ML20079P033
| ML20079P033 | |
| Person / Time | |
|---|---|
| Site: | LaSalle  |
| Issue date: | 11/21/1983 |
| From: | COMMONWEALTH EDISON CO. |
| To: | |
| Shared Package | |
| ML20079P012 | List: |
| References | |
| PROC-831121-01, NUDOCS 8401310064 | |
| Download: ML20079P033 (55) | |
Text
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L2P 1330-25 Revision 3
'l j
November 21, 1$03
~*
27 ~(Final)
ATTACHMENT A
.l (Continued)
F w
RC-V-IS lleactor Coolant Und!!uted. Sample Backflush Cutput Valve m
AC-V-IS Reactor Coolant Undf luted ! ample injection Yalve g
RC-V-20 RC-C-1 Fill Valve O-RC-V-11 RC-C-1 Isciation Valve RC-V-21 IJquid Sample to CAP isolation Valve I
RC-DV-1 Reactor Coolant Diluted $agle injection Valve
~
RC-0V-2.
Off gas Sample litjectioir Valve RC-VREl.-l lleactor Coolant Purge Throttle Valve RC-VREL-2.
lleactor Coolant Seele Throttle Valve L...
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CU
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r' t
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AD/27/d3 LZP INDEX PAGE I
PROC. NO.
TITLE REV.
REv DATE CISAETS
-n ZP 100-1 DELETED 03 11/80 01 ZP 100-2 DELETED C4 11/8C 01 LZP 100-3 DELETED 03 10/8C 01 ZP 2C0-1 DELETED 02 11/80 01 LZP 2C0-2 DELETED 02 11/8C C1 11 ZP 2CC-3 DELETED 02 11/8C 01
- ZP 200-4 DELETED 03 11/80 Cl
' LZP 210-1 DELETED C2 10/80 01 ZP 300-1 DELETED C4 8/SC 01 LZP 3CO-2 DELETED C3 11/80 01 1l ZP 31C-1 DELETED C3 11/80 C1
, LZP 320-1 DELETED C2 10/8C Cl
.ZP 330-1 DELETED C1 10/80 01
.Z P 340-1 DELETED C1 10/60 01 LZP 350-1 DELETED 02 10/8C 01
.Z P 360-1 DELETED C2 10/80 01 '
LLP 37C-1 DELETED C1 10/80 01 i
l.ZP 400-1 DELETED C2 11/90 01
'ZP 4CC-2 DELETED C2 10/8C Cl 6ZP 400-3 DELETED 01 11/80 01 ZP
- 10-1 DELETED Cl 11/80 Cl LZP
- 2C-1 DELETED Cl ll/8C 01
.ZP 510-1 DELETED C2 10/8C C1 Llo 520-1 DELETED C2 1C/SC C1
.Z P
$2C-2 DELETED C1 10/dC C1
'ZP 52C-3 DELETED C1 10/6C C1 LZP 53(-l GELETED C1 10/SC L1 i
i LL/27/83
\\
LZP INDEX PROC. NO.
PAGE TITLE REV.
REV OATE DIS.
.4P 530-2 DELETED 02 10/SC t ZP 540-1 1
DELETED 01 10 80 C
/
LLP 700-2 OELETED 01 11/80 0
2P 710-1 DELETED C2 10/80 6
LLP 910-1 DELETED C1 10/8C C
ZP d20-1 l
OELETED Cl 10 80 C
'29 930-1
/
DELETED C1 10/90 0
'LZP 850-1 DELETED 01 10/80 Ce j 2P 900-1 DELETED 4
LZP 980-)
01 10/80 05 DELETED LP C1 11/80 O!
3 111C-1 STATION DIRECTOR (ACTING STATION DIRECTOR) IMPLEMENTING PROCEDURE C5 10/83 f
LP 112C-1 OPERATIONS DIRECTOR PROCEDURE IMPLEPENTING C4 2/83 02
- 20 113C-1 TECHNICAL DIRECTOR IMPLEMENTING PROC.
C3 4/81 02 LIP 114C-1 MAINTENANCE DIRECTOR l
PROCEDURE IMPLEMENTING C1 11/80 02 i
ZP 1150-1 STORES DIRECTCR IMPLEPENTING PROCEDbRE 01 11/30 02 lp 11bC-01 ADMINISTRATIVE DIRECTOR IMPLEPENTING C2 1/82 C2 PROCEDURE LLP 1170-1 SECURITY DIRECTOR IMPLEMEhTING PROCEDURE C4 7/83 CZ L2P 118C-1 RAD /CHEP OIRECTOR IMPLikEATING I
PROCEDURE 03 7/81 C2 l
LLP 118C-2 RAD / CHEM 0! RECTOR INITIATED ENVIRONMENTAL MCNITORING ACTIVITIESCl 11/80 02 i t2P 119C-01 ENVIRONS DIRECTOR IPPLEMEhTING PROCEDURE C0 e/93 C3
.49 120C-1 CLASSIFICATIONS OF GSEP CONDITIONS C3
'. Z P 1200-2 8/82 G1 CLASSIFICATION CF A NuoLE GAS RELEASE O!
LZP 1200-3 5/gt 02 CLASSIFICATION CF AN IJOINE RELEASE 01 2/82 C1
)
I
- 1Df2t/33 LZP INDEX PAGE PaLC, at.
TITLE REV.
REV OATE CISAET1
}.2P 120C-4 CLASSIFICATION OF A LIUul0 RELEASE OGL 11/ ? 3 Cl
} ZP 1200-5 GSEP GUIDELINES FOR RECOMMcNOE0 OFF-00 10/83 01 j
SITE PROTECTIVE ACTIONb
'ZP 1210-1 HAZARDOUS MATERIAL INCIDENTS REPORTING C2 3/83 01
.lP 1220-1 EMERGENCY TELEPHONE NUMBER 01 5/81 01 ZP 12 2C -4 OELETED Cl 7/81 C1 I /h3 G2 m2P 131C-1 NOTIFICATIONS d6 LP 1320-1 AUGMENTATION OF PLANT STAFFING C6 10/83 02 LLP 1330-1 DELETED C2 7/82 07.
ZP 1330-2 DELETED 02 7/82 G3 LZP 1330-3 DELETED C3 7/82 C3
.ZP 133C-4 DELETED C2 7/82 03
'ZP 133C-5 POST-ACCICENT NOBLE GAS RELEASE RATE CO ll/8C 03 OETERMIAATION
, LLP 1330-o DELETED Cl 7/81 03
'. Z P 1330-7 DELETED 02 7/S2 02 LLP 1330-8 SAMPLING LICUIO PROCESS MONITORS 02 7/83 C3 OURING LICUID MONITOR HIGH RACIATIUN ALARM CCNDITIONS LZP 133C-10 DELETED C1 1/d2 03
.lP 133C-11 DILUTICN AND TRANSFER 0F GAS SAMPLES CC 11/81 G3 LZP 1330-20 POST-ACCIDENT ANALYSIS OF BORCN 01 7/83 03 (BACKUP PROCECURE) i LZP 133C-21 POST-ACCICENT ANALYSIS OF CHLCRJOE
()q 88[g3 03
.lP 1330-22 CALI6 RATION OF THE MODEL 10 OIONEx C2
- /82 03 ION CHROMATCGRAPH l
.LP 13 3C -2 3 DETERMINATION OF REACTdk COOLANT PH, C2 o/d2 C3 CONOUCTIv!TY ANC DISSCLVE0 OXYGEN CONCENTPATICN AT THE HIGH RAOIATICN 5 AMPLE SYSTEM
ID / 2 '(/ 83 LZP INDEX PAGE PROC. NO.
TITLE REV.
REV OATE DISKETT
! ZP 133C-24 DETERMINATION OF REACTOR COOLANT C3 9/83 03 i
HYDROGEN ANC OFF-GAS CONCENTRATIONS AT THE HIGH RADIATION SAMPLING SYSTEM 20 1330-25 SAMPLING OF REACTOR CCOLANT AT THE 03 "Yk2 03 HIGH RAOIATION SAMPLE SYSTEM ZP 133C-26 SAMPLING OF CCNTAINMEhT AIR AT THE C3 6/82 03 HIGH RADIATIOh SAMPLING SYSTEM ZP 1330-27 DELETED C2 10/82 03 1
LZP 1330-28 SAMPLING OF PROCESS WATERS CONTAINING C2 o/82 03 RADI0 ACTIVITY AT THE HIGH RADIATICN l
SAMPLING SYSTEM LZP 1330-29 DELETED C1 10/82 03 ZP 1330-30 TRANSFER OF WASTES FROM THE HRSS WASTE CO 11/81 03 TANK AND WASTE PUMP LP 133C-31 DELETED 01 9/82 C'
LLP 1330-32 POST ACCICENT SAMPLING OF THE GENERAL C2 5/83 05 ATOMIC WIDE RANGE GAS MONITOR LZP 1330-33 ISOTOPIC ANALYSIS OF LIQUID SAMPLES CO 6/82 0.4 USING AAIS SOFTWARE WITH PARAPS I
NARDWARE LLP 1330-34 ISOTOPIC ANALYSIS OF NOBLE GAS SAMPLES 00 6/82 03,
U5ING AAIS SOFTWARE AND PARAPS HARDWARE
'ZP 1330-35 ISOTOPIC ANALYSIS IODINE SAMPLES USING CO o/82 C3 AAIS SOFTWARE AND PARAPS HARDhARE LLP 1330-36 ISOTOPIC ANALYSIS OF PARTICULATE CO 5/82 03 SAMPLES USING AAIS SOFTWARE WITH PARAPS HARDWARE 20 1330-50 RADIATION SURVEYS UNDER ACCIDENT C1 10/63 03 CONDITICNS iLP 1340-1 IMPLEMENTING PROCEDURE FOR FIRE:
01 9/81 02 FIRE MARSHALL LLP 1340-2 IMPLEMENTING PROCE0llRE FOR FIRE:
C2 3/83 02 FIRE CHIEF (DESIGNATED SHIFT FOREMAN)
LZP 1340-3 IMPLEMENTING PRCCEDURE FOR CIRE:
C1 9/81 02 FIRE OFFICER #1 (COGNIZANT MAINTENANCE l
FOREMAN)
t ID/27/83 LZP INDEX PAGE i
PROC. P.O.
TITLE REV.
REV DATE DISK 5T1
__________________________________________________________________________________m ZP 1340-4 IMPLEMENTING PROCEDURE FOR FIRE:
di 9/81 02 FIRE BRIGADE ZP 1340-5 IMPLEMENTING PROCEDURE FOR FIRE:
Cl 8/81 02 FIRE COMPANY NO. 1 (MAINTENANCE PERSONNEL)
ZP 1360-1 PROTECTIVE PEASURES FOR ON-SITE C3 7/81 02 PERSONNEL Zo 1360-2 USE OF POTASSIUM IODICE (KI) AS A dV(
gkJ 03 THYPOID BLOCKING AGENT ZP 13 tC -4 RADIATION PROTECTION PRACTICES DURING CO 11/01 03 ACCIDENT CONDITIONS
'ZP 1370-1 RESCUE CO 10/80 02 LZP 1370-2 PERSONNEL INJURIES C2 11/82 C2 ZP 1370-3 FIRST AID, DECONTAMINATION AND CO 10/80 C2 EVACUATION OF EXPOSED AND/OR CONTAMINATED CASUALTIES 4
ZP 138G-1 CONTROL OF OIL SPILLS 01 12/82 02 LZP 1420-1 ROLE AND STAFFING GF THE ON-SITE TSC Cl 11/80 02 ZP 163C + 1 ROLE AND STAFFING OF THE ON-SITE OSC 02 4/81 02
' '.Z P 1440-1 ON-SITE GSEP COMMUNICATIONS SYSTEMS 03 12/82 02.
LZP 1450-1 DELETED Cl 7/81 02
.ZP 145C-2 DELETED 01 7/81 J1 LZP 151C - 1 GSEP OPERATIONAL READINESS CC 10/8C 01 t
ZP 1520-1 TRAINING REQUIREMENTS CO 10/8C 02 LZP 1530-1 EXERCISES AND ORILLS Cl 8/81 C2
.ZP 1550-1 FIRST AID FACILITIES MONTHLY C2 12/82 C2 SURVEILLANCE
,ZP 1550-2 ENVIRONS SAMPLING SUPPLIES INVENTORY C3 12/82 01
.i.Z P 155C-3 DECONTAMINATION FACILITIES MONTHLY Cl 5/81 C2 SURVEILLANCE i
LZP 155 C -4 ST. MARY'S POSPITAL HEALTH PHYSICS Cl 7/81 02 SUPPLIES QUARTERLY SURVEILLANCE LZP 1$50-5 TECHNICAL SUPPORT CENTER w'UARTERLY C2 2/d3 01 SURVEILLANCE
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10/77/63 LZP INDEX PAGE I
l PROC. NO.
TITLE REV.
REV DATE DISnET"'
j ZP 1550-6 OPERATIONAL SUPPORT CENTER QUARTERLY C2 2/83 CL SURVEILLANCE i
LP 1550-7 OELETED C3
- /83 01 LLP 1550-8 DELETED C3 3/83 02 i
ZP 1550-9 SPECIAL TLD QUARTERLY SURVEILLANCE C2 11/81 C3 i
LZP 1550-10 ENVIRONMENTAL SURVEILLANCE STATIONS CO 7/81
'2 e
i ZP 1550-11 POST-ACCICENT SAMPLING EQUIPMENT 01 7/83 03 INVENTORY fZP 1610-1 RECOVERY AND RE-ENTRY PLANS 01 10/83 01 LlP 1700-1 GSEP STATION GROUP OIRECTORY C5 1/83 01 LP 1700-2 STATION EMPLOYEE LIST C5 7/83 01
'LP 17C0-3 STATION PHONE LIST C4 7/83 o
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3jg LZP-1330-2
.Betwttsien 1
i
.Novemoer_i CONCENTRATION AT THE HIGH l '.
_._ 1..
LANT CHLORIDE
(
ATION SAMPLING _SX$1 E A.
E EURP05_E
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.. -. _ _ _ _ _ _ _...J The purpose of determining the reactor coolantof this procedu at the High Radiation Sampilng S e..a method.
_ __ _ i A
chloride concentration ____
and post-accident conditions ystem chloride This pro (cedure includesH and column regenerationstandardization, sam.
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ple REFERENCES sections. anal ysi s, s.ystem f_lu.shing_
B.
/
1.
System, Volume 1. Sentry Equipment Corporatio n, Post-Acci, dent Sample
~~
2.
Ion Chromatograph".LZP 1330-22, " Calibration of the Model
,EREREQUISITES 10 Dionex C.
i l
1.
Station Operator (NSO) Establish commun the Un i t Nucl ear.. ___.___
opened or closed from the HRSS Vinform him of_4 and 1
OPLC9J.
alve Control _ Pane.1,_.._.
g 2.
him to override isolationInfore the I
will be
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sample via the Reactor Recirc Lsignals (ifnecessar[for Jumpers to override the sample val oop 8. in effect)..to
[
1 signals in accordance with the f ve isolation _.____.
Instal}
i ollowing:
a.
68-70 in panelInstall a jumper betwqen ter i j
1(2)B33-F020 RX WTR SAMPLE VLVto open valve _ _._ ~
1{2)H13-P6%s m nals AA-26 an~d b.
88-70 in panel 1(2)H13-P622 Install a I
L rminalsAAh26"5nd'"' ~
1(2)833-F019. RX WTR SAMPLE VL to open valve 3.
The operator should be fa ili V.
of the ton chromatograph.
ar with the operation
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m 4.
I Verify that i at the Chemical Analysis Paneland nitrog t
t approximately 60 psig, are avail s g, able (CAP), OPLE1J.
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f LZP-1330-21
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Revision 4 i
November 17, 1983 l 2
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5.
Fill a four ilter collapsable container with domineralized water.
Remove excess air from the bottle and label the bottle.
Connect the bottle to the waterline in the reagent storage facility in.
the CAP, OPLE1J open the container valve and then vent the feed ilnes.
6.
Check that the containers of elvent, regenerant, and chloride standard are approximately half full, Pill if necessary.
j 7.
Check and vent pumps if air bubbles are visible in l
the sight glass.
Venting is normally required when l
the eluent and regenerant containers are filled.
8.
Reagents:
(Na B 02 4 7 30H O)(E-a.
0 010 M Sodium tetraborate 2
2).
be 0 006 M. Sodium carbonate (Na CO3 2
10H I(
~
2 1).
c.
1 N Sulfuric acid (H 50 )(REGEN).
2 d.
1 ppm Chloride standard (CAL-3).
~
l 9.
Notify Rad / Chem Supervision if any problems are encountered at the HRSS panels.
10.
Equipment:
j a.
Reach rod.
b.
8 inch cresent wrench.
c.
Small screwdriver.
i D.
,PRECAuff0NS 1.
A Regulatory Guide 13 or 14 release of fission-products implies extremely high levels of radioactivity.
Dose rates may be high enough to prevent entry into many areas of the plant that are normally habitable.
Rad / Chem Supervision should be contacted p,rior to entry into any area when such a release of fission products is suspected.
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LZP-1330-21 Revision 4 Novemoer 17, 1983 3
2.
Wear radiation dosimetry as recommended by Rad / Chem Supervision.
3.
Wear protective clothing and respiratory protection as recommended by Rad /Cnem Supervision.
4.
Appropriate survey instruments should De available fdr monitoring during this procedure.
5.
New Calibration curves are required when columns are changsd, since each set of columns will snow slightly different results with respect to peak height and possible retention time.
6.
Calibration should_be checked after making up new eluent.
Results will differ if the concentration f
of the new eluent differs from the old.
7.
During a post-accident condition it will not be possible to change the valve line-up in the HRSS Cooler Room following sampling operations.
Therefore, extreme care should be exercised when performing
's the initial. valve l ine-up.
l E.
L{MITATIONS'AND ACTIDNS 1.
During sampling operations, t'he HRSS Waste Tank
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pressure should oe observed on the valvc Control Panel, OPLC9J.
In the event of the Waste Tank l
pressure reaching 35 psig, all sampling operations t
shall be secured until the waste gas in the Waste Gas Hold-up Tank is transferred to a Suppression Pool.
2.
This analysis must be completed within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> following an accident condition.
i 3.
Under post-accident conditions, column regeneration should be performed as soon as practicable after completing the chloride anal ysis.
Regeneration will significantly reduce or virtually eliminate the resin columns as a radiation source.
l 4.
The calibration curve should be checked every four samples by analyzing a chloride standard.
5.
The resin columns should be replaced evary year, and new Calibration Curves developed.
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LZP-1330-21 Revision 4 Novemoer 17, 1983 4
6.
This procedure is to be used for measuring chloride concentration for the range of 0 1 to 20 ppm in primary coolant water samples.
The estimated precision is about 1 15 percent for the range of 0.1 to 1 ppe and 2 20 percent for the range of 1 to 20 ppm.
Accuracy of analysis for the higher range can be improved to about : 10 percent ny calibration in that range.
A chloride determination can De obtained within 15 minutes af ter primary coolant is charged to the ion chromatograph.
7.
Retention time for any lonic species will vary with pump stroke setting.
Pump stroke should remain I
constant for routine analytical use.
8.
Regeneration is required about once every four hours l
during continuous operation of the system.
9.
During continuous operation of the system, the l
columns must be cleaned on a daily basis or every I
other regeneratlon by pumping 0.006 M sodium carbonate through the columns for a 15-20 minute ' period.
This is done prior to regeneration of the suppressor column.
10.
This procedure, though intended for use under post-accident conditions, can ne used for sampling at the MRSS panels during normal operations, during which the precautions may have limited applications.
However, normal routine sampling precautions should be observed.
F.
PROCEDURE M,
During a post-accident condition it will not be possible to change the valve line-up in the HRSS Cooler Room following sampling operations.
Therefore, extreme care should De exercised when performing the initial val ve l ine-up.
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If, during post-accident sampilng, the valve line-l up in the HRSS Cooler Room has Deen verlfled during previous sampling evolutions, it is not required to t
verify the line-up once more, as the radiation levels in the HRSS Cooler Room would ce extremely high.
If the valve line-up has not been verified, perform the line-up in accordance wi th the following:
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LZP-1330-21 s
Revision 4 November 17, 196 I
I 5
For Unit 2 sampling proceed in'accordance with a.
Step F.1.b.; for Unit 1 sampling, proceed in accordance with the following:
1) 1E12-F4138, RHR Loop 18 HRSS Sample Manual Isolation, OPEN.
2) 1E12-F413A, RHR Loop 1A HRSS Sample Manual Isolation, OPEN.
s 3) 1833-F359, RR Loop 18 HRSS Sample Downstream Manual Isolation, OPEN.
4) 1833-F360, RR Loop 1B HRSS Sample Upstream Manual Isolation, OPEN.
i 5) 1833-F361, RR Loop 18 Alternate Sampl ing Station Downstream Manual Isolation, CLOSED.
6) 1833-F362, RR Loop 18 Alternate Sampl ing Station Upstream Manual Isolation, CLOSED.
7) 1G33-F352, Unit 1 RT Domin Inlet HRSS l
Sample Manual Isolation, OPEN.
I 8) 1G33-F360, Unit 1 RT Domin Outlet HRSS Sample Manual Isolation, OPEN.
9) 2G33-F360', Unit 2 RT Domin Outlet HRSS Sample Menual Isolation, CLOSED.
10) 2B33-F361, RR Loop 28 Alternate Sample Station Downstream Manual Isolation, OPEN.
11) 2833-F362, RR Loop 28 Alternate Sample Station Upstream Manual Isolation, OPEN.
12) 2B33-F359, RR Loop 28 HRSS Sample Downstream Manuat Isolation, CLOSED.
)
13) 2833-F360, RR Loo Manual Isolation,p 28 HRSS Sample Upstream l
CLOSED.
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14) 2E12-F413B, RHR Loop 28 HRSS Sample Manual Isolation, CLOSED.
1 15) 2G33-F362, Unit 2 RT D3 min Inlet HRSS Sample Manual Isolation, CLOSED.
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LZP-1330-21 Revision 4 November 17, 1983 l
6 16) 2E12-F413A, RHR Loop 2A HRSS Sample Manual Isolation, CLOSED.
i 17)
Proceed to Step F.2.
b.
For Unit 2 ampilng proceed in accordance with the following:
1) 1E12-F4138, RHR Loop 18 HRSS Sample Manual Isolation, CLOSED.
2) 1E12-F413As RHR Loop 1A HRSS Sample Manual l
Isolation, CLOSED.
I 3) 1833-F359, RR Loop 1B HRSS Sample Downstream Manual Isolation, CLOSED.
4) 1833-F360, RR Loop 18 HRSS Sample Upstream Manual Isolation, CLOSED.
5) 1833-F361, RR Loop 18 Alternate Sampl ing Station Downstream Manual Isolation, OPEN.
6) 1833-F362, RR Loop 18 Alternate Sampl ing Station Upstream Manual Isolation, OPEN.
7) 1G33-F362, Unit 1 RT Domin Inlet HRSS Sample Manual Isolation, CLOSED.
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8) 1G33-F360, Unit 1 RT Domin Outlet HRSS
{
Sample Manual Isolation, CLOSED.
9) 2G33-F360, Unit 2 RT Domin Outlet HRSS Sample Manual Isol at i on, OPEN.'
10) 2833-F361, RR Loop 28 Alternate Sample Station Downstream Manual Isolation, CLOSED.
11) 2B33-F362, RR Loop 28 Alternate Sample Station Upstream Manual Isolation, CLOSED.
12) 2833-F359, RR Loop 28 HRSS Sample Downstream Manual Isolation, OPEN.
13) 2833-F360, RR Loop 28 HRSS Sample Upstream Manual Isolation, OPEN.
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LZP-1330-21 I
Revision 4 Novemoer 17, 1983 7
14) 2E12-F413B, RHR Loop 28 HRSS Sample Manual Isolation, OPEN.
15) 2G33-F362, Unit 2 RT Domin Inlet HRSS Sample Manual Isolation, OPEN.
i 16) 2E12-F413A, RHR Loop 2A HRSS Sample Manual i
Isolation, OPEN.
N For noun names associated with the valves operated i
in this procedure, refer to Attachment B.
I 2.
Verify the following valve lineup at the LSP, OPLO6J:
a.
RC-V-1.1 '(cl osed ), corrdinate I-9.
b.
RC-V-1 2 (closed), coordinate J-9.
c.
RC-V-7 3'(closed), coordli) ate K-9.
d.
RC-V-1.4 (cl osed), coordinate K-9.
e.
RC-V-1.5 (closed), coordinate L-9.
I f.
Verify RC-V-4 is closed, coordinate J-10.
l Connect the flush water hose to RC-D-1 and open the flush water line valve.
g.
RC-V-5.1 (closed), located inside splash box, coordinate H-10.
h.
RC-V-5.2-(closed), located inside splash Dox, coordinate H-8.
i.
RC-V-17 (closed), located at splash box, l
coordinate F-7.
J.
RC-V-2 (closed), coordinate I-7, k.
RC-V-3 (open), coordinate G-6.
l 1.
RC-V-7 (open), coordinate I-6.
m.
RC-V-8.1 (closed), coordinate M-9.
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i LZP-1330-21 Revision 4 November 17, 1983 l
8 n.
RC-V-8 2 (closed), coordinate M-7.
o.
RC-V-9 (closed), coordinate N-7.
p.
RC-V-16 (closed), coordinate N-9.
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q.
RC-V-11 (closed), coordinate 0-3.
r.
RC-V-18 (6 o' clock), coordinate 0-7.
s.
RC-V-19 (BYPASS), Coordinate P-8.
t.
RC-V-22 (TO CHEM PANEL),' coordinate R-7.
u.
RC-DV-1 (BYPASS), coordinate Q-8.
v.
RC-V-20 (closed), coordinate P-5.
w.
RC-V-21 (closed), coordinate Q-4.
3.
Verif y the f ollowing valve lineup at the CAP, OPLElJ:
.l Connect the flush water hose to D-3 and open a.
the flush water valve.
b.
V-2 (open), coordinate A-5.
c.
V-5 (closed), coordinate 8-4.
d.
V-6 (Oxygen Callb Solution), coordinate C-3.
V-7 (VSI oxygen anal yzer), coordinate B-2.
e.
f.
V-a (open), coordinate A-3.
g.
V-9 (closed), coordinate E-15.
h.
V-10 (open). coordinate A-1.
I.
V-11 (open), coordinate E-9.
J.
V-12 (open), coordinate B-1.
k.
V-15 (closed), coordinate D-16.
1.
V-29 (to nitrogen suppl y)(up), coordinate D-9.
4.
Startup the Ion Chromatograph at the CMP, OPLE4J, In accordance with the following-I.
e-
+
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LZP-1330-21 Revision 4 Novemoer 17 1983 9
a.
Place the main panel power switch Of4.
Place the POWER and AIR switches to ON position.
b.
Place LOAD / INJECT swityh in LOAD position.
c.
d.
Place the E-2 switch in t'he UP position.
e.
Place the SEPARATOR switch in the SEP-1 position.
f.
Place the SUPPRESSOR switch in the SUP-1/RGN-2 position.
5.
Startup the' conductivity meter at the CAP QPLElJ, in accordance with the following:
Set MODE switch to ZERO and adjust the meter a.
to zero' with the screw below the meter f ace.
b.'
Set MODE. switch to CAL to set the meter at full
\\
scale.
CAL is adjusted with the screw at the t'op of the meter circuit board.
The adjusteent screw is laneled METER.
i
-Set the MODE switch to LIN.
c.
d.
Set the umho ful. scale switch to 30.
Sot the, OFFSET range switch to X 10.
e.
6.
Perform the system baselino stabilization in accordance with the following:
I a.
At the CAP, OPLE1J, check that the local pump switch in ON.
l UQlE
' Retention. time for any lonic species will vary witn pump s,troac setting.
Pump stroke should remain constant for routine analytical use.
b.
Turn the, pump swltch on the CMP, OPLE4J, to y
the ON position.
c Turn the. gauge switch on the CMP, OPLE4J, to c.
the ON position.
Normal operating pressure is 200 psig, however, pressure will fluctuate due s
'to the pump reciprocating.
e t
5 N
?
l I
i LZP-1330-21 1
Revision 4 November 17, 1983 l
10 d.
Operate the system for approximately 30 minutes, place the umho full scale switch in the "1" position.
If the baseline has not stabilized, continue operation until the baseline has stabilized with the umho setting in the "1" position.
i 7.
Perform the chloride calibration check in accordance l
with the following at the CAP, OPLElJ, or as otherwise directed:
{
a.
Align valve V-5 to CHLORIDE CALIB SOLUTION.
b.
Adjust valve V-15 until sufficient flow is indicated by the loop flow indicator l ight, changing from red to yellow.
Allow the line to flush for a minizum of two (2) minutes.
c.
At the CMP, OPLE4J place the LDAD/ INJECT switch in the INJECT position.
Turn on the chart recorder (the switch is located inside on the lower right as the recorder is pulled out).
d.
Press the PIP event recorder button on the CAP, l
OPLElJ, conductivity meter or mark the inject position on the chart paper of the recorder.
Record the standard Identification and date and time of analysis on the chart paper.
e.
Turn valve V-5 to the CLOSED position.
f.
Af ter approximately one minute, place the LOAD / INJECT switch at the CMP, OPLE4J, in tne LDAD position.
The chloride peak will occur at approximately six minutes af ter injection.
This peak height may be used as the reference point to determine the chloride concentration in subsequent unknown samples.
g.
The chloride standard will be automaticall y flushed from the analyzer.
All ow approximately ten (10) minutes to complace this operation.
Turn off the chart recorder on the CMP, OPLE4J.
i h.
Align valve V-5 to LIQUJD SAMPLE.
i h
LZP-1330-21 I
Revision 4 November 17, 1983 11 1.
' Align valve V-29 to the vent position.
8.
At the HRSS Valve Control Panel, OPLC9J, proceed !n accordance with the following:
a.
Place the UNIT 1(2) POWER switch in the OPER ATE positien.
b.
OPEN OWT-053, TBCCW IN v;V TO HRSS CDOLER RACK and OWT-054. T8CCW RTN VLV FROM HRSS COOLER RACKS and verify the indication shows OPEN.
I c.
CLOSE the normal sample valve for all systems i
and verify all indications show CLOSED in accordance with the following:
1) 1(2)B33-F358. RR LOOP 8 TO NORM S AMPLE VLv.
2) 1(2)G33-F355, RT DEMIN IN TO NORM SAMPLE VLv.
3) 1(2)E12-F411A, A RHR LOOP TO NORM SAMPLE VLv.
4) 1(2)E12-F4118, 8 RHR LOOP TO NORM SAMPLE VLv.
5) 1(2)G33-F357A, A RT DEMIN OUT TO NORM SAMPLE VLV.
l 6) 1(2)G33-F3578, S RT DEMIN DUT TO NORM SAMPLE VLv.
j i
7) 1(2)G33-F357C, C RT DEMIN DUT TO NORM
(
SAMPLE VLV.
l 9.
Request the Unit NSO perform the initial valve line-up of the sample line containment isolation valves on panel H13-P601 located in the control room, for the desired sample point, in accordance with the following:
$Q1E l1 In a post-accident condition, with containment isolation in effect, the sample may be obtained from either Reactor Recirc Loop 8, or RHR heat exchangers A or B If operating.
However, if coatainment l
~ - - -... -
f LZP-1330-21 Revision 4 November 17, 1983 12 isolation is;not in effecte the semple may be obtained from either Reactor Recirc Loop 8, RHR A, RHR 8, RWCU inlet, RWCU A outlet, RWCU 8 outlet, RWCU C l
outlet, with no assistance from the Unit NSO.
a.
TO sample via Reactor Recirc Loop 8, with containment isolation in eff9ct, request the Unit NSO to open the following:
1) 1(2)S33-F019, RX WTR SAMPLE VLV.
2) 1(2)833-F020, RX WTR SAMPLE VLV.
t l
b.
To sample via RHR heat exchanger A, with containment Isolation in effect, request the unit 430 to open the following:
E The following valve control switches must be held n
in the open position.
- p 1) 1(2)E12-F060A, RHR A SAMPLE LN VLV.
2) 1(2)E12-FOT5A, RHR A SAMPLE LN VLV.
c.
To sample via RHR heat exchanger 8, with containment isolation in effect, request tho Unit NSO to open the following:
I l
N The following valve control switches must ce held In the open positon.
I 1) 1(2)E12-F0608, RHR 8 SAMPLE LN VLV.
2) 1(2)E12-F0758, RHR 8 SAMPLE LN VLV.
10.
OPEN the HRSS sample valve for the system to be sampled and verify the indication shows OPEN in accordance with the following:
a.
1(2)S33-F357 RR LOOP 8 TO HRSS SAMPLE VLV.
b.
1(2)G33-F356, RT DEMIN IN TO HRSS SAMPLE VLV.
f r
t LZP-1330-21 Rovision 4 Novemoer 17. 1983 l
13 c.
1(2)E12-F412A. A RHR LOOP TO HRSS SAMPLE VLV.
d.
1(2)E12-F4128, 8 RHR LOOP TO HRSS SAMPLE VLV.
i e.
1(2)GZ3-F358A, A RT DEMIN OUT TO HRSS SAMPLE
- VLY, f.
1(2)G33-F3588, B RT DEMIN OUT TO HRSS SAMPLE t,
VLV.
g.
1(2)G33-F358C C RT DEMIN OUT TO HRSS SAMPLE VLV.
11.
Purge tb4 system for the reactor coolant sample in accorcance wi th the following at the LSP, OPLD8J.
l a.
At the CAP, OPLE1J, verify F-5 is aligned to I
LIQUID SAMPLE.
b.
Open RC-V-1.1 (-1.R,
-1.3,
-1 4, or -i.5),
depending on sample sou,rce.
c.
Open RC-VREL-1 until RC-FI-1 indicates 35-40 I
inches of water.
Purge for a alnimum.of 30 l
minutes or as directed Dy Rad /Ches Supervisor.
Slowly close RC-VREL-1 until RC-FI-1 Indicates l
12-15 inches of water.
Continue the purge for a minimum of one (1) minute.
d.
Close RC-V-3.
1 I
e.
Open RC-V-2.
f.
Adjust RC-VREL-2 until RC-FI-2 indicates 16-28
{
inches of water.
i g.
Verif y that the flow rate at the CAP lon f
Chromatograph is sufficient by observing the i
loop flow Indicator changes f rom red to yellow.
Flush for a minimum of five (5) ainutes.
1 12.
Analyze the sample in accordance with the following at the CAP, OPLE1J. or as otherwise directed:
a.
At the CMP, OPLE4J, place the LOAD / INJECT switch in the INJECT position and tura on the chart recorder.
e,
l I
LZP-1330-21 Revision 4 i
Novemoer 17, 1983 14 b.
Press the PIP event recorder button on the CAP conductivity meter or mark the inject position on the chart paper at the CMP OPLE4J.
Record the sample source, date and time of analysis, on Attachment A.
c.
Af ter approximatel y one minute, place LOAD / INJECT switch on the CMP, OPLE4J, in the LOAD position.
The chloride peak will occur at approximately six (6) minutes after injection.
Then turn off the chart recorder.
d.
Tura valve V-5 to the DEV.IN WATER position.
Flush with demineralized water for a sinimum of two (2) minutes.
e.
If the chloride peak goes of f-scale, a reanal ysis must be completed using a larger micromho setting (3 umho).
Align V-5 to LIQUID. SAMPLE, flush for a minimum of one (1) minute, and repeat Steps F.12.a. through F.12.d.
~
i 13.
Flush the system in accordance with the following g
at the LSP, OPLD8J, or as otherwise directed:
I a.
At the CAP, OFLE1J, align V-5 to LIQUID SAMPLE.
]
b.
Upon sompletion of sampling operations, CLOSE I
the HRSS sample valve opened in Step F.10. and I
verify thw indication shows CLOSED.
For sempilng during normal operations, OPEN the normal sample valves closed in Step F.8.c. and verify the Indications show OPEN.
c.
Place REACTOR COOLANT LIQUID SAMPLE BACKFLUSH switch to the sample line for the system sampleo.
d.
At the LSP, OPLOSJ, close RC-V-1 (-1.2,
-1.3,
-1.4, or -1 5).
e.
Open RC-Y-4.
f.
Adjust RC-VREL-2 until RC-FI-2 indicates 18-22 inches of water.
Flush with domineralized 1
water for a minimum of three (3) minutes.
s LZP-1330-21 Revision 4 November 17, 1983 15 g.
Close RC-V-7.
h.
Open RC-V-3.
i.
Adjust RC-VREL-1 until RC-FI-1 Indicates 35-40 inches of water.
Flush with damineralized water for a minimum on one (1) minute.
J.
Close RC-V-3.
k.
Open RC-V-1 1 (-1 2,
-1.3,
-1 4. Or -1.5) and flush witn domineralized water for a minimum of five (5) minutes.
1.
Close RC-V-1 1 (-1 2,
-1.3,
-1.4 or -1.5).
I m.
Open RC-V-8 1 and RC-V-8.2.
I n.
Adjust RC-VREL-2 until RC-FI-2 indicates 18-22 inches of water.
Flush with domineralized l
water for a minimum of three (3) minutes.
I o.
At the CMP, OPLE4J, cycle the LOAD / INJECT switch at least three times.
Return it to the LOAD position.
p.
At the CAP, OPLE1J, align V-5 to CLOSED.
q.
Turn V-6 on the CAP, OPLE1J, to LIQUI'D SAMPLE and flush with domineralized water for a minimum of two (2) minutes.
r.
Turn V-6 to OXYGEN CALIB SOLUTION.
s.
Secure the Flush water to the CAP, OPLE1J, and disconnect the flush water hose f rca D-3.
t.
Secure flushing by closing thi fc-llowing valves on the LSP, OPLO8J:
1)
RC-V-8 2.
2)
RC-V-8 1.
3)
RC-V-2.
l
i l
LZP-1330-21 Revision 4 i
November 17, 1983 l 16 4)
RC-V-4.
u.
At the LSP, OPLD8J, close the flush water valve and disconnect the flush water hose from RC-D-1.
v.
Place the REACTOR COOLANT LIQUID SAMPLE BACKFLUSH switch in the OFF position.
If no furtner sampilng is to be perforneo, close OWT-053, TBCCW IN VLV TO HRSS COOLER RACK and OWT-054 TECCW RTN VLV FROM HRSS COOLER RACK, and verify the indications show Cl,0 SED.
we If no further sampilng is to be performed place the UNIT 1(2) POWER switch in the OFF position.
x.
Inform the Unit NSO that sampilng operations are complete, and request that the Unit NSO close the valves opened in Step F.9.
y.
Following sampilng operations during other than a post-accident condition, close or check closed the valves opened in Step F.1.a. or Step F.1.b.
14.
Regenerate the columns in accordance with the j
following:
a.
Under post-accident conditions, column
~
regeneration is performed as soon as practicable af ter completing the chloride analyses.
r Regeneration will significantly reduce or l
virtually el imi nate the resin columns as a radiation source.
l b.
Column regeneration is performed every 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />, 3
or as othorwise directed by Rad / Chem Supervision, a
if the ion chromatograph is in continuous use.
l l
The need for column regeneration under other conditions is indicated by a high baseline j
conductivity, or a significant change in the time for the chloride peak to occure or change in peak height when running the chlorige 1
standard.
A sodium carbonate flush is per formed prior to every other regeneration.
Go to step F.14.e. If only regeneration is required.
c.
Perform the following lineup for flushing of the-resin columns:
g I
~
t' 1
3 LZP-1330-21 I
Revision 4 November 17, 1953:
17 1)
Place the MODE switch on the CAP, OPLE1J, conductivity meter at ZERO.
2)
Place the El switch on the CMP, OPLE4J, in the DN (up) position.
3)
Place the E2 switch on the CMP, OPLE4J.
In the OFF (down) position.
4)
Place the Separator switch on the CMP, OPLE4J, in the SEP-1 (up) position.
5)
Place the SUPPRESSOR switch on the CMP, OPLE4J In the SUP-1/RGN-2 (up) position.
6)
Place the PUMP switch on the CMP, OPLE'4J,
~
in the ON (up) position.
d.
The valve lineup in Step F.14.c will provide
{
for sodium carbonate flushing of both columns.
I Operate for 15-20 mi nutes, then turn,the E1 switch on th CMP, OPLE4J, to the DFF position (down) and flush for 10 minutes.
Flace the PUMP switch on the CMP, OPLE4J, in e.
the OFF (down) pos i tion.
f.
On the CMP, OPLE4J, turn the SUPPRGSSDR switch to the SUP-2/RGN-1 (down) positlCO.
g.
Depress the REGENERATION START button on the CMP, OPLE4J.
The system timer is set to provide l
for a 15 minute acid regeneration followed by i
a 45 minute water rinse, do not change the setting.
After one hour the system alli shut t
off automatically and the red rgady light will be activated.
!If 15.
Secure the system after completion of column regeneration in accordance with the following:
Turn the ion chromatograph POWER switch on the a.
CMP, OPLE4J, to OFF.
b.
Turn the AIR switch to DFF on the CMP, OPLE4J.
l l
f
I i
LZP-1330-21 I
Revision 4 8
November 17, 1983 18 l
c.
Place the main panel power switch to 0FF.
16.
Calculate the chloride concentration in accordance witn the following:
I a.
Measure the height of the chloride standard peak (PH
), units, and record on Attachment A.
h.
Measure the belght of the sample peak (PH"),
units, and record on Attachment A.
~
c.
Calculate and record the chloride concentration in accordance with Attactmont A.
l 17.
Attach the atrip chart from the ion chrcoatograph to Attachment A and forward to Rad / Chem Supervision.
I G.
_ CHECKLISTS
}
1.
None.
H.
_ TECHNICAL SPECIFIC ATION R EFERENCES 1.
None.
t e
e i
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. f __ -
t t
..o-LIP-1330-2.1 Revision 4
?
I November 17, 1983 e
19 ATTACBGNr A l
I u sALu comrrr STAT 7cs Fost-Accident Analysis of Chloride Workshmag SAMPLE SOURCE:
f Data TM i
C, Chloride Standard Concentration, ppm 1.00 ppm Step F.12.a.
75 f
ChloridaSIandardPeakHeight,unita t
Step F.12.b.
I FE Sample Feel Enight, units i
rg l
Step F.12.c.
C*
q Seple Chlorida f*maatration, ppa
(.
C, = (C,) x (FE,)
i (FE,)
t t
I 1
"L I
4 l
I ii n :i e
s.
i e
t e
i.
f
~.
q l
e.
4 l
Revision 4 November 17, 1983 20 ATTACHMENT S Y
e VALVE LISTING i
RC-v-1 1 Reactor Recire Loop S Sample Cutout Valve 2C-V-1 2 RT Domin Inlet Sample Cutout Valve RC-V-1.3 RHR Loop A Sample Cutout Valve RC-V-1.4 RHR Loop B Sample Cutout Valve RC-V-1.5 RT Domin Outlet Sample Cutout valve 9C-V-2 Sample Source Isolation Valve RC-V-3 Sample Purga Cutout valve RC-V-*
Flusning dater Isolation valve RC-V-5 1 Pressurizad Sample Inlet Isolation valve f
RC-V-5 2 Pressurizac Sample Outlet Isolation valve i
RC-V-7 Diluted Sample bypass Valve RC-V-8 1 RC-SF-1 2 Inlet Isolation Valve RC-V-8 2 RC-5F-1 2 Outlet Isolation Valve RC-V-9 RC-GV-1 Isolation Valve RC-V-iO RC-tV-1 Evacuation C'utout Val ve RC-V-11 Off gas 4 way Valve RC-V-12 argon to Air Ejector Cutout valve RC-y-13 Off gas Vial Evacuation Cutout Valve RC-V-14 Argon Supply to Off gas Vial Cutout valve r
RC-V-15 Off gas Sample to Gas Cnrosatograph Isolation Valve RC-V-16 RC-SF-1 2 Argon Purge Cutout Valve i
RC-V-17 Reactor Coolant Grao Sample Catout valve
{
RC-y-18 Reactor Coolant unci tutec Saaple Backflusn a
Cutout Valve RC-V-19 Reactor Coolant Uncituteo Sample Injection valve RC-V-20 RC-C-1 Fill val ve RC-V-21 RC-C-1 Isolation Valve RC-9-22 Liquid Sample to CAP Isolation Valve RC-DV-1 Reactor Coolant Dilutec Sample Injection Valva RC-CV-2 Off gas Sample Injection Valve RC-vREL-1 Reactor Coolant Purge Tnrottle Valva I
PC-VREL-1 Reactor Coolant Sample Throttle Valve V-1 k
Off gas Sarple to Gas Chromatograph V-2 Ion Chromatograph to waste V-5 Ion Chrosatograph Sample Source Selection v-e C2 Analyzer Sample Source Selection V-7 0
v-8 2 Analyzer Selection 0, Calloration Solution Cutout l
anairz.r Discharge vaive V-9 02
?
i e
~
4 o
o s
L2P-1330-2A Aavision 4 evember 17 1983 21'(Final) v-10 Instrument Air'Cuccet V-11 Cominer4112ec hater Cutout Valve V-12 Nitrogen Supply Cutout valve i
V-14 Argon Supoly Cutout Valve j
V-15 Cal-3 Isolation valve V-16 Cal-2 Isclation valve v-17 0
Calioration Solution Tanu Recirc valve V-18 0, C.tlioration Solution Tank Crain valve i
V-19 C31-3 Crain valve V-2C Cal-2 Orain valve V-24 Comin water Fill to 0 Cal. Soln. Tx.
{
V-25 Cal-1 Orain valve 2
V-2e Cal-1 Isolation Valve V-27 Nitrogen Supply to Cal-1 V-28 Nitrogen Supply to Cal-2 V-29 Nitrogen Supply to Cal-3 V-30 Cal-1 Cal-2 Selection valve l
1 3
?
(.
i I
I
\\
t 5
.i
e i
,)l LZP-1330-25 Revision 3 j
Novemoer 21, 1983 1
i
~
SAMPLING OF REACTOR COOLANT AT THE HIGH RADIATION SAMPLE SYSTEM 22EE912 The purpose of this procedure is to delineate a method of ootaining liquid samples at the High Radiation Sample System (HRSS) during normal and post-accident cporations, including grao, diluted (1000:1), and undiluted (15 ml) l samples.
8.
BREES! BEES 4
l 1.
Sentry Equipment Corporation, Post-Accicent Sampl e System, Volume 1.
I 2.
LZP 1330-33, " Isotopic Analysis of Liquid Samples Using AAIS Software With Paraps Hardware."
3.
LCP 410-1, " Preparation of Samples for Gamma Ray Spectrometer Measurements."-
4.
Action Item Record (AIR), 1-81-358.
l S.
Post Accident _ Rad (ation _ Levels, Revision 1, August, 1980, Sargent and Lunay Project 4094-00.
i l
6.
Action Item Record (AIR), 1-81-495.
7.
General Arrangement, Print M-7.
.i C.
EREREQUIS{T{S 1.
Establish communications with the Unit Nucl ear i
Station Operator (NSO) and inform nim of all valves openeo or closea from the HRSS Valve Control Panel,
( l OPLC9J.
I 2.
Inform the Unit NSO that it will be necessary for him to override isolation signals if in effect to I
sample via the Reactor Recirc Loop B.
Install I
jumpers to override the sample valve isolation signals in accoraance with the following:
a.
Install a jumper netween terminals AA-26 and l
B6-70 in panel 1(2)H13-P623 to open va!ve 1(2)B33-F020 Rx WTR SAMPLE VLV.
\\.
-~
4 -
^
l 1
LIP-1330-25 l
Revision 3 NovemDer 21, 199 2
l b.
Install a jumper between terminals AA-26 and 88-70 in panel 1(2)H13-P622 to open valve 1(2)S33-F019, RX WTR SAMPLE VLV.
3.
Verify that nitrogen, approximately 100 psig, is available at the Liquid Sampilng Panel (LSP), OPLO8J.
4.
Equipment:
For routine grab sampling:
a.
1)
Clean polyethylens bottles witn caps.
2)
Paper towels.
3)
Plastic or rudder gloves.
4)
Sample tote Dag.
b.
For post-accident sampling:
1)
Reach rod.
2)
Undiluted semple bottle with cap.
3)
Diluted sample bottle with cap.
f 4)
Shielded cart / cask assemol y.
5) 6 or 8 inch cess *nt wrench.
i 6)
Lifting eyes for cask assembly.
7)
I, Lif ting caot e for cask assemol y.
8) 25 ul or 50 ul syringe.
9)
Needle flush tool with desineralized filled water sample oottle witn septum.
D.
PREC_AUTIONS 1.
A Regulatory Guide 1.3 or 1.4 release of fission procucts implies extremely high levels of radioactivity.
Oose rates may be high encuan to prevent entry into many areas of tne plant tnat are normally habitable.
Rad / Chem Supervisicn should i
contacted prior to entry into any area wnen such De release of fission products is suspecteo.
a I
i
J Y
i
~
l LZP-1330-25 Revision 3 l
NovemDer 21, 1983 3
2.
Wear radiation dosimetry as recommended by Rad / Chem Supervision.
3.
Hear protective clothing and respiratorj protection as recommended by Rad / Chem Supervision.
4.
Appropriate survey instr uments should be available for monitoring during this procedure.
5.
During a post-accident condition it will not De possicle to change the valve line-up in the HRSS Cooler Room followir.g sampling operations.
Therefore, extreme care should oe exercised when per forming the initial valve line-up.
i 6.
The splash box door of the Liquid Sample Panel (LSP)
OPLD8J, must be closed during panel line purge and grab sample collection operations.
7.
The areas associated with the movement of high adiation samples should be secured to non-essential personn91 during the transferal of samples.
8.
Movement of personnel and equipment in the plant under post accident conditions should be accompanied oy radiation dose rate surveys to descrioe a route of acceptable dose rate.
}
l 9.
The jib crane is designed to lift only cne (1) of the components mentioned in Step E.S.
at a time.
f AND ACTIONS E.
LIPITATIONS 1.
Notify Chemistry Supervision if any problems are encountered at toe NRSS panels.
i 2
This procedure, though intended for use under post-accident conditions, can De used for sarpling at the HRSS panels during normal operations, during which the precautions may have limiteo applications.
However, normal routine Sampl ing precautions shoul d oe observed.
3.
During sampling operations < the HRSS Wasta Tace,
~
pressure should De coserved on tne Valve Control Panol, OPLO9J.
In the event of the Waste Tank pressure reaching 35 psig, all sampling operations shall be secured until tne waste gas in the dasta l
1
l l
l LZP-1330-25 l
Revision 3 hovemoer 21, 1983 4
Gas Hold-up Tank is transferred to a Suppression Pool.
4.
In the event of a hostlic radiological environment in the chemistry tabs the TURB. BLOG. SAPPLE PANEL 1(2}Pil3J or the FEEDWATER SAMPLE PANEL 1(2)PL40J, should be used to perform the necessary sample allutions and sample preparation, as necessbry, 5.
There are three different types of HRSS equlkment that will De lifted by the jib crane:
a.
The HRSS Containment Ai r Sampl ing f anel (CA$P) cart / cask unit, approximately 250 los.
O.
The HE%S L! quid Sastpling Panei (LSP) cask unit, approximately 1400 lbs.
1 c.
The HRSS Liquia Sampilng Panel (LSP) cart unit, approximatel y 500 los.
6.
This procedure is intended to provide alternate areas for sample preparation under post acc i dent conditions, and is predicated on the criteria of Reference 5.
Other areas may be used if in keeping with the guidance of References 4 and 5, and with the approval of the Rad / Chem Supervisor or a Healtn Physicist.
7.
The routes referred to in this nrecedure have oeen 1
checked against Reference 5 to obtain the lowest possible dose rates to personnel in tne performance of this proceoure.
F.
PROCEDURE C _AU T I ON During a post-accident condition it will not ce possible to change the valve line-up in the HRSS Coolor Room following sampling operations.
Therefore, i
extreme care should be exercised when performing the Initial valve line-up.
1.
If during post-accident sampling, the valve line-up in the HRSS Cooler Room nas been verified during previous sampling evolutions, te is not requireo to verif y the line-up once more, as the raalation l evels in the HRSS Cooler Room would De extremely hign.
s
~
.i
)
LZP-1330-25 i
Revision 3 Novemoer 21, 196 9
3 If the valve line-up has not been verified, perform 4
the line-up !n accordance with the following:
h For Unit 2 sampilng proceed in acccrdance witn L
a.
Step F.1.D.; for Unit 1 sampling, proceed in accordance with tne followino:
1) 1E12-F4136, RHR Loop 1B HRSS Sarple Manual Isolatione OPEN.
2) 1E12-F413A, RHR Loop 1A HRSS Sarple Manual Isolation, OPEN.
l 3) 1833-F359, RR Loop 16 HRSS Sample Downstream Manual Isolation, OPEN.
4) 1833-F360. RR Loop 1B HRSS Sarple Upstream Manual Isolation, OPEN.
5) 1833-F361, RR Loop 1B Alternate Sampling Station Downstream Manual J
Isolation.
CLOSED.
6)
IB33-F362, RR Loop 18 Al ternate Sampl ing Station Upstream Manual Isolation, CLQSED.
(
7) 1G33-F362, Unit 1 RT Demin Inlet HRSS I
Sample Manual Isolation, OPEN.
8) 1G33-F360. Unit 1 RT Deeln.Qutlet HRSS Sample Ranual isolation, OPEN.
9) 2G33-F360, Unit 2 RT Demin Outlet HRSS Sample Manual Isolation, CLOSEO.
t 10) 2B33-F361, RR Station Downstream ManualLoop 28 Alternate Sample Isolation, OPEN.
11) 2333-F362. RR Loop 28 Alternate Sampi c Station Upstream Manual Isolation, OPEN.
12) 2B33-F359, RR Loop 2B HRSS Sample Downstream Manual Isolation, CLOSED.
13) 2833-F360 RR Loop 2B HRSS Sample Upstream Manual Isolation, CLOSED.
14) 2E12-F4138, RHR Loop 28 HRS $ Sarple Manual Isolation, CLOSED.
I.
~~
l. *.
LZP-1330-25 Revision 3 Novemoer 21, 1983 o
I 15) 2G33-F362, Unit 2 RT Demin Inlet HRSS Sample Manual Isol ation, CLSOEO.
16) 2E12-F413A, RHR Loop 2A HRSS Sample Manual Isolation, CLOSED.
17)
Proceed to Step F.2.
O.
For Unit 2 Sampling proceed in accoroance with the following:
1) 1E12-F4138, RHR Loop 18 HRSS Sample Manual Isolation, CLOSCO.
2) 1E12-F413A, RHR Loop 1A HRSS Sarple Manual Isolation, CLOSED.
3) 1833-F359, RR Loop 1B HRSS Sample DownFareem Manual Isolation, CLOSED.
4) 1833-F360, RR Loop 18 HRSS Sarple upstream Manual Isol ation, CLOSEO.
5) 1833-F361, RR Loop 18 Alternate Sampl ing Station Downstream Manual Isolation, OPEN.
6)
IS33-F362, RR Loop 18 Alternate Sampl ing Station Upstream Manual Isolation, OPEN.
7) 1G33-F362 Unit 1 RT Demin Inlet HRSS Sample Manual Isolation, CLOSED.
8) 1G33-F360, Unit 1 RT Domin Outlet HRSS Sample Manual Isolation, CLOSED, 9)
'2G33-F360, Unit 2 RT Demin Outlet HRSS f
Sample Manual Isolation, OPEN.
10) 2B33-F361, RR Loop 28 Alternate Sample Station Downstream Manual Isolation, CLOSED.
11) 2833-F362. RR Loop 28 Alternate Sample Station Upstream Manual Isolation, CLOSED.
12) 2833-F359, RR Loop 28 HRSS Sarple Downstream Manual Isolation, OPEN.
um-
{
Revision 3 1
Novemoer 21, l'
j 7
13) 2B33-F360, RR Loop 2B HRSS Sarple Upstream Manual Isolation, OPEN.
I 14) 2E12-F4138. RHR Loop 2B HRSS Sample Manual Isolation, OPEN,.
15) 2G33-F362, Unit 2 RT Domin Inlet HRSS Sample Manual Isolation, OPEN.
16) 2E12-F413A, RHR Loop 2A HRSS Sarple Manual Isolation, OPEN.
i IfE1.E For noun names associateo with the valves o in this procedure, retar perated to Attachment A.
2.
Verify the following valvo lineup at tne LSP, OPLD8J:
a.
RC-V-1 1 (closed), corrainate I-9.
I b.
RC-V-1 2 (closed), coordinate J-9.
c.
RC-V-1 3 (closed), coordinate K-9.
i d.
RC-V-1 4 (closed), coordinate K-9.
t
,i e.
RC-V-1.S (closed). cooroinate 1-9.
f.
i Verify RC-V-4 is closede i
Connect the flush water hose to RC-D-1 Snc ope coordinate J-lQ.
the flush water line valve.
n g
g.
RC-V-5 1 (cl os ed), located inside splasn oo#,
g cooroinate H-10.
I h.
RC-V-5 2 (closed), located I
coordinato H-8.
inside splash oox, 1.
RC-y-17 (closed),
coordinate F-7.
located at splash box, J.
RC-V-2 (closed), coordinate I-7.
f k.
RC-V-3 (open), cocroinate G-6.
m
f f
l' LZP-1330-25 Revision 3 Novemoer 21, 198*
1 U
}
1.
RC-V-7 (open)e coordinate I-6.
m.
RC-V-8.1 (closed), coordinate M-9.
n.
RC-V-8.2 (closed), coordinate M-7.
o.
RC-V-9 (closed), coordinate N-7.
l p.
RC-V-16 (closed), coordinato N-8.
l q.
RC-V-11 (closoc), coordinate 0-3.
r.
RC-V-18 (6 o' clock), coordinate 0-7.
i s.
RC-V-19 (BYPASS), coordinate P-8.
t.
RC-V-22 (TO WASTE), coordinate R-7.
i u.
RC-DV-1 (BYPASS), Coordinate Q-8.
v.
RC-V-20 (closed). coordinate P-5.
J w.
RC-V-21 (closed), coordinate Q-4.
3.
At the HRSS Valve Control Panel. OPLC9J, proceeo in accordance with the following:
l Place the UNIT 1(2) POWER switch in the OPERATE a.
position.
D.
OPEN OWT-053, TBCCW IN VLV TO HRSS CCOLER RACK and OWT-CS4, T6CCW RTN VLV FROM HRSS COOLER RACK, and V9tif y the indication snows OPEN.
c.
CLOSE the nor mel sample valve for all systems I
and verif y all indications show CLCSED in accoroacce with tne following:
l t
1) 1(2)B33-F350, RR LOOP S TO NORM SAMPLE VLV.
I 2) 1(2)G33-6355, RT JEMIN IN TO NORM SAMPLE Vt V.
l 3) 1(2)E12-F411A, A RHR LOOP TO NORM SAMPLE i
l l
vtV.
i 4) 1(2)E12-F4118, B RHR LOOP TO 60RM SAMPLE I
VLV.
1 I
e t
LZP-1330-25 I.
Revision 3 Novemoer 21, 1983 i
9 5) 1(2)G33-F357A, A RT DEMIN OUT TO NORM SAMPLE VLV.
6) 1(2)G33-F3579, B RT DEMIN OUT TO NORM SAMPLE VLV.
7) 1(2)G33-F357C, C RT DEMIN OUT TC NORM SAMPLE VLV.
4.
Request the Unit MSO perform the initial valve line-up of the sample line containment isolation valves on panel H13-P601 located in the control room, for the desired sample point, in accordance with tne following:
i fi2If In a post-accident conoition, with containment isolation in effect, the sample may oe cotainec from i,
either Reactor Recirc Loop B, or RHR heat exchangers A or B if operating.
Howswer, if containment isolation is not in effect, the sample may oc ontained from either Reactor Recirc Loop B, RHR A.
RHR B, RWCU inlet, RWCU A outlet, RWCU B outlet or PWCU C outlet, with no assistance from the Unit NSO.
a.
To sample via Reactor Recirc Loop E, with i
containment isolation in effect, request the Unit NSO to open the following:
1) 1(2)S33-f019, RX WTR SAMPLE VLV.
2) 1(2)B33-F020. RX WTR SAMPLE VLV.
D.
To sample via RHR heat exchanger'A, with containment isolation in effect, request the Unit NSO to open the following:
$211 r
The following valve control switches must ce helo in the open position.
1) 1(2)E12-F0604, RHR A SAMPLE LN VLV.
2) 1(2)E12-F075Av RHR A SAMPLE LN VLV.
I J
LZP-1330-25 1
Revision 3 l
Novemoer 21,!
10 c.
To sample via RHR heat
- I containmont isolation exchanger 8, with lB
"" "5 in effect,
"'"S*
request the P'" '"* '
!\\
M I
The following valve control in the open position.
switches must De helo I
1 1) 1 ( 2 ) E12-F0608.
2) 1 ( 2 ) E12-F0753, RHR B SAMPLE LN VLV.
I i
5.
At the HRSS Valve Control HRSS sample valve for the systPanel, OPLC9J,
{
CPEN the verify the indication shows OPENem to be sampled and I
the following:
in acqcroance with a.
1(2)B33-F357, RR LOOP B TO HPSS SAM PLE VLV.
b.
1(2)G33-F356, RT DEMIN IN TO HRSS SA c."
MPLE VLV.
1(2)E12-F412A, A
1(2)E12-F412B, B RHR LOOP TO HRSS SAMPLE V f
e.
1(2)G33-F358A, A RT DEMIN OUT TO HRSS SAM
- VLV4 f.
1(2)G33-F358B, B RT DEMIN 007 TO HRSS l
VLV.
SAMPLE 9
l{2)633-r356C, C RT DEMIN CUT TO HRS VLV.
i S SAMPLE 6
tv 0otain an undiluted (15 ml)To obtain an I
eed to Step F.7.;
l Step F.8 1 proseed to Step F.9obtain a diluted sample, prcceed to to (1000:1) sample, s
7.
l To obtain an'open with the following: grab sample, proceed in accordance i
a.
At the LSP, OPLOBJ, l
1.4, OPEN RC-V-1 or 1 5) depending on cne sa.1 41 2,wple sourc.3, 1
t D.
OPEN RC-VREL-1 until e.
j inches of water.
RC-FI-1 Indicates 35-40 minutes.
Purge for a minimum of 30 I
I
LZP-1330-25 Revision 3 I
Novemoer 21, 19-11 j
Slowl y close RC-VREL-1 until RC-FI-1 reads 12-c.
15 inches of water.
Continue tne purgo for a minimum of one (1) minute.
i d.
Close RC-V-3.
e.
Open RC-V-2.
i f.
Open RC-V-7.
g.
Slowly open RC-VREL-2 until RC-FI-2 reads 18-22 inches of water.
I (3) minutes.
Allow to pufge for tnree j
h.
Align RC-V-18 to the 9 o' clock position.
I.
I Open RC-V-i7, adjust RC-VREL-2 until reeds 18-22 RC-FI-2 00 NOT cxceedinches of water or RC-G-3 rea PSIG.
20 PSIG on RC-G-3.
to purge for t~wo (2) minutes.
Allow c
j.
the sample tap.Close RC-V-17 arid place a sample octtle j
U!lllh The splash box door of tne Liquid 1
i
- OPLD8J, Sample Panel LSP),
}
must be closed during panel line purge a(nd grab sample collection operations.
k.
Open RC-V-17.
Obtain sufficient j
rinse t;)e sample cottle.
sample to 1.
Close RC-V-17 and empty the sample bottle into the tray.
m.
Replace the sample Dottle under tne sample tap and open RC-V-17.
n.
Fill the cap on loosely.the sample bottle to overflow and screw l
I o.
then immediately tighten the cap. Gently squee I
\\<
The physical shape of distorted after step F.7.o.the polyetnylene bottle shog5 De somewnat ll
,I
li LZP-1330-25 Revisicn 3 November 21, l'
12 p.
C1cse RC-V-17.
Wipe the bottle dry with paper towels.
q.
r.
Label the bottle with the following information:
1)
Sample point.
1 2)
Date sampled.
3)
Tims samplec.
4)
Initials of person sampilng.
M This IPbeling may be done prior to taking the s i
ample.
s.
Tag the sample bottle with the appropriate sticker I
if the sample contains radionuclides.
(
m This tagging may oe done prior to taking the I
sample.
t.
Place the bottle in tne tote tray to the chemical laooratory.
for transport u.
Flush and secure the system in acccraance with the following:
ii l
1)
Upon completion of sampling operations, CLOSE the HRSS sample valve opened F.5. and verify the indication snowsin Step CLOSED.
i For sampling during normal operations OPEN the normal c?osso lo Step F.3.c. and verify thesample valves indications snow OPEN.
2)
Place REACTOR COOLANT LIQuly SAFPLE BACKULUSH switen to the sample line for the system sampleo.
3)
Close the sampo valve, RC-V-1 1 1 3,
-1.4, -1.5).
(-1.2, -
i l
l lI
I i
LLP-1330-25 Revision 3 Novemoer 21, 19!
i 13 1
4)
Open RC-V-4.
5)
Open RC-V-17, acjust RC-VRut-2 until RC-FI-2 reads 18-22 inches of water.
Flush with demineralized water for a minimum of three (3) minutes.
i 6)
Close RC-V-17.
I 7)
Align RC-V-18 adjust RC-VREL-2 untilto the 6 o' clock position, i
22 inches of water.
RC-FI-2 reaos 18-water for a minimum of tnree (3) Flush w l
minutes.
8)
Close RC-V-7.
9)
Open RC-V-3.
10)
Adjust RC-VREL-1 until 50 inches of water.
RC-FI-l reads 35-water for a minimum of one (1) minute. Plu 11)
Close RC-V-3.
r 12)
Open the sample valve, RD-y-l.1 1.3, -1.4, -1.5),
(-1.2, -
?
water for five (5) flush with cemineralized minutes.
13)
Close the sample valve, RC-V-1 1 (-1 2.
-1.3,
-1.4,
-1 5).
I 14)
C1soe RC-V-4.
j 15)
Close the flusn water valve and disconnect the flush water nose from RC-0-1.
16)
Proceed in accordance with Steps F.10 i
through F.13.
to tne lacoratory for anal ysis.then transport tne samp I
8.
To obtain an undiluted l
(15 ml) accoraance with the following: sample, proceed in a.
Prepare the sample cottle the following:
in accordance witn 1)
Place the bottle on the cart / cask cavity piston.
assemoly 1
e p
\\
i
j i
i g
LZP-1330-25 Revision 3 NovemDer 21, 1 14 2) piston in the 00WN position and low bottic into the cask cavity.
3)
Close and open the cask to verify that the cover is morxing properl y.
4)
Turn on the LSP undiluted sample fill reactor coolant t
station lights.
5)
Position the cask / cart under the LSP j
undiluted r9 actor coolant sample fill station needles and set the Drake.
6) piston in the up position and raise the nottle onto the needles.
{
b.
f ol.l owing:Obtain the sample in accordance with the I
i 1) 4t the LSP, OPLD8J, OPEN RC-V-1 1 (1 2, 1.3, 1 4 or 1 5) depending on the sample source.
i 2)
OPEN RC-VREL-1 until RC-F1-1 35-40 inches of water.
Indicates 7
{
of 30 minutes.
Purge for a minimum 3)
Slowly close RC-VREL-1 until 12-15 inches of RC-FI-l reads water.
for a minimum of one (1) Continue tne purge i
minate.
i 4)
Close RC-V-3.
}
5)
Open RC-y-2.
I 6)
Slowl y open RC-VREL-2 until I
18-22 inches of water.
RC-FI-2 reads Allow for three (3) minutes.
to purgo 7)
Turn RC-V-19 to SAMPLE.
8)
Adjust RC-VREL-2 until 22 incnes of water or RC-G-3 areads 20RC PSIG.
DO NOT exceed to purge for two20 PSIG on RC-G-3.
Allow (2) minutes.
r i
l
l l
LZP-1330-25
- g Revision 3 Novemoer 21, 1 15 9)
Close RC-V-7.
i I
then wait 30 seconds to allow the sample i
bottle to cepressurize.
10)
Turn RC-V-19 to BYPASS.
11) hydraulic plunger to the DOWN posi s
close tne cask. Lower the sample cottle into the cas t
c.
Upon completion cf sampling operations the HRSS sample valve opened
, CLOSE verify the Indication shows CLOSED.in step F.5. and i
j valves closedduring normal. operations, OPEN the norma indications snow OPEN.in Step F.3.c. and verify tne sample f
d.
Place the REACTOR COOLANT LIQUID S switch to the sample line for the system sampl A KFLUSH I
e.
ed.
the following: Flush and secure the system in accorda witn 1)
Close the sample valve, RC-V-1,1 (-1 2,
-1 3,
-1.4, -1.5).
2)
Open RC-V-7 l
3)
Open RC-V-4.
r 4)
Adjust RC-VREL-2 until i
inches of water.
RC-FI-2 reads 18-22 water for a minimum of tnree (3) Flush with minutes.
i 5)
Close RC-V-7.
6)
Open RC-V-3.
g 1
7)
Adjust RC-VREL-1 until RC-FI-1 read 40 inches of water.
s 35-t water for a minimum on one (1) Flush witn c minute.
8)
Close RC-V-3.
9)
Open the sampe valve, RC-V-1 1 I
1 3,
-14.,
-1 5), and
(-1 2, -
of five (5) minutes.
flusn fcr a minimum l
l
J I
\\
i LZP-1330-25 Revision 3 l
Novemoer 21, 16 i
10)
Close the sample valve, RC-V-1 1 (-1 2
-13,-14,
't3
-1.5).
,l 11) from the sample station. Release the D art / cask 12)
Install ano secure the auxiliary shield.
I 13)
Install and secure the needle flugn t j
ool.
I 14)
Open RC-V-8 1.
I 15)
Open RC-V-8.2.
1 16) 22 inches of water. Adjust RC-VREL-2 until R a s 18-minute. Flush with demineralize l
water for one (1) 17)
Turn RC-V-19 to SAMPLE.
18)
Adjust RC-VREL-2 until l
22 inches of water or RC-G-3 reads 20R PSIG.
Allow to flush witn aemineralized
'{
i for two (2) m i nute s.
eater 19)
Close RC-V-2.
i 20)
Allow RC-G-3 r' turn to O PSIG th e
30 seconds to allow the cottle to 1
en wait depressurize.
l 21)
Turn RC-V-19 to BYPASS.
I t
22)
Close RC-V-8.2.
23)
Close RC-y-4,1, I
1 24)
Close RC-V-4.
\\
25)
Remove the neecle flush tool
}
26)
Turn off the LSP undiluted rcJcto I
sample fill station lights.
r coolant I
27)
Close the flush water valve and dis the flush water hose from RC-C-1 connect
\\l l
l
\\I 1
I I
LZP-1330-25 i
Revision 3 NovemDer 21, 1!
17 28)
Proceca to Step F.10.
9.
To obtain a diluted (1000: 1) accordance with the following: sample, proceed in I
a.
Fill reservoir RC-R-1 with deminerall2ed water.
b.
Open RC-V-20 then open RC-V-21.
i RC-R-1 until Adjust reservoir the water level in graduated cylinder RC-C-? Is 125 ml.
.t c.
Close RC-V-21.
d.
Close RC-V-20.
e.
Prepare the sample bottle in accordance with the following:
1)
Insert the needle of the hand operated vacuum pump into the septum of the diluteo reactor coolant sample not'cle.
Evacuete to the maximum vacuum achievaDie witn the i
hand operated pump.
The vacuae MUST oe at LEAST 15 inches of Hg.
2)
Keep the hand operated to the evacuated cottle for one minute tovacuum pump assure that the octtle retains the vacuum.
3)
Remove the bottle from the hand operated vacuum pump and place the octtle on the cart / cask asssobly cavity piston.
.I 4) piston to the DOWN positicn andTurn the di lower the cottle into the cask cavity.
[
5)
Close and open the cask to verify that t
the cover is working properly.
6)
Turn on the ISP sample fill diluted reacter coolynt station lights.
i 7)
Position the cask / cart diluted reactor coolantunder th9 LSP needle and set tne Drake.sampit till station I
I t
1
t L Z P-133 0-I Revision Novemoer it.
8)
Turn the direction 18 piston to the UP valve for the hydraulic
=
bottle onto the position needle.
and raise tne I'
f.
Sample in accordance Close.tL-V-7*
with the following:
1) 1 2)
Open RC-V-8 1.
i' 1
3)
Open RC-V-8 2.
4)
[
Open RC-V-3.
5)
Select one of
-1 3, -1.4,lt's corresponding valsample so the
-1 5).
ve, RC-V-1 1 i
(-1 2, 6) 35-40 inches of waterSlowl y open until of 30 minutes.
Purge fcrRC-FI-1 reads 7) a minimum 12-15 inches of waterSlowly close until RC-FI*1 reads for a minimum Continue the purge on one (1)
)
8) minute.
Close RC-V-3.
9)
Open RC-V-2.
I 10) 18-22 inches of waterSlowl y open R
-(3) minutes.
until RC-FI-2 reads i
Purge for three 11)
Close RC-V-8 1.
12)
Turn RC-DV-1 to SAMPLE.
13)
Close RC-V-1 1 9
CLOSE (1 2, 1.3,
{I and verify the indicationthe HRSS sample v 1 4 or 1 5).
opened Place the REACTOR shows CLOSED.in Step F.S.
h.
f t
switch to the sample line for theCOOLANT LIQUI i.
Flush and secure the ACKFLUSH system the following:
sampleo.
system in acccrdance witn I
1 I
R I
l l
I LZP-1330-25 Revision 3 l
NovemDer 21, 1 19 I
1)
Open RC-V-7.
2)
Opero RC-V-4.
3)
Adjust RC-VREL-2 until 22 inches of water.
RC-FI-2 reaas 18-t water for a minimum of three (3) Flush w 3
minutes.
4)
Close RC-V-7.
I 5)
Open RC-V-3.
6)
Adjust RC-VREL-1 until RC-FI-1 read i
40 inches of water.
s 35-i water for a minimum of one (1) Flush witn minute.
7)
Close RC-V-3.
)
8)
Open RC-V-21.
I 9)
Crack open RC-V-21, i
and add 24 close RC-V-21.from RC-C-1 to the sample nottle,el of then I
n t
@.15 Rad / Chem Supervision.The dilution volume may oe s desired Dy
{
10)
Turn RC-DV-1 to BYPASS.
11)
Open RC-y-8 1.
i 12)
Adjust RC-VREL-2 until 22 inches of water.
RC-FI-2 reads 18-I Flush with demineralizec water for one (1) minute.
i 13)
Close RC-V-2.
i 14)
Open tne sample valve, RC-y-1.1 1 3, -1.4, -1 5)
(~1 2, -
i water for a minimum ofand flush with cemineralizeo five (5) minutes.
i 15)
Close the sampe valve, RC-V-1.1 1 3, ~1.4, -1 5).
(-1 2, -
i i f
1
)
I
i LZP-1330-25 Revision 3 1
Novemoer 21, l
16) 20 Close RC-V-8 2.
17)
Cl ose RC-V-8 1.
18)
Close RC-V-4.
!iI Remove the sample and cask / cart J.
following: secure the system in accordance with assemoly anc
.I the l
1)
Place the direction valve for th plunger in tne DOWN position.
e hydraulic 2)
Lower the cottle into the cask.
3)
Close the cask.
{
4)
Release the orake anc remove th from the sample station.
e cert / cask 5)
Install and secure the auxiliary shield.
6)
Turn off the LSP t
station lights.dilutcd reactor coolant sample fill
' 7)
Close the the flush water nose f rom RC 0 f t
-1.
8)
Proceed to Step F.10.
I 10.
At the HRSS Valve Control the OFF position. REACTOR CCOLANT LIQUID SAMP i
p e r fo rmed,
ACKFLOSH switch
{
RACK and OwT-054,close OWT-053,If no further sampl i
Ire TBCCW RTN VLV FROM HRSS COO TBCCA
- RACK, and verif y the indications sitow CLOSE I
11.
If no furtner sampling is D.
UNIT 1(2) in the OFF position.to ne performed POWER switch 12.
Inform the Unit NSO that samplin complete and valves op,ened request that g operations are in Step F.4. the Unit NSO close ips I
13.
Following sampling operation l
valves openedpost accident condition, close os during other than\\
1 in Step F.1.a. or Step F.1.br check closed I
tne 1
ll I
\\
I i
j L2P-1330-25 Revision 3 Novemoer 21, 14.
21 j
Trans' port the samples to the sa area.
mple preparation Ig 15.
Move the samples fron the sampli i5 Auxiliary Building elevator ar ng location to the in accordance with tne following:ea, 710' elevation, ig CAUTION I
Movement of personnel
~
by radiation dose surveys to deunder post a and equipment I
o De accompanied acceptable dose rates.
scribe a route of l
a.
Sampling System (HRSS), Raise the sampl gn Radiation located near column 15,the 710' elevation via to duct space L
elevation utilizing the HRSS jib crarow R on the 710 16.
Move the samples from F ne.
j sample pre following:paration areas.15. to one of in accordance witn thethe following U!dll.93 i
Movement of personnel and by radiation dose rate surveys tunder post a g
equipment j
oe accompanied of acceptable cose rates.
o descrioe a route i
If sample preparation is not
{
with applicable work practicestc be done at the required, or is aole l
on in accordance F.18.
, proceeo to Step a.
Chemistry Labs, 710' i
the dose projections of Referencelevation Howevers show this area to present a hostile radi 1
t e5 environment under po.st accident conditi
-[
ological If such is the case, consider an al ons.
area.
ternate b.
Turbine Builcing Process Sample P
)
primary alternate.
- anel, Bldg. elevator from the 710' eleAccess is via the Turo.1(
687' elevation.
1 The cose projecticns ofvation to the t
a
l LZP-1330-25 l
Revisior. J Novemoer 21, 19, 22 l;
Reference 5 show l
this area to be at normal shutdown rodlation levels under a post accident condition.
c.
Feedwater Sample Panel, 1(2)PL40J; secondary alternate.
Access if via the Turb.
Bldg.
elevator from the 710' elevation to the 663' elevation.
The dose projections of Reference 5 show this area to oe at normal shutoown radiation levels under a post accioent condition.
1 1
17.
Prepare the sample from Step F.8. or F.9 for anal ysis in accordance with the following:
Place a 47 mm fiber fil ter in a new petri a.
dish and place behind a shielded area with tne cover off.
't i
M.If.
If less than 500 ul (0 5 ml) of sample is used, dampen the fiber fi' iter with deionized water prior i.
l to placing the sample on the filter.
u.
Remove the small shield plug from the top of g
the shield cask.
c.
Using the 5"ringe assembl y, 20 ul of, the sample and withdraw approximately the shield plug.
immediately replace Elfi discretion of Rad / Chem Supervision to facilitate
~
analysis of samples.
d.
Note the actual sample volume withdrawn tnen discharge the' sample onto the flDGr fi' iter the petri dish in sucn a manner that in is evenl the sample surface.y depositeo over tne entire finer-fil ter
[
Place thc cover on the petri e.
oish and tape it closed.
i t
l l',
f.
Wrap the petri dish it.
in plastic wrap and seal 7
l l
6 I
i j
LLP-1330-25 1
Revision 3 Novemoer 21s y
23 g.
Label 1
the sample in accordance with the following:
1)
System sampled and sample location.
2)
Time of sampling.
i 3)
Date of sampling.
I 4)
Sample voluse, refer to Step F.19 5)
Initials.
i 6)
Survey results.
(
18.
Transport the required samples from Ste Step F.16. to an area of p F.15. or background for radionuclide anal ysislow contamination, low or Health Physics Supervision.with directions pro P
r Director CAUTION i
Movement of personnel and equipment by radiation dose surveunder post accident conditior.s s l
ompanied acceptable dose rates. ys to describe a route of t
L U.9I.E If the laboratory was not in Step F.16, aule to oe used for sample proparation Use the Auxiliary Counting Roomalso be inacce
{
ysi in tnis case.s.
I a.
Notify the Shift Engineer if a radioacti Counting Room for gamma isotopic ana ve t
D.
s.
Move any sample to De counted fro 1
t the 663' elevation to the 710' m the 687' or the Turoine Building elevator. elevation using I
l c.
Counting RoomTransport the sampe to t.a 710' elevati t
is acciptable. if the radiological on If environment j
transport the sample to the 760'the Counting Rocm
- used, De Auxiliary Counting Room using the A elevation Building Elevator.
r uxiliary l
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i LZP-1310-25 8
Revision 3 NovemDer 21, 1 i
24 I
MIE The Auxiliary Counting Room i
Control Room, column R-18 on General Ars is located in the i
Print M-7.
rangement l'
d.
Notify the Shift Engineer of any radiolo i samples in the Aux iliary Counting Room g cal f
ve 19 The sample volume for undiluted samples as the syringe volume discharged.
is the same sample, calculate the actual For a diluted the fioer volume of sample on fliter in accordance with the following:
1AA y=
7 l
WHERE:
V = the actual volume of reactor wate j
to be analyzeo on the filter paper r
in ml.
I S=
The volume of the diluted sample in the
' l' syringe in m1, Step F.17.d.
A=
The valve aliquot of in the cask bottle in m1 temple collectea t
j T=
Total the valve aliquot ofvolute in the cask oottle, plus the water added the sample fror the graduated cyl inder in ml.
I 20.
Analyze the samples l
in accordance with Reference 2.
21.
Report the sample results to the Rad /Ch j
for evaluation.
em Director 22.
Supervision for review. Route all output data and calcul 4
ns to Rad / Chem G.
GMECKLISTS I
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- g LLP-1330-25 L
Revision 3 Novemoer 21, 1 1.
None.
25 L
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!l TECHNICAL _SPECIFIQ D ON REFERENCE 1 i
1.
None.
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f l-I.ZP 1330-25 RayFston ~3
'L Novernber 21',19 26 i,
ATTACHNENT A
.' 7 VALVE. IJ$ TING j
l "M
RC-V-1.1 Reactor Rec!re. l. cop 8 Sample Cutout Valve J L RC-V-1.2 RT Deeln. Inlac Saaple CJtout Valve I
,r-RC-V-1 3 RFA loop A $ ample Cutout Valve I
RC-V-1.4
\\
RME taop 8 Sample Cutout Valve
{
RC-V-1 5 RT Dealer. Outlet Sample Cutout Valve RC-V-2 RC-V-3
. Sample Sourcer IsolatIm Valve i
Sample Purge Cutout Valve....- _
RC-V-4 FfusMnB Veter isoiatIm Vsive RC-V-G.!
Preesdriand Sample inlet Isolation Valve
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[
RC-V-5.1 Prsssurland. Sample Guclet isolation Valve
- \\
i l
RC-V-7 Diluted Searle typass Valvee l
i RC-V-8.T RC-SF-T.1 lalet isolatlan Valve l
~
RC-V-8.1 I,
RC-SF-1.2 Outlet IsolatIm Valve RC-V-9 il-RC*tV-1 Isolatim Valve RC-V+10 RC-EV-f Evacuatim Cutout Valve I
L.,
RC-V-li Off gaar4 w y Valve RC-V-11 Argon to Air tjactor C'4 tour Valve i
RC-V-13 Off ges Vial Evacuatlow Catoct Valve
~
RC-V-14 Argon Supply to Off gas Vial Cuttut Valve
\\.
l RC-V-IS Off gas Sample to Gas Chroestograph Isolation Yelve RC-V-16 RC-5F-1.1 Argon Purge Cutout Valve RC-V-17 Reactor Coolant Grab $4sple Cutout Yalve i
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e L2P 1330-25 Revision 3 November 21, ;tE3
.i{-
ATTACHMENT 4 27 (Final)
(Continued) 1 w
l RC-V-18 lisector Coolant Undtluted. Sample Sackflush Cutout Yalve i
m
{b RC-V-19 Reactor Coolant Und!Iuted sample injection Valve RC-V-20 I
i :
RC-C-1 Fill Valve
{
U RC-V-21 RC-C-1 Isolation Valve i
RC-V-21 1.Tquid Sample to CAP fjelation Valve RC-DV-1 lleestor Coolant Olluted Sample infection Valve
~
g RC-DV-1 g
Off ges Sample litjectioir Valve RC-VREl.-1 Anastor Coolant Purge Throttia Valve RC-VREl.-2.
floactor Coolant Sample Throttia Valve f
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