L-2002-100, Emergency Plan Implementing Procedures

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Emergency Plan Implementing Procedures
ML021360134
Person / Time
Site: Saint Lucie  NextEra Energy icon.png
Issue date: 05/14/2002
From: Jernigan D
Florida Power & Light Co
To:
Document Control Desk, Office of Nuclear Reactor Regulation
References
L-2002-100
Download: ML021360134 (42)


Text

0FPL Florida Power & Light Company, 6501 South Ocean Drive, Jensen Beach, FL 34957 May 14, 2002 L-2002-1 00 10 CFR 50 Appendix E U. S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, D. C. 20555 Re: St. Lucie Units 1 and 2 Docket Nos. 50-335 and 50-389 Emergency Plan Implementing Procedures In accordance with 10 CFR 50 Appendix E, enclosed is a copy of the revised procedures that implement the Emergency Plan as listed below.

Number Title Revision Implementation Date HP-200 Health Physics Emergency 18 May 6, 2002 Organization HP-206 Analysis of Emergency In-Plant Air 11A May 3, 2002 Samples HP-200 Revision 18 added a requirement to record the names of off-site drivers and the Health Physics Technician (HPT) on the Operational Support Center (OSC) checklist and moved the HPT to the control room. HP-206 Revision 11A corrected wording, numbering, and added "or Ludlum 2200" to Step 1 in Attachment 1.

Plea "con ct us if there are any questions regarding these procedures.

Vice Presid'nFt St. Lucie Plant DEJ/tit Enclosures ADLK an FPL Group company

Procedure No.

ST. LUCIE PLANT HP-200 HEALTH PHYSICS Current Revision No.

PROCEDURE 18 FPL SAFETY RELATED Effective Date 05106102

Title:

HEALTH PHYSICS EMERGENCY ORGANIZATION Responsible Department: HEALTH PHYSICS REVISION

SUMMARY

Revision 18 - Recorded names of off site drivers and HPT on OSC checklist and moved HPT to Control Room. (Don Debock, 04/25/02)

Revision 17 - Changed to reflect the moving of the emergency kits from the SAS to the SSB at the OSC area. (Don Reisinger, 11/12/01)

Revision 16 - Added step to TSC HP Supervisor checklist to assist EC with radiological conditions and evaluations of PARs. Made editorial / administrative changes. (J.R. Walker, 03/22/01)

Revision 15 - Deleted low vol air sample from OSC checklist and included checklist for HPN Communicator. (Don Reisinger, 11/30/99)

Revision 14 - Clarified radiation protection technologist and health physics technician positions. Added EAL triggers to TSCHPS Checklist, OSC relocation threshold dose rate information to HPOSC Checklist and editorial changes. (J. R. Walker, 3/2/99)

' i*V t J

-I Revision FRG Review Date Approved By Approval Date S OPS 02/01/82 J. H. Barrow (for) 02/04/82 DATE 0

Plant General Manager DOCT PROCEDURE I DOCN HP-200 Revision FRG Review Date Approved By Approval Date 04/25/02 Dick Rose 04/25/02 SYS 18 Plant General Manager COM COMPLETED N/A ITM 18 Designated Approver N/A Designated Approver (Minor Correction)

I

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 2 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT TABLE OF CONTENTS SECTION PAGE 1.0 T IT LE ................................................................................................ .. .. . 3 2.0 REVIEW AND APPROVAL ....................................................................... 3 3.0 P UR P O S E ................................................................................................ .. 3 4.0 PRECAUTIONS AND LIMITATIONS ......................................................... 3 5.0 RELATED SYSTEM STATUS ................................................................... 4 6.0 R E FE R E NC ES ........................................................................................... 4 7.0 RECO RDS REQ UIRED .............................................................................. 5 8.0 INST R UC T IO NS ........................................................................................ 6 8.1 Health Physics Emergency Organization ......................................... 6 8.2 On-Shift Health Physics Response To Emergencies ...................... 7 8.3 Health Physics Emergency Operations Areas ................................ 8 8.4 Logistics and S upplies ..................................................................... 9 8.5 Emergency Personnel Exposure Control (HP-201) ....................... 10 8.6 Off-Site and On-Site Environmental Monitoring (HP-202) ............. 11 8.7 Personnel Access Control (HP-203) ............................................. 12 8.8 Radiation and Contamination Surveys (HP-204) ........................... 13 8.9 In-Plant Air Sampling and Counting (HP-205, HP-206) ................. 14 8.10 Personnel Monitoring Following Evacuation (HP-207) ................... 15 8.11 Personnel Decontamination (HP-208) ........................................... 16 CHECKLISTS HP200.1 TECHNICAL SUPPORT CENTER HEALTH PHYSICS SUPERVISOR C HE C K LIS T ..................................................................................... . . 17 HP200.2 HPOSC SUPERVISOR CHECKLIST ............................................... 22 HP 200.3 HPN COMMUNICATOR CHECKLIST ............................................. 25

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 3 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 1.0 TITLE HEALTH PHYSICS EMERGENCY ORGANIZATION 2.0 REVIEW AND APPROVAL See cover page.

3.0 PURPOSE 3.1 This procedure defines areas of responsibility and provides general guidelines for action to be taken by Health Physics Department personnel upon implementation of the St. Lucie Plant Radiological Emergency Plan (E-Plan). It also references those Health Physics (HP) procedures necessary to carry out specific HP activities during a declared radiological emergency (Alert, Site Area Emergency and General Emergency).

4.0 PRECAUTIONS AND LIMITATIONS 4.1 The Health Physics Department is responsible for protecting all personnel from excessive radiological exposures during accident conditions. In order to effectively carry out this responsibility, it is necessary that all HP personnel quickly man their emergency stations and assemble and check their equipment and await directions from the Technical Support Center Health Physics Supervisor (TSCHPS) or his designee.

4.2 The TSCHPS is responsible for the procedures to be implemented and when implementation is to be effected.

4.3 Complete all procedural steps if applicable or indicate as non-applicable by writing N/A in the provided blank.

4.4 When Health Physics normal operating procedures and emergency procedures differ, the emergency procedures take precedence.

4.5 Delegation of duties and watch reliefs shall be authorized only by the TSCHPS or his designee with approval of the Emergency Coordinator.

4.6 It is the responsibility of all personnel to limit their own exposure and to assist others in limiting their exposures.

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 4 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 5.0 RELATED SYSTEM STATUS None

6.0 REFERENCES

NOTE One or more of the following symbols may be used in this procedure:

§ Indicates a Regulatory commitment made by Technical Specifications, Condition of License, Audit, LER, Bulletin, Operating Experience, etc. and shall NOT be revised without Facility Review Group review and Plant General Manager approval.

T Indicates a management directive, vendor recommendation, plant practice or other non-regulatory commitment that should NOT be revised without consultation with the plant staff.

T Indicates a step that requires a sign off on an attachment.

6.1 St. Lucie Plant Radiological Emergency Plan (E-Plan) 6.2 E-Plan Implementing Procedures (EPIP 00-13) 6.3 HP-2, "FP&L Health Physics Manual" 6.4 NRC I&E Information Notice No. 86-97: Emergency Communications System 6.5 HP-201, "Emergency Personnel Exposure Control" 6.6 HP-202, "Environmental Monitoring During Emergencies" 6.7 HP-203, "Personnel Access Control During Emergencies" 6.8 HP-204, "In-Plant Radiation and Contamination Surveys During Emergencies" 6.9 HP-205, "Emergency In-Plant Air Sampling" 6.10 HP-206, "Analysis of Emergency In-Plant Air Samples" 6.11 HP-207, "Monitoring Evacuated Personnel During Emergencies" 6.12 HP-208, "Personnel Decontamination During Emergencies" 6.13 ¶1 PMAI PM97-04-148, OSC Merlins

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 5 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 7.0 RECORDS REQUIRED 7.1 Completed copies of the below listed documents shall be maintained in the plant files in accordance with QI-17-PSL-1, "Quality Assurance Records."

Forms similar to:

1. Form HP200.1, Technical Support Center Health Physics Supervisor Checklist
2. Form HP200.2, Health Physics OSC Supervisor (HPOSC) Checklist
3. Form HP200.3, HPN Communicator Checklist

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 6 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.0 INSTRUCTIONS 8.1 Health Physics Emergency Organization

1. Technical Support Center Health Physics Supervisor (TSCHPS)

The Health Physics (HP) Supervisor or his alternate (see the St. Lucie Plant Emergency Response Directory (ERD)) shall assume duties as the TSCHPS in the Technical Support Center (TSC). He is responsible for all HP activities and reports to the Emergency Coordinator (EC). A TSCHPS Checklist, Form HP-200.1 is provided in this procedure. See Section 8.2 for instructions to be followed prior to activation of the TSC and / or prior to arrival of the TSCHPS.

2. Health Physics OSC Supervisor (HPOSC)

The senior HP Operations Supervisor shall assume duties as the HP Supervisor in the Operational Support Center (HPOSC). He reports to the TSCHPS in the TSC. He is responsible for coordinating all HP activities from the Operational Support Center (OSC). A HPOSC Supervisor Checklist, Form HP-200.2 is provided in this procedure.

3. Health Physics Technical Staff The Health Physics Technical Staff shall report immediately to the TSCHPS for assignment.
4. Health Physics Technician (HPT)

Radiation Protection Technologists (RPTs) assume the role of Health Physics Technicians (HPTs = OSCHP Tech) and shall immediately report to or be in contact with the OSC. They will be assigned duties by the HPOSC.

END OF SECTION 8.1

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18 HEALTH PHYSICS EMERGENCY ORGANIZATION 7 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.2 On-Shift Health Physics Response To Emergencies

1. An Emergency Class declaration of an Alert or higher during off-normal working hours will require additional HP staffing. The senior HP representative on-site will implement the HP emergency procedures. It is expected that this initial period will last for about one hour.
2. The senior HP representative on-site shall notify the Emergency Coordinator and apprise him of HP assistance available on-site. He will take his orders directly from the Emergency Coordinator and should assume his duties in the plant or OSC and not in the TSC unless otherwise directed by the Emergency Coordinator. He should attempt to remain in a position to be reached by the Emergency Coordinator if necessary.
3. Since there will be only limited health physics coverage available, it is very important for the senior HP representative on-site to discuss with the Emergency Coordinator (or his designee) the coverage which each feels is necessary and to prioritize that coverage. The following list may be used to assist in the decision of assigning priorities: (in order of preference)

A. Radiological coverage necessary to allow expedient entry to areas when required to place the plant in a safe condition B. Treatment of contaminated personnel C. Radiological coverage during high activity sampling D. Preparations for extensive in-plant monitoring and surveillance

4. When the additional HP support arrives, the initial period will have passed.

In order to maintain continuity and to effect a smooth transfer from the interim to the fully staffed mode it is necessary that the HP command function not change hands more than is absolutely necessary. Therefore, even though the senior HP representative on-site can be relieved by a more senior Technologist or Supervisor, he should not be relieved by anyone except the HP Supervisor or his alternate.

HP personnel shall report to the OSC when they arrive on-site and should contact the senior HP representative on-site for assignments.

5. The senior HP representative on-site shall initiate the TSCHPS's Checklist, Form HP-200.1.

END OF SECTION 8.2

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 8 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.3 Health Physics Emergency Operations Areas

1. Operations HP personnel will assemble in and work out of the OSC. HP Technical Staff personnel will assemble and work primarily in the TSC.
2. The TSCHPS will determine if the affected unit Reactor Auxiliary Building (RAB) Control Point is to be manned and will inform the EC and the HPOSC.
3. If the affected unit RAB Control Point becomes untenable, the TSCHPS will direct the HPOSC to man the RAB Control Point of the unaffected unit or designate an alternate Control Point. The TSCHPS will inform the EC of the alternate location.

END OF SECTION 8.3

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 9 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.4 Logistics and Supplies

1. Records and logs specified in the specific HP emergency procedures shall be kept up to date and shall be reviewed by the TSCHPS.
2. Emergency radiation protection supplies are located for use in the following places:

A. RAB Control Points (Unit 1 & Unit 2)

B. Operational Support Center (OSC)

C. Site Assembly Station (SAS)

D. Unit 1 Control Room (for use by TSC and Unit 1 C.R. personnel)

E. Unit 2 Control Room

3. The HPOSC will ensure that materials and equipment are provided to operating areas as needed.

END OF SECTION 8.4

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18 HEALTH PHYSICS EMERGENCY ORGANIZATION 10of25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.5 Emergency Personnel Exposure Control (HP-201)

1. The TSCHPS shall ensure that all personnel on-site during emergency operations wear proper dosimetry. He shall determine when special dosimetry is required.
2. The HPTs through the HPOSC will provide radiological surveys and / or coverage for all areas in which personnel access is required.
3. If personnel exposures are likely to exceed plant guidelines, the guidelines in Health Physics Procedure HP-201, "Emergency Personnel Exposure Control," shall be followed.
4. All personnel exposures during emergency operations will be maintained As Low As Reasonably Achievable - ALARA.

END OF SECTION 8.5

REVISION NO.: PROCEDURE TITLE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.6 Off-Site and On-Site Environmental Monitoring (HP-202)

1. The Emergency Coordinator is responsible for ensuring that the TSCHPS initiates off-site radiological monitoring, in accordance with the E-Plan, within a 10 mile radius of the plant. Off-site field monitoring activities will be coordinated with the State of Florida.
2. The TSCHPS will direct the HPOSC to dispatch the Field Monitoring Teams to the East parking lot to wait instructions from TSC.

NOTE If the Field Monitoring Team communicator / control has not been activated, the Field Monitoring Teams should make contact with the OSC and report their status.

3. The Field Monitoring Teams will assemble their equipment, check it for operability and establish contact with the TSC. The TSCHPS in the TSC provides supervision for the Field Monitoring Teams as per EPIP-10, "Off-site Radiological Monitoring," and HP-202, "Environmental Monitoring During Emergencies."

END OF SECTION 8.6

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18 HEALTH PHYSICS EMERGENCY ORGANIZATION 12 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.7 Personnel Access Control (HP-203)

1. No re-entry into areas affected by the emergency shall be made unless authorized by the Emergency Coordinator.
2. The initial entry of the Re-entry Team and all subsequent entries, until radiation areas have been properly marked, shall take place under the supervision of the TSCHPS as per EPIP-05, "Activation and Operation of the Operational Support Center."
3. Following re-entry procedures, the TSCHPS will direct the HPOSC to establish the access control point(s). The HPTs shall maintain access control to all affected areas of the plant for the purpose of controlling personnel exposures as per HP-203, "Personnel Access Control During Emergencies."

END OF SECTION 8.7

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 13 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.8 Radiation and Contamination Surveys (HP-204)

NOTE In the event of a Steam Generator Tube Rupture (SGTR), the following areas should initially be posted as contaminated:

A. Steam Trestle B. Condenser Air Ejector C. Condensate Polisher

1. The Emergency Coordinator and TSCHPS will determine the extent of surveys required.
2. The TSCHPS will direct the HPOSC to establish survey teams utilizing the buddy system. The HPOSC will direct the conduct of all in-plant surveys, ensure data is properly recorded and posted and keep the TSCHPS informed of the results.
3. Surveillance for emergency situation shall include as a minimum:

A. Radiation surveys B. Contamination surveys C. Airborne activity surveys D. Radiological monitoring of potentially high activity chemistry sample operations E. Surveys as called for in the Emergency Operating Procedures (EOPs).

F. Special surveys as determined by the TSCHPS.

END OF SECTION 8.8

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18 HEALTH PHYSICS EMERGENCY ORGANIZATION 14 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.9 In-Plant Air Sampling and Counting (HP-205, HP-206)

1. During an emergency, higher than normal radiation levels and airborne concentrations can be expected. It is important that sampling be commenced as expeditiously as possible to support rapid re-entry if necessary.
2. All in-plant air sampling will be performed in such a manner as to ensure personnel exposures are ALARA.
3. The procedures HP-205, "Emergency In-Plant Air Sampling" and HP-206, "Analysis of Emergency In-Plant Air Samples," should be followed in sampling and analyzing samples.

END OF SECTION 8.9

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18 HEALTH PHYSICS EMERGENCY ORGANIZATION 15 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.10 Personnel Monitoring Following Evacuation (HP-207)

1. In the event it becomes necessary to evacuate personnel from the plant and a release has occurred or is in progress, check points will be established immediately to allow monitoring of these personnel. The check points will be at Jaycee Park, unless alternate routes and assembly locations are specified by the EC.

END OF SECTION 8.10

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 16 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT 8.11 Personnel Decontamination (HP-208)

1. Personnel decontamination following an accident can pose special problems not encountered in everyday situations including extremely high levels of contamination and / or large numbers of personnel being contaminated at the same time.
2. Personnel decontamination at the Off-site Assembly Area will be under the cognizance of the TSCHPS and will be directed by his designee at that area. HP-208, "Personnel Decontamination During Emergencies,"

addresses off-site personnel decontamination.

3. Personnel decontamination on-site will be under the direction of the HPOSC and should be conducted in the hot shower area of the unaffected unit or at a location specified by the TSCHPS.

END OF SECTION 8.11

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18 HEALTH PHYSICS EMERGENCY ORGANIZATION 17 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT HP200.1 TECHNICAL SUPPORT CENTER HEALTH PHYSICS SUPERVISOR CHECKLIST (Page 1 of 5)

INITIAL

1. Contact the OSC and assess available HP resources on site:

A. TSC HP Network Communicator Field Monitoring Team Communicator B. OSC Number of HP Techs Number of Dosimetry Techs Number of Utility Workers HPOSC Supervisor C. Number of HPTs assigned to Unit 1 Control Room D. Number of HPTs assigned to Unit 2 Control Room

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 18 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT HP200.1 TECHNICAL SUPPORT CENTER HEALTH PHYSICS SUPERVISOR CHECKLIST (Page 2 of 5)

INITIAL CAUTION Be aware of the following conditions. These Emergency Action Levels (EALs) are associated with Initiating Conditions (ICs) used in the classification of emergencies (EPIP-01, Classification of Emergencies) the Emergency Coordinator needs to know if any of these conditions exist.

1. Measured dose rates from off-site surveys at the site boundary (1 mile) exceed either of the following:
a. 1000 mrem / hr (total dose rate)
b. 5000 mrem / hr (thyroid dose rate)
2. Contact Emergency Coordinator (EC A. Inform EC of HP Department status in the TSC and OSC.

B. Determine and prioritize immediate HP coverage needs:

Priority Job / Location # HPs Required C. Event Classification Date / Time

1. UNUSUAL EVENT /
2. ALERT ____________/__
3. SITE AREA EMERGENCY I
4. GENERAL EMERGENCY __________/ __

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 19 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT HP200.1 TECHNICAL SUPPORT CENTER HEALTH PHYSICS SUPERVISOR CHECKLIST (Page 3 of 5)

INITIAL

3. OSC Considerations A. Establish communications with the OSC (if activated).--..

B. Appoint HPOSC Supervisor Name:.

Phone:

C. Inform HPOSC to complete HPOSC Checklist HP-200.2.

D. Exchange information on plant status, event classification, available personnel and prioritize jobs requiring HP coverage.

Also, discuss planning strategies and personnel allocations.

E. Direct HPOSC to dispatch Field Monitoring Teams according to the following classification schedule:

ALERT - On-site, out of plant - 1 Team (RED)

SITE AREA OR - On-site, out of plant - 1 Team (RED)

GENERAL EMERGENCY and off-site - 2 Teams (ORANGE, BLUE)

NOTE It is possible for the TSC and OSC to be in operation for weeks following a plant accident. It is the TSCHPS responsibility to determine when to activate frisking stations for those facilities and the locations of those stations. Once frisking is initiated all personnel entering these facilities shall be monitored for contamination.

F. Direct HPOSC to establish RCA / RAB access control points if portions of the RCA were evacuated or RAB re-entry is planned.

CONTROL POINT LOCATIONS G. If a Site Evacuation has been ordered and a release has occurred or is in progress, direct the HPOSC to dispatch two HPTs to the Off-Site Assembly Area to monitor the evacuees.

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 20 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT HP200.1 TECHNICAL SUPPORT CENTER HEALTH PHYSICS SUPERVISOR CHECKLIST (Page 4 of 5)

3. (continued) INITIAL H. If additional HP personnel resources may be needed, consider requesting assistance through:

- PTN Industry (through INPO)

Department of Energy (through NRC)

4. TSC Considerations A. In conjunction with the TSC Chemistry Supervisor, advise the EC and / or TSC EC Assist / Logkeeper on radiological conditions and Protective Action Recommendations, as necessary.

B. Assign person to continuously man the Health Physics Network (HPN) phone.

(Ref. I&E Notice 86-97)

C. Contact the TSC Chemistry Supervisor to determine if accident samples are required (yes / no).

D. Assign person to direct field monitoring teams and evaluate the data as it becomes available.

E. Confer with chemistry and / or the EOF on dose projections and effected EPZ sectors.

F. Establish communications between the TSC Field Monitoring Team and the EOF Field Monitoring Coordinator (when activated).

1. Exchange names and phone numbers Name(s) ----- Phone #
2. Relay field monitoring results as available.

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 21 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT HP200.1 TECHNICAL SUPPORT CENTER HEALTH PHYSICS SUPERVISOR CHECKLIST (Page 5 of 5)

4. (continued) INITIAL G. Direct that habitability surveys of the following areas are performed.

1

  • Control Room No. 1
2.
  • Control Room No. 2
3.
4. OSC
5. RAB Control Points (if inhabited)
  • Surveys of TSC and Control Rooms should be completed by personnel assigned to those areas.
5. Additional Comments by TSCHPS:

Completed by:

Date Completed: / /

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 22 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT HP200.2 HPOSC SUPERVISOR CHECKLIST (Page 1 of 3)

INITIAL

1. Perform accountability of HPTs and provide to OSC Supervisor:

A. Account for HPTs sent to Control Rooms prior to activation.

Unit 1 (Name)

Unit 2 (Name)

NOTE Consult the Radiation Exposure Summary Report for selection of respirator qualified field monitoring team members.

2. Dispatch on-site Field Monitoring Team to East parking lot when directed by TSCHPS.

1 HPT, 1 driver and vehicle.

A. HPT (Name)

Driver (Name)

3. Dispatch off-site Field Monitoring Teams to East parking lot when directed by TSCHPS.

2 HPTs, 2 drivers, 2 vehicles.

A. HPT (Name)

Driver (Name)

B. HPT (Name)

Driver (Name)

4. If RCA is NOT EVACUATED start preparations for accumulating supplies and instruments in the event of RCA evacuation.
5. If RCA is NOT EVACUATED perform necessary job coverage for OPS or maintenance personnel attempting to mitigate the problem.

02

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18 HEALTH PHYSICS EMERGENCY ORGANIZATION 23 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT HP200.2 HPOSC SUPERVISOR CHECKLIST (Page 2 of 3)

INITIAL

6. If RCA evacuation is necessary, perform the following:

A. Remove Instruments to OSC.

B. ¶i Take boxes of Electronic Dosimeters from RAB entrance stations to OSC.

C. Determine H.P. Personnel available in OSC Report to the TSCHPS and OSC Supervisor.

D. Establish OSC access control points(s).

E. Establish Dosimetry Section in OSC.

F. Establish Contamination Control for OSC.

G. Inform TSCHPS.

H. Setup a Continuous Monitoring Count Rate Meter In OSC.

CAUTION The OSC affords limited protection against a release of radioactive material.

During the time that a radioactive release is occurring, the habitability of the OSC is to be monitored. A measured dose rate of 50 mrem / hr, in the facility, is established as the threshold for relocation of the OSC.

I. Perform habitability surveys of the OSC and, if inhabited, RAB Control Point and provide survey results to TSCHPS.

7. If directed by the TSCHPS, dispatch two HPTs to the offsite assembly area:

Name: Dispatch Time:______

Name: Dispatch Time:

8. Ensure all Reentry Teams are adequately briefed in accordance with HP-203.1 prior to being dispatched from the OSC.

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 24 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT HP200.2 HPOSC SUPERVISOR CHECKLIST (Page 3 of 3)

INITIAL

9. Advise and assist the OSC Supervisor as necessary in actions to mitigate accident.
10. HPOSC Supervisor Comments:

Completed by:---

Date Completed: / /

NOTE File this Checklist in accordance with QI-17-PSL-1, "Quality Assurance Records."

REVISION NO.: PROCEDURE TITLE: PAGE:

18 HEALTH PHYSICS EMERGENCY ORGANIZATION 25 of 25 PROCEDURE NO.:

HP-200 ST. LUCIE PLANT HP 200.3 HPN COMMUNICATOR CHECKLIST (Page 1 of 1)

INITIAL

1. Report / Sign in / Obtain ID Badge.
2. Get status from TSC HPS.
3. Get HP supply case & procedures.

NOTE Typical HPN Questions:

A. Meteorological Data B. Release data C. Plant radiological inquiries D. Field team data

4. Activate HPN phone:

A. Call NRC - Identify self & activity.

B. Request to be coupled to the HPN bridge network.

5. Review ERDADS (Plant Rad Monitor Data).
6. Review off-site Dose Rad Assessment Board.
7. Review off-site monitoring field team status board.
8. Provide data to TSC HPS.
9. Assist TSC HPS as needed (dispense dosimetry, set-up air monitor, TSC Rad Surveys, provide rad monitor data, etc.).
10. Assist Field Monitoring Team (FMT) Coordinator as needed.

Procedure No.

ST. LUCIE PLANT HP-206 HEALTH PHYSICS Current Revision No.

PROCEDURE 11A FP L SAFETY RELATED Effective Date 05/03102

Title:

ANALYSIS OF EMERGENCY IN-PLANT AIR SAMPLES Responsible Department: HEALTH PHYSICS REVISION

SUMMARY

Revision 11 A - Corrected closes to closest in a couple of steps, corrected numbering and added "or Ludlum 2200" to Step 1 in Attachment 1. (Bruce Somers, 05/01/02)

Revision 11 - THIS PROCEDURE HAS BEEN COMPLETELY REWRITTEN. Made changes for clarification and better guidance. (Don Reisinger, 09/28/00)

Revision FRG Review Date Approved By Approval Date S OPS 0 02/01/82 J. H. Barrow (for) 02/04/82 DATE Plant General Manager DOCT PROCEDURE Revision FRG Review Date Approved By Approval Date DOCN HP-206 11A 09/28/00 R. G. West 09/28/00 SYS Plant General Manager COM COMPLETED N/A ITM 11A Designated Approver G. A. Bird 05/01/02 Designated Approver (Minor Correction)

REVISION NO.: PROCEDURE TITLE: PAGE:

11A ANALYSIS OF EMERGENCY IN-PLANT AIR 2 of 16 PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT TABLE OF CONTENTS SECTION PAGE 1.0 T IT LE .............................................................................................................. 3 2.0 REVIEW AND APPROVAL ....................................................................... 3 3 .0 P UR P OS E ................................................................................................ .. 3 4.0 PRECAUTIONS AND LIM ITS .................................................................. 3 5.0 RELATED SYSTEM STATUS ................................................................... 4 6.0 R E FE R E NC E S ........................................................................................... 4 7.0 RECO RDS REQ UIRED .............................................................................. 5 8.0 INST R UC T IO N S ........................................................................................ 6 ATTACHMENTS ATTACHMENT 1 RADIOIODINE CARTRIDGE ANALYSIS .............................. 8 ATTACHMENT 2 PARTICULATE FILTER ANALYSIS ................................... 11 ATTACHMENT 3 NOBLE GAS ANALYSIS USING A DOSE RATE METHOD ... 13 FORMS FORM HP-206.1 EMERGENCY AIR SAMPLE DATA SHEET .......................... 15 FORM HP-206.2 EMERGENCY AIR SAMPLE LOG ......................................... 16

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR 3 of 16 PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT 1.0 TITLE ANALYSIS OF EMERGENCY IN-PLANT AIR SAMPLES 2.0 REVIEW AND APPROVAL See cover page.

3.0 PURPOSE 3.1 This procedure provides instructions for the analysis of in-plant air samples collected during emergencies.

3.2 This procedure is used in-lieu of HPP-22, Air Sampling.

3.3 This procedure provides methods to estimate airborne activity if the sample exceeds the capabilities of the multichannel analyzer.

3.4 This procedure implements Technical Specification 6.8.4.b.ii.

4.0 PRECAUTIONS AND LIMITS 4.1 Contaminated AgX cartridges shall not be dispose of as Rad-Waste, until it is determined that they are not considered Mixed Waste.

4.2 Dose rates from iodine sample cartridges, particulate filters, and gas Marinelli's may be such that shielding of the samples will be required prior to and following analysis.

4.3 Samples collected during an emergency can become a source of spreadable contamination, especially filters and iodine cartridges.

4.4 The HPOSC should direct that analysis of in-plant air samples be performed in the Health Physics count room on the unaffected unit. If this count room should become untenable, the analysis of air samples should be moved to the OSC.

4.5 This procedure is limited to in-plant air sample analysis. Refer to Health Physics Procedure HP-202, "Environmental Monitoring During Emergencies" for instructions on off-site monitoring and analysis.

4.6 Analysis of air samples shall be performed in accordance with the normal Health Physics operating procedures HPP-10, "Multichannel Analyzers" utilizing the guidelines indicated in this procedure for high activity samples.

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR 4 of 16 PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT 5.0 RELATED SYSTEM STATUS NONE

6.0 REFERENCES

NOTE One or more of the following symbols may be used in this procedure:

§ Indicates a Regulatory commitment made by Technical Specifications, Condition of License, Audit, LER, Bulletin, Operating Experience, etc. and shall NOT be revised without Facility Review Group review and Plant General Manager approval.

T Indicates a management directive, vendor recommendation, plant practice or other non-regulatory commitment that should NOT be revised without consultation with the plant staff.

_T Indicates a step that requires a sign off on an attachment.

6.1 Technical Specifications

  • §1 Section 12.5.3 6.3 Procedures 0 HP-202, "Environmental Monitoring During Emergencies" 0 HP-205, "Emergency In-Plant Air Sampling" 0 HPP-10, "Multichannel Analyzers" 0 HPP-34, Estimating Skin Dose Equivalent From Noble Gas Cloud Exposure 6.4 St. Lucie Plant Radiological Emergency Plan (E-Plan) 6.5 E-Plan Implementing Procedures (EPIPs) 6.6 NUREG 0737, 111 D.3.3, Improved In-Plant Iodine Monitoring

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR 5 of 16 PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT 7.0 RECORDS REQUIRED 7.1 The following completed documents shall be filed in accordance with QI-1 7-PSL-1, "Quality Assurance Records":

1. Form HP-206.1, Emergency Air Sample Data Sheet
2. Form HP-206.2, Emergency Air Sample Log
3. Source of results, as applicable:

A. Hp-Ge printouts, if system used B. Attachments 1, 2 and / or 3, as used

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR 6 of 16 PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT 8.0 INSTRUCTIONS 8.1 Perform radiation survey of each air sample when it is received.

1. Place samples with >5 mr/hr dose rates in a shielded location to reduce personnel exposure and high backgrounds on the counting systems.
2. Place the air sample in a controlled surface contamination area until the sample can be counted.

8.2 Initiate an entry in the Emergency Air Sample Log, Form HP-206.2.

8.3 Initiate the Emergency Air Sample Data Sheet, Form HP-206.1.

8.4 §1 Using a high volume air sampler, purge the AgX or charcoal cartridges for 5 minutes at a flow rate of 2 cfm to remove unwanted noble gases.

1. Do not purge gases in the vicinity of counting equipment.

8.5 Complete the volume calculations on the Form HP-206.1.

1. This step may be completed while the sample is being counted.

8.6 Attempt to analyze the sample using the HpGe - MCA System.

1. Refer to HPP-1 0, "Multichannel Analyzers" for guidance on operating the HpGe- MCA System.
2. Iodine cartridges or particulate filters are counted on the upper counting shelf.
3. The Gas sample marinelli flask is counted in the normal position for the flask.
4. Count the sample for 300 seconds.
5. Observe the MCA "Dead Time" indicator.
6. If dead time is greater than 20%, Then stop this analysis and:

A. For iodine cartridges, go to Attachment 1, B. For particulate filters, go to Attachment 2, C. For noble gas samples, go to Attachment 3.

7. When the sample has been counted, review the output analysis report.

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR 7 of 16 "PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT 8.6 Attempt to analyze the sample using the HpGe - MCA System (continued)

8. For noble gas samples, calculate the skin dose rate using HPP-34, Estimating Skin Dose Equivalent From Noble Gas Cloud Exposure.

8.7 Enter the results of the Sample analysis on the Emergency Air Sample Data Sheet, Form HP-206.1.

1. The method is "Lab" if results based on lab analysis (i.e., MCA/Ge).
2. The method is "Est" if results estimated using frisker / survey meter methods.

8.8 Enter the results of the sample analysis on the Emergency Air Sample Log, Form HP-206.2.

8.9 Report the results of the air sample to the HPOSC.

8.10 Attach the MCA/Ge output reports and / or attachments used to Form HP-206.1.

NOTE Do NOT dispose of contaminated AgX cartridges as Rad&Waste, they are treated as Mixed Waste.

8.11 When the air sample analysis has been completed, ensure the samples are properly labeled and place the sample in a secure location to prevent loss of the sample.

END OF INSTRUCTIONS SECTION

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR 8 of 16 PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT ATTACHMENT 1 RADIOIODINE CARTRIDGE ANALYSIS (Page 1 of 3)

From the HP-206.1 from, enter the Sample #E- Sample Volume - ___ ml

1. Analyze the Iodine Cartridge using the Ludlum 2218 or Ludlum 2200 Analysis system following the guidance in HP-202.

A. Count background for 5 minutes, enter results: (bckg)

B. Count cartridge for 5 minutes, enter results: (gross)

C. If the gross count rate exceeds 400,000 cpm, Then stop this analysis and proceed to step 2 of this attachment.

D. Calculate net counts (gross-bckg), enter results: (net)

E. Calculate net count rate (net/5), enter results: (ncpm)

F. The cartridge capture efficiency, CCE = 0.85 G. If sampling flow rate was > 2 cfm or > 50 Ipm, Then the CCE = 0.65 H. Calculate 1-131 activity I - 131, /tCi/ml - (ncpm)

(_ sample volume, ml) x (_ CCE) x 1.09 E + 5 1-131, pCi/mI =

I. In the table below, "Time" is Hours since Reactor Trip to Count Time. Circle Factor for the closest "Time".

Time Factor Time Factor Time Factor 1 1.48 6 1.39 20 1.24 2 1.46 7 1.38 25 1.20 3 1.44 8 1.36 30 1.17 4 1.42 10 1.34 35 1.15 5 1.41 15 1.28 40 1.13 J. Estimate the 1-131 Dose Equivalent concentration (1-131 Deq) 1-131 Deq = 1-131 pCi/ml x Deq Factor 1-131 Deq = pCi/ml

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR 9 of 16 PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT ATTACHMENT 1 RADIOIODINE CARTRIDGE ANALYSIS (Page 2 of 3)

1. (continued)

K. Estimated DAC = pCi/mI 1-131 Deq 2.0 E-08 pCi/ml DAC=

L. Enter results on Form HP-206.1.

2. Radioiodine Analysis using a Dose Rate survey meter A. In a low dose rate area, using an RO-2, or equivalent survey meter with beta window closed, get a "background" dose rate reading: mr/hr B. Enter the dose rate at 1' from the cartridge: gross mr/hr C. Calculate the new (gross-background): net mr/hr D. In the table below, "Time" is Hours since Reactor Trip to Cont Time. Circle the "Factor" for the closest "Time".

Time Factor Time Factor Time Factor 1 146 6 184 20 261 2 153 7 191 25 281 3 161 8 197 30 299 4 169 10 210 35 315 5 176 15 237 40 328 Circle the weighted DAC for the same "Time" used above Time DAC Time DAC Time DAC 1 3.9 E-6 6 5.2 E-7 20 1.5 E-7 2 2.4 E-6 7 4.2 E-7 25 1.2 E-7 3 1.5 E-6 8 3.5 E-7 30 9.5 E-8 4 9.7 E-7 10 2.8 E-7 35 8.1 E-8 5 6.8 E-7 15 1.9 E-7 40 7.0 E-8

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT ATTACHMENT I RADIQIODINE CARTRIDGE ANALYSIS (Page 3 of 3)

2. (continued)

E. Estimate the gross iodine activity in the cartridge:

net mr/hr x Factor Gross Iodine activity, utCi/ml = - _

- sample volume, ml Gross Iodine activity = pCi/ml Estimated DAC =- Ci/ml, Gross Iodine activity

_ weighted DAC circled above DAC =

3. Enter results on form HP-206.1.

END OF ATTACHMENT I

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR 11 of 16 PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT ATTACHMENT 2 PARTICULATE FILTER ANALYSIS (Page 1 of 2)

1. From the HP-206.1 form, enter the Sample #E-____ Sample Volume = ml
2. Analyze the particulate filter using a Scaler and G.M. Detector system.

A. Perform a background (BKG) count and determine the background count rate (bcpm).

bcpm = _BKG Counts/ __ count time, min. = bcpm B. Position the filter in the Scaler and G.M. Detector system, count the sample and determine the gross count rate (GCPM).

GCPM = -- gross counts/ count time, min. = GCPM C. If GCPM > 3.0 E+5 cpm, Then end this method and proceed to step 3.

D. If GCPM > 30,000 cpm, Then correct for dead time: calculate the True GCPM (TGCPM).

GCPM TGCPM - - - TGCPM 1-(_ GCPMx1.67E-06)

E. Determine the Net Count Rate (ncpm).

ncpm = (GCPM or TGCPM) minus ____ bcpm NCPM =

F. Estimate the Particulate Activity.

NCPM NCPM Particulate/.tCi/ml=

(_ sample volume, ml) x 2.22E +05 Particulate pCi/ml = -- pCi/ml G. Go to step 4 of this attachment.

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR 12 of 16 PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT ATTACHMENT 2 PARTICULATE FILTER ANALYSIS (Page 2 of 2)

3. Analyze the particulate filter using a Dose Rate survey meter.

A. In a low dose rate area, using an RO-2, or equivalent survey meter with beta window closed, read the background.

Bckg -_ -_ mr/hr B. Position the filter at six inches from the survey meter with the beta window closed, get a dose rate reading the filter.

Gross mr/hr C. Calculate net mr/hr (gross minus bckg): net mr/hr D. Estimate the Particulate Activity:

Particulate Ci/mi =net mr/hr x 70 1uCi per mr/hr sample volume, ml

4. Estimate the DAC DAC = ____ pCi/ml I particulates 3.0 E-09 pCi/ml DAC =
5. Enter results on form HP-206.1.

END OF ATTACHMENT 2

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR 13 of 16 PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT ATTACHMENT 3 NOBLE GAS ANALYSIS USING A DOSE RATE METHOD (Page 1 of 2)

1. From the HP-206.1 form, enter the Sample #E- Sample Volume = ml
2. In a low dose rate area, using an RO-2, or equivalent survey meter with beta window closed, get the following readings:

A. A "background reading": mr/hr B. A dose rate reading at 1 foot from the side of the marinelli beaker:

mr/hr

3. Calculate the net exposure: (above, B minus A): net mr/hr
4. In the table below, "Time" is Hours since Reactor Trip to Count Time. Circle the "Factor" for the closest "Time".

Time Factor Time Factor Time Factor 1 368 6 912 20 1970 2 479 7 1020 25 2250 3 584 8 1120 30 2520 4 692 10 1300 35 2760 5 802 15 1660 40 2970

5. Circle the Skin Dose Factor (SDF) for the same "Time" used above.

Time SDF Time SDF Time SDF 1 2.2 E+5 6 1.2 E+5 20 6.9 E+4 2 1.8 E+5 7 1.1 E+5 25 6.1 E+4 3 1.5 E+5 8 1.0 E+5 30 5.4 E+4 4 1.4 E+5 10 9.5 E+4 35 4.9 E+4 5 1.3 E+5 15 8.0 E+4 40 4.6 E+4o

6. See below:

net mr/hr x Factor Estimated noble gas activity,,uCi/ml

_ Sample vol. ml Noble gas activity pCi/ml

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT

____________________________ I ATTACHMENT 3 NOBLE GAS ANALYSIS USING A DOSE RATE METHOD (Page 2 of 2)

7. Estimated skin dose rate, mr/hr = noble gas activity x SDF Skin dose rate mr/hr
8. Enter results on form HP-206.1.

END OF ATTACHMENT 3

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR PROCEDURE NO.: SAMPLES HP-206 ST. LUCIE PLANT FORM HP-206.1 EMERGENCY AIR SAMPLE DATA SHEET (Page 1 of 1)

Date: / I Time: Air Sample #: E Location of A/S:

Task Performed:

Sampled By:

Air Sampler Type: Ser. #: Cal. Due:

A/S Start Time: A/S End Time: Total Time: min Noble Gas Sample Volume: _ ml Particulate / Iodine Sample Volume - CFM flow rates Start flow rate End flow rate Avg Flow Rate = Start + End = cfm 2

Vol = Avg Flow cfm X min X 2.83E4 ml/Cu. Ft. =_ml.

Particulate / Iodine Sample Volume - LPM flow rates Start flow rate End flow rate .... Avg Flow Rate = Start + End = Ipm 2

Vol = Avg Flow - - Ipm X minXm1000ml/l = _ ml ANALYSIS RESULTS Method DAC pCi/ml mRad/hr Radioiodines Particulates Noble Gas (1) Method = "Lab" if results based on lab analysis (i.e., MCA/Ge)

= "Est" if results estimated using frisker I survey meter methods.

I- -

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11A ANALYSIS OF EMERGENCY IN-PLANT AIR SAMPLES PROCEDURE NO.:

HP-206 ST. LUCIE PLANT I

FORM HP-206.2 EMERGENCY AIR SAMPLE LOG (Page 1 of 1)

Results - See footnote Sample Location of Sample Sample Sampling Task or Team # Iodine Particulate Noble Gas Noble Gas pCi/cm 3 Time Technician DAC DAC mRad/Hr Number E

E E

E E

E E

E E

E E

E E

E E

E E-If the result is based on MCA-HpGe, Then preceed the value with an "L" If the result is estimated using alternate methods, Then preceed the value with an "E"