse pisse is sensessed directly to the supply tinctive tone to announes discharge is the pipe. Seperste critse platen, which esa be sesi. haaned. The alarm shall be connessed to the dentally left out without being readily n taed, pressure switch which sheM be arrsaged to be , shall not be used. actuated by all means of release. (Indiente j (For selector valve systems, add-Systems ero. whether alarm is for standard, weatherproof 1 testing more than one hasard selective 4 . hall or emplosionproof servies.)  ! have a pilot. operated valve for each hazard in S. PORTABLE SCALE: A portable direct. ] the distribution piping. Pilot operators shall reading beam scale assembly shall be provided  ;

  • be pneumatic and shall have an operating to permit weighing cylinders in place by ratio of at least 4:1. They shall be designed to loosening cylinder clamps and disconnecting he actuated pneumatically by either the auto. the discharge head of the cylinder being weighed.

, matic or the remote manual release or by It shall not be necessary to disconnect any direct manual operator to pass line pressure control connections. The Morage rack shall l to the piston chamber of the selett:pr valve. include a track to support the scale. I The discharge from the pilot operator shall 6. SHUT.OFF YALVE: The system thsit include , also feed back through a shuttle volve to the a normally open (solenoid. operated) (weight. l J head of the pilot operator to lock it open until operated) valve in the (identify fuel or other i l discharge is complete. Resetting the control material to be shut down, size of pipe, pressure I 8 system shall cause the selector

  • alve to cloes and temperature) supply line. The valve shall automaticauy. Operators whir need to be close when the system discharges.

reset manually and, if overlo- 1, could split !Y. INSTALLAMON: Materials and labor to install l the discharge into several hr 's simultane. the system shall be provided as follows: l ously, shau not be providt ector valves PURCHASER SELLER l shall be opened equally by and reserve Mechanical O ~ O ~ I bank automatic and reme nual control Electrical " " regardless of order of role- Painting G. ACCESSOR4ES: A. MECHANICAL INSTALLATION shali include I. DISCHARGE DELAY .. system shall setting up and moanting all system equipment include an adjustable pne . tic timing device, ~ connected to the piping; pipe and Attings, includ. consisting essentially ot diSerential valve ing necessary hangers and brackets, and all non. ansi accumulator, to del discharge for ( ) electrical elements of the control system in seconds after operatior of the automatic accordance with the seller's installation instruc. release only. The timer srall not delay manual tions. In allinstances Purchaser shall provide the releases. material and labor to connect system pressure

1. PRESSURE SWITCP: The system shall releases to doors, dampers, etc., being released.

include ( ) normally.o sea and ( ) normally. Trenching, tunneling, Alling, breaking and cutting i closed contacts to c antrol the following through walls, floors, etc., shan be performed by ' equipment: (Purchaser) (Seller). (List all items ame give power charseteristies. B. ELECTRICAL INSTALLAMON shall include Also indicate dalber switehes shall be designed mounting electrical components and connecting for standard,seasharproof or emplosionproof with w!re and conduit to system switches and servies. Include bassed alarms as items.) valves in accordance with Seller's installation . Switches shaN be heavy duty dovble. pole, instructions. In all instances Purchaser shall pro. single-throw, two to a unit. The assembly shall vide reliable electrienb power into a Purchaser. include a manual operator for start and reset. Supplie6 fusible dissonnect switch or circuit Pressure switches shall be installed in the breaker and shall connect synem pressure switches distribution piping in such manner as to assure to Purchaser's equipment being controlled, operation under au means of system release, Y. INSTRUCTIONS: The system shall include per-unless otherwise ipeated, manent type nameplates and condensed instruction 3, PRESSURE RELEASE: The system shall plates to identify the system and instruct in its use under inelade ( ) pressure trips to release (Ust the emergemey conditions. ( ) copies of operating and number of dampers, doors, windown, louvers, maintenness instrueuens shall be provided. lids and valves to be operated. List separately YL ACCEPTANCE TESTS: Seller shall provice a , those whink require up to 15. pound pull and tachaimaa to inspect the completed installation sad to srpomme the assspenses test. Sauer shall be emetled responsible for all oests of repeat seseptance tests. to two weeks'advanes noties of the test date. Tests shall VIL SERYlCE CONTRACT: The system shall k include (complete dissharge into each hasar(. with insposted (eesmisanually) (annually) under a service instrumented coneestrated ' readings) (complete die. contreet with Seller's authonsed representative. A charge into each hasard with visual observatica of weight check shall be made of all cylinden and a "put" distnbution)("put" dischargs of suSenest eylinders. pa discharp test performed to determine readinees to determined by Seller to check function of pressure. perfonn. Recommendations shall be made to Purchaser operated deviars and to determine if discharge openings for any corrections needed, m unobstructed). The number of reeharges neesseary YFL EXCEPT10NS: Any steeptions to these sper:Aca. to restore the system to full espacity aher tests shall be Cons shall be clearly spoued out in bid and will be provided by (Seller) (Purehaser). Purchaser shall be subject to approval. HAND HOSE LINES

l. SCOPE: This specinostion covers a high pressure operated valve. A second release shall be hand how line carbon dionide Are eatinguishing system provided for a reserve bank, when specined:

for protection of the following hasard(s): main and reserve bank releases shall perform A. Name and location, dupliante functions. The pipe connection to B. Dimensions (refer to drawints and provide), each reel or rack shall. when specined, include C. Nature of combustible materials involved, a normally open manual shut.o# valve to pet. II. FEATURES: The system shall be designed in accord. mit disconnection of the how without putting ance with requirements of National Board of Fire the rest of the system out of wrvice. Underwnters Pamphlet No.12 and the insurance carrier F. ME AND 1.M: W Mnder manM shan (Specify FactoryInsurance Anociation. Associated Fac. be connected to the hose reels or how racks with tory Mutual Fire Insurance Companies, etc.) and shall ga anised steel pipe of adequate size to support provide the following pnneipal features: discharge from any one nogale. A. Direct manual actuation at the cylinder bank. 1. E . ASSEMBLY: Each numbly shan con. B. Remote manual actuation at each hoes reel. sist euentMy d a tmanion. mounted dmm on wh ch is coined ( O C. A connected morte bank of cylinden, III. DETAILS: A. CYLINDERS: Same as for High Pressure System ) feet of %. inch 1.D. aale shall have a rotating swivel joint at the inlet and a female hoes thread outlet connection. SpeciAcations. Section lilA. A separate cylinder supply shall be used for hoes reel systems,

1. RACE ASSEMBLY: Each assembly shall con.

sist essential 6v of wall mounted cleats support. B. DISCHARGE HEADS: Same as High Preuure System Specincations Section 1118. ing (_) feet of %. inch 1.D. rubber. covered high pressure how in Figure Eight coil. C. FLEXIBLE CONNECTOR $i Same as High Pressure System SpeciAcations Section IllC. 3. DISCHARGE NOEELE ASSEMBLY: Each anembly shall consist essentially of a horn D. MANIFOLD: Same as High Pressure System Speci6 cations Section lilD. type noasle and handsnp of non conductive materials, and a squeere. grip type quick. E. CONTROLS: opening and closing valve. A clip shall be

1. DIRECT MANUAL RELEASE: Pilot cylinder provided for fastening the assembly to the w all.

discharge heads shall be Atted with handwheel IV. INSTALLATION: Same as High Preuvre System manual operators. Speci6 cations Section IV.

2. REMOTE MANUAL RELEASE: A remote V. INSTRUCTIONS: Some as High Pressure System release shall be located at each hoes reel and SpeciAcations Section V.

piped to the pilot cylinder. The release shall VI. SERVICE CONTRACT: Same as High Prenure consist essentially of a small cylinder of carbon System Specincations Section Vll. . dionide with siphon tube and manually. For further details refer to N.B.F.U. Pamphlet No.12. PORTABLE EXTINGUISHING EQUIPMENT Refer to National Board of Fire Underwriters' Pamphlet 2 % Poemd . . . . . . . . . .U.L Rattag . . . . . . . . . 2BC No.10 for classi6 cation and distribution of Hand S Poemd . . . . . . . . . .U.L Rating . . . . . . . . . 4BC Portable Eatinguishers. le Peand . . . . . . . . . . U.L Rattag . . . . . . . . . 8BC When specifying Carbon Dioxide Eatinguishers alwsys 12 Poemd . . . . . . . . . . U.L Raelag . . . . . . . . . 10BC specify the highnt Underwnters' Rating--(They cost IS Posed . . . . . . . . . . U.L Rating . . . . . . . . . 12BC no more). 30 Poemd . . . . . . . . . . U.L Rattag . . . . . . . . . 12BC CARDOX DIV1810N. CMSM8780N CORPOR ATION e See NORTM MICNICAN. CHIC A00 11. ILLINell ! l fire extinguishing equipment. . . l li l l ! l l  ! l I jlblillilli ii gii  !!lj Il5 8 l _,b - l^ ,=R/ l w l r 8 l. i P i W1 11 W ,I ' m .. . .- . .  ; ) W a i  !,1q> , li 1 j jut __ mll h , m q y ' ?b

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  • i TYPICAL-SERIES 60-64 AUTO. ACTUATION ons.seo. c4esoy

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,f, 'W,,,4 /d .g *ek . d . i l L.)ly SET SCREW X l / 3{ '- 6 i .. __ ST EM (BE SURE STEM IS c, e _ _l SCREWED IN TIGHTLY) , w w. } s "kThI d(/ i NOTE DIMENSION i (,s , ,... UNION NUT ',i CYLINOER VALyt i = --- 3l, m- - CARDOX DISCHARGE HEAD PART NO-36130 g MODEL NO.- FB34922 Revised L-02 ptATT No WP m i j \ l Ilre, extinguishing .. equipment. . . l-O- i - m x I 'l y HANDWMCEL J \ f i ~ " ~_ ~ _ SCAL' y l I y WASHER. i / - g 4, , , 3 RETAINING PIN - l SALL CHCCKL f'l ll 4 PlSTON ASSEMSLY l 1 d I ' F ll i lil  ! y - - _ .l - - b ,l \ g sooy g # l p PISTON SEAL i il O u l l l [ , SALL [ sq,-,,-- p c.---c / $,b%.d. t f SET SCREW  ; ' i  ! _ r #s - - - ,-h, ,. ------- STEM I ( WY J UNION NUT ^ T -g 'I ! CARDOX - , DISCHARGE HEAD ,

O PART NO.-36137-i MODEL NO.-FB34990 i

i i . . . . . _ . . _ - - _ _ _ . . . _ _ .._.._..__.._.._u__._..... a m ,.. ............. ............ e ~ a l. i r = 14' j l BRASE ( N.P.T. _ ' MALE CouPLnNG h j g, m 1 R< :V" BH -2 w {* i.0. BRONZE' SEAMLES5-ORASS[M.P.T. FLEXIBLE METAL TUSING l MALE UM10N COOPL)NG GROMit 2. Witt B R M O  ; i u CARDOX ~ ) FLEXIBLE CONNECTOR $" PART NO.-571194 d21Mfdk fir. .x,inevishine ' quipment. . . ' pMANOWMitL 3 t ' /) 9 -STEW ( ' PIN PILOT - M STEW SEAL CONNECTION W ' wASMan kst Rt TAINING PIM / l g gg,, .M .. / / y j fPISTON A5&EW8LY~. ? ~ ~ ~% ',j / y - / J _ -- ' . Ms.. .r!\,, _ J ~' PISTON St AL g D0DY

  • e STEW (cSTEW SEAL .-

FLEYlSLC ) - p-r ] x V SALL# ACE CONNECTOR 4 I).- SETSCRtw bWam_m . .. h- .f8ALL CM8CR / i g , wr' P Jg 7ASSEWSLY***-  % pPISTON 88AL fi # 8 TIM (OE IfgAE 7I 'S) y SCREWED g 8007 NOTE DIMENSION ' , , -GALL RAC8s I 'Y. hSETSCREW ~n ,! l * ^ > i p.h L. ' \ = N wiion nur #4 '##' =Nevuwoca vaLvc ^ CARDOX C PILOT OPERATED DISCHARGE HEAD i PART NO- 1616 5 3 MODEL NO.- C41872 A- . i N A9 as nG ? rgA . m an n - .. j ~ . I .? g m. fire extinguishing equipenent. . . + r $ l i J u 'sl ~ I ...T.. gopy e PIST.M SEAL - - STEM. j STEM SEAL asTsCRaw' anarTen . f v;,qs; l , 5 h .;  % l -PI8 TON A88EM8LY r < .stoNSEAL I I - STEM u- M ) - tw 8 ALL RACE 7 L l . SETBCREW l s . r b 1 , L lI '4M . kuai. = _,pa - i CARDOX-PILOTOPERATED DISCHARGELHEADL k PART NO- 161654 MODEL NO.- C41871 A .. _ - . - . .-- _ _ _ . _ _ _ ._ - .__ __. - ____ _~ - - _ - _ - ____ firo Oxtinguishing OguipmOnt... l 1[NPT INLET v4 TEE OR  ;[ NPT INLET SHUTTLE VALVE 1 -r. - y __ I DISCHARGE WANIPOLD I I - ~ % _& -  ! HOSE F- A_ _ .

3-- ', ASSEMSLY msg n_ r. . .

j SEE DETAIL SELOW 126223. ASSEMBLYg _ 126223 g J] i ] j e:= ;;_ a eQ-- , l' "'ic ADAPTER f ri DAPTER- 54438 t 54431 TEE i ' M i ' ' ' l ( l l ,".l 544211 I M- ~ ,Q q

4. . . . . . _ 3, - ,L. _ 4 r./. i l

'r y, -: '3 'm- 7&-$ ,/ - l . _ _ . q- - s_ ._ u a ! E4 TEE OR l M 5'  : 5- -- $----A 4-- '-A SHUTTLE  ! O >7: ::,4

t. L _ _aa k ,. =.

L. .a _ _.i_a,:3! VALVE I l i PILOT OPERATED DISCHARGE HEADS I mf h x 7 NIPPLE o > t n*, 4 */ ~ IF PILOT CYLINDERS ARE IN T>E FRONT _ 'O  ; ROW OF A TWO ROW CYLIPCER SANK ' THE W x 7 NIPPl.E IS REQUIRED. ~ C[' [ I j m ROW iHSTALLATION t CARDOX PILOT CONNECTION KIT I 2 PILOT OPERATED DISCHARGE HEADS 1 O . PART NO. -36142 - - - - nC e mm ,. _ 3 . m cee m ,,.. ....... ..... ..... ...... kNPTINLET k4 TEE OR UNPTINLET SHUTTLE VALVE - - - - - - - - - -- - - _ _ r r._ , OlSCItARGE _ WANIP J -__________ _ _ _O_LD_ _ I g f o s HOSE - - ASSEMBLN _ _; $rSEE MTAIL M I 126223- -- ir s.= cp::. n /'.DAPTER-54431 ELS q -; w.,2, 54463 ' I , o ,i. . . . . _ J, - ,r " g ,, - ; / ) ,._ _ . 2 4. - ' :c ' 5' = 'k4 TEE OR .1 /----4 SHUTTLM' >F: : ,4 .VALyE t.1 .a .: t , PILOT OPERATED DISCHARGE HEAD F l.  % x 7 NIPPLE ,o, , IF PILOT CYLIPCERS ARE IN Ttt FRONT ROW OF A TWO ROW CYLIPGER SANK , i THE 4 x 7 NIPPLE IS REQUIRE 0. [ , h . a non INSTALLATION CARDOX PILOT CONNECTION KIT 4 1 PILOT OPERATED DISCHARGE HEAD g , PART NO -36143 ! DRAWING - A41893 = - - - , - -- , _ . _ , , . . . _ , D4LiCMiEC !Tfiro oxtinovishios egulament... O = 3,tg SEAL. \ fh 7 SHUTTLE f [ N.P.T. INLET - l y RP.T. INLET I [487(([h ~ h I T m'x j i 2 - - e.s i  ; / , h/ E Z o a sooy / en - ss . di N .RT. OUTLET i .E ' = l CARDOX- i. SHUTTLE VALVE PART NO. - 1612 56 i M EL NO. - A 41400 O . i 1 REV. 4-62 R. ATE NO. H  :; C340 CPC j ' l l 4 g s. .. i ..i. i.. ...i. ...... ! { 8 9l l PPOSITE SIDE MDWT1.10. - MMOVE SCREWS AND A0 TATE IN CONTROL PRESSURE ! PLAtt 180' M Pos171ou Tl' T uer PORT 3 L santu sY nellte t.Dets. l r J RACK WTG. BRACKET 4{. " l 3'*NPT CH j @T MAIN BANK PORT 3 /k,1T RESERVE SANK 4 gNPT PORT 4 NPT PORT 2 l i s._ _____ . i i n ,' $*',w . (~.y a .x ,. h - 1 c ,, - r . . I< O

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3. 1R808 OWIWL CTLtSER 94LYB ttWTLT1 CSAS ENtm JetWt WIrlt 518 -

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4. ALIAN STHW W Otas NB agen m.tnLP Rem W mas ass TsegaATUnt.

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1. tagyt P!tst DttaApr.t utABB. 188 PW'N f*EN 88ABIEW.

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4. It COREst CTLtBER Ra8 taBT 90m88EB as & asti er t.aamma, taggTB 110 RAPSD flub 13 8BW. Tut RisqRA cestaR MR tsCLutti 4 L4am utit SenP teLRIER. Ltd Tgt fit.. &PTER esmWTIRB ALL LaaES. 'WL88 808 TWIW. ER. MS 1987 NR 4R &Vthem ITUT98 198 715955B8 er ST9fD C8 et 88TWpften M Pesamt IBCBeta 1997 as WtstMW TDS 988 M es a agCusts W T 18 i stRS. Tut tances fut OUTLim IB SSC? tent C. 9 m 8. NT. M Rim 148 SOM er Aeteact. 1 4 15318 m pegf!CRAaLT
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50 Cite 4. IF 1EB PtBSGB MDP 48 4444Ea19 983 m eschTtes ERCEggs 188 P91 PER TRAB. M 99999: 98E83 se tapp ptB 60AR488.  ! C *amam anamum W am tsaa 1. aps M. Te mWt= == asenna sa Tom. imme an. . mWt WrE noses is ====W. W na TW eJama sa= vt15145 MBsWB RBCD$tep eBTES OP TWT Tut W.1 or taasant EBWD4aEWIR S TWB. MTIERTO arte Jetst. OPS CEfft0L Cas et seiness. It fut CabcRefe Passges gasp ts Lage itas na nt gggtgga geLUB. AWUff St4A1CE 19 30019 assges ST9TD 42 ftsttu jg gy, gg gggg agggggg gggg, Ptt TRAR. TRS fftTW tl CRIBISOD Tim AS 485P169t8. Ble ER tests 3.- MBR HD8 IP SHW IB PttSt 980CR0MB E3480 am 831 STALL to telCAft tadA8 UtlCB 188188 nae &TD e E95th1D. pgggt g m , I -m _ _ _ _. 9LATF No dOJ l l l r, e , '!<: fire extinguishing equipment. . . O VALyt n CAP CARSON DIOYlDE FILL CONNECTION GASMET (MRT NO. 523llo) n m. 7 CYLINDER / N. I i I i 22h" IS{ O i 1 v u c J l CONTROL GAS PART NO. DRAWING NO. AVERAGE WT. CARBON DIOXIDE 37126 FA-34986 34 POUNDS NITROGEN 37133 FA-41368 27 POUNDS O CARDOX a CONTROL CYLINDER ASSEMBLY _ ~ mm -o . _ _ _ . ~.._....-_.-.. _ ._._._ _.... _... _ _ _.__ _ _ ._ ._ _ _ _ _ . ... _ . , e ,,.. .........,,.. ............ -! e1 l l l VALVE .l n CAP l CARSON Dl3 RIDE FILL l CONNECTIC9 GA&MtT , j (mWittPeo 583160) l l h JU. . CYLINDfR gi. s s q * \ r [ l I ) i ! l . I l i l  :

17)g ~ l 13 [  !

l 9; i l l I l' i f i p 9 L J l-  : i = SUO.D.-*' i  : !. 2 CONTROL GAS PART NO. DRAWING NO AVERAGE WT. . CARBON DIOXIDE 37137 A46074- 16 POUNDS CARDOX  : 5 LB. CONTROL. CYLINDER ASSEMBLY L 0 0= ' . fire outinguishing oeguipment. . . , ASSEMBLY INSTRUCTIONS FOR ERMETO Pff71NGS 1 '*"'"' *** [ ' 9 g Slide Not end mee the Sleeve es febe. l < Se sure sleen is not en backwards. ~ E Head of sleen "A" must he towards  ! i '( A aut. $ i i  ! WHICAft 1 3 lasert Tube late pittleg. ] uuu Be sure tube is bottomed en hang . , shoulder at po6at "B." Luhneate ,, a. i-3 gfare Net slowly with wreesh m / ""' while terolog Tebe wHh other beed. When sleeve genes the tube, that is,

' IH- . when the tube osa ao longer be re.

I volved by hand-STOP-and mete - i ei wreneh. This is the "Ihag sf.Os. cv...e esse 'p" point. O g g Tore 90st poet " Ring Grip" Pelet IW to 1% tures ter / 3000 series. ....... ,as s. ", . _. The operaties deembed la ste through 4 is onlled "Pressmag".ps 1 NOTE: To nebeen en Ismens - that has been desenesabled. .re es wnh wiensk e  !/4 _ y e.sm, mas e , ss ee /3 tore se , series

When the esseehty procedere for tremote BDNegs is followed sorrosWy
those penets will be evideet.

.. m 4 w&N%% YM MA > aek= e.es . . iso.e 4 he own.as h es. so . .he s . esen, e,en . .is e w Ensk . - a he . - O espeh. ta tekens to en leB e.es . - aboeu he . us si e is .i and sie e w er as eden d 1/F u . . "m"ed tlIr b . o show estemese d bases in pedese samasse wah tapaid e es . test web tehe. ennes m er teeshine o.a. d eu no edge d else,e under home howed wehen a eissse inhame. pesi, hem. IISTS: Perderessee of eessee we ese he esseted N stesse recesse se tehe after emessenhey. .l 'firO Outinguishing OgulpmOOt. . . . OMBIE, tut 1NG m FITTINOS Ol 3 3 I.E.Ba BSCRIFT W l 560108 3/8" Copper Tubias (.065 well). Order by tength. M4287 4 Union (Centrol tubtag). 3/8" Tube M4611 Cap (Cap-off tubing). 3/P Tube i j 544207-Y Male Connester 3/8" Tube a 3/8" Fipe ( M4590 Male Connester (Carden Rate-of tise) 3/8" Tube a 1/8" Fipe  : 571211 Fensle Tee (Dere Speed Reed) 3/8" Tube a 1/2" Fipe a 3/8" Tube M4282-4 Male Ceanester (Sprinkler Rate-of tise) 3/8" Tube a 1/2" Fipe M4282-F Tee Wates (Tubing Juesties) 3/8" Tube, 3-Way - 544283 5 Male Commester (twitshing valve 6 3/8" Tube a 1/4" Fipe Setester Valve & Solomoid valve) M4282 A 908 Male 51ber (at estoster valve) .3/4" Tube a 1/4" Fipe 544182 5 90' Fenste Biber 3/8" Tube a 1/4" Fipe 5443M But 3/8" Esente 544379 Nut 1/4" Ernste - l 544354 81este 3/8" Esente M4282-8 Fenste Ceanester - Tubing to pipe 3/8" Tube a 1/4" Pipe RATR-0F R185 TWING AND FITTINOS . M W. MACRIFT105 560277 1/8" 0.D. Copper Tubias .020" Wall - Soft Temper 5446M 1/8" 9mies, teverted Flare Brass, complete with Bute. M4637 1/8" fee, Inverted Flare, Brees Complete with puts. ) 544634 1/8" Cross, teverted F1sre, trass, Couplete with Wats. l 544639 1/8" put, leverted Flare, trass (for above fittings). i _ ._._.__.-_. . , . - . . _ ___ _ _ _M _f%Nk/Vt______ _ ___B 1 10 u ' l Nbk D firo outinsvishins ogelpmont.. . l lO Principle of Operation vaRTICAL MODEL SL8CTRICAL LEADS SLASS BRADC MERtARTIC SEAL 't IXPANDING SUTER SMILL NELIARC HtkMETic $tALgp MgAD "* 0"""- Mi"] b!f* e.d h4

  • LOW EXPANSION STRUTS CONTACT PolNTS FOR ORD!N ARY FOR MAZARDOUS 1.OC A.

USE - The besie T!ONS - Mount DETECT.A. DETECT. A. FIRE FIRE unit to Crouse Minds CPS EL8CTRICAL INSULATION unit may tomounted tonn 031 cover and Form 20 Condulet une. at installation, for explosion. tion with

  • di. peset system.

O MILIARC HERMEflC \.' u mountins nuts. Can k W Mth con. 8 tP Mount DETECT.A. FIRE unit to Appleton Electr:: BTCS hub cover and Form 20 L'nilet at in. SEALID END stallation, for explosion prxf = ADJUSTING SCREWS ha * " s mU of t s box excludes The two fine silver contacts are mounted on, but electri. - W $ '-5 cally insulated from, two curved struta that have a low ""*= N expansion coemclent. This assembly is mounted under ,- compression in a tubular stainless steel shell having a . g high coemeient of erpansion. L Temperature changes cause the shell to expand Of con. l ~ tract - exerting magnified in0 tion to the contacts which , close the instant the surrounding air reaches the tempera.  ;- A,', ture for which theThe unitshellis is set re rdless of the rate of air ,,,,,, y temperature rise. baaic temperature senai. tive part . . always in contact with the surrounding air. Tres annassa. On Ts P. '""#*"'#""""'"' '#""" '"" esa m T wisa Ossatas COLOR c00s sT0en me. "s'f a imes se0 ve tt0w is0:sf 690 WMitt 680:31  % atePS. ,,,, y BBS wn TC st094 illv a.C. RTiti CLOSEse 389 RED 660i00 0'"" aso entan isons o.s anses. s00 O ftS ORamst OR ANGE WITM SLACE OCT $PACIN G

  • bo' stT WEEM uMITS On Sas00TM C Et Lin 6 190122

'S0623 illy 0.C. 19' FR00s PARTITIONS OR WALLS ELECTRIC THERMOSTATS issuto i of PL AT E NO. H- 43 h N%; firo ~o~mtinguishing oquipmont o . . ., s. .2s5 'y.. -.e t . . s}. . y .. .. . .21,3 . J' ' TI s . a.....hmm%$ I e m ,8m n - 3: ._ l , I ., j i -- a . . - --. . . , - . .c- .-,,, ~ 45'2I 4 g. T 7 owowourcommrioN ' TD6( r i i \lENbSSODMN@MINh TMS DETECTOR. CARDOX What SMOMB does this087ECTOR mean? Just this: is a TWO. STAGE POSITIV8 LOCATION OP Off8CT10M is assured because the Detector is located in the area where detection is THE PIAST $1 A08 gives a warning signal indicating that desired. There is no chance for confusion or mistaking smoke is detected in small quantities, thus providing time where the signal comes from. Signals or mdicators can be remises. This lesired in your building or plant. laced at any om Mon or any nu I to make affords preliminary the portumty to remove exammation any smol of the fering material l or to apply t. aid equipment for extinguishment. INSTALLATION 18 59AM8-The CARDOX SMOhE DE.  ! I If the smoking increases without attention, the SECOND TECTOR is as easy to install as a liaht asture. No eapensive STAGE operatas a fixed fire exti uishin system, signals P8Pmg system is required to gather smoke samplea, the fire department or causes any esired larma or signals MAINT9NANC818 S4MM8-Periodic vis,ual inspections to  ! to function. prevent dust accumulation are all that is required. Tubes used in the Detector are as easy to install as the common (' HEAT Off9CTION is also provided. This can be paralleled radio tube. Accumulation of dust due to improper or negli. mth either the FIRST OR SECOND STAGE, thus offer. gent maintenance will show up by a signal from the FIRST in protection against either smoke or heat or BOTH. STAGE. l ( est detection is normally tied in with the second stage.) There are no moving parts - NO BLOWER $ - NO MOTORS. PASTER DETSCTION is accomplished with the CARDOX Filament circuits are a rvised in such a way that fila. SMOKE DETECTOR because the unit is located in the ment failures actuate the IRST STAGE signal or trouble hasard. There are no delays a hile smoke samples are draw n alarm as desired-no actuation of the SECOND STAGE through piping to a remotely located instrument. poestble. CARDOX SMOKE DETECTOR g PART NO.11719 WCDEL NO. FE21663 firO ORtinguishing Oquipment.. . Se**1Ma'*v$$s'a Er#"' - a s @/ ( i . ., e u .r r g $ $ C - I .e - - ,  ?. .iI .p. 7 - f ' dN1 dt.pffy"* l , CROUP PART PRESSURE V I'. '! I NUMBER NUMBER SETTING RA!!  ; C41582 1 110174 )a 4 $.! . C ZJ;.~.~.M IE!!I K [u'[!i"## I Ch1582 2 110175 1)" 20 ug* l $$lel*M's%O**' C41582 3 110176 2a *0 b.E/M Str'elb 44' - / I C41582.4 110177 1}" 10 "'id f [f!lfd'd*a'II  %. conavor (, /[ t[ , f Q(sjges arrear C41582 5 C41582.6 110173 110178 2a 1}a ' i i C41582 7 110179 2a i _ea.a __u e m r___dkna _ 5 g i l!^ UA , C41582 8 110180 2ta = ~ ~ ~ ~~ l C41582 9 110181 3a 3 ~ ,c--------- p' " -f4 C41582 10 110182 2" i .o . l il i L . . . . . . . . . . $' E y a a $6 .. C41582 11 110183 3a 3 'i i'~ l" '7 C41582 12 110184 3' 2 ll . WQayr ll w s I _'. i' d >...... =  ;;.__ __ .. ,_______ y NorES ^ I^ ll Q\ 'dm_.m L_1._______J l - = - , , , , - - - . M 3V ' FOR COVER ASSDGLY ORDER STOCK NO. 3102 DRAWING NO. 94143 U .. j '/ DISCARD MOUNTING BRACKETS IF' k%%#fo h UNIT IS Wall MOUNTED. f! 'le'Arl$5 ' " '" i O CARDOX PNEUMATIC RATE OF RISE RELEASE AND VALVE ASSEMBLY REVISED 12 64 MODEL NO. C 41582 - ca37oc DIATE MO W , d it a M 6 ,. ...i...i.hi . o ie...e... l 1/4" CROSS 1/8" TER O Part No. M4634 Part No. 544637 fD MAD $'A to V ~ T ll I ,n , n ' MEAT ACTUATED MVICS (MAD) U OE HAD ** !h ' Part No. 150128 [ ti j 1/8" 0.D. (.020") WALL COPPER TUBING Part No. 540277 1/2" D1A. E1619 i I OR TREN WALL "[ l INSTA *?IG1 INSTtlE: Tim (1/8* TUBING) CON WIT

  • H All comesticas asst be made la a N"'

junction boa, anst be air tight. free free esisture and dirt. De not kaak er ficttaa tubias. Tubias to be less enough gjgn ggg I to be looped as shows* Part No. M4636 Cut tube by filing metab and breaking off. I File smooth and square, remove all burre. u i Kold and of tubias dava to keep'fittage out. 4" E 4" A i slip tube out en and flere tubing. JWCT13 tot * ;i Uso two 1/4".3/8" opea and wrenshes and make easeth, tight sammesticas. PRESSUREOUT2Tl ) 1/4" Standarti .Sipgf / IN PRESSURE INJT PRESSUPt -[2/4" Standard Sipe COMPCHN! PAEf8 SYSTBIS Discarti tube Fitting) 11 1/8" NVF . Part No. 544639 ' h 1/4" FLUG . Part No. 544440 PRESSURE INLET 4 3/8" 0.D. x .065" vall M SURI ' Copper Tubing (Pa n W. 5 M 08) f Ni SYSTMS E _ CFURN18MBO ST CONTRACTOR From' Control Cabinet le i e , s(300 PSI Pressure) - t ,e p , RATE OF RISE RELEASE PLATE No.H43A 7  ! ' l MICAI. MA1.1.AT1W [ PW MertC BATE OF R185 DETSCTION . - . . . _ _ _ _..__ _ _.. _ _ ~_ _ _ __ _ _ ______ _ _ _ _ _ ____ _._ _ _ __._ ___ _ _ _ . . . l  ! fire extinguishing egulpment. .'. l i I O  : 4 = J'  : -; 11 ll 5 18 g ,, - - - - - , . - _ . , il Il 1 ll ,)  ! ll l ,jo , il 1/8" TUBING v _I rTO RE11Asa; Ahu # ' ' VALVE t.SSDSLY I# s i  ; if i,: ll i + ll ll l 1/4 TUs1No 7A %'o ' ' p ,P m r**'a^a ^ k/n i 9 lll l i l n CG4PENSATING VENT  :- (not supplied with i i mercury check kit) f T T I / ll O ' i ii j W4Il911 -3 ERCURY CHECKS l l l [tI _ 1 - - --2 HERCURY CHRCES i l ii ll 1 MERCURY CHECK t n 9 9 9 ( ll MOUNTING SOLT l FADNT VIEW (hinned cover reinoved) SIDE VIEW CHE 1211T M8CURY CHECE KIT - Stock No. 150135 - Drg. No. A46329 TWO UNIT MRCURY CHICK KIT - Stock No. 150136 - Drg. No. A46329 THREE UNIT MRCURY CNBCK KI" - Stock No. 150137 - Drs. No. A46329 Mercury check kits are shipped unassembled with all parts packed in cabinet. Union nuts are supplied with kit. Compensating vents are supplied seperately. I O CARDOX MERCURY CHECK i l l PNEUMATIC RATE OF RISE DETECTION SYSTEM _ PLATE _ NO. H-43 C cm- -oc _o ! .i fire extinsvishing egulpment. . .  : i -- ( i Oi i - 1 =k ,;, = ll -4 -. 4 y' _:

  • n n ,

- r [i- W Y-T', - l ,ttstm4 ll 0 ll I  ; h!> l @ C l ll ,, n. u l k, .>  : \ ' I ,l O C k is L . s, ,a 't , ll ll g"lll l ,,g I l ~ \3tSuiu= , ~~ ' I p n s 3 i , r  ; +

C f Comes. "'"""S* ,

_ f* = me, ww su ww . QI l q!Q Q.p l > 1 .{. 4 244 Lf 4ARD0X manual acLeast stations-cLtcraic l (Pusn-surion optmATto) l i b 24337-N143181 suntAct-mount k esou. cont. 110-125V AC/DC' svaract-esounito, usu cout 250V DC 24346-1

  • rLusn-esountto l' 0-1 AC  :'

24346-2 rLusm-esountes-2WV a 24302 143174 suaract-esountro ou-erra 119-125 V AC/DC 24342-

  • rLusM-esountto, "oeworr a 110-125 V AC/DC ,

e onora av ucott eso. Pants supplico nisAssensten ron (Asv INstaLLAtto00. 'j l ,,v.------- ...,..e,--,,..w-a ..m .,--,--ere.,~,-+,,-- ---,w.m--,,.,,,,~,..~.n--- ..-.--m --_ - - , - - - - - - - - - - - - - - -.

y 1

! -  ;; '. D0,. - firo. outinguishing ogelpmoat. . . j i O */Y*- . l l ' Nor coNou/r  ; -tj.- [enNorgo7Artosoo*)l f4Lc.Lenos , .' pm . i 4 ,  % .IN, =; l %4y +< . f j l L a-  : -tja n' 1 I l *J unrner3 -]- l

--4 i

~ ch6 6

+.4 :[ , ' Ng l

7 O 't'M8" - l I 7M HMM MFrMALL Y CL0sfD SOLfM9/D kWL V1 02//~MC 3/2f : ig* f D/A. GPCRA7/MG PRf3SWRd : 300P3/ l OpfRAF/MG V04 rA GC : (31f 74341) , VML VE CANBC MOUNrfD /NANY #0str/0N 4 ognnvne eMgar/No vos ve cett neemt.nr No. vearnee avecxMe. 3rwcRho .sro e s N o. A4AA/S //S Y= 60 C Y /6/277 100/09 136966  ; 44/444 ff0 VDC /6/10/ 110//0 126750  ; A41917 NfV-ffCY /6/633 610Hf 336766 l Adf9fd 110 VDIC /6/634 110Hf &Je 760 - A41993 14 VDC /6/106 410/09 196156 esto wiru ca.ecreic osrecrees ANo Aersidreas  :; /~0R Rft,143/NG PRf3SWRK /N CtWrRCit. SYJVEM. i O CARoox ELECTRICALLY OPERATED [SOLENOD) l VALVE  : (atr. owo. No.secoss) .._. _ _ . 2 ,. .. .. _. . _.____ __ ._ _ _ PL A T E NO. H-37__ m l .!

i fire extinguishing egulpment...

0PRING IMCHG[p  ! Q# /s . ' m--*. r 7 ' C[' l ' HOOK CMAIN HERE) ' ,1 . \- . . l l' s 6et i PART NO.-17131 > (WITH MTCH) I PmovlDC UNION OR TUBE l'ITTING l 1 GALVANIZED PIPE TO FACILITATE RCMOVAL FOR *

(.065)TUSC\ ,,

! \ Two oiA.  : MM G M ES i s. p. T. 4 F l IDENTIFIC/ TION LABEL ' *-S S/8 - , w rsw f < g?l t.:+s:.w. ,. < # dD.~ 3 .!u.,:j-s M ,. ' -o - Tl-4 4m - ll "Q. 's s, SEE 4:ITE \ 1 3.e [10 g i 7'  ;----- ;; can!!!., ,,oy 1 g I'i i , FLOOR I L... . . ) l, 1 " /- f 1 i / \,,/ _ if FRONT VIEW SIDE VIEW - Note: l 1DENTIFICATIGl MBEL 6 LOCAT10N DIMNSIW APrL188 ONLY WHSI SBCWD STAT 10N IS ADDED P MT NO. 17128 rot ASSERVE SANK. (LESs urcK) CARDOX l REMOTE MANUAL RELEASE STATION- i P ART NO.17128 WITHOUT SPRING LATCH h  ; ART NO.17131 WITH SPRING LATCH  ; MODEL NO. B 41874  ! .R m_n m . . _ _ , i T. firo outingelshing oquipmoot... ~ O JET TIP ORIFICE CODE NO STAMPED HEE c B" = ] l r h b.. R T. g j ~ 1 J li X l STRAINER l < l , P l j JET TIP i l MODEL *A* ' B' SHELL FC 41227 1 436 7W FC 41227-2 6 I/8 ' 9 b~  ; O PLASTIC SEAL CAPS ARE USED TO - + PREVENT CLOGGING OF N0ZZLES IN , SPRAY S00TMS OR OTHER SUCH SITUATIONS WHERE THE OPEN END ' 0F THE N0ZELE IS EASILY REACHED AND WHERE TEMPERATURES DO NOT ' EXCEED 175'F. CAPS MIST BE , CALLED FOR INDIVIDUALLY AND, i O  ; WHEN SHIPPED WILL SE SEPARATE 6 FROM N0ZZLE ASSEM8 LIES.  % i TO ATTACH - WLAP CHAIN AROUND L

  • MEXAGONAL PIPE C000lECTION AN3 LINE TO ITSELF TO PORM 1A07.

h d ' SEAL CAPS USED POE TEMPEEATURES ABOVE 175'T. SEE PLATE N-SOA. -------y 9 SEALCAP FOR FC 41217-l NOZZLE PART NO. 137398 . SEAL CAP FOR FC 41217-2 NOZZLE PART NO. 137395 O CARDOX DISCHARGE NOZZLE l l SPOT TYPE . l  ! -,. , _ _.- ._ OG9WRa 4 O 5- , --.---_ Q..Q Q . 0 G . _. R O A- - _ . _ - . - . _ . . _ - - . . _ . . . - - _ . - . .-- . . . a 'a > e a . W . ' -- ------~~~~-~~~~^"~~~~-^^-~~~~~~"'~l ^ 1 ) i .l j g ,,,. .......i. .. ... ........ j GASKET (ALSO SEE NOTE 2) ! FRONT RING ) j

DIAPHRAGM (ALSO SEE NOTE 3),'

SEE NOTE 4 < GASKET = BACK RING - ' .'IPE q =SEE NOTE I BOLTS & WASMERS i l 2 l (TICHTEN EV'.NLY i w & SECURELY >  !, .Ntos r ,, g s t P91.r. l k e SHEET METAL SCREWSS  !  ; ,. 5 - ( SEE NOTE 2 4 i ( . ) { ~l 9 NLP?lE - DUCT OR NOUSING N  ; UNINJ q ) lM) SPOT TYPE N0ZZLE ' p 4s30(.128) DRILL #30( 128) DRILf ~ i 4 HOLES / 6 HOLES " O. + . 4 r h . - - (" - / I W WUNTING CITTottf Y SMALL N0EZLE MM3871NG Ctff0tFF LARGE NOEELE INSTALL / rMN HOTES:

1. WHEN THE N0ZILR IS LOCATED .iT I:lE END OF A CIVEN PIPE RUN, A UNION ,

AND A SHORT N!PPLE ARE TO BE REPLACED BY A CAPPED 6" NIPPLE, THERESY , PROVIDING. A DIRT OR BlKOLTT POCKET AT THE END OF THE PIPR RUP.  !

2. WHEN THE N0ZZLE IS NOT LOCATED ON A DUCT OR HOUSING, ONE GASEET AND THE SHEET METAL SCREWS SHALL BE DISCARDED.
3. WHEN THE N0ZZLE '15 MDUNTED ON A DUCT OR HOUSING, BUT IS NOT TO SE COVERED, THE DIAPHRAGM SMALL BE DISCARDED.
4. THESE ITEMS SHIPPED AS A KIT:

CARD 0K STOCK No. 137393 DRAWING A42128 (FOR SMALL SPOT TYPE N0ZZLE) CARD 0X STOCK NO. 137392 DRAWING A42127 (FOR LARGE S M TYPE NCIELE) l

5. ALL PIPE AND FITTINGS TO BE SUPPLIED BY INSTALLER.

CARDOX DISCHARGE NOZZLE l i a i ? '2 / i . - firs extinguishing egulpment.. .  ! l i i O . 4 g . .\'ss  ! ! -\ l s l \  ! o, A ~ I l ! ,\ - ' .( ' ( \ \ S.' ) .p%h\ \ ' f g \ '.{\ =g $, \ 4 ' s f.-

b. \

m., % ,, g 3 ,.tt ron . .Q,-  ; i SrAL CAP "A" FO R SPOT TY PE FOR TOTAL FLOOD O AS se us'v oi^ 137470 4W "ozz's uOor'"O-FC 41227-l ~Ozz's voor' wo.  : i 1374 7I 61/8' FC 41227-2 - C 45999 2\ \ / ' s \ A ' i \ \ k, \\ ,, #\ - g s 's l ( s \\\ Nk \ i , \  ; 1 O CARDOX , SEAL CAP ASSEMBLY q %@rsf%L fire extinovishins equip, .ne,,, 8.i.1 2 M wI m L M T F'- 4.. T h, , 3 A . :: y a ~ *~ -$ p-f'l 'nl .. u { WMEN INSTALLED . IN TMIS P0&lTION SPAC ER$ '/3 PIPE CUT TO ALWAYS USE FL AT LENGTM DEPE,NDING ON HE AD SC R & WS .60 TAMR ANGLE SIEE. THAT TMIS SURFACE WILL BESidOOTn. -18 H EX HE AD BO LT " *L LOCRWASMER & NL'T '$CAASNES NUT .d; ., F c:i .5) i - -i > . P. _. o\ i-==g m  ? y.I && 'u b . u,n } ===;c_g il-ia w y W e ntA0 e0LT -- s , ,g pipe i - -- t.. eiPt LOC wwAsMER $ M9 '. Li lW INVERTED MOUNTING FLUSH MOUNTING LI MITATIONS:

1. M AXlMU M &BE,& Qf COVER AGE A. LIQUID SURFACE 9.5 SQ F T B. COATED SURFACE 13.3 SQ F T
2. MAXIMUM LI NE AR $_PACINQ A. NOZZLE TO NOZZLE 40 IN B. NOZZ LE TO CORNER 20IN
3. MAXIMUM DISTANCE ACROSS HAZ ARD

.. A.ONE SIDE OF HAZARD 4 FT B. BOTH SIDES OF HAZ ARD 8 FT

4. FR EE BOARD MINIMUM DISTANCE NOZZLE TO LIQUID SURFACE N TANKSIDE NOZZLE

- . . . . _ _ . _ . . . . . . . . , , , a a a. .. .. Ma AWW hiA A a S&& *ia* *1* i 1 1 l . i @ ', W 4l . fire extinguishins egulpment. . .  ! .113"DIA. - 4 N0LES "IPE l N  : f.tm. 3 g ~w I UNIONW  !  ! 4 DUCT OR HOUSING -" jy! l ggg  : Q, ! >[ l  !  ! - Norg 2 ' \ j/ . GASERT SEE NOTE 1 ,' Il lJ i ~ MOUNT!NC CUTOLFT NIPPLE 1 '.d 1/2" COUPLING / 1 a, SEE NOTE 3 [ -] , J  :'

. -  ; ;.y-- ., ,

l l j.~' ri i. j, l _ nt LL ,d I I M , . . . c i ' l 1/2" NIPPLE 'l l c :"7' h SNEIT MTAL SCREW 333 IIOTE 1 ~ " _ ,g,gg

  • CARD 0E ORIP1CE "  ;

O NOEZLt W1111 SPRING COVER WUNTIIIG PLAllGR 88E NOTE 1 t I (,, _ .

1. PhallG8, CASEET AlfD SMff NETAL SCRWS ARE SWIPPES AS I i

- UNION l A EIT. CARBOE STOCE IIO. 23711 PER 9Rm15G A41658. l

2. WNW TM N0ZZLE 181ACATED AT filR BIS OF A GIVEB i P!PR RW, A 12115 AllD SM0tf NIPPLE ARE 10 BB )

t , REPLACBD ST A CAPPED 6" NIPPLE, TEREST P907181gG

  • I.

A DIRT OR liAW3Jr POCEST AT THE END OF TM PIPE RW.  : PIPE

3. WilEN A LAB 0ER ftas 1/2" SUPPLT PIPE IS CALLED POS 05 l

THE SP9CIPIC JOB 3RW1508 TB 1/2" 005PLLIIB 18 19 38 MPLAct3 ST A CONCENTRIC RS80C84 0F TIIB SIM SPECIP189. (COUPLIBG 08 8535C81 10 88 HASB UP TIGNT AGAINST THE W owr 188 P M ). -

4. ALL PIPE Allt P17f1908 TO 88 SUPPL 1RD ST 158 TALL 88.

OPEN- MODELS A41652 A41835 COVERED-MODEL NO A41654 , O CARDOX ORIFICE NOZZLE . REVISED fire extinguishing oquipmoot... l l SHELL e: j / h IfMEX NUT / / l l JET TIP ORIFICE CODE / STAMPED HERE / . / ifMEX FEMALE PIPE { ) THREADS  : .l I/2*0N JET TIP CODE NOS.  ! UP TO & INCLUDING s - l' i 3/4ON JET TI P CODE NOS. lc s.sTHRUis - O 68

j =.-u D'^-

5!SkwNNNWf i "STR AINEIV h i JET TIP # s  ; - .\. \ \ . y  : \ \ \ "USED ONLY ON JET TIP CODE \ , \ NOS, UPTO & INCLUDING 6 s' u , 3" = = Eg s  ? CARDOX TOTAL FLOOD NOZZ LE G, MODEL NO. C 4 5999 . s 2,, e 12 u PL ATE NO. H- 52. ' 't - - firo oxtlagoithing oquipmoot. . . 1 *-- 4"-------~.' l ~ 2 - 7/16 " --- \ ,t / i - / .i i JET TIP ORFICE CODE /  ! l STAMPED HERE e' i (  ! 1 7/ 8 " H E X l-l/2" PALNUT l .l' k ET TIP l! \ - _ _: - I FEMALE PIPE THREADS , ' 10" 01, (SEE TABLE) l . FEM 4LE JET TIP A S SEMBLY ORFICE JET TIP l-6 ORFIC E S r NPT CODE NO. STOCK NO. DI A M ETER STOCK NO. (ggg TagLg) I" It 137475 .19 6 33774  ! I" 13 137476 . 209 33775 \ s 1 I" 14 137477 .tti 33776 \ I" IS 137470 .234 33777 " \ I" I4 137479 .344 33778 \ g It 137400 .373 33779  % I" to 15748 .2969 33700 1.1/ 4" le 157488 .457 337140 SHELL \ I  % i 11/4" 18 137403 .3818 337149 \ s y l 1.l/4" to 157484 .3128 337180 ~ 1 1/4" tt 137488 .339 33?l81 i 1 1./ 4 " 24 157446 .360 337158 > l.1/4" 26 137407 .397 33?l83 l i.i/4" to i374ss .4 tit 337:54 ) 'Q WIDE ANGLE NOZZLE CARDOX  ! + (TOTAL FL000) MODEL NO. C46000 j lesusoI-s? PL ATE N O. St A CW- (,@fdMs fire extinguishing equipment. . . -L A i h /. \ / N..e -v 4:k / c ' NNRd . ;s y s h :ss t T, $s 's PILOT PRESSURE- ,,.,,.j,pp- ' w '( ..- k NPT (PQRT 'A) ef" Y' l(#

Ethi h

, [ [ EXHAUST' -~- q., 'b ~ INLETf NPT-; (g NPT PORT 'Ei f . (PORT t) + , t, D ga  !' aMTo. holes h'5 W O> ', [ dDIA-3 i g .- .s CARDOX PILOT CONTROL VALVE O PART NO.~l61640 MODEL. NO. C45982 1 r' ' USE THESE MOLES Pot. 3 VERTic AL v&LVE WoWRTINS ) O y/8 y (0 1-1 g %l 8R ACKET DETAIL S/N 3098 wounT vaLv5 NoRizonTat ;i tat SMoWNr on VEnricaL WITN MANDLE UP oR DoWN Post 'o*- A t / 4' l.P. S. - V l INLET 4 POR T 'A' Pt ofPRh*S.s [ j / ( g / gal /4* Et* Le*SoLTS / NUTS AND LoCRWASMERS I 1 /A81.;.1: OUTLET  ; PILOT CONTROL VALVE l MOUNTING DETAll O assuto it es PL ATE NO. H S3-C c.302-u (NbkNfhDi$ firo oxtinguishing equipment. . .- ' l [N.RT. PILOT PREMURE INLET Cg AR ANC(,LINE h c 3 .. ~ n\ n n . O e oyht . n m, N ] - .- A(PIPE SIZE) l ~[ _ g D g C E  : ]$ g ////////// A " w w w 9 . . .. CLEARANCE LINE TABLE OF DIMENSIONS,lNQE8 MODEL NO. 1%RT NG A B C O. E MAX. WIOTH _ FD 34039 16137 I e4 3% 12- 6 4 FO 4 l272: -1688 4 9- I% 9 37/s 12 7- 5-FD23907- 188869 Ih 9h 4% 13 S _ FD 23909 161370 a 10 h S% le 9 6-G CARDOX SELECTOR VALVE bi h IIr0 Ostinguishing-10gulpmOnto o o - h O X NPT PILOT PRESSURE o f n -q t ' Q k 9 6" # 5 es o 5 .. Z. 6,, m - _ fJ v i, Me',4 J l w ;g OUTLET 7 - -- --j . , g ( o a lg* m 9 -  ; g ( :, -W-O- CV, @ EL j [ ht ~'J F .0 I NLE T. --- [- Z .; ~  ?,1, ,o _..... <. 0 VZ:,) i E- \ l , (. , w .I , _3 ' , J-= T- 'V 1 - g. .f #16 P ( , L8 . .) 5~K I VALVE OPE N POSI TIO N -lgh- -lf P l P ~IPE . SIZE MODEL NO. PART NO. i h~l_4 PT .B45695-1 36147 8dNPT / B45895-2 3614 8' a O CARDOX SELECTOR VALVE 1 I Ia !S 1 AN 3 D15  : fire extinguishing; equipment... h r O ss. O h'\k b \ s $ yNPT PILOT PRESSURE Y ~ . , , n ( '6f Mu - e "' o 21 ($ j 7 Ast s 7@ q , <sh -f ' 3 I151 SW

r. N w,

k, U

i. j M -

3 CLE A R'A NC E ' R EQ'O OUTLET-)[-- - 5 . N

FOR SERVICING.

h N XM Ik 5 . i " -h F - INLET a ,.. 3 3- ,$= .py x > i c ,,,, f / 'q PIPE SIZE MODEL NO. PART:NC- / ka" NPT B45696-1 1616 2 4 : 1_. u s /N " +4 N PT- B45696-2 1616 2 5  % --- I k~ - l {~-- - g CARDOX SELECTOR VALVE - MASTER TYPEJ [Dl}{WWI[ fire extinguishing equipment... O, l . a \ PEMALE RPE THREAD MALE APE THREAD n n H >  ; I o , o u, J LJ , L!  ;  ; "B" ]  : "A "  ; 1 SIZE *A' "B"' PART NO. h~ 3k~ l9 63 ~ 1612 37 , 7  ? k[ 4 Y[ t/8 161238: I" 5" 2Yd- I61230 Ikd 5 467 "i 2%" 212M: I 3 ;3" I Id .6d 1612 41 CARDOX , CHECK VALVE O . MDA $11@$ ; fife eatinguiShing equipment... . . h' - - u q. . , ,,7 .-j "-- 7 6 s / / *- a d k /& I " s $-@ N ,  ?  %( .h $ i U (n ,. INSTALLED IN CYLINDER MANIFOLD TO VENT ACCIDcNTAL LEAKAGE TMACUOM CMECK vALvr wHiCH Mien? ScT OFr REScRVE CYLINDERS, CLOSES IF SYSTEM 98 DIS = CHAR $tD NORMALLY WHEN MANSFOLD PRcSSURE REACHES APPROXIMATELY 20 PSI. CARDOX g BLEEDER VALVE ' PART NO.-161573 b fire extingelshing-. equipment. . . O kHEXe 1 NM i I 4 j NUT -561625 . o l SAFETY DISC .- 561624 h ' yg WASHER -561623 (- \ BODY-5712 79 '2 =$3 j )4__apg j, N. P. T. q p REF. BURSTING PRESSURE 2650 TO 3000 P.S.I. l 4 CARDOX ' FRANGIBLE DISC RELIEF VALVE. ASSEMBLY PART NO.3786 O wooc' ^4is*7 .s AA%=% fire extinguishing- equipment.. . LOAD AX.- ls' j'* 'lk - #[ , q 8/ fe DI A. - T.* DIAS I I C lN , , , , , , , , , , , , I _, _ _ , , _ ,) _ i i .;, 'Ol8CIARGEl l' i! , n v -. / , , . qW %h{c- ' ~ I\~, {\ ' ' s f E d[ -  ! / ji 'I - i i d ' Q - e i i i er -- ,; l ~ -.--e .,' g. ~ ~ - C - -- .f - - . . -D , o RELEASE ~ =- 1*-- k SUPPORT F g N. P. T. , s . m f 3 _ ,y lh.. < %. ~ fdWipt" d- ,i N3 ' // "h 3,- X . r "smi!L.__JL M(-gA.g ME / " 2% v - -- .y l'/4 CATCM RELEASED BY ' , DIM M m m .Q , , , u RELEASE MODEL- PART A B C D E' "#I* 8# '"""i F SIZE NO. - NO. LOAD J NO. NO. itals : 2'Faa I k4 8 I1 8 '/a FA-alets /is - IYsa /le .as L as. A4seao sas74e. 8 8 7 l FA*Rl938 leale' 3 'k38 Ik4 1 8 1 k38 /33 100 L88. A 48631 539780 I', CARDOX Raviaad 1 62 PRESSURE RELE ASE L .. d$N4fM. firo Ostinguishing; oquipmOnt. 4-O PROVIDE UNION FOR 3 WITCH MAINTENANCE t' S ) N.P. T. OR 3h-h N.RT. PRESSURE CONNECTION t  ;'/ l )CONDUI 3 3!!!!!

P %

k ,y CONNECTIC en a sen en a% MGua 'in. .p , e}}sg, ~%u.  ? O- $wsCAGO VSA d ' E I , s , . L, I s: O 3 g c::s fCONDUlT  ; 45 _ - CONNECTION - NORMAL POSITION L - OPERATED POSITION . \ CARDOX  ! 4 POLE WEATHERPROOF PRESSURE SWITCH (two a pole:slNGLE THROW SWNCHES) I NORMAL POSITION - 2 N.O. AND 2 N.C. CONTACTS ALTERNATE POSITION I 4 N.O.CONTACTSlPtELO ARRANGEMENTS ALTERNATE POSITION 2- 4 N.C. CONTACTS / PART NO. 18765 MODEL NO. -41644 . . . .: ..w a u... i i '.-Q',hl'{O. fire extinguishing equipment. . . h.N.CONNECTION P.T. PRESSung fCONOUlf CO#6CTl0N $.I i , MODEL & RATING ~" . n DESIGNATION 4 l l NAMEPLATE F @ k $ <h h _ ( i j.: s e 3 i 4 1 Et 6 '. :r -- - 7 l T O s .i s O C i +w 't JMl l {L 1) I fco" ='t = cTion m_J.______!_... frata- } $-l .......,:.......... 3 .n < t a '. , N'.,>f<' go. . .: . e a. e  : ' ,,s 1 , . f. . . .:t . . l' D d ,, = .g = I CARDOX 4 POLE EXPLOSIONPROOF PRESSURE SWITCH (Two a POLE SINGLE THROW SWITCHES) NORMAL POSITION - 2 N.O. AND 2 N.C. CONTACTS hj  ! ALTERNATE POSITION I - 4 N.O. CONTACTS FIELD ARRANGEMENTS ' ALTERNATE POSITION 2- 4 N.C. CONTACTS PART NO. - l1769 L - - _ . . . _ _ MODEL NO. - C 42059 'tesm,oix , . _ firO Oxt.ing uishin9 OquipmOnt. . .- i [N.P.T. P91 ESSURE f CONOUlf CONNECTION 0- CONNECTION n uoost a RATINo N / _I hhoh @ l_ _( ,N / \ /z, :ga .Y r T 6 s . .o bt, ;':  ! . 1 . p @ (  ! t r Jal l t1 11  ! H, ,- M. . , o " Noresah N 6 W- . _"_"_9_ _*_" ' o ., d CONOUlT CONNECTION - g*TRAvst!l 4 ._u

G,,'.g----.... 3 a so: ; - >

ib ,. . . . . . r Nf, .s , j r e- . i i l o = = 3h' + CARDOX  ! 2 POLE EXPLOSIONPROOF PRESSURE SWITCH (a pots slNGLE THROW SWITCH) { NORMAL POSITION - 2 N.C. CONTACTS ALTERNATE POSITION - 2 N.O.-CONTACTS FIELD ARRAN',EMENT PART NO. - 11770 MODEL NO..- C 42068-PLATE No. 59 B ' [( s. 1%T6I fire extinguishing equipment.. .- I a flL______ _ _ _ _ _ _ _ .w g a l l i lh ~~~ E 1 Ag , INLET- --- , lk. i ;_ _ _ _o x OUTLET m U I ._ __ _ _ ____-._---_! $10CERDA81TS ARE- FACTOR) SFF FOR 15 SECONDS DELAY [h OlA. 2 MTG.HCLES TO INCREASE-TIME DELAY, SCREW NEEDL8 IN'. To 'Je,o?L ,,, ,,,,l l DECREASE TIME DELAY, i n i i s ,m sw=_, ._ .. L, RACE MERDLE out, - - - - - - - LIMITS OF'ABJUSTMENT I , .- - - - - - -T_+ 5 880016D8 MINI W M 90 0 I - te M lh 11 seconos mAgnem. FoRu OTRRR~88TTINGS LESS THAN 11 5 88CONDS OR GREATER - ll Il  ! l - T9%1190 88c0508. ColtsVLT 'p 18 1/ l i - l'l FACTORY REPRB8ElrTATI .-- 11 i ' LOCKNUT 18 Ig: It l ] i @ l . l, i l 11 II [ -t-NEEDLE ADJUSTING SCRED I , , I I' jgg i 8  ;; lI ,- O i:  ! [cmeo.= ;l g, N. P. T.'- Il  ! OUTLET TC I I l1 I /-- PILOT CDER A"'El I l , ll /' D I S C.H A R G E - E C \ I- - j_- m--/ 2f, li i , e g ,.. "Qe . en g N R T. , INLET FROM 9 4 @ __ ' @ 3lj> l 33 ACTUATCR VALVi~ 0 n. - - -. . m. e. 3 m " - ${.- 7{ = CARDOX DISCHARGE DELAY AUTOMATIC' MECHANICAL TIMER

  • WITHOUT COVER MODEL NO.C4!5881 PART NO.llOISS e . iwi <- atran.1 54MIT NCLLIOl88____

- [' NkN b flFO OXtinguishing oquipmOnt... - O fN RT. TO ACCUMULATOR \ -Y . s\s' /, ','s - ss i \N 2s

s NN

\ ') sN  ! ' ' D kN s \i h -l, -- V4' N.R T. OU TLET '2 MT OLES , l p - d 5 ed ') t v $,

s. / / /_

~ = l x=f N.R T. INLET' ' . j CARDOX 5 . DISCHARGE DELAY VALVE =- PART NO.-31097 g MODEL NO.-841793 7e =-; - i Revised 2-61 PLATE NO. H - 61 = I t ggggg............................ - c /g I  ; - o a ^ \-

Il ll-1I II I-i Ii iI 3 11 ,

W M IST4 S.' [ arocx uo. s o s 4 s9f'  ;\ ,. .t . > A ~A r .i s .& 3 ' i._ i ~l ' ' ostipi ea P's f rsw e_. l'{ee ' i STOCK Ne'.'~ l 3 7 4 4 $"# -i POR HIGN PRES $URS SYSTBM S 'E ' 'C ~~' '" &Teck NO 137444 *  ; froR L.oW PRESJU A8 3rST8MS . o u , . Yg" N. R T '  % BE mouMTED IN VERTit,Mt POSITr ot4 08 REC,TLY RGOVE HOR t E ONYs M L SuPOGY P196 ~TO R5'$uRE VR POR OtsCH M MGS . CO,t WHISTLE ASSEMBLY $

  • PROPER ORLFICE MUST BE CROERED FOR. CORREC.T PRESSURE REqutREMENTS t..w 3.a Pt. ATE NO. S 62 A ( * (" -

/ ..- . .. dA $4.0 he firO Oxtinguishing: OquipmOnt.o. mfA ] E =y r " O 11 t'a'a-ame i s #rensa # 8'., e' 'i, Ii i

c. 1 Ng. i l

/fi 4 - hto Da V g ~ _3 _ _ .. A.?l  ; .l M Y 4 M*L88 p& , lQ'- . (g* *[. , . - L s{**% '\ i 9 ,,; -.. l uana _ ~ t d men.and.1 . 7,"  ; ::; r- - - t I~ p4pq ~~. A*^* ***L ' l . .Q . jat.g.cc.saria.nn l I ,,_0*?"*'** 'f ., ,, J t'B ee M ort !) i f i s \ a n' y ) - a a 0 O ,,,,g qpus u n e A Pfam e radbeacaer.. V- $ 4 d F5 V, I r ' r r 1' 2 3 ;y, ,, s_ . . . . __ f_ , C- o .. Es_ ( AIPA NOTES: ' k x * * */**.***- I. Morea ro Joe Ceawsus teeenawar ->= ~ **,. Luer von Hesseeen, $reer Nes; I u- o.- . . ma n_ . . ., ~< s. ie o.-~.. . ~ a s. v (, > p,p,,,, y,us To Beor Jee 'Couerrma. Sensner '#*'"""**'*'**"*' Be onrenenensse reeBearNosoo - s n ...

4. e..  %,.... ... r. P. .e .

o  % ,.oe,<~ .u, 9 - == M. k -. J.,wd f= .. T , O TYPICAL HOSEREEL MOUNTING DETAIL PLATE NO. H-64 '"'*' ~ [hA0fs>K vire extinsvishing equipment. . . , SUPPLY MRADER *C" x} N f~ e&^t . OPERA TING - (~,, jf" JN6TMVCT/0NC l ~ D/MEM. ~ \ s u UN/0# L .) a 4 6 i \ \ ry r ' \ DiqtM. m ~ , - s\ q f M038 l MANJIL/MR Mn  %%  % [M7144YORoss35cfM k ' (381Merf1) i t '~T I N .kl al EN. . u S$ a < m i k i i y" N ' N %HANDLINK  % " BACK PLATE I I < =  ? \ " kl r- } uu 2-). M% MCLES k\ l i i k NNNNNNNNNANNNNANNNNNNNNNNN' \\\\\\\\\\\\' m_ FLeeK. AKM PLATE ,e. D . D D gg smM ROSE RACE SIZE . 1. maw Refer to Job Drming Equipment g . List for Rose Rack Stock Mos.. 50 Ft. 1/2" Bose * #f= 8 Dr ming Nos., etc. 75 Ft.1/2" Rose 44f= ggy gg7g

2. Insta11stica Dimensions may be 50 Ft. 3/4" Rose \~ l 100 Ft.1/2" Bose a 40C4 WA8#8#

Varied to Suit Job Conditions.

3. Required Mounting Bolts to be 75 Ft. 3/4" hoe 43[.

supplied by Installer. 100 Pt. 3/4" Bose

h. /3 No88 ####O#T#-

-4 m yg7fgg agygit-TYPICAL HOSE RACK MOUNTING DETAIL e- - ",&,) N C gir. extinguishing equipment e e e _ H 70 MICHANICAL AND OLSCTRICAL INSTALLAfl0N SPICIPICAfl0NS , l HION PRES $URS CARSON DIOXIDE SYSTEMS em 3. einshe,s pipass, l ' A. These esselflendere earnein minimum reeveremoms for in. A. Pipe ehen he golveniend essel. emiling Cordem Syesoms and shall govern enespe where reevironense of e spesifts let spedfleenen are mero riyd and sehe preendonen-Subosonderds mesonal and wortenenship shell be seuse for reinspen L Sions 4" and smeller shell be Sehedule ac.'- l by Cordem of tie ineseliseen end the lasselieteen Conwesser, here, ineher enlied "eenweemr," shell repless and/or reinemil as soeused ' C h I and W M be M 30, to meet Cordes seendeeds et his own esponse end w#han deley. A meserteis eheel be new and of me highese pods, free hem - defesa and imperfeenene. they ehen he produas of ressyness repusente manufsensors.

3. Somwed pipe fleslags, C werhmenship eheil be in esmordense with she hees modern econderd praelem A. Pipe Retings shall be A r  !

D. Dressings and speelfleeseens genereely idenWfy work to be ,L Whom Ishouluie 40 pipe is speerned, AeHass eheti he 150 done but n is she mesenmeheimy of me eennesser = vissT Tis psed seems meilmente iren hended, ace pound eses. maii.ohie . PSOSCT 8:15 and aequaine hannoif wNh been job and werhing hen er 300 pound duselle hen. 1 senatolene. Jeb drowings shour aAseHhunen piping in sehemsele and theelere em not nosesser#y emese, langeh and neveing mey have se he verted somewhee se ause lab sendinens, maior devisitens, C Where Sehesluis to pipe through 2" elas le esecif.ed, ferige - however, shell be repened hofem instonemen e Certies . Cheeses. ehell be 300 peeds seem maileetie tren er 1000 povna aucule iron. Bronsh piping and neede leeseen, in pontauter, are enwomely artelsel.

p. where pipe larger than' 3" is opeofied, Reviage est be <

atEO pound forged enol'- E. Duede iron feselags shall be Kuhns tres. Company menu. feense whh the idensefying merk 080 - NO EXCarfloses. -

1. teasess tesh, Mempeld and estadese, i

A. Seerage seek pens se headstad ter ensembly en the lsh. 4, g,g,,,,,,g pg insmil en a losof heni'surfume is e ~ aby lessNon whee the ~ seaweemding air soapsense remake whldn the eenge of $3'r to 130*p. A. Undaryound pipes shall be ashedule to selvenia.d for eel stone. .. L The cylinser mentfeld sheE he seashed a eengles with 'V' helm. . L pipe jointe shall he teseed for laske et 700 pel hofere pre. - vesneue ennemien esseng ls appued, c Cyandere em shipped eherged enh eshen stamide, hamn in reek and esemp in piens. Connen ayundere = manifend whh C Undarysund piping ehen he geven ewe ,mmmene e# pies q Carden flemable eennessors. PRet sylinders are in No. 3 and No. 3 asseing and appel wraps,ef hurles and then e Anel cover of pipe pushion frun deed end of manifold, seeming. hav. didt CM Peen 1 s Transh espeh ehen be 3 hue below freet line, wh.shouer D. Pipe lines theil noe he used to eisport seer pipe asen. D. _ 8"8" E. Pipe Suppers ehell be Insened to eveisi inserterense one asher poing, eenouns, swuerwes and sedenene. F. meedmum spesing of suppers is es fanswe.

5. Dise and Bosweet Pechen. Nominal Pipe Blas, in.  % % % 1 lu 1% 8 an asa a== Spen, ft. 8 8 6 7- 6 9 le 11 A. inesell beyond less tehoeN ed essei meen hasder and eel >
9. Cassed asides and fMage.

B. Poehen eheutd he essessinessey 18 tadme long. Whose A- Tutsag shall he %" enh capper wish .868" well. . esverm sensitiene we - _ 4 shwier peden may be used. , , " * *

  • essa #eeings ehen be used in easiens noneouy under eennnuous spueouse.

C. Tuldng shell be fewmed w6th a tubing hender.1- Ce tulping ends equese end reem.' Asemedde wHh true einenment to the eenior g 9m Inne of Aestage, w these diesenten or sension. E 88888" '6ng wWh weeps er breshem e prevea' eaggine, A. Redusten ohell se made with reduning flotings of sho name tenne essened in 4 ebove. M)ucipeG tuto#8ee8 SetALL NOT 88 M Ilk h fehlag eed flulege. A. Tubene eheit he %* esse esaper wah .oso" won.

7. Flpe Gemeesh
8. : flesheen 'ehell be brees benened fless type.

A. Piping 14wough typeal bdhBag melb, penhlom, fleer elsha, C. Tuging onell run in W" thin well conduit, wish 4" lunanon rest siebe, een eheel be run shnsugh elosses ed Schedule de pipe .; et leem two eiese larger men pipe teing nm and noe emener tien of habing laina ' ' 1 Insh. . O. Supperi eendute wish serops or tweeben to prevene soggno

8. aleeves ehen be pedied weeh eshmen and sophehusa er aquel

" " ***""""'"""** # 11. Vetees, Paeseen Swisebes and Seases meneel toiseses. A. inweeded volves, such as seioseer, shoek, ehmile' and pelee vehos, ead pseenwe ewisehee, when insielled in rigid pipe lines, aholl have e un.en ' thovmetream from As oeuipment to D. Sisevos through roof siehe ehell entend above reist 4 to 10 feelnese inopoenon..espeer er soplacement inshes end eheel be fleshed in esserdents wish head bu61 ding esguis-e6 ens. B. Velves shell he lesselled to ghe suffteient room for empen eien of edleinmg piping end for sepair or somewel w6thout inter. foreng whh enosher volve er pipe.

8. Pipe Stoogers eed Suppseen.
18. lesemee.

A. P6pe supperie and pene eheit be of essel. Conduit, beam A. Som neenies through Code 8 have W IPT fosasie son-and "C" siemps shell noe he vansk noselens largee e.see we %". Code 6 and emeHar have inlet streen-ese. 8 hens see 4" or 8%" 8.D.

8. Piping eheil be echtsved to rigid membert, such as wells, 8" **** "8"N** ** I'**"*d d'esterge
  • rough senk. Wh se6 Hag and eelwnns, to present long6,wMnel er leserei swey. Dimmie or elves wells, the emnerossor eheel eut openings se fit Cardon m ehen be W M mounetag fienge.

C. Hengere and supporm ehen he es rugged denipi and shell C. or+ce naasten have w" lPT meio eennee ons whees in. .in...d. .sywu,_ _ _ e.de.gnweHe _ . ee _. _. supported pipe. . hell eut econings to fit Cerden mounting fienges. Pege 2 't I 1 -) J O. NesWe sim, leashen and posinen sho41 he esseWy se shown G. Flas and tubing sheit he sneened therevehiy en ee omt.ed. en leh W pull wiro Aue brah evoegh pipe long* esverei tenen; Pvil cieen . , seem rege (not buriep or einwlerk weesed with seedderte soevene er . seuel, through pape ionent Cut asewone wim $0g eseten eere. chiere when working in honoresue lesedene. 90 NOT UM IN - CLOMD GPAGS wifMOUT A000WATI VDiftlAfl0N.

18. peesses tdeem The preenwo colosses only ese supphed by Carden. All herd. ~

le Sepennies Joisse, woro and other eewsoment invei=ed in the reisees funct6on shell he provided by e*em uniene spesefnee66y timed en me leh erewing. A. ConwesNon eeused by a mesimum wmeeretvre change is bened en 1" per 100 for of eseel pipe. Taking up this centract.en i reevices e ieint that permite p.se movement, , Ofson, es port of the ' I nesvrel leyewt of eyesem, e swing loint sen serve to g;ve the mesires

l. fk'hility, in oweight runs en eepension leine shell be instelted '

g p,een,,,e m en the besie of one ofier appreannewly 100 feet of sentinw v. run and eher espresameseiy 100 feet of twn shoreefter, + i Cardes eyesem sempenense normally seguise ne pressellve guards. Sush ensieuwen, when encubed, ehed be provided by echen, wiloso spesassier assed en she leh drowingw ( 17. ItsW gnidio T t

18. WestussesMy and Fehstesses by Ceemesar. A. Tessing eheil be in esserdenes wt* inswusmene in P!ve No. N.73, psefusehty under the superwinen of a Cardes field ,

engineer,  ; A. The emmessor eheu provide she assessary seele, equipmene end menriele mee we ellow hisi se eiere work prompsey and se eso, s. Field.insiested tubing end pipe linee eheil to d;esennee,od: piees she inneentenen whhout deley in eenfermenes wteh *ene . from enviament and lines blown steen before ises we oversed. y spesdenders.

c. Connes evhing, fi,ange, veeven, and emer sempenonie unser -
8. All anseherpo piping bronshes shou be sehen freni che honor er side of header piping for hoseer hquad CDs fleu.

D. Deseherge piping and lainee ehen he sensed et 700 poi. C. seemed pigene end flamige ehes luus eines eue and fun , inngsh desses, s. an orists asher men Coe han noe he med for menne. . t sessee weih wetecen penniesion of CARDON DMSION Of CMBAWmON C090 RATION, 440 Nenh anishigan Avenia Chieses, Illine,e 40611. O. asewed she laines shed be passed wish Tenen sepe, "glypsel er aquel lubsteseh

s. As weided leann, who,e used, ehen paren he flew. mee IO' N '

weld fleeinge ese not assepahia. NO Ogl& RINGS petuffs. , \ 5 peinung of meshenied esmponenie, when reevired, eheit he :n

f. piping and tubing shell be seemed free of hurs and ridges. essordenes wth leh speemanNone. ~j e

l i 1  ? , . . . . , . . . - . <,.aw 4,y- , ..,---,9--,,,--y., p, ,. , , _ , + ABCmCM E *==eena. ... - . - ,p.  :- - .m.we. spoom g _n, en. e.pn.n ~i - In -m , ,me d .m e.se . _ end _ , ,e .. and  ! me Nonenel fleserei Case end Lessi C4de mouweinense. Any ah H be fwnished by eenireew. Mount en fim eeuwe wim %" sanfl.eie hoeween somes theil be miened a Cordes% hr g. ,,,g,g g,,g ,,,,, ) inserpresenem ) C. touteeineaveof immessee - news en Creuseetnes CPS I osi e for penn so Conduise e Appiemn eineme esos neh Covers for tpOS Penn 30 Unileen. 306 Ceeden,

0. Seedser er temp ledser lametselen - Weemorproof fimage theil be rigid. est men weil type, shool be used, even as Creuseeiines GA series - Fenn 20 hwh ,

Covere.

31. Wtteen wt,e sias ehell be no aneller then 14 Awth Innvieteen eheil 34. Tees d M M he su6tehel for 600 vehe end shall be in esserdense wi#i ArWeio a 310 of me Neuenal liesmael Code. Canneenene ehelt he tweemd The wiring for eseh hemard of Wu Carden nyesem ehell have seieeres end insulesed with pleetis oiseIHeel tops. e m m e gmund ei seven 9) megehens anel the ensem symem ehele have noe less than ene 0) megehm sosteense se i

i

22. power topply.

/ A. The power supply ter the Cerden eyesem elesHeel eennele 28. potesing. shell be from a relish 6e seure noe suhteet e incorruptom Condule, homen, or eiher eiseriesi oppuneneness or stress. B. The power supply shall be proseced e6*er by fun his hengere er supports thereof, sher not he painied, unione spoof'edy netwy swimh w aired, meester eigened by samreser. some asherwise. c m x x ,,,,,,.._ ,..,.....,... ..e _ e e _ . . . _ ..p...,,.. 9 Pope 4 k ~ - , - , . , , - - . - . - . .. . i L j s 1 -i s ' 9 N N hel fire extinguishing equipmente o e H 72 INSTALLAfl0N, INSP9CTION AND 788T INSTRUCTIONS HION PRESSURE CARSON DIOXIDE SYSTEM 8 , inestAnatioes s. Mount owi.shing nive end d;esher, stay and .enn.c with %*' ppe to evtiet of ecceter nive and any enu, tie volves + indiested. 980lIRAL - Corsion i,yetems shell be insteined in esordenes with good modern practies for handling pressure poing and emer. gency type of eleerteel ersvien. since fire protection eyotems must 6. Install full ~ control cylinser in control an.or and stort withetend entreme senditions that may elemege seher equipment end PR$$$Utl RSC888 TON TEST. piping, some esmmen psestiene for instelling ordinary untleios may [- he inealoguese. Aesordingly, minimum stenderde are set forth in I let;, drowings and Instellation specfietions (M 70h PerHeu!*r emphe- 7. Whus eenered eemeu le ender test == complem incolet4a but -. i sie is piend on *e need for sleen pipng and tubing" 4. ele est eenness plot sylinder deunerge heces to cyunsers, > l b. de est energies eleser6 eel circuite. tampostion end feet Precedwes Indieses a the lasselleden Can, trecer what needs to be alone to oeswo reliehle performones of , *e mesm. sinse he is reopensibie for secreenne feuite of inemise. s. Atene Pasasuas neCassioN TIST .- onergem any electrial - tien, it will sove time end empenes for all eeneerfied if he performs . circuits and inopost system for proper operation of controis one prellatinery teses. dieshorge deley timing, following innescon and feet Preendures.

9. Perward Pleid Test Report No. 4 HP to Carde Devleien of Chemonen Carperchen,640 Nenh Medingen Avenue. Chiesgo. Illinois 60611, ATTENTION: Pise leprepnent. If teller le eeher then Corden,

,g suen, as e distribuser, forweed report to teller. - Seller, Carees or eeher, shall w,enge for final inspearien and report u necouery. (aefer to leb drowing for mferense to inuswedens of laevidual 1 06 Clean work ein.

1. Assemble seerop red en ein. Seit fmeesendng gr4 Meet

= fleer wt* hrases. neinne so won is preserehte for reemimum rigidity, in which eene fleer broens are not needed. IfestCfNielAIS tWTD N

2. Messw 4" seneral piping sleeudi helse in tesh uprighn, tesem ehweis nin (or me) for wheeff of suumenen hit hees a pilot sylindere in Ne6 2 and No. 3 peeldens in reek, seening et end OSIERAL - Cerden high preenwe enthon diemide fire eatinguish.

of manifold forehest from eteer. lag syneems are "PEAPORMANCE4NoiNGERED" e high stenderds, it le enesanel that the lastelletten and funenen 'he inegoced to esswo sempliense with leb strowings and instellation spoofications.

3. Mount eensel achinst en uprtWet et side best suimd to. A espy of leb drewiege east be merhed efter the eyesen le oesepeed inceuenen, heertag in mind eesseeiheesty and esansenen = eiserts to indesse seepnesse' = devaesies and ' forward prompny . to power supply, peesure switches, elsewte eierme, see. Per multiple Carden - Chience wish lees TEIT Apogf NO. 4 HP se essablieh hemord miem, meum admetenal savesar vaives eless to ehlast. ehe geeresses e# she eyesen,

.Nese that "eveemens' senwei preenwee nerneally conneen inte one

  • end of %" pipe in reek, "remsee" inse the appesNe end, and are

!' sepereced by e enhie ehed, er ehunto nem g, og,,,, ,,,,,,e apprent hefere sterung final esseptones L inet 'and est time for met se shot eheerwere will have adequem Mewe eusemens emisses veaves esseefvies er seiensie 4. eisse = eenwei songer and eennae = emuseer veeve weih %" (.0es". wein esser subsag and weseherhead EMTC sortes eso amm Adha'*

  • le'el leh*' *ad ****i'Y '******"*-

f pressica #nenge. 3-cl Pege I ...__..__._.__;..._.,.____...._..._..a_,.-.._.,,_, Itl

8. A% elevien leshe how been oHaineed, record tempere-

- 3. . kronge let sylinder reche'ses 4 he '**duf e'e'lebie efter sure, hme end low preeowe gewge readings in the table butiow.

seet, Does fines Preewre Temp 'P
4. Ched weight of oil eylindere. wNdt swee be twiIV dieTod before techng-
5. Alweye dissonnese oil pelee cylineer dieshorge heads betere seen to prevent diesherge.

PM86UM RBC88840N.- Aviomatis reisene of the eyesem de' Chenp (P  % P~ . pende en having sentrol pressure available when needed. fles control eyotem must be oliseiwooly tight from the senteel eyilader Enser elopeed time (T) and drop in low presswre gewge reed ng to the roleses volve. A selewleted leekage rete of about one pewng LP) in field Report No. 4 HP and saiswleve Annual Leekege Reis (aj per yeer is ceneidered tight. Higher retoe indiceve leehe wNem by she fermwie V a P as (b /yr., where -(V) is must be elinunesod. 80 a T volume in. eu in, wader conse6 avows preenwe. Use a volume of 30 fur one hoserd eyeesse. Add 10 for eneh additional hoserd. The *'ai""'" #8e '# he8's 18' **"n0 P#w's ressensen h dowminee ' Seek e#f preenwre regwieter edivenne serow until loose. 1. by divMling V by 4. Por teamples - il V is 20, the test shed be run for et lease 8 howro, during wMah time the low pressure gewge reeding moy drop no more then 8. If the insteiler follows instrws. hone to eart seen before compienng the instellation, teste con

2. Conneet tvil control eylinder, veine ese fiber genhee, coen be run 34 house er longer. The longer the test the higher the end then close volve ugheep. #

dogme of acauresy. Long tesse are portMwlerly importent if the : room temperetwo riese, eines warming of the system will reise the preenwe end tend to hide emell leeks.

3. Observe preenwo gewges. Law endo showid show no preesises -

high side showid remain eenstone, g. After test, estweee sentrol syssem to empey. Reest release velve, re9 pen sentros cylinder volve end edivet regwleter to 3M to reteofo evolem. De lese Beek Off Regelater Oseateif Tera.

4. Re open cylinder velve. There shewid be no inersees en high preesvre gewge.

NOTBs it is normel for eenerol systems with estweser velres se go throwgle e eyele while the ayesem is being prenewtand, iwot se if the eveemmets release velve had opened. The hissing sound will esop when the goe in the eetweting syevem, instuding any oie

5. Adiust regwieter to 300 en new preesvre gauges then back eherge deley timer, hoe beesi enhausted. De not regeet toen wnha off eerow ons>heif turn.

oil hiseing hee esegped.

6. Close cyhneer veive sghWys week union icent want hish aAmoemas - This ayuem sensies sessanelly of holiow buite pressure gewge reeds aero end rengheen vnion leise. (HAD) eennemed through - Mash tubias to e diophregooperated reisese meshenism. Air in the MAD empends when heeted and 4 -

compenseein0 vent in the line pernwes "breetNng" of preenwre eve a to normal tempereture ehengen. A rapid preeevre inereses due to

7. Allow system to siend for obows one hour to reach reem ebnormai someerstwre rise onesede- the cepeety of the vont end temperetvre. Chosk pressure gewgen periodiestly. A rios abore seveen the dison'regm to entend and trip the release. When trie

-300 may be due to warming of the system, wWeh to normel. A - heet sovrees le removed the HAD cools and the reiosee sen be reset preesure drop indiestes to grome leek. If the Ngh side shows en- enenwelly. The vont reting to stemped on the vent proper and on inereene elong with e drop on the low side, shoek for leeks on the soleses nemeplete, it Indiessee the number of eesonde for e . Iow side wNeh are eeweing regwleter to egen to sneet demand. An 1.lach water coiwan in a g* n_ _ to drop in relieving e . increees en the Ngh side only ladientes that the cylinder velve le veewwn. The trip preeevre setting is fecery stemped en the reteeee not clooeel tightly. (Detection of email leehe require skill. lost nameplete er, in a enerewry check, is indiestoe by stomp or tog selwHene mwee be sleen Minwee leeks mey be leseted with e G E. applied by the insteller.- for esempio, e merking of 2" ~5 Henegen Leek Deesmer.) signiflee a pressure of 2 lashes of v,eter and a No. 3 vent. When Page 2 morewy shoebe are used, the 44 ease proper muelty hos a redag of ~ ARMOTE 84ANUAL STATIOed - Greek east wim and pkn pa W" - a0, the most eenest ve, and the sheek le edimend to set leb Dessees lever for show 3 eessade to prenownee and actweio paet p 'sendnene se desermined by thennemeser end . m osen. The seblog - 6eshe.go head resen, then reiseen lever and replees pn. a iee ( eyeeses seat be el@ to aske she eyeses west. _ plot eesherge head pissene by thenh prenewe eher ec,veeien. Teer eseh eseelen, if eyesem senseme seissier volves, refw ,e i B& ACTOR VMVE secas. Tees warene insiudas s' 9" and en 18" menemoser, rubber ~ tubing, mercury and en elemsteel test ase. A sense nor of het (175 to 200'P) weser le used in sembuenbie enneophoren, instructione SupWSOEy MAANL - The owservisory preenere swiich in the for use and seet are poched with seeh . - _ _ _ . senwel senter hos egen eensesse hoeween 278 end 375 pet The low eide le sie imponene ans, toduas eenwel greenwe_ by sleseng - . sylinder velve end estwaving eveemeer reiseees the ovesevies,y e.gmei showed give en eierm. stigher crosswo is steeined by eigh en.ng ene  ! Tighteses - Use wesense east esiedied en It"; x _ _ _. Reies regveseer euew. team reguieser so 300 oni. weser level in right solumn se ebeein a efferenes of above g" la j the two solumns. . Afier en laiul alrep se shout 4" 6Heronse, j water level showid remesa senseene for one minwie. l DISC 84A808 geLAy'flam - The time cycle se esivoied bv e screw on the sees of the needle volve. The leek nei m stu be tigme -- 4 se prevent ehefting. The te6 eses velve esivet remain esen t o e ge, . Pressene Aselage = Use pressure seet mothed en 9" menemoeor. men the ' deiey poned. Shewld me old close owe ve 'cosi,eg es. Maaimum diNerones in weser love! in the two columns when the 8"*** 'W8h '8 '*8'"' **""b '"' h'*'*9 CYC'e ' mH sion reisees snpo le the rolenes reting. The meownwn effemnee when end me rimer wW bleed down meewgh me eahouse of me actue,or she weser iewei flunare 6e she reng of a moreury eresh. '*8'*- ' The time sveis le esMmed by e neede ulwf Lessen ledewe.  ! Ceepeesseleg Veses - These are est et the fecsery and should 1 Turn esaw eleekwise so inereses eleiev, souncer eleshwies to de-noe he ediussesL If a reting shoek le desired, mmeve went for creses. 8:erving wish neede siemed, open 1% tweno for euout 15 seat. Ues f" menemoser and veeuwm - sees. Cleek number of M 1 turn for atow 30 eseensle. Tighese leakeue ofeer seek essende for a I" selwnn to alrep, unsag I" else in mesel elida es e enseing. Assumuleser must no empned bedere regeering e ioet. g i guede. Plass sep of elido es weser level. Seert tunsas when weser . There le a sepped see en the assumuieser inlets lessening the cap l l level fwee espears in else, will empsy me assumuleser quisidy. The ces met he en sigat for  :! . g proper funemen. Tag Heer with final aseng and repseen cover. ' Assuadee - Connese twhing to Meese. Apply' heet to HAD to ~ y wip reisese end eenwel preeswo will - deprese piesen in ploe SWITCMitte VA&VE a This device trene8ere eviomatic contros 2 , ellesherge heesL The reisees will telp efter above 10 se 40 aseende preenwe huween " Mein" enal "teserve" henk pim emnerse meece. , l' when e heet lamp le used 2 to 10 assensk w6en the MAD is Test in bosh posistens when shoeking eviomatic rolesees. Only one ~I submerged in het weser. If eyesem inalvens disaharge eleiey, pissen est of pilsie psetens will be elepressed if connese6ene are 'mede ee  ! will be elepressed et the end of e6 ming poned. After pissen hee proper perte of weaves.. Genom port is open enhowet - se not blockt - 1 heen depressed, elene eenerei sylinder weeve to senserve gas. Welt eheut 8 minvees for MAD to seal, shon seest volesse, esepen i sonwel sylinder voivo end tese noot HAD. Reise pilot dieshogs heed pionne by musiib pressum diw eseh h - H eyoum inew BM VMVO - Eahouse from a bisoder velve when the einer edesw volves, mfw a 88& ACTOR VMVE Tm d' 'I ** 'Y"8 **"' fold Le pronounaed indicesse that ' ore.gn meserial is prevensing tight eiesing of the sheek velve. nemove , and einen sheek. A elight discharge through a bioeder volve uneler y prenewe le nonr.si. Reassolue ellesherge may be owed by dire in El8C1BC TMaf5 - Test appareme sensiste of a heet We he61 ease. temove end steen.  ! leep, iron, heat hiseer, er pen of weser er high flesh peine liquid hessed to et lease WP shove the tempereews reting of the  ; mennessee. The nenneNyepen thennesse eveheh, siening when NOIBas - Evwy nessie is seamped with en ieenedying Coos heemd to mmpetensee, will egen a estensiefgperend misese volve Nwnbar. In addelen, she horn sias of opet: nessies is esempee . i . And eerusse the eyesem by eeusing dopseenien of the piesen in the - " Inn me ehWL Cheek ideseflamien and psien against Wh drewings pilot diesherge hoseL '. If there le e d~esherge deley, eenfinue heet . THEtt SMALL BE NO DEVlATIONSI 3per nessies have uses dnlied appliession for et lease 15 eessado er the syseem mer meet swee. leis which must he unehetrussed. . Cede Numbers e and semeller madeally before me end of se mening eyein. De noe use open heve inise sereiners. Remove neesies from pipe to inspect and cleen flames er hoe trene and esile in esmbushbie atmospheres. Test - ,,,;,,, eesh thennesset in eseh hasard for operation. toise pilot ellesherge heed pimene by Aweb preenwo efter eash reisene. SBBCTO"E VA&VEB - These wehree are pressureeeeremd through e PtLOT CONTROL., They open when the pilot contrei esmre I;ae $decela DETEC108 - Eeter so Cardes publiessten C 330. presswo so the piesen ehember end close when cylinesere are empty. Page 3 agCggants

The pilot eenwel is essweted by eermel panese fien emesneste and renwie menvoi reisease. _ to le les'ad open ;-_ - 21y by line pronewe. even if centrol prenewe is LA 2. well the eteroge After et sensa oro compissed ecololeser6ly

cylinders are empey. Aesording6y, the eveemette er remoes menwel , roiseen must be energised long enough to esas dieshogo. Okenewsly, bwe one seier.or volve shou 6d open et any one inme, otherweee

1. bashage eriladere end mera tegn, there le e fewis in the eensel em snums Vanes - these devices are essennemy swo sheek a. espises au lashine pie and seet volves with a eenusen ovelet that are weed to eagerete pnewmene tirews. The only moving part le e eteinless essel pesem thet seeis 3. Rouw sanomade W eywom 5. 300 peng wt* egen ege. net *0" ria0s et seeh end of me een twS Ste site "0" etage u etee esel the end pivgs, plugs leonored dwong meheep of gegeng e en W er nder. ,

ctwid enwee leehe. Dirt on rings and peppet een else eene toehs.- so in any volve. Remove from line and inopoet if fedy sporenen 4, g,,, gg g is ind seted. Cloen er resiess **0" rings es n===aansy. PMS$Uet BBLAW - The spring elip en the ro6eeso le pushed free wnen the pisten le preeswleed. providing the diresplen of pull is with.n the 8 degreen liniit and the need done not sessed *e . 4. Cannese all- eylindere. ' to swo geeksted ' esp en sylineer reting of the soleses. A slight diesherge of earten ausende ereund volve fill eenneenen le weeneh Mght.

' t% piesen le noneel.

F. Compleos Pleid Report No. 4 Mp, instuding marked leb ofNet Devices ordinerly es not rooviro spesiei enenHon, drowing. and forward se Cerdes 06vieen s of Chemewen Corporet en. sther then checking against lob eceeAsesione end 'etendeeds of 840 Nenh AAiehi0en Avenue. Chienge. lilinsie 60611, AMNTICK good C ._ J ;_ PIre Seedgement, g.: 9 O-C

e. eA R _o a x .imi.. . es. i t. .. ~ c. . iaa-mm
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page 4

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                                               'O P IO 0li                        fire extingelshing equipment...                                                                  NO.4HP l

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SP9CIFICAYlC'l l AET/6W -1 MIGN PRBfURE CANON DIOXSg . PIRI EXTINGUIENING SYSf8M AUTOMAflC ILSCTRIC THMMOSTAT RESAIS - 5

                                                                                                                                                        -t
1. OSWAL i

This specification covers a Cardou " PERFORMANCE-ENGINEERE0" carbon dioxide fire extinguishing system designes t: be actuated -

           . 1.       A^      #- ",, by compensated electric thermostat detection and solenoid valve release when the temperature in the hasard reaches the rated setting of the thermcaret;
2. Manually, by operation of a remese pneumaels release near the hasard, and
3. Manually,' by operation of a handwheel at the sylinder bank. ,

There are no pull cables, drop weights or other exposed moving parts. Protective enclosures are not required.  ; 4 II.' SASIC COMP 00miTS A. CYLINDORS - 50s or 759 capacity alloy steel pressure vessels to ICC specifications, with threaded protective -cap, finished red enamel. Pressure seat type valve with forged bronae body and frangible disc safety relief with anti. > recoil design. Standard CGA gasketed fill connection with protective cap.. Copper siphon tube extends to cylincer - bottom to assure liquid discharge, o . .

8. MANIPOLDS - Galvenland steel pipe, Schedule 40 to 3/a", Schedule 40 for larger sizes.-Galvanized ... bande

malleable iron fittings,150s to 3/4", 300f to 2". ~ FC i r- T. Lied to assure 10" centers between fees for - l cylinder connestions. C. STORAGE RACK - Black enameled steel framing with formed saddles, brackets and clamps, joined with c . plated hardware to support cylinders,' manifolds and other elements. Free standing or wall mount arrang ,> to suit installation. Weigh bar anci supports included when scale kit spesified.. D. DISCHARGE HEADS - Pressureoperated type with live swivel union for handeleht connection to cylinder valve. Heads on pilot cylinders fitted with " piggyback" pressure cylinder for automatic or remote manual control, plus pinned handwheel for direct manual release. Duel pilot heds supplied for. banks of 3 or more cylinders, one for smaller banks. Forged bronae body. 10:1 operating ratio cf piston area to valve seat area. E. PLEXISta CONNOCTORS - Wirebreidad bronas metal home with full.1/2" bore. -1/2" pipe thread connection. Union joint one end for easy make up without twist. . F. HORN NOIILS$ - One piece bronae ist body with11/2" female pipe thread.s No loose orifice plate to be left - out. Reci enamelee spun steel shell attaches with lack nut. 4%" or 6" diameter shell to obtain best dischargei f Shell flanged for increased strength and for easy attachment of frangible covers. Flange. kit, when specifioc. , permits mounting nozzle on tank or duct well. Nasale rating stamped on jet body, i , G. OR8 PICS NOIILM - Stainless steel body with drilled orifice. 1/2" pipe thread.' Used for ducts, cabinets, etc l '- Stainless steel spring cover to seal out foreign materials added and duct mounting kit supplied when specified l Smaller siaos in brass, with 3/8" flere or 1/4" female pipe connections, include Monel strainer. M. M j l

                                                                                               ~

A. AUTOMAYlc - Thermostatic switch detectors in hazard are wired to continuously.pressuriasci solenoid opereta valve at cylinder bank. Normally open switch contacts close when temperature .in hasard~ reaches rated setting Solenoid valve opens and releases control pressure to operate pilot discharge heads and cause discharge of systert-Control pressure supplied from separate and inclopendent'10f carbon dioxide cylinder through regulator whic-maintains 300 psig delivery pressure. Steel piley control cylinder to ICC specifications fitted with handwheel.ccerate6 packless valve. Cylinder contents monitored by-pressure gauge end-highlow pressure switch. 25 psi ch i, ' pressure, up or down, closes switch to ring bell,.or other specified alarm, to give-signal that sptem n I tention. Solenoid valve resets automatically when thermostats asol. c,sse cpc enneen e, ciensteen compeantion: I 1

                            . _ .                   =       -           .       . _ _ . . - .         .- -- . a-           ; -             . . -    .
8. REMOTE CONTROL -- ICC specification steel elley cylmder containino 1%d carbon di:xide. Pressure seat type .

volve connected with 1/4" pipe to pilot discharge heads et cylinder bank. (if system includes automatic r: lease, con. noct':n made to same pilot heads as automatic but lines separated by douile check, or shuttle volve.) Pull pin and I wire seal lock velve lever. Removing pin and depressing lever releases carbon dioxide to pilot heads to cause im. mediate discharge. Resets automatically when lever released. Entirely independent of automatic. reisese and ~ l> electric power. No cables, pulleys or weights. No adjustments or equalizing devices. NOTE: Remote manuel station _ elways supplied in automatic release systems unless specifically excluded. L - C. OTHER RELEASES - Pushbutten pneumatic or electric remoso manuel stations can be supplied to suit special con. I ditions. Also, selected sprinkler heads pressurized to 300 poig with' carbon dioxide can be used for automatic ' ralease under fevorable circumstenses. =l

                                                                                                                                                                                                  ~

IV. AUXIMARY COMP 00GNTS ( A. DISCHARGE Steintess steel reedle DELAY - Penelmounted valve standard ediustment of forged bronze time delay between differential 5 and 120 seconds. valve connected D linder occumulator. to steel alloy h . ( cnd of pre. set interval. Resets evtomatically when automatic - release le reset. 1/4" pipe connections. Cover

  • t eptional. Finished red enamel. Connects into automatic control pressure line between control conter and pilot discharge head. Is entirely by-passed by manual releases. .

l

18. ALARMS - May' be electric or gas. operated to suit installation. 4" bell standard for supervision of automatic d i

control system. Other types used for hazard or discharge warning, depending on noise level and environment. 110 120 V AC standard. DC and explosior> proof supplied when specified. C. PRES $URE SWITCHES - Standard assembly is dual hoevy duty double pole single throw tumbler switch in weathere f proof condulet case, finished red enamel.~ 30 amp. switch elements arranged in pairs of -normally oper, and. r normally. closed contacts for alarms and equipment shutdowns. Single piston operates both tumblers. Manual cperation included. Manual reset.-- Emplosion. proof assemblio. in single or dual double pole single throw version supplied when specified. 1/4" pipe thread pressure inlet connected to discharge pipingi If, discharge delay in. i cluded, inlet also connects to automatic control pressure through shuttle velve to assure operation under all conditions. - D. SHUTTLE VALVE - Forged bronze too body with stainless steel shuttle and "O" ring seals forms double check i valve. 1/4" female pipe thread connections. Used to isolate sections of pneumatic circuit for selective operation. - E. PRES $URE RELEASES - Stainless steel body, piston and spring clip. Clip connects to window, door or damper releas. i ing hardware. 1/2* slas supports up to 50$,1" slas up to 1008 Carbon dioxide discharge releases clip, allow. Ing closure to seal opening against excessive loss of gas. V. RENVE RAIS COMP 00MTS A. CHECK VALVES - Through flow types of bronas or plated steel ber stock. Resilient seat for zero leakage. Used in pairs in manifolds to separate main and reserve banks. 1/2" through 2" siaes. 8 RLEEDER VALVI - Bronze her stock body with stainless steel ball.- 1/2" pipe thread connection seals et 18 20 psig. Vents small back leakage through check velve due to foreign material. - C. SWITCHING VALVE - Rotary 4.way valve with ground-end lapped seat inserts. Manuel' lever control to direct automatic control pressure to " MAIN" or " RESERVE" bank. Lever indicates position on nameplate. Locks in position with chained pin and wire seal.~ D. REMOTE MANUAL RELEASE - Duplicate of release supplied for main bank. Each package includes set of adhesive. E becked decals, one each " MAIN" and " RESERVE" One set identifies releases. Other set attaches to manifold sections. l VI. MULTIPLE MAEARD SYSTEM COMPO9ENTS A. SELECTOR VALVES - Piston. operated globe type valve. Stonne body with screwed ends in sizes to 2". 2:1 operating ratio of piston to . valve seat. Velve held open by line pressure on piston when edmitted by companion pilot-control valve.

      ~ 8, plLOT CONTROL VALVE - Forged bronse valve with 1/4" pipe connections. Fits in branche line between discharge piping and selector valve piston chamber. Pilot actuated by automatic or remote manuel control pressure to open valve. Delivery also connected through shuttle valve back to pilot chamber to lock valve open pneumatically until discharge completed and release reset. Pinned handwheel permits manuel operation.

o : RELIEF VALVE - Frangible disc essembly in discharge line ruptures if line pressure exceeds 2,650 psi due to  ; cxpansion of carbon dioxide trapped between selector valves and manifold. Requires replacement of disc. When

   -        specified, self resetting 1/4" brorce relief velve supplied.
                    . = _ . _ _ _ . _ _ _                  _ . . _ ,_. . . .                      a . _ _ _             _ . _ . _ _ - , _ _ _ _ . . . . . _

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g me nnauene svam - r, ! A ut0A u fl8 PO W A u fl3 th M M R4 5 f .

l. Sa m j~ this spemfication covers a Carden "PltPORMANCS94tNHA00" serben d6enies fire artingulehing system designed to ,

i b6 eerveted j , 1.

                           ^^           ~'
  • ipy a prt rateefvles delserien ensi telease system when the tertiperature in the heterd rises fester tb o preest relse l '

[ 2, Manually, by operation of a ressato pneussens release near the hasard, and '; l 3. Manually, by sporeHon of a handwhool at the eyNnder M l ! There are no pull cables, drop weeghts er other exposed moving parts. Pressative ensietures are not required. l f ) 5. BASS GOWetWWS i t t i A. CYUNDES - SOf er 78e caposity elley steel preneure vessels to ICC speelfleetiers with threaded protective cas, j finished red enamel. Pressure seet velve wilh forged beense hedy an( frengible dias safety relief wirn ; entirespil design, $4andard COA fill eenneetion wift presostre esp. Capper s; phen tube extends to ;

            ' cylinder benem to answo liquid d B.       MADWOLBS - Galventeed sessi pipe, Sehedvie 40 to 3/4",'Sehedvie as for larger sians. Selvanneed banded ,

melleable iron finings,180s to 3/4,300$ to 9*. Passey asenneled to sessue48' esseurs AM en less for cylinder ;

            ,- eennestene.
                                                                                            ?*     '

C. STORAGE RAW - Bladt enameled steel MM seM M M demps, M with - and othes elemeseb Psee elendin 4: plateel hardware to support cylinders, Weigh her and supports ingiudad when seele kit speelf to suit instelletten.  ? D. DISCHASSE 68A88 - Preneureeperated mW6uer for W eennestlen te cylinder velve. I Heads en pilot cylinder fitted wWh " _ psees for autemens er remele menval control, plus 1 pinned handwheel for direst manuel Duel pnet heads supplied for banks of 3 or more cylinders, one for ; smaller benks. Perood brenen hgdy, ieit speestg reeg ,, 7:,,, i L PLeuBLS C00 serf 05 - WIsobreidad brasse estal heen welh full 1/3" here, 1/2" pipe throod eennection. I union loint one end for eney meheep wisses voler : - F. HOGN NOIEN ' One piece letMwith T/i' temale pips thread. No lesse erifles plass to be left evt. Ro enemoned spun pesi shell ensches whh led nua 4%" er r diamoser sheit to obtain hem discharge. shen i fienged for inereened stronph and for esey eIIndonent of frangible severe. Plange kit, when spesified, permits ; mounting nessie en tank se NeWegetg stemped ess  !

                                                                   ..          ,e .ew. : nos. , s .                ;.- let body.j         '

G. OR WICE N 0 g g par weit druled artfloan. 1/2" pipe thread. Used for dues, cabinets, etc 5teinions steel sever out meterlei added and due mourWing kit supplied w Smelier sians in with 3/5' flere er 1/4" female pipe eennesNone, indude Menei erreiner.

                                                                                     ~:        .:; '      ' v .. v k      v..           $ W n.-                     y  ,   m                                              ;

A. AUTOMATIC - Red.enemated breies' besib hostealiseled devhes%845 In hemsid are eennemed with email bo ing to dieghregeneperased release meshenism et sylinder besdi, Ahmerbed heat ineresses pressure of air in hat bulb. Oresluel preneure changes felleged elses $ esilbraled .vese in release has Rapid pressuie ! incrosse trips release to spese vetve and steams cueseb pseaseselse past diesherge heads ans! coues die i chores of eyegun Connet psomews tusse separeas an0 hadspendese: Dep' aution dieelds cyllnaler i: regulater which maintaine ater pam Sted eense6 eptedes to ICC speelftentlens f it , hu C ::' ; sted peeklass y Cylinder egnlenen mentesed preneurs gauge and hief> low pressu 25 poi change in pressure, up er deum, alones swtsh tuf er other speelflod elarm, to give signa . . . system needs attennen. Manuel reset er reiseems regleres audpel eyelem.

                                                                                                                   .s.      -

WY l enneen __.,e ammmen maewgm _ . , _ _ _ . , _._ _.- ,._._ ,_._._ _.____m ,

6. 88M0ft 46Al H L,- lCC speel elley syHnder enreeining 191re eerben disside. Pressure east type velve eennese: wah 1/r ca past diesherge heads a sy6inder bank. of symem insiudes owematic ,sieseo, een.

nomien made to name pilot se sesomsels but lines esperseed by double cheek, or ehurtle volve.) Pull pin end wire emel noek velve lever. and ^ f T-' '-wresseman eerben disside to pilot heesla to saves Im. medies discharge. Rooms when leser . @~nspoly independent of ewometic reieene end Oleerric power. No embles, pulleys er 8%b or espolising sterkes. NOTL tamoso menwel asselon WP toassemets getages eyessen unless spesifically enslueled. C. 6fMM ER8ASE5 - PuelWbunen pneumans er eieserte temens menuel scenene een be supplied to suit special sendL tions. Also, solessed apronkler leads goesouriend under feverable sleeummoness.

  • to y." *_ weh eerben dismide een be used for ememetic release
                                              * . 3, b,     -
                                                                  * *4 * ' . 4@ * . j *s . ' . v s
  • Plf. Ato m &87 00A9 009 65
                                                                       ..             w           :...

A. SGCMAmet DEAY - Penet mounted 90rgeal bronse dWferenHel velve connesed to segel elley sylinder assumuleter. Steinless steel neoclie volve etenderd ediumment of Mme stoley between 8 enal 130 assends. Celays discharge until and of pre est intervel, lleests owemetteelly when eusemens rolesse le reest. 1/c pipe connessions. Cover optional. Finished red enamel. Conneses irne ewomens coneset penseure line behusen censol censer ensi pilot discherpe head. 18 e'#ifely by.peased by menval raamanaa. , , . ,

                                                                                                            ,p
8. ALARMB - May be eleserts or p M-J to euk Inseelletten. ,,,4* bell for . islen of automatic control sypom. Other t woming, en noise I and environment.

110 120 V AC stenslord.ypes DC ensiused =i'-for honeed M, "oresppi dies 'speclRed. C. PRMSUM SWifGES - Stendard ensembly le duel hoevy duty desble pois single thsow tumbler switch in weather. proof condulet ease, finished red enamel. 30 erg, esteh top ones - . In pairs of normally open end normally.clemed sentees for eterms anal unpment shut showns. *, both tumblers. Manuel operation included. Menval reest. Reples estamblies in ' or chsel pelo single throw version supplied when aposified. 1/4" pipe thread pressure inlet Wdia:horge piping. If discharge deley in. cluded, inlet sleo sonneste to outemeHe serevol preneure through shuele volve to coeure operation unster all conditions. D. SHUffL8 % ALV8 - Pusged bronse seeJeedy wth h esmal elasnie and *0" ris0 seele forma double check valve. 1/4" female pipe thread eennestions. Useal to isoiese seeHans of pneumsels aireust for selecHve operation. E. PRESSUM RB8ABB - Steinless steel body, pielen and spring al Clip eenness to window, door or damper rolees. Ing hardware. 1/2" slee suppsMs up to 28, t" glue up te*1 .' Cashon diantes discharge rolesses clip, ellow. ing closure to seen opening egennet eeneselve late of gen? . -" v

                                          .        .      .w         ,
                                                                            .cu        e m..
                                 ~
., mead y ;gyg .m. . n
                                                  .. .                                                             e A. CDeCK VALVR$ - Through f6edtype cf brohte or"                         speel her 'secek. Basil 6entlast for zero lashage. Used in pairs in menHolds to esperste main and reserve                          1/2" through 2" series.
8. BLSED88 VALVB Brones her clock body weeh steirdens esmal bell. 1/2" ttweed sonnece6en emels et 16 20 psig, vents emell leeck lookege through shoek volve due to foreign menartel.

C. SWffCMONS VALV8 - Ropery "4 waymve6ve wkh d and lapped east inserts. Menvol level sentrol to direct automatic eentrol pressure to MAur er ~ bank. Lever Indnesses positten en nameplete. Lecks in posi. tion with eheined pin and wire seal. D. REMOTE MANUAL SBRA88 - Duplicose of rolesse supplied for mein bank. Beeh peakage includes set of adhesive. backed decels, on eesh

  • MAIN" and *llR$8 AVE." One est talenHfies reisenes. Other sets ettechos to mentfold aestiers.

VI. M482WL8 MAIA89 SYSTEM 00MP00SNf5 A SgtaCfot VALVES - Pielen epersed globe type volve. Brenes body with enrowed ends in sizes to 2". 2:1 operating ratio et pielen to volve east. Velve held span by line pressure en pioson when admitted by compennon pilot centrol valve. B. PROF CONF 90L VALV5 - Porged brasse volve weih 1/4" pipe ennnecMoos. Ples in branch line between discharge piping and solemer ve6ve pimen cheadser. Phot ecosted by eveoment er remote manuel sontrol pressure to open volve p!nitvery eleo connessed through shuttle volve beek to pilot chamber to lock vehe open pneumatically until discharge enspissed and reemeno reest. pinned handwheel permets manuel opereden. 8BEF VA&WB - dise esaareNy in discharge line ruptures if line preneurs amenade 2,650 pel due to esponsion of aerban trapped between seks:sor valves ensi manifold. Iloquires replacement of disc. When apostfisel, .#. .-lv 1/4" teenas ittlet ve6ve supplissi.

                                                                   *R'Ja SU wa .            ac a.            .      .u.w                                                  l y rerq sW h '4 % h s                                                                                                                               .

s [. .. . . : t.. -. . . . A s, TESTlv. OF TNF WI ver AR 400w /r ABI E 'lAt 1.T a , C. P P '.E " * ". (P0CR 79-6)

1. Puroose to delineate the precautions, prerequisitte. and requirement <

for the avstem. ating of the a..Lchr,atr Room / Gable '.'ault LO; Suppregnica

2. Discussion The existing carbon dioxide system located in the cable vau*s and the new carbon dionide system to be installed !n the Mwtb rei,'

Rout tre designed to euppress a deep-seated cable fire. The $ wit 6n-gear P.oom C0 ' System 6111 also aerve as a manually operited haekup (or second skot) for the cable vavit. Both systans are fully automatic and operate in similar n.anners . - Both systems incorporate a Counting Zone Module CZ-30. Up .i the receipt of each of three successive alarse, an output signal is sent from the module to initiate a pre-programmed, sequential emergency response function. The 11131 detector alarm will provide alara signals at the main and local Pyrotronics panel. ane second detector alarm wall close all associated fira dampers and secure room exhaust fans. The third detector alors will-- system, following a 30-second alars and evacuat ten O-tinitiate the Lee deley. 00,ication Int will also be provided at the main and 19eal ovrotronico panel that the systen has been activated.

3. Refer aces
a. Po's 12849, 12850
b. PDCR 79-6, Switchgear Room / Cable Vault 50 SuPpresstor 2
c. Consumer Fire & Safety Drsvings & Operating Manual
d. Pyrotronics Drewings & uperating Manual
e. Cardes Operation and Service Manual
f. CWD's 587, 1362, 1366, 1506, 1517, 1547 6 1587A 4

ARR1E&aBR

a. Volt-Ohm Meter
b. Megger
c. Detector (ionisation checker)

J. Tools (as required)

                                                                                                   ~)

V i..

i i 1 I -J. ] O $. Prereeutsites Vert'ted Bv *at-I

a. Insts11stion Procedure for PDCR 794 complete sacept a6 not04 in the !&T g/

rrocedure i

                                                                                      ,f_          ;

1, . Ii rvisor notified prior to start - I c. i Circuits checked for shorts and greunds

                                                                                          /h     '
J. Autoiaatic solenoid valves electrically d'acor...ected from CO 2

SY ' I ' b[j

                                                                                      \            !

i r

e. Power to panels connected and energized by authority of Pyrotronic's Field Eng. only /
f. Warning signs have been posted /

A. All cable penetrations sealed in accordance with FDCR 79-0$ /

h. .ianual dwa6cnes are in .6.C4A1, ,,osattons /
1. All wires to Dampers in Switchgear Room and O Cable Vault Room and the C0 Solenoid Valves must be disconnected / /h
6. Precautions
a. Caution shall be exercised to prevent the accidental discharge of either Co ySystem
b. Cylinders are to respin disconnected for all testing addressed by this procedure NOTE:

A functional test of the Switchaear Rons will be provided by a separate test procedure.

7. 0 feat Procedure A. Cable Vault 1
1. Wires checked for continuity and soggered
2. Check all detectors and record infor- -

nation on Attachment A /

3. Steulate a fire condition on a first /p O -""" '
':1:::>->-- m#A :

4

3 4 S e a fire condition on a second

a. Ve fy exhaust f an (SEF 3) ah'its
                                                                                                            /g
b. erif y receipt .. 24 VDC Signal at the following RTL leads:

Cable Vault / Computer Rosa # despers (2) -

                                                                                                 /

Exhaust Fan (SEF-3) damper ' Battery Room / Cable Vault Daapera (3) /

c. n and local panele remain in g
  $y                   5. + 61aulate a fire condittom on a third 4p                        detector

_J C,c # N . [a.at

  , gf y ~ g~49                   Main Panel alares for CO 2
  • disenatse %a Avn -/

f ~A A g, p' r V' b.4. Cardon Systaa receives signal to F o-operate

                                                                                     /77         /-         /h U             c.<..
               % .M               Local-slates trip (audio & visual) f-            >

v m / 1/t s /A d.1 Following 30 second evacuation delay, CARD 0X Systaa trip signal la at solenoid m ,,/  !*I/p.,

6. /

Clear all alaras and reset Pyrotronica Control Panel [hh / k ir c 5'

7. /

Place manual evttch ta INITIAT8 Position and verify stape 3, 4, & 5 take place y k}W i

                                                                                                / A 'b ,j#

t e

8. Retura evitch to' NORMAL Positica and repeat step 6 / .,

FV1 / t ' t i, p e

9. Repeat stepe 3 & 4 e / f /e 10.

Place manual switch ta ABORT Positten m 11. 4 saa v / NL(//A Staulate a fire condittoa on a third detector and verify system does set trip d./Ase / th f /,, f. 12. Return manual switch to NORMAL Position # 1/ and repeat step 6 /[N*' /74 R infora shift Supervisor that testing in ene - / Cable Vault Ares to complete , '

t. '
                                                                                               . , f'0h,
                                                                                               /                         ;

N H

O B. Switehtia *r ug ,n

                                                                                                                 ..t:.
1. Wttes ch,teked for continuity and
  • meagered #

g/* '4 J. ' heck all detectors nd reco'f. Int 0r- ' . mation on Attachment n [, ,,_ __,.- i

1. Simulate a fire condition on a f tr.t ,

detector 2, ' . , _ . l- \

a. Verify local panel goes into -

atarm )!/. - ..'.

b. Verify main panel goes into alara ,

Simulate a fire condition on a seconc detector t f-

                                                                                                                    }/ s s
  • A* ,'s
a. Verify exhaust fan shuts down )f /3 ' / / './ i
b. Verify recetot of 24 VDC Staat.1 at -j l

s , ,p g 1 l l the damper t.rL leads - / /W l 64 W# c. Main and local panels remain in

  • j gfr j, 4. ,[ )/ / -
                                                                                                                               -?                   t .<-

k alais

                                                                                                                                               ,,      ['       #'

A 5. bSimu14.te a fire condition on a third j [A > w d:tector

                         ,p hch i           a                .
                                                                                                                                           / ,,, , _
C a.
                                     /p                               Asin Panel alarma for CO 2                                                        '

{- N, discharge h.#% , Lj u --

                     " /* '                               b.          C0 Syst.e receives signal to

{ .h op$ rate

                                                                                                                     . e .,_,,,'_ y ,, a .

[' . '; ' ' c. 1.ocal alarms trip (audio & visual' '

                         /
                                                                                                                                   '~
                                                                                                                                                 .**.            .-  i i

y 4. Thirty second evacuation time delay 4, [jf'"k'L((%", times out and tirp signal a 6. initiated

                                                                                                                  ,r
                                                                                                                     /m                    /

t[f- '

                                                                                                                                                                 ,c, Clear all alic
  • and reset Pyrotronies t cf/,./N
                                                                                                                                                                +

Control Panel / 7. Place manual switch in INITIATE Postrion v ' " and verify steps 3, 4. & 5 take place

                                                                                                   +
                                                                                                                     /N                    ' t' ' ' ' '

i

8.  !

Weturn switch to NORMA 1. 'osition and repeat step 6 ,,)jh ,/

                                                                                                                                          , L;(              .g, i

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O

                                                                                                            ]

i i. i e

                                                                                                           ]

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                                            +

O , ,

9. Repeat stepe 3 4 4 FI//h rge 4 l i

L

10. Place manual switch in ABORT Positim
                                                           # a s.P -

91d' / bb i 1 i

11. Steulate a fire c .dition on a third  !

detector and verify systen does not p, s ,/ ,  ! trip e

                                                                        <,//fl        /      ' ' '/ . i t

l 12. Return manual evitch to NORMAL Position 'r and repeat step 6 N> L / k/2 / #o l

                                                                       /                                   I C. 1. Actuate selector evitch for second                  ~'            -

I shot to cable Vault _ )$ /b W

2. a. Local and Main Panele so into - s. -

alare )/.' 2 / '!**

                                                                                                /

4 2

b. Local alare (audio and visual) trip c .e  ;
                                                                        .1//2.                    A i
                                                                                      /'
c. Cable Vault Rahanat fan tripe ,. /7 / M
d. Isolation dampero RTL's receive eignal ,jp '
                                                                                      / ,,(f4             l
e. Switchgear Direettomal Valve to ,

Cabis Vault tripe after 30-second evacuation time delay [/ [0 /

                                                                                          &/ f r
3. Clear all alarme and reset Pyrotronice '

Cor. trol Panel J/. 3 '/ sf b s

8. Accostance Criteria
a. All detectore function properly ) / /N
b. All modskee la the Pyrotronica Pamela - i ., - ,

operated properly //A _/ g j' F/* -

e. tems operated according to intended .,

gg /j,

9. Final Ceediti m
a. Costrel Reada and Directieaal Valves and #

y Dampere connected to .entrol systeme [N / 'M'

b. Systems energised in operating ande' ['- / 'b
e. f t Su teor notified that 00 2 8F"* L'

[/h f g 7 i l (h

                                                                                ---..-_--------~,-s-                    ----

l'.-

   'o, 1
10. Evaluet Leo An acceptance review of the completed test results by tne cognisant individuale shall be performed *h
                                                                                        ._                / y': , e, .
11. . te MM da /*

1 Attached 1 1i/ / .;, Prepared by b- 1 d. # ^ Pete / d V',1 Reviewed for 0QA !!old Points T -N Date API I 1 ESS Review 'b' . I v ' i A_ I Date e/'** Implementing Dept. Head 's l , 2 2' A" _. 2 Date f- .. ad PORC . sQ , ~ Date // /$ % ' el.nt superint.no.nt h Date /el'a4r Q O l 4 l l i 0 O s

J

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liig,1. i t..ncro Coelwo Dioni le ilo., i.ni's lielle'ns ** . .t. vp g *s ) O 4 ,

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                                                                   ..6,,.,>.         ...,,u                                           .

JCR NO. [ #- M S U ORAWING NO. INSUR ANCt ,REF[N06 l r Elfnii.e besIgn atv.:Coe st ei . . ! . Discharge flew Rote l MAIARD ffFECTIVE DISCHARGE PERl00. OtSIGN FLOW RATE Period (it. ,.. . ,. swh kwege l - i l AND STORAGE RE0ulHEMENT tin ..e v.1 l'e**di * , TOTAL FLOOD 6HO (f F)- Restvirement is;D .9 lbs. CO - g' ; '( f Minimum flew rose to echieve  % within miauks , . ' Dinherge Period. Design F1aw Rote end Sterope . . . . . . . . . N a' *.  !# #l

peotra o...en tw. a mi ee i .. .....e inia. n .. .,, . * ,p , . ; 3 t ..

\ LOCAL APPLICATION (L A)

                                                                                                                                            .                     ,                    ')       e ..:,. %*. , .' . .. .

{' Minimum offutive dinherge perled-30 seconds. . . . . . . . . ' s Plus high temperolute condition . . . . . . . . . .. . . . . . . . . . '

                                                                                                                                                                                          * ' ' '3./
                                                                                                                                                                                              . t i
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                                                                                                                                                                                                ' ' e.

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                                                                                                                                                                                                                  'i Pi.s 4o           for Mah P,eoo,er s te. sto,oge . . f. . . . . . .'. .                                                                   i 4* c -                                 'l                               -;

COMtlNED LOCAL APPLICATION & TOTAL PLOODING o p k's . i 4ee. tA ..d ie o s ,,e. .t...I .

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                               , Lesel app              li cation . . . . . . . . . . . : . . . . . . . . . . . . . . . .                                                                                           -
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                             ' Tetel Flood                               Ibs.C O a.7s                          _lbs.CO within                                   =                                   .-                                        -
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EIfetive Diuhergo Petied und Design Flow Rete s +'

                                                                                                                                                                                                 , ;e '?i
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(XTENDED DISCHARGE , . . s Initiel Dinherge Period end Design FISw Rose. . . . . '. . . " 1 se " e

                                                                                                                                                                                                                                 =

latended Diuhorge Period end Design Fic.w Rete . . . . . . . a' ' =- 3 .. FINAL DISCHARGE PERIOD, Otsl6N FLOW RATE AND STORAGE. IM # b ' l

                                                                                                                                                                                 ..                4.t     .

HAIARO RIOutRES* * /fLt.lb. Cylinders-(NM lbs. CO3) for MAIN SANK : g and - lb. Cylinders ( 'N** 'i # l lbs. CO3) for Rtlf Avt 6ANK (' . ;'.. ( l REMARMSt E;)'.g ' .

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Staat LI N 0fM /TO STAtt LENGIN STAtt LtNGtM &TAtt 48980300 TOTAtSQUlvttNGtM 19 F 10fAL IOuiv LINGTM fotAt(OUivttNGTM - TOfat 80ysv.68eefse tituiwan PSIA TitaalNAL PSIA PiPL SEC TION PIPE SfC TION ftt min 4 f 5 h __ PIPt 6tCilON Piel &ttttOM . PIPE Sitt SCMt> .PIPt SIZE SCMt ) PIPE Lill KMi' k Pitt &itt ' . lCvi > esivel teneth eetwolleaseh eetwel tene'h estvol tone,g . a tee see eli see ese F.J*- .. . oli eil ' et . weien se este ween eresse wa.ea oe'esia emien er sala E- . .ei.e .es.e .es.e -s <; sociioN teNofM stCrioN stNofM stCitoN teNofM stCrian alwofw PtOw tait elow natt stow GAtt etow aats , .. STAet PSIA Statt PllA Statt Plla STAtt Pt4A * ', , ; i sia.titNo,M . 5.tAett.i NotM s'Atutac'M ~ ~ TOTAL IO98v ttNGIM 701At (Opsv LENGSM Stam_St*Gia TOTAL GOUlv LENGIN Total IOWev 48esGtte titMiN AL Phen IttenlNAL PSIA fleusMAt P%4A ff ensewee oca . 4.. l . - s, . i to esog ' , gg AlI UMTe0 states ' I~ ! [ NUCLEAR REQULATORY COMMISSION ReoioN i [Dd . '%, *' dis ALLEN 0 ale ROAD  ! KING OF PRUeslA. PENNeYLVANIA 164oe $ MAY 181989 L Docket No. 50-271 Vermont Yankee Nuclear Power Corporation ATTN: Mr. Warren P. Murphy Vice President and Manager (h4 of Operations Q gy p g g i RD 5 Box 169  : Ferry Road Brattleboro, Vermont 05301 W.P. MURPHY  ! Gentlemen:

Subject:

Inspection Report No. 50-271/89-04 l This letter refers to the routine safety inspection of your Fire Protection ' Program conducted by Mr. A. Krasopoulos of this office on March 20 -  ! March 23, 1989 i at the Vermont Yankee Nuclear Station, Vernon, Vermont. ' Mr. Krasopoulos discussed the findings of the inspection with Mr..J. Pelletier at the conclusion of the inspection. The findings of the inspection were further discussed in a telephone conversation between Dr. W. Johnston of NRC . O Region I and Mr. R. Pagodin of your staff on April 21, 1989. Areas examined during this inspection are described in the NRC Region ! Inspection i Report which is enclosed with this letter. Within these areas, the inspection consisted of a selective review of procedures and records, interviews with personnel, and observations made by the inspector. Based on the results of this inspection, it appears that one of your activities was not conducted in full compliance with NRC requirements, as set forth in the - Notice of Violation, enclosed herewith as Appendix A. The violation has been categorized by severity level in accordance with the " General Statement of Policy and Procedure for NRC Enforcement Actions," 10 CFR Part 2, Appendix C. You are. required to respond to this letter within 30_ days and in preparing your t response, you should follow the instructions in Appendix A. This violation refers to the operability of the carbon dioxide suppression systems in the cable vault and in the diesel fire pump day tank room, The responses directed by this letter and the accompanying Notice are not t subject to the clearance procedures of the Office of Management and Budget as required by the Paperwork Reduction Act of 1980, PL 96-511. t l O l I l I h ~

                                .         . . , . ...,... . . . . . , . , . . . . . .                      = = . ,. ...,-,..... -.

MAY 18 1988 - . I Vers.ont Yanke0 Nuclear Power Corporation 2 E i Your cooperation with vs in this matter is appreciated. Sincaraly, M h*k Thomas T. Martin, Director ' Division of Reactor Safety

Enclosures:

                                                                                                               ]

1. 2. Appendix A, Notice of Violation 1 - NRC Region 1 Inspection Report Number 50-271/89-04 cc: w/enti: J. Weigand, President and Chief Executive Officer J. Pelletier, Plant Manager _ J. DeVincentis, Vice President, Yankee Atomic Electric Company = R. Capstick, Licensing Engineer, Yankee Atomic Electric Company n J. Gilroy, Director, Vermont Public Icterett Research Group, Inc. " G. Sterzinger, Commissioner, Vermont Department of Public Service Y P. Agnes, Assistant Secretary of Public Safety, Commorwealth of Massachusetts Public Document Room (POR) I Local Public Document Room (LPOR) , 'D Nuclear Safety Infor;aation Center (NSIC) _ NRC Resident Inspector - State of New Hampshire j State of Vernent - Commonwealth of Massachusetts .3 M J A E l 5 2 c

                                --mm-----        -                                                                                        N

ft APPENDIX A NOTICE OF VIOLATICN Vermont Yankee Nuclear Power Corp.' Docket No. 50-271 Vermont Yankee Nucitar Station License No. OPR-28 As a result of the inspection conducted on March 20-23, 1989, and in accordance i with the "Genertl Statement of Policy and Procedure for NRC Enforcement Actions", 10 CFR Pcrt 2, Appendix C (Enforcement Policy 1989) the folicwing violation was identifiec: i Technical Specification 3.13.0 r2' quires that the carbon dioxide fire suppression (CO2) systems located in the cable vault and diesel fire pumptrd day tank room shall be operable whenever equipment in the arta protected by the systems is required to be operable. Tha technical specifications $7 require a continuous fire watch if the CO2 system in the cable vault is inoperable and an hourly fire watch if the CO2 system in the fire pump day tank room is inoperable, h In a letter to NRC dated January 31, 1977, the licensee stated that the carben dioxido systems at Vermont Yantee were designed to meet the require- = jO ments of the 1977 National Fire Protection Association (NFPA) Standard 12. NFPA Standard 12 Section 1-7.3 specifies that the installed carbon dioxide systems shall be tested and the tests performed shall t,o adequate to deter-  ! mine that the system has been properly installed and v-ill function as m intended. The CO2 systems are designed to achieve a 50 percent concentra-tion. In the cable vault, this concentration must be maintained for ten minutes. Contrary to the above, as of April 21, 1989, the CO2 systema in the cable vault and in the diesel fire pump dey tank room had not been demonstrated to be operable, in that no tests had been performeo of their capability to reach and maintain design concentrations of CO2, and the appropriate fire watches had nos been implemented. _- This is a Severity Level IV Violation (Supplement 1) Pursuant to 10 CFR 2.201, Vermont Yankee Nuc) ear Power Corp is hereby required a to tubmit to this office, within 30 days of the date of the letter transmitting 1 this Notice, a written statement or enplanation in reply, including: (1) The reasons for the violations; (2) the corrective steps which have been taken and the results achieved; (3) corrective steps which will be taken to avoid further violations; and (4) the date when full compliance will be achieved, blhere good cause is shown, consideration will be given to extending this # gqc4g' a response time, i , Ewa i d m 1 M , 10

l l l U.S. NUCLEAR REGULATORY COWISSION RES'CN I Report No. 50-271/89-04 Docket No. 50-271 License No. OPR-2B } I l Licensee: Vermont Yankee Nuclear Power Corporation RD 5, Box 169 Fer y Roac Brattleboro, vermont 05301 Facility Name: Vermont Yankee Nuclear Power Corocration Inspection At: Ve"on, Ve-mont u j Inspection Concucted: varen 2^-23. 1939 Inspectors: C .r h i A. Fkasopcvips, Reactor Engineer case di L R. Matnews, Reactor Engineer _ r/n45

                                                                                                                                              =
                                 /

cate Approved by: - ap f C C. J. Ancersor, Cnief, Plant Systems Section case lnspection Summary: QseettiononMarch 20-23, 1989 (Report No. 50-271/B9-04) Areas Inspected: and implementation of the licensee's Fire Protection The inspection Program.This routine un included reviews of the following program aspects: combustible material control, housekeeping conditions, surveillances and testing performed on fire _ suppression and detection equipment, and fire brigade training. Also, a - uaikdown of fire suppression systems, in particular the carbon dioxide _ suppression systems in the cable vault and switchgear rooms, was performed. a Results: The inspector identified a violation regarding operability of the

                                                                                                                                      ]     _

carbon dioxide system in the cable spreading room. _ the NRC resident inspector identified a similar violation regarding theFollowing this inspect - operability of the carbon dioxide system in the diesel fire pump day tank room. The operability of these systems was not demonstrated during performance of the - initial acceptance tests for these systems. J Additional concerns were icentified regarding housekeeping conditions, in particular the practice of erecting , 4 combustible structures adjacent to safety related buildings, and the depth of engineering involvement in issues affecting the Fire Protection Program. -

                                                                                                                                      -=

m , ., _J .i ii--

I

  • CETAILS 1.0 persens Contacted l Vermont Yankee Nuclear Power Corporation (VY)
        'J. Pelletier, Plant Manager
        *R. Pagodin,~Tecnnical Services Superintendent
        *D. Girroir, Sr. Quality Assurance (CA) Engineer E. Tainter, CA Coordinator / Fire Protection Coordinator
        *R. Wanchyk, Operations Superintendent
        *R. Moschella. Electrical Engineer 1

P. Johnson, Electrical Engineer

        *R. Grippardi      QA Supervisor
        *H    Mettell, Engineering Support Supervisor United States Nuclear Re;ulatory Commission (NRC)

G. Grant, Sr. Resident Inspector

  • Denotes those present at the exit meeting.

2.0 Followup of Previous Inspection Findinos (Closed) Violation (89-04-01) Lack of Emeroency Lichts in the Control Room Torus Catwalk anc Fire Area FA-RB-5 The NRC identified the violation of 10 CFR 50 Appendix R, Section I!!.J in that emergency lights were not installed in the above areas. The licensee installed emergency lighting units in the' Control Room prior to the NRC team leaving the site. For the Catwalk area the licensee requested an exemotion from the requirement because the area contains lighting units powered from the Emergency Diesels. The NRC granted that y exemption. Fire Area RB-5 was re-examined by the licensee by turning off all lights in the area to determine the illumination. levels provided by the existing emergency lighting. The illuminttien was found to be adequate. The above actions satisfy the NRC concerns and this item is closed. (0 pen) Unresolved _ Item (68-04-02) Fire Stops in Reactor Bu11dina The NRC identified the concern that the fire stops installed to provide fire break zones were inadequately installed. These stops were installed in 5 to 7 foot strips on both sides of each fire break Area. The correct way of installing the fire stops would be to install the fire retardant thru the entire length of the fire break. The licensee committed to have the fire stops installed at the first opportunity. The licensee stated that they were unable to complete the engineering work associated with the fire stops, therefore, the fire stops will not be installed during this

W . _ . . _ _ . . _ _ . _ - - s if

     '.                                               3 outage.

The engineering work involves an evaluation of the electrical tray seismic supports to assess the impact of the additional weight fr:m the fire retardant. 1989 calencar year. This mocification will be completed by the end of watches. The licensee, meanwhile, has in place, roving fire (Closed) Unresolved Item (88-04-03) Circuit Coordination Ouring the circuit coordination review of the Appendix R program, the NRC team observed that coordination curves and analyses for the 120V AC and 125V DC circuits were not available. The licensee acknowledged the coordi-nation and cocumentation concerns and committed to finalize the analyses. The analyses were completed and the inspector verified the time-current characteristic curves for the 120VAC and 120VOC circuits.The breakers This valve is used for containmentare adequately coercimated except for the breaker isolation in series with valve V10-18. One of these valves would remain closed because power cables for V10-17 and V10-18 are routec through different fire areas, therefore, a single fire could not disable both valves. The inspector had no further questions. This item is closed. (Closed) Unresolved Item (88-04-04) High Impedance Fault The NRC team identified that the analysis of the effect of high impecance O- faults on all electrical power sources required for safe shutdown was incomplete. The licensee completed this analysis and the inspector reviewed it with regard to fault conditions, assumptions for analysis, breaker 480V ACset points and safe shutdown operability for 120V AC, 125V DC and circuits. anelysis has been completed.The documentation concerning high impedance fault Based on this review, the inspector concluded that there is no high impedance fault concern and the safe shutdown load power supplies are adequately protected. = (Closed) Unresolved Item (88-04-05) Inadeouate Fuse Protection The NRC inspection team conducted a review of the common enclosure associated circuit concern to determine the adequacy of the electrical isolation protection. The team observed that 12 AWG conductors were protected with 35 Amp fuses instead of the required 30 Amp fuses. The inspectors reviewed the licensee analysis of the above concern. The 12 AWG conductors identified are cross-linked polyethylene insulated cables rated at 90'C continuous full load operation. . this type of cable is 40 Anp at 130*C up to 100 hours, which is stillThe emergency  ; o above the rating of the protective fuses. Based on the discussion with O l lll IU . . .

[, y . I 4 the licensee's staff and review of the licensee's analysis, the inspector

 '                     concluded that the 35 Amp fuses are adequate to protecc the 12 AWG conductor cables. This item is resolved.

3.0 Controls of Combustibles and Icnition Sources The licensee has in place procedures that control the introduction of combustibles and flammables in safety-related areas. The licensee also has procedures that control the use of ignition sources such as frcm welding, cutting or grinding operations. The plant inspection by the inspector did not identify any unacceptable conditions.

  • 4.0 Eautoment Maintenance Inspection and Tests The inspector reviewed several surveillance and testing procedures to determine whether the licensee has developed an adequate surveillance and maintenance program that assures-the functionality / operability of the ~

fire protection equipment. In addition, the inspector reviewed test records to verify compliance with applicable Technical Specification (TS) requirements. A violation was identified as follows: The inspector reviewed the carbon dioxide (CO2) systems installed in the cable vault, switchgear and diesel fire pump day tank rooms to verify that each system is capable of performing its required function. This review involved a system walk-down and a review of the test and surveillance procedures established to assure system operability. The applicable licensing requirements also were reviewed. Licensino Recuirements The CO2 systems are required by License Condition 3.F which states that an automatic CO2 system be provided in the cable spreading room (also referred to as the cable vault), the switchgear room and the diesel fire pump day tank room. The CO2 systems listed above are required to be operable by Technical Specification 3.13.0. The licensee in a letter to NRC dated January 31, 1977 from J. French I to V. Stello committed to abide by the 1977 National Fire Protection l Association Standard No. 12 (NFPA 12). This letter specifically states that the CO2 system in use at Vermont Yankee was designed to meet the requirements of NFPA 12. NFPA 12 is the guide for the design and installation of CO2 systems. Section 1-7.3 of this standard specifies that the completed system shall be tested to determine that the system will function as intended. The NRC has-adopted the recommendations of NFPA 12. This is stipulated in Appendix A to Branch Tecnnical Position 9.5-1,

r . na The CO2 system design was reviewed by the NRC and was (itscussed in an NRC dated Safety13, January Evaluation 1978. (SE), supporting License Amendment a3, - The SE states that the design of the CO2 system is acceptable because it can provide 50% concentration in the cable vault and maintain this concentration for ten minutes. The CO2 concentration and duration of concentration mentioned above are required for the effective extinguishment of deep seated fires that could housing occur ifequipment. electrical a fire started in areas such as the cable vault Procedure and Records Review The inspector reviewed the procedures which ensure that if a fire occurs in the areas protected by CO2 the proper alarms would activate, the ventilation dampers would close and the system would cischarge. The licensee also has procedures verifying that the design quantity of CO2 is available at all times. The review of these procedures did not identify any unacceptable conditions. - The inspector reviewed the CO2 system acceptance test records to

                                                                        ~

verify that the system can deliver the 50% of CO2 concentration for 10 minutes. The licensee preser.ted to the inspector the test results of the full discharge test conducted in the switchgear room. The licensee could not locate the records for tests for the other areas. However, they committed to search for the test records for these areas. The inspector indicated to the licensee that if these tests were not performed, the' system operability must be verified by a test. Regarding the switchgear room test, the licensee indicated that this test identified a condition where the concentration was not maintained at 50% for the entire 10 minutes in some locations of the switchgear room (high in the ceiling). On the advise of their vendor they made system modifications to improve the mixing of the CO2 so that this problem could be eliminated. The modifications included an adjustment to the discharge valve timing to slow CO2 injection. . They also made provisions for the ventilation dampers to stay open for five minutes to address room over-pressurization concerns and improve mixing of the CO2 in the room. The NRC on April 21, 1989 informed the licensee via telephone'that since the CO2 test records for the cable vault and the diesel fire pump day tank rooms had not been found and since inadequate evidence exists to verify that the system would function as intended, the system must be assumed inoperable and the compensatory measures-specified in the Technical Specifications be placed in effect. As a result of that call the licensee committed ,to declare the systeth O 4 I

_ ~.

 .;                                                                                               i 6
  • I inoperable and establish fire watches in accordance with the  ;

Technical Specifications. Since compensatory measures for an incier-  ! able CO2 system were not in effect when this deficiency was identified l by the NRC, this was a violation of the Technical Specifications - (violation.89-04-01). l 5.0 Quality Assurance (CA) Audit Review i The inspector reviewed the QA audits of the Fire Protection Program. The  ! audits were found to be thorough. Audit finding were adequately-resolved. No unacceptable conditions were identified.  ! 6.0 Fire protection Engineerina and Modifications The inspector observed activities that affect the Fire Protection-and- - noted the following .

1. The fire annunciator panel is located in the Security Room (SAS)  ;

4 within the control room. The security monitoring panel that was- ' recently installed was placed right up to the Fire Panel making panel surveillance and testing difficult.

2. The licensee did not complete the work of the fire stops mentioned in Section 2 of this report. The need for these fire stops was identified in February 1988. The licensee must now erect scaffolds v l and do the modification work in the Reactor Building when the plant '

is at power.

3. The NRC, during the Appendix R inspection, could not verify the adequacy of the communication system because using walkie-talkie radios  ;

i in some plant areas could adversely effect the plant. Walkie-talkies - would be used for communications to shutdown the plant from outside . the Control Room if a fire forced Control Room evacuation. The licensee

  • committed to determine plant conditions for which use of.the communi-
  • cation system is acceptable. The licensee reviewed the communications i

system and determined that the system would not perform adequately in i certain areas. The licensee corrected the problem by installing an  ; antenna to enhance the radio signal. The corrective actions are adequate. The above items are examples where the engineering group did not perform a thorough job in the Fire Protection Area. 7.0 Fire Brigade Trainina 7.1 Procedure Review The inspector reviewed the fire Brigade Tra'ining program to verify that this program includes:

a. Requirements for announced and unannounced drills;

p a' . y l b. Requirement for fire brigade training and retraining at prescribed frequencies;

c. Requirements for at least one drill per year to be performed on a "back shift" for each brigade;
d. Requirements for maintenance of training records.

No unacceptable conditions were identified. 7.2 _ Rec _ords Review The inspector reviewed training records of fire brigade members for calendar years 1988 and 1989 to ascertain that they had attended the-recuired quarterly training and participated in a quarterly drill, and received the annual hands-on fire extinguishment practice._ The inspector noted that all fire fighters have received the required training. However, the inspector observed that the licensee's procedures allow prospective fire brigade men.bers to be on the fire brigade without the initial hands-on fire fighting practice.- The concern is that personnel without firefighting experience can be a member of the brigade. The licensee explained that.the initial " live" fire fighting-training usually takes place during the warm weather months. The inspector verified that the licensee makes every effort to quickly O. qualify new fire fighters. This effort even includes sending some of them to fire Academies as far.away as Texas, but the procedures still allow membership in fire brigade without that training. At the time of the inspection, every member of the brigade had this training. The licensee was told of the concern and they committed to review it. This in an unresolved item. (89-04-02).- The inspector also noted that the licensee's record-keeping in this-area can be improved. The E, U licensee's staff had a problem locating the required records but ultimately the records were found. 8.0 Facility Tour The inspector examined fire protection water systems, including fire pumps, fire water piping and distribution systems, post indicator valves, hydrants and contents of hose houses. The inspector toured accessible vital and nonvital plant areas and examined fire detection and alarm iystems, automatic and manual fixed suppression systems, interior hose stations, fire barrier penetration seals, and fire doors. The inspector observed general plant housekeeping conditions and randomly checked tags of portabl.e extinguishers for evidence of periodic inspections. No deterioration of equipment was noted. The inspection tags attached to extinguishers indicated that monthly inspections were performed. 1 O

    .          ..                           .,,o.  ,

8

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ir O No unacceptable conditions were identified. However, the inspector observed the following conditions requiring resolution by the licensee: i Housekeepino/ Hazard Control The inspectu observed that the licensee installed large wooden structures outside but next to the Reactor Building. These structures although temporary have been there for more than a year. A fire in these structures could affect the plant. The structures have no smokin floor.g signs but the inspector observed cigarette butts on the , The inspector also observed the licensee's practice of storing Nf combustible trash next to the training building. The inspectors observed a large nile of wooden pallets and other combustible truh bg.M stc*ed near the building. The inspector expressed the concern that a cig6rette from passers-by could ignite these combustibles. Within the Control Room, the inspectors observed that spare breathing. air bottles were stored on the floor. The inspector noted that these bottles represent a missile hazard to people and equipment. i penetration Review The inspector while in the cable vault inspecting the integrity of the fire seals noted that in the Northwest corner of the room, a sound of air leakage could be heard. MD$ This sound was later determined to be air leaking from the Reactor Building to the Control Structure via an apparently degraded penetration seal. That determination was made by the licensee. A work request to repair the seal was issued while the inspectors were still on site. 9.0 Unresolved Items Unresolved items are matters for which more information is required in ' order to ascertain whether they are acceptable, violations, or deviations. An unresolved item is discussed in Section 7.0. 10.0 Exit Interview l The inspector met with licensee management representatives (see Section 23, 1989.1.0 for attendees) at the conclusion of the inspection on March inspection The inspector at that time. summarized the scope and findings of the The inspector also confirmed with the licensee that the report will not contain any proprietary information. The licensee agreed that the inspection report may be placed in the Public Document Room without prior licensee review for proprietary information. (10 CFR 2.790). , At no time during this inspection, was written material provided to the licensee by the inspector. O

6 VERMONT YANKEE i NUCLEAR POWER CORPORATION 3 Ferry Reac. Brettleboro. VT 05301 7002 ' ENGINEERING OFF'CE

                          *   .'                                                                                     SBC Warn staggt
                                            .                                                                        gates va:es:

604.??D67 U.S. Nuclear Regulatory Commission Washington, D.C. 20665 June 16, 1989 g Attention: Document Control Desk References a) License No. DPR-28 (Docket No. 50-271) b) Letter, USNRC to VYNPC, NVY 89-108, dated 6/18/89 c) Letter. VYNPC to USNRC, BVY 09-48, dated 6/2/89

Dear Sir:

Subject:

Response to Inspection Report 89-04, Notice of Violation During a routine safety inspection of Vermont fankee's fire protection program conducted on March 20-23, 1949, a violation of NRC requirements was identified. Our response to this violation is provided below. l VIOLATION Technical Specification 3.13.0 requires that the carbon dioxide fire suppression (CO2 ) systems located in the cable vault and diesel fire pump day tank room shall be operable whenever equip-ment in the area protected by the systems is required to be operable. The technical specifications require a continuous fire watch if the CO2 system in the cable vault is inoperable and an hourly fire watch if the CO2 system in the fire pump day tank room is inoperable. j In a letter to the NRC dated January 31, 1977, the licensee stated that the carbon dioxide systems at Vermont Yankee were designed to meet the requirements of the 1977 National Fire Protection Association (NFPA) Standard it. NFPA Standard 12 Section 1-7.3 specifies that the installed carbon dioxide systems shall be tested and the tests performed shall be adequate to determine that the system has been properly installed and will function as intended. The C03 systems are designed to achieve a

                                                            $0 percent concentration. In the cable vault, this concentration must be maintained for ten sinutes.

Contrary to the above, as of April 21, 1989, the C03 systems in the cable vault and in the diesel fire pump day tank room had not been demonstrated to be operable, in that no tests had been per-formed of their capability to reach &nd maintain design con-centrations of CO2 , and the appropriate fire watches had not been implemented. Dl This is a Severity Level IV Violation (Supplement 1) _ _.,__._--_.m._-._ - - - - - -

VEGMONT YANMEE NUCLE AQ POWCQ CORPORATI ,

         -i U.S. Nuclear Regulatory Commission June 16, 1989 Page 2                                                                                                                                                                         ,

RESPONSE}}