ML20202B935
| ML20202B935 | |
| Person / Time | |
|---|---|
| Site: | Crystal River  |
| Issue date: | 11/20/1997 |
| From: | FLORIDA POWER CORP. |
| To: | |
| Shared Package | |
| ML20202B892 | List: |
| References | |
| CH-631, NUDOCS 9712030218 | |
| Download: ML20202B935 (23) | |
Text
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\\;e rwa CHEMISTRY SAMPLING PROCEDURE CH-631 FLORIDA POWER CORPORATION CRYSTAL RIVER UNIT 3 POSY ACCIDENT SAMPLING AND ANALYSIS OF REACTOR BUILDING ATMOSPHERE O
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APPROVED BY: Interpretation Contact 0&,W (SIGNATURE ON FILE)
DATE:
il Jo f 91 INTERPRETATION CONTACT: ChemRad=' Specialist II 2
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e IABLE OF CONTENTS SfDION EAGE LO PURE 05 E................................................................. 1 L0_R E EER E NCES............................................................. 1 2.1 IMELEMENIING_REEERENCES.............................................
1 2.2 DEYE10EEENTAL REFERENCES..............-............................. 1 2. 3 CMIS_REEERENCIS..................................................... 1 LD_.EE850KNE LINDOCTRINAIl08................................................ 2 3.1 DESCRIEII0N.........................................................
2 3. 2 LIMIISJ PRECAUIION5................................................ 2 L.Q_INSJRUCIION5............................................................
4 4.1 SAMELE_IEAK Ct1ECKLISI...............................................
4 4. 2 GAMMlS010EIC ANALY515............................................. 7 4. 3 W556 -l_ GAS _GBAILSAMELE............................................. 12 L0_CONIINGENCIES..........................................................
19 5.1 NOIIEICAIIONS._AND_lilIEMENIS........................................
19 ESCE05URES 1
Technical Support Center Data Sheet............................... 20 2
Cu ri es In Contai nmen t/% Core Damage............................... 21 O
CH-631 Rev. O Page i t
e 1.0 PUR20$E 1.1 This procedure provides instructions for sampling and analyzing Reactor Building atmosphere for gaseous activity during accident conditions.
2.0 REEIBENCES 2.1 IMPLEMENTING REFERENCES 2.1.1 EM-104, Operation Of The Operational Support Center 2.1.2 CH-234. Energy, FWHM, And Efficiency Calibration Of The Post Accident Sampling System High Purity Germanium Detectors 2.2 DEVELQEENIALREEEENCES 2.2.1 Radiological Emergency Rosponse Plan 2.2.2 NUREG 0737, Post-TMI Requirements 2.2.3 Regulatorv Guide 1.97, Instrumentation For Light-Water Cooled Nuclear Power Plants To Assess Plant And Environs Conditions Durir.g And Psilowing An Accident-2.2.4 RSP_-600, ALARA Program 2.2.5 Applied Physical Technology, Volumes A through C (Crystal River Installation PASS manuals) 2.2.6 Drawing M.D. 0211033.003 2.2.7 FD-302-693, Containment Monitoring System 2.2.8 FD-302-694, PASS Containment Monitoring AIM Detect % System 2.2.9 FD-302-766, Auxiliary Building Post Accident Sampling 2.3 CMISJEEERENCES WSV-3, WSV-4, WSV-5, WSV-6, WSV-32. WSV-33, WSV-34, WSV-35, WSV-36, WSV-37, WSV-53, WSV-59, WSV-60 WSV-61, WSV-70, WSV-71. WSV-72 WSP-1, WS-14-FI, AHF-67, MEEL-2 DPDP-5A, DPDP-58, DPDP-8A, DPDP-8B O
WS-13-CE, AIMS monitor, 143' AB d
CMP, RANGE Mimic Panel, Count Room CH-631 Rev. O Page 1 m
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3.1 DESCRIPTION
The Post Accident Sampling system is an on-line system designed to sample and evaluate various liquid and gaseous sample streams during accident conditions. The Reactor Building Atmosphere and Noble Gas Effluent Monitoring Subsystem (RANCE) samples the RB atmosphere and gaseous effluents from both the RB and AB Vents.
The Post Accident Sampling system provides a means of performing an in-line gama isotopic analysis and gas grab sample, of the RB atmosphere.
3.2 LIMIi_k_fRECAlITTONS 3.2.1 Performance of all or part of this procedure will be done by direction of the Emergency Coordinator.
3.2.2 Entries into the controlled access must have Radiation Monitoring Team preplanning, concurrence, and coverage as outlined in EM-209, Re-Entry Proccdure.
3.2.3 During post-accident sampling, extremely high radiation exposure levels could be experienced.
The ability to perform this procedure and stay within exposure limits will require ALARA pre-planning.
3.2.4 Return to the Lab if the dose rate at places requiring work is >
15R/Hr.
The 4 REM Tctal Effective Dose Equivalent (TEDE) whole body exposure limit will be exceeded in 16 minutes at 15R/Hr.
3.2.5 All sampling actions are performed at the Ma,in Control Board by l
Operations or in the Count Room either on the VAX Computer or from CMP (RANGE Mimic Panel) unless otherwise noted.
3.2.6 Section 4.1 mutt be completed prior to any sample team re-entries.
3.2.7 WS-13-CE (RANCE AIMS) can measure 1.0E-6 Ci/cc to 1.0E+5 Ci/cc for the Reactor Building Vent sample point.
3.2.8 W5P-1 may be damaged if operated without complete line-up.
WSP-1 is a positive displacement pump.
3.2.9 WSV-70 is interlocked with the following valves and will not open if any of these valves are open, o W5V-33 o WSV-35 i
o WSV-56 l
o WSV-37 CH-631 Rev. O Page 2
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.3.2.10 WSV-35 is powered from DPDP-5A, Breaker 2.
This breaker is normally
- ()
LOCKED OPEN. The valve is operated from EFIC room.
t 3.2.11-WSV-34 is powered from DPDP-8A, s,eaker 14i This breaker is
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normally LOCKED OPEN. The valve is operated from EFIC room.
-3.2.12-WSV-32 is powered from DPDP-88, Breaker 21. -This breaker is normally LGCKED OPEN. The valve is operated from EFIC room.
. SV-33 is. powered from DPDP-5B, Breaker 27. This breaker is 3.2.13 W
normally LOCKED OPEN. The valve is operated from EFIC room.
3.2.14 Samplit.g via WSV-3 and WSV-4 is least preferred because sample may not be representative of RB atmosphere.
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~CH-631 Rev. O Page 3
4.0 INSIEUCIIDNS NOTE: Section 4.1 nust be conpleted prior to any sanple team re-entry.
4.1 SAMfLE_IEAM_.CIECgtISI ACTIONS DETAILS 4.1.1 ASSEMBLE Sample Team Le, personnel performing entry and their dose margins:
Name Dose Marain 1.
2.
3.
4.
5.
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Initial /Date 4..
2 DETERSINE analyses to LIST analyses to be performed be perfortie '
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Initial /Date O
CH-631 Rev. O Page 4 t
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-4.1-SAMPLE TEAM CHECKLIST -(Cont'd)
ACTIONS' DETAILS 4.1.3 REVIEW applicable REVIEW the following procedures..
procedures EM-104, Operation Of The Operational Support Center CH-631, Post Accident Sampling and Analysis Of_ Reactor Building Atmosphere t
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Initial /Date 4.1.4 DISCUSS access and exit DISCUSS access route routes,-communication-DISCUS! exit route technigtes and DISCUSS communication-radiological conditions techniques f
TSC phone' number PERFORM radio check on channel once outside TSC O.
IE obtaining WScB-2 gas grab sample, IHEN ENSURE the following:
MFFL-2, AB Elevator, is operable to transport WSSB-2
. Allen wrench,- or equivalent as determined by Chemistry supervision, for removing _
T-Handle from grab sampler
-and attaching to new grab sampler Knife available,- or equivalent as determined by Chemistry supervision, to cut-transit, cover strap from lifting eye Tie-wrap, or equivaler.t as determined by Chemistry supervision, to attach transit cover to new grab-sampler lifting eye i
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Initial /Date
.CH-631 Rev. 0-Page 5'
r 4.1 SAMPLE TEAM CHECKLISI (Cont'd)
ACTIONS DETAILS 4.1.5 ALIGN electrical power REQUEST Control Room BYPASS ES supplies interlocks for the following valves:
Normal or Alternate sample o WSV-5 o WSV-6 08 Non-representative alternate sample o WSV-3 o WSV-4 o WSV-5 o WSV-6
___ Control Room REPORTS ES interlocks bypassed h
NOTE: Breakers for Non-representative sanpling are nornelly closed.
REQUEST Operations UNLOCK and CLOSE the following breakers:
Normal sample o DPDP-5A, Breaker 2 o DPDP-8A, Breaker 14 08 Alternate sample o DPDP-88, Breaker 21 o DPDP-58, Breaker 27 Operations REPORTS breakers closed
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CH-631 Rev. O Page 6
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4.2, G W \\ ISOTOPIC ANALYSIS f_s
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ACTIONS DETAILS 4.2.1 ALIGN system for sample NOTE:
WSV-32, WSV-33.'WSV-34, and WSV-35 operated from EFIC room.
- 1. Operations per:onnel OPEN the following valves:
Normal sample WSV-34
'WSV WSV-5 WSV-6 2
Alternate sample WSV-32
._ WSV-33 WSV-5
__ WSV-6 O
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Non-representative alternate sample WSV-3 WSV-4 WSV-5 WSV-6
- 2. OPEN the following valves:
Normal or Alternate sample WSV-61 WSV-37 E
Non-representative altunate sample WSV-36 WSV-61 WSV-37
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4.2 GAMMA ISQIQPIC ANALYSIS (Cont'd)
ACTIONS DETAILS
- ......************e.******..************
CAUTION:
WSP-1 may be damaged if operated without conplete line-up.
4.2.2 PURGE sample line.
1.
START WSP-1 2.
VERIFY flow at WS-14-FI 3.
LE N0 flow indication at WS-14-FI, IHEN NOTIFY Sample Team Leader NOTE: Procedure hay continue while purging sample'.
4.
PURGE at least 10 minutes
/
Initial /Date 4.2.3 PERFORM pre-analysis 1.
VERIFY > 50 pounds liquid ches ks on WS-13-CE, nitrogen at RANGE liquid RANGE AIMS detector.
nitrogen monitor
- e.*************e****#e..***
CAUTION: Do not reset liquid nitrogen monitor unless high voltage bias is adjusted to 0 volts.
- e*********
2.
ENSURE RANGE detector voltage adjusted per PASS and RANGE AIMS Equipment Logbook 3.
ENSURE weekly calibration check performed within past 7 days per CH-234 as indicated on weekly Count Room QC logsheet in Count Room Task logbook
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Initial /Date O
CH-631 Rev. O Page 8
- 4. 2-M.IS0 TOPIC ANALYSIS _ (Cont'd)
ACTIONS DETAILS 4.2.4 PERFORM Gamma Isotopic 1.
LOG ON VAX computer as Analysis Username:
-2.
SELECT PASS MENU 3.
ENTER NO to prompt 00 YOU WANT A SPECTRAL DISPLAY WINDOW 7 (Default) 4.
SELECT GASEOUS SAMPLING 5.
SELECT RB CONTAINMENT Sample Point 6.
EITHER ENTER Q to quit MUX display and continue with procedure 03 RETURN to update MUX values 7.
ENTER NO to abort sample (Default value) 8.
UPDATE sample parameters 9.
SELECT ACCEPT
+
10.
SELECT QUIT key to exit 11.
ENTER LO to log off VAX computer 12.
ATTACH gamma scan to this O
procedure 13.
If requested, assess core damage utilizing Enclosure 2 and document on gamma scan 14.
NOTIFY Sample Team leader or designee of results Gamma Scan ID number (s):
/
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Initial /Date/ Time
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Initial /Date/ Time
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Initial /Date/ Time 15.
If additional Gamma Isotopic s
-I Analysis are required, IllEN REPEAT steps 1 through 13
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Initial /Date
'CH-631 Rev. O Page 9
e 4.2 GA1%A__ISOT0EJC ANALYSIS (Cont'd)
ACTIONS DETAILS 4.2.5 ALIGN system for 1.
OPEN WSV-53 instrument air purge
- 2. Operations personnel ENSURE CLOSED the following valves:
WSV-3 WSV-4 WSV-32 WSV-33
___ WSV-34 WSV-35 NOTE:
Procedure may continue while purging.
3.
PURGE at least 10 minutes
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Initial /Date 4.2.6 PERFORM AIMS purge 1.
LOG ON VAX computer as h
Username:
PASS 2.
SELECT PASS MENU 3.
ENTER N0 to prompt DO YOU WANT A SPECTRAL DISPLAY WINDOW 7(Default)
- 4. ___ SELECT Flush Sample Lines 5.
SELECT RANGE AIR PURGE
- 6. ___ MAXIMIZE MCA Display 1 and toggle ADCs to select CAS CONFIGURATION NOTE:
Step 7 may be repeated to nonitor purge progress.
- 7. _ SELECT ERASE function on MCA Display to re-acquire spectrum 8.
WHEN a low stable countrate
- observed, IEEN MINIMIZE MCA display 9.
SELECT RETURN
- 10. ___ DEPRESS PF4 TO QUIT 11.
ENTER LO to log off
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CH-631 Rev. O Page 10
7,_.._.-...._.
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.g-
-:' 4 '.~ 2 gap 914 ISOTOPIC ANALYSIS.(Cont'd)
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-ACTIONS DETAILS
-4.2.7 SECURE. ii.;-crument air
_ 1. -
STOP WSP Purge
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- 2. ENSURE CLOSED the following valves:
WSV-53 WSV-61 WSV '
WSV-36
- 3. REQUEST Control. Room CLOSE the following ; valves:
WSV-5 i
WSV-6 v
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c 4.3 WSSB-2_ GAS G MB SAMPLE ACTIONS DETAILS 4.3.1 PREPARE WSSB-2 for grab NOTE:
AHF-67 sw.ich is located on d
sampl e. WSSB-2 is wall lart of AHF-67.
located 143' AB west of elevator 1.
START AHF-67, WSSB-2 exhaust fan
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Initial /Date 4.3.2 ALIGN system for gas NOTE: WSV-32, WSV-33, WSV-34, and grab sample WSV-35 operated from EFIC room.
- 1. Operations personnel OPEN the following valves:
Normal sample WSV-34 WSV-35 i
WSV-5 WSV-6 Alternate sample WSV-32 WSV-53 WSV-5 WSV-6 DB Non-representative alternate sample WSV-3 WSV-4 WSV-5 WSV-6
- 2. OPEN the following valves:
Normal or alternate sample WSV-59 WSV-60 WSV-37 0B Non-representative alternate sample WSV-36 WSV-59 WSV-60
~
WSV-37
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Initial /Date CH-631 Rev. O Page 12
.9 4.3-WSS8-2 GAS GM&_ SAMPLE (Con't)~
ACTIONS DETAILS
- a*******************************************
CAUTION:
WSP-1 may be damaged if operated without conplete line-up.
4.3.3 ALIGN for RB atmosphere 1.
START WSP-]
gas grab sample.
2.
VERIFY flow at WS-14-FI 3.
'IE N0 flow indication at WS-14-FI, IHEff NOTIFY Sample Team Leader 4.
PURGE at least 10 minutes
/
Initial /Date 4.3.4 ISOLATE grab sample.
NOTE: WSV-71 and WSV-72 T-Handle WSSB-2 is located 143' operator is attached to
()
AB west.of elevator.
WSSB-2.
1.
CLOSE WSV-72 *.ing T-Handle 2.
CLOSE WSV-71 asing T-Handle
/
/
Initial /Date/ Time 4.3.5 ALIGN for Instrument Air 1.
OPEN WSV-53 purge.
- 2. Operations personnel ENSURE CLOSED the following valves:
WSV-3 WSV-4 WSV-32 WSV-33 WSV-34 W"s-35 NOTE: Procedure may continue while purging.
3.
PURCE at least 10 minutes
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CH-631 Rev. O Page 13
e 4.3 WSSB-2 GAS GBAB SAMPLE (Con't)
ACTIONS DETAILS 4.3.6 PERFORM pre-analysis 1.___. VERIFY > 50 pounds of 'iiquid AIMS oetector checks on nitrogen at RANGE liquid WS-13-CE, RANGE AIMS nitrogen monitor detector.
- e**ee*********eece*******e*****e CAUTION: Do not reset liquid nitrogen nonitor unless high voltage bias is adjusted to 0 volts.
- e****
2.
ENSURE RANGE detector high voltage adjusted per PASS and RANGE AIMS Equipment Logbook 3.
ENSURE weekly calibration check performed within past 7 days per CH-234 as indicated on weekly Count Room QC logsheet in Count Room Task Logbook
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Initial /Date O
CH-631 Rev. O Page 14
4.3 W155-2 GAS GRAB SAMPLE (Con't)-
O ACTIONS
-DETAILS-4.3.7 PURGE WS-13-CE, RANGE 1.
LOG ON VAX computer as AIMS.
Username:
PASS 2.
SELECT PASS MENU 3.
ENTER NO to prompt DO YOU WANY.' SPECTRAL DISPLAY WINDOW 7 (Default) 4.
SELECT Flush Sample Lines 5.
SELECT RANGE AIR PURGE 6.
MAXIMIZE MCA Display 1 and toggle ADCs to select CAS CONFIGURATION NOTE: Step 7 may be repeated to monitor purge progress.
7.
SELECT ERASE function on MCA Display to re-acquire spectrum 8.. __ WliM a low stable countrate
(
- observed, IllB MINIMIZE MCA display 9.
SELECT RETURN 10.
"FPRESS PF4 TO QUIT 11.
ENTER LO to log off
/
Initial /Date 4.3.8 RESTORE system line-up.
1.
OPEN WSV-61 2.
CLOSE WSV-59 3.
CLOSE WSV-60 4.
PURGE at least 1 minute 5.
STOP WSP-1
- 6. ENSURE CLOSED the following valves:
WSV-53 WSV-61 WSV-37 WSV-36
- 7. REQUEST Control Room CLOSE the following valves:
WSV-5
_ /""$
WSV-6
\\,,)
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Initial /Date
-CH-631 Rev. 0-Page 15
f 4.3 WSSH-LE5_GBAB SAMPLE (Con't)
ACTIONS DETAILS 4.3.9 REMOVE WSSB-2. WSSB-2 1.
OBTAIN 3/4" wrench from is located 143' AB west Primary lab key locker of elevator.
2.
INSTALL grab sampler ramp
- 3. DISCONNECT grab sampler:
a.
SQUEEZE disengagement lever b.
PUSH engagement handle to rearmost position c.
PULL UP cart to station lock mechanism to release cart d.
REMOVE WSSB-2 from sample station 4.
INSTALL transit cover over quick connects 5.
TRANSPORT grab sampler to 95' TB crane well 6.
UNBOLT grab sampler from cart 7.
REMOVE T-Handle operator from grab sampler NOTE: Procedure may be continued while step 8 is conpleted.
8.
GO T0 section 5.1, Notifications and Shipment, for off-site shipment.
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CH-631 Rev. O Page 16
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4
-4.3 WS$8-2 GAS GRAS SMlPJ,E (Con't) p.
ACTIONS DETAILS 4.3.10 INSTALL new WSSB-2 grab 1.
BOLT new grab sampler onto cart sampler at sample 2.
REMOVE transit cover station.
Sample station 3.
ATTACH transit _ cover to lifting is located 143' AB west ring on grab sampler of elevator.
4.
ATTACH T-Handle to new grab sampler 5.
OPEN WSV-72 with T-Handle 6.
OPEN WSV-71 with T-Handle 7.
TRANSPORT new grab sampler to sample station
- ee...
- e*********e***
CAUTION: When installing WSSB-2, force way damage quick connectn.
e*******
e******************
NOTE: When positioned correctly, WSSB-2 makes metal-to-metal contact with curved face of sample station.
NOTE: Several attenpts may be necessary to align grab sampler.
- 8. INSTALL grab sampler a.
One person GUIDE WSSB-2 into sample station b.
Second person PUSH WSSB-2 onto platform c.
HALT WSSB-2 several inches from connection point d.
SLOWLY PUSH WSSB-2 into sample station e.
ENGAGE Cart to Station Locking Mechanism f.
PUSH Locking Mechanism handle completely down, DRIVING lock bolt through hole in cart g.
GENTLY PULL Engagement j' sc Handle. A distinct " click"
(,)
may be heard.
CH-631 Rev. 0-Page 17
f 4.3 WSSB-2 GAS GRAB SAMPLE (Con't)
ACTIONS DETAILS 4.3.10 Continued h.
ENSURE engagement 1.
UNLOCK cart from station by pulling up on Cart to Station Locking Mechanism handle 2.
MOVE Engagement Handle back and forth 3.
If properly connected, cart will move back and forth i.
RELOCK cart to station pushing locking mechanism handle completely down, driving lock bolt through hole in cart
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Initial /Date O
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5.0 CONTINGENCIES
_s_
5;1-NQIIFICATIGOS AND SHIPMENTS ACTIONS DETAILS NOTE: The emergency 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> access phone number is (804) 522-5833.
5.1.1 PERFORM notifications.
NOTIFY Manager, Nuclear Operations j
Materials Controls that a grab sample has been taken and to initiate acquisition process for shielded sample cask NOTIFY Framatome Technologies Emergency Sample Coordinator when a grab sample has been collected that will require offsite analysis PROVIDE the following information:
o Uti'. f ty and plant name o Name and phone of ChemRad Specialist to whom follow-up communication should be addressed
("'s o Number and type of samples to be
. (,)
shipped (i.e., liquid, gaseous, or iodine cartridge) o Measured radiation levels at surface and three feet from i
shipping container t
o Estimated shipping time, mode of transportation, carrier, and estimated arrival at Framatome Technologies site in Lynchburg, VA Shipping Address o Framatome Technologies Emergency Sample Analysis Coordinator Nuclear Environmental Services
- Lynchburg Technology Center Route 746, Mt. Athos Road Lynchburg, VA 24506 All data accumulated per this procedure is to be summarized on-and forwarded to the Emergency Coordinator via Chemistry supervision
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Initial /Date
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TECHNICAL SUPPORT CENTER DATA SHEET BEACTOR SVRDING ATMOSPHERE GADf!4LILqloPIC RB Total Activity Ci/cc Maior Contributina Isotones ISOTOPE ACTIVITY Ci/cc Ci/cc pCi/cc Ci/cc Ci/cc pCi/cc pCi/cc pCi/cc pCi/cc Ci/cc Ci/cc Ci/cc
~
RB M7il 71T (Cs) = (2.0 E6 csthic feet) x x
x RB ACTil7T)
\\ctabacfoot)
\\
pCi
)
\\
cc /
RB Total Activity _
Ci
/
/
Initial /Date/ Time O
CH-631 Rev. O Page 20
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ENCLOSURE 2 100 r-r-
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l ll This graph should only be f.ZZ77 ZEET7
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utlE2ed for gross estimates
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since there are many variables.
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such as: core equilibrium
--p--
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status, time in core life, mixing
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directly im pact the actual
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f CH-631 Rev. O Page 21 (LAST PAGE)
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