ML16020A039

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Millstone, Unit 2 - Revision 002 to Chemistry Procedure, CP2804M, Vent and Containment Air Pass.
ML16020A039
Person / Time
Site: Millstone Dominion icon.png
Issue date: 12/30/2015
From: Urgitis J D
Dominion, Dominion Nuclear Connecticut
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
CP2804M, Rev 002
Download: ML16020A039 (82)


Text

ToFacilityAddress:DOCUMENT CONTROL DESK:MP Department:

U.S. NUCLEAR REGULATORY COMMISSION DOCUMENT CONTROL DESK (0140)WASHINGTON, DC 20555-0001 PASSPORT DOCUMENTTRANSMITTAL Page:ii ii Ni Nii i i i i Nl i iFrom :CONTROLLED Date/Time
12/30/15 08:13Trans No. : 000153271 Total Items: 00001DOCUMENTS ansmittal Group Id: 1511847Item Facility Type Sub Document Number/ITitle Sheet Revision Doc Date Copy # Media Copies* 0001 MP PROC CH CP 2804M 002 P 01UNIT 2 VENT CONTAINMENT AIR PASSPlease check the appropriate response and return form to NDS Bldg 475/3Millstone Power Station or Fax to 860-440-2057.

All documents received.

Documents noted above not received (identify those not received)

I no longer require distribution of these documents.

Date:Date:Signature:

f DomiionAdministrative Correction Authorization

4. Requestor(s).D'ui Print Name(s) / Locations
5. Date1/95
6. Requestor47 Phone7. Applicable Nuclear Station(s)

Millstone

[] North Anna LI Surry LI8. Please check below to indicate the type of administrative correction needed.[] Updating titles, names, phones numbers, document format, procedure

numbers, or references LI Misspellings (e.g., "adn" instead of "and")LI Incorrect step number sequence (e.g., "6.3.1, 6.3.3, 6.3.2" instead of "6.3.1, 6.3.2, 6.3.3")LI Incorrect page numbers in the headers and attachments (e.g., "PAGE 82 of 80" instead of "PAGE 82 of 82")LI Incorrect pagination, such as incorrect page breaksLI Incorrect transitions,
branches, and references (e.g., referenced procedure has been renumbered)

LI Mistakes occurring during duplication (cloning) of procedures (e.g., Unit 1 panel number, equipment location number, orprocedure number in a Unit 2 procedure)

LI incorrect equipment location

numbers, if the noun descriptor fits the application LI Incorrect noun descriptor, if the equipment location number is accurateLI Mistakes or computer file corruptions that occurred during the posting process[] Other: Changed instances of VERIFY to CHECK or ENSURE as applicable.

Errors in setpoints, measurements, or quantitative acceptance criteria shall not be considered an administrative correction Authorization for Permanent Administrative Correction

9. Procedure Process Management Signature
10. Date11. Manager Nuclear Operations Signature (Required for EOPs, FCAs, or FSGs) 12. DateN/AAdministrative Correction Completed By_____________
13. Name (Print) "natu #15. DateJeff D. Urgitis 12/29/15NOTE: The individual(s) posting an Administrative Correction to EDMS are responsible for ensuring Nuclear E-Formsis updated.16. Nuclear E-Forrns Updated for Site(s)?
17. Nuclear E-Forms Updated Print Name/Signature 118. DateLIMP LINA LISU [MN/A N/A19. Technical Procedure Number: 120. Revision:
21. Effl~ctive

~Iate/"CPI84M002 Form No. 730689(May 2015)

MILLSTONE NUCLEAR POWER STATIONCHEMISTRY PROCEDURE SUnit 2 Vent and Containment Air PASS[4sRef,6.

14]FCP2804M7 -; <- :

,ST P17INKN NOTE 4A:' REVIEW...."iew],g' jthe Nuclear<'FuelsSsafety Amalysis is fw" nv.. mo ,,to impact do~se lmit tif n mtoitudly

-acl' ti" s. IApproval Date:Effective Date:12/30/1512/30/15Level of UseContinuous Millstone Unit 2Chemistry Procedure Unit 2 Vent and Containment Air PASS[4.Ref.6.

14]TABLE OF CONTENTS1. PURPOSE .................................................

32. PREREQUISITES...........................................
33. PRECAUTIONS

.....................................

....... 94. INSTRUCTIONS...........................................

104.1 Preparation for Sampling

.................................

104.2 PASS Containment Air Sample Preparation

...................

124.3 PASS Containment Air Sample Isolation

.....................

144.4 PASS Containment Air Sample Retrieval

.....................

174.5 PASS Containment Air Sample Analysis

......................

194.6 PASS Containment Air System Restoration

...................

214.7 Unit 2 (EBRV) Vent Gas Sampling

..........................

23 _4.8 Unit 2 (EBRV) Vent Particulate and Iodine Sample Collection

... 25 I4.9 WRGM and Vent High Range Particulate andIodine Sample Analysis...................................

30 I4.10 KAMAN High Range System Filter Sample Collection

..........

334.11 KAMAN High Range System Filter Sample Analysis

...........

484.12 Normal Range WRGM Particulate and Iodine Sample Collection 50 I4.13 Changing High Range Filters in Wide Range Gas Monitor .......584.14. U2 Main Station Stack High Range Gas Sampling

.............

64I4.15 U2 Main Station Stack and Vent Gas Isotopic Analysis

..........

664.16 PASS Equipment Inventory................................

685. REVIEW AND SIGNOFF .....................................

696. REFERENCES

..............................................

70Level of Use CP2804MContinuous STOP "THINK ACT" REVIEW Rev. 002i1 of 79

7. SUMMARY OF CHANGES ...................................

ATTACHMENTS AND FORMSAttachment 1, "Unit 2 Post Accident Sampling Containment GaseousActivity Worksheet"

..............................

Attachment 2, "Unit 2 Post Accident Sampling GaseousRelease Worksheet"

..............................

Attachment 3, "Unit 2 Post Accident Sampling Particulate andIodine Release Worksheet".........................

Attachment 4, "Shelf Ratio Calculation"

..........................

Attachment 5, "PASS Equipment Inventory List" ...................

717374757879Level of UseContinuous STOP- 'THINKACT .... REVIEWCP2804MRev. 0022 of 79

1. PURPOSE1.1 Objective Provide method for sample collection and analysis of Unit 2 Vent, U2releases to Main Station Stack and containment atmosphere via PASSfollowing an accident as a contingency plan, when radioactivity levels maypreclude the use or the normal sampling method. Sampling and analysis

[can be directed by the MRDA or AMRDA during an event which hasactivated the Station Emergency Response Organization (SERO).1.2 Discussion This procedure provides instructions which may be utilized by chemistry when collecting and analyzing highly radioactive containment atmosphere and ventilation samples and during post accident conditions.

The analysesconducted in this procedure can identify and quantify radioactive isotopescontained in the ventilation or containment air. The presence and amountof hydrogen and certain radioactive isotopes may assist in determining thetype and extent of core damage.1.3 Applicability This procedure is applicable following an accident when in-plantradiation levels may be too high to permit ventilation and containment airsampling via the normal method.1.4 Frequency Performance of this procedure may be repeated periodically during SEROactivation, when requested by the MRDA or AMRDA for updates orreassessments of containment conditions.

2. PREREOUISITES 2.1 General2.1.1 Silver Zeolite Cartridges are used for iodine ventilation sampling1 in conjunction with this procedure (unless otherwise directed by IChemistry Supervision).[4.Ref 6.15]2.1.2 Performance of this procedure must be authorized by the ADTSwhen SERO is activated 2.1.3 When SERO activated assessment by the MRCA for personnel exposure has been performed against station and Federal limits.Level of Use ,CP2804MContinuous

.."STOP "THINK "ACT Rev. 002,. ,:3 of 79 2.1.4 The sample aliquots listed in this procedure are not fixednumbers.

Estimation of core damage may require a largersample aliquot.

If a larger sample is requested by the MRDA orAMRDA, substitute the required size syringes for those stated inthis procedure.

2.1.5 Sections 4.7 through 4.16 are distinct sections that may beperformed independently of each other.2.2 Documents 2.2.1 C CP 803.6, "Gamma Spectroscopy Counting SystemMaintenance and Operation" 2.2.2 C CP 803.12, "Operation and Calibration of the Varian CP 4900Micro-GC" 2.2.3 SP 2814A, "Gaseous Effluents for Jodines and Particulates fromUnit 2 Vent"2.2.4 SP 2863-001, KAMAN Iodine Cartridge Particulate FilterChanged2.2.5 SP 2863-002, "Unit 2 Vent High-Range Filter Data Sheet" I2.2.6 SP 2815, "Main Station Stack Wide Range Gas Monitor SamplingI for Iodine and Particulates"

2.3 Personnel

2.3.1 Performance of this procedure can require the response of thefollowing personnel:

a. MRCAb. OSC ARPSc. ADTSd. MRDA or the AMRDAe. MOSCf. MCROLevel f UseCP2804M Continuous
STOP .... THINK .ACT REVIEW Rev. 002' / .....4 of 79
g. One air PASS team* Two Chem Techs* One HP Tech2.4 Tools and Consumables NOTESome tools and consumables are common to all samples and analyses, andare listed as such. The tools and consumables are listed for each type ofsample. This list is provided as a reference and may be amended duringthe pre -job review depending on plant conditions.

2.4.1 Tools and consumables common to all samples:* Gamma spectroscopy calibration source* 8 1/8 inch gamma spectroscopy detector shelf extension tube* 16 inch gamma spectroscopy detector shelf extension tube* 24 inch gamma spectroscopy detector shelf extension tube2.4.2 PASS Containment Atmosphere Sample* Two, 1 ml syringes with side port needle* Two, 500 F1 syringes with side port needle* PASS cabinet key* Transport cart with lead syringe shield* 2 evacuated 14.4 cc gas vials* Two, 10x16 plastic bags* Two, 4x6 plastic bags* Plastic wrapLevel of Use / : %CP2804MContinuousI

...STOP" 'THINK -IACT ....:REVIEW Rev. 0025 of 79 2.4.3 Vent Gas Sampling* 5 cc gas syringe* Evacuated 14.4 cc gas vial* 41 cc gas collection chamber* Lead transport container for gas vial* 4x6 plastic bago 10x16 plastic bag* Plastic wrap2.4.4 Vent Particulate and Iodine Sampling* 2 Silver zeolite cartridges[4.Ref.

6.15]* Two, 2.25 inch glass fiber filters* Eight, 4x6 plastic bags* Adhesive tape* Transport cart with shielded container

  • In-use Chem Form 2814A-3* New Chem Form 2814A-3Leelo UeCP2804M Continuous STOP THINK ,,ACT'...

REVIEW Rev. 002... .:i -=. "" ... :,- i,6 of 79 2.4.5 KAMN/AN High Range Filter Sampling* 3 collector assemblies (consisting of housing, silver zeolitecartridge, and 2.25 inch glass fiber filter)[-!.Ref.

6.15]* Transport cart with transfer cask for collector assemblies

  • Mechanical finger tool* Reach Rod* KAMVAN microprocessor operating key* Three, 10x16 plastic bags* Six, 4x6 plastic bags* SP 2863-001* SP 2863-0022.4.6 WRGM Normal Range Sampling* Silver zeolite cartridges[.4.Ref.

6.15]* 47 mm glass fiber filters--Plastic bag(s)* Transport cart or container

  • In-use SP 2815-0022.4.7 WRGM High Range Sampling* Two 9/16" wrenches* Transport cart for collector assemblies and caves2.5 Responsibilities 2.5.1 The Air PASS Team performs the required sampling and analysisdetailed in this procedure.

Level of Use ::. *CP2804MCotiuos TO TIN ACT REVIEW Rev. 002," : j *7 of 79 2.5.2 When SERO is activated, the following responsibilities are ineffect:a. The Manager of Operational Support Center designates, assembles, and briefs the Air PASS Team for implementation of this procedure.

b. The MRCA or OSC ARPS specifies Air PASS teamradiological controls required for implementation of thisprocedure.
c. The MRDA or AMRDA specifies Air PASS Team samplingand analysis requirements for implementation of thisprocedure.
d. The MCRO performs valve lineups for the acquisition andretrieval of samples upon request of the Air PASS Team.e. The ADTS has final approval authority over team dispatch.

2.6 Definitions

2.6.1 WRGM-Wide Range Gas Monitori2.6.2 DEOF -Director, BOF2.6.3 ADEOF-Assistant

Director, BOF2.6.4 OSC ARPS -Operational Support Center Assistant Radiological Protection Supervisor.

2.6.5 ADTS -Assistant Director Technical Support.2.6.6 Air PASS team -Personnel designated for sampling and analysisof vent and containment air of the affected unit. The air PASSteam will normally be comprised of at least two chemistry technicians and, one HP technician.

2.6.7 SLPM -Standard Liters Per Minute2.6.8 SWITCH -To change positions 2.6.9 KELIC -KAMAN Electronic Local Indication and Control2.6.10 KERIC -KAMAN Electronic Remote Indication and ControlLevel of Use ....804MContinuous

  • STOP, THINK ,ACT REVIEW Rev. 002" ,., :,8 of 79
3. PRECAUTIONS 3.1 When locking air samples within syringes, do not rotate syringe more thantwo turns. Excessive turns will disengage needle from syringe resulting inthe possible release of radioactive gasses.3.2 In the event of unexpected results during the course of this procedure, place the equipment in a safe or stable condition, cease performance offurther steps, and contact the MRDA or the AMVRDA for furtherinstructions.

3.3 Silver Zeolite cartridges are hazardous material.

These cartridges mustbe collected and transferred to Waste Services Department for properdisposal.

ILevel of UseContinuous STOP, THINKACT REVIEWCP2804MRev. 0029 of 79

4. INSTRUCTIONS 4.1 Preparation for Sampling4.1.1 COMPLETE the following applicable steps as directed:
a. CONSTRUCT lead brick shield in chemistry lab samplehood.b. ENSURE exhaust hood above gas chromatograph isoperating.
c. LABEL two, 1.0 ml syringes, "HYDROGEN."
d. LABEL two, 500 [dl syringes, "ISOTOPIC."
e. LABEL one, 5 cc syringe, "GAS."____f. CHECK operability of syringes.
1) ENSURE syringe nosepiece is screwed against syringebody.* 2) DRAW air into syringe.3) TURN syringe nose piece 2 turns clock-wise.
4) PLACE needle in beaker of water.5) PUSH plunger and ENSURE no air exits syringe.6) TURN syringe nosepiece tight against syringe body.7) PLACE needle in beaker of water.8) PUSH plunger and ENSURE air exits syringe.* ~g. Refer To C CP 803.12, "Operation and Calibration of the IVarian CP 4900 Micro-GC,"

and PREPARE gas Ichromatograph for PASS sampling.

____h. Using silver zeolite cartridges and particulate filters,ASSEMBLE three KAMAN collector assemblies.

Level of Use 'CP2804MContinuous STOP THINK ,ACT REVIEW Rev. 00210 of 79 i.COPY the following applicable attachments of this procedure to expedite recording of data:* Attachment 1, "Unit 2 Post Accident SamplingContainment Gaseous Activity Worksheet"

  • Attachment 2, "Unit 2 Post Accident Sampling GaseousRelease Worksheet"
  • Attachment 3, "Unit 2 Post Accident SamplingParticulate and Iodine Release Worksheet"

-End of Section 4.1 -!Level of UseContinuous STOP THINKACT REVIEWCP2804MRev. 00211 of 79 4.2 PASS Containment Air Sample Preparation 4.2.1 REQUEST Operations verify Auxiliary Building Ventilation System operating.

a. IF inoperable, NOTIFY the MRDA or the AMRDA andWAIT for further instructions.

4.2.2 DETERMINE which H2 Analyzer is in service.4.2.3 NOTIFY MCRO that Containment Air PASS will be activated.

4.2.4 With PASS Cabinet Key, PROCEED to Sample Module area.4.2.5 UNLOCK and OPEN anti-tamper cover on Sample Module.4.2.6 OPEN Sample Module ventilation damper.4.2.7 OPEN Sample Module door.NOTEWhen 2-S-502 is closed, handle is perpendicular to needle guide.4.2.8 CLOSE "2-S-502."

4.2.9 PLACE valve "2-S-484" in POSITION

  1. 1.4.2.10 IF C-86 H2 Analyzer is in service, OPEN the following valves:a. 2-S-463b. 2-8-4644.2.11 IF C-87 H2 Analyzer is in service, OPEN the following valves:a. 2-S-461b. 2-S-4624.2.12 CLOSE valve "2-S-485."

4.2.13 PROCEED to Remote Operating Module, UNLOCK andREMOVE anti-tamper cover.Level of/ Use CP2804MContinuous STO TIN AC RE IE.R v.00,,< .... " " :'12 of 79

___4.2.14 PRESS ROM "POWER ON" button.____4.2.15 RESET timer to zero.____4.2.16 CHECK line fuses are good by observing no blown fuseindication.

____4.2.17 OPEN front panel of Remote Operating Module.____4.2.18 CLOSE "2- GAN- 246."____4.2.19 CLOSE "2- GAN- 247."____4.2.20 OPEN "2- GAN-- 248."____4.2.21 CLOSE front panel of Remote Operating Module.___ 4.2.22 BACK OFF "2-GAN- 231."____ 4.2.23 BACK OFF "2- GAiN- 249" (V-7).____4.2.24 OPEN nitrogen bottle isolation valve.____4.2.25 ESTABLISH nitrogen pressure at 400 psig using "2-GAN-236."

____4.2.26 ADJUST "2-GAN-249" (V-7) to regulate nitrogen pressure to80 psig.___4.2.27 POSITION "2-GAN-252" (V-10) to ON.____4.2.28 ADJUST "2- GAN- 23 1" to regulate nitrogen pressure to 70psig.___4.2.29 POSITION "2-GAN-252" (V-10) to OFE4.2.30 RETURN to Chemistry Lab.-End of Section 4.2 -Level of Use CP204Continuous STOP "THINK ... ACT. REVIEW Rev. 002* .. .. " , of 79 4.3 PASS Containment Air Sample Isolation 4.3.1 COLLECT the following equipment:

  • Transport Cart____ 500 syringe labeled as "Isotopic"

____ 1.0 ml syringe labeled as "Hydrogen" 4.3.2 PROCEED to Remote Operating Module.4.3.3 OPEN Remote Operating Module door.4.3.4 OPEN valve "2- GAN- 246" to pressurize flask.4.3.5 CLOSE Remote Operating Module door.4.3.6 ENSURE 15 minute warmup of Remote Operating Module hasbeen performed.

4.3.7 POSITION following valves to OFF:___ a. 2-GAN-234 (V-11)___ b. 2-GAN-252 (V-10)4.3.8 OPEN "2-S-500" (V- !).4.3.9 PLACE "2-s-501" (V-2) to SAMPLE.4.3.10 INITIATE sample-flow as follows:a. PLACE "2-GAN-234" (V-il) to SAMPLE INFLUENT.

b. PROCEED to C-86A or C-87A and POSITION theoperating hydrogen analyzer PASS sample switch to "ON."c. ENSURE indication of flow on ROM flowmeter.
d. RECORD flow: ____SLPMe. IF there is not an indication of flow, REQUEST Operations to verify a Hydrogen Analyzer in service.Level of Use C ....04M.Continuous SToP THINK ,ACT *REVIEW Rev. 002* ' " ,14 of 79 4.3.11 WAIT 15 minutes.4.3.12 CLOSE "2-S-500" (V-i).4.3.13 ENSURE indicated flow has decreased.

V CAUTION VThe following steps should be performed rapidly to prevent tripping thehydrogen analyzer.

The sample chamber and tubing lines in and out arevery small diameter which presents a flow restriction which can trigger thehydrogen analyzer lo flow/lo pressure alarm. This alarm is triggered if thisflow restriction exists for more than 30 seconds.

For that reason isolate thesample as quickly as possible after the 15 seconds has elapsed.4.3.14 WAIT 15 seconds.4.3.15 To isolate sample, PLACE "2-S -501" (V-2) to BYPASS ANDFLUSH.4.3.16 PROCEED to C-86A or C-87A and POSITION the operating hydrogen analyzer PASS sample switch to "OFE"4.3.17 INITIATE Nitrogen Purge as follows:a. PLACE "2-GAN-234" (V-li) to NITROGEN FLUSHposition.

b. OPEN "2-S-500" (V-i).c. PLACE "2-GAN-252" (V-10) to ON.d. ADJUST "2- GAN- 231" to regulate to 70 psig.e. ENSURE indication of flow on flowmeter.
f. RECORD flow:SLPM4.3.18 WAIT 3 minutes.4.3.19 CLOSE "2-S-500" (V-i).4.3.20 CHECK flow less than that which was indicated in step 4.3.17 f.Level of UseContinuous

,STOP THINKACT REVIEWCP2804MRev. 00215 of 79 4.3.21 WAIT 3 minutes.4.3.22 PLACE following valves to OFF:a. 2-GAN-252 (V-10)b. 2-GAN- 234 (V-li)4.3.23 OPEN "2-8-500" (V-i).-End of Section 4.3 -Level of UseContinuous STOPTHINKACT REVIEWCP2804MRev. 00216 of 79 4.4 PASS Containment Air Sample Retrieval 4.4.1 PROCEED to Sample Module.4.4.2 PERFORM a rapid radiation survey of Sample Module.4.4.3 ENSURE radiation levels are low enough, per established radiological

controls, to allow access to Sample Module.4.4.4 ENSURE nosecap of 1.0 ml and 500 [dl syringes are screwed upagainst body.4.4.5 COLLECT 500 1Al Containment Air Sample as follows:a. LINE UP handle of "2-8-502" (V-3) with needle guide toopen.b. INSERT 1.0 ml "HYDROGEN" syringe needle into needleguide.c. ENGAGE syringe needle nut into needle guide slot.d. WITHDRAW 500 of containment air into syringe.Do not rotate syringe nosecap more than two turns. Excessive turns willdisengage needle from syringe resulting in the possible release ofradioactive gasses.e. TURN syringe nosecap body two turns in thecounterclockwise direction to lock syringe.f. REMOVE syringe from needle guide.g. CLOSE "2-S-502" (V-3).h. PLACE syringe in lead transport container.

Level of UseContinuous STOP THINKACT REVI EWCP2804MRev. 00217 of 79 4.4.6 COLLECT 250 Containment Air Sample as follows:a. LINE UP handle of "2-S-502" (V-3) with needle guide toopen.b. INSERT 500 "ISOTOPIC" syringe needle into needleguide.c. ENGAGE syringe needle nut into needle guide slot.d. WITHDRAW 250 of containment air into syringe.e. TURN syringe nosecap two turns in counterclockwise direction to lock syringe.f. REMOVE syringe from needle guide.g. CLOSE "2-8-502" (V-3).h. PLACE syringe in lead transport container.

4.4.7 CLOSE and LATCH Sample Module door.4.4.8 RETURN to Chemistry Lab with transport cart and syringes.

-End of Section 4.4 -Level of UseContinuous STOPTHINKACT REVIEWCP2804MRev. 00218 of 79 4.5 PASS Containment Air Sample Analysis4.5.1 WHEN requested, PERFORM Gas Analysis as follows:a. Refer To C CP 803.12, "Operation and Calibration of the IVarian CP 4900 Micro-GC,"

and PERFORM hydrogen andoxygen analysis on the 1.0 ml hydrogen syringe.b. RECORD results on Attachment 1 "Unit 2 Post AccidentSampling Containment Gaseous Activity Worksheet."

4.5.2 WHEN requested, PERFORM Isotopic Analysis as follows:miut, pe cve bckrondcontonth dteto t ba. Refer To C CP 803.6, "Gamma Spectroscopy CountingSystem Maintenance and Operation,"

and PERFORMa5

1) RECORD all identified isotopes and associated activityon Attachment 1 "Unit 2 Post Accident SamplingContainment Gaseous Activity Worksheet."
2) SAVE gamma spectrometer printout for future reference.
b. TURN 500 isotopic syringe nosecap until it is screwed upagainst body.c. INJECT isotopic syringe sample into evacuated 14.4 cc vial.d. WRAP vial in plastic wrap.e. PLACE sample vial on detector shelff. Refer To C CP 803.6 and INITIATE a 5 minute sample lcount.g. IF dead time is less than 20%, Go To step 4.5.2i.h. IF dead time is greater than or equal to 20%, PERFORM thefollowing:

[.!.Ref.

6.15]1) REMOVE sample vial and detector shelf..2) PLACE shortest detector shelf extension tube ondetector.

Level of Use CP2804MContinuous STOP THINK ,ACT REVIEW Rev. 002'- , of 79

3) Starting with lowest shelf and working up, PLACE vial onextension tube until a dead time of less than 20% isachieved.
4) TERMINATE count.5) Refer C CP 803.6 and COUNT vial (open cave) for 5 Iminutes.6) WHEN count is completed, Refer To Attachment 4,"Shelf Ratio Calculation" and DETERMINE shelf ratio.i. CALCULATE activity for each isotope on Attachment 1,"Unit 2 Post Accident Sampling Containment GaseousActivity Worksheet."
j. PLACE empty syringes and sample vial in a plastic bag.k. STORE syringes and sample vial in lead brick shield fordisposal.
1. COMPLETE Attachment 1.m. REPORT analysis results to MRDA or AMRDA.n. IF a backup sample is requested by MRDA or AMRDA,PERFORM the following:
1) OBTAIN new 500 [dl and 1.0 syringes.
2) PROCEED to sample module area.3) Go To Section 4.4.o. IF a backup sample is not required, PERFORM thefollowing:
1) PREPARE two copies of data sheets and computerprintouts.
2) SEND copy of data sheets and computer printouts toMRDA or AMRDA.3) FORWARD original and copy of data sheets andcomputer printouts to Chemistry Supervision.

-End of Section 4.5 -Level of UseCP8MContinuous STOP THINK ACT. REVIEW, Rev. 002* , ,"..20 of 79 4.6 PASS Containment Air System Restoration 4.6.1 PROCEED to Remote Operating Module.4.6.2 POSITION "2-S-501" (V-2) to "SAMPLE."

4.6.3 INITIATE nitrogen purge as follows:___ a. POSITION "2-GAN-234" (V-il) to"NITROGEN FLUSH."b. POSITION "2-8-500" (V-i) to "OPEN."c. POSITION "2- GAN- 252" (V-10) to "ON."d. CHECK a flow rate is indicated.

e. RECORD flow: ____SLPM4.6.4 WAIT 3 minutes.4.6.5 POSITION "2- S-500" (V-i1) to "CLOSE."I 4.6.6 ENSURE flow rate indicated is less than that which was recordedin step 4.6.3 e.___ 4.6.7 WAIT 3 minutes.4.6.8 POSITION valves as follows:a. 2-GAN-252 (V-b0) to "OFF"b. 2-GAN-234 (V-il) to "OFF"c. 2-S-500 (V-i) to "OPEN"NOTEThe system is now purged of sample.4.6.9 CLOSE nitrogen bottle isolation valve.4.6.10 BACK OFF regulating valve "2-GAN-236."

Level of Use CP2804MContinuous

" ::THINK?;

REVIE Rev"00 4.6.11 BACK OFF regulating valve "2- GAN- 249" (V-7).4.6.12 PRESS "POWER ON" button to de-energize the RemoteOperating Module.4.6.13 OPEN front panel of module.4.6.14 CLOSE "2- GAN-246."

4.6.15 BLEED off nitrogen pressure as follows:a. CRACK open "2-GAN--247."

b. BLEED off nitrogen pressure.
c. CLOSE "2- GAN- 247."4.6.16 CLOSE and LATCH front panel of module.4.6.17 On Remote Operating Module, REPLACE and LOCKanti -tamper cover.4.6.18 PROCEED to Sample Module.4.6.19 IF C-86 H2 Analyzer is in service, CLOSE the following valves:a. 2-S-463b. 2-S-4644.6.20 IF C-87 H2 Analyzer is in service, CLOSE the following valves:a. 2-S-461b. 2-S-4624.6.21 CLOSE Sample Module ventilation damper.4.6.22 CLOSE and LOCK Sample Module door.4.6.23 NOTIFY MCRO that PASS containment air sampling iscomplete.

-End of Section 4.6 -Level of Use I ...,CP2804MCniuu [ STOP" THINK "ACT :REVIEW Rev. 002Continuous....

22 of79 4.7 Unit 2 Vent (EBRV) Gas Sampling_ 4.7.1 NOTIFY MCRO that a Vent Gas Sample will be collected.

4.7.2 COLLECT the following equipment:

  • 5 cc gas syringe* Stoppered and evacuated 14.4 cc vial* Gas collection chamber* Lead transport container for 14.4 cc vial4.7.3 PROCEED to Auxiliary Vent Sampling Rig in 38' 6" EastPenetration Room.4.7.4 At Auxiliary Vent Sampling Rig, COLLECT sample as follows:a. CONNECT tubing from flow gauge outlet to inlet of gascollection chamber.b. CONNECT tubing from outlet of gas flask to suction ofp sample pump.___ c. OPEN inlet and outlet stopcocks on gas collection chamber.d. OPEN V-i1 "Sample Inlet Isolation."
e. OPEN V-4 "Sample Outlet Isolation."
f. OPEN 2-HiV-462, "RM Return to U2 Stack."g. OPEN 2-HV-459, "Drain Valve."h. OPEN flow gauge throttle valve.___i. START sample pump.j. PURGE sample for 1 minute.___k. STOP sample pump.1. CLOSE inlet and outlet stopcocks on gas flask.Level of Use ,CP2804MContinuous STOP" THINK ,.ACT REVIEW Rev. 002., 23 of 79

___ m. RECORD sample time on Attachment 2.____n. Using the gas syringe, WITHDRAW 5 cc from gas flask.o. REMOVE transport container cap, exposing needle guide.p. INSERT syringe needle through needle guide.q. INJECT 5 cc of gas into 14.4 cc sample vial.r. REMOVE syringe needle.___s. REPLACE cap on transport container.

t. RESTORE system by closing the following valves:1) V-i2) V-43) 2-HV-4624) 2-HV-459~u. REMOVE gas collection chamber.v. PROCEED with sample to Chemistry Lab.-End of Section 4.7 -Level of Use CP2804MContinuous

-STOP- THINK ,ACT REVlIEW Rev. 002,, , ' ,24 of 79 4.8 Unit 2 Vent (EBRV) Particulate and Iodine Sample Collection I4.8.1 IF automatic isolation of on-line filters AND the Kaman highrange system is in service, Go To Section 4.10.4.8.2 NOTIFY MCRO that a Particulate and Iodine Sample will becollected.

4.8.3 COLLECT the following equipment:

  • 2 particulate filters* Four 4x6, plastic bags* Adhesive tape* Transport cart with shielded container
  • Current SP 2814A-003
  • New SP 2814A-003 4.8.4 DETERMINE sample collection time as follows:a. REVIEW RM 8132A trend plot and DETERMINE elapsedtime since count rate increase.
b. MULTIPLY current RM 8132A reading (cpm) by 2.0 E-°6[ICi/cpm.

,uCicpm xcpm =MlCi Ic. DIVIDE result from step 4.8.4b. by elapsed time from step4.8.4a.I j~ +sec =3zisecLevel of Use C-204Continuous s-TOP THINK ACT REVIEW Rev. 00225 of 79

d. DIVIDE 10 1[4Ci by result from step 4.8.4c.Sl~tuCi + tCisec =sec4.8.5 REQUEST permission from Control Room to SECURE RadMonitor Blower.4.8.6 PROCEED to RM 8132A Sampling Cabinet in the 38' 6" EastPenetration Room.4.8.7 Refer To SP 2814A-003 and RECORD following:
a. Rad Monitor Blower in serviceb. Sample flow as read on FIS-8132.

4.8.8 SECURE radiation monitor blower.4.8.9 RECORD ventilation fan running hours on SP 2814A-003.

4.8.10 RECORD date and time removed on SP 2814A- 003.4.8.11 REMOVE charcoal cartridge from the radiation monitorcartridge holder.4.8.12 PLACE removed charcoal cartridge in plastic bag.4.8.13 SEAL bag and LABEL with date and time.4.8.14 PLACE bag in shielded container 4.8.15 LABEL a new silver zeolite cartridge with an arrow to indicatedirection of sample flow.4.8.16 INSTALL new silver zeolite cartridge in radiation monitorcartridge holder.4.8.17 RECORD date and time installed on SP 2814A-003.

4.8.18 REMOVE particulate filter from radiation monitor particulate filter holder.4.8.19 PLACE removed particulate filter in plastic bag.Level of Use ..CP2804MContinuous

~ 'STOP THINK " ACT REVIEW Rev. 002* ' " ,.26 of 79 4.8.20 SEAL bag and LABEL with date and time.4.8.21 PLACE bag in shielded container 4.8.22 RECORD date and time removed on SP 2814A- 003.4.8.23 INSTALL a new particulate filter in the radiation monitorparticulate filter holder.4.8.24 RECORD date and time installed on SP 2814A-003.

4.8.25 ZERO the ventilation fan run time meter.4.8.26 START radiation monitor blower.4.8.27 OBSERVE sample flow.4.8.28 RECORD sample flow reading on a new SP 2814A-003.

4.8.29 RECORD the following on Attachment 3, "Unit 2 Post AccidentVent Particulate and Iodine Release Worksheet":

  • Start date* Start time* Sample flow4.8.30 EXIT East Penetration Room and PROCEED to a lower doserate area.4.8.31 WHEN sample time calculated in step 4.8.4 is reached, ENTEREast Penetration Room.4.8.32 RECORD sample flow on SP 2814A-003.

4.8.33 SECURE radiation monitor blower.4.8.34 RECORD ventilation fan running hours on SP 2814A-003.

4.8.35 REMOVE silver zeolite cartridge from radiation monitorcartridge holder.4.8.36 PLACE removed sliver zeolite cartridge in plastic bag.4.8.3 7 SEAL bag and LABEL with date and time.Level of UContinuou.,

esSTOP,THINK=... .. REVIEWCP2804MRev. 00227 of 79 4.8.38 PLACE bag in shielded container 4.8.39 RECORD date and time removed on SP 2814A-003.

4.8.40 LABEL a new silver zeolite cartridge with an arrow to indicatedirection of sample flow.4.8.41 INSTALL new silver zeolite cartridge in radiation monitorcartridge holder.4.8.42 RECORD date and time installed on SP 2814A-003.

4.8.43 REMOVE particulate filter from radiation monitor particulate filter holder.4.8.44 PLACE removed particulate filter in plastic bag.4.8.45 SEAL bag and LABEL with date and time.4.8.46 PLACE bag in shielded container 4.8.47 RECORD date and time removed on SP 2814A-003.

4.8.48 INSTALL a new particulate filter in radiation monitor particulate filter holder.4.8.49 RECORD date and time installed on SP 2814A-003.

4.8.50 ZERO ventilation fan run time meter.4.8.51 START radiation monitor blower.4.8.52 OBSERVE sample flow.4.8.53 RECORD sample flow reading on a new SP 2814A- 003.Level of UseCP8MContinuous STOP THINK *ACT REVIEW Rev. 002: ' -28 of 79 4.8.54 RECORD the following on Attachment 3, "Unit 2 Post AccidentVent Particulate and Iodine Release Worksheet":

  • Start date* Start time* Sample flow4.8.55 TRANSFER filters to chemistry lab.-End of Section 4.8 -Level of UseContinuous

,STOPTHIN K,ACT REVIEWCP2804MRev. 00229 of 79 4.9 WRGM and Vent High Range Particulate and Iodine Sample Analysis i4.9.1 PLACE particulate filter and iodine cartridge that were in serviceIat time of accident in a new plastic bag.4.9.2 PLACE bag in lead brick shield.4.9.3 PERFORM silver Zeolite cartridge and particulate filter analysisas follows:a. IF performing a silver zeolite analysis, Refer To C CP 803.6,I"Gamma Spectroscopy Counting System Maintenance andOperation,"

and with a gamma spectrometer, PERFORM a 5minute, open cave, background count using silver zeolite Igeometry and a volume of 1 cc on the detector to be used.1) LIST all identified isotopes and associated activity onAttachment 3, "Unit 2 Post Accident SamplingParticulate and Iodine Release Worksheet".

2) SAVE gamma spectrometer printout for future reference.
b. IF performing a particulate
analysis, Refer To C CP 803.6 and iwith a gamma spectrometer, PERFORM a 5 minute, opencave, background count using particulate geometry and a Ivolume of 1 cc on the detector to be used.1) LIST all identified isotopes and associated activity onAttachment 3, "Unit 2 Post Accident SamplingParticulate and Iodine Release Worksheet".
2) SAVE gamma spectrometer printout for future reference.
c. SEAL plastic bag containing silver zeolite cartridge.
d. PLACE silver zeolite cartridge on detector shelf.e. Refer To C CP 803.6 and INITIATE 5 minute sample countusing 1 cc volume.f. IF dead time is less than 20%, Go To step 4.9.3 h.Level of Use CP2804MContinuous STOP THINK ACT- REVIEW, Rev. 002.30 of 79
g. IF dead time is greater than or equal to 20%, PERFORM thefollowing:

[.!,Ref.

6.15]1) REMOV'E cartridge and detector shelf.2) PLACE shortest detector extension tube on detector.

3) Starting with the shortest tube and working up, PLACEthe cartridge on each tube until a dead time of less than20% is achieved.
4) TERMINATE count.5) Refer To C CP 803.6 and COUNT cartridge (open cave)for 5 minutes.II6) WHEN count is completed, Refer To Attachment 4,"Shelf Ratio Calculation" and DETERMINE shelf ratio.h. CALCULATE activity for each isotope on Attachment 3,"Unit 2 Post Accident Sampling Particulate and IodineRelease Worksheet."
i. REMOVE cartridge and PLACE in lead brick shield.j. IF detector extension tube was used, REMOVE tube andREPLACE shelf on detector.
k. PLACE particulate filter on detector shelf.1. Refer To C CP 803.6 and INMTIATE 5 minute sample count Iusing 1 cc volume.m. IF dead time is less than 20%, Go To step 4.9.3 o.Level of Use IContinuousI

<STOP:'THiNK::'

ulACT "REVIEWCP2804MRev. 00231 of 79

n. IF dead time is greater than or equal to 20%, PERFORM thefollowing:

[+Ref. 6.15]1) REMOVE filter and detector shelf.2) PLACE shortest detector shelf extension tube ondetector.

3) Starting with the lowest shelf and working up, PLACEfilter on each tube until a dead time of less than 20% isachieved.
4) TERMINATE count.5) Refer To C CP 803.6 and COUNT filter (open cave) for 51minutes.6) WHEN count is completed, Refer To Attachment 4,"Shelf Ratio Calculation" and DETERMINE shelf ratio.o. CALCULATE activity for each isotope on Attachment 3,"Unit 2 Post Accident Sampling Particulate and IodineRelease Worksheet."
p. IF detector extension tube was used, REMOVE tube andREPLACE shelf on detector.
q. COMPLETE Attachment 3.r. PROVIDE MRDA or AMRDA with results.s. PREPARE two copies of data sheets and computer printouts.
t. SEND copy of data sheets and computer printouts to MRDAor AM\'RDA.u. FORWARD original and a copy of data sheets and computerprintouts to Chemistry Supervision.
v. ENSURE cartridge and filter are labeled and placed in leadbrick shield for future counting or final disposal.

-End of Section 4.9 -Level of Use Continuous

..T.. THIN:so#;

.... ACT .. Rev. 002 4.10 Kaman High Range System Filter Sample Collection 4.10.1 COLLECT the following equipment:

  • Three collector assemblies
  • Reach rod* Mechanical fingers* KERIC microprocessor operating key* Plastic bags labeled with channel numbers*SP 2863-001* SP 2863-0024.10.2 NOTIFY MCRO that KAMAN high range filter samples will becollected.

4.10.3 Refer To Figure -1 and PROCEED to KERIC panel located inUnit 2 Control Room on panel Cl01.Figure -1O.Control Room PNL C-101 L.I.C. 8168(KERIC) Stack Gas Rad Monitor Local ControlPanel (KELIC)Keyboard Stack Gas EffluentEnable Disable 1.44 Purge ValveR~ W V 8132Z3~lIIZ Enable DisableZ DEispay ZIKeyboardDoc ispa ]TRem plate4.10.4 POSITION switch "RV -8132," stack gas effluent purge valve to"DISABLE."

Level of UseContinuous STOP THINK ",ACT REVIEWCP2804MRev. 00233 of 79 NOTEThe MRCA or OSC ARPS determines whether local or remote keyboardis to be used.4.10.5 To operate from KERIC keyboard, PERFORM the following:

a. POSITION KERIC key switch to "ENABLE."
b. IF KERIC panel does not respond to keyboard entriesPERFORM the following:
1) PROCEED to KELIC panel located in 4160 switchgear room in Turbine Building2) POSITION KELIC key switch to "REMOTE."
3) RETURN to Control Room.4.10.6 To operate from KELIC keyboard, PERFORM the following:
a. POSITION KERIC key switch to "DISABLE."
b. PROCEED to KELIC panel located in the 4160 switchgear room in the Turbine Building.
c. POSITION KELiC key switch to "LOCAL."L evel of UseContinuous STOP ' THINKACT 'REVIEWCP2804MRev. 00234 of 79 NOTEThe "Active Channel" is indicated by the channel with a radiation exposurerate greater than zero.4.10.7 DETERMINE active channel by displaying radiation exposurerates as follows:a. For channel 3, PERFORM the following:
1) PRESS "DSP"2) PRESS "3"3) PRESS "23"4) PRESS "ENT"b. For channel 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "C4"3) PRESS "23"4) PRESS "ENT"c. For channel 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "23"4) PRESS "ENT"4.10.8 PLACE an asterisk in channel number column on SP 2863-002to designate

'Active Channel."

Level of Use CP2804MContinuous STOP THINK ACT REVIEW Rev. 002

~ALARAIf flow was diverted, a high radiation condition may exist in the collectors.

4.10.9 IF operating the KERIC, PERFORM the following:

___a. POSITION KERIC key switch to "DISABLE."

b. PROCEED to the 4160 Switchgear Room in the TurbineBuilding.

4.10.10 IF operating the KELIC, POSITION KELIC key switch to"REMOTE."

4.10.11 REPLACE filters not in service on an "Inactive Channel" asfollows:a. OPEN inactive channel sample chamber door.____b. INSERT reach rod into "quick release latch."c. MOVIE reach rod to right.d. PLACE mechanical fingers around collector assembly.

___e. WITHDRAW assembly.

f. PLACE assembly in properly labeled bag.g. PLACE bagged assembly into lead transfer cask.h. Using mechanical
fingers, INSERT new collector assemblyinto assembly housing.i. PERFORM following to raise collector assembly:
1) INSERT reach rod into "quick release latch."2) MOVE reach rod to left..j. CLOSE and LATCH sample chamber door.____k. IF filters for another "Inactive Channel" need to be changed,Go To step 4.10.11 a.1. IF no other filters need to be changed Go To step 4. 10.12.Level of UseCP8MContinuous

'STOp " THINK : ACT" REVIEW ... Rev. 002.... 36 of 79

___ 4.10.12 IF operating in the KERIC, PERFORM the following:

a. PROCEED to KERIC panel located in Unit 2 Control Roomon panel C101.b. POSITION KERIC key switch to "ENABLE."

4.10.13 IF operating in KELIC, POSITION KELIC key switch to"LOCAL."4.10.14 OBTAIN total collection time for "Inactive Channels" as follows:a. For filter 3, PERFORM the following:

1) PRESS "DSP"2) PRESS "3"3) PRESS "45"4) PRESS "ENT"5) RECORD display as hours on SP 2863-002.
6) PRESS "EXP"7) RECORD display as minutes on SP 2863-002.
8) PRESS "EXP"9) RECORD display as seconds on SP 2863-002.
b. For filter 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "4"3) PRESS "45"4) PRESS "ENT"5) RECORD display as hours on SP 2863-002.
6) PRESS "EXP"Level of Use ,.CP2804M Continuous "STOP " THINK " ACT REVIEW Rev. 002" " ,37 of 79
7) RECORD display as minutes on SF 2863-002.
8) PRESS "EXP"9) RECORD display as seconds on SP 2863-002.
c. For filter 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "45"4) PRESS "ENT"5) RECORD display as hours on SF 2863-002.
6) PRESS "EXP"7) RECORD display as minutes on SF 2863-002.
8) PRESS "EXP"9) RECORD display as seconds on SF 2863-002.

4.10.15 OBTAIN total sample volume for "Inactive Channels" as follows:a. For filter 3, PERFORM the following:

1) PRESS "DSP"2) PRESS "3"3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SF 2863-002.
b. For filter 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "4"Level of Use CP204Con.nuusSTOP

" THINK ACT- REvIEw Rev. 002, -38 of 79

3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SP 2863-002.
c. For filter 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SP 2863-002.

NOTEIf the automatic sequence has stepped through all three filters and theradiation exposure rate for the 'Active Channel" is greater than100 mrem/hr, an automatic channel shift will occur when the next channelis cleared.4.10.16 To clear data on "Inactive Channels" or clear a "FULL' light,PERFORM the following:

a. To clear channel 3, PERFORM the following:
1) PRESS "STP"2) PRESS "3"3) PRESS "ENT"b. To clear channel 4, PERFORM the following:
1) PRESS "STP"2) PRESS "4"3) PRESS "ENT"Level of Use ... ,CP2804MCotnosSTOP T]HINK ,ACT" REVIEW Rev.002
c. To clear channel 5, PERFORM the following:
1) PRESS "STP"2) PRESS "5"3) PRESS "ENT"NOTEDiverting flow from the '`Active Channel" to the next channel allows forfilter change on the former "Active Channel" and allows for rotating flowpaths.4.10.17 To divert flow to activate a channel, PERFORM the following:
a. To divert flow to channel 3, PERFORM the following:
1) PRESS "FTN"2) PRESS "3"3) PRESS "04"4) PRESS "ENT"5) RECORD start and date on SP 2863-002.
b. To divert flow to channel 4, PERFORM the following:
1) PRESS "FTN"2) PRESS "4"3) PRESS "04"4) PRESS "ENT"5) RECORD start and date on SP 2863-002.

Level of Use CP2804M,

'ConinuusSTOPS;

... THINK:: ":-ACT,'

Rev. 002Co40iofo79

c. To divert flow to channel 5, PERFORM the following:
1) PRESS "FTN"2) PRESS "5"3) PRESS "04"4) PRESS "ENT"5) RECORD start and date on SP 2863-002.
d. Refer To SP 2863-002 RECORD stop time and date ofpervious active channel.e. IF an automatic shift occurs while stepping
channels, RECORD shift start and stop times for involved channels onSP 2863-002.
f. PLACE an asterisk next to new "Active Channel" in channelnumber column on SP 2863-002 to designate the "ActiveChaneld."

4.10.18 For the former 'Akctive Channel,"

PERFORM the following:

If flow was diverted, a high radiation condition may exist in the collectors.

a. IF operating KERIC, PERFORM the following:
1) POSITION KERIC key switch to "DISABLE."
2) PROCEED to 4160 Switchgear Room in TurbineBuilding.
b. IF operating KELIC, POSITION KELIC key switch to"REMOTE."
c. OPEN sample chamber door.Level of UseContinuous STOP ....THINKACT- REVIEWCP2804MRev. 00241 of 79
d. PERFORM the following to lower collector assembly:
1) INSERT reach rod into "quick release latch."2) MOVE reach rod to right.e. PLACE mechanical fingers around the collector assembly.
f. WITHDRAW assembly.
g. PLACE assembly into lead transfer cask.h. INSERT new collector assembly into assembly housing.i. PERFORM the following to raise collector assembly:
1) INSERT reach rod into "quick release latch."2) MOVE reach rod to left.j. CLOSE and LATCH sample chamber door.4.10.19 IF operating in KERIC, PERFORM the following:
a. PROCEED to KERIC panel located in Unit 2 Control Roomon panel C101.b. POSITION KERIC key switch to "ENABLE."

4.10.20 IF operating in KELIC, POSITION KELIC key switch to"LOCAL."4.10.21 OBTAIN total collection time for former "Active Channel" asfollows:a. For filter 3, PERFORM the following:

1) PRESS "DSP"2) PRESS "3"3) PRESS "45"4) PRESS "ENT"Level of Use -CP2804MContinuous STOP THINK ACT ...REVIEW Rev. 002" : 42 of 79
5) RECORD display as hours on SP 2863-002.
6) PRESS "EXP"7) RECORD display as minutes on SP 2863-002.
8) PRESS "EXP"9) RECORD display as seconds on SP 2863-002.
b. For filter 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "4"3) PRESS "45"4) PRESS "ENT"5) RECORD display as hours on SP 2863-002.
6) PRESS "EXP"7) RECORD display as minutes on SP 2863-002.
8) PRESS "EXP"9) RECORD display as seconds on SP 2863-002.
c. For filter 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "45"4) PRESS "ENT"5) RECORD display as hours on SP 2863-002.
6) PRESS "EXP"7) RECORD display as minutes on SP 2863-002.

Level of Use CP2804MContinuous STOP THINK ACT 'REVIEW Rev. 002...... ,43 of 79

8) PRESS "EXP"9) RECORD display as seconds on SP 2863-002.

4.10.22 OBTAIN total sample volume for the former 'Active Channel" asfollows:a. For filter 3, PERFORM the following:

1) PRESS "DSP"2) PRESS "3"3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SP 2863-002.
b. For filter 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "4"3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SP 2863-002.
c. For filter 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SP 2863-002.

Level of Use ,CP2804MContinuous STOP ' THINK " AcT ... REVIEW Rev. 002: " ",44 of 79 NOTEIf the automatic sequence has stepped through all three filters and theradiation exposure rate for the "Active Channel" is greater than100 mremlhr, an automatic channel shift will occur when the next channelis cleared.4.10.23 To clear data on former Active Channel" or clear a "FULL' light,PERFORM the following:

a. To clear channel 3, PERFORM the following:
1) PRESS "STP"2) PRESS "3"3) PRESS "ENT"b. To clear channel 4, PERFORM the following:
1) PRESS "STP"2) PRESS "4"3) PRESS "ENT"c. To clear channel 5, PERFORM the following:

1)2)3)PRESS "STP"PRESS "5"PRESS "ENT"Level of UseContinuous STOP...THINK' " ACTREVIEWCP2804MRev. 00245 of 79 4.10.24 IF directed by MRDA or AMRDA, MONITOR the in-service filter radiation levels as follows:a. For channel 3, PERFORM the following:

1) PRESS "DSP"2) PRESS "3"3) PRESS "23"4) PRESS "ENT"b. For channel 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "4"3) PRESS "23"4) PRESS "ENT"c. For channel 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "23"4) PRESS "ENT"4.10.25 POSITION KELIC key switch to "REMOTE."

4.10.26 PROCEED to Control Room panel Cl01.4.10.27 POSITION KERIC key switch to "DISABLE."

4.10.28 POSITION RV-8132, Stack Gas Effluent Purge Valve, switch to"ENABLE."

4.10.29 ENSURE Vent Gas High Radiation alarm is cleared.Level of Use CP2804MContinuous

.STOP THINK' ACT REVIEW, Rev. 002* 46 of 79 4.10.30 NOTIFY MCRO that filter change is complete and system isrestored to normal.4.10.3 1 TRANSFER assemblies in lead transfer cask to chemistry lab.-End of Section 4.10 -Level of UseContinuous STOPTHINKACT "R EVIEW"CP2804MRev. 00247 of 79 4.11 KAMAN High Range System Filter Sample Analysis4.11.1 REMOVE filters from collector assembly.

4.11.2 PLACE particulate filter in a properly

labeled, clean plastic bag.4.11.3 PLACE silver zeolite cartridge in a purge holder.4.11.4 REMOVE silver zeolite cartridge.

4.11.5 PLACE cartridge in a clean, labeled plastic bag.4.11.6 Refer To C CP 803.6, "Gamma Spectroscopy Counting System IMaintenance and Operation,"

and PERFORM a 5 minute, openIcave, background count using sample geometry and 1 cc volumeon the detector to be used.a. LIST all identified isotopes and associated activity onAttachment 3.b. SAVE gamma spectrometer printout for future reference.

4.11.7 PLACE cartridge on detector shelf.4.11.8 Refer To C CP 803.6 and INITIATE a 5 minute sample count. I4.11.9 IF dead time is less than 20%, Go To step 4.11.11.4.11.10 IF dead time is greater than or equal to 20%, PERFORM thefollowing:

[4iRef. 6.15]a. REMOVE cartridge and detector shelf.b. PLACE shortest detector shelf extension tube on detector.

c. Starting with shortest tube and working up, PLACE cartridge on each tube until a dead time of less than 20% is achieved.
d. TERMINATE count.e. Refer To C CP 803.6 and COUNT cartridge (open cave) for 15 minutes.f. WHEN count is completed, Refer To Attachment 4, "ShelfRatio Calculation" and DETERMINE shelf ratio.4.11.11 CALCULATE activity for each isotope on Attachment 3, "PostAccident Particulate and Iodine Release Worksheet."

Level of Use , ."CP2804M Continuous sToP "THINK "ACT REVIEW Rev. 00248 of 79

___ 4.11.12 REMOVE cartridge and PLACE in lead brick shield.____4.11.13 IF_ detector shelf extension tube was used, REMOVE tube andREPLACE shelf on detector.

4.11.14 PLACE particulate filter on detector in gamma spectrometer.

4.11.15 Refer To C CP 803.6 and INITIATE a 5 minute sample count Iusing 1 cc sample volume.4.11.16 IFF dead time is less than 20%, Go To step 4.11.18.4.11.17 IFF dead time is greater than or equal to 20%, PERFORM thefollowing: 6.15]a. REMOVE filter and detector shelf.____b. PLACE shortest detector shelf extension tube on detector.

c. Starting with shortest tube and working up, PLACE filter oneach tube until a dead time of less than 20% is achieved.
d. TERMINATE count.___e. Refer To C CP 803.6 and COUNT filter (open cave) for I5 minutes.f. WHEN count is completed, Refer To Attachment 4, "ShelfRatio Calculation" and DETERMINE shelf ratio.4.11.18 CALCULATE activity for each isotope on Attachment 3, "PostAccident vent Particulate and Iodine Release Worksheet."

4.11.19 REMOVE filter and PLACE in lead brick shield.___ 4.11.20 REPORT analysis results to MRDA or AMRDA.4.11.21 PREPARE two copies of data sheets and computer printouts.

4.11.22 SEND copy of data sheets and computer printouts to MRDA orAMRDA.4.11.23 FORWARD original and a copy to Chemistry Supervision.

-End of Section 4.11 -Level of Use CP.4CotiuosSTOP

"'THINK .ACT. .. REVIEW Rev. 002-49 of 79 4.12 Low Range WRGM Particulate and Iodine Sample Collection

~ALARAFilters may be highly radioactive.

Use caution when handling.

4.12.1 IF directed by MCRO, PREPARE to sample normal WRGMusing silver zeolite cartridges.

4.12.2 COLLECT the following equipment:

  • Two 47 mm particulate filters* Plastic bags* Transport container
  • Current SP 2815-002* New SP 2815-0024.12.3 DETERMINE sample collection time as directed or as follows:a. MULTIPLY current RM 8169 flow rate by 28300 cc/cubic ft.Icubic feetminxX28300 cccubic ft =ccminb. MULTIPLY result from 4.12.3a.

times current RM 8169reading !xCi/cc.c. DIVIDE 10 1iCi by result from 4.12.3b.10MfCi + ,uCimrin

= mind. MULTIPLY result from 4.12.3c.

by 60 to obtain seconds.Mm MiX60 secmin =secLevel of Use CP2804MCo ntin uo us ":"STOP,.

.THINK , ACT:" .."REVIEW Rev. 002, ' -: ...of 79 4.12.4 PROCEED to WRGM Sampling Area.4.12.5 RECORD the operating channel sample flow from FI-8169L onSP 2815-002, as the removed sample flow.4.12.6 IF the "A' sample train is in service, CLOSE the following "B"sample train isolation valves:a. 2-EB-216 Filter B-Inlet Isolation Valveb. 2-EB-217 Filter B-Inlet Isolation Valvec. 2-EB-218 Filter B-Outlet Isolation Valved. 2-EB-219 Filter B-Outlet Isolation Valve4.12.7 IF the "B" sample train is in service, CLOSE the following

"sample train isolation valves:a. 2-EB-220 Filter A-Inlet Isolation Valveb. 2-EB-221 Filter A-Inlet Isolation Valvec. 2-EB-222 Filter A-Outlet Isolation Valved. 2- EB- 223 Filter A-L Outlet Isolation Valve4.12.8 On the filter assembly out of service, PERFORM the following:

a. REMOVE filter holder ring clamp.b. REMOVE top gasket.c. REMOVE particulate filter and PLACE in plastic bag.d. REMOVE screen plate.e. REMOVE middle gasket.f. REMOVE iodine cartridge and PLACE in plastic bag.g. IF installed, REMOVE iodine cartridge adapter and itsassociated gasket.h. POSITION arrow indicator pointing into filter holder andLOAD a new silver zeolite cartridge into holder.d 71 STOP: ...."'THINK-

.. ACT .... REVIEW Rev. 002ILevel of UseContinuous

i. INSTALL middle gasket and screen plate.j. INSTALL screen plate.k. INSTALL particulate filter, fibrous side up into holder.1. INSTALL top gasket.m. INSTALL and TIGHTEN filter holder ring clamp.4.12.9 IF "A" sample train is currently out of service OPEN the following to align sample path:a. 2- EB- 220 Filter A- Inlet Isolation Valveb. 2-EB--221 Filter A-Inlet Isolation Valvec. 2-EB-222 Fitter A-Outlet Isolation Valved. 2-EB-223 Filter A-Outlet Isolation Valve4.12.10 IF "B" sample train is currently out of service, OPEN thefollowing to align sample path:a. 2-EB-216 Filter B-Inlet Isolation Valveb. 2-EB-217 Filter B-Inlet Isolation Valvec. 2-EB-218 Filter B-Outlet Isolation Valved. 2-EB-219 Filter B-Outlet Isolation Valve4.12.11 sample train is currently in service, on grab sample controlassembly panel (RIC 8169) SWITCH operation to the "B" train.4.12.12 IF "B" sample train is currently in service on grab sample controlassembly panel (RIC 8169) SWITCH operation to the "A' train.4.12.13 Refer To SP 2815-002 and RECORD the following:
  • Date/Time removed from service* Technician initials for removal* Sample train removed from serviceLevel of Use CP.......

Continuous

.. STOP THINK ....AC:T ' REvIEW/ Rev. 002,' 52 of 79 4.12.14 Refer To Attachment 3 and RECORD the following:

  • Operating channel sample flow as indicated on F1-8169L* Sample train placed in service Date/Time
  • Technician initials4.12.15 IF "A" sample train was removed from service CLOSE thefollowing to isolate filters:a. 2-EB-220b. 2-EB-221c. 2-EB-222d. 2-EB-2234.12.16 IF "B" sample train was removed from service CLOSE thefollowing to isolate filters:a. 2-EB-216b. 2-EB-217c. 2-EB-218d. 2-EB-2194.12.17 On the filter assembly out of service, PERFORM the following:
a. REMOVE filter holder ring clamp.b. REMOVE top gasketc. REMOVE particulate filter and PLACE in plastic bag.d. REMOVE screen plate.e. REMOVE middle gasket.f. REMOVE iodine cartridge and PLACE in plastic bag.g. IF installed, REMOVE iodine cartridge adapter and itsassociated gasket.Level of Use CP2...MContinuous STOP THINK ,ACT " REVIEW Rev. 002' 53 of 79
h. POSITION arrow indicator pointing into filter holder andLOAD a new iodine cartridge into holder.i. INSTALL middle gasket.j. INSTALL screen plate.k. INSTALL particulate filter fibrous side up into holder.1. INSTALL top gasket.m. INSTALL and TIGHTEN filter holder ring clamp.4.12.18 IF "A' sample train is currently out of service OPEN the following to align sample path:a. 2-EB-220b. 2-EB-221c. 2-EB--222
d. 2-EB-2234.12.19 IF "B" sample train is currently out of service OPEN thefollowing to align sample path:a. 2-EB-216b. 2-EB--217
c. 2-EB-218d. 2-EB--219 4.12.20 NOTIFY Operations that filter and iodine cartridge changeout iscomplete.

4.12.21 EXIT WRGM sample area and TRANSFER filters to chemistry lab.4.12.22 As directed, ANALYZE sample filters.4.12.23 WHEN sample time calculated in step 4.12.3 is reached,PROCEED to WRGM sample area to change out filters.Level of UseContinuous STOPTHINKACT, REVIEWCP2804MRev. 00254 of 79 4.12.24 Refer To Attachment 3 and RECORD operating channel sampleflow from FI-8169L as the removed sample flow.4.12.25 IF 'A" sample train is currently out of service OPEN the following to align sample path:a. 2-EB-220b. 2-EB-221c. 2-EB-222d. 2-EB-2234.12.26 IF "B" sample train is currently out of service OPEN thefollowing to align sample path:a. 2-EB-216b. 2-EB-217c. 2-EB-218d. 2-EB-2194.12.27 IF the "A' sample train is currently in service on grab samplecontrol assembly panel (RIC 8169) SWITCH to the "B" train.4.12.28 IF the "B" sample train is currently in service on grab samplecontrol assembly panel (RIC 8169) SWITCH to the "A' train.4.12.29 Refer To Attachment 3 and RECORD the following:

  • Date/Time removed from service* Technician initials for removal* Sample train removed from service4.12.30 Refer To new Attachment 3 and RECORD the following:
  • Operating channel sample flow as indicated on F1-8169L* Sample train placed in service and Date/Time
  • Technician initialsLevel of UseCP84Continuous STOP THINK ACT " REVIEW Rev. 0020' 55 of 79 4.12.3 1 IF the 'A" sample train was removed from service CLOSE thefollowing to isolate filters:a. 2-EB-220b. 2-EB-221c. 2-EB-222d. 2-EB--223 4.12.32 IF the "B" sample train was removed from service CLOSE thefollowing to isolate filters:a. 2-EB-216b. 2-EB-217c. 2-EB--218
d. 2-EB-2194.12.33 On the filter assembly out of service PERFORM the following:
a. REMOVE filter holder ring clamp.b. REMOVE top gasketc. REMOVE particulate filter and PLACE in plastic bag.d. REMOVE screen plate.e. REMOVE middle gasket.f. REMOVE iodine cartridge and PLACE in plastic bag.g. POSITION arrow indicator pointing into filter holder andLOAD a new iodine cartridge into holder.h. INSTALL middle gasket.i. INSTALL screen plate.j. INSTALL particulate filter fibrous side up into holder.Level of UseCP8MContinuous

-STOP THINK ACTI "REVIEW Rev. 00256 of 79

k. INSTALL top gasket.1. INSTALL and TIGHTEN filter holder ring clamp.4.12.34 IF 'A" sample train is currently out of service OPEN the following to align sample path:a. 2-EB-220b. 2-EB-221c. 2-EB-222d. 2-EB-2234.12.35 IF "B" sample train is currently out of service OPEN thefollowing to align sample path:a. 2-EB-216b. 2-EB-217c. 2-EB-218d. 2-EB-2194.12.36 TRANSFER filters to the chemistry lab.4.12.37 Refer To Section 4.9 or as directed and ANALYZE filters.4.12.38 COLLECT silver zeolite cartridges and TRANSFER to WasteServices for disposal as hazardous waste.-End of Section 4.12 -Level of UseContinuous STOPTHINKACT REVIEWCP2804MRev. 00257 of 79 4.13 Changing High Range Filters in Wide Range Gas Monitor.AAALARA hFilters may be highly radioactive.

Use caution and Health Physics supportas directed during performance of this Section.4.13.1 WHEN directed, COLLECT the following equipment for HighRange WRGM filter sampling:

  • Transfer container for filter assemblies
  • 47 mm particulate filters* Plastic bagso Wrenches, if necessary to remove cave from skid* Transfer cart as directed4.13.2 NOTIFY control room and DETERMINE date and timeMid/High range sample collection commenced.

4.13.3 Refer To Attachment 3 and RECORD Mid/High range samplecollection date and time.4.13.4 PROCEED to WRGM sampling area.NOTEDetector flow rate is controlled by the monitor at a nominal rate ofapproximately 0.06 SCFM (1.7 1pm).4.13.5 DETERMINE which filter train is in operation and Refer ToAttachment 3 and RECORD FI-8169H sample flow rate.4.13.6 IF directed to secure sample skid, PERFORM the following:

a. POSITION the Mid/High range pump control to "OFF" tosecure sample flow.b. Refer To Attachment 3 and RECORD sample stop date andtime.Level of UseContinuous

-STOPTHINKACT REVIEWCP2804MRev. 00258 of 79 4.13.7 IF directed to switch sample trains, PERFORM the following:

a. On grab sample control assembly panel RIC 8169, SWITCHto out of service sample train.b. Refer To Attachment 3 and RECORD date and time ofsample train switch and sample flow rate as indicated onFI-8169H.

4.13.8 IF changing out of service "C" train filters, PERFORM thefollowing:

a. CLOSE Filter C-Inlet Isolation valve 2-EB-233.
b. CLOSE Filter C-Inlet Isolation valve 2-EB-234.
c. CLOSE Filter C-Outlet Isolation valve 2-EB-235.
d. CLOSE Filter C-Outlet Isolation valve 2-EB-236.

4.13.9 IF changing out of service "D" train filters, PERFORM thefollowing:

a. CLOSE Filter D-Inlet Isolation valve 2-EB-237.
b. CLOSE Filter D-Inlet Isolation valve 2-EB-238.
c. CLOSE Filter D-Outlet Isolation valve 2-EB--239.
d. CLOSE Filter D-Outlet Isolation valve 2-EB-240.

4.13.10 IF removing out of service cave from sample collection skid,PERFORM the following:

a. LOOSEN and REMOVE bolts from the cave base plate.b. DISCONNECT inlet and outlet tubing from quickdisconnects.
c. REMOVE filter cave and PLACE on transport cart.d. Go To step 4. 13.13.Level of Use CP204Continuous STOP THINK ACT REVIEW Rev. 002S 59 of 79I NOTEIf radiation levels permit, filters may be changed in WRGM sample areaas directed.

4.13.11 lIF replacing filter is sample area, PERFORM the following:

a. DISCONNECT supply and return tubing from holdingbracket.b. UNLATCH and OPEN sample cave door.c. DISCONNECT inlet and outlet tubing from quickdisconnects.
d. REMOVE filter assembly from cave.e. LOOSEN and REMOVE filter holding ring.f. REOVE flter housing cover.g. REMOVE top gasket.h. REMOVE particulate filter and PLACE in plastic bag.i. REMOVE screen plate.j. REMOVE middle gasket.k. REMOVE silver zeolite cartridge and PLACE in plastic bag.1. POSITION arrow indicator pointing into filter and LOADnew iodine cartridge.
m. INSTALL middle gasket.n. INSTALL screen plate.o. INSTALL particulate filter fibrous side up into holder.p. INSTALL top gasket.q. ASSEMBLE filter housing and INSTALL filter holder ringclamp.Level of Use .....04MContinuous STOP 'THINK ,ACT "REVIEW Rev. 002' ',"60 of 79
r. INSTALL filter holder into cave and CONNECT quickdisconnects.
s. CONNECT supply and return tubing to holding bracket.t. CLOSE and LATCH cave.u. IF starting "C" sample train, OPEN the following:
1) Filter C-Inlet Isolation valve 2-EB-233.
2) Filter C-Inlet Isolation valve 2-EB-234.
3) Filter C-Outlet Isolation valve 2-EB-235.
4) Filter C-Outlet Isolation valve 2-EB-236.
v. IF starting "D" sample train, OPEN the following:
1) Filter D-Inlet Isolation valve 2-EB-237.
2) Filter D- Inlet Isolation valve 2- EB-238.3) Filter D-Outlet Isolation valve 2-EB-239.
4) Filter D-Outlet Isolation valve 2-EB-240.

4.13.12 IF directed to start sample collection, PERFORM the following:

a. IF starting "C" sample train, ENSURE the following open:1) Filter C-Inlet Isolation valve 2-EB-233.
2) Filter C-Inlet Isolation valve 2-EB-234.
3) Filter C-Outlet Isolation valve 2-EB-235.
4) Filter C-Outlet Isolation valve 2-EB-236.
b. IF starting "D" sample train, ENSURE the following open:1) Filter D-Inlet Isolation valve 2-EB-237.
2) Filter D-Inlet Isolation valve 2-EB-238.

Level of Use CP2804MContinuous STOP THINK " ACT. 'REVIEW" Rev. 002

3) Filter D-Outlet Isolation valve 2-EB-239.
4) Filter D-Outlet Isolation valve 2-EB-240.
c. As directed, on grab sample control assembly panelRIC-8169, PLACE filter train selection switch to the "C" or"D" sample train.d. IFF sample skid was secured, POSITION Mid/High rangepump control to "ON" to start sample flow.e. Refer To Attachment 3 and RECORD start date and timeand sample flow on FI-8169H.

4.13.13 TRANSFER filters or filter cave to chemistry lab.4.13.14 IFF filters are already removed from cave and assemblies, Go Tostep 4. 13.16.4.13.15 lI___ replacing

filters, PERFORM the following:
a. DISCONNECT supply and return tubing from holdingbracket..
b. DISENGAGE and OPEN sample cave door.c. REMOVE filter assembly from cave.d. LOOSEN and REMOVE filter holding ring.e. REMOVE filter housing cover.f. REMOVE top gasket.g. REMOVE particulate filter and PLACE in plastic bag.h. REMOVE screen plate.i. REMOVE middle gasket.j. REMOVE silver zeolite cartridge and PLACE in plastic bag.k. POSITION arrow indicator pointing into filter and LOADnew iodine cartridge.
1. INSTALL middle gasket.Level of Use CP204Cot"uosSTOP THINK ACT *REVIEW Rev. 002* 62 of 79
m. INSTALL screen plate.n. INSTALL particulate filter fibrous side up into holder.o. INSTALL top gasket.p. ASSEMBLE filter housing and INSTALL filter holder ringclamp.Refer To Section 4.9 and PERFORM sample analysis.

COLLECT silver zeolite cartridges for transfer to Waste Servicesfor disposal.

-End of Section 4.13 -4.13.164.13.17Level of UseContinuous STOPTHINKREVIEWCP2804MRev. 00263 of 79 4.14 U2 Main Station Stack High Range Gas SamplinghAALARAFilters may be highly radioactive.

Use caution when handling.

NOTESample collection volume will be as directed, and determined by expectedactivity.

IPROCEED to Main Station Stack WRGM sample room.4.14.2 COLLECT sample as follows:a. CONNECT sample container inlet to the sample source at2-EB-244, sample conditioning skid-Mid/High rangesample test valve.b. CONNECT sample container outlet to sample pump inlet.c. CONNECT sample pump outlet at 2-EB-257, samplereturn test isolation valve.d. OPEN the following valves:1) Sample container inlet2) Sample container outlet3) 2-EB-244, sample conditioning skid-Mid/High rangesample test.4) 2-EB-257, sample return test isolation valve.e. START sample pump.Level of UseContinuous STOPTHINKACT REVI EWCP2804MRev. 00264 of 79 NOTESample purge time will be dependent on a variety of factor and will bedetermined by Chemistry Supervision.

f. PURGE sample through sample container as directed.
g. STOP sample pump.h. CLOSE the following:
1) Sample container inlet2) Sample container outlet3) 2-EB-244, sample conditioning skid-Mid/High rangesample test.4) 2-EB-257, sample return test isolation valve.i. NOTE sample time.j. REMOVE tygon tubing from the following:
1) Sample container inlet2) Sample container outletk. TRANSFER sample to chemistry lab.1. Refer To Section 4.15 and PERFORM sample analysis.

-End of Section 4.14 -Level of Use SO THNAC REIWCP2804M Continuous SO THNAC REEWRev.

00265 of 79 4.15 U2 Main Station Stack and Vent Gas Isotopic AnalysisMaintenance and Operation,"

and PERFORM a 5 minute, opencave, background count on the detector to be used using same Isample geometry and volume of 1 cc.a. LIST all identified isotopes and associated activity onAttachment 2, "Unit 2 Post Accident Sampling GaseousRelease Worksheet."

b. SAVE gamma spectrometer printout for future reference.

4.15.2 PLACE sample on detector shelf.4.15.3 Refer To C CP 803.6 and INITIATE a 5 minute sample count Iusing 1 cc sample count.4.15.4 IF dead time is less than 20%, Go To step 4.15.6.4.15.5 IFF dead time is greater than or equal to 20%, PERFORM thefollowing:

6.16]a. REMOVE sample and detector shelf.b. PLACE shortest detector shelf extension tube on detector.

c. Starting with the lowest shelf and working up, PLACE thesample on each shelf until a dead time of less than 20% isachieved.
d. TERMINATE count.e. Refer To C CP 803.6 and COUNT sample (open cave) for 5 Iminutes.f. WHEN count is completed, Refer To Attachment 4, "ShelfRatio Calculation" and DETERMINE shelf ratio.4.15.6 CALCULATE activity for each isotope on Attachment 2, "Unit 2Post Accident Sampling Gaseous Release Worksheet."

4.15.7 STORE sample in source locker for disposal.

4.15.8 COMPLETE Attachment 2.Level of Use CP2804MContinuous STOP THINK " ACT Rev. 002~66 of 79 4.15.9 REPORT analysis results to MRDA or AMRDA or as directed.

4.15.10 PREPARE two copies of data sheets and computer printouts.

4.15.11 SEND copy of data sheets and computer printouts to MRDA orAMRDA or as directed.

4.15.12 FORWARD original and a copy of data sheets and computerprintouts to Chemistry Supervision.

-End of Section 4.15 -Level of UseContinuous STOPTHINKACT "REVI EWCP2804MRev. 00267 of 79 4.16 PASS Equipment Inventory 4.16.1 After each PASS sample, Refer To Attachment 5 and PERFORMinventory of all equipment required to perform containment PASS sampling.

4.16.2 COMPLETE Attachment 5, "Containment PASS Equipment Inventory."

4.16.3 FORWARD Attachment 5 to Chemistry Supervision.

-End of Section 4.16 -Level of UseContinuous STOP THINKACT. "REVIEWCP2804MRev. 00268 of 79

5. REVIEW AND SIGNOFF5.1 Indicate (check) Subsections of this procedure which were performed:

[] 4.1 [] 4.2 [] 4.3 [] 4.4 lii 4.5 []4.6[] 4.7 [] 4.15 [] 4.8 Lii 4.9 [Ii 4.10 Ii 4.115.2 If procedure was terminated prior to completion, specify cause:_____

5.3 This procedure was performed by the following personnel:

  • Job supervisor (MRDA or designee):

Print Name Signature Initials* PASS Team personnel:

Print Name Signature InitialsPrint Name Signature InitialsPrint Name Signature InitialsPrint Name Signature Initials5.4 This procedure was reviewed by Chemistry Supervision:

Print Name Signature Initials5.5 All data recording for this procedure is located in Attachments 1, 2, and 3.Level of Use CP2804MContinuous STOP THINK ACT "REVIEW Rev. 002-69 of 79

6. REFERENCES 6.1 "Final Safety Analysis Report Unit 2"6.2 "Millstone Nuclear Power Station Emergency Plan"6.3 NUREG-0654, Revision 1, "Criteria for Preparation of Radiological Emergency Response Plans, and Preparedness in Support of NuclearPower Plants"6.4 NIJREG-0737, "Clarification of TMI Action Plan Requirements, Supplement 1, Requirements for Emergency Response Capability" 6.5 "Technical Manual for Containment Air Post Accident Sample System,"General Dynamics Corporation, Electric Boat Division, Reactor PlantServices, May 1982.6.6 "Kaman Sciences Corporation, Instruction Manual,Operation-Maintenance Instructions and Parts Catalog for AccidentRange Gas Monitor, Model KMG-HRC"6.7 "VAX/VMS Spectroscopy Applications Package User's Manual 07-0196"6.8 "Radiological Effluent Monitoring and Off-Site Dose Calculation Manual,"

(REM ODCM)6.9 Chemistry Memorandum from John Kangley to Jeff Broussard, CHEM-93-1212, dated January 18, 1993.6.10 C CP 803.6, "Gamma Spectroscopy Counting System Maintenance and IOperation" 6.11 C CP 803.12, "Operation and Calibration of the Varian CP 4900I6.12 SP 2814A,"Gaseous Effluents for Iodines and Particulates" 6.13 SP 2863, "High Range Gas Monitor Particulate Filter and Iodine cartridge

  • IReplacement"l 6.14 NRC, B18444, Dated July 31, 2001 E)6.15 NRC, Docket Number 50-245, 50-336, 50-423. Combined Inspection 50-245/87-24, 50-336/87-21, 50-423/87-19.

November 17 1987, Page10.Level of Use CP2804MContinuous STOP THINK ACT REVIEW Rev. 002: 70 of 79 6.16 USNRC Reg Guide 1.97, May 1983, "Instrumentation for Light WaterCoolant Nuclear Power Plants to Assess Plant and Environs Condition During and Following an Accident.

6.17 Memo 98-067, From Max Keyes to Tom Blount, PASS Procedure Meeting Minutes.6.18 Sorrento Electronics, Wide Range Gas Monitor System RM-8169 ITechnical Manual, Revision A, October 2000 I6.19 DCR M2-00010.

7. SUMMARY OF CHANGES7.1 Incorporated instructions for collecting samples associated with the newUnit 2 Main Station Stack WRGM, RM 8169.7.2 Changes made to reflect the removal of the Main Station Stack KAMENand Normal Range monitoring systems from service.

This equipment hasbeen retired and replaced in part by the Unit 2 WRGM.7.3 Revision includes incorporation of actions previously contained inEPOP 4446 which has been canceled.

7.4 Modifications to procedures were incorporated to accommodate Unit 1/Unit 2 Separation Project (DCR M2-00010).

Summary of Changes Rev. 001-017.5 Editorial Correction; Updated Reference 6.16 NRC commitment letter.B18443, AR #01005693-01.

Summary of Changes Rev. 001-027.6 Deleted reference to CP 801/2801/3801AD in Document Section as it isno longer used at Unit 2. The GC procedure used now is CP 2803/3803PR 7.7 Step 4.5.1a, replaced CP 801/2801/3801AD with CP 2803/3803PR 7.8 Made modifications to accommodate safety evaluation by the office ofNuclear Reactor Regulation related to amendment No. 262.Level of Use CP2804MContinuous STOP THINK ACT REVIEW Rev. 002* 71 of 79 Summary of Changes Rev. 0027.9 Administrative Corrections to correct references:

  • C CP 803.12 has replaced CP 2803/3803P
  • C CP 803.6 has replaced CP 801/2801/3801AT 7.10 Added titles to step 2.2, Documents.

7.11 Changed instances of VERIFY to CHECK or ENSURE as applicable, norevision bars used.Level of UseContinuous STOP THINKACT REVIEWCP2804MRev. 00272 of 79 Attachment 1Unit 2 Post Accident Sampling Containment GaseousActivity Worksheet (Sheet 1 of 1)Sample Worksheet Completed by:Location:

__________Print NameIsolation Date: _______Isolation Time: __________Signature:

IsAMopLe VOU Er in jet ctedinito 14.4 f ccvali Ba__cc gon stoeAtvt(Printout Activityx ShelIf Ratio)-Background=

Isotope ActivityIsotope Printout Activity Shelf Ratio Background Isotope Activity4 4 4 4+ 4 4 44. 4 4 4+NOTE: Total Gaseous Activity

= summation of all isotope activities.

NOTE: Data and calculations recorded to 3-significant figures whenpossible.

Gas Composition AnalysisSample Location:

______Sample Date: ___% Hydrogen:

_ ___ % Oxygen:Total Gaseous Activity:

Sample Time: ___% Nitrogen:

lReviewed by:(Chemistry supervision)

Level of UseContinuous Print NameSTOP THINKSignature

  • ACT REVIEW_Date:__CP2804MRev. 00273 of 79 Attachment 2Unit 2 Post Accident Sampling GaseousRelease Worksheet (Sheet 1 of 1)Worksheet Completed b3Signature:

Print NameSAMPLE DATE/TIME

___PROCESS FLOW cfmSAMPLE VOLUME = ml injected into 14.4 cc vial =RELEASE POINT_*cc [IJMP2 Vent[J]MP2 to Main Station Stack* .ackground

= Isotope Activity(Printout Activity x Shelif Ratio) -Isotope Printout Activity Shelf Ratio Background Isotope Activity Isotope Activity*

/iCi ______ Ci MCi /MCi cc"UI t ISOtope activity (liuu/CO)

= utSample Volume ccNOTE: Total Gaseous Activity

= summation of all isotope activities.

NOTE: Data and calculations, recorded to 3-significantifigures whenpossible.

Total Gaseous Activity{

________Release Rate:Total ActivityReleased

(/MCi cc )XFlowt Namenx 28317 ccft3x 1 min60 sec,iCi secRelease RateReviewed by:(Chemistry supervision)

Date:_____

Print NameSignature Level of UseContinuous STOP THINKACT+ REVIEWCP2804MRev. 00274 of 79 Attachment 3Unit 2 Post Accident Sampling Particulate and IodineRelease Worksheet (Sheet 1 of 3)Worksheet Completed by:,.Print NameSignature:

RELEASE POINT[]MP2 VentEjMP2 to Main Station StackDATE/TIME STARTEDDATE!TIME STOPPEDTOTAL SAMPLE TIMESF-28.316

________SAMPLE FLOW________SAMPLE FLOWmin AVERAGE FLOWAVE. PROCESS SAMPLE FLOWcfmcfmcfmncfmParticulate Activities

"(Printout Activity x Shelf Ratio)-Background

-Isotope A ctivityIsotope JPrintout Activity

-Shelf Ratio* Background Isotope Activity Isotope Activity*

_________Ci

_ ____ MCi jiCi /iCi-t I * + II I I + II 1 1 4 II I I -t II I 4 -f 4I I 4 4 41 1 4 1- +__ I ___ I __ I __ I____ I ____*NOTE Isotope activity (Cid/cc)

= iSample Volume ccNOTE: Total Particulate Activity

= summation of all isotope activities.

NOTE: Data and calculations recorded to 3-significant figures whenpossible.

Total Particulate ActivitLevel of UseContinuous STOPTHINKACT REVIEWCP2804MRev. 00275 of 79 Attachment 3Unit 2 Post Accident Sampling Particulate and IodineRelease Worksheet (Sheet 2 of 3)IODINE ISOTOPES(Printout Activity x Shelf Ratio)-Background

= Isotope ActivityIsotope Printout Activity Shelf Ratio Background Isotope Activity Isotope Activity*

/iCi ______ ,Ci ,aCi ,uCi*NOTE isotope activity (paCi/cc)

= iSample Volume ccNOTE: Total iodine Activity

= summation of all isotope activities.

NOTE: Data and calculations recorded to 3-significant figures whenpossible.

Total Iodine Activity:

KAMAN/WRGM Sample Corrections:

x 2=1uCiccParticulate Concentration X 10=Iodine Concentration Corrected Particulate Total ReleasedtMCiccCorrected Iodine Total ReleasedLevel of UseContinuous STOPTHINKACT REVIEWCP2804MRev. 00276 of 79 Attachment 3Unit 2 Post Accident Sampling Particulate and IodineRelease Worksheet (Sheet 3 of 3)Total Sample Volume:Average Sample Flow Rate (cfin)Xx 2.83E4ccft 3=ccTotal SampleTime (min)Particulate Release Rate:XReleased (uCi cc )Iodine Release Rate:Pr'ocessFlow (cfin)x 28317 cc x lminft360 secMCi secRelease RateXCorrected Iodine TotalReleased (uCi cc )ProcessFlow (cfin)x 28317 ccft3X 1 min60 secjiCi secRelease RateReviewed by:(Chemistry supervision)

Date:Print NameSignature Level of UseContinuous STOP THINKACT REVI EWCP2804MRev. 00277 of 79 Attachment 4Shelf Ratio Calculation (Sheet 1 of 1)In the event that a detector shelf extension tube was required during operation of theComputer Radioisotopic Analysis System, the appropriate shelf ratio must be determined for use in activity level correction calculations.

To determine the shelf ratio, perform thefollowing steps upon completion of the isotopic analysis:

1. REMOVE sample from gamma spectrometer.
2. PLACE a calibration source on the same detector shelf extension tube which wasused for analysis of the sample.3. COUNT calibration source using the following information:
  • Count time: Same as sample's count time* Volume: 1* Geometry:

Particulate filter4. Upon completion of count, REMOVE detector shelf extension tube.5. PLACE calibration source on normal counting shelf.6. With cave door open, COUNT calibration source using the information provided instep 3.NOTEShelf ratio should be calculated to two significant digits only.7. CALCULATE shelf ratio using the following equation and the activity levels obtainedin steps 3 and 6:Total Activity on Normal Counting Shelf (step #6)ShelIf Ratio =Total Activity on Elevated Shelf (step #3)Level of UseContinuous STOP THINKACT "REVIEWCP2804MRev. 00278 of 79 Attachment 5Unit 2 Containment Air Post Accident Sampling Equipment Inventory (Sheet 1 of 1)Equipment Name Required On Hand Ordered1 ml syringe with sideport needle 2500 F1l syringe with sideport needle 25 cc syringe with sideport needle 1Gas collection chamber 1KAMAN sample collector housing 3Mechanical finger tool 1KAMAN reach rod 10.1 cc sample loop for gas chromatograph 1Shielded transport cask for KAMAN collector assemblies 3Shielded transport box for syringes 1Shielded transport container for 14.4 cc vials 2Shielded transport box for stack gas samples 1Transport cart 1Remarks:Date:__________

Signature:

Level of UseContinuous STOP "'THINKACT. REVI EWCP2804MRev. 00279 of 79 ToFacilityAddress:DOCUMENT CONTROL DESK:MP Department:

U.S. NUCLEAR REGULATORY COMMISSION DOCUMENT CONTROL DESK (0140)WASHINGTON, DC 20555-0001 PASSPORT DOCUMENTTRANSMITTAL Page:ii ii Ni Nii i i i i Nl i iFrom :CONTROLLED Date/Time
12/30/15 08:13Trans No. : 000153271 Total Items: 00001DOCUMENTS ansmittal Group Id: 1511847Item Facility Type Sub Document Number/ITitle Sheet Revision Doc Date Copy # Media Copies* 0001 MP PROC CH CP 2804M 002 P 01UNIT 2 VENT CONTAINMENT AIR PASSPlease check the appropriate response and return form to NDS Bldg 475/3Millstone Power Station or Fax to 860-440-2057.

All documents received.

Documents noted above not received (identify those not received)

I no longer require distribution of these documents.

Date:Date:Signature:

f DomiionAdministrative Correction Authorization

4. Requestor(s).D'ui Print Name(s) / Locations
5. Date1/95
6. Requestor47 Phone7. Applicable Nuclear Station(s)

Millstone

[] North Anna LI Surry LI8. Please check below to indicate the type of administrative correction needed.[] Updating titles, names, phones numbers, document format, procedure

numbers, or references LI Misspellings (e.g., "adn" instead of "and")LI Incorrect step number sequence (e.g., "6.3.1, 6.3.3, 6.3.2" instead of "6.3.1, 6.3.2, 6.3.3")LI Incorrect page numbers in the headers and attachments (e.g., "PAGE 82 of 80" instead of "PAGE 82 of 82")LI Incorrect pagination, such as incorrect page breaksLI Incorrect transitions,
branches, and references (e.g., referenced procedure has been renumbered)

LI Mistakes occurring during duplication (cloning) of procedures (e.g., Unit 1 panel number, equipment location number, orprocedure number in a Unit 2 procedure)

LI incorrect equipment location

numbers, if the noun descriptor fits the application LI Incorrect noun descriptor, if the equipment location number is accurateLI Mistakes or computer file corruptions that occurred during the posting process[] Other: Changed instances of VERIFY to CHECK or ENSURE as applicable.

Errors in setpoints, measurements, or quantitative acceptance criteria shall not be considered an administrative correction Authorization for Permanent Administrative Correction

9. Procedure Process Management Signature
10. Date11. Manager Nuclear Operations Signature (Required for EOPs, FCAs, or FSGs) 12. DateN/AAdministrative Correction Completed By_____________
13. Name (Print) "natu #15. DateJeff D. Urgitis 12/29/15NOTE: The individual(s) posting an Administrative Correction to EDMS are responsible for ensuring Nuclear E-Formsis updated.16. Nuclear E-Forrns Updated for Site(s)?
17. Nuclear E-Forms Updated Print Name/Signature 118. DateLIMP LINA LISU [MN/A N/A19. Technical Procedure Number: 120. Revision:
21. Effl~ctive

~Iate/"CPI84M002 Form No. 730689(May 2015)

MILLSTONE NUCLEAR POWER STATIONCHEMISTRY PROCEDURE SUnit 2 Vent and Containment Air PASS[4sRef,6.

14]FCP2804M7 -; <- :

,ST P17INKN NOTE 4A:' REVIEW...."iew],g' jthe Nuclear<'FuelsSsafety Amalysis is fw" nv.. mo ,,to impact do~se lmit tif n mtoitudly

-acl' ti" s. IApproval Date:Effective Date:12/30/1512/30/15Level of UseContinuous Millstone Unit 2Chemistry Procedure Unit 2 Vent and Containment Air PASS[4.Ref.6.

14]TABLE OF CONTENTS1. PURPOSE .................................................

32. PREREQUISITES...........................................
33. PRECAUTIONS

.....................................

....... 94. INSTRUCTIONS...........................................

104.1 Preparation for Sampling

.................................

104.2 PASS Containment Air Sample Preparation

...................

124.3 PASS Containment Air Sample Isolation

.....................

144.4 PASS Containment Air Sample Retrieval

.....................

174.5 PASS Containment Air Sample Analysis

......................

194.6 PASS Containment Air System Restoration

...................

214.7 Unit 2 (EBRV) Vent Gas Sampling

..........................

23 _4.8 Unit 2 (EBRV) Vent Particulate and Iodine Sample Collection

... 25 I4.9 WRGM and Vent High Range Particulate andIodine Sample Analysis...................................

30 I4.10 KAMAN High Range System Filter Sample Collection

..........

334.11 KAMAN High Range System Filter Sample Analysis

...........

484.12 Normal Range WRGM Particulate and Iodine Sample Collection 50 I4.13 Changing High Range Filters in Wide Range Gas Monitor .......584.14. U2 Main Station Stack High Range Gas Sampling

.............

64I4.15 U2 Main Station Stack and Vent Gas Isotopic Analysis

..........

664.16 PASS Equipment Inventory................................

685. REVIEW AND SIGNOFF .....................................

696. REFERENCES

..............................................

70Level of Use CP2804MContinuous STOP "THINK ACT" REVIEW Rev. 002i1 of 79

7. SUMMARY OF CHANGES ...................................

ATTACHMENTS AND FORMSAttachment 1, "Unit 2 Post Accident Sampling Containment GaseousActivity Worksheet"

..............................

Attachment 2, "Unit 2 Post Accident Sampling GaseousRelease Worksheet"

..............................

Attachment 3, "Unit 2 Post Accident Sampling Particulate andIodine Release Worksheet".........................

Attachment 4, "Shelf Ratio Calculation"

..........................

Attachment 5, "PASS Equipment Inventory List" ...................

717374757879Level of UseContinuous STOP- 'THINKACT .... REVIEWCP2804MRev. 0022 of 79

1. PURPOSE1.1 Objective Provide method for sample collection and analysis of Unit 2 Vent, U2releases to Main Station Stack and containment atmosphere via PASSfollowing an accident as a contingency plan, when radioactivity levels maypreclude the use or the normal sampling method. Sampling and analysis

[can be directed by the MRDA or AMRDA during an event which hasactivated the Station Emergency Response Organization (SERO).1.2 Discussion This procedure provides instructions which may be utilized by chemistry when collecting and analyzing highly radioactive containment atmosphere and ventilation samples and during post accident conditions.

The analysesconducted in this procedure can identify and quantify radioactive isotopescontained in the ventilation or containment air. The presence and amountof hydrogen and certain radioactive isotopes may assist in determining thetype and extent of core damage.1.3 Applicability This procedure is applicable following an accident when in-plantradiation levels may be too high to permit ventilation and containment airsampling via the normal method.1.4 Frequency Performance of this procedure may be repeated periodically during SEROactivation, when requested by the MRDA or AMRDA for updates orreassessments of containment conditions.

2. PREREOUISITES 2.1 General2.1.1 Silver Zeolite Cartridges are used for iodine ventilation sampling1 in conjunction with this procedure (unless otherwise directed by IChemistry Supervision).[4.Ref 6.15]2.1.2 Performance of this procedure must be authorized by the ADTSwhen SERO is activated 2.1.3 When SERO activated assessment by the MRCA for personnel exposure has been performed against station and Federal limits.Level of Use ,CP2804MContinuous

.."STOP "THINK "ACT Rev. 002,. ,:3 of 79 2.1.4 The sample aliquots listed in this procedure are not fixednumbers.

Estimation of core damage may require a largersample aliquot.

If a larger sample is requested by the MRDA orAMRDA, substitute the required size syringes for those stated inthis procedure.

2.1.5 Sections 4.7 through 4.16 are distinct sections that may beperformed independently of each other.2.2 Documents 2.2.1 C CP 803.6, "Gamma Spectroscopy Counting SystemMaintenance and Operation" 2.2.2 C CP 803.12, "Operation and Calibration of the Varian CP 4900Micro-GC" 2.2.3 SP 2814A, "Gaseous Effluents for Jodines and Particulates fromUnit 2 Vent"2.2.4 SP 2863-001, KAMAN Iodine Cartridge Particulate FilterChanged2.2.5 SP 2863-002, "Unit 2 Vent High-Range Filter Data Sheet" I2.2.6 SP 2815, "Main Station Stack Wide Range Gas Monitor SamplingI for Iodine and Particulates"

2.3 Personnel

2.3.1 Performance of this procedure can require the response of thefollowing personnel:

a. MRCAb. OSC ARPSc. ADTSd. MRDA or the AMRDAe. MOSCf. MCROLevel f UseCP2804M Continuous
STOP .... THINK .ACT REVIEW Rev. 002' / .....4 of 79
g. One air PASS team* Two Chem Techs* One HP Tech2.4 Tools and Consumables NOTESome tools and consumables are common to all samples and analyses, andare listed as such. The tools and consumables are listed for each type ofsample. This list is provided as a reference and may be amended duringthe pre -job review depending on plant conditions.

2.4.1 Tools and consumables common to all samples:* Gamma spectroscopy calibration source* 8 1/8 inch gamma spectroscopy detector shelf extension tube* 16 inch gamma spectroscopy detector shelf extension tube* 24 inch gamma spectroscopy detector shelf extension tube2.4.2 PASS Containment Atmosphere Sample* Two, 1 ml syringes with side port needle* Two, 500 F1 syringes with side port needle* PASS cabinet key* Transport cart with lead syringe shield* 2 evacuated 14.4 cc gas vials* Two, 10x16 plastic bags* Two, 4x6 plastic bags* Plastic wrapLevel of Use / : %CP2804MContinuousI

...STOP" 'THINK -IACT ....:REVIEW Rev. 0025 of 79 2.4.3 Vent Gas Sampling* 5 cc gas syringe* Evacuated 14.4 cc gas vial* 41 cc gas collection chamber* Lead transport container for gas vial* 4x6 plastic bago 10x16 plastic bag* Plastic wrap2.4.4 Vent Particulate and Iodine Sampling* 2 Silver zeolite cartridges[4.Ref.

6.15]* Two, 2.25 inch glass fiber filters* Eight, 4x6 plastic bags* Adhesive tape* Transport cart with shielded container

  • In-use Chem Form 2814A-3* New Chem Form 2814A-3Leelo UeCP2804M Continuous STOP THINK ,,ACT'...

REVIEW Rev. 002... .:i -=. "" ... :,- i,6 of 79 2.4.5 KAMN/AN High Range Filter Sampling* 3 collector assemblies (consisting of housing, silver zeolitecartridge, and 2.25 inch glass fiber filter)[-!.Ref.

6.15]* Transport cart with transfer cask for collector assemblies

  • Mechanical finger tool* Reach Rod* KAMVAN microprocessor operating key* Three, 10x16 plastic bags* Six, 4x6 plastic bags* SP 2863-001* SP 2863-0022.4.6 WRGM Normal Range Sampling* Silver zeolite cartridges[.4.Ref.

6.15]* 47 mm glass fiber filters--Plastic bag(s)* Transport cart or container

  • In-use SP 2815-0022.4.7 WRGM High Range Sampling* Two 9/16" wrenches* Transport cart for collector assemblies and caves2.5 Responsibilities 2.5.1 The Air PASS Team performs the required sampling and analysisdetailed in this procedure.

Level of Use ::. *CP2804MCotiuos TO TIN ACT REVIEW Rev. 002," : j *7 of 79 2.5.2 When SERO is activated, the following responsibilities are ineffect:a. The Manager of Operational Support Center designates, assembles, and briefs the Air PASS Team for implementation of this procedure.

b. The MRCA or OSC ARPS specifies Air PASS teamradiological controls required for implementation of thisprocedure.
c. The MRDA or AMRDA specifies Air PASS Team samplingand analysis requirements for implementation of thisprocedure.
d. The MCRO performs valve lineups for the acquisition andretrieval of samples upon request of the Air PASS Team.e. The ADTS has final approval authority over team dispatch.

2.6 Definitions

2.6.1 WRGM-Wide Range Gas Monitori2.6.2 DEOF -Director, BOF2.6.3 ADEOF-Assistant

Director, BOF2.6.4 OSC ARPS -Operational Support Center Assistant Radiological Protection Supervisor.

2.6.5 ADTS -Assistant Director Technical Support.2.6.6 Air PASS team -Personnel designated for sampling and analysisof vent and containment air of the affected unit. The air PASSteam will normally be comprised of at least two chemistry technicians and, one HP technician.

2.6.7 SLPM -Standard Liters Per Minute2.6.8 SWITCH -To change positions 2.6.9 KELIC -KAMAN Electronic Local Indication and Control2.6.10 KERIC -KAMAN Electronic Remote Indication and ControlLevel of Use ....804MContinuous

  • STOP, THINK ,ACT REVIEW Rev. 002" ,., :,8 of 79
3. PRECAUTIONS 3.1 When locking air samples within syringes, do not rotate syringe more thantwo turns. Excessive turns will disengage needle from syringe resulting inthe possible release of radioactive gasses.3.2 In the event of unexpected results during the course of this procedure, place the equipment in a safe or stable condition, cease performance offurther steps, and contact the MRDA or the AMVRDA for furtherinstructions.

3.3 Silver Zeolite cartridges are hazardous material.

These cartridges mustbe collected and transferred to Waste Services Department for properdisposal.

ILevel of UseContinuous STOP, THINKACT REVIEWCP2804MRev. 0029 of 79

4. INSTRUCTIONS 4.1 Preparation for Sampling4.1.1 COMPLETE the following applicable steps as directed:
a. CONSTRUCT lead brick shield in chemistry lab samplehood.b. ENSURE exhaust hood above gas chromatograph isoperating.
c. LABEL two, 1.0 ml syringes, "HYDROGEN."
d. LABEL two, 500 [dl syringes, "ISOTOPIC."
e. LABEL one, 5 cc syringe, "GAS."____f. CHECK operability of syringes.
1) ENSURE syringe nosepiece is screwed against syringebody.* 2) DRAW air into syringe.3) TURN syringe nose piece 2 turns clock-wise.
4) PLACE needle in beaker of water.5) PUSH plunger and ENSURE no air exits syringe.6) TURN syringe nosepiece tight against syringe body.7) PLACE needle in beaker of water.8) PUSH plunger and ENSURE air exits syringe.* ~g. Refer To C CP 803.12, "Operation and Calibration of the IVarian CP 4900 Micro-GC,"

and PREPARE gas Ichromatograph for PASS sampling.

____h. Using silver zeolite cartridges and particulate filters,ASSEMBLE three KAMAN collector assemblies.

Level of Use 'CP2804MContinuous STOP THINK ,ACT REVIEW Rev. 00210 of 79 i.COPY the following applicable attachments of this procedure to expedite recording of data:* Attachment 1, "Unit 2 Post Accident SamplingContainment Gaseous Activity Worksheet"

  • Attachment 2, "Unit 2 Post Accident Sampling GaseousRelease Worksheet"
  • Attachment 3, "Unit 2 Post Accident SamplingParticulate and Iodine Release Worksheet"

-End of Section 4.1 -!Level of UseContinuous STOP THINKACT REVIEWCP2804MRev. 00211 of 79 4.2 PASS Containment Air Sample Preparation 4.2.1 REQUEST Operations verify Auxiliary Building Ventilation System operating.

a. IF inoperable, NOTIFY the MRDA or the AMRDA andWAIT for further instructions.

4.2.2 DETERMINE which H2 Analyzer is in service.4.2.3 NOTIFY MCRO that Containment Air PASS will be activated.

4.2.4 With PASS Cabinet Key, PROCEED to Sample Module area.4.2.5 UNLOCK and OPEN anti-tamper cover on Sample Module.4.2.6 OPEN Sample Module ventilation damper.4.2.7 OPEN Sample Module door.NOTEWhen 2-S-502 is closed, handle is perpendicular to needle guide.4.2.8 CLOSE "2-S-502."

4.2.9 PLACE valve "2-S-484" in POSITION

  1. 1.4.2.10 IF C-86 H2 Analyzer is in service, OPEN the following valves:a. 2-S-463b. 2-8-4644.2.11 IF C-87 H2 Analyzer is in service, OPEN the following valves:a. 2-S-461b. 2-S-4624.2.12 CLOSE valve "2-S-485."

4.2.13 PROCEED to Remote Operating Module, UNLOCK andREMOVE anti-tamper cover.Level of/ Use CP2804MContinuous STO TIN AC RE IE.R v.00,,< .... " " :'12 of 79

___4.2.14 PRESS ROM "POWER ON" button.____4.2.15 RESET timer to zero.____4.2.16 CHECK line fuses are good by observing no blown fuseindication.

____4.2.17 OPEN front panel of Remote Operating Module.____4.2.18 CLOSE "2- GAN- 246."____4.2.19 CLOSE "2- GAN- 247."____4.2.20 OPEN "2- GAN-- 248."____4.2.21 CLOSE front panel of Remote Operating Module.___ 4.2.22 BACK OFF "2-GAN- 231."____ 4.2.23 BACK OFF "2- GAiN- 249" (V-7).____4.2.24 OPEN nitrogen bottle isolation valve.____4.2.25 ESTABLISH nitrogen pressure at 400 psig using "2-GAN-236."

____4.2.26 ADJUST "2-GAN-249" (V-7) to regulate nitrogen pressure to80 psig.___4.2.27 POSITION "2-GAN-252" (V-10) to ON.____4.2.28 ADJUST "2- GAN- 23 1" to regulate nitrogen pressure to 70psig.___4.2.29 POSITION "2-GAN-252" (V-10) to OFE4.2.30 RETURN to Chemistry Lab.-End of Section 4.2 -Level of Use CP204Continuous STOP "THINK ... ACT. REVIEW Rev. 002* .. .. " , of 79 4.3 PASS Containment Air Sample Isolation 4.3.1 COLLECT the following equipment:

  • Transport Cart____ 500 syringe labeled as "Isotopic"

____ 1.0 ml syringe labeled as "Hydrogen" 4.3.2 PROCEED to Remote Operating Module.4.3.3 OPEN Remote Operating Module door.4.3.4 OPEN valve "2- GAN- 246" to pressurize flask.4.3.5 CLOSE Remote Operating Module door.4.3.6 ENSURE 15 minute warmup of Remote Operating Module hasbeen performed.

4.3.7 POSITION following valves to OFF:___ a. 2-GAN-234 (V-11)___ b. 2-GAN-252 (V-10)4.3.8 OPEN "2-S-500" (V- !).4.3.9 PLACE "2-s-501" (V-2) to SAMPLE.4.3.10 INITIATE sample-flow as follows:a. PLACE "2-GAN-234" (V-il) to SAMPLE INFLUENT.

b. PROCEED to C-86A or C-87A and POSITION theoperating hydrogen analyzer PASS sample switch to "ON."c. ENSURE indication of flow on ROM flowmeter.
d. RECORD flow: ____SLPMe. IF there is not an indication of flow, REQUEST Operations to verify a Hydrogen Analyzer in service.Level of Use C ....04M.Continuous SToP THINK ,ACT *REVIEW Rev. 002* ' " ,14 of 79 4.3.11 WAIT 15 minutes.4.3.12 CLOSE "2-S-500" (V-i).4.3.13 ENSURE indicated flow has decreased.

V CAUTION VThe following steps should be performed rapidly to prevent tripping thehydrogen analyzer.

The sample chamber and tubing lines in and out arevery small diameter which presents a flow restriction which can trigger thehydrogen analyzer lo flow/lo pressure alarm. This alarm is triggered if thisflow restriction exists for more than 30 seconds.

For that reason isolate thesample as quickly as possible after the 15 seconds has elapsed.4.3.14 WAIT 15 seconds.4.3.15 To isolate sample, PLACE "2-S -501" (V-2) to BYPASS ANDFLUSH.4.3.16 PROCEED to C-86A or C-87A and POSITION the operating hydrogen analyzer PASS sample switch to "OFE"4.3.17 INITIATE Nitrogen Purge as follows:a. PLACE "2-GAN-234" (V-li) to NITROGEN FLUSHposition.

b. OPEN "2-S-500" (V-i).c. PLACE "2-GAN-252" (V-10) to ON.d. ADJUST "2- GAN- 231" to regulate to 70 psig.e. ENSURE indication of flow on flowmeter.
f. RECORD flow:SLPM4.3.18 WAIT 3 minutes.4.3.19 CLOSE "2-S-500" (V-i).4.3.20 CHECK flow less than that which was indicated in step 4.3.17 f.Level of UseContinuous

,STOP THINKACT REVIEWCP2804MRev. 00215 of 79 4.3.21 WAIT 3 minutes.4.3.22 PLACE following valves to OFF:a. 2-GAN-252 (V-10)b. 2-GAN- 234 (V-li)4.3.23 OPEN "2-8-500" (V-i).-End of Section 4.3 -Level of UseContinuous STOPTHINKACT REVIEWCP2804MRev. 00216 of 79 4.4 PASS Containment Air Sample Retrieval 4.4.1 PROCEED to Sample Module.4.4.2 PERFORM a rapid radiation survey of Sample Module.4.4.3 ENSURE radiation levels are low enough, per established radiological

controls, to allow access to Sample Module.4.4.4 ENSURE nosecap of 1.0 ml and 500 [dl syringes are screwed upagainst body.4.4.5 COLLECT 500 1Al Containment Air Sample as follows:a. LINE UP handle of "2-8-502" (V-3) with needle guide toopen.b. INSERT 1.0 ml "HYDROGEN" syringe needle into needleguide.c. ENGAGE syringe needle nut into needle guide slot.d. WITHDRAW 500 of containment air into syringe.Do not rotate syringe nosecap more than two turns. Excessive turns willdisengage needle from syringe resulting in the possible release ofradioactive gasses.e. TURN syringe nosecap body two turns in thecounterclockwise direction to lock syringe.f. REMOVE syringe from needle guide.g. CLOSE "2-S-502" (V-3).h. PLACE syringe in lead transport container.

Level of UseContinuous STOP THINKACT REVI EWCP2804MRev. 00217 of 79 4.4.6 COLLECT 250 Containment Air Sample as follows:a. LINE UP handle of "2-S-502" (V-3) with needle guide toopen.b. INSERT 500 "ISOTOPIC" syringe needle into needleguide.c. ENGAGE syringe needle nut into needle guide slot.d. WITHDRAW 250 of containment air into syringe.e. TURN syringe nosecap two turns in counterclockwise direction to lock syringe.f. REMOVE syringe from needle guide.g. CLOSE "2-8-502" (V-3).h. PLACE syringe in lead transport container.

4.4.7 CLOSE and LATCH Sample Module door.4.4.8 RETURN to Chemistry Lab with transport cart and syringes.

-End of Section 4.4 -Level of UseContinuous STOPTHINKACT REVIEWCP2804MRev. 00218 of 79 4.5 PASS Containment Air Sample Analysis4.5.1 WHEN requested, PERFORM Gas Analysis as follows:a. Refer To C CP 803.12, "Operation and Calibration of the IVarian CP 4900 Micro-GC,"

and PERFORM hydrogen andoxygen analysis on the 1.0 ml hydrogen syringe.b. RECORD results on Attachment 1 "Unit 2 Post AccidentSampling Containment Gaseous Activity Worksheet."

4.5.2 WHEN requested, PERFORM Isotopic Analysis as follows:miut, pe cve bckrondcontonth dteto t ba. Refer To C CP 803.6, "Gamma Spectroscopy CountingSystem Maintenance and Operation,"

and PERFORMa5

1) RECORD all identified isotopes and associated activityon Attachment 1 "Unit 2 Post Accident SamplingContainment Gaseous Activity Worksheet."
2) SAVE gamma spectrometer printout for future reference.
b. TURN 500 isotopic syringe nosecap until it is screwed upagainst body.c. INJECT isotopic syringe sample into evacuated 14.4 cc vial.d. WRAP vial in plastic wrap.e. PLACE sample vial on detector shelff. Refer To C CP 803.6 and INITIATE a 5 minute sample lcount.g. IF dead time is less than 20%, Go To step 4.5.2i.h. IF dead time is greater than or equal to 20%, PERFORM thefollowing:

[.!.Ref.

6.15]1) REMOVE sample vial and detector shelf..2) PLACE shortest detector shelf extension tube ondetector.

Level of Use CP2804MContinuous STOP THINK ,ACT REVIEW Rev. 002'- , of 79

3) Starting with lowest shelf and working up, PLACE vial onextension tube until a dead time of less than 20% isachieved.
4) TERMINATE count.5) Refer C CP 803.6 and COUNT vial (open cave) for 5 Iminutes.6) WHEN count is completed, Refer To Attachment 4,"Shelf Ratio Calculation" and DETERMINE shelf ratio.i. CALCULATE activity for each isotope on Attachment 1,"Unit 2 Post Accident Sampling Containment GaseousActivity Worksheet."
j. PLACE empty syringes and sample vial in a plastic bag.k. STORE syringes and sample vial in lead brick shield fordisposal.
1. COMPLETE Attachment 1.m. REPORT analysis results to MRDA or AMRDA.n. IF a backup sample is requested by MRDA or AMRDA,PERFORM the following:
1) OBTAIN new 500 [dl and 1.0 syringes.
2) PROCEED to sample module area.3) Go To Section 4.4.o. IF a backup sample is not required, PERFORM thefollowing:
1) PREPARE two copies of data sheets and computerprintouts.
2) SEND copy of data sheets and computer printouts toMRDA or AMRDA.3) FORWARD original and copy of data sheets andcomputer printouts to Chemistry Supervision.

-End of Section 4.5 -Level of UseCP8MContinuous STOP THINK ACT. REVIEW, Rev. 002* , ,"..20 of 79 4.6 PASS Containment Air System Restoration 4.6.1 PROCEED to Remote Operating Module.4.6.2 POSITION "2-S-501" (V-2) to "SAMPLE."

4.6.3 INITIATE nitrogen purge as follows:___ a. POSITION "2-GAN-234" (V-il) to"NITROGEN FLUSH."b. POSITION "2-8-500" (V-i) to "OPEN."c. POSITION "2- GAN- 252" (V-10) to "ON."d. CHECK a flow rate is indicated.

e. RECORD flow: ____SLPM4.6.4 WAIT 3 minutes.4.6.5 POSITION "2- S-500" (V-i1) to "CLOSE."I 4.6.6 ENSURE flow rate indicated is less than that which was recordedin step 4.6.3 e.___ 4.6.7 WAIT 3 minutes.4.6.8 POSITION valves as follows:a. 2-GAN-252 (V-b0) to "OFF"b. 2-GAN-234 (V-il) to "OFF"c. 2-S-500 (V-i) to "OPEN"NOTEThe system is now purged of sample.4.6.9 CLOSE nitrogen bottle isolation valve.4.6.10 BACK OFF regulating valve "2-GAN-236."

Level of Use CP2804MContinuous

" ::THINK?;

REVIE Rev"00 4.6.11 BACK OFF regulating valve "2- GAN- 249" (V-7).4.6.12 PRESS "POWER ON" button to de-energize the RemoteOperating Module.4.6.13 OPEN front panel of module.4.6.14 CLOSE "2- GAN-246."

4.6.15 BLEED off nitrogen pressure as follows:a. CRACK open "2-GAN--247."

b. BLEED off nitrogen pressure.
c. CLOSE "2- GAN- 247."4.6.16 CLOSE and LATCH front panel of module.4.6.17 On Remote Operating Module, REPLACE and LOCKanti -tamper cover.4.6.18 PROCEED to Sample Module.4.6.19 IF C-86 H2 Analyzer is in service, CLOSE the following valves:a. 2-S-463b. 2-S-4644.6.20 IF C-87 H2 Analyzer is in service, CLOSE the following valves:a. 2-S-461b. 2-S-4624.6.21 CLOSE Sample Module ventilation damper.4.6.22 CLOSE and LOCK Sample Module door.4.6.23 NOTIFY MCRO that PASS containment air sampling iscomplete.

-End of Section 4.6 -Level of Use I ...,CP2804MCniuu [ STOP" THINK "ACT :REVIEW Rev. 002Continuous....

22 of79 4.7 Unit 2 Vent (EBRV) Gas Sampling_ 4.7.1 NOTIFY MCRO that a Vent Gas Sample will be collected.

4.7.2 COLLECT the following equipment:

  • 5 cc gas syringe* Stoppered and evacuated 14.4 cc vial* Gas collection chamber* Lead transport container for 14.4 cc vial4.7.3 PROCEED to Auxiliary Vent Sampling Rig in 38' 6" EastPenetration Room.4.7.4 At Auxiliary Vent Sampling Rig, COLLECT sample as follows:a. CONNECT tubing from flow gauge outlet to inlet of gascollection chamber.b. CONNECT tubing from outlet of gas flask to suction ofp sample pump.___ c. OPEN inlet and outlet stopcocks on gas collection chamber.d. OPEN V-i1 "Sample Inlet Isolation."
e. OPEN V-4 "Sample Outlet Isolation."
f. OPEN 2-HiV-462, "RM Return to U2 Stack."g. OPEN 2-HV-459, "Drain Valve."h. OPEN flow gauge throttle valve.___i. START sample pump.j. PURGE sample for 1 minute.___k. STOP sample pump.1. CLOSE inlet and outlet stopcocks on gas flask.Level of Use ,CP2804MContinuous STOP" THINK ,.ACT REVIEW Rev. 002., 23 of 79

___ m. RECORD sample time on Attachment 2.____n. Using the gas syringe, WITHDRAW 5 cc from gas flask.o. REMOVE transport container cap, exposing needle guide.p. INSERT syringe needle through needle guide.q. INJECT 5 cc of gas into 14.4 cc sample vial.r. REMOVE syringe needle.___s. REPLACE cap on transport container.

t. RESTORE system by closing the following valves:1) V-i2) V-43) 2-HV-4624) 2-HV-459~u. REMOVE gas collection chamber.v. PROCEED with sample to Chemistry Lab.-End of Section 4.7 -Level of Use CP2804MContinuous

-STOP- THINK ,ACT REVlIEW Rev. 002,, , ' ,24 of 79 4.8 Unit 2 Vent (EBRV) Particulate and Iodine Sample Collection I4.8.1 IF automatic isolation of on-line filters AND the Kaman highrange system is in service, Go To Section 4.10.4.8.2 NOTIFY MCRO that a Particulate and Iodine Sample will becollected.

4.8.3 COLLECT the following equipment:

  • 2 particulate filters* Four 4x6, plastic bags* Adhesive tape* Transport cart with shielded container
  • Current SP 2814A-003
  • New SP 2814A-003 4.8.4 DETERMINE sample collection time as follows:a. REVIEW RM 8132A trend plot and DETERMINE elapsedtime since count rate increase.
b. MULTIPLY current RM 8132A reading (cpm) by 2.0 E-°6[ICi/cpm.

,uCicpm xcpm =MlCi Ic. DIVIDE result from step 4.8.4b. by elapsed time from step4.8.4a.I j~ +sec =3zisecLevel of Use C-204Continuous s-TOP THINK ACT REVIEW Rev. 00225 of 79

d. DIVIDE 10 1[4Ci by result from step 4.8.4c.Sl~tuCi + tCisec =sec4.8.5 REQUEST permission from Control Room to SECURE RadMonitor Blower.4.8.6 PROCEED to RM 8132A Sampling Cabinet in the 38' 6" EastPenetration Room.4.8.7 Refer To SP 2814A-003 and RECORD following:
a. Rad Monitor Blower in serviceb. Sample flow as read on FIS-8132.

4.8.8 SECURE radiation monitor blower.4.8.9 RECORD ventilation fan running hours on SP 2814A-003.

4.8.10 RECORD date and time removed on SP 2814A- 003.4.8.11 REMOVE charcoal cartridge from the radiation monitorcartridge holder.4.8.12 PLACE removed charcoal cartridge in plastic bag.4.8.13 SEAL bag and LABEL with date and time.4.8.14 PLACE bag in shielded container 4.8.15 LABEL a new silver zeolite cartridge with an arrow to indicatedirection of sample flow.4.8.16 INSTALL new silver zeolite cartridge in radiation monitorcartridge holder.4.8.17 RECORD date and time installed on SP 2814A-003.

4.8.18 REMOVE particulate filter from radiation monitor particulate filter holder.4.8.19 PLACE removed particulate filter in plastic bag.Level of Use ..CP2804MContinuous

~ 'STOP THINK " ACT REVIEW Rev. 002* ' " ,.26 of 79 4.8.20 SEAL bag and LABEL with date and time.4.8.21 PLACE bag in shielded container 4.8.22 RECORD date and time removed on SP 2814A- 003.4.8.23 INSTALL a new particulate filter in the radiation monitorparticulate filter holder.4.8.24 RECORD date and time installed on SP 2814A-003.

4.8.25 ZERO the ventilation fan run time meter.4.8.26 START radiation monitor blower.4.8.27 OBSERVE sample flow.4.8.28 RECORD sample flow reading on a new SP 2814A-003.

4.8.29 RECORD the following on Attachment 3, "Unit 2 Post AccidentVent Particulate and Iodine Release Worksheet":

  • Start date* Start time* Sample flow4.8.30 EXIT East Penetration Room and PROCEED to a lower doserate area.4.8.31 WHEN sample time calculated in step 4.8.4 is reached, ENTEREast Penetration Room.4.8.32 RECORD sample flow on SP 2814A-003.

4.8.33 SECURE radiation monitor blower.4.8.34 RECORD ventilation fan running hours on SP 2814A-003.

4.8.35 REMOVE silver zeolite cartridge from radiation monitorcartridge holder.4.8.36 PLACE removed sliver zeolite cartridge in plastic bag.4.8.3 7 SEAL bag and LABEL with date and time.Level of UContinuou.,

esSTOP,THINK=... .. REVIEWCP2804MRev. 00227 of 79 4.8.38 PLACE bag in shielded container 4.8.39 RECORD date and time removed on SP 2814A-003.

4.8.40 LABEL a new silver zeolite cartridge with an arrow to indicatedirection of sample flow.4.8.41 INSTALL new silver zeolite cartridge in radiation monitorcartridge holder.4.8.42 RECORD date and time installed on SP 2814A-003.

4.8.43 REMOVE particulate filter from radiation monitor particulate filter holder.4.8.44 PLACE removed particulate filter in plastic bag.4.8.45 SEAL bag and LABEL with date and time.4.8.46 PLACE bag in shielded container 4.8.47 RECORD date and time removed on SP 2814A-003.

4.8.48 INSTALL a new particulate filter in radiation monitor particulate filter holder.4.8.49 RECORD date and time installed on SP 2814A-003.

4.8.50 ZERO ventilation fan run time meter.4.8.51 START radiation monitor blower.4.8.52 OBSERVE sample flow.4.8.53 RECORD sample flow reading on a new SP 2814A- 003.Level of UseCP8MContinuous STOP THINK *ACT REVIEW Rev. 002: ' -28 of 79 4.8.54 RECORD the following on Attachment 3, "Unit 2 Post AccidentVent Particulate and Iodine Release Worksheet":

  • Start date* Start time* Sample flow4.8.55 TRANSFER filters to chemistry lab.-End of Section 4.8 -Level of UseContinuous

,STOPTHIN K,ACT REVIEWCP2804MRev. 00229 of 79 4.9 WRGM and Vent High Range Particulate and Iodine Sample Analysis i4.9.1 PLACE particulate filter and iodine cartridge that were in serviceIat time of accident in a new plastic bag.4.9.2 PLACE bag in lead brick shield.4.9.3 PERFORM silver Zeolite cartridge and particulate filter analysisas follows:a. IF performing a silver zeolite analysis, Refer To C CP 803.6,I"Gamma Spectroscopy Counting System Maintenance andOperation,"

and with a gamma spectrometer, PERFORM a 5minute, open cave, background count using silver zeolite Igeometry and a volume of 1 cc on the detector to be used.1) LIST all identified isotopes and associated activity onAttachment 3, "Unit 2 Post Accident SamplingParticulate and Iodine Release Worksheet".

2) SAVE gamma spectrometer printout for future reference.
b. IF performing a particulate
analysis, Refer To C CP 803.6 and iwith a gamma spectrometer, PERFORM a 5 minute, opencave, background count using particulate geometry and a Ivolume of 1 cc on the detector to be used.1) LIST all identified isotopes and associated activity onAttachment 3, "Unit 2 Post Accident SamplingParticulate and Iodine Release Worksheet".
2) SAVE gamma spectrometer printout for future reference.
c. SEAL plastic bag containing silver zeolite cartridge.
d. PLACE silver zeolite cartridge on detector shelf.e. Refer To C CP 803.6 and INITIATE 5 minute sample countusing 1 cc volume.f. IF dead time is less than 20%, Go To step 4.9.3 h.Level of Use CP2804MContinuous STOP THINK ACT- REVIEW, Rev. 002.30 of 79
g. IF dead time is greater than or equal to 20%, PERFORM thefollowing:

[.!,Ref.

6.15]1) REMOV'E cartridge and detector shelf.2) PLACE shortest detector extension tube on detector.

3) Starting with the shortest tube and working up, PLACEthe cartridge on each tube until a dead time of less than20% is achieved.
4) TERMINATE count.5) Refer To C CP 803.6 and COUNT cartridge (open cave)for 5 minutes.II6) WHEN count is completed, Refer To Attachment 4,"Shelf Ratio Calculation" and DETERMINE shelf ratio.h. CALCULATE activity for each isotope on Attachment 3,"Unit 2 Post Accident Sampling Particulate and IodineRelease Worksheet."
i. REMOVE cartridge and PLACE in lead brick shield.j. IF detector extension tube was used, REMOVE tube andREPLACE shelf on detector.
k. PLACE particulate filter on detector shelf.1. Refer To C CP 803.6 and INMTIATE 5 minute sample count Iusing 1 cc volume.m. IF dead time is less than 20%, Go To step 4.9.3 o.Level of Use IContinuousI

<STOP:'THiNK::'

ulACT "REVIEWCP2804MRev. 00231 of 79

n. IF dead time is greater than or equal to 20%, PERFORM thefollowing:

[+Ref. 6.15]1) REMOVE filter and detector shelf.2) PLACE shortest detector shelf extension tube ondetector.

3) Starting with the lowest shelf and working up, PLACEfilter on each tube until a dead time of less than 20% isachieved.
4) TERMINATE count.5) Refer To C CP 803.6 and COUNT filter (open cave) for 51minutes.6) WHEN count is completed, Refer To Attachment 4,"Shelf Ratio Calculation" and DETERMINE shelf ratio.o. CALCULATE activity for each isotope on Attachment 3,"Unit 2 Post Accident Sampling Particulate and IodineRelease Worksheet."
p. IF detector extension tube was used, REMOVE tube andREPLACE shelf on detector.
q. COMPLETE Attachment 3.r. PROVIDE MRDA or AMRDA with results.s. PREPARE two copies of data sheets and computer printouts.
t. SEND copy of data sheets and computer printouts to MRDAor AM\'RDA.u. FORWARD original and a copy of data sheets and computerprintouts to Chemistry Supervision.
v. ENSURE cartridge and filter are labeled and placed in leadbrick shield for future counting or final disposal.

-End of Section 4.9 -Level of Use Continuous

..T.. THIN:so#;

.... ACT .. Rev. 002 4.10 Kaman High Range System Filter Sample Collection 4.10.1 COLLECT the following equipment:

  • Three collector assemblies
  • Reach rod* Mechanical fingers* KERIC microprocessor operating key* Plastic bags labeled with channel numbers*SP 2863-001* SP 2863-0024.10.2 NOTIFY MCRO that KAMAN high range filter samples will becollected.

4.10.3 Refer To Figure -1 and PROCEED to KERIC panel located inUnit 2 Control Room on panel Cl01.Figure -1O.Control Room PNL C-101 L.I.C. 8168(KERIC) Stack Gas Rad Monitor Local ControlPanel (KELIC)Keyboard Stack Gas EffluentEnable Disable 1.44 Purge ValveR~ W V 8132Z3~lIIZ Enable DisableZ DEispay ZIKeyboardDoc ispa ]TRem plate4.10.4 POSITION switch "RV -8132," stack gas effluent purge valve to"DISABLE."

Level of UseContinuous STOP THINK ",ACT REVIEWCP2804MRev. 00233 of 79 NOTEThe MRCA or OSC ARPS determines whether local or remote keyboardis to be used.4.10.5 To operate from KERIC keyboard, PERFORM the following:

a. POSITION KERIC key switch to "ENABLE."
b. IF KERIC panel does not respond to keyboard entriesPERFORM the following:
1) PROCEED to KELIC panel located in 4160 switchgear room in Turbine Building2) POSITION KELIC key switch to "REMOTE."
3) RETURN to Control Room.4.10.6 To operate from KELIC keyboard, PERFORM the following:
a. POSITION KERIC key switch to "DISABLE."
b. PROCEED to KELIC panel located in the 4160 switchgear room in the Turbine Building.
c. POSITION KELiC key switch to "LOCAL."L evel of UseContinuous STOP ' THINKACT 'REVIEWCP2804MRev. 00234 of 79 NOTEThe "Active Channel" is indicated by the channel with a radiation exposurerate greater than zero.4.10.7 DETERMINE active channel by displaying radiation exposurerates as follows:a. For channel 3, PERFORM the following:
1) PRESS "DSP"2) PRESS "3"3) PRESS "23"4) PRESS "ENT"b. For channel 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "C4"3) PRESS "23"4) PRESS "ENT"c. For channel 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "23"4) PRESS "ENT"4.10.8 PLACE an asterisk in channel number column on SP 2863-002to designate

'Active Channel."

Level of Use CP2804MContinuous STOP THINK ACT REVIEW Rev. 002

~ALARAIf flow was diverted, a high radiation condition may exist in the collectors.

4.10.9 IF operating the KERIC, PERFORM the following:

___a. POSITION KERIC key switch to "DISABLE."

b. PROCEED to the 4160 Switchgear Room in the TurbineBuilding.

4.10.10 IF operating the KELIC, POSITION KELIC key switch to"REMOTE."

4.10.11 REPLACE filters not in service on an "Inactive Channel" asfollows:a. OPEN inactive channel sample chamber door.____b. INSERT reach rod into "quick release latch."c. MOVIE reach rod to right.d. PLACE mechanical fingers around collector assembly.

___e. WITHDRAW assembly.

f. PLACE assembly in properly labeled bag.g. PLACE bagged assembly into lead transfer cask.h. Using mechanical
fingers, INSERT new collector assemblyinto assembly housing.i. PERFORM following to raise collector assembly:
1) INSERT reach rod into "quick release latch."2) MOVE reach rod to left..j. CLOSE and LATCH sample chamber door.____k. IF filters for another "Inactive Channel" need to be changed,Go To step 4.10.11 a.1. IF no other filters need to be changed Go To step 4. 10.12.Level of UseCP8MContinuous

'STOp " THINK : ACT" REVIEW ... Rev. 002.... 36 of 79

___ 4.10.12 IF operating in the KERIC, PERFORM the following:

a. PROCEED to KERIC panel located in Unit 2 Control Roomon panel C101.b. POSITION KERIC key switch to "ENABLE."

4.10.13 IF operating in KELIC, POSITION KELIC key switch to"LOCAL."4.10.14 OBTAIN total collection time for "Inactive Channels" as follows:a. For filter 3, PERFORM the following:

1) PRESS "DSP"2) PRESS "3"3) PRESS "45"4) PRESS "ENT"5) RECORD display as hours on SP 2863-002.
6) PRESS "EXP"7) RECORD display as minutes on SP 2863-002.
8) PRESS "EXP"9) RECORD display as seconds on SP 2863-002.
b. For filter 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "4"3) PRESS "45"4) PRESS "ENT"5) RECORD display as hours on SP 2863-002.
6) PRESS "EXP"Level of Use ,.CP2804M Continuous "STOP " THINK " ACT REVIEW Rev. 002" " ,37 of 79
7) RECORD display as minutes on SF 2863-002.
8) PRESS "EXP"9) RECORD display as seconds on SP 2863-002.
c. For filter 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "45"4) PRESS "ENT"5) RECORD display as hours on SF 2863-002.
6) PRESS "EXP"7) RECORD display as minutes on SF 2863-002.
8) PRESS "EXP"9) RECORD display as seconds on SF 2863-002.

4.10.15 OBTAIN total sample volume for "Inactive Channels" as follows:a. For filter 3, PERFORM the following:

1) PRESS "DSP"2) PRESS "3"3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SF 2863-002.
b. For filter 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "4"Level of Use CP204Con.nuusSTOP

" THINK ACT- REvIEw Rev. 002, -38 of 79

3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SP 2863-002.
c. For filter 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SP 2863-002.

NOTEIf the automatic sequence has stepped through all three filters and theradiation exposure rate for the 'Active Channel" is greater than100 mrem/hr, an automatic channel shift will occur when the next channelis cleared.4.10.16 To clear data on "Inactive Channels" or clear a "FULL' light,PERFORM the following:

a. To clear channel 3, PERFORM the following:
1) PRESS "STP"2) PRESS "3"3) PRESS "ENT"b. To clear channel 4, PERFORM the following:
1) PRESS "STP"2) PRESS "4"3) PRESS "ENT"Level of Use ... ,CP2804MCotnosSTOP T]HINK ,ACT" REVIEW Rev.002
c. To clear channel 5, PERFORM the following:
1) PRESS "STP"2) PRESS "5"3) PRESS "ENT"NOTEDiverting flow from the '`Active Channel" to the next channel allows forfilter change on the former "Active Channel" and allows for rotating flowpaths.4.10.17 To divert flow to activate a channel, PERFORM the following:
a. To divert flow to channel 3, PERFORM the following:
1) PRESS "FTN"2) PRESS "3"3) PRESS "04"4) PRESS "ENT"5) RECORD start and date on SP 2863-002.
b. To divert flow to channel 4, PERFORM the following:
1) PRESS "FTN"2) PRESS "4"3) PRESS "04"4) PRESS "ENT"5) RECORD start and date on SP 2863-002.

Level of Use CP2804M,

'ConinuusSTOPS;

... THINK:: ":-ACT,'

Rev. 002Co40iofo79

c. To divert flow to channel 5, PERFORM the following:
1) PRESS "FTN"2) PRESS "5"3) PRESS "04"4) PRESS "ENT"5) RECORD start and date on SP 2863-002.
d. Refer To SP 2863-002 RECORD stop time and date ofpervious active channel.e. IF an automatic shift occurs while stepping
channels, RECORD shift start and stop times for involved channels onSP 2863-002.
f. PLACE an asterisk next to new "Active Channel" in channelnumber column on SP 2863-002 to designate the "ActiveChaneld."

4.10.18 For the former 'Akctive Channel,"

PERFORM the following:

If flow was diverted, a high radiation condition may exist in the collectors.

a. IF operating KERIC, PERFORM the following:
1) POSITION KERIC key switch to "DISABLE."
2) PROCEED to 4160 Switchgear Room in TurbineBuilding.
b. IF operating KELIC, POSITION KELIC key switch to"REMOTE."
c. OPEN sample chamber door.Level of UseContinuous STOP ....THINKACT- REVIEWCP2804MRev. 00241 of 79
d. PERFORM the following to lower collector assembly:
1) INSERT reach rod into "quick release latch."2) MOVE reach rod to right.e. PLACE mechanical fingers around the collector assembly.
f. WITHDRAW assembly.
g. PLACE assembly into lead transfer cask.h. INSERT new collector assembly into assembly housing.i. PERFORM the following to raise collector assembly:
1) INSERT reach rod into "quick release latch."2) MOVE reach rod to left.j. CLOSE and LATCH sample chamber door.4.10.19 IF operating in KERIC, PERFORM the following:
a. PROCEED to KERIC panel located in Unit 2 Control Roomon panel C101.b. POSITION KERIC key switch to "ENABLE."

4.10.20 IF operating in KELIC, POSITION KELIC key switch to"LOCAL."4.10.21 OBTAIN total collection time for former "Active Channel" asfollows:a. For filter 3, PERFORM the following:

1) PRESS "DSP"2) PRESS "3"3) PRESS "45"4) PRESS "ENT"Level of Use -CP2804MContinuous STOP THINK ACT ...REVIEW Rev. 002" : 42 of 79
5) RECORD display as hours on SP 2863-002.
6) PRESS "EXP"7) RECORD display as minutes on SP 2863-002.
8) PRESS "EXP"9) RECORD display as seconds on SP 2863-002.
b. For filter 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "4"3) PRESS "45"4) PRESS "ENT"5) RECORD display as hours on SP 2863-002.
6) PRESS "EXP"7) RECORD display as minutes on SP 2863-002.
8) PRESS "EXP"9) RECORD display as seconds on SP 2863-002.
c. For filter 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "45"4) PRESS "ENT"5) RECORD display as hours on SP 2863-002.
6) PRESS "EXP"7) RECORD display as minutes on SP 2863-002.

Level of Use CP2804MContinuous STOP THINK ACT 'REVIEW Rev. 002...... ,43 of 79

8) PRESS "EXP"9) RECORD display as seconds on SP 2863-002.

4.10.22 OBTAIN total sample volume for the former 'Active Channel" asfollows:a. For filter 3, PERFORM the following:

1) PRESS "DSP"2) PRESS "3"3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SP 2863-002.
b. For filter 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "4"3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SP 2863-002.
c. For filter 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "37"4) PRESS "ENT"5) RECORD volume on SP 2863-002.

Level of Use ,CP2804MContinuous STOP ' THINK " AcT ... REVIEW Rev. 002: " ",44 of 79 NOTEIf the automatic sequence has stepped through all three filters and theradiation exposure rate for the "Active Channel" is greater than100 mremlhr, an automatic channel shift will occur when the next channelis cleared.4.10.23 To clear data on former Active Channel" or clear a "FULL' light,PERFORM the following:

a. To clear channel 3, PERFORM the following:
1) PRESS "STP"2) PRESS "3"3) PRESS "ENT"b. To clear channel 4, PERFORM the following:
1) PRESS "STP"2) PRESS "4"3) PRESS "ENT"c. To clear channel 5, PERFORM the following:

1)2)3)PRESS "STP"PRESS "5"PRESS "ENT"Level of UseContinuous STOP...THINK' " ACTREVIEWCP2804MRev. 00245 of 79 4.10.24 IF directed by MRDA or AMRDA, MONITOR the in-service filter radiation levels as follows:a. For channel 3, PERFORM the following:

1) PRESS "DSP"2) PRESS "3"3) PRESS "23"4) PRESS "ENT"b. For channel 4, PERFORM the following:
1) PRESS "DSP"2) PRESS "4"3) PRESS "23"4) PRESS "ENT"c. For channel 5, PERFORM the following:
1) PRESS "DSP"2) PRESS "5"3) PRESS "23"4) PRESS "ENT"4.10.25 POSITION KELIC key switch to "REMOTE."

4.10.26 PROCEED to Control Room panel Cl01.4.10.27 POSITION KERIC key switch to "DISABLE."

4.10.28 POSITION RV-8132, Stack Gas Effluent Purge Valve, switch to"ENABLE."

4.10.29 ENSURE Vent Gas High Radiation alarm is cleared.Level of Use CP2804MContinuous

.STOP THINK' ACT REVIEW, Rev. 002* 46 of 79 4.10.30 NOTIFY MCRO that filter change is complete and system isrestored to normal.4.10.3 1 TRANSFER assemblies in lead transfer cask to chemistry lab.-End of Section 4.10 -Level of UseContinuous STOPTHINKACT "R EVIEW"CP2804MRev. 00247 of 79 4.11 KAMAN High Range System Filter Sample Analysis4.11.1 REMOVE filters from collector assembly.

4.11.2 PLACE particulate filter in a properly

labeled, clean plastic bag.4.11.3 PLACE silver zeolite cartridge in a purge holder.4.11.4 REMOVE silver zeolite cartridge.

4.11.5 PLACE cartridge in a clean, labeled plastic bag.4.11.6 Refer To C CP 803.6, "Gamma Spectroscopy Counting System IMaintenance and Operation,"

and PERFORM a 5 minute, openIcave, background count using sample geometry and 1 cc volumeon the detector to be used.a. LIST all identified isotopes and associated activity onAttachment 3.b. SAVE gamma spectrometer printout for future reference.

4.11.7 PLACE cartridge on detector shelf.4.11.8 Refer To C CP 803.6 and INITIATE a 5 minute sample count. I4.11.9 IF dead time is less than 20%, Go To step 4.11.11.4.11.10 IF dead time is greater than or equal to 20%, PERFORM thefollowing:

[4iRef. 6.15]a. REMOVE cartridge and detector shelf.b. PLACE shortest detector shelf extension tube on detector.

c. Starting with shortest tube and working up, PLACE cartridge on each tube until a dead time of less than 20% is achieved.
d. TERMINATE count.e. Refer To C CP 803.6 and COUNT cartridge (open cave) for 15 minutes.f. WHEN count is completed, Refer To Attachment 4, "ShelfRatio Calculation" and DETERMINE shelf ratio.4.11.11 CALCULATE activity for each isotope on Attachment 3, "PostAccident Particulate and Iodine Release Worksheet."

Level of Use , ."CP2804M Continuous sToP "THINK "ACT REVIEW Rev. 00248 of 79

___ 4.11.12 REMOVE cartridge and PLACE in lead brick shield.____4.11.13 IF_ detector shelf extension tube was used, REMOVE tube andREPLACE shelf on detector.

4.11.14 PLACE particulate filter on detector in gamma spectrometer.

4.11.15 Refer To C CP 803.6 and INITIATE a 5 minute sample count Iusing 1 cc sample volume.4.11.16 IFF dead time is less than 20%, Go To step 4.11.18.4.11.17 IFF dead time is greater than or equal to 20%, PERFORM thefollowing: 6.15]a. REMOVE filter and detector shelf.____b. PLACE shortest detector shelf extension tube on detector.

c. Starting with shortest tube and working up, PLACE filter oneach tube until a dead time of less than 20% is achieved.
d. TERMINATE count.___e. Refer To C CP 803.6 and COUNT filter (open cave) for I5 minutes.f. WHEN count is completed, Refer To Attachment 4, "ShelfRatio Calculation" and DETERMINE shelf ratio.4.11.18 CALCULATE activity for each isotope on Attachment 3, "PostAccident vent Particulate and Iodine Release Worksheet."

4.11.19 REMOVE filter and PLACE in lead brick shield.___ 4.11.20 REPORT analysis results to MRDA or AMRDA.4.11.21 PREPARE two copies of data sheets and computer printouts.

4.11.22 SEND copy of data sheets and computer printouts to MRDA orAMRDA.4.11.23 FORWARD original and a copy to Chemistry Supervision.

-End of Section 4.11 -Level of Use CP.4CotiuosSTOP

"'THINK .ACT. .. REVIEW Rev. 002-49 of 79 4.12 Low Range WRGM Particulate and Iodine Sample Collection

~ALARAFilters may be highly radioactive.

Use caution when handling.

4.12.1 IF directed by MCRO, PREPARE to sample normal WRGMusing silver zeolite cartridges.

4.12.2 COLLECT the following equipment:

  • Two 47 mm particulate filters* Plastic bags* Transport container
  • Current SP 2815-002* New SP 2815-0024.12.3 DETERMINE sample collection time as directed or as follows:a. MULTIPLY current RM 8169 flow rate by 28300 cc/cubic ft.Icubic feetminxX28300 cccubic ft =ccminb. MULTIPLY result from 4.12.3a.

times current RM 8169reading !xCi/cc.c. DIVIDE 10 1iCi by result from 4.12.3b.10MfCi + ,uCimrin

= mind. MULTIPLY result from 4.12.3c.

by 60 to obtain seconds.Mm MiX60 secmin =secLevel of Use CP2804MCo ntin uo us ":"STOP,.

.THINK , ACT:" .."REVIEW Rev. 002, ' -: ...of 79 4.12.4 PROCEED to WRGM Sampling Area.4.12.5 RECORD the operating channel sample flow from FI-8169L onSP 2815-002, as the removed sample flow.4.12.6 IF the "A' sample train is in service, CLOSE the following "B"sample train isolation valves:a. 2-EB-216 Filter B-Inlet Isolation Valveb. 2-EB-217 Filter B-Inlet Isolation Valvec. 2-EB-218 Filter B-Outlet Isolation Valved. 2-EB-219 Filter B-Outlet Isolation Valve4.12.7 IF the "B" sample train is in service, CLOSE the following

"sample train isolation valves:a. 2-EB-220 Filter A-Inlet Isolation Valveb. 2-EB-221 Filter A-Inlet Isolation Valvec. 2-EB-222 Filter A-Outlet Isolation Valved. 2- EB- 223 Filter A-L Outlet Isolation Valve4.12.8 On the filter assembly out of service, PERFORM the following:

a. REMOVE filter holder ring clamp.b. REMOVE top gasket.c. REMOVE particulate filter and PLACE in plastic bag.d. REMOVE screen plate.e. REMOVE middle gasket.f. REMOVE iodine cartridge and PLACE in plastic bag.g. IF installed, REMOVE iodine cartridge adapter and itsassociated gasket.h. POSITION arrow indicator pointing into filter holder andLOAD a new silver zeolite cartridge into holder.d 71 STOP: ...."'THINK-

.. ACT .... REVIEW Rev. 002ILevel of UseContinuous

i. INSTALL middle gasket and screen plate.j. INSTALL screen plate.k. INSTALL particulate filter, fibrous side up into holder.1. INSTALL top gasket.m. INSTALL and TIGHTEN filter holder ring clamp.4.12.9 IF "A" sample train is currently out of service OPEN the following to align sample path:a. 2- EB- 220 Filter A- Inlet Isolation Valveb. 2-EB--221 Filter A-Inlet Isolation Valvec. 2-EB-222 Fitter A-Outlet Isolation Valved. 2-EB-223 Filter A-Outlet Isolation Valve4.12.10 IF "B" sample train is currently out of service, OPEN thefollowing to align sample path:a. 2-EB-216 Filter B-Inlet Isolation Valveb. 2-EB-217 Filter B-Inlet Isolation Valvec. 2-EB-218 Filter B-Outlet Isolation Valved. 2-EB-219 Filter B-Outlet Isolation Valve4.12.11 sample train is currently in service, on grab sample controlassembly panel (RIC 8169) SWITCH operation to the "B" train.4.12.12 IF "B" sample train is currently in service on grab sample controlassembly panel (RIC 8169) SWITCH operation to the "A' train.4.12.13 Refer To SP 2815-002 and RECORD the following:
  • Date/Time removed from service* Technician initials for removal* Sample train removed from serviceLevel of Use CP.......

Continuous

.. STOP THINK ....AC:T ' REvIEW/ Rev. 002,' 52 of 79 4.12.14 Refer To Attachment 3 and RECORD the following:

  • Operating channel sample flow as indicated on F1-8169L* Sample train placed in service Date/Time
  • Technician initials4.12.15 IF "A" sample train was removed from service CLOSE thefollowing to isolate filters:a. 2-EB-220b. 2-EB-221c. 2-EB-222d. 2-EB-2234.12.16 IF "B" sample train was removed from service CLOSE thefollowing to isolate filters:a. 2-EB-216b. 2-EB-217c. 2-EB-218d. 2-EB-2194.12.17 On the filter assembly out of service, PERFORM the following:
a. REMOVE filter holder ring clamp.b. REMOVE top gasketc. REMOVE particulate filter and PLACE in plastic bag.d. REMOVE screen plate.e. REMOVE middle gasket.f. REMOVE iodine cartridge and PLACE in plastic bag.g. IF installed, REMOVE iodine cartridge adapter and itsassociated gasket.Level of Use CP2...MContinuous STOP THINK ,ACT " REVIEW Rev. 002' 53 of 79
h. POSITION arrow indicator pointing into filter holder andLOAD a new iodine cartridge into holder.i. INSTALL middle gasket.j. INSTALL screen plate.k. INSTALL particulate filter fibrous side up into holder.1. INSTALL top gasket.m. INSTALL and TIGHTEN filter holder ring clamp.4.12.18 IF "A' sample train is currently out of service OPEN the following to align sample path:a. 2-EB-220b. 2-EB-221c. 2-EB--222
d. 2-EB-2234.12.19 IF "B" sample train is currently out of service OPEN thefollowing to align sample path:a. 2-EB-216b. 2-EB--217
c. 2-EB-218d. 2-EB--219 4.12.20 NOTIFY Operations that filter and iodine cartridge changeout iscomplete.

4.12.21 EXIT WRGM sample area and TRANSFER filters to chemistry lab.4.12.22 As directed, ANALYZE sample filters.4.12.23 WHEN sample time calculated in step 4.12.3 is reached,PROCEED to WRGM sample area to change out filters.Level of UseContinuous STOPTHINKACT, REVIEWCP2804MRev. 00254 of 79 4.12.24 Refer To Attachment 3 and RECORD operating channel sampleflow from FI-8169L as the removed sample flow.4.12.25 IF 'A" sample train is currently out of service OPEN the following to align sample path:a. 2-EB-220b. 2-EB-221c. 2-EB-222d. 2-EB-2234.12.26 IF "B" sample train is currently out of service OPEN thefollowing to align sample path:a. 2-EB-216b. 2-EB-217c. 2-EB-218d. 2-EB-2194.12.27 IF the "A' sample train is currently in service on grab samplecontrol assembly panel (RIC 8169) SWITCH to the "B" train.4.12.28 IF the "B" sample train is currently in service on grab samplecontrol assembly panel (RIC 8169) SWITCH to the "A' train.4.12.29 Refer To Attachment 3 and RECORD the following:

  • Date/Time removed from service* Technician initials for removal* Sample train removed from service4.12.30 Refer To new Attachment 3 and RECORD the following:
  • Operating channel sample flow as indicated on F1-8169L* Sample train placed in service and Date/Time
  • Technician initialsLevel of UseCP84Continuous STOP THINK ACT " REVIEW Rev. 0020' 55 of 79 4.12.3 1 IF the 'A" sample train was removed from service CLOSE thefollowing to isolate filters:a. 2-EB-220b. 2-EB-221c. 2-EB-222d. 2-EB--223 4.12.32 IF the "B" sample train was removed from service CLOSE thefollowing to isolate filters:a. 2-EB-216b. 2-EB-217c. 2-EB--218
d. 2-EB-2194.12.33 On the filter assembly out of service PERFORM the following:
a. REMOVE filter holder ring clamp.b. REMOVE top gasketc. REMOVE particulate filter and PLACE in plastic bag.d. REMOVE screen plate.e. REMOVE middle gasket.f. REMOVE iodine cartridge and PLACE in plastic bag.g. POSITION arrow indicator pointing into filter holder andLOAD a new iodine cartridge into holder.h. INSTALL middle gasket.i. INSTALL screen plate.j. INSTALL particulate filter fibrous side up into holder.Level of UseCP8MContinuous

-STOP THINK ACTI "REVIEW Rev. 00256 of 79

k. INSTALL top gasket.1. INSTALL and TIGHTEN filter holder ring clamp.4.12.34 IF 'A" sample train is currently out of service OPEN the following to align sample path:a. 2-EB-220b. 2-EB-221c. 2-EB-222d. 2-EB-2234.12.35 IF "B" sample train is currently out of service OPEN thefollowing to align sample path:a. 2-EB-216b. 2-EB-217c. 2-EB-218d. 2-EB-2194.12.36 TRANSFER filters to the chemistry lab.4.12.37 Refer To Section 4.9 or as directed and ANALYZE filters.4.12.38 COLLECT silver zeolite cartridges and TRANSFER to WasteServices for disposal as hazardous waste.-End of Section 4.12 -Level of UseContinuous STOPTHINKACT REVIEWCP2804MRev. 00257 of 79 4.13 Changing High Range Filters in Wide Range Gas Monitor.AAALARA hFilters may be highly radioactive.

Use caution and Health Physics supportas directed during performance of this Section.4.13.1 WHEN directed, COLLECT the following equipment for HighRange WRGM filter sampling:

  • Transfer container for filter assemblies
  • 47 mm particulate filters* Plastic bagso Wrenches, if necessary to remove cave from skid* Transfer cart as directed4.13.2 NOTIFY control room and DETERMINE date and timeMid/High range sample collection commenced.

4.13.3 Refer To Attachment 3 and RECORD Mid/High range samplecollection date and time.4.13.4 PROCEED to WRGM sampling area.NOTEDetector flow rate is controlled by the monitor at a nominal rate ofapproximately 0.06 SCFM (1.7 1pm).4.13.5 DETERMINE which filter train is in operation and Refer ToAttachment 3 and RECORD FI-8169H sample flow rate.4.13.6 IF directed to secure sample skid, PERFORM the following:

a. POSITION the Mid/High range pump control to "OFF" tosecure sample flow.b. Refer To Attachment 3 and RECORD sample stop date andtime.Level of UseContinuous

-STOPTHINKACT REVIEWCP2804MRev. 00258 of 79 4.13.7 IF directed to switch sample trains, PERFORM the following:

a. On grab sample control assembly panel RIC 8169, SWITCHto out of service sample train.b. Refer To Attachment 3 and RECORD date and time ofsample train switch and sample flow rate as indicated onFI-8169H.

4.13.8 IF changing out of service "C" train filters, PERFORM thefollowing:

a. CLOSE Filter C-Inlet Isolation valve 2-EB-233.
b. CLOSE Filter C-Inlet Isolation valve 2-EB-234.
c. CLOSE Filter C-Outlet Isolation valve 2-EB-235.
d. CLOSE Filter C-Outlet Isolation valve 2-EB-236.

4.13.9 IF changing out of service "D" train filters, PERFORM thefollowing:

a. CLOSE Filter D-Inlet Isolation valve 2-EB-237.
b. CLOSE Filter D-Inlet Isolation valve 2-EB-238.
c. CLOSE Filter D-Outlet Isolation valve 2-EB--239.
d. CLOSE Filter D-Outlet Isolation valve 2-EB-240.

4.13.10 IF removing out of service cave from sample collection skid,PERFORM the following:

a. LOOSEN and REMOVE bolts from the cave base plate.b. DISCONNECT inlet and outlet tubing from quickdisconnects.
c. REMOVE filter cave and PLACE on transport cart.d. Go To step 4. 13.13.Level of Use CP204Continuous STOP THINK ACT REVIEW Rev. 002S 59 of 79I NOTEIf radiation levels permit, filters may be changed in WRGM sample areaas directed.

4.13.11 lIF replacing filter is sample area, PERFORM the following:

a. DISCONNECT supply and return tubing from holdingbracket.b. UNLATCH and OPEN sample cave door.c. DISCONNECT inlet and outlet tubing from quickdisconnects.
d. REMOVE filter assembly from cave.e. LOOSEN and REMOVE filter holding ring.f. REOVE flter housing cover.g. REMOVE top gasket.h. REMOVE particulate filter and PLACE in plastic bag.i. REMOVE screen plate.j. REMOVE middle gasket.k. REMOVE silver zeolite cartridge and PLACE in plastic bag.1. POSITION arrow indicator pointing into filter and LOADnew iodine cartridge.
m. INSTALL middle gasket.n. INSTALL screen plate.o. INSTALL particulate filter fibrous side up into holder.p. INSTALL top gasket.q. ASSEMBLE filter housing and INSTALL filter holder ringclamp.Level of Use .....04MContinuous STOP 'THINK ,ACT "REVIEW Rev. 002' ',"60 of 79
r. INSTALL filter holder into cave and CONNECT quickdisconnects.
s. CONNECT supply and return tubing to holding bracket.t. CLOSE and LATCH cave.u. IF starting "C" sample train, OPEN the following:
1) Filter C-Inlet Isolation valve 2-EB-233.
2) Filter C-Inlet Isolation valve 2-EB-234.
3) Filter C-Outlet Isolation valve 2-EB-235.
4) Filter C-Outlet Isolation valve 2-EB-236.
v. IF starting "D" sample train, OPEN the following:
1) Filter D-Inlet Isolation valve 2-EB-237.
2) Filter D- Inlet Isolation valve 2- EB-238.3) Filter D-Outlet Isolation valve 2-EB-239.
4) Filter D-Outlet Isolation valve 2-EB-240.

4.13.12 IF directed to start sample collection, PERFORM the following:

a. IF starting "C" sample train, ENSURE the following open:1) Filter C-Inlet Isolation valve 2-EB-233.
2) Filter C-Inlet Isolation valve 2-EB-234.
3) Filter C-Outlet Isolation valve 2-EB-235.
4) Filter C-Outlet Isolation valve 2-EB-236.
b. IF starting "D" sample train, ENSURE the following open:1) Filter D-Inlet Isolation valve 2-EB-237.
2) Filter D-Inlet Isolation valve 2-EB-238.

Level of Use CP2804MContinuous STOP THINK " ACT. 'REVIEW" Rev. 002

3) Filter D-Outlet Isolation valve 2-EB-239.
4) Filter D-Outlet Isolation valve 2-EB-240.
c. As directed, on grab sample control assembly panelRIC-8169, PLACE filter train selection switch to the "C" or"D" sample train.d. IFF sample skid was secured, POSITION Mid/High rangepump control to "ON" to start sample flow.e. Refer To Attachment 3 and RECORD start date and timeand sample flow on FI-8169H.

4.13.13 TRANSFER filters or filter cave to chemistry lab.4.13.14 IFF filters are already removed from cave and assemblies, Go Tostep 4. 13.16.4.13.15 lI___ replacing

filters, PERFORM the following:
a. DISCONNECT supply and return tubing from holdingbracket..
b. DISENGAGE and OPEN sample cave door.c. REMOVE filter assembly from cave.d. LOOSEN and REMOVE filter holding ring.e. REMOVE filter housing cover.f. REMOVE top gasket.g. REMOVE particulate filter and PLACE in plastic bag.h. REMOVE screen plate.i. REMOVE middle gasket.j. REMOVE silver zeolite cartridge and PLACE in plastic bag.k. POSITION arrow indicator pointing into filter and LOADnew iodine cartridge.
1. INSTALL middle gasket.Level of Use CP204Cot"uosSTOP THINK ACT *REVIEW Rev. 002* 62 of 79
m. INSTALL screen plate.n. INSTALL particulate filter fibrous side up into holder.o. INSTALL top gasket.p. ASSEMBLE filter housing and INSTALL filter holder ringclamp.Refer To Section 4.9 and PERFORM sample analysis.

COLLECT silver zeolite cartridges for transfer to Waste Servicesfor disposal.

-End of Section 4.13 -4.13.164.13.17Level of UseContinuous STOPTHINKREVIEWCP2804MRev. 00263 of 79 4.14 U2 Main Station Stack High Range Gas SamplinghAALARAFilters may be highly radioactive.

Use caution when handling.

NOTESample collection volume will be as directed, and determined by expectedactivity.

IPROCEED to Main Station Stack WRGM sample room.4.14.2 COLLECT sample as follows:a. CONNECT sample container inlet to the sample source at2-EB-244, sample conditioning skid-Mid/High rangesample test valve.b. CONNECT sample container outlet to sample pump inlet.c. CONNECT sample pump outlet at 2-EB-257, samplereturn test isolation valve.d. OPEN the following valves:1) Sample container inlet2) Sample container outlet3) 2-EB-244, sample conditioning skid-Mid/High rangesample test.4) 2-EB-257, sample return test isolation valve.e. START sample pump.Level of UseContinuous STOPTHINKACT REVI EWCP2804MRev. 00264 of 79 NOTESample purge time will be dependent on a variety of factor and will bedetermined by Chemistry Supervision.

f. PURGE sample through sample container as directed.
g. STOP sample pump.h. CLOSE the following:
1) Sample container inlet2) Sample container outlet3) 2-EB-244, sample conditioning skid-Mid/High rangesample test.4) 2-EB-257, sample return test isolation valve.i. NOTE sample time.j. REMOVE tygon tubing from the following:
1) Sample container inlet2) Sample container outletk. TRANSFER sample to chemistry lab.1. Refer To Section 4.15 and PERFORM sample analysis.

-End of Section 4.14 -Level of Use SO THNAC REIWCP2804M Continuous SO THNAC REEWRev.

00265 of 79 4.15 U2 Main Station Stack and Vent Gas Isotopic AnalysisMaintenance and Operation,"

and PERFORM a 5 minute, opencave, background count on the detector to be used using same Isample geometry and volume of 1 cc.a. LIST all identified isotopes and associated activity onAttachment 2, "Unit 2 Post Accident Sampling GaseousRelease Worksheet."

b. SAVE gamma spectrometer printout for future reference.

4.15.2 PLACE sample on detector shelf.4.15.3 Refer To C CP 803.6 and INITIATE a 5 minute sample count Iusing 1 cc sample count.4.15.4 IF dead time is less than 20%, Go To step 4.15.6.4.15.5 IFF dead time is greater than or equal to 20%, PERFORM thefollowing:

6.16]a. REMOVE sample and detector shelf.b. PLACE shortest detector shelf extension tube on detector.

c. Starting with the lowest shelf and working up, PLACE thesample on each shelf until a dead time of less than 20% isachieved.
d. TERMINATE count.e. Refer To C CP 803.6 and COUNT sample (open cave) for 5 Iminutes.f. WHEN count is completed, Refer To Attachment 4, "ShelfRatio Calculation" and DETERMINE shelf ratio.4.15.6 CALCULATE activity for each isotope on Attachment 2, "Unit 2Post Accident Sampling Gaseous Release Worksheet."

4.15.7 STORE sample in source locker for disposal.

4.15.8 COMPLETE Attachment 2.Level of Use CP2804MContinuous STOP THINK " ACT Rev. 002~66 of 79 4.15.9 REPORT analysis results to MRDA or AMRDA or as directed.

4.15.10 PREPARE two copies of data sheets and computer printouts.

4.15.11 SEND copy of data sheets and computer printouts to MRDA orAMRDA or as directed.

4.15.12 FORWARD original and a copy of data sheets and computerprintouts to Chemistry Supervision.

-End of Section 4.15 -Level of UseContinuous STOPTHINKACT "REVI EWCP2804MRev. 00267 of 79 4.16 PASS Equipment Inventory 4.16.1 After each PASS sample, Refer To Attachment 5 and PERFORMinventory of all equipment required to perform containment PASS sampling.

4.16.2 COMPLETE Attachment 5, "Containment PASS Equipment Inventory."

4.16.3 FORWARD Attachment 5 to Chemistry Supervision.

-End of Section 4.16 -Level of UseContinuous STOP THINKACT. "REVIEWCP2804MRev. 00268 of 79

5. REVIEW AND SIGNOFF5.1 Indicate (check) Subsections of this procedure which were performed:

[] 4.1 [] 4.2 [] 4.3 [] 4.4 lii 4.5 []4.6[] 4.7 [] 4.15 [] 4.8 Lii 4.9 [Ii 4.10 Ii 4.115.2 If procedure was terminated prior to completion, specify cause:_____

5.3 This procedure was performed by the following personnel:

  • Job supervisor (MRDA or designee):

Print Name Signature Initials* PASS Team personnel:

Print Name Signature InitialsPrint Name Signature InitialsPrint Name Signature InitialsPrint Name Signature Initials5.4 This procedure was reviewed by Chemistry Supervision:

Print Name Signature Initials5.5 All data recording for this procedure is located in Attachments 1, 2, and 3.Level of Use CP2804MContinuous STOP THINK ACT "REVIEW Rev. 002-69 of 79

6. REFERENCES 6.1 "Final Safety Analysis Report Unit 2"6.2 "Millstone Nuclear Power Station Emergency Plan"6.3 NUREG-0654, Revision 1, "Criteria for Preparation of Radiological Emergency Response Plans, and Preparedness in Support of NuclearPower Plants"6.4 NIJREG-0737, "Clarification of TMI Action Plan Requirements, Supplement 1, Requirements for Emergency Response Capability" 6.5 "Technical Manual for Containment Air Post Accident Sample System,"General Dynamics Corporation, Electric Boat Division, Reactor PlantServices, May 1982.6.6 "Kaman Sciences Corporation, Instruction Manual,Operation-Maintenance Instructions and Parts Catalog for AccidentRange Gas Monitor, Model KMG-HRC"6.7 "VAX/VMS Spectroscopy Applications Package User's Manual 07-0196"6.8 "Radiological Effluent Monitoring and Off-Site Dose Calculation Manual,"

(REM ODCM)6.9 Chemistry Memorandum from John Kangley to Jeff Broussard, CHEM-93-1212, dated January 18, 1993.6.10 C CP 803.6, "Gamma Spectroscopy Counting System Maintenance and IOperation" 6.11 C CP 803.12, "Operation and Calibration of the Varian CP 4900I6.12 SP 2814A,"Gaseous Effluents for Iodines and Particulates" 6.13 SP 2863, "High Range Gas Monitor Particulate Filter and Iodine cartridge

  • IReplacement"l 6.14 NRC, B18444, Dated July 31, 2001 E)6.15 NRC, Docket Number 50-245, 50-336, 50-423. Combined Inspection 50-245/87-24, 50-336/87-21, 50-423/87-19.

November 17 1987, Page10.Level of Use CP2804MContinuous STOP THINK ACT REVIEW Rev. 002: 70 of 79 6.16 USNRC Reg Guide 1.97, May 1983, "Instrumentation for Light WaterCoolant Nuclear Power Plants to Assess Plant and Environs Condition During and Following an Accident.

6.17 Memo 98-067, From Max Keyes to Tom Blount, PASS Procedure Meeting Minutes.6.18 Sorrento Electronics, Wide Range Gas Monitor System RM-8169 ITechnical Manual, Revision A, October 2000 I6.19 DCR M2-00010.

7. SUMMARY OF CHANGES7.1 Incorporated instructions for collecting samples associated with the newUnit 2 Main Station Stack WRGM, RM 8169.7.2 Changes made to reflect the removal of the Main Station Stack KAMENand Normal Range monitoring systems from service.

This equipment hasbeen retired and replaced in part by the Unit 2 WRGM.7.3 Revision includes incorporation of actions previously contained inEPOP 4446 which has been canceled.

7.4 Modifications to procedures were incorporated to accommodate Unit 1/Unit 2 Separation Project (DCR M2-00010).

Summary of Changes Rev. 001-017.5 Editorial Correction; Updated Reference 6.16 NRC commitment letter.B18443, AR #01005693-01.

Summary of Changes Rev. 001-027.6 Deleted reference to CP 801/2801/3801AD in Document Section as it isno longer used at Unit 2. The GC procedure used now is CP 2803/3803PR 7.7 Step 4.5.1a, replaced CP 801/2801/3801AD with CP 2803/3803PR 7.8 Made modifications to accommodate safety evaluation by the office ofNuclear Reactor Regulation related to amendment No. 262.Level of Use CP2804MContinuous STOP THINK ACT REVIEW Rev. 002* 71 of 79 Summary of Changes Rev. 0027.9 Administrative Corrections to correct references:

  • C CP 803.12 has replaced CP 2803/3803P
  • C CP 803.6 has replaced CP 801/2801/3801AT 7.10 Added titles to step 2.2, Documents.

7.11 Changed instances of VERIFY to CHECK or ENSURE as applicable, norevision bars used.Level of UseContinuous STOP THINKACT REVIEWCP2804MRev. 00272 of 79 Attachment 1Unit 2 Post Accident Sampling Containment GaseousActivity Worksheet (Sheet 1 of 1)Sample Worksheet Completed by:Location:

__________Print NameIsolation Date: _______Isolation Time: __________Signature:

IsAMopLe VOU Er in jet ctedinito 14.4 f ccvali Ba__cc gon stoeAtvt(Printout Activityx ShelIf Ratio)-Background=

Isotope ActivityIsotope Printout Activity Shelf Ratio Background Isotope Activity4 4 4 4+ 4 4 44. 4 4 4+NOTE: Total Gaseous Activity

= summation of all isotope activities.

NOTE: Data and calculations recorded to 3-significant figures whenpossible.

Gas Composition AnalysisSample Location:

______Sample Date: ___% Hydrogen:

_ ___ % Oxygen:Total Gaseous Activity:

Sample Time: ___% Nitrogen:

lReviewed by:(Chemistry supervision)

Level of UseContinuous Print NameSTOP THINKSignature

  • ACT REVIEW_Date:__CP2804MRev. 00273 of 79 Attachment 2Unit 2 Post Accident Sampling GaseousRelease Worksheet (Sheet 1 of 1)Worksheet Completed b3Signature:

Print NameSAMPLE DATE/TIME

___PROCESS FLOW cfmSAMPLE VOLUME = ml injected into 14.4 cc vial =RELEASE POINT_*cc [IJMP2 Vent[J]MP2 to Main Station Stack* .ackground

= Isotope Activity(Printout Activity x Shelif Ratio) -Isotope Printout Activity Shelf Ratio Background Isotope Activity Isotope Activity*

/iCi ______ Ci MCi /MCi cc"UI t ISOtope activity (liuu/CO)

= utSample Volume ccNOTE: Total Gaseous Activity

= summation of all isotope activities.

NOTE: Data and calculations, recorded to 3-significantifigures whenpossible.

Total Gaseous Activity{

________Release Rate:Total ActivityReleased

(/MCi cc )XFlowt Namenx 28317 ccft3x 1 min60 sec,iCi secRelease RateReviewed by:(Chemistry supervision)

Date:_____

Print NameSignature Level of UseContinuous STOP THINKACT+ REVIEWCP2804MRev. 00274 of 79 Attachment 3Unit 2 Post Accident Sampling Particulate and IodineRelease Worksheet (Sheet 1 of 3)Worksheet Completed by:,.Print NameSignature:

RELEASE POINT[]MP2 VentEjMP2 to Main Station StackDATE/TIME STARTEDDATE!TIME STOPPEDTOTAL SAMPLE TIMESF-28.316

________SAMPLE FLOW________SAMPLE FLOWmin AVERAGE FLOWAVE. PROCESS SAMPLE FLOWcfmcfmcfmncfmParticulate Activities

"(Printout Activity x Shelf Ratio)-Background

-Isotope A ctivityIsotope JPrintout Activity

-Shelf Ratio* Background Isotope Activity Isotope Activity*

_________Ci

_ ____ MCi jiCi /iCi-t I * + II I I + II 1 1 4 II I I -t II I 4 -f 4I I 4 4 41 1 4 1- +__ I ___ I __ I __ I____ I ____*NOTE Isotope activity (Cid/cc)

= iSample Volume ccNOTE: Total Particulate Activity

= summation of all isotope activities.

NOTE: Data and calculations recorded to 3-significant figures whenpossible.

Total Particulate ActivitLevel of UseContinuous STOPTHINKACT REVIEWCP2804MRev. 00275 of 79 Attachment 3Unit 2 Post Accident Sampling Particulate and IodineRelease Worksheet (Sheet 2 of 3)IODINE ISOTOPES(Printout Activity x Shelf Ratio)-Background

= Isotope ActivityIsotope Printout Activity Shelf Ratio Background Isotope Activity Isotope Activity*

/iCi ______ ,Ci ,aCi ,uCi*NOTE isotope activity (paCi/cc)

= iSample Volume ccNOTE: Total iodine Activity

= summation of all isotope activities.

NOTE: Data and calculations recorded to 3-significant figures whenpossible.

Total Iodine Activity:

KAMAN/WRGM Sample Corrections:

x 2=1uCiccParticulate Concentration X 10=Iodine Concentration Corrected Particulate Total ReleasedtMCiccCorrected Iodine Total ReleasedLevel of UseContinuous STOPTHINKACT REVIEWCP2804MRev. 00276 of 79 Attachment 3Unit 2 Post Accident Sampling Particulate and IodineRelease Worksheet (Sheet 3 of 3)Total Sample Volume:Average Sample Flow Rate (cfin)Xx 2.83E4ccft 3=ccTotal SampleTime (min)Particulate Release Rate:XReleased (uCi cc )Iodine Release Rate:Pr'ocessFlow (cfin)x 28317 cc x lminft360 secMCi secRelease RateXCorrected Iodine TotalReleased (uCi cc )ProcessFlow (cfin)x 28317 ccft3X 1 min60 secjiCi secRelease RateReviewed by:(Chemistry supervision)

Date:Print NameSignature Level of UseContinuous STOP THINKACT REVI EWCP2804MRev. 00277 of 79 Attachment 4Shelf Ratio Calculation (Sheet 1 of 1)In the event that a detector shelf extension tube was required during operation of theComputer Radioisotopic Analysis System, the appropriate shelf ratio must be determined for use in activity level correction calculations.

To determine the shelf ratio, perform thefollowing steps upon completion of the isotopic analysis:

1. REMOVE sample from gamma spectrometer.
2. PLACE a calibration source on the same detector shelf extension tube which wasused for analysis of the sample.3. COUNT calibration source using the following information:
  • Count time: Same as sample's count time* Volume: 1* Geometry:

Particulate filter4. Upon completion of count, REMOVE detector shelf extension tube.5. PLACE calibration source on normal counting shelf.6. With cave door open, COUNT calibration source using the information provided instep 3.NOTEShelf ratio should be calculated to two significant digits only.7. CALCULATE shelf ratio using the following equation and the activity levels obtainedin steps 3 and 6:Total Activity on Normal Counting Shelf (step #6)ShelIf Ratio =Total Activity on Elevated Shelf (step #3)Level of UseContinuous STOP THINKACT "REVIEWCP2804MRev. 00278 of 79 Attachment 5Unit 2 Containment Air Post Accident Sampling Equipment Inventory (Sheet 1 of 1)Equipment Name Required On Hand Ordered1 ml syringe with sideport needle 2500 F1l syringe with sideport needle 25 cc syringe with sideport needle 1Gas collection chamber 1KAMAN sample collector housing 3Mechanical finger tool 1KAMAN reach rod 10.1 cc sample loop for gas chromatograph 1Shielded transport cask for KAMAN collector assemblies 3Shielded transport box for syringes 1Shielded transport container for 14.4 cc vials 2Shielded transport box for stack gas samples 1Transport cart 1Remarks:Date:__________

Signature:

Level of UseContinuous STOP "'THINKACT. REVI EWCP2804MRev. 00279 of 79