ML20215F357
| ML20215F357 | |
| Person / Time | |
|---|---|
| Site: | South Texas  |
| Issue date: | 06/24/1986 |
| From: | Losch J HOUSTON LIGHTING & POWER CO. |
| To: | |
| Shared Package | |
| ML20215F286 | List: |
| References | |
| RTR-NUREG-0737, RTR-NUREG-737 1PCP08-AP-0004, 1PCP8-AP-4, NUDOCS 8610160166 | |
| Download: ML20215F357 (30) | |
Text
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- c. FOR INFORMATION ONLY HOUSTON LIGHTING AND POWER C0ggtEgPLANT0PERATIO
,.c. SOUTH TEXAS PROJECT
','i( 4- ELECTRIC GENERATING STATION Document ContI01 Cent 0f
~'
PLANT PROCEDURES MANUAL --
... . . = Controlled Copy No. - .
STATION PROCEDURE NON SAFETY-RELATED (Q) Sampling and Analysis of the IPCP08-AP-0004 RCB Atmosphere - Post Accident Rev. O Page 1 of 30 APPROVED: d) h [ d/ 7/MI PLANT' MANAGER DATE APPROVED DATE EFFECTIVE Table of Contents Page t-j A 1.0 Discussion 2
1.1 Purpose and Scope
2
, 1.2 Definitions 2 1.3 Principle 3 1.4 Limitation 3 2.0 Prerequisites 4 3.0 Precautions 4 4.0 Procedure 4 5.0 Calculations 14 6.0 Standardization 14 7.0 Doco E' tion 14
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8.0 ReftiEEntes 14 9.0 Support Documents 14 8610160166 861009 PDR E ADOCK 05000498 pon
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Sampling and Analysis of the IPCP08-AP-0004 y,C f' RCB Atmosphere - Post Accident 'Rev. 0
-! !T' Page 2 of 30 1.0 DiscEks5En
1.1 Purpose and Scope
1.1.1 This procedure describes the steps necessary to perform in-line analyses and pull grab samples for gaseous sample sources at the' Post Accident Sampling System (PASS). 1.1.2 The scope of sampling and analysis activities within this procedure are as follows: 1.1.2.1 In-line Analyses
- a. Gross Gamma Activity
- b. Hydrogen Concentration
- c. Oxygen Concentration jk .
3r 1.1.2.2 Grab Sampling. jl
- a. Undiluted Gas
- b. Diluted Gas 1.2 Definitions 1.2.1 POST ACCIDENT SAMPLING SYSTEM (PASS): A system composed of various components that provides the capability to obtain reactor coolant and containment atmosphere samples and perform required analyses during postaccident conditions within 3 hours or less from the time a decision is made to sample.
1.2.2 LIQUID AND GAS SAMPLE PANEL (LGSP): The major fluid / mechanical component of the PASS whose purpose is to
.-I.e provide the necessary in-line instrumentation, gas
],5$[',,*;; -stripping equipment, grab sample (diluted and undiluted) g-a,,, collection points, and dilution loops.
1.2.3 SAMPLE COOLER RACK (SCR): A component of the PASS whose purpose is to provide temperature conditioning of liquid samples prior to entering the LGSP. 1.2.4 INSTRUMENT PANEL (IP): A component of the PASS whose purpose is to provide the necessary remote monitors and recorders for the in-line instrumentation located in the LGSP. Standardization liquids and gases needed in the LGSP are regulated form the IP.
~ 1 Sampling and Analysis of the IPCP08-AP-0004 Rev. 0
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RGB Atmosphere - Post Accident Page 3 of 30
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1.L 5 WASTE COLLECTION UNIT (WCU): A component of the PASS
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designe'd to collect waste liquids from the SCR and LGSP. 1.2.6 ELECTRICAL CONTROL PANEL (ECP): A component of the PASS whose purpose is to provide electrical support equipment necessary for remote operation of the SCR, LGSP, IP, and WCU. , 1.3 ' Principle 1.3.1 The South Texas Project Electric Generating Station (STPEGS) Post Accident Sampling System (PASS) consists of five modular units which provide sampling selection, conditioning, analysis, instrument readout, operational control, grab sampling, dilution capabilities, and waste collection. 1.3.2 The system is designed to allow remote sample source selection, and flushing of the sample inlet line(s) an portion of the internal LGSP piping. Once these flushSg operations are completed, the decision whether to collit dilute or undiluted samples is made. 1.3.3 Af ter these decisions have been made, the in-line gross gamma activity, hydrogen and oxygen determinations are parformed. Completion of the other tasks (sample dilution / collection and undiluted sample collection) can proceed independently. I 1.3.4 Upon completion of all desired sampling and analysis activities on a given sample source, the PASS is then ; 1 completely flushed with Argon in preparation for the next sample source or in preparation for shutdown of the system. 1.4 Limitations . 1 1.4.1 Accuracy and analytical range of the gas chromatograph is
. ._ . ; 2 ' as follows:
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,;,./;.]. ., Analysis Range Accuracies Hydrogen 0-10% by volume +/-5% of scale l l
oxygen 0-30% by volume +/-5% of scale Gross Gamma 0-2000 mR/sec +/-0.5% of full scale Activity (uncorrected) 1.4.2 The PASS operations described in this procedure are designed to be performed by a minimum of 3 technicians in order to accomplish all tasks in an orderly timely manner.
Gampling and Analysis of the IPCP08-AP-0004
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2.0 Prere_quisites 2.1 The PASS analytical instrumentation shall be powered up, flushed out, and standardized prior to use in accordance with IPCP08-AP-0002 (Operation and !!aintenance of the Post Accident Sampling System). I 3.0 Precautions 3.1 Sample collection, preparation and analysis shall be performed under applicable Radiation Work Permits. 3.2 All personnel working within the PASS facility shall be responsible for ensuring that radiation exposure associated with implementing this procedure is kept as low as reasonably achievable (ALARA). 3.3 Personnel transferring radioactive material shall use measures l necessary to prevent the spread of contamination during packaging ' and transporting in accordance with applicable procedure (s). 4.0 Procedure j( e-4.1 Verify that the PASS has been started up in accordance with IPCP08-AP-0002 (Operation and Maintenance of the Post Accident Sampling System). 4.2 Position the PASS components in accordance with the Operational PASS Component Checklist (-1). 4.3 Request Reactor Operations to open, or verify open, the following Containment 1 solation Valves. Valve Name Valve Number 11 Sample INL IC1V l-CM-FV-4136 2 PASS Containment Atmosphere 1-AP-FV-2456 Sample Inlet OCIV
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. . 2.*: F
.JEAIS' Containment Atmosphere 1-AP-FV-2457 i9am{1eDischargeOCIV H Sample Discharge ICIV l-CM-FV-4134 2
O* Sampling and Analysis of the IPCP08-AP-0004
. ,. . RCB Atmosphere - Post Accident Rev. 0 '
Page 5 of 30
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4.4 Request Reactor Operations to open, or verify open, the appropriate Containment Atmosphere Sample Valve. Valve Name Valve Number Sample Select Valve No. 2 1-CM-FV-4103 Sample Select Valve No. 4 1-CM-FV-4129 Sample Select Valve No. 7 1-CM-FV-4130 Sample Select Valve No. 8 1-CM-FV-4131 4.5 Record the selected sample point, date and time on the RCB Atmosphere Data Sheet (-2). 4.6 Connect the removable Diluted Gas Sample bomb to the front of the LGSP and open Removable Gas Sample Vessel Outlet Isolation Valveg , (1-AP-KAP-219). t
.e-d' 4.7 IF an undiluted gas sample is desired, THEN perform one of the following.
4.7.1 For post accident operation, connect the shielded Undiluted Gas Sample Cask to the front of the LGSP. 4.7.2 For daily (normal) operation, connect the unshielded Undiluted Gas Bomb to the f ront of the LGSP. 4.8 IF step 4.7 was performed, THEN place both Gas Sample Cask Valves in the " SAMPLE" position. 4.9 Evacuate the PASS gas sampling and analysis system as follows. 4.9.1 Start Vacuum Pump, P2(1-AP-PA-202) and evacuate until Pressure Indicator (1-AP-PI-2523) indicates a system pressure of -12.0 psig.
- n. : ,_ .
$f.7Y2 Then place the Undiluted Gas Sample Cask Outlet Valve
~.l'.*. V28(1-AP-MOV-2497) in position "B".
4.9.3 Continue running Vacuum Pump P2(1-AP-PA-202) until Pressure Indicator (1-AP-PI-2524) indicates a system pressure of
-12.0 psig.
4.9.4 Then place the Undiluted Gas Sample Cask Outlet Valve V28(1-AP-MOV-2497) in position "D", close the Vacuum Pump Suction Valve V29(1-AP-FV-2535) and stop Vacuum Pump P2(1-AP-PA-202). _~
' Sampling and Analysis of the IPCP08-AP-0004 c- RCB Atmosphere - Post Accident Rev. 0
'.[, ,: - Page'6 of 30 4.10 Open the RCB Atmosphere Sample Inlet Valve V101(1-AP-FV-2465) and the Vacuum Pump Suction Valve V29(1-AP-FV-2535), and place the Gas Sample / Calibration Gas Inlet Valve V26(1-AP-MOV-2498) into position "2".
4.11 Start Vacuum Pump P2(1-AP-PA-202) and circulate containment gas into the LGSP for 2-3 minutes. Refer to Addendum 1 for the correct flow path. 4.12 Obtain a gross gamma measurement (if required)'as follows. 4.12.1 IF a gross gamma determination is not required, THEN proceed to Step 4.13. 4.12.2- Verify that the probe volume indicator on the meter display shows 33 cc. 4.12.3 Verify that the range selection on the meter is in the jk.
"AUT0" mode.
4.12.4 Zero the output scale by pressing the "ZER0" function button. 4.12.5 Observe the display, it should read 0 + 4 units (40uV). 4.12.6 IF the display reads outside this range, turn the "ZERO ADJUST" knob to correct the reading. 4.12.7 Depress the " EXPOSURE RATE" function button to display the exposure rate in MR/ min or R/ min. 4.12.8 Convert the meter readings of mR/ min or R/ min to uCi/cc using the table in Addendum 3 (Punchlist 1.0). 4.12.9 Report the exposure rate and activity values to the Lead Chemical Technician IMMEDIATELY.
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'C' : ~ . NOTE Data Sheets may be completed later in a low dose area.
4.12.10 Record the exposure rate and activity values on the RCB Atmosphere Data Sheet (-2).
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' Sampling and Analysis of the IPCP08-AP-0004
, , , ,. c RCB Atmosphere - Post Accident Rev. 0
.. Page 7 of130 f,4. 42.11 IF the gross gamma reading is f,10 mR/ min (0.01'R/ min),
__THEN consult Health and Safety Services to ' determine if the unshielded Undiluted Gas Sample Bomb may be used in step 4.7.1 for Post Accident Operation. 4.12.12 Close the Vacuum Pump Suction Valve V29(1-AP-FV-2535) and stop Vacuum Pump P2(1-AP-PA-202). 4.13 Collect an diluted gas sample as follows. 4.13.1 IF 'a' diluted gas _ sample is - not required, THEN proceed to step 4.14. 4.13.2 Place the Undiluted Gas Sample Cask Inlet Valve V27(1-AP-MOV-2499) in position "B" and observe Pressure Indicator (1-AP-PI-2524). NOTE j( Valve the Undiluted Gas Sample Cask Inlet Valve V27(1-AP-MOV-2499) may need to be cycled several times to achieve 0.0 psig on Pressure Indicator (1-AP-PI-2524). 4.13.3 When Pressure Indicator (1-AP-PI-2524) indicates a system pressure of 0.0 psig, place the Undiluted Gas Sample Cask Inlet Valve V27(1-AP-MOV-2499) in position "D". 4.13.4 Record the pressure reading form Pressure Indicator (1-AP-PI-2524) on the RCB Atmosphere Data Sheet (-2). 4.13.5 If a 100/1 dilution is required, place the Gas
. . Chromatograph Outlet Valve V32(1-AP-MOV-2501) in the
([;j?)[, " DILUTE" position. If a 10,000/1 dilution is required,
.* 9? place the Vacuum Reservior Inlet Valve V33(1-AP-MOV-2502) 4}NI, , in the " DILUTE" position. .
4.13.6 Open the 50 psig Argon Inlet Valve \23(1-AP-FV-2536) and place the Undiluted Gas Sample Cask Outlet Valve V28(1-AP-MOV-2497) in position "A". 4.13.7 Verify that Pressure Indicator (1-AP-PI-2540) is reading 50 psig. 4.13.8 Open LGSP Argon Inlet Valve V31(1-AP-FV-2500).
~ Sampling and Analysis of the IPCP08-AP-0004
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. When Pressure Indicator (1-AP-PI-2523) indicates psig, return the Gas Chromatograph Outlet Valve V32(1-AP-MOV-2501) or the Vacuum Reservoir Inlet Valve V32(1-AP-MOV-2502) to the " SAMPLE" position.
4.13.10 Close LGSP Argon Inlet Valve V31(1-AP-FV-2500). 4.13.11 Allow 3-4 minutes for gaseous diffusion and uniform mixing. 4.13.12 Close the Diluted Gas Sample Vessel Inlet Valve V34(1-AP-FV-2503) and the Removeable Gas Sample Vessel Outlet Isolation Valve (1-AP-KAP-219). 4.13.13 Disconnect the removable diluted gas sampling bomb. 4.14 Collect an undiluted gas sample as follows. Refer to Addendum 2 for the correct flow path. 4.14.1 IF an undiluted gas sample is not required, THEN proceh to
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step 4.15. a 4.14.2 Place the Undiluted Gas Sample Cask Inlet Valve V27(1-AP-MOV-2499) in position "C" and open the Vacuum Pump Suction Valve V29(1-AP-FV-2535). 4.14.3 Start Vacuum Pump P2(1-AP-PA-202) and purge for 2-3 minutes to ensure a representative sample has been obtained. 4.14.4 Stop Vacuum Pump P2(1-AP-PA-202), and place the Gas Sample / Calibration Gas Inlet Valve V26(1-AP-MOV-2498) in the "0FF" position. 4.14.5 Place both Sample Cask Valves in the "BY PASS" position to capture the gas sample. 4.14.6 Open the 50 psig Argon Inlet Valve V23(1-AP-FV-2536), the
. . 40 psig Calibration Gas Inlet Valve V25(1-AP-FV-2537) and
.ij-}i[, the Argon Distribution Isolation Valve (1-AP-KAP-305).
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4{4,'i4.7 Place the Gas Sample / Calibration Gas Inlet Valve, V26(1-AP-MOV-2598) in position "1". 4.14.8 Fully open Rotometer (1-AP-FICV-2546) and start Vacuum Pump ' P2(1-AP-PA-202). t NOTE + Pressure Indicator (1-AP-PI-2540) should read 45-50 psig and Flow Indicator (1-AP-FS-2527) should be lit.
Sampling and Analysis of the IPCP08-AP-0004
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. Page 9 of 30 r4.-14 . 9 After 5 minutes, close the 40 psig Calibration Gas Inlet Valve V25(1-AP-FV-2537) and the Argon Distribution Isolation Valve (1-AP-XAP-305), stop Vacuum Pump P2(1-AP-PA-202) and close Rotometer (1-AP-FICV-2546).
4.14.10 Place, or verify the following valves in the position shown below. Valve Name Valve Number Position Gas Discharge Diversion V30(1-AP-MOV-2496) 0FF , Valve Vacuum Pump Suction Valve V29(1-AP-FV-2535) CLOSED Undiluted Gas Sample Cask V28(1-AP-MOV-2497) "D" Outlet Valve Gas Sample / Calibration Gas V26(1-AP-MOV-2498) 0FF Inlet Valve )( s Undiluted Gas Sample Cask V27(1-AP-MOV-2499) "D" Inlet Valve < 20 psig Argon Inlet Valve V24(1-AP-FV-2537) CLOSED Argon Supply Isolation I-AP-XAP-301 CLOSED-Valve Undiluted Gas Sample Cask 1-AP-XAP-216 CLOSED Inlet Isolation Valve Undiluted Gas Sample Cask 1-AP-XAP-217 CLOSED Outlet Isolation Valve 4.14.11 Remove the Undiluted Gas Sample Cask as follows. J5: $ '.
. a. For the shielded Undiluted Gas Sample Cask, disconnect
[*.71'i the cask and prepare for shipment of fsite in accordance
""/T> ..** with OPRP03-ZM-0014 (Movement of Material Out of Radiologically Controlled Area) and OPGP03-ZR-0020 (Shipment of Radioactive Material).
- b. For the unshielded Undiluted Gas Sample Bomb, disconnect the bomb and prepare for gamma isotopic analysis in accordance with OPCP08-AP-0005 (Determination of Radiouclides - Post Accident).
4
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Sampling and Analysis of the- IPCP08-AP-0004
,,,,., RCB Atmosphere - Post Accident Rev. 0
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. _ Page 10 of 30 4.15:.P.erform a containment gas analysis (if required) as follows.
4.15.1 IF a containment gas analysis is not required, THEN proceed to step 4.16. 4.15.2 Verify that the G.C. has been standardized and that the G.C. system is operational as follows. 4.15.2.1 Verify that 50 psig Argon carrier gas is available. ,
< NOTE Any deviation from 50.0 psig will affect the accuracy of the gas analysis.
4-3, . a. 4.15.2.2 Verify that the Argon Distribution Isolation d' Valve (1-AP-XAP-305) is closed, the Argon Supply Isolation Valve (1-AP-KAP-301) is open, and that Pressure Indicator (1-AP-PI-2540) reads 50.0 psig. 4.15.2.3 Verify that the 50 psig Argon Inlet Valve, V23(1-AP-FV-2536) is in the "0 PEN" position. NOTE If the red light is lit, then there is no carrier gas flow in the G.C.
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Ja** 4.15.2.4 Verify that the G.C. has been turned on and that 4~$'; , the red light on the G.C. is NOT lit. 4.15.3 Setup the G.C. and recorder for containment gas sampling as follows. 4.15.3.1 Depress the MANUAL button on the front of the ' G.C. and then depress the CLEAR button. 4.15.3.2 Verify an adequate supply of chart recorder paper. 1
. = . . , . . _ _ _ _ _ . . _ . _ - _ _ _ _ . _ , _ , . , _ _ , . . _ _ _ _ _ . . _ _ . _ _ , _ . _ . _ _ , _ , _ _ _ _ _ _ . , _ , _ _ , _ , . _ . , _ ,
Sampling and Analysis of the IPCP08-AP-0004 yc 4* RCB Atmosphere - Post Accident Rev. 0
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'- '- 4.15.3.3 Verify that_the G.C. Recording Integrator is on and programmed in accordance with IPCP08-AP-0002 .
(Operation and Maintenance of the Post Accident Sampling System). 4.15.3.4 Turn the G.C. output by entering command code "01"~into the keyboard of the G.C. 4.15.3.5 Verify a baseline on the chart recorder at 10% of scale. 4.15.4 Verify that the platen (c lumn) temperature has stabilized 0 at the set point of 75 C as follows. 4.15.4.1 Enter code "35" to display the set point of the platen temperature. 4.15.4.2 Enter code "45" to display the actual platenjk=. temperature. . e 4.15.4.3 Enter code "46" to release the platen temperature display. NOTE This will take approximately 10 - 15 minutes. 4.15.4.4 Repeat the above two steps until the two temperatures agree within 1 grid mark on the recorder. 4.15.4.5 Enter code "00" to reset all functions.
; . s ;-
'j{.1;5. 5 Select the analyzer ATTENUATION by depressing the following buttons on the G.C.
4.15.5.1 100 (100, x1) 4.15.6 Program the G.C. microprocessor as follows. 4.15.6.1 Release the ENTER button. 4.15.6.2 Depress the CLEAR button. 1
- Sampling and Analysis of the IPCP08-AP-0004
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r 4.15.6.3 Enter code "01" to display the first line of the program. 4.15.6.4 Verify the contents of line 1 in accordance with Addendum 4. 4.15.6.5 Continue to verify the remaining program lines in accordance with Addendum 4. 4.15.6.6 If the data in any of the program lines are incorrect, return to the ENTER mode, CLEAR, and re-enter the correct data. 4.15.7 Place, or verify the following valves in the position shown-below: Valve Name Valve Number Position Gas Stripping Cylinder V21(1-AP-FV-2491) CLOSED b Inlet / Outlet Valve h Gas Stripping Cylinder V22(1-AP-MOV-2493) 0FF Deionized Water Valve Gas Stripping Diversion V30(1-AP-MOV-2496) "2" ' Valve Undiluted Gas Sample Cask V28(1-AP-MOV-2497) "B" Outlet Valve Gas Sample / Calibration V26(1-AP-MOV-2498) 0FF Gas Inlet Valve Undiluted Gas Sample Cask V27(1-AP-MOV-2499) "A" Inlet Valve
, ,1 , , . LGSP Argon Inlet Valve V31(1-AP-FV-2500) CLOSED
* :lP ,;. .
$*.' .' ?'i Gas Chromatograph outlet V32(1-AP-MOV-2501) SAMPLE
'TS' .' " - Valve Vacuum Reservoir Inlet V33(1-AP-MOV-2502) SAMPLE Valve l Diluted Gas Sample Vessel V34(1-AP-FV-2503) CLOSED-Inlet Valve Vacuum Pump Suction Valve V29(1-AP-FV-2535) OPEN l -
L
Sampling and Analysis of the IPCP08-AP-0004
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RCB Atmosphere - Post Accident Rev. 0
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- 4.-1:5.8 Evacuate the PASS gas sampling and analysis system as follows.
4.15.8.1 Start Vacuum Pump P2(1-AP-PA-202) and evacuate until Pressure Indicator (1-AP-P1-2524) indicates a system pressure of -12.0 psig. 4.15.8.2 Then place the Undiluted Gas Sample Cask Outlet Valve V28(1-AP-MOV-2497) in position "D", close the Vacuum Pump Suction Valve V29(1-AP-FV-2535) and stop Vacuum Pump P2(1-AP-PA-202). 4.15.9 Open the Vacuum Pump Suction Valve, V29(1-AP-FV-2535), and place the Gas Sample / Calibration Gas Inlet Valve V26(1-AP-MOV-2498) into position "2". 4.15.10 Start Vacuum Pump P2(1-AP-PA-202) and circulate containment gas into the LGSP for 2-3 minutes. gg. 4.15.11 Whencompleted,placetheUndilutedGasSampleCaskIn[ht Valve V27(1-AP-MOV-2499) into position "D", stop Vacuud' Pump P2(1-AP-PA-202), and close the Vacuum Pump Suction Valve V29(1-AP-FV-2535). 4.15.12 Inject the containment gas sample into the G.C. sample loop as follows. 4.15.12.1 Place the Undiluted Gas Sample Cask Inlet Valve V27(1-AP-MOV-2499) into position "B". 4.15.12.2 When Pressure Indicator (1-AP-PI-2524) stabilizes, record this pressure on the RCB Atmosphere Data Sheet (-1). 4.15.12.3 Place the Undiluted Gas Sample Cask Inlet Valve V27(1-AP-MOV-2499) into position "D".
$.kYlh.13 Start a G.C. analysis by completing the following stepa.
. . * . ~ .~
435': . 4.15.13.1 Depress the AUTO button, and press the CLEAR button. 4.15.13.2 Whren the program has finished and the G.C. has reset, release the AUTO button and press the CLEAR button. 4.15.13.3 Identify the recorded data with the date, time, type of sample and attenuation factor.
Sampling and Analysis of the IPCP08-AP-0004
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. Page 14 of 30 ra.15.14 Record the G.C. results (concentration (%) of dissolved hydrogen and oxygen in Gas Stripping Tank 1-AP-TA-202 in ppm) on the RCB Atmosphere Data Sheet (-2).
4.15.15 Report the containment gas analysis results to the Lead Chemical Technician IMMEDIATELY. NOTE Data Sheets may be completed later in a low dose area. 4.15.16 Record the containment gas analysis results (% by volume hydrogen and oxygen) on the RCB Atmosphere Data Sheet gg2). 4.16Uponcompletionofallsamplingandanalysisactivities, flush $he PASS in accordance with IPCP08-AP-0002 (Operation and Maintenan85 of the Post Accident Sampling System). 5.0 Calculations 5.1 None 6.0 Standardization 6.1 Standardization of the PASS is performed in accordance with IPCP08-AP-0002 (Operation and Maintenance of the Post Accident Sampling System). 7.0 Documentation 7.1 Logsheets and reports and dispositioned in accordance with
,,0PCP,01-ZA-0011 (Chemical Laboratory Logsheets and Reports).
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8.0 Refefd46es
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8.1 " Operation, Calibration, and Maintenance Manual for the Post Accident Sampling System for the South Texas Project - Units NO. 1 & 2, 4314/8314-00064-BNV, July 17, 1985, Revision 0. 8.2 1PCP08-AP-0002 Operation and Maintenance of the Post Accident Sampling System, Rev. 0 8.3 OPCP08-AP-0005 (Determination of Radionuclides - Post Accident, Rev 0
- Sampling and Analysis of the IPCP08-AP-0004
-4* 0+ RCB Atmosphere - Post Accident Rev. 0
'.'h~,j - Page 15 of 30 8.4 'OPRP03-ZM-0014 (Movement of Material Out of Radiologically Controlled Area), Rev. 0 8.5 OPGP03-ZR-0020 (Shipment of Radioactive Material), Rev. 0 9.0 Support Documents ,
9.1 Operational PASS Component Checklist (-1) 9.2 RCB Atmosphere Data Sheet (-2) 9.3 Addendum 1 - Sample Inlet Line Flushing Flow Path 9.4 Addendum 2 - LGSP Undiluted Gas Sample Bomb Flushing Flow Path 9.5 Addendum 3 - Gross Gamma Conversion Chart 9.6 Addendum 4 - G.C. Microprocessor Program. jk... 9.7 Addendum 5 - Punchlist - 9 h aa
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-Sampling and Analysis of the -IPCP08-AP-0004
,,.c. RCB Atmosphere - Post Accident Rev. O.
,;' ,q - Page 16 of 30 f...-- OPERATIONAL PASS COMPONENT CHECKLIST iPCP08-AP-0004-1 (Page 1 of 9) 4
' Checklist Commenced:
Date/ Time CHECKLIST EXCEPTIONS COMPONENT NUMBER COMPONENT NAME REMARKS h: JL 6' Checklist Performed By: Print Name Sample Initials
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Checklist Completed By: Chemical Technician Date/ Time Reviewed By: Lead Chemical Technician Date/ Time This FORM, when completed, shall be retained for the life of the plant.
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Sampling and Analysis of the IPCP08-AP-0004
; e c- RCB Atmosphere - Post Accident 'Rev.,0
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. - :- OPERATIONAL PASS COMPONENT CHECKLIST IPCP08-AP-0004-1 * .
(Page 2 of 9)
- y CHECKLIST EXCEPTIONS -
s COMPONENT NUMBER COMFONENT NAME REM $ftKS. s s
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4-
=
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. . - . _ . . - - - - _ - _ - . ..- . - - .- . . _ . . _ - . - .. --- . ,. ~ . .- -
up Saepling and Analysis of the IPCP08-AP-0004 RCR Atmosphere - Post Accident Rev. O I Page.18 of 30 1 ) OPERATIONAL PASS COMPONENT CHECKLIST IPCPO8-AP-0004-1 ) (Page 3 of 9) { . h 's 9' . 4< COMPONENT .t;;ff;* COMPONENT NAME LOCATION POSITION PERFORMED 5)EMARKS NUMBER *'*f.,*.**.
, REQUIRED BY d 'f.
- **** VALUE LINEUP **** i t
!. V-1 (1-AP-MOV-2486) Liquid Sample Diversion Valve ECP C- i i j V-2 (1-AP-FV-2561) Liquid Sample Dilution Loop Inlet Valve ECP CLOSED l V-3 (1-AP-MOV-2562) Liquid Sample Pressure Reduction Selector Valve ECP D I V-4 (l-AP-MOV-2495) Liquid Sample / Calibration Liquid Selector Valve ECP OFF
! V-5 (1-AP-MOV-2488) Liquid Sample Metering Valve ECP CLOSED l
V-6 (1-AP-MOV-2554) Analyzer Bypass Metering Valve ECP CLOSED ! V-7 (1-AP-MOV-2509) Liquid Discharge Valve ECP 2 ) V-8 (l-AP-FV-2489) Undiluted Liquid Sample Cask Valve ECP CLOSED ) . J V-9 (1-AP-MOV-2485) 10 cc Bite Inlet Valve ECP B i j V-10 (1-AP-MOV-2494) 10 cc Bite outlet Valve ECP D ! V-Il (1-AP-MOV-2504) Dilution Pump Discharge Valve ECP D 1 1 V-12 (1-AP-MOV-2665) Liquid Sample Dilution Loop Control Valve ECP C V-13 (1-AP-MOV-2557) Liquid Sample Divertor Valve ECP C V-14 (1-AP-FV-2507) Dilution Vessel Overflow Valve m im ECP CLOSED
} n , 7-l V-15 (1-AP-FV-2506) Dilution Vessel overflow Valve ECP CLOSED i
1
Serpling and Anatysis 'of the IPCP08-AP-bO44 RCB Atmosphere - Post Accident Rev. O Page 19 of 30
. OPERATIONAL PASS COMPONEfff CHECKLIST IPCPU8-AP-0004-1 (Pege 4 of 9)
N N k. P .g *; s COMPONENT . ~. * ! ' t - COMPONENT NAME LOCATION POSITION PERFORMED.. ', REMARKS NUMBER ;
- REQUIRED BY ' ' *
-l Dilution Vessel Deionized l V-16 (1-AP-MOV-2505) Water / Nitrogen Inlet Valve ECP OFF V-17 (1-AP-FV-2545) Deionized Water Inlet Valve ECP OPEN l
V-18 (1-AP-MOV-2490) Deionized Water / Nitrogen Purge Inlet Valve ECP OFF V-19 (1-AP-FV-2508) LCSP Spray / Wash System Inlet Valve ECP CLOSED V-20 (1-AP-FV-2539) 15 psig Nitrogen Inlet Valve ECP CLDSSD V-21 (1-AP-FV-2491) Gas Stripping Cylinder Inlet / outlet Valve ECP CLOSED V-22 (1-AP-FV-2493) Gas Stripping Cylinder Deionized Water Valve ECP OFF V-23 (1-AP-FV-2536) 50 psig Argon Inlet Valve ECP OPEN V-24 (1-AP-FV-2538) 20 psig Argon Inlet Valve ECP CLOSED V-25 (1-AP-FV-2537) 40 psig Calibration Gas Inlet Valve ECP CLOSED V-26 (1-AP-MOV-2498) Gas Sample / Calibration Gas Inlet Valve _ ECP OFF V-27 (1-AP-MOV-2499) Undtluted Gas Sample Cask Inlet Valve ECP A V-28 (1-AP-MOV-2497) Undiluted Gas Sample Cask Outlet Valve ECP A
'V-29 (1-AP-FV-2535) Vacuum Pump Suction' Valve ECP UPEN V-30 (1-AP-MOV-2496) Gas Discharge Diversion Valve 644t $$b. ECP 2
Serpling and Analysis of the IPCP08-AP-0004 RCB Atmosphere - Post Accident Rev. O Page 20 of 30 OPERATIONAL PASS COMPONENT CHECKLIST IPCP08-AP-0004-1 l (Page 5 of 9) - P
. i q '. i * ,
COMPONE!C .) * ; ,'(l
- COMPONENT NAME LOCATION POSITION PERFORMED 'hRKS NUMBER ' , ' ;f .* ,.' , REQUIRED BY d h c.
V-31 (1-AP-FV-2500) LGSP Argon Inlet Valve ECP CLOSED V-32 (1-AP-MOV-2501) Gas Chromotograph Outlet Valve ECP SAMPLE V-33 (1-AP-MOV-2502) Vacuum Reservoir Inlet Valve ECP SAMPLE V-34 (1-AP-FV-2503) Diluted Gas Sample Tessel Inlet Valve ECP OPEN V-35 (1-AP-FV-2487) Liquid Sample Pressure Regulator Bypass Valve ECP CLOSED V-101 (1-AP-FV-2465) RCH Atmosphere Sample Inlet Valve ECP CLOSED V-102 (1-AP-FV-2466) RCB Atmosphere Sample Inlet Valve ECP CLOSED V-103 (1-AP-FV-2467) RCB Atmosphere Sample Inlet Valva ECP CLOSED V-104 (l-AP-FV-2468) RCS Sample Inlet Valve ECP CLOSED V-105 (1-A?-FV-2469) RHR Sample Inlet Valve ECP CLOSED' V-106 (l-AP-FV-2470) RCB Sump Sample Inlet Valve ECP CLOSED V-107 (1-AP-FV-2471) Spare Sample Inlet Valve ECP CLOSED V-108 (1-AP-FV-2472) Spare Sample Inlet Valve ECP CLOSED V-109 (l-AP-FV-2482) Liquid Sample Outlet Valve ECP CLOSED V-Il0 (1-AP-FV-2473) Deionized Water Inlet Valve ., 1 mm. ECP OPEN nr , n
Sarpling and Analysis of the IPCP08-AP-0004 RCB Atmospliere - Post Accident Rev. O Page 21 of 30 OPERATIONAL PASS CortPONENT CllECKLIST 1PCP08-AP-0004-1 (Page 6 of 9)
. .h 'e l -
COMPONENT '.,i.'; ; '(, ' COMPONENT NAME LOCATION POSIT 10N PERFORMED', R $ KS
~
NUMBER *
- lf .*,.' .
, REQUIRED BY d - ) <.
V-Ill (1-AP-MOV-2478) Deionized Water Flush Selector Valve ECP A V-ll2 (1-AP-MOV-2558) Deionized Water Flush Selector Valve ECP A V-ll3 (1-AP-FV-2559) Flush Water Drain Valve ECP CLOSED V-Il4 (1-AP-FV-2484) liigh Pressure Purge Outlet Valve ECP CLOSED V-Il5 (1-AP-MOV-2516) Waste Collection Unit Discharge Diversion Valve ECP 1 1-AP-XAP-113 Sample Cooler (HX-101) Inlet Isolation Valve SCR OPEN 1-AP-XAP-114 Sample Cooler (IlX.-101) Outlet Isolation Valve SCR OPEN 1-AP-XAP-ll5 Sample Cooler (HX-102) Inlet isolation Valve SCR OPEN 1-AP-XAP-ll6 Sample Cooler (liX-102) Outlet Isolation Valve SCR OPEN 1-AP-XAP-117 Sample Cooler (IlX-103) Inlet isolation Valve SCR OPEN P l-AP-XAP-ll8 Sample Coole'r (llX-103) Outlet Isolation Valve SCR OPEN 1-AP-XAP-119 Sample Cooler (HX-104) Inlet Isolation Valve SCR OPEN 1-AP-XAP-120 Sample Cooler (HX-lG4) Outlet Isolation Valve SCR OPEN 1-AP-XAP-121 Cooling Water Inlet Isolation Valve SCR OPEN 1-AP-XAP-122 Cooling Water Outlet Isolation Valve . , . SCR OPEN y,9
- ,r. - , - - - . -
Sampling ' and Analy:,is of the IPCP08-AP-006. . RCB Atmosphere - Post Accident Rev. O Page 22 of 30 OPERATIONAL PASS COMPONENT CHECKLIST I IPCP08-AP-0004-1 f (Page 7 of 9) COMPONENT y'.;;g',
. COMPONENT NAME IDCATION POSITION PERFORMED ,KMARKS a.
l NUMBER . 8 .5 ' , *.. REQUIRED .BY 7, . . Iri-liis ' Isotopic Analyzer (Gas)
) 1-AP-XAP-123 Outlet Isolation Valve SCR CLOSED ;
j In-line Isotopic Apalyzer (Liquid) . 9 l-AP-XAP-124 Outlet Isolation Valve SCR CLOSED Undiluted Liquid Sample Cask 1-AP-XAP-214 Inlet Isolation Valve LCSP CLOSED
; Undiluted Liquid Sample Cask ; l-AP-XAP-215 Outlet Isolation Valve LGSP CLOSED i Undiluted Gas Sample Cask 1-AP-XAP-216 Inlet Isolation Valve LCSP OPEN l Undiluted Gas Sample Cask ! l-AP-XAP-217 Outlet Isolation-Valve LCSP OPEN Removable Gas Sample Vessel 1-AP-XAP-219' Outlet Isolation Valve LCSP CLOSED ._
i 1 1-AP-XAP-220 Boron Analyzer Inlet Isolation Valve LGSP CLOSED Undiluted Liquid Sample 1-AP-XAP-222 Cask Line Metering Valve LGSP 50 cc/ min
, Ion Chromatograph Calibration Pump l l-AP-XAP-224 Inlet Isolation Valve LCSP CIDSED i
1-AP-XAP-301 Argon Supply Isolation Valve IP OPEN 1-AP-XAP-302 10% 0xygen in Argon Supply Isolation Valve IP CIDSED 1000 PPM Hydrogen I-AP-XAP-303 __ _in Argon Supply Isolation Valve IP CLOSED d 1-AP-XAP-304 5% liydrogen in Argon Supply isolation Valve IP CLOSED 1-AP-XAP-305 Argon Distribution Isolation Valve IP CLOSED
$H p.
l N
, _ _ _ g . -, , , .
Sarpling ' and Analy sis of the IPCPQ8-AP-Ou..,
, RGB Atmosphere - Post Accident Rev. O ; Page 23 of 30 OPERATIONAL PASS COMPONENT CllECKLIST IPCP08-AP-0004-1
] (Page 8 of 9) COMPONENT COMPONENT NAME IDCATION POSITION PERFORMED
- kEMARKS Q. ';',; j **. , ,g 8'
NUMBER .,**t. REQUIRED BY . s
..-9;.,- :. . ;
1-AP-XAP-308 N*trogen Supply Isolation Valve IP OPEN 4 1-AP-XAP-314 Calibration Solution Tank Rinse IP CLOSED _ l-AP-XAP-315 Instrument Air Supply Isolation Valve IP INSTR AIR Calibration Liquid 1-AP-XAP-316 Transfer Pump Isolation Valve IP CLOSED t - 1-AP-XAP-602 Waste Collection Tank Pump Isolation Valve WCU CLOSED-1-AP-XAP-603 Waste Collection Tank Pump Isolation Valve WCU CLOSED COMPONENT COMPONENT NAME lhCATION POSITION PERFORMED REMARKS NUMBER REQUIRED BY
**** PUMP LINEUP ****
l ( P-1 (1-AP-PA-201) Dilution Loop Circulation Pump ECF STOP
~
l P-2 (1-AP-PA-202) Vacuum Pump ECP STOP P-3 (1-AP-PA-301) Transfer Pump ECP STOP l P-4 (1-AP-PA-302) Deionized Water Booster Pump ECP STOP i P-5 (1-AP-PA-601) Liquid Waste Transfer Pump ECP AUTO P-6 (1-AP-PA-602) Gas Waste Transf er Pump ECP- STOP P-7 (1-AP-PA-001) Liquid Sump Pump ECP STOP-P-8 (1-AP-PA-203) Chloride Standard Pump LGSP STOP
- c- . , - -
Sanpling and Analysts of the IPCP08-AP-000,- RCB Atmosphere - Post Accident Rev. O Page 24 of 30 I OPERATIONAL PASS COMPONENT CHECKLIST j IPCP08-AP-0004-1 (Page 9 of 9) . 3 - COMPONENT . 'j'. ', ; j'. , COMPONENT NAME LOCATION POSITION PERFORMED S NUMBER
. ' . * ?, .
REQUIRED BY 7 J @8*
.n. ..; ,-
s
**** ELECTRICAL LINEUP ****
Breaker No. 1 Main Circuit Breaker ECP DN e i 3 Breaker No. 2 Boron Analyzer Power , ECP ON Breaker No. 3 Pump Power ECP ON l ! Breaker No. 4 Electrical Control Panel Power ECP ON Breaker No. 5 Instrument Panel Power ECP ON Breaker No. 6 Auxiliary Power ECP ON I i 1 L 4 i ' 8
Sampling-and Analysis of the IPCP08-AP-0004 y >; a* RCB Atmosphere - Post Accident- Rev. 0
.T t- Page 25 of 30
' ~
I- RCB ATMOSPHERE DATA SHEET 1PCP08-AP-0004-2 (Page 1 of 1) Sample Point: , Sample Date/ Time:
- 1. Gross Gamma: MR/ min or R/ min uCi/cc
- 2. 1-AP-PI-2524 psig
- 3. Hydrogen: % by volume
- 4. Oxygen: % by volume
_h-1
, REMARKS
.: _l;$ ':[,
ferformei!".(([
> - - Chemical Technician Date/ Time Reviewed by:
Lead Chemical Technician Date/ Time This FORM, when completed, shall be retained for the life of the plant.
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, - - - - . . , - , , . - - - - --nn -, n---- - - - , - - . . - , - - ---
Sampling and Analysis of the IPCP08-AP-0004 y, C O ' RCB Atmosphere - Post Accident Rev. 0
.: ,t- Page 26 of 30
'- ~- ADDENDUM 1 SAMPLE INLET LINE FLUSHING FLOW PATH (Page 1 of 1)
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Sampling and Analysis of the IPCP08-AP-0004 y,2; @ RCB Atmosphere - Post Accident Rev. 0
.m- Page 27 of 30
'- '- ADDENDUM 2 LCSP UNDILUTED GAS SAMPLE BOMB FLUSHING FLOW PATH (Page 1 of 1)
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Sampling and Analysis of the IPCP08-AP-0004
-,.0 RCB Atmosphere - Post Accident Rev. 0 Y'[,j;- Page 28 of.30
- . . -r ADDENDUM 3 GROSS GAMMA CONVERSION CHART (Page 1 of 1)
(Punchlist 1.0)
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,N?$:.
' . 8 .. .:-.
8'5:".
Sampling and Analysis of the IPCP08-AP-0004 3". C 9' RCB Atmosphere - Post Accident Rev. 0 5 lr- Page 29 of 30 ADDENDUM 4 G.C. MICROPROCESSOR PROGRAM - (Page 1 of 1) Program Time Step Min /See Code Description 01 00 01 33 Start Integ rator 02 00 02 03 Inject Sample 03 00 25 25 TCD Signal ON 04 00 26 01 Recorder ON 05 01 30 33 Integrator OFF 06 01 31 00~ Reset jh*. 1
7"',.
. ~.-
' Sampling and Analysis of the IPCP08-AP-0004
-, .a
- a
- RGB Atmosphere - Post Accident Rev. 0
. ,f
- Page 30 of 30
'- - ? ADDENDUM 5 '
PUNCHLIST
'(Page 1 of 1)
Item Number Step Item Description 4.9.6 Conversion chart values for converting Addendum 3 integrated dose readings to activity. This procedure may be used without this inf ormation. i j
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