Emergency Plan Implementing Procedure Revisions

ML993470139
Person / Time
Site:	Oyster Creek
Issue date:	12/03/1999
From:	Levin S GPU Nuclear Corp
To:	NRC/OCIO/IMD/RMB
References
-RFPFR
Download: ML993470139 (75)
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T (N U NUCLEAR GPU Nuclear, Inc.

U.S. Route #9 South Post Office Box 388 Forked River, NJ 08731-0388 Tel 609-971-4000 December 3, 1999 1940-99-20630 U.S. Nuclear Regulatory Commission Attention: Document Control Desk Washington, D.C. 20555

Dear Sir:

Subject:

Oyster Creek Nuclear Generating Station Docket No. 50-219 Emergency Plan Implementing Procedure Revisions In accordance with 10 CFR 50, Appendix E, Section V, enclosed is the newly revised Index for the Oyster Creek Emergency Plan Implementing Procedures and the below listed procedures.

Procedure Number Title Revision EPIP-OC-. 11 Emergency Radiological Surveys Offsite 13 EPIP-OC-.33 Core Damage Estimation 4 If further information is required, please contact Mr. George Busch, Manager Nuclear Safety and Licensing at 609 971-4643.

Very truly yours, Sander Levin Acting Site Director MBR\GWB:gl Enclosures cc: Administrator, Region I NRC Project Manager NRC Resident Inspector IRocL PCC ecj c

Page 1 of 1 11/29/99 EPIP SERIES - EMERGENCY PLAN IMPLEMENTING PROCEDURES PROCEDURE NO. TITLE REV. NO. DATE EPIP-OC-.01 Classification of Emergency Conditions 6 06/03/99 EPIP-OC-.02 Direction of Emergency Response/Emergency Control Center 24 11/11/99 EPIP-OC-.03 Emergency Notification 23 06/03/99 EPIP-OC-.06 Additional Assistance and Notification 21 09/03/99 EPIP-OC-. 10 Emergency Radiological Surveys Onsite 8 11/15/99 EPIP-OC-. 11 Emergency Radiological Surveys Offsite 13 11/22/99 EPIP-OC-. 12 Personnel Accountability 7 02/21/99 EPIP-OC-. 13 Site Evacuation and Personnel Mustering at Remote Assembly Areas 6 11/10/97 EPIP-OC-.25 Emergency Operations Facility (EOF) 21 07/01/99 EPIP-OC-.26 The Technical Support Center 20 11/14/99 EPIP-OC-.27 The Operations Support Center 8 11/11/99 EPIP-OC-.31 Environmental Assessment Command Center 10 03/08/98 EPIP-OC-.33 Core Damage Estimation 4 12/03/99 EPIP-OC-.35 Radiological Controls Emergency Actions 13 07/11/99 EPIP-OC-.40 Site Security Emergency Actions 9 10/04/99 EPIP-OC-.41 Emergency Duty Roster Activation 4 06/21/97 EPIP-OC-.44 Thyroid Blocking 0 03/11/99 EPIP-OC-.45 Classified Emergency Termination/Recovery 0 02/21/99 OEP-ADM-1311.03 Emergency Preparedness Section Administration 3 08/28/99 OEP-ADM-1319.01 Oyster Creek Emergency Preparedness Program 6 05/15/99 OEP-ADM-1319.02 Emergency Response Facilities & Equipment Maintenance 6 09/03/99 OEP-ADM-1319.04 Prompt Notification System 1 05/02/97 OEP-ADM-1319.05 Oyster Creek Emergency Preparedness Program 0 02/20/99

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 Applicability/Scope Responsible Office Applies to work at Oyster Creek Emergency Preparedness This document is within QA Plan scope X Yes No Effective Date Safety Reviews required X Yes No (11/12/99) 11/22/99 Prior Revision 12 incorporated the This Revision 13 incorporates the following Temporary Changes: following Temporary Changes:

N/A N/A List of Pages (all pgs rev'd to Rev. 13) 1.0 to 5.0 E1-1 to E1-2 E2-1 to E2-7 E3-1 E4-1 E5-1 E6-1 to E6-2 E7-1 E8-1 to E8-2 E9-1 to E9-2 El0-1 to E10-2 Ell-1 to Ell-13 E12 -1 E13-1 to E13-3 E14 -1 E15-1 E16-1 NON-CONTROLLED E17-1 El71THIS DOCUMENT WILL NOT BE KEPT UP TO DATE IRMC OYSTER CREEK e Concurring Organizational Element Date Originator -Emeency Planner A///

Concurred By Rad. Controls/Safety Dir., OC /1/ 99

_____________ Manager, Environmental Affairs 7 Approved lEmergency Preparedness Manager, OC

.By I ,6'

____2-___

I I I (EPIPII) 1.0

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC- .11 NLPU NCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 PROCEDURE HISTORY REV. DATE ORIGINATOR

SUMMARY

OF CHANGE 4 A.T. Smith Delete Parsippany Field Monitoring Team and Add Document History Page 5 12/94 A.T. -Smith Define RAC &-EAC-Acronyms pg. 4.0.

Delete Reference to PTFC pg. 5.0.

Clarify dosimetry pg. E2-1.

Clarify Plume search directions.

Remove names at locations in Exhibit 12.

Clarify Dose Rate Survey Open and Closed readings.

6 09/95 J. Bontempo Use cellular phones as primary communications for FMTs.

7 12/95 J. Bontempo Add cell phones to activation checklist for FMTs.

Delete Parsippany FMT. Correct typo.

8 10/96 J. Bontempo Delete initial block for repetitive tasks.

Rearrange order of task in E1-1.

Delete term Team Leader Pg. E1-2.

Corredt units to 1pm Pg. E2-6, El0-1, E15-1.

Delete signature block of EACCE from Pg. E15-1, E16-1, E17-1.

9 10/97 A. Smith Update area codes.

10 01/98 P. Milligan Change air sample run time from 5 minutes to 1 minute.

11 07/98 J. Rayment New Rad Engineering Calculation determined that open window to closed window ratio needs to be changed.

12 05/99 A. T. Smith During annual review no other changes except the reference E-Plan # were identified.

13 10/99 A. T. Smith Update phone numbers for field teams and consolidate phone number information.

(EPIP1I) 2.0

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 1.0 PURPOSE 1.1 This procedure describes the responsibilities and duties of personnel involved in conducting Offsite Radiological/Environmental Monitoring and Sampling.

2.0 APPLICABILITY/SCOPE 2.1 This procedure applies to all Emergency Response personnel involved in Offsite Radiological/Environmental Monitoring Team activities.

2.2 This procedure is to be initiated upon any of the following conditions:

2.2.1 Alert, Site Area Emergency or General Emergency or as directed by the Emergency Director.

3.0 DEFINITIONS 3.1 None.

4.0 RESPONSIBILITIES 4.1 Radiological/Environmental Survey Teams The offsite Radiological/Environmental Survey Team performs offsite radiological and environmental monitoring and sampling in accordance with Exhibit 1, "Field Monitoring Team (FMT)

Checklist".

(EPIPll) 3.0

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 (GPU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 5.0 PROCEDURE 5.1 The Offsite Radiological/Environmental Survey Team shall initially report to the Radiological Assessment Coordinator (RAC) until the Environmental Assessment Command Center (EACC) ip manned and activated. When the EACC is manned and activated, the Offsite Radiological/Environmental Survey Teams then report to the Environmental Assessment Coordinator (EAC) who is responsible for directing emergency teams to conduct emergency radiological and environmental monitoring outside the protected area and to conduct plume tracking.

5.2 FMT members will proceed with Exhibit 1.

6.0 REFERENCES

6.1 2000-PLN-1300.01, GPU Nuclear Oyster Creek Emergency Plan 6.2 OEP-ADM-1319.02, Emergency Response Facilities and Equipment Maintenance 6.3 EPIP-OC-.01, Classification of Emergency Conditions 6.4 Memorandum 9502-88-0098, Field Measurement of Airborne Releases of Radioactive Material, G.M. Lodge, May 25, 1988.

(EPIPlI) 4 .0

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 GU Title Revision No.

Emergency Radiological Surveys Offsite 13 7.0 EXHIBITS 7.1 Exhibit 1, "Field Monitoring Team (FMT) Checklist" 7.2 Exhibit 2, "OCNGS FMT Activation Checklist" 7.2.1 Exhibit 2A, Intentionally Left Blank 7.2.2 Exhibit 2B, "Dose Rate and Count Rate Instrument Op Check" 7.2.3 Exhibit 2C, "AC Air Sampler Op Check" 7.2.4 Exhibit 2D, "DC Air Sampler Op Check" 7.3 Exhibit 3, "OCNGS FMT Termination Checklist" 7.4 Exhibit 4, "Conduct of a Dose Rate Survey" 7.5 Exhibit 5, "Conduct of a Count Rate Survey" 7.6 Exhibit 6, "Conduct of an Air Sample" 7.7 Exhibit 7, "Conduct of Noble Gas Sampling" 7.8 Exhibit 8, "Conduct of Soil or Snow Sampling" 7.9 Exhibit 9, "Conduct of Vegetation Sampling" 7.10 Exhibit 10, "Conduct of Water Sampling" 7.11 Exhibit 11, "Offsite Monitoring Points" 7.12 Exhibit 12, "Plume Search Routes" 7.13 Exhibit 13, "Offsite Radiological/Environment* al Survey Team Log" /13 7.14 Exhibit 14, "Sample Record" 7.15 Exhibit 15, "Count Rate Survey Record" 7.16 Exhibit 16, "Environmental Sample" 7.17 Exhibit 17, "Dose Rate Survey Record" (EPIPII) 5.0

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NCEPU NCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 1 Field Monitoring Team (FMT) Checklist Initials 1.0 OCNGS FMTs will complete Exhibit 2, OCNGS FMT Activation Checklist.

________ 2.0 Upon direction from the EAC/RAC cease monitoring activities and complete Exhibit 3, FMT Termination Checklist" as appropriate.

3.0 Frequently monitor your SRDs. When a SRD indicates 3/4 or greater scale, record the dose on your Control Point Admission Ticket, rezero the SRD, and fill out a new ticket.

4.0 Monitor the dose rate in your vehicle. If the dose rate exceeds 2 mrem/hr at the driver or passenger locations due to field monitoring samples, notify the EACC/RAC. To determine this, conduct a dose rate survey in the vehicle cab while the vehicle is in an area of normal background.

5.0 Notify the EACC/RAC when any team member's accumulated dose approaches 1000 mrem TEDE.

6.0 If the outside temperature is less than 32oF the continuous instrument use should be limited as follows:

Temp Continuous Operation Time 0°F - 320F 5 minutes

-20°F - 00F 2 minutes Battery checks must also be performed before and after each use.

If either check is not satisfactory, the measurement is not valid.

The instrument should be returned to the vehicle and the batteries allowed to warm up.

Conduct surveys, air samples and biota sampling as directed by the 7.0 EAC.

• Dose rate surveys are performed in accordance with Exhibit 4

• Count rate surveys are performed in accordance with Exhibit 5

• Air samples are performed in accordance with Exhibit 6

• Noble gas samples are performed in accordance with Exhibit 7

• Snow and soil samples are performed in accordance with Exhibit 8

"* Vegetation samples are performed in accordance with Exhibit 9

"* Water samples are performed in accordance with Exhibit i0 (EPIPl1/S3) EI-I

OYSTER CREEK EMERGENCY PREPAREDNESS Number EPIP-OC- .II IMPLEMENTING PROCEDURE NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 1_13 EXHIBIT I (Continued)

Field Monitoring Team (FMT) Checklist Initials 8.0 Periodically conduct a whole body frisk and smear the surfaces of the vehicle.

If the Beta-Gamma contamination is found to be above the following levels notify the EAC and report to the RAA or effect local decontamination and documentation as directed.

2 Beta Gamma 100 cpm/100cm Surface area of vehicle Beta Gamma 100 CPM above background, direct frisk of the wheels Vehicles, contamination control station and instruments may be decontaminated in the field by wiping down with maslin cloth taking care to fold maslin inward after each wipe. By using the count rate instrument to check the maslin after each wipe, a rough order of level of Beta-Gamma contamination may be approximated.

Always make one pass with the maslin cloth. Never use the same side to decontaminate a surface. After decontamination place maslin cloth in poly bag, label and conduct a dose rate survey.

Time Signature (EPIP1I/S3) E1-2

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 2 OCNGS FMT ACTIVATION CHECKLIST Initials 1.0 Two team members present. If a qualified team member is not available, an untrained individual may be used as a driver/assistant. The RAC or EAC must approve the individual.

NOTE The RAC or EAC may authorize or direct team dispatch without completing one or more checklist steps.

2.0 Obtain cellular phone for primary communications labeled for your team and a Hand Held Radio for backup communications from the FMT Equipment Locker.

3.0 Contact the RAC by phone and inform him that your team is beginning activation. If RAC unavailable contact EAC.

NOTE When operating the phone in the vehicle pedestal the vehicle must be on or the key in the accessory mode in order for the phone to be unlocke-d, then speed dial can be accomplished. When phone is hand held it operates normally.

Obtain plant status and meteorological conditions from the RAC/EAC Document on Exhibit 14. The following is a list of locations, speed dial codes and actual phone numbers used by field teams and their respective contact.

Location Speed Dial Phone #

RAC/ECC 01 609-971-0335 RAC/TSC 02 609-971-4156 EAC/EACC 03 732-367-8805 732-370-8990 FMvT "A" 04 609-457-3560 13 "FMT "B" 05 609-457-3441 114T "fC" 06 609-457-1525 ONSITE FMT 07 609-457-3592 RCC/OSC 08 609-971-4880 EMERG. 09 911 ECC 10 609-971-4666

• Dial Manually 732-370-8990 4.0 Each team member shall obtain one TLD, and one 0-1500 mRem and, if available, a 0-200 mRem Self-Reading Dosimeter SRD. Zero the SRDs and initiate a Control Point Admission Ticket.

5.0 Check the seal on the storage door on the right side of the monitoring vehicle. If the seal is broken, an inventory must be performed in accordance with Appendix B-1 of OEP-ADM-1319.02.

6.0 Obtain one dose rate and two count rate survey instruments and Op Check in accordance with Exhibit 2B.

(EPIPI1/S4) E2-1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NCEPU NCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 2 (Continued)

OCNGS FMT ACTIVATION CHECKLIST Initials 7.0 Obtain one AC Air Sampler and Op Check in accordance with Exhibit 2C.

8.0 Obtain one DC Air Sampler and Op Check in accordance with Exhibit 2D.

9.0 Obtain two water-filled 500 ml sample bottles for noble gas sampling. Fill each with water and seal tightly. Generally, filled bottles will be kept in the storage locker.

10.0 Transport the following to the vehicle.

1 cellular phone 2 sets of dosimetry (one each member) from step 3.0 1 hand held radio from step 4.0 1 dose rate survey instrument from step 6.0 2 count rate survey instruments from step 6.0 1 AC Air Sampler from step 7.0 1 DC Air Sampler from step 8.0 2 500 ml sample bottles from step 9.0 1 Notebook binder containing EPIP-OC-.11 with attachments and OEP-ADM-1319.02, Appendix B 1 Map of Offsite Monitoring Points. The map is contained in the notebook.

1 portable search light 11.0 Place a 2ft x 2ft poly sheet on the back floor of the vehicle.

12.0 Tape up poly bags on the inside of the vehicle doors to be used for contaminated waste and gloves.

13.0 Start the vehicle. Test the DC/AC inverter by plugging the AC Air Sampler to the inverter. Ensure the inverter is turned on and the circuit breaker is in ON position.

14.0 Turn the radio select knob on the vehicle emergency radio to "Position 1". Set the hand held radio to "Position 5". Contact the EACC or RAC for a radio check.

15.0 Initiate a Survey Team Log using Exhibit 13. The log should include: I'

"* Dispatch locations and requested actions

"* Significant information (e.g., personnel or vehicle contamination, personnel over-exposure, requests for assistance, etc.)

"* Notifications of Emergency Classifications or Termination.

(EPIPl1/S4) E2-2

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 2 (Continued)

OCNGS FMT ACTIVATION CHECKLIST Initials 16.0 Notify the EACC or RAC that you are ready to be dispatched.

Give the EAC/RAC the names, social security numbers, and remaining dose of each team member.

If remaining dose is not known for a team member, information can be obtained from the RAC/RCC at the ECC, TSC, or OSC as appropriate.

17.0 Proceed to the location directed by the EACC or RAC. If for some reason communications with the RAC or EACC are interrupted, one team will proceed to the nearest downwind sampling point identified in Exhibit 11. The second team will proceed on the plume search route as determined by the wind direction and the directions in Exhibit 12. Always continue to try and establish communications with the RAC or EACC. This is the preferred method of directions for the plume search.

Time Completed Signature (EPIPlI/S4) E2- 3

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 2B Dose Rate and Count Rate Instrument Op Check Perform the following for each of the three instruments Initials 1.0 Record instrument serial number.

2.0 Record instrument calibration due date.

3.0 Inspect instrument for physical damage.

4.0 Inspect instrument for illegible labels.

5.0 Perform a battery check.

6.0 Obtain the button source from the lead pig within the locker.

Source check the instrument for response.

7.0 If the instrument fails any of the above checks, tag the instrument as bad and obtain a spare instrument. If no spare is available, contact the EAC/RAC. Document instructions in Survey Team Log.

NOTE DOSE RATE instruments and their detector probes are calibrated as a single unit and probes must not be interchanged with other instruments.

Dose Rate Meter Count Rate Meter Count Rate Meter Serial Number Cal Due Date Physical Damage? YES/NO YES/NO YES/NO Illegible Labels? YES/NO YES/NO YES/NO Battery Check OK? YES/NO YES/NO YES/NO Source Check OK? YES/NO YES/NO YES/NO (EPIP11/S4) E2-4

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 2C AC Air Sampler Op Check Initials 1.0 Record instrument serial number 2.0 Record instrument calibration due date .

3.0 visually inspect the air sampler for physical damage.

4.0 Unscrew the Particulate Filter, Silver Zeolite Cartridge, and "0" rings from the air sampler head, inspect "0" rings for damage.

5.0 Install a new Silver Zeolite Cartridge ensuring the arrow on the side of the cartridge points toward the air sampler.

6.0 Install a new Particulate Filter ensuring the side of the filter which has a woven appearance is nearest to the Silver Zeolite Cartridge.

7.0 Reassemble the air sample head and screw into the Air Sampler.

8.0 Plug Air Sampler into 110V AC power source.

9.0 Turn Air Sampler on.

10.0 Adjust the flow control knob to achieve a 56 1pm (50-62 1pm) flow rate as indicated on calibrated paper scale.

11.0 After ensuring the air sampler operates satisfactorily, turn off the air sampler and unplug the unit.

12.0 If the instrument fails the Op check, tag the instrument as bad and obtain a spare. If no spare is available, contact the EAC/RAC. Document instructions in Survey Team Log.

Signature (EPIP1I/S4) E2-5

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 2D DC Air Sampler Op Check Initials 1.0 Record instrument serial number 2.0 Record instrument calibration due date 3.0 Physically inspect the air sampler for physical damage.

4.0 Ensure the 3 position switch (Charge-Off-Run) is in the Off position.

5.0 Ensure the two Battery Clips are connected together to prevent sparking while air sampler is being handled or moved.

6.0 Unscrew the Particulate Filter, Silver Zeolite Cartridge, and "0" rings from the air sampler head, inspect "0" rings for damage.

7.0 Install a new Silver Zeolite Cartridge ensuring the arrow on the side of the cartridge points toward the air sampler.

8.0 Install a new Particulate Filter ensuring the side of the filter which has a woven appearance is nearest to the Silver Zeolite Cartridge.

9.0 Reassemble the air sample head and screw into the Air Sampler.

10.0 Obtain the keys for the emergency monitoring vehicle.

NOTE Keys for the Building 12 vehicle are in the monitoring kit equipment locker.

11.0 Connect the Air Sampler Battery Clips directly to the vehicle's battery terminals.

Black - Negative Red - Positive 12.0 Turn on the Air Sampler and enter the flow rate, 1pm.

(EPIP1I/S4) E2-6

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NEPU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 2D (Continued)

DC Air Sampler Op Check Initials 13.0 Turn off Air Sampler and disconnect the Air Sampler Battery Clips.

Connect two Battery Clips together.

14.0 Leave the DC air sampler in the vehicle.

15.0 If the air sampler does not pass the Op check, tag the instrument as bad and obtain a spare. If no spare is available, contact the EAC/RAC. Document instructions in the Survey Team Log. In the event that the DC air sampler is used, ensure the EAC/RAC is aware of the flow rate.

Signature (EPIPll/S4) E2- 7

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NLPU NCLEAR Title Revision No.

Emergency Radiological Surveys Offsite I_13 EXHIBIT 3 OCNGS FMT Termination Checklist Initials 1.0 Transport Field Monitoring Samples to the Offsite Sample Storage Facility, designated by the EAC. Use FRH6 key. This should be the Environmental Lab (Building No. 18) on the Forked River Site.

NOTE For Drills and Exercises return all Field Monitoring Samples to the Environmental Controls Section for disposition.

2.0 Place signed Team Logs/Inventory Forms and Data Forms with the Field Monitoring Samples.

Turn in TLD's and completed Control Point Admission Tickets to the Dosimetry Radiological Support Group, normally located at Building No. 14 Processing Center, Forked River Site.

Contact EAC/RAC to determine where to turn in dosimetry if the center has been relocated.

NOTE After a drill, dosimetry should be returned to the Monitoring Kit Instrument Locker in Building 12.

3.0 Return vehicle to Building 12, and return keys to Monitoring Kit Instrument Locker.

4.0 Return all the Emergency Monitoring Equipment to the Monitoring Kit Instrument Locker.

5.0 Return hand held radio to the charging rack inside the Monitoring Kit Instrument Locker in Building 12.

6.0 Complete and sign all logs and checklist. Return to Emergency Preparedness.

Time Completed Signature (EPIP1/S5) E3 -1

OYSTER CREEK EMERGENCY PREPAREDNESS Number EPIP-OC-.11 (GPU NUCLEAR IMPLEMENTING PROCEDURE Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 4 Conduct of a Dose rate Survey 1.0 Ensure a pre-operational check has been completed for the dose rate instrument in accordance with Exhibit 2B.

2.0 Observe Cold Weather Operations Limitation described in Exhibit 1, Step 6.0.

3.0 Switch the dose rate instrument range selector switch to the highest scale that will give the operator a mid range meter reading.

4.0 Dose rate measurement should be performed approximately one meter (lm) above the ground (waist level) outside the emergency vehicle, unless directed otherwise by the RAC.

5.0 Record the survey results on Exhibit 18, Dose Rate Survey Record.

6.0 Determine if the survey location may be within the radioactive plume and advise RAC/EAC.

6.1 IF Beta Gamma (OW) measurements are less than 110 % of the Gamma (CW) measurements, THEN dose rate measurements indicate that the plume is elevated over and/or horizontally displaced from the survey location.

6.2 Identify on Exhibit 17, Dose Rate Survey Record, that the location is not in plume.

6.3 IF Beta Gamma (OW) measurements are equal to or greater than 110%

of the Gamma (CW) measurements, THEN dose rate measurements indicate that the plume may have touched down at the Survey locations -+ Take an air sample and contact the RAC/EAC.

(EPIP11/S6) E4-1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 1_13 EXHIBIT 5 Conduct of a Count Rate Survey 1.0 Don surgeons gloves and obtain smear discs and sample envelopes from the Emergency Monitoring Kit.

2.0 Record Date, Time and Survey Location on sample envelope.

3.0 Wipe smear disc on horizontal surfaces to obtain a sample of 100 cm2 .

4.0 Wipe the smear disc in a lazy S pattern approximately 16 inches long, or Wipe smear disc in an area of approximately 4 inches by 4 inches.

5.0 If smear samples are taken from a non-horizontal surface, provide a description of the sampled surface on the smear disc envelopes.

6.0 Determine Background Count Rate by reading count rate instrument with no sample present.

NOTE The smear sample counting area background count rate must be less than 300 counts per minute (cpm) using a count rate instrument.

NOTE A rough order of magnitude for Dose rate conversion to CPM is count rate (CPM) = 3000 x dose rate (mR/hr).

7.0 Record the Background counts per minute (Bcpm) on Exhibit 16, Count Rate Survey Record.

8.0 Obtain the smear Gross Count Rate.

• Place detector probe within 1/2 inch of the smear disc with the sample surface toward the detector window.

• Count the smear disc.

• If activity is indicated within 15 seconds, allow the meter indicator to stabilize before recording.

• Record the maximum smear sample Gross counts per minute (Gcpm) on Exhibit 15, Count Rate Survey Record.

Complete the appropriate data on Exhibit 15, Count Rate Survey Record.

(EPIP1l/S7) E5-1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NGUCLA Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 6 Conduct of an Air Sample 1.0 Prerequisites

"* The Air Sampler shall be located in a manner that will minimize cross contamination.

"* All samples shall be labeled and saved for further analysis.

2.0 Set up Air Sampler if the filter and cartridge require replacement.

• Unscrew the particulate filter and Silver Zeolite Cartridge rings from the air sampler head.

• Install a new Silver Zeolite Cartridge ensuring the arrow on the side of the cartridge points toward the air sampler.

• Install a new particulate filter ensuring the side of the filter which has a woven appearance is nearest to the Silver Zeolite Cartridge.

• Reassemble the air sampler head and screw into air sampler.

NOTE The air sampler is calibrated with both the Particulate Filter and Silver Zeolite Cartridge in place. Both must be in place even if an iodine sample has not been requested and the Silver Zeolite Cartridge will not be analyzed in the field.

3.0 Draw a 1 minute air sample at°56 1pm (50-61 1pm) as indicated on the paper scale if possible using a watch, stopwatch, or timer to measure the time duration unless otherwise directed by the RAC/EAC.

4.0 Obtain a general area count rate with the count rate instrument and pancake probe at approx. waist level. If the background exceeds 300 CPM move to a location where the background is less than 300 CPM.

5.0 Record air sampler run time and flow rate on the Air Sample Data Collection Envelope and Exhibit 14.

6.0 Wearing protective gloves, unscrew the filter holder section of the sampler head from the Silver Zeolite cartridge holder section such that the particulate filter is held in place in the removed section.

7.0 Remove the retainer ring from the filter holder and obtain a count rate on the particulate filter by holding the front side of the filter holder against the pancake probe. Record the count rate as Gross CPM on Air Sampler Data Collection Envelope and on Exhibit 14. I 8.0 Using tweezers, remove the filter from the holder. Place the filter in an Air Sample Data Collection Envelope.

(EPIP1l/S8) E6- 1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NGPU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 6 (Continued)

Conduct of an Air Sample 9.0 Recount the filter holder without the particulate filter in place.

Enter this count rate as background CPM on the Air Sample Data Collection Envelope and on Exhibit 14.

10.0 Subtract the background cpm (Bcpm) from gross cpm (Gcpm) and record as "Net cpm" on the Air Sample Data Collection Envelopes.

11.0 Measure the contact Dose Rate and record on the Air Sample Data Collection Envelope.

12.0 Retain the sample for later analysis.

NOTE Monitor the driver and passenger area dose rates. If any area exceeds 2.0 mR/hr, notify the RAC/EAC and request guidance.

13.0 Wearing protective gloves remove the Silver Zeolite cartridge from the sampler head and place it in an Air Sample Data Collection Envelope.

14.0 Count both sides of the Silver Zeolite cartridge through the envelope.

Record the higher count rate as "Gross" on the Air Sample Data Collection Envelope and on Exhibit 14. 1 /3 15.0 Subtract the background cpm (Bcpm) from the gross cpm (Gcpm) and record the result as "Net cpm" on the Air Sample Data Collection Envelope.

"* Measure the contact dose rate and record on the Air Sample Data Collection Envelope

"* Retain the sample for later analysis.

16.0 Establish contact with the EACC/RAC.

17.0 Transmit the data from the Air Sample Data from Exhibit 14.

1 )3 (EPIP11/S8) E6-2

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NCEPU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 7 Conduct of Noble Gas Samolinq 1.0 Obtain a 500 ml bottle that was prefilled with clean water. When a sample is needed, stand well away from vehicles or other obstructions (10 ft or greater), remove the cap and pour the water from the container. Cap or close the container.

2.0 Label the sample container with the date/time of collection, and location. Record the same information in the first two columns of Exhibit 15. Write "Noble Gas" in the 3rd column and leave the other columns blank.

3.0 Retain all samples for later counting and analysis.

NOTE Monitor the driver and passenger area dose rates. If any area exceeds 2.0 mR/hr, notify the RAC/EAC and request guidance.

(EPIPll/S9) E7-1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 8 Conduct of Soil or Snow Sampling 1.0 Soil and snow sampling shall be conducted with one team member collecting samples and the other team member providing radiation monitoring for the sample collector.

2.0 Obtain sample container and trowel from Emergency Monitoring Kit.

3.0 Label container with time, Date, Monitoring Location, Type of Sample, and Dose rate.

Example:

Sample Label Date Time:

Sample Type Sample Location Contact Dose Rate mr/hr mr/hr (OW) (CW)

Background bcpm Contact count rate _ gcpm Initials 4.0 Choose a sample area free from leaves, grass and other vegetation.

5.0 Wearing protective gloves scrape approximately the top 1/2 inch of soil or snow with trowel and place into container until full. Cap container.

6.0 Perform a contact dose rate survey of container with a dose rate meter.

7.0 Record dose rate on label.

(EPIPI1/S10) E8-1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 8 (Continued)

Conduct of Soil or Snow Samplincr 8.0 If contact dose rate is less than 0.2 mR/hr, perform a contact count rate measurement of sample container.

"* Measure Background Count Rate (bcpm)

"* Measure Sample Contact Count Rate (gcpm) 9.0 Complete the appropriate data on Exhibit 16.

10.0 Record the following on the sample label

• Background Count Rate bcpm

• Gross Count Rate gcpm 11.0 Save all samples for future analysis.

12.0 Surgeon's gloves should be changed after each sample is collected to prevent cross-contamination.

(EPIPlI/S10) E8-2

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 9 Conduct of VeQetation SamplinQ 1.0 Vegetation sampling shall be conducted with one team member collecting samples and the other team member providing radiation monitoring for the sample collector.

2.0 Obtain clippers and medium plastic bag from Emergency Monitoring Kit.

3.0 Label sample bag with Time, Date, Monitoring Location, Type of Sample, and Dose rate.

Example:

Sample Label Date Time:

Sample Type Sample Location Contact Dose Rate mr/hr mr/hr (OW) (CW)

Background bcpm Contact count rate gcpm Initials 4.0 Wearing protective gloves, take as large a sample of green (living) vegetation as can be fit into bag.

NOTE Do NOT include soil, large branches or roots.

NOTE Always collect samples that are downwind from you; i.e., wind is blowing on your back.

5.0 Place sample in bag.

6.0 Seal the bag and perform a Contact Dose Rate.

7.0 Record Dose rate on label.

(EPIP11/S11) E9-1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NLPUNCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 9 (Continued)

Conduct of VeQetation Sampling 8.0 If contact dose rates are less than 0.2 mR/hr, perform a contact count rate measurement of sample container.

"* Measure Background Count Rate (bcpm)

"* Measure Sample Contact Count Rate (gcpm) 9.0 Complete the appropriate data on Exhibit 16.

10.0 Record the following on the sample label

"* Background Count Rate bcpm

"* Gross Count Rate gcpm 11.0 Save all samples for future analysis.

12.0 Surgeon's gloves should be changed after each sample is collected to prevent cross-contamination.

(EPIPll/S1I) E9-2

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NOU Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 10 Conduct of Water Sampling 1.0 Water sampling shall be conducted with one team member collecting samples and the other team member providing radiation monitoring for the sample collector.

CAUTION Use life vest when collecting water samples from bodies of water i.e.

lakes, bay, ocean.

2.0 Obtain empty plastic screw-top sample bottle and a plastic bag.

3.0 Label bag with Time, Date, Monitoring Location, Type of Sample, and Dose rate.

Example:

Sample Label Date Time:

Sample Type Sample Location Contact Dose Rate mr/hr mr/hr (OW) (CW)

Background bcpm Contact count rate __ gcpm Initials 4.0 Wearing protective gloves, remove cap, submerge bottle, rinse and discard water. Submerge bottle in water to obtain a surface sample. Take care not to disturb sediment.

CAUTION Use caution as the bottle may now be contaminated.

5.0 Recap bottle and place in a plastic bag. Seal the bag.

6.0 Perform a Contact Dose Rate survey of the bottle through the plastic bag.

7.0 Record Dose Rate on sample label.

(EPIPll/S12) EIO- 1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 10 (Continued)

Conduct of Water Sampling 8.0 If contact dose rates is less than 0.2 mR/hr, perform a contact count rate measurement of sample container.

"* Measure Background Count Rate bcom

"* Measure Sample Contact Count Rate gcpm 9.0 Record the appropriate data on Exhibit 16. /i3 10.0 Record the following on the sample label

"* Background Count Rate bcpm

"* Gross Count Rate gcpm 11.0 Save all samples for future analysis.

12.0 Surgeon's gloves should be changed after each sample is collected to prevent cross-contamination.

(EPIPII/S12) E10- 2

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NGPU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EHIBIT 11 OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

N1 --- 00 0.65/ East end of old Left onto Rt. 9, left just Crest 1045.9 Energy Spectrum after intake canal, and proceed OC-3 parking lot to the old Energy Spectrum N2 70 1.2/ Intersection of Left onto Rt. 9, left onto 1930.8 Taylor Lane and Taylor Lane, proceed 0.2 mile Kennebec Rd. to Kennebec Rd.

N2a N-2 20 1.8/ Playground Rt. 9 north Lakeside Drive, Lakeside Drive at left onto Lakeside Dr. 3/4 Moose Head St. miles to playground at Crest intersection with Moose Head OC-II St.

N3 3520 2.5/ Along curb Left onto Rt. 9 approx. 1.5 4022.5 adjacent to park miles to Lakeside Dr., left at intersection onto Lakeside Dr. to Deer Head of Lakeside Dr. Lake Drive and Deer Head Lake Drive N4 N-4 3540 3.2/ Lacey Township Left onto Rt. 9 to Rt. 614 5148.8 Municipal Bldg. (Lacey Rd.), left onto Lacey

-1 Road 1.7 miles to Lacey parking lot. 110 AC available Township Municipal Bldg. on right N5 N-5 3540 4.21/ North commuter Left onto Rt. 9 to Rt. 614 6773.9 parking lot at (Lacey Rd.), left onto Lacey

-1 Forked River Road to G.S. Pkwy., north on service area on Pkwy to Forked River service G.S. Pkwy. 110 AC area available N6 356.50 4.45/ Approx. 1/3 mile Left onto Rt. 9 to Rt. 614 7160 west of Central (Lacey Rd.), left onto Lacey Regional High Rd. to G.S. Pkwy. North on School along Pkwy. for 2.2 miles at overpass Pinewald-Keswick of Pinewald-Keswick Rd. Mile Rd. at junction Post 77.2 with G.S. Pkwy.

N10 30 9.6/ Ocean County Left onto Rt. 9 to Rt. 614 Courthouse (EOC) (Lacey Rd.), left onto Lacey Toms River, Rd. to G.S. Pkwy north to Exit parking log. 110 81, east on Water St. for 0.5 AC available mile to Main St., left one block to Washington-St., right on Washington to 2nd left to Horner St.

(EPIPII/S13) E11-1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

Nl0a 3590 8.75/ Left side of road Left onto Rt. 9, continue left before traffic at Rt. 166 junction to G.S.

light at Pkwy. Interchange approaching intersection of intersection of Rt. 530 (Dover G.S. Pkwy, Rd.), left to roadside area Rt. 530 (Dover before intersection.

Rd.) and Rt.9 N20 N-20 351.50 10.8/ Rt. 37, DOT Left onto Rt. 9 to Rt. 614 Maintenance Yard (Lacey Rd.) to G.S. Pkwy.,

West of Mule Rd. North to Exit 82W, 1.9 mile South side Rt. 37 west to DOT Maintenance Yard on left using jug handle west of Mule Road NNEI 190 0.45/ Rt. 9 mile mrkr Left onto Rt. 9 to intake canal CREST 724.0 cal at O.C. intake 80 bridge at mile marker 80 canal OC-6 NNEla 230 0.7/ Intersection of Left onto Rt. 9, 0.7 mile to 1126.3 Biscayne Dr. and traffic light at Beach Blvd.,

Nantucket Dr. right on Beach Blvd. to Biscayne Dr. (1st right) to Nantucket Rd.

NNE2 NNE-2 23.50 1.7/ Forked River Left onto Rt. 9, 1.6 mile to

-1 2735.3 State Marina SW Forked River State Marina corner of park ing lot. 110 AC available NNE3 --- 24.50 2.5/ Intersection of Left onto Rt. 9, 2.6 miles to 4022.5 Bld 9 and Sunrise Rt. Sunrise Blvd.

Blvd.

NNE4 270 3.7/ Intersection of Left onto Rt. 9, 3.9 miles to Rt. 9 and Laurel Laurel Blvd.

Blvd. parking lot NNE5 260 4.6/ Intersection of Left onto Rt. 9, 4.9 miles to 7401.4 Rt. 9 and WOBM WOBM radio station access road access road NNE6 240 5.6/ Rt. 9, Pinewald Left onto Rt. 9, 6.2 miles on 9010.4 Substation, 0.1 right, 0.1 miles North miles North of Serpentine Dr. at large metal Serpentine Dr. utility poles NNE6a --- 32.50 6.8/ Edge of Bay, Left onto Rt. 9, 6.2 miles to 10,941 Bay Blvd. Bay Blvd. east on Bay Blvd. to end of road (EPIPlI/S13) Eli-2 I'3

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NPU NCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

NNE7 NNE- 23.50 6.0/ Bayville First Left onto Rt. 9, approx. 6.4 7-1 9654.0 Aid, Rt. 9, miles to Bayville, Rt. 9 @

Bayville, 110 AC Station Blvd.

available NNE10 21.50 7.55/ Intersection of Left onto Rt. 9, 7.6 miles to Veeder multi-point intersection, just Lane,9, Ocean Gate Rt. past MacDonald's to parking Dr. & Mill Creek area near intersection on right Rd. parking lot NNE10a --- 22.50 8.65/ Intersection of Left onto Rt. 9, 7.6 miles, go Chelsea Ave and past MacDonald's, right on Ocean Gate Drive Ocean Gate Dr. to Chelsea Ave (near end)

NNEI0b 16.50 9.9/ Intersection of Left onto Rt. 9 to Rt. 614 15,929 Rt. 37 and Vaughn (Lacey Rd.) to G.S. Pkwy. to Ave, lot on first Rt. 37 (Exit 82) east approx.

jug-handle exit 2.9 miles to Vaughn Ave from Rt. 37 intersection right jughandle NNE20 27.50 10.5/ Bay Bridge Inn Left onto Rt. 9 to Rt. 614 16,895 parking lot near (Lacey Rd.) to G.S. Pkwy., Exit Rt. 37 and west 82, to Rt. 37 east to bridge, end of bridge at right into parking lot west shore of Barnegat Bay NEI - 470 0.3/ Intersection of Left onto Rt. 9, 0.2 miles to 482.7 Rt. 9 and farm first right at farm road road NEla 420 0.9/ #732 Bermuda Dr. Left onto Rt. 9 to first 1448.1 near Nantucket traffic light, right onto Beach Rd. Blvd. to Bermuda Dr., right to end of road. Address #732.

Just past Nantucket Rd.

NE2 410 1.6/ Captain's Inn, Left onto Rt. 9 to second 2574.4 Lacey Rd. parking traffic light, right onto Lacey lot at rear Rd. to Captain's Inn (near end of road)

NE3 42.50 2.4/ Game Farm Ocean Left onto Rt. 9, beyond second CREST 3861.6 Residential Group traffic light, right onto Game Center Farm Rd. (concrete parking lot OC-12 near buildings)

(EPIPII/S13) El1-3 113

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NŽPU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

NE4 510 3.1/ End of Sail Dr. Left on Rt. 9, north 2.6 miles 4987.9 near intersect- to Sunrise Blvd., turn right, ion of sunrise go approx. 1.4 miles to Sail Blvd. Dr. (at bend in road), left on Sail Dr.

NE5 NE- 470 4.8/ Laurel Blvd. Left on Rt. 9, 3.9 miles (past 5-1 7723.2 Address #1063. 2nd traffic light) to Laurel (NJ Location Blvd., right on Laurel Blvd. at

1. 1068) curve (at street light,)

address #1063 NE10 --- 9.5/ Intersection of Left onto Rt. 9, left at 2nd 15,286 Central Ave. and traffic light onto Rt. 614 14th St., Seaside (Lacey Rd.) to G.S. Pkwy.,

Park north to Exit 82E, east onto Rt. 37 over bridge to Rt. .35 south (Central Ave), right onto Central Ave. to intersection of Central Ave. and 14th St.

NE20 370 11.8/ Near intersect- Left on Rt. 9, left at 2nd 18,986 ion of Rt. 37 traffic light on Rt. 614 (Lacey access road and Rd.) to G.S. Pkwy., north to Rt. 35 north Exit 82 east on Rt. 37, cross (Central Ave.) bridge to Rt. 35 north, exit.

At first traffic light, turn right, "U-Turn" onto service rd. area ENEI 700 0.25/ Yellow N.J. Left onto Rt. 9, approx. 25 402.3 Natural Gas Co. yds. south of North Gate access marker approx. road on left 100 yds. north of main entrance ENE2a 670 1.15/ Intersection of Left onto Rt. 9 to ist traffic 1850.4 Tampa Rd. and light (Beach Blvd.), right onto Sandy Hook Dr. Beach Blvd. to Forked River

(#701 Tampa Rd.) Bridge. Just over bridge turn right onto Sandy Hook Dr. to second left (Tampa Rd.)

ENE2 ENE- 59.50 1.15/ Beach Blvd. to Left onto Rt. 9 to 1st traffic CREST 1850.4 left side of road light (Beach Blvd.), right onto after crossing Beach Blvd. to southeast end of OC-4 Forked River Forked River Bridge Bridge (EPIP1l/S13) E11-4

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NLPU NCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

ENE3 700 2.3/ Intersection of Left on Rt. 9 to ist traffic 3700.7 Beach Blvd. and light (Beach Blvd.), right onto Tamiami Road Beach Blvd., over Forked River Bridge to next bridge (wooden) continue over bridge to right fork (Tamiami Rd.)

ENE4 580 3.7/ Parking lot at Left on Rt. 9 to Sunrise Blvd.,

Sunrise Beach right on Sunrise to Capstan Dr.

Club on left. Capstan Dr. straight to Sunrise Beach Club ENE7 670 6.3/ Island Beach Left onto Rt. 9 to 2nd traffic State Park light, Rt. 614 (Lacey Rd.),

service area left on Lacey Rd. to G.S. Pkwy.

parking lot North on Pkwy. to Exit 82E, between north and east on Rt. 37 across bridge to south swimming Rt. 35 south (Central Ave.) to area parking lots Is. Beach State Park, 3.5 mi.

south of park entrance gate to swimming area parking lots ENE10 600 7.35/ Island Beach

• Left on Rt. 9 to 2nd traffic State Park, 2.5 light, Rt. 614 (Lacey Road),

miles south of left on Lacey Rd. to G.S. Pkwy park entrance at North on Pkwy. to Exit 82E, chained access east on Rt. 37 across bridge to road, on right Rt. 35 south (Central Ave.) to Island Beach State Park, 2.5 miles south of park entrance gate to intersection of chained access road on right El --- 820 0.3/ Opposite Main Exit Main Gate onto Rt. 9 CREST 482.7 Gate on Rt. 9 OC-7 Ela --- 87.50 0.85/ The Farm Area Left onto Rt. 9, right at first Northeast corner farm road (JCP&L) to second of dredge spoils left to corner of dredge spoils basin basin. Key for gate lock in FMT vehicle E2 870 1.6/ Intersection of Left onto Rt. 9, right at ist 2574.4 Albatross Ct. and traffic light to Forked River Orlando Dr. Bridge, cross bridge to Elks Club, right on Club House Dr.,

4 blocks to Orlando Dr., left on Orlando Dr. to Albatross Ct.

(second left)

(EPIP11/S13) Ell- 5 113

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NGPU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

E7 94.50 5.9/ Old Coast Guard Left onto Rt. 9, left at 2nd 9493.1 Station Watch traffic light onto Rt. 614 Tower, Island (Lacey Rd.) to G.S. Pkwy.,

Beach State Park north to Exit 82E, east on Rt.

IIOAC 37 to Rt. 35 south (Central Ave.) to Is. Beach State Park, to 7 miles south of entrance gate to station on left ESEI 1110 0.3/ Yellow marker (NJ Right onto Rt. 9, approx. 0.1 Natural Gas Co.) mile south of O.C. Main Gate 0.1 mile south of O.C. Main Gate ESEla ESE- 1110 0.8/ Fork area formed Right onto Rt. 9, 0.5 mile, 1-1 1287.2 at intersection left on Bay Pkwy. to Bay Pkwy. and intersection with Willow and Dock Ave. Willow Dock Avenues also intersects here ESE2 109.50 1.85/ End of Bay Pkwy. Right onto Rt. 9, 0.5 mile, CREST 2976.7 at Barnegat Bay left on Bay Pkwy. to end of street at Barnegat Bay OC-14 ESE7 1090 6.3/ Island Beach Left onto Rt. 9 to 2nd traffic 10,137 State Park light, Rt. 614 (Lacey Rd.),

southern end of left onto Lacey Rd. to G.S.

paved park road Pkwy. North on Pkwy. to Exit 82E, east on Rt. 37 across bridge to Rt. 35 south (Central Ave) to Island Beach State Park; go 8.2 miles south of park entrance to southern end of paved road SEI 1260 0.36/ Rt. 9, south of Right onto Rt. 9, over 579.2 South Access Rd., discharge canal bridge, just south of past South Access Road discharge canal bridge SEla --- 1400 0.5/ Southeast corner Right onto Rt. 9, left on Bay OC-5 804.5 of Bay Pkwy., Parkway along Rt. 9, next to residence at 2 Bay Parkway (EPIPlI/S13) E11-6

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NLEPU NCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

SE2 --- 1300 1.7/ South end of Right onto Rt. 9, approx. 0.75 Shore Dr. and on mile, left onto Main St., 0.4 Barnegat Bay, mile to Lighthouse Dr., left Waretown onto Lighthouse Dr. to Shore Dr., right onto Shore Dr. to end of Shore Dr.

SE7 SE- 1270 6.3/ Across the street Right onto Rt. 9 to from the Coast intersection of Rt. 72, east 10,137 Guard Station on onto Rt. 72 to Long Beach Bayview Ave., Blvd., left onto Long Beach Barnegat Light Blvd., left onto 6th St. to Borough Bayview Ave., left onto Bayview Ave. and across the street from the Coast Guard Station SSE2a --- 1640 1.6/ Waretown Vol. Right onto Rt. 9, 1.6 miles, 2574.4 Fire Co. right onto Rt. 532, 1 block, building on left SSE2 SSE- 1540 1.55/ Area east side of Right onto Rt. 9, 0.75 mile, 2-1 2494.0 Main St. and left onto Main St., 0.75 mile south of Skippers to just past intersection with Blvd. Skippers Blvd.

SSE3 SSE3 1660 1.7/ Township of Ocean Township of Ocean Municipal Crest 2735.3 Municipal Building parking lot Route 9 to OC-2 Building Coraliss Rout 532. West on Route 532 to and Railroad Ave. Coraliss St. Left on Coraliss to Railroad Ave.

SSE4 1640 2.65/ Lagoon (BBCA Right onto Rt. 9, 2.2 miles, 4263.9 Recreation Area) left onto Barnegat Beach Dr.,

near Bonita Blvd. 0.6 mile, right on Lagoon View Rd., 1-1/2 blocks to area on left next to lagoon SSEI0 1530 8.3/ Intersection Right onto Rt. 9 to south Anchor St. intersection of Rt. 72, east 13,355 with Harvey onto Rt. 72 to intersection of Cedars Water Long Beach Blvd., left onto Stand Pipe Long Beach Blvd. to intersection of West 80th St.

to intersection with S. Anchor St. and Harvey Cedars Water Stand Pipe (EPIP1l/S13) E1i-7 113

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 (NPU NCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

S2 --- 1840 1.6/ 0.7 mile west of Right onto Rt. 9, right onto CREST 2574.4 Rt. 9 on Rt. 532 Rt. 532, 0.7 mile just beyond residence #172 and dirt lane OC-15 S3 S-3 1780 2.3/ Waretown Right onto Rt. 9, 2.5 miles, 10

-1 3700.7 Substation yards in from Rt. 9, pole No. R "1 144 Z, JC 83. Residence #13 S3a 182.50 2.6/ Along Rt. 9, Right onto Rt. 9, 2.9 miles, 4183.4 Waretown junction pole #BT 1545 and 4" x 4" timber with gas pipeline leakage tester attached S4 1760 3.2/ Pebble Beach Right onto Rt. 9, 3.2 miles, Water Tower left onto Seneca Blvd. to 5148.8 intersection of Eighth St. and Water Tower S5 s-5 1870 4.45/ Roadside area, Right onto Rt. 9, 4.8 miles,

-1 7160.0 Barnegat Service left on East Bay Ave., 0.6 Pole #27 on East miles, to intersection of Lower Bay Ave. Shore Road.

S7 1830 6.3/ End of Taylor Right onto Rt. 9, 6.2 miles, 10,137 Lane at gate left onto Taylor Lane (dirt road), 1.6 miles to end of road at gate S10 1860 9.65/ Intersection of Right onto Rt. 9 to Rt. 72, 15,527 Bay Ave. east on Rt. 72 for 2.5 miles, turn left, go 0.2 mile to intersection of Bay Ave.

520 1690 10.65/ Surf City Stand Right onto Rt. 9 to Rt. 72, 17,136 Pipe east on Rt. 72 to end at Long Beach Blvd., left onto Long Beach Blvd., left onto N. 14th St. to Surf City Water Pipe on right SSW2 --- 2100 1.7/ Intersection of Right onto Rt. 9 to right on Rt. 532 and Rt. 532 (Wells Mills Rd.), 1.3 Laurelwyck Dr. miles to intersection on left SSW4 205.50 3.45/ End of Rose Hill Right onto Rt. 9, 4.4 miles to 5551.1 Rd. at cemetery right on Rose Hill Rd., one 5551.1mile to cemetery (EPIP1I/S13) Eli-8

OYSTER CREEK EMERGENCY PREPAREDNESS Number

( mu NLPU NCLEAR IMPLEMENTING PROCEDURE EPIP-OC-.11 Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

SSW5a --- 210.50 4.5/ Opposite G.S. Right onto Rt. 9 to third 7240.5 Pkwy Maintenance traffic light. Right on Area on Rt. 554, Rt. 554 (Bay Ave.) to Parkway east of Garden entrance area State Parkway SSW5 193.50 4.35/ Barnegat Township Right onto Rt. 9, 4.8 miles, 6999.2 Municipal Bldg. right on Rt. 554 (Bay Ave.) 50 yards on right SSW7 1970 5.8/ Rt. 9 and Taylor Right onto Rt. 9, 6.2 miles, 9332.2 Lane left onto entrance of Taylor Lane SSWI0 1990 7.5/ Southern Reg'1l Right onto Rt. 9, 8.2 miles, 12,068 High School right onto parking lot north of buildings SSWl0a 2000 9.0/ Entrance to Right onto Rt. 9, 10 miles to 14,481 Atlantic City paved entrance of substation on Electric Co. left side of road substation on Rt.

9 SSW20 2010 11.0/ Dinner Point dr. Right onto Rt. 9, 11.9 miles to 17,699 Staffordville Staffordville, left onto Dinner Point Dr., 25 yds. on left side of road SW2 2210 1.8/ Ocean County Right onto Rt. 9 to first CREST 2896.2 Cemetery on traffic light, right onto Rt. 532 Rt. 532 (Wells Mills Rd.), 1.75 OC-8 miles to cemetery SW3 227.50 2.15/ Intersection of Right onto Rt. 9, right onto Rt. 532 and G.S. Rt. 532 (Wells Mills Rd.) to Pkwy. intersection with G.S. Pkwy.

SW4 SW- 2190 3.45/ Barnegat Toll Right onto Rt. 9, right onto booth on G.S. Rt. 532 (Wells Mills Rd.) to Pkwy. 110 AC G.S. Pkwy. south, right side of road just beyond toll booth near telephone booth.

SW5 2170 4.5/ Parking area Right onto Rt. 9 to Rt. 554 Bay 7240.5 between 1st and Ave. Right onto Rt. 554 to 2nd Sts. west of first right after G.S. Pkwy.

G.S. Pkwy. exit exit (First St.)

ramp, 110 AC (EPIPI1/S13) E11-9

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NGPU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

SW7 228.50 7.2/ Intersection of Right onto Rt. 9, right onto Meadow Rd. and Rt. 532 (Wells Mills Rd.) to Rt. 72 at Fawn G.S. Pkwy. south; south to Exit Lakes 67 onto Rt. 554 west to 72 east to Meadow Rd. at Fawn Lakes SWl0 2290 8.9/ Intersection of Right onto Rt. 9, south to Rt.

Hay Rd. and 72, west onto Rt. 72. Approx.

14,320 Micaja's Rd. 100 yds. past G.S. Pkwy.

NOTE: unimproved intersection to Recovery Rd. on NOTE rsouth side of Rt. 72, right dirt road onto Hay Rd. Approx. 3 miles to Micaja's Rd.

SW20 214.50 13.2/ Intersection of Right onto Rt. 9, right onto Rt. 539 and G.S. Rt. 532 to G.S. Pkwy. Take Pkwy. Pkwy. south to Exit 58 (Tuckerton) and make right onto Rt. 539. Park along right side of road WSW1 2490 0.3/ Southwest corner Right onto Rt. 9, over 482.7 of O.C. discharge canal bridge, right CREST on South Access Road to substation, 110 OC-9 AC substation WSW2 247.50 1.55/ G.S Pkwy. picnic Left onto Rt. 9, left on Rt.

2494.0 area 614 (Lacey Rd.) to G.S. Pkwy.

Take pkwy. north to Forked River service area on left.

Make U-turn and go south into picnic area on left at mile marker 71.5 WSW3 --- 2400 2.5/ Ocean County Voc. South on Rt. 9, right on Rt.

CREST 4022.5 School 532 0.6 mi. beyond G.S. Pkwy.

on left OC-1 WSW4 WSW- 251.50 3.75/ Intersection of South on Rt. 9, right onto Rt.

4-1 6033.5 Rt. 532 and 532, continue 4.4 miles to dirt Bryant Rd. road on right (Bryant Rd.) just before steel guard rail WSW5 --- 2550 4.35/ Intersection of Right on Rt. 9, right onto Rt.

Rt. 532 and dirt 532, continue 4.85 miles to 6 road dirt road on right (EPIP11/S13) Eli-10

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NLPU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

WSW6 2540 5.3/ Junction Rt. 532 Right on Rt. 9, right onto Rt.

and Rt. 611 Rd) 532, 6 miles to junction of Rt.

(Brookville 611 (Brookville Rd.) on left opposite Southern opposite Landfill entrance Ocean Landfill entrance WSW10 2520 7.5/ Intersection of Right onto Rt. 9, right onto Rt. 532 and Rt. 532 to intersection of Rt.

Rt. 72 72 (Barnegat Rd.)

WSW20 2430 11.45/ End of Rt. 608 Right onto Rt. 9, right onto Rd.) Rt. 532. At intersection of 1 at gatePlace (Simm Rt. 532 and Rt. 72 and Rt. 610 go straight on Rt. 610 to intersection of Rt. 539, turn left, 1 mile to Rt. 608, stop at end of road.

W2 2700 1.25/ G.S. Pkwy. right Left on Rt. 9 to 2nd traffic 2011.3 side grass area light, left on Rt. 614 (Lacey at mile marker Rd.) to G.S. Pkwy. north to 72.2 service area, turn south on Pkwy. to mile marker 72.2 W2a W-2-1 2690 1.3/ G.S. Pkwy. picnic Left onto Rt. 9 to 2nd traffic area at mile light, left on Rt. 614 (Lacey marker 72.1 Rd.) to G.S. Pkwy. north to service area, turn south on Pkwy. to mile marker 72.1.

W7 2590 6.7/ 0.6 mile north of Right on Rt. 9 to 1st traffic 10,780 Rt. 532 on Jones light (Rt. 532), right on Rt.

Rd. 532 through intersection with Rt. 611 (Brookville Rd.) 1.2 miles to dirt access road on right (Jones Rd.), continue 0.6 mile to fork W10 2600 9.15/ Intersection of Right on Rt. 9 to Rt. 532, Rt. 72 (Barnegat right on Rt. 532 to Rt. 72 Rd.) and Rt. 539 (Barnegat Rd.). North on Rt.

(Warren Grove - 72 to intersection with Rt. 539 Whiting Rd.) (Warren Grove - Whiting Rd.)

(EPIPII/SI3) Ell-11

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

W20 2760 14.0/ Intersection of Right on Rt. 9 to Rt. 532, turn 22,526 Rt. 72 (Barnegat right onto Rt. 532 to Rt. 72 Rd.) and Rt. 532 north. Approx. 7.3 miles to left fork junction with Rt. 532 WNWI 2840 0.6/ Forked River Met Left on Rt. 9, first left after CREST 965.4 Tower intake canal, travel west past the old Energy Spectrum until OC-16 230V highline. Turn right onto dirt road. Unlock gate at south branch of Forked-River, (key with Met Tower keys) continue across bridge and follow curve to the right.

Turn right at second road (directly west of Met Tower) and continue to tower sight.

WNW2 2910 1.35/ G.S. Pkwy., right Left on Rt. 9 to 2nd traffic 2172.2 side at mile light, left on Rt. 614 (Lacey marker 72.4 Rd.) to G.S. Pkwy. north to service area, turn south on Pkwy. to mile marker 72.4 WNW10 2850 9.7/ Rt. 539 (Warren Right on Rt. 9 to 1st traffic 15,607 Grove - Whiting light, right on Rt. 532 to Rt.

Rd.) where it 72, right on Rts. 71/532 to Rt.

crosses over 539 (Warren Grove - Whiting Chamberlain Brook Rd.), north on Rt. 539, approx.

3.3 miles to Chamberlain Brook NW2 322.50 1.7/ G.S. Pkwy. mile Left on Rt. 9 to 2nd traffic 2735.3 marker 73.0 light, left on Rt. 614 (Lacey Rd.) to G.S. Pkwy. north to service area, turn south on Pkwy. to mile marker 73.0 NW6 3220 5.95/ Rt. 614 (Lacey Left on Rt. 9 to 2nd traffic Rd.) 0.1 mile light, left on Rt. 614 (Lacey down dirt road Rd.) to mile marker 7 (3.2 mi.

(west of west of G.S. Pkwy.), dirt Cranberry Bog) access road on left after mile marker 7 (EPIP11/S13) Ell-12

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NLPUNCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 11 (continued)

OFFSITE MONITORING POINTS EMERGENCY N.J. DISTANCE (From OCNGS Main Gate & Rt. 9)

SAMPLE STATE AZIMUTH (MILES/ LOCATION DIRECTIONS LOCATION NO. METERS)

NW10 --- 3140 8.7/ Intersection of Left on Rt. 9 to 2nd traffic 13,998 Rt. 614 (Lacey light, left on Rt. 614 (Lacey Rd.) and Good Rd.) to mile marker 5 (5.3 mi.

Luck Rd. west of G.S. Pkwy.) at Good Luck Rd. intersection NW20 3170 13.3/ Town of Whiting, Left on Rt. 9 to 2nd traffic 21,400 junction at RR light, left on Rt. 614 (Lacey tracks and Rd.), past Bamber Lake to Town Whiting - Lacey of Whiting (RR tracks)

Rd.

NNW3 3400 2.77/ G.S. Pkwy. mile Left on Rt. 9 to 2nd traffic 4449 marker 74.4 light, left on Rt. 614 (Lacey Rd.) to G.S. Pkwy., north to service area (1/2 mile) on left, enter service area, turn south on Pkwy. to mile marker 74.4 NNW4 3480 3.5/ Intersection of Left onto Rt. 9, left at 2nd 5631.5 Rt. 614 (Lacey traffic light on Rt. 614 (Lacey Rd.) and G.S. Rd.) to intersection of G.S.

Pkwy. Pkwy.

NNW5 3310 4.65/ Roadside at Pole Left onto Rt. 9, left at, 2nd 7481.9 #BT4112 at Rt. traffic light onto Rt. -614 614 (Lacey Rd.) (Lacey Rd.), 1.7 miles west of at Deep Hollow G.S. Pkwy.

Creek (intermittent stream)

NNW10 3390 7.9/ Just before Left onto Rt. 9, left at Rt.

intersection of 618 (Central Pkwy. opposite Pinewald - Butler Blvd.) to Rt. 530 (Dover Keswick Rd. and Rd.)

Rt. 530 (Dover Rd.) on rt.

NNW20 3420 12.55/ Intersection of Left onto Rt. 9, left at 2nd 20,193 Rt. 37 and, traffic light onto Rt. 614 Northampton Rd. (Lacey Rd.) to G.S. Pkwy.,

north to Exit 82, west on Rt.

37, 3.75 miles from Pkwy. exit, turn right to offstreet parking (EPIPl1/S13) Ell-13

( GPU

-NOYSTER CREEK EMERGENCY IMPLEMENTING PREPAREDNESS PROCEDURE EPIP-OC-.11 Number NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 12 PLUME SEARCH ROUTES

1. If the wind is from the north/northeast, proceed south from the plant on Route 9 to Route 72. West on Route 72 to Route 539 follow Route 539 north to Lacey Road, follow Lacey road to Route 9, then return to the plant on Route 9.

2. If the wind is from the south/southeast, proceed north from the plant on Route 9 to Route 530 (South Toms River), follow Route 530 to Route 539, follow Route 539 south to Route 72, follow Route 72 east to Route 554, continue east on Route 554 to Route 9 in Barnegat, follow Route 9 north to the plant.

3. If the wind is from the southwest, proceed north on Route 9 to Ocean Gate; however, DO NOT proceed to Seaside Heights/Island beach State Park until communications have been established with the EAC. Proceed to Seaside Heights and Island Beach State Park ONLY when directed to do so by EAC.

4. If the wind is from the northwest, proceed south from the plant on Route 9 to Route 72 at Manahawkin, east on Route 72 to Long Beach Boulevard on Long Beach Island, proceed north on Long Beach Boulevard to Barnegat Lighthouse State Park.

NOTE Plume searches should be conducted while driving at no more than 30 mph.

The location of the plume edges and centerline, along with the magnitude of the open and closed window readings at the plume centerline should be recorded and transmitted to the RAC/EAC. Unless otherwise directed, the plume search should be conducted with the dose rate instrument detector held outside the vehicle window.

(EPIP11/S14) E12-1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 1_13 EXHIBIT 13 OFFSITE RADIOLOGICAL/ENVIRONMENTAL SURVEY TEAM LOG Date: CHRONOLOGY OF EVENTS Team Members:

Team:

TIME EVENT Called the RAC/EAC (see 3.0 for numbers) and Plant Status and MET 1,3 conditions are as follows:

An (UE/A/SAE/GE) was declared at on (Circle One) (Time-24 Hr Clock) (Date)

There is (No) (A Controlled) (An Uncontrolled)

(Circle One)

(RADIOLOGICAL) (NON-RADIOLOGICAL) Release in Progress.

(Circle One - If Appropriate)

Wind Direction from: _/Wind Speed: MPH (Compass Point)

PAGE OF PAGES (EPIP11/S15) E13-1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NGPU NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 13 (Continued)

OFFSITE RADIOLOGICAL/ENVIRONMENTAL SURVEY TEAM LOG CHRONOLOGY OF EVENTS TIME EVENT PAGE OF PAGES (EPIP1l/SI5) E13 -2

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 GUNCLEAR I

i Title Revision No.

Surveys Offsite 13 Emergency Radiological EXHIBIT 13 (Continued)

OFFSITE RADIOLOGICAL/ENVIRONMENTAL SURVEY TEAM LOG CHRONOLOGY OF EVENTS TIME EVENT Signed:

Team Member PAGE OF PAGES (EPIPll/S15) E13-3 113

( ,

Procedure EPIP-OC-.11 Rev. 13 EXHIBIT 14 Sample Record TEAM: Date:

TTfl7V 7Tfl 7&AThT1

1. Time Location Window Closed Window Open Background Particulate Silver Zeolite Flow Rate Run Time mR/hr mR/hr cpm Gross cpm Gross cpm ipm Min 2

LII 3 I-a I-a 4

5 6

7 8

9 10 Signed:

Team Member (EPIPII/SI6)

'a,

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 15 COUNT RATE SURVEY RECORD Date:

Team:

COUNT RATES SAMPLE TIME LOCATION GROSS BKGD 24 HR CLOCK DESCRIPTION (gcpm) (bcpm) 4 4 4-4 4 4 4 4 4

-t I 4 4 4 I .4. 1 4- + I 4 .4. 4

.4. 1* 4 4- + 4

.1. _____________ -

4- 4- 4

____________ _____________ J __________ _________

SIGNED:

Team Member (EPIP1l/S17) El5-1 11 3

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 16 ENVIRONMENTAL SAMPLE Date:

DOSE RATES-MR/HR COUNT RATE cpm SAMPLE OPEN WINDOW CLOSED WINDOW GROSS TIME LOCATION (OW) (CW) (bcpm) (gcpm) 24 HR CLOCK DESCRIPTION BETA - GAMMA GAMMA BACKGROUND COUNT RATE L & 4 4

+ t 1 4 4 1

- L 1 4 4 SIGNED:

Team Member (EPIPII/S18) E16-1

OYSTER CREEK EMERGENCY PREPAREDNESS Number IMPLEMENTING PROCEDURE EPIP-OC-.11 NUCLEAR Title Revision No.

Emergency Radiological Surveys Offsite 13 EXHIBIT 17 DOSE RATE SURVEY RECORD Date: Team Members: Instrument Cal Due Date:

Team: Instrument Beta Correction Factor:

DOSE RATES--mR/hr IS (ow)

SAMPLE READING

>110% OF (cw)

TIME LOCATION INSTRUMENT OPEN WINDOW CLOSED WINDOW READING?

(24 HR CLOCK) DESCRIPTION MODEL/SERIAL # (ow) (cw) YES NO BETA-GAMMA GAMMA NOTE:

IF (YES),

THEN SURVEY LOCATION MAY BE WITHIN PLUME TAKE AN AIR SAMPLE CONTACT RAC/EAC.

(13 SIGNED: Reviewed: /

Team Leader Rad Con Coordinator (EPIP1I/S19) E17-1

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC- .33

ŽPU NUCLEAR Title Revision No.

Core Damage Estimation 4 Applicability/Scope Responsible Office Emergency Prep.

Applies to work at Oyster Creek 2860 i

This document is within QA plan scope "XYes No Effective Date Safety Reviews Required "XYes No (11/23/99) 12/03/99 Prior Revision 3 incorporated the This Revision 4 incorporates the following Temporary Changes: following Temporary Changes:

N/A N/A List of Pages (all pages rev'd to Rev. 4) 1.0 to 15.0 El-1 E2-1 E3-1 E4-1 E5-1 E6-1 E7-1 E8-1 E9-1 El0-1 El1-1 NON-CONTROLLED THIS DOCUMENT WILL NOT BE KEPT UP TO DATE IRMC OYSTER CREEK

____tu____ Concurring Organization Element I Date originator Emergency Planner Concurred By \ 'k Director, Ops & Mtce. Ej-d )I -

Approved (1 -

By Mar. Emerqencv Preparedness (EPIP33) 1.0

( IMPLEMENTING OYSTER PROCEDURE CREEK EMERGENCY PLAN EPIP-OC-.33 Number NUCLEAR Title Rvso o Core Damage Estimation4 1.0 PURPOSE 1.1 This procedure and the referenced computer code provide a method to estimate the degree and type of core damage after an accident at Oyster Creek Nuclear Generating Station. The resulting determination of the degree and type of core damage will be provided to the NRC and New Jersey emergency agencies, when it is requested and when considered appropriate by the ED/ESD.

1.2 The post-accident inventory of activity in containment will also be estimated by this procedure. This information may be useful to the ED and ESD in the determination of potential off-site effects in the event of a loss of containment.

1.3 This procedure shall be initiated at the request of the ED or the ESD.

This procedure may be performed at the Parsippany Engineering Staff or the TSC.

2.0 APPLICABILITY/SCOPE 2.1 This procedure applies to all GPUN personnel performing core damage evaluations for Oyster Creek during a declared emergencyat Oyster Creek.

3.0 DEFINITIONS 3.1 Core Damage - Core Damage includes both Fuel Melting and Cladding Failure.

3.2 Cladding Failure - The rupture or oxidation of the zircalloy fuel rod cladding, which allows complete release of gaseous and/or volatile chemical species of fission products contained in the fuel pin - fuel cladding gap.

(EPIP33) 2.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Rvso o Core Damage Estimation4 3.2.1 Claddincr Rupture - The loss of fuel pin cladding integrity due to mechanical loads, clad melting or burst at high fuel temperatures.

3.2.2 Cladding Oxidation - The loss of cladding integrity due to chemical oxidation of the zircalloy cladding at high fuel temperatures. Zircalloy reacts with steam at high temperatures and produces hydrogen gas.

3.3 Fuel Melt - The physical melting of the uranium dioxide fuel in the fuel rods, which allows the release of fission products contained in the fuel matrix.

3.4 Fuel Failure - The operating (non-accident) fuel cladding perforations or cracks, which allow minor releases of fission products from the fuel pin - fuel cladding gap to the reactor coolant.

3.5 BOC - Beginning of Cycle.

4.0 RESPONSIBILITIES 4.1 The ED may direct the TSC Coordinator to evaluate the extent of core damage using this procedure.

4.2 The ESD may direct the ED to initiate evaluation of the extent of core damage using this procedure.

4.3 The TSC Coordinator may request the Parsippany Engineering Staff to evaluate the extent of core damage or the calculation may be performed at the TSC or other location. The TSC Coordinator may also request other support groups to evaluate core damage using this procedure if Parsippany is unable to perform the task. The TSC Coordinator will communicate to both the ED and ESD the result of any evaluation performed by the TSC or any support group other than the Parsippany Engineering Staff.

(EPIP33) 3.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Revision No.

Core Damage Estimation 4 4.4 When calculations are performed in Parsippany they will be communicated to the TSC Coordinator, the ED, and the ESD the result of any evaluation performed under this procedure.

5.0 PROCEDURE NOTE If a PASS is requested for the purpose of performing a core damage estimate, samples and analysis in Section 5.1.1 must be capable of being completed within 3 hours3.472222e-5 days <br />8.333333e-4 hours <br />4.960317e-6 weeks <br />1.1415e-6 months <br />. This requirement is based on a commitment made under NUREG-0737 and cannot be revised without regulatory approval.

5.1 Determine the time that the most recent PASS reactor water, drywell gas, torus gas, and torus water samples were taken. If the required samples (identified in 5.1.1) were not taken under current or similar plant conditions, the ED or designee will request the CHEMISTRY I COORDINATOR to obtain the necessary PASS sample(s) be taken. The Chemistry Coordinator should consult with the RAC in completing EPIP OC-.35 Emergency Sample Request Form. If the required PASS results are not available, the methods of 5.6 may be used. It is emphasized that these methods are only to be used until PASS results become available.

NOTE PASS samples are most representative when the RCS is stable, i.e.; the RCS has been in its current configuration with respect to temperature, level and flow for 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />. Consult with the chemistry coordinator.

5.1.1 The following combinations of PASS samples satisfy the minimum requirements of this procedure and NUREG 0737.

5.1.1.1 If LOCA has not taken place:

Reactor Coolant and Containment Atmosphere.

(EPIP33) 4.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-. 33 NUCLEAR Title Revision No.

Core Damage Estimation 4 5.1.1.2 If LOCA has taken place:

Reactor Coolant (preferably Torus water),

Containment Atmosphere initially, when available.

For the purpose of meeting the NUREG 0737 requirement, only the reactor coolant and containment atmosphere samples are required. Sample analysis will be performed on a computer, IAW Section 5.3.

5.1.2 All sample results used in this procedure must be taken at similar conditions. There cannot have been a major change in reactor status (i.e. samples all taken prior to LOCA, or all samples taken post-LOCA, or all water samples taken prior to recirculation in the torus).

5.1.3 The user may use the optional data collection sheets (Exhibits 2 and 3) to-collect data before the code is started.

Use of these forms is not needed for documentation, but can assist in organizing the necessary data to minimize computer time if there are other demands on computer usage.

(EPIP33) 5.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Revision No.

Core Damage Estimation 4 5.2 Obtain data necessary for Core Damage Estimation.

5.2.1 Complete the Core Damage Estimation Data Sheet. (Optional)

(Exhibit 2)

NOTE If the current power history is not available, a full power history can be used for the initial estimate of core damage.

5.2.2 Complete the Current Cycle Power History (Exhibit 3). The current cycle history should include all power level changes of 300 MW(t) or more that last for two days or more. Each power level change that meets this criteria will constitute a new operating period. Include anytime the reactor is shut down. Duration and nominal power level for each period should be recorded. The following information is required for each operating period. Each operation period is assigned a sequential number, j.

DSS - Time in days since BOC startup to end of operating period j TJ - Duration in days of operating period j; TJ(1) = DSS (1)

TJ(j+l) = DSS(j+l) - DSS(j)

For period when reactor is shutdown; TJ(j) = 0 TOJ - Time in days between the end of operation period j and current reactor shutdown; TOJ(j) = DSS(JMAX) - DSS(j)

(EPIP33) 6.0

OYSTER CREEK EMERGENCY PLAN Number (GPU NUCLEAR IMPLEMENTING PROCEDURE EPIP-OC-.33 Title Revision No.

Core Damage Estimation 4 PJ - Nominal reactor power in period j, MWT. Enter 0 for periods reactor is shut down.

NOTE DSS, TJ, TOJ must be updated to current cycle history, however, previous operating periods will not need to be changed. TOJ must be recalculated at the time of the analysis for all operating periods.

5.3 CALCULATIONS USING IBM/PC 5.3.1 All calculations can be performed using an IBM/PC or equivalent with a LOTUS-123 spread sheet proyided for this analysis. See Exhibit 11. The spread sheet contains previous cycle power history. Exhibits 2 and 3 match the input format for the spread sheet.

5.3.2 Proceed to step 5.5 following execution of the program.

5.3.3 If the-LOTUS program cannot be used, proceed to 5.4.

5.4 CALCULATIONS PERFORMED MANUALLY 5.4.1 For manual calculations, only 1-131 and Xe-133 should be used since a long term power history is required for CS-137 and KR-85. Only the last two months of power history are needed for 1-131 and Xe-133. Exhibit 4 is provided to record calculation results.

(EPIP33) 7.0

( urn OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE. EPIP-OC-.33 NUCLEAR Title Revision No.

Core Damage Estimation 4 5.4.2 Correct the concentrations in the gas sample for the relative temperature and pressure differences between the system sampled and ambient conditions. Calculation is performed for both Torus and Containment atmosphere samples.

Cgi =Cgi(vial) (P2T1 /(P1 T2 where:

Cgi = Isotopic concentration Cgi (vial) = Vial isotopic concentration P1 , T, = Sample vial (ambient) pressure and temperature (psia, OR)

P 2 ' T2 = System pressure and temperature at time of sampling (psia, OR)

NOTE: OR = OF + 460 5.4.3 Correct the measured concentrations for decay to the time of reactor shutdown. Calculation performed for each sample and i) (TSD) each isotope Ci (shutdown) = Ci (sample) e i = Decay constant for nuclide i (day 1

1-131 = 8.62E-2 days 1

Xe-133 = 1.32E-1 days TSD = Time between reactor shutdown and when sample was taken.

(days)

(EPIP33) 8.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Rvso o Core Damage Estimation4 5.4.4 Calculate the fission product inventory correction factor Fii

= Calculation performed for each isotope.

F Ii = 3651 (l-e -1095 i)

.[Pj (1-e - iTj) e To]

Where:

Pj = Average reactor power during period j (MW t)*

i = Decay constant of nuclide i (day-1)

Tj = Duration of operating period j (days)*

T0 Time between end of operating period j and time of final reactor shutdown (days) 3651 = Average reactor power of reference plant (MWt 1095 = Time of continuous operation of reference plant (days)

(EPIP33) 9.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR I TitleReviLsion No.

Core Damage Estimation 4 5.4.5 Calculate the average concentration of water and gas samples.

CW = (IRx) 1.97x108 c+(IT) 2.36x10 9 2.56x10 9cc CG = (Xedq) 5.097x10 9cc+(Xetq) 3.59x10 9cc 8.69x10 9cc CW = measured concentration of 1-131 in the Oyster Creek coolant (uCi/g) corrected to time of shutdown CG = measured concentration of Xe-133 in the Oyster Creek containment gas (uCi/cc) corrected to time of shutdown and pressure/temperature IRx = Concentration of 1-131 in Reactor Water, uCi/g IT = Concentration of 1-131 in Torus Water, uCi/g Xedg = Concentration of Xe-133 in drywell gas, uCi/cc Xetg = Concentration of Xe-133 in Torus gas, uCi/cc 5.4.6 Calculate concentrations normalized to reference plant CWREF = CW x 0.6531 x FI CGREF = CG x 0.2173 x Fxe 5.4.7 Using Exhibits 6 and 7, determine best estimates for clad failure and fuel melt from concentrations calculated in 5.4.6.

Record results on Exhibit 5.

(EPIP33) 10.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Revision No.

Core Damage Estimation 4 5.5 GUIDELINES FOR ASSESSING CORE DAMAGE 5.5.1 Following execution of the core damage estimation program, estimates on core damage will be available based on up to four isotopes; 1-131, Cs-137, Xe-133 and Kr-85. For each isotope there will be estimates on clad failure and fuel melt. The assessment will include a best estimate value along with a high and low range.

5.5.2 The 1-131 and Xe-133 will provide the more accurate estimate soon after the accident since measurements of Cs-137 and Kr-85 activities are not very likely until the reactor has been shut down for longer than a few days. Depending on when the samples are taken, either the 1-131 and Xe-133 or all four of the isotopes will be the primary isotopes for assessing core damage.

5.5.3 A straight average of-the best estimate values for cladding failure and fuel melt from primary isotopes can be used to arrive at an overall estimate for the extent of core damage.

5.5.4 If the data for an isotope is incomplete, such as the time sample was taken, temperature or pressure data, concentration from only one source, then the isotope should not be used in determining core damage.

5.5.5 If the data for all the isotopes is incomplete, then the extent of core damage should be based on the high estimate unless engineering judgement should dictate otherwise.

(EPIP33) 11.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 (GPu fIUI(L FAR Title Revision No.

Core Damage Estimation 4 5.5.6 If fuel melt has occurred, there should be the presence of some less volatile elements in the water samples, such as Sr-92, La-140, Ba-140 and Ru-103 (either soluble or insoluble). The presence of these isotopes would confirm fuel melt.

5.6 SECONDARY METHODS NOTE The following two methods are meant to be used if there is insufficient data available to use the method of Sections 5.1 to 5.5.

It is emphasized that these two methods are not to be used in place of Sections 5.1 to 5.5, but only until sufficient data becomes available.

5.6.1 Hydrogen concentration in containment.

5.6.1.1 Hydrogen may be generated when zircalloy cladding oxidizes at high temperature in the presence of steam. The amount of free hydrogen in the containment-can therefore be an indication of the degree of cladding oxidation.

5.6.1.2 Cladding oxidation may lead to cladding failure if it is extensive enough. There is not a direct correlation between cladding oxidation and cladding failure. For example, 1% cladding oxidation does not mean that 1% cladding failure has occurred. If cladding oxidation is above 25% however, it is a good indication that cladding failure will approach 100%.

(EPIP33) 12.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Revision No.

Core Damage Estimation 4 5.6.1.3 The degree of cladding oxidation is determined by using the containment hydrogen percentage with the curve on Exhibit 8. This curve is unaffected by temperature or pressure since the hydrogen monitor removes condensable steam from its sample stream.

The code will also perform this check.

CAUTION If there has been a loss of containment or a hydrogen burn inside containment, Exhibit 8 and the code will provide only a lower limit to the degree of cladding oxidation.

5.6.1.4 Use the dashed curves on Exhibit 8 when drywell venting at 3 psig has been performed in accordance with EOP's.

5.6.2 Containment High-Range Radiation Monitor System (CHRRMS) 5.6.2.1 The containment High-Range Radiation Monitors may be used to verify the amount of activity released to the drywell atmosphere. The chief drawback of using the CHRRMS to develop this estimate is that the isotopic distribution which must be assumed to provide the correlation depends upon the specific accident source term - which cannot be known in advance. The CHRRMS therefore provides only a rough check on the results obtained through Sections 5.1 through 5.5.

(EPIP33) 13.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Revision No.

Core Damage Estimation 4 CAUTION This method is not valid if venting has taken place of it containment spray has been initiated.

5.6.2.2 Exhibit 9 is a family of curves relating CHRRMS dose rates to the percentage of core noble gases released as a function of time after reactor shutdown. These curves include a postulated release of 25% of core iodines into the containment atmosphere, but do not include any plateout on drywell surfaces.

5.6.2.3 The percentage of noble gases released can then be compared with Exhibit 10, expected Fuel Melt vs.

Noble Gas and Iodine Release, to determining the approximate amount of fuel melt which has occurred.

5.7 Results of this analysis should be provided to the ED and ESD using Exhibit 1. Estimates of core damage should be reported in one of four categories for both clad failure and fuel melt. The categories are none (<%), minor (<1%), intermediate (10-50%) and major (>50%).

5.8 Documentation of this calculation (including the computer printout) should be retained with other TSC or Parsippany emergency documentation and attached to a copy of the completed Exhibit 1.

(EPIP33) 14.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Ce a eE t Revision No.

Core Damage Estimation 4

6.0 REFERENCES

6.1 2240-IMP-831.8 Estimation of Percent Fuel Failure 6.2 EPIP-OC-26 Technical Support Center 6.3 2240-IMP-831.9 Post-Accident Sampling System Operation 6.4 NEDO-22215 Procedures for the Determination of the Extent of Core Damage Under Accident Conditions C.C. Lin -August 1982, General Electric Co.

6.5 TDR-496, Rev. 0 "Method for Estimating Extent of Oyster Creek Core Damage Under Accident Conditions" P. Loza - Dec. 22, 1983.

6.6 NUREG-0737 HI 7.0 EXHIBITS 7.1 Exhibit 1, Core Damage Estimate Transmittal Form 7.2 Exhibit 2, Core Damage Estimation Data Sheet 7.3 Exhibit 3, Current Cycle Power History 7.4 Exhibit 4, Core Damage Estimation Correction Factors 7.5 Exhibit 5, Core Damage Estimation 7.6 Exhibit 6, 1-131 Concentration in Primary Coolant and Extent of Core Damage 7.7 Exhibit 7, Xe-131 Concentration in Containment Gas and Extent of Core Damage 7.8 Exhibit 8, Cladding Oxidation as a Function of Containment Hydrogen 7.9 Exhibit 9, Noble Gases Released as a Function of CHRRM Reading and Time 7.10 Exhibit 10, Expected Fuel Melt vs. Noble Gas and Iodine Release 7.11 Exhibit 11, Steps for Use of the Core Damage Assessment LOTUS 123 Program (EPIP33) 15.0

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE NGU NUCLEAR EPIP-OC-.33 Title Revision No.

Core Damage Estimation 4 EXHIBIT 1 CORE DAMAGE ESTIMATE TRANSMITTAL FORM Calculation Performed By: El TSC El PARSIP. El Other ENG.

Transmit To: [I ED El ESD [] TSC Coordinator Core Damage At (Times of Samples)

• Check the Appropriate Category)

Estimate of Core Damage NONE MINOR INTERMEDIATE MAJOR

<1% <10% 10-50% >50%

Cladding Failure El El El El Fuel Melt El El El El Clarification:

Calculation performed by: at hours Results transmitted by: at hours (EPIP03/S3) EI-I

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Revision No.

Core Damage Estimation 4 EXHIBIT 2 CORE DAMAGE ESTIMATION DATA SHEET DATE AND TIME OF REACTOR SHUTDOWN AND PASS SAMPLES ANALYZED DATE TIME MM/DD/YY HH: MM REACTOR SHUTDOWN REACTOR WATER TORUS WATER DRYWELL ATMOSPHERE TORUS ATMOSPHERE TIME AFTER SHUTDOWN SAMPLES TAKEN (IN DAYS REACTOR WATER DRYWELL ATMOSPHERE TORUS WATER TORUS ATMOSPHERE DRYWELL TORUS TEMPERATURE (DEG F)

PRESSURE (PSIG)

GAS SAMPLE TEMPERATURE (DEG F)

GAS SAMPLE PRESSURE (PSIG)

ISOTOPE DECAY CONSTANT CONCENTRATION (MICROCURIE/CC)

(1/DAYS) REACTOR WATER TORUS WATER 1-131 8.62E-02 CS-137 6.29E-05 ISOTOPE DECAY CONSTANT CONCENTRATION (MICROCURIES/CC)

(1/DAYS) DRYWELL ATMOS. TORUS ATMOS.

XE-133 1.32E-01 KR-85 1.77E-04 (EPIP03/S4) E2-1

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE GPU (C0*p NUCLEAR EPIP-OC-.33 Title Revision No.

Core Damage Estimation 4 EXHIBIT 3 CURRENT CYCLE POWER HISTORY PJ - NOMINAL REACTOR POWER IN PERIOD J (MWT)

TJ - DURATION OF OPERATING PERIOD J (DAYS)

TOJ - TIME BETWEEN THE END OF OPERATING PERIOD J AND CURRENT REACTOR SHUTDOWN (DAYS)

DSS - TIME SINCE THE BOC STARTUP (DAYS) TO END OF PERIOD J PERIOD J DSS TJ TOJ PU 1

2 3

4 5

6 7

8 9

10 11 12 13 14 15 16

___ I. __ I ___ .1 ___

+ +

17 18 4- + .4.

19 20 (EPIP03/S5) E3 -1

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Revision No.

Core Damage Estimation 4 EXHIBIT 4 CORE DAMAGE ESTIMATION CORRECTION FACTORS 5.4.2 TEMPERATURE/PRESSURE CORRECTION FACTORS DRYWELL TORUS XE-133 5.4.3 CORRECTION FOR DECAY TO THE TIME OF REACTOR SHUTDOWN REACTOR TORUS 1-131 DRYWELL TORUS XE-133 5.4.4 FISSION PRODUCT INVENTORY CORRECTION FACTOR FI(I-131) =

FI(XE-133) =

5.4.5 AVERAGE CONCENTRATIONS FOR WATER AND GAS SAMPLES CW(I-131) =

CG(XE-133) =

5.4.6 CONCENTRATIONS NORMALIZED TO REFERENCE PLANT CWREF(I-131) =

CGREF(XE-133) =

(EPIP03/S6) E4-1

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE NLPU NUCLEAR EPIP-OC-.33 Title Revision No.

Core Damage Estimation 4 EXHIBIT 5 CORE DAMAGE ESTIMATION 5.4.7 CORE DAMAGE ESTIMATION ISOTOPE ESTIMATE CLAD FAILURE FUEL MELT 1-131 HIGH BEST LOW XE-133 HIGH BEST LOW (EPIP03/S7) E5-1

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE (NPU NUCLEAR EPIP-OC-.33 Title Revision No.

Core Damage Estimation 4 EXHIBIT 6 1-131 CONCENTRATION IN THE PRIMARY COOLANT (REACTOR WATER AND TORUS WATER) AND THE EXTENT OF CORE DAMAGE IN REFERENCE PLANT

% Cladding Failure

= 10 [Log(x)+0.602]/0.982 Upper Release Limit (%)

= 10 [Log(x)-0.602/l".011 Best Estimate (%)

= 10 [Log(x)-l.699]/0.987 Lower Release Limit (%)

% Fuel Melt Upper Release Limit (%) = 10 [Log (x) -2.079)

= 1 0 [Log(x)-2.342]

Best Estimate (%)

= 1 0 [Log (x) -2. 380]

Lower Release Limit (%)

Where X is the 1-131 concentration CWREF calculated in section 5.4.6.

If percent release is calculated as greater than 100%, indicate 100% on Exhibit S.

(EPIP03/S8) E6-1

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 NUCLEAR Title Revision No.

Core Damage Estimation 4 EXHIBIT 7 Xe-133 CONCENTRATION IN THE CONTAINMENT GAS (DRYWELL AND TORUS GAS) AND THE EXTENT OF CORE DAMAGE IN REFERENCE PLANT 9 Cladding Failure Upper Release Limit (%) = 10 [Log(x)+.302]

= 10 [Log(x)+.176]

Best Estimate (%)

Lower Release Limit (%) = 1 0 [Log(x)+.778]

% Fuel Melt Upper Release Limit (%) = 10 [Log(x)-1.398]/1.025

= 10 [Log(x)-l.602]

Best Estimate (%)

(%)

= 1 0 [Log(x)-1.681]

Lower Release Limit Where X is the Xe-133 concentration CGREF calculated in section 5.4.6.

If percent release is calculated as greater than 100%, indicate 100% on Exhibit 5.

(EPIP03/S9) E7-1

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 (Pu NUCLEAR Title Revision No.

Core Damage Estimation 4 EXHIBIT 8 CLADDING OXIDATION AS A FUNCTION OF CONTAINMENT HYDROGEN NQn-Condensible Hydrogeon Pressure (psig)

0. 5. 10. 15. 20. 25. 30.

100%

.vv

... F1.-

S0. 7,k7 t I,,. I t t ,/ e 1] i ! *

-F A 0.

• I,r---tll!

... ~ A~,! 4b1! SI

. i ..- I4 . .

CL, iit 2.Q

/I I "/11.* , 1

>.1.I...L I ..t I_____ [ ____

• ,b_______i___

• i1 1 i 09 U"170 20% 40% 60% 80%

Containment Hydrogen. Fraction (percent)

(EPIP03/S10) E8-1

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE EPIP-OC-.33 (NPU Title Revision No.

Core Damage Estimation 4 EXHIBIT 9 NOBLE GASES RELEASED AS A FUNCTION OF CHRRM READING AND TIME 4 .OK5 iT-7 [ "0-0. .. * ' " .  :  : : i : , :

i .ii , .. "  ; * . /  !

I I. tI' '  ! i, .- , ,i i i II Iat i1  : I I I I

3. OE5 i 71 1 I d y.

• , , i i:. _.-__.__.________i_

! i I I I ! i ! z - , i *t, /.. * , . l iI l I i , I I , I I I ' .. .* j" i

• i _I ! I IF .

II i i , , , ! *II__ I" " .'.* I I i

. . . . I '. - I- . * , . . . I ! -.

-4 z.os5

--. ... .. -I

<I_- -" - - . I.." - a">

i -, _ - _

SI ' i " _.'_ " ', _*. ._

1.0E5

'I-4

.. ' ' ' " *  ; * *'.---.*"-,-.-a

• -- ' ' ' " i'-'=; "T-- "-- . . .a .s 0

0% 20% 40% 607 80: 100-PERCENT NOBLE CASES RELEASED (EPIP03/S1I) E9-1

OYSTER CREEK EMERGENCY PLAN Number IMPLEMENTING PROCEDURE (d"4u NU NUCLEAR EPIP-OC-.33 Title Revision No.

Core Damage Estimation 4 EXHIBIT 10 EXPECTED FUEL MELT VS. NOBLE GAS AND IODINE RELEASE 100 Si fVT m , i a iI, 1 7 7t 1 17i/

I I i I ii,/

80

.60

• ' ' 1

,/....I ,, [

I U,,

0

• L I A I 20  % LsL, 0%

0% 20% 40% 60% 80%, 100%

Percent Core Release.

(EPIP03/S12) E10-1

( GPU OYSTER CREEK EMERGENCY IMPLEMENTING PLAN PROCEDURE EPIP-OC-.33 Number NUCLEAR Title Revision No.

Core Damage Estimation 4_____________

EXHIBIT 11 STEPS FOR USE OF THE CORE DAMAGE ASSESSMENT LOTUS-123 PROGRAM*

1. Select the LOTUS-123 application from the network menu or attach to the directory containing the LOTUS-123 software.

2. Place either the 5 1/4 or 3 1/2 in disk containing the Core Damage Assessment spreadsheet in drive A: or B: as appropriate.

3. Enter LOTUS-123.

4. Press /FD and move cursor (arrow keys) to DRILL.WK1 or CYCXXCDE.WK1 (XX is the cycle number) and hit RETURN. Select SAMPLE.WK! for a sample problem.

CYCXXCDE.WK1 should be used for actual emergencies or drills occurring during the operating cycle. Drills occurring during an outage should use the DRILL.WK1 spreadsheet which has a nominal full power history.

5. Enter Data. Use the arrow keys to move the cursor to the different data entry points and type in the values. For the date and time entries, a single quote (') must be used first. The use of Exhibits 2 and 3 will make the data entry simpler.

6. After the data is entered, press the F9 key to have program perform calculations. After any change to the data, the F9 key should be pressed.

The word "CALC" will appear on the b6ttom of the screen and will disappear when the F9 key is pressed. Use the PAGE DOWN key to the page containing the core damage estimate.

7. To get a hard copy of the spread sheet, press /PPAG+. Optional - a user experienced with LOTUS-123 can add a header.

• The user is assumed to have a basic knowledge of LOTUS-123.

+ The spreadsheet must be set up for the printer being used.

(EPIP03/S13) E11-1