ML18041A057

From kanterella
Jump to navigation Jump to search
Site Emergency Full Participation Exercise, on 970924
ML18041A057
Person / Time
Site: Nine Mile Point Constellation icon.png
Issue date: 09/16/1997
From: Kaminski J
NIAGARA MOHAWK POWER CORP.
To:
References
NUDOCS 9710070340
Download: ML18041A057 (652)


Text

.y

~ \

Site Emergency.

Fu I Participation Exercise 1

September 4, 1997 9710070340 970916 PDR ADQCK 05000410 F PDR I llflflllf illllllflllffflfflIffffffff

~

( ~

t NIAGARAMOHAWKPOWER CORPORATION NINE MILEPOINT UNIT NO: 2 EMERGENCY PREPAREDNESS EXERCISE SCENARIO NO. 41 REV. 0 (FINAL)

FOR THE EMERGENCY PREPAREDNESS EXERCISE TO BE CONDUCTED

.September 24, 1997

/ Who J. inski, EP pecialist Date hpp~rv'ill; i 9/)( /9 J.. Jones, Direct r mergency Preparedness Date 9/(r, /9

  • R. L. Tessier, Training Manager Bate
  • R. B Abbo+Plant Manager Unit 1 Date'ate
  • K. A. Dahlberg, Plant Manag r Unit 2 These signatures denote Niagara Mohawk Power Corporation's approval to commit appropriate resources to perform this Emergency Preparedness Exercise. Since these individuals may be Exercise players, they have not been allowed to view the material contained in this scenario.

The scope of this Exercise is defined in Section 1.1 of the scenario (Page 1).

S ator Operator Validation ate

NIIW MILEPOINT UNIT NO. 2 EMERGENCY PREPAREDNESS EXERCISE SCENARIO NO. 41, REVISION 0 (FINAL)

VOLUMEI SECTION TITLE 1.0 D FI 2.0 I E HED LEANDE E T F LAY 3.0 TT Tl 4.0 RI 5.0 R I R A D I 5.1 Initial Conditions 5.2 Scenario ~

5.3 Scenario Timeline 5.4 Simulator Malfunctions Timeline T E 6.1 Simulator Malfunctions List and Message Summary 6.2 In-Plant Scenario Messages 6.3 Supplemental Scenario's 6.4 0%site Scenario Message Summary t

7.0 PFRATI D T R 7.1 Operations Plant Parameter Data 7.2 Plant Equipment Status Data 7.3 Operations Panel 632 Data 7.4 Operations Panel 642 Data 7.5 Area Radiation Monitor Data 7.6 Process Radiation Monitor Data 7.7 Continuous Air Monitor Data 7.8.0 In-plant Reactor and Turbine Building Node Maps 7.8.1 In-plant Radiation Levels 7.8.2 In-plant Airborne Contamination Levels .

7.8.3 In-plant Surface Contamination Levels 8.0 HEMI TRY T t RIE 8.1 Reactor Coolant 8.2 Drywell Air 8.2 .Stack

0 NXME MILEPOINT UNIT NO. 2 EMERGENCY PREPAREDNESS EXERCISE SCENARIO NO, 41, REVISION 0 (FINAL)

VOLUMEI SECTION TITLE 9.0 ED TA 9.1 Meteorological Data 9.2 Meteorological Forecasts 9.3 Total Release Rates 9.4 Stack Release Rates 10.0 DATA 10.0 Downwind Survey Maps 10.1, NMPC Onsite Survey Team Data 10.2 NMPC OH'site Survey Team Data 10.3 Oswego County Survey Team Data 11.0 T 11.1-3 JNC Messages 11.4 Oswego County Messages

NINE MILEPOINT UNIT NO. 2 EMERGENCY PREPAREDNESS EXERCISE SCENARIO NO. 41, REVISION 0 (FINAL)

SECTION TITLE 7.0 n 7.1 Operational Parameters 7.2 Plant Equipment Status 7.3 Ops Panel 632 7.4 Ops Panel 642 7.5 Area Radiation Monitors 7.6 Process Radiation Monitors 7.7 Continuous Air Monitors 7.8 Simulator Not Operating Annunciator Windows 7.9 In-Plant Maps 8.0 n 8.1 Reactor Coolant Analysis 8.2 Drywell Air Analysis 8.3 Stack Air Analysis 9.0 il i 1 D Hn 9.1 Meteorological Data Handouts

0 Kine MilePoint Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL) 1.0 I. I +@~

e A. Simulated radiological emergency at NMP Unit 2.

B. Emergency classification and subsequent notification of the Emergency Response Organization, Oswego County Emergency Management, New York State Emergency Management and the NRC.

C. Staffing and Activation of the Emergency Response Facilities.

D. Station Evacuation and emergency personnel accountability with all site personnel response.

E. Simulated site evacuation F. On-site and offsite radiological response and monitoring (as required)

G. Damage control team response.

H. Post accident sampling I. Annual environmental monitoring drill (Out of Sequence)

J. Full Oswego County participation.

K. Full New York State participation.

L. 'oint News Center activation and staffing M. (EP Staff use only) EPMP-EPP-01, Attach. 2 items for this drill include; 1,2,3,4,5,6,8, 10, 13 1.2 .QhjntLvui This Exercise scenario is designed to train and evaluate the skills of the emergency response organization and review those portions of the emergency plan delineated below.

The scope of this Exercise may include the classification of emergency events up to and including a General Emergency. It conforms to the guidance contained in NRC Information Notice No. 87-54 "Emergency Response Drills" and NRC Information Notice No. 89-46 on confidentiality of scenarios. This section contains the objectives which Niagara Mohawk Power Corporation (NMPC), will demonstrate during the conduct of this Exercise at the Nine Mile Point Nuclear Station.

1-1

0 Kine Mdc Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL)

Successful implementation of the Nine Mile Point Site Emergency Plan and Implementing Procedures in response to simulated conditions presented 'equired during the course of the Exercise by all members of the Nine Mile Point Emergency Response Organization.

I

<<1. The Operating Shift will detect and assess the emergency when conditions are presented to them in the Unit'2 Simulator, and perform appropriate mitigating and corrective actions per (normal, special and emergency)

Station operating procedures.

<<2. The Site Emergency Director will identify the appropriate emergency classification in accordance with EPIP-EPP-02 and ensure initial on-site and off-site notifications are completed in accordance with EPIP-EPP-20 The Site Emergency Director will ensure that upgrades to the emergency classification are made in accordance with EPIP-EPP-02, and notifications are made per EPIP-EPP-20.

'4. The Emergency Response Organization will staff the Emergency Response Facilities when required by EPIP-EPP-18 in accordance with EPIP-EPP-23.

  • 5. The Emergency Response Facilities will be activated in accordance with EPIP-EPP-23, when required by EPIP-EPP-18.
  • 6. The appropriate Emergency Response Facility Leader will demonstrate command and control of each of these facilities as specified in EPIP-EPP-18 and EPIP-EPP-'23.
  • 7. The Personnel Accountability Coordinator will ensure personnel accountability is performed in accordance with EPIP-EPP-05.
8. The Radiological Assessment Manager will ensure proper emergency radiological practices are demonstrated as necessary by all members of the Emergency Response Organization throughout the course of the emergency in accordance with EPIP-EPP-15.

The Offsite Dose Assessment Manager, OSC Coordinator, and the Radiological Assessment Manager will ensure habitability requirements in the Emergency Response Facilities are met in accordance with EPIP-EPP-13.

1-2

0 II Kine MilePoint Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HML)

F10. The Corporate Emergency Director (CED) will ensure that appropriate Protective Action Recommendations are developed by the Quite Dose Assessment Manager in accordance with EPIP-EPP-8, and transmitted to the required offsite authorities per EPIP-EPP-20.

~ .*11. The CED will ensure that communications/notifications responsibilities are transferred to the EOF and are maintained in accordance with EPIP-EPP-20.

~12. The. Radiological Assessment Manager will coordinate with the Radiation Protection Team Coordinator to ensure in-plant surveys are performed as required per EPIP-EPP-06.

  • 13. The Radiological Assessment Staff will ensure downwind surveys are accomplished as necessary in accordance with EPIP-EPP-07.

'14. The Environmental Survey Sample Team Coordinator will coordinate the collection and analysis of required samples (air, water, soil, and vegetation) in accordance with EPIP-EPP-16 and EPIP-EPP-23. (Out of sequence)

'15. The Maintenance Coordinator will coordinate efforts with the OSC to ensure that necessary Damage Control Teams are prioritized and dispatched as needed per EPIP-EPP-22.

  • 16. The Technical Data Coordinator will ensure that the TSC and EOF Staff personnel are kept up to date on plant status changes throughout the course of the emergency per EPIP-EPP-23.
  • 17. The Radiation Protection Team Coordinator will ensure that Post Accident Sampling is performed ifrequested in accordance with EPIP-EPP-23.
  • 18. The Technical Liaison Advisory Manager will ensure that NMPC Headquarters personnel provide necessary support ifrequested in the EOF, JNC, and TSC in accordance with EPIP-EPP-23.
  • 19. The Technical Liaison Advisory Manager will coordinate needed assistance from off-site agencies per EPIP-EPP-23.
20. The Administrative Logistics Manager will coordinate all administrative activities per EPIP-EPP-23.

1-3

Nine Mile Point Unit 2 Site Erncrgcncy Exercise, Scenario No 41, Rev. 0 (HML,)

B.

'21. The EOF Administrator will ensure that EOF status boards are updated and that all other activities outlined in EPIP-EPP-23 are performed.

22. The OSC Coordinator, the Damage Control Team Coordinator, and the RP Team Coordinator will ensure that Damage Control Teams are equipped, briefed, and tracked per EPIP-EPP-22.

~23. The Damage Control Teams will ensure timely response, troubleshooting, and repair of assigned equipment'per EPIP-EPP-22.

N/D

25. The Security Director will ensure actions are carried out as appropriate for each emergency situation in accordance with applicable Emergency Plan Implementing Procedures.
26. The Exercise will be conducted and evaluated in accordance with EPMP-EPP-04.
27. A critique will be conducted following the Exercise to ascertain the, effectiveness of the response by the Emergency Response Organization as well as determine the effectiveness of the Exercise in evaluating that response.
28. The Joint News Center (JNC) will be activated and staffed as required by EPIP-EPP-27. Rumor Control, Media Monitoring, an'd Media Briefing sessions will be conducted using appropriate procedures and processes involving appropriate agencies when applicable.

Specific Exercise objectives that ifnot met could be indicative of a failure of the Exercise.

1-4

I Kine h6c Point Unit 2 Site Emcrscncy Exercise Sccnaio No 41, Rev. 0 (HEAL)

Nine Mile Poet Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HML)

Demonstrate the prompt activation, adequacy of staf5ng, set-up of and access control to emergency response facilities.

Demonstrate the capability of the NMPC ERO to identify and implement their Emergency Plan Implementing Procedures based upon plant parameters.

Demonstrate the ability of the Emergency Director to provide overall direction, including "command and control" by initiating, coordinating, and implementing timely and effective decisions during a radiological emergency.

Demonstrate the emergency measures and exchange of information between utility and Federal, State, and local agencies and other support organizations under support agreements.

Demonstrate the capability of the onsite Emergency Director to immediately and unilaterally initiate any emergency response action to authorities responsible for implementing offsite emergency measures.

Demonstrate the ability to eft'ectively transfer command and control of emergency response functions from the CR to the EOF.

Demonstrate the ability of corporate management, administrative and technical support personnel to augment (and use these personnel on a cyclic basis) the plant stalin the areas of:

1) Logistics Support
2) Technical Support
3) Government interface
4) Public information Demonstrate the ability of contractors and private organizations who may be requested, to provide technical assistance or augment the ERO.

Demonstrate the capability for services provided by the following local agencies:

1) Police
2) Fire Fighting
3) Ambulance
4) Medical
5) Hospital 1-6

Nine Mde Point Unit 2 Site Ernerscncy Exercise Scenario No 41, Rev. 0'(ANAL)

(con't)

10. Demonstrate the ability to provide a liaison at each participating offsite governmental emergency operations center (NYSEMO, OCEMO).

N/D11. Demonstrate the use of the Fire Brigade .

N/D12. Demonstrate the use of first-aid (medical support personnel) and/or rescue teams to provide first aid for contaminated, injured personnel, and transport the individual to a local hospital.

N/D13. Demonstrate the ability of local and backup hospitals (locations may be rotated on a biennial basis) to:

1) Evaluate radiation exposure and uptake.
2) Handle a contaminated individual injured on site.

N/D14. Demonstrate the use of security personnel to provide prompt access for emergency equipment and support.

15. Demonstrate the collection capabilities, resources and equipment used to analyze and provide initial values and continuous assessment throughout the course of an accident. Specifically, radiological and efBuent monitors, in-plant radioiodine instruments, and containment radiation monitors.
16. Demonstrate the methods, equipment, and expertise available to make rapid assessments of the'actual or potential magnitude and locations'of radiological hazards from both gaseous and liquid release pathways. Specifically, field team notification, activation, composition, transportation, communications, monitoring equipment and deployment times.
17. Demonstrate communications with the State and County EOCs and the Environmental Monitoring Teams from the EOF.

1-7

'ine Mile Point Unit 2, Site Emergency Exercise.

Scenario No 41, Rev. 0 (HEAL) .

h 1.4 (con't)

18. Demonstrate the ability to notify and mobilize oQsite EROs consistent with the classification scheme within the appropriate time interval including:
1) Verification of messages
2) Follow up messages
3) NRC Notification
4) Backup communications N/D 5) Medical facility notification
6) Fixed and Mobile Lab Facilities
7) All Emergency Response facilities.
8) All NMPC ERO members
19. Demonstrate that the State/local officials have the capability to make a public notification decision promptly on being informed of an emergency condition.
20. Demonstrate the availability of a back-up power supply and a backup means to the primary communications.

. 21. Demonstrate the ability to estimate integrated dose from projected and actual dose rates and to compare these estimates with the Environmental Protection Agency (EPA) Protective Action Guides (PAGs).

N/D22. Demonstrate the ability to follow established exposure guidelines consistent with EPA-400 for:

1) Removal of injured personnel.
2) Taking corrective actions.
3) Performing assessment functions.
4) Providing first aid.
5) Performing personnel decontamination.
6) Providing ambulance services.
7) Providing medical treatment services.

~

23. Demonstrate the methods used to implement emergency exposure guidelines and the ability to authorize emergency workers to receive doses in excess of 10 CFR 20.

1-8

Kine Mile Point Unit 2 Site Emergency Exercise, Scenario No 4], Rcv. 0 (HEAL) 1.4 (con't)

24. Demonstrate:
1) The capability for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> per day determination of emergency personnel and volunteer dose.

Provisions for distribution of both self-reading and permanent record devices.

The ability for tracking exposures administratively exist.

The increased frequency for reading dosimetry.

25. Demonstrate the capability for onsite contamination control including:
1) Area access control.

N/D 2) Drinking water and food supplies.

N/D 3) Return of areas and items to normal use.

26. Demonstrate the capability for onsite and oQ'site radiological monitoring to include:

I) Collection and analysis of water samples.

2) Collection and analysis of vegetation samples.
3) Collection and analysis of soil samples. ')

Collection and analysis of air samples.

5) Provisions for communications and record keeping.
27. Demonstrate the availability and use of respiratory protection, protective clothing and potassium iodide (KI) for onsite emergency response personnel.
28. Demonstrate the ability to estimate total population exposure.
29. Demonstrate the ability to decontaminate onsite personnel on site.

N/D30. Demonstrate the ability of physicians and other medical personnel qualified to handle radiation emergencies on-site.

31. Demonstrate the ability to recommend protective actions to appropriate oFsite authorities.
32. Demonstrate the ability to advise individuals onsite or in owner controlled areas of emergency conditions, evacuate these personnel to an alternate location, and conduct onsite accountability for those personnel remaining onsite, and conduct search and rescue for those missing, ifnecessary.

1-9

Kine Mie Point Unit 2 Site Emergency Exercise ScenarioNo 41, Rcv. 0 (HEAL) 1.4 (con't)

33. Demonstrate:
1) The operations of the JNC and the availability of space for the media.
2) The availability of space for a limited number of news media personnel in the EOF.
3) Abilityto brief the media clearly, accurately, and timely
4) Coordination of information prior to release
5) Rumor control operations N/D 34. Demonstrate the capability to:
1) Enter into recovery.
2) Inform the State of the opportunity to reduce the need for protective actions.
3) Activate the recovery organization
4) Continue Assessment and response
5) Provide Corporate Technical Support JV/D = Not demonstrated for this drilVexercise. This listing is taken from EPMP-EPP-04, Table 1, Exercise Objectives.

1-10

Nine Mile Point Unit 2 Site Emergency Excrciac Scenario No 41, Rev. 0 (RPAL)

A.

Date: 9/10/97 Time: 0900 Final briefing for all Observers/Controllers Location: Unit 2 Ops Bldg. Trng Rm Al Attendees: Designated Observers/Controllers Date: 9/23/97 Time: 1300 Final briefing for all NRC/FEMA Evaluators Location:. Classroom C3 Nuclear Learning Center Attendees;. NRC Evaluators C.. P~jii Date: 9/24/97 Time: 0700 Control Room/Simulator Observers/Controllers should be in place at 0630.

All other Observers/Controllers should be in place at 0715.

D. .rii i n NR . i

~fl lgll, Date: 9/25/97 Time: 0900-1200 (Roll Up 11:00 to 12:00)

Location: Unit 2- P Bldg. GET Classroom B Attendees: Observers/Controllers/and Players

+~~xi Date; 9/25/97 Tlni e: 1200-1300 Location: P-Bldg Large Conference Room Attendees: Senior Management, Plant Managers, Branch Managers and Interested Site Supervision 2-1

Kine Mle Point Unit 2 Site Emergency Exercise.

Scenario No 41, Rcv. 0 (HEAL) 2.2 Those expected to participate in the Exercise may include, but are not limited to, the following:

1. Designated Unit 2 Control Room, TSC, EOF, OSC, and JNC NMPC personnel with emergency duties
2. Corporate Support as necessary
3. NMPC Nuclear Security
4. Oswego County (FULL)
5. New York State (FULL)
6. All station personnel (limited participation)

~ydpdp E I p Ipp I pp are not limited to, the following:

1. 'esignated Id<<d III EP I

7 PE 44474,~I II NMPNS No. I and 2 personnel engaged in operations activities Id,d

2. Selected Nuclear Security personnel
3. Station personnel working on emergent work identified and approved by the Plant Manager 2.3 A. All plant parameter data B. All radiological data C. All scenario related events 2.4 A. Declaration of emergencies B. Notification to offsite agencies C. Emergency notifications over the site paging system D. Activation of Emergency Response Facilities as necessitated by procedure E. Damage Repair Team response F. Downwind Survey Teams G. In-plant Survey Teams H. Use of protective clothing by all in-plant teams ifwarranted by scenario data and directed by Exercise response personnel SCBAs to be carried as appropriate Other evolutions required by emergency procedures which do not affect plant equipment or operations NOTE Damage Control Teams will obtain the requisite tools and equipment necessary to perform the simulated r'epairs. Procedure steps and paperwork associated with obtaining replacement parts necessary for the task sho'uld be performed. The health physics controls specified at the team briefing should be followed.

2-2

Nine Mle Point Unit 2 Site Emergency Exercise Scenario No 41, Rcv. 0 (HNAL) 3.0 A. Controllers

a. Review the objectives listed in the scenario.
b. Review and understand the scenario time line and events. Know what is supposed to happen and when.

C. Review applicable EPIPs.

d. Determine major areas/tasks on which to concentrate observations.
e. Review and understand any message information you are responsible for.
f. Review and understand any data you are responsible for.
a. Identify your Lead Facility Controller and the observers.
b. Follow any instructions provided to you by the Lead Facility Controller.

C. Provide any, information, data, or messages in accordance with the scenario.

d. Identify and log any errors, misuse/non-use of procedures, or poor communication technique.

Inform the Lead Facility Controller of any conditions that would cause the scenario to not follow expected actions or time line.

Detail all facts surrounding the meeting of or failure to meet any objectives.

Accomplish this by keeping a detailed log of events.

Verify execution of each players'ctions in accordance with EPIP.-EPP-23. If, actions are not demonstrated due to scenario scope, then question the player on how the action would be accomplished.

Provide the Lead Facility Controller with all observations and notes at the end of the drilVexercise.

B. Observers l.

a. Review the objectives listed in the scenario.
b. Review and understand the scenario time line and events. Know what is supposed to happen and when.

C. Review applicable EPIPs.

d. Determine major areas/tasks on which to concentrate observations.

~h

a. Identify your Lead Facility Controller and Controllers.
b. Follow any instructions provided to you by the Lead Facility Controller or Controllers.

Convey any errors, misuse/non-use of procedures or poor communication technique to the Lead Facility Controller or Controllers.

3-1

Kine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HNAL)

B. Observers

2. (cont.)
d. Detail all facts surrounding the meeting of or failure to meet any objectives.

Accomplish this by keeping a detailed log of events.

Verify execution of each players'ctions in accordance with EPIP-EPP-23. If actions are not demonstrated due to scenario scope, then request a Controller initiate a discussion with the player to satisfy the action.

Provide the Lead Facility Controller with all observations and notes at the end of the drill/exercise in a readable and understandable format.

3.2 rv i n h kli Observer/Controllers shall familiarize themselves with the duties and action requirements of the personnel they are monitoring. The Evaluation Checklists (attached) provide basic evaluation criteria which should be addressed by the Observer/Controller in order to effectively critique the Exercise. Evaluation Checklists are grouped according to Exercise activity location and individual (or team) functions.

3.3 A. The on-shift Station Shift Supervisor may suspend or terminate the Exercise at any time plant conditions warrant. Ifthe Exercise is suspended, an announcement will be made stating "The Drillhas been suspended, all Controllers are directed to contact their associated Lead Facility Controller." This meeting will be held to discuss contingency actions either to cancel or continue the Exercise.

B. Do not take actions that will affect normal plant operations.

C. Take immediate action(s) to restore safe operation, ifan unsafe condition exists.

Ignore Drill situation if actual safety becomes a concern.

D. All simulations and verifications should be expressed verbally in the plant.'ll actions should be performed in the Control Room (Simulator) per normal operating procedures.

E. Exercise events will be initiated by the Simulator Controllers using normal simulator actions and the prescribed scenario time line.

F. Controllers may provide appropriate information at the location where that information would normally be available (i.e.; reactor status at the Control Room, dose rate readings with field teams, etc.)

3-2

v

'Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL) 33 (continued)

The purpose of the Exercise is to test Emergency Plan Procedures and implementation of the major aspects of the Emergency Plan. MLHQXBECOME OVERLY CONCERNED WITH THE MECHAMCS OF THE REACTOR OR THE CAUSE OF THE ACCIDENT. THIS EXERCISE IS DESIGNED TO TEST SELECTED NINE MILEPOINT NUCLEAR'STATIONEMERGENCY PROCEDURES AND IS NOT CONCERNED WITH ESTABLISHING THE PROBABILITY,FEASIBILITY,OR DETAILED MECHAMCS OF THE SIMULATEDACCIDENT.

H. There may be one or more Observer/Controller at each important location.

Controllers may provide information and clarification on which actions are to be simulated or are outside the scope of this Exercise in order to keep the Exercise progressing in accordance with the scenario.

All Exercise-related. public address announcements and offsite communications will begin and end with the statement, "THIS IS A DRILL, THIS IS A DRILL..."

The Lead Controller may authorize other Controllers to modify the scenario to fit unusual conditions or events to maintain the scenario within the scope of the objectives and in order to maximize the practical training benefit presented by the Exercise experience. Ifa modification is made, the Exercise Controller shall report to the Director Emergency Preparedness what changes were made.

Ifsamples inside or outside the site are deemed necessary, they will actually be collected, ifpossible, and their analysis conducted or simulated as directed. by a Controller. Observers/Controllers will accompany the survey teams, both onsite and offsite.

The Control Room Controllers will answer questions from Control Room (Simulator) staff regarding the Exercise before proceeding to scenario initial conditions.

A Controller should accompany any Operator dispatched from the Control Room for Exercise pur'poses. A Controller should be present at any briefing given to an operator prior to this dispatch. As a minimum the controller shall brief dispatched personnel on what they will see when they arrive at the scene.

All Exercise Participants, Observers, and Controllers should ensure that they do not interfere with normal plant operations.

O. Operations in-plant staff should ensure that they report to the actual Control Room and are directed (as appropriate) from the Simulator Crew.

~ 3-3

Nine MilePoint Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL) 3.4 ~pa~

The Exercise report will be issued in accordance with the requirements of EPMP-EPP-04, Emergency Drill/DrillProcedure.

~ ~

Nine Mile Point Unit 2, Site Emcrscncy Exercise Scenario No 4l, Rcir. 0 (HVAR) 3.5 Luaaiiun Brsithn Simulator Lead Drill Controller John Kaminski Pager 1254 Simulator Command/Control Glenn Bridges x2177 Controller Simulator Management Observer x2177 Simulator Operations Controller G. Pitts x2177 Simulator Operator J. Toothaker x2177 TSC Phone Numbers: 349-1223 and 349-1224 TSC Command/Control Obs. J. Conway Pager 1226 (Facility Lead Controller) G. Steiner Pager 1023 TSC Tech Data Controller R. Randall Pager 1229 TSC Tech Staff Observer G. Wierzbowsh 1405

'ager TSC Rad Assessment T. Hogan Pager 1005 ..

Controller TSC Rx Analyst Obs. J. Darweesh Pager 1089 TSC Maint. Coord. Obs S. Nicolaos Pager 1066 TSC NED Observer T. Lee Pager 1010 OSC Phone Number: 349-1247 OSC Command/Control Obs P. Kehoe Pager 1088 (Facility Lead Controller) (J. Peluso) 349-1247 OSC Mech/Elect Obs. C. Fisher Pager 1001 (Damage Control)

OSC Communicator Obs C. McClay Pager 1081 3-5

0 Kine Mle Point Unit 2, Site Emergency Excrcile Scenario No 41, Rev. 0 (HEAL,)

3.5 ~4C 4 4 LtzaQan Pmhhn OSC DCT Controller D. Cole Pager 1004 DCT Controller D. Reynolds Pager 1003 DCT Controller R. Ruggio Pager 1033 DCT Controller W. Gibson Pager 1615 OSC RP DCT Controller V. Schuman Pager 1295 RP DCT Controller S. Taylor Pager 1176 CR/OSC Operations Controller C. Croasmun GAItronics Operations Controller J. Poindexter GAItronics Operations Controller T. Tut tie GAItronics PASS PASS Controller J. Bach GAItronics, EOF Phone Number: 349-2959 EOF Command/Control Obs K. Dahlberg Pager 1140 (Facility Lead Controller) J. Jones Pager 1024 EOF Rad. Assessment A. Moisan Pager 1719 Controller EOF Down Wind Controller ~

R. Leski Radio Ch. 1 Down Wind Controller A. DeSanto Radio Ch. 1 Down Wind Controller J. R. Cole Radio Ch. 1 EOF Communications Obs E. Dunn Pager 1177 EOF Technical Assessment J. Reid Pager 1100 Controller EOF Security EOF Obs H. Christensen Pager 1200 Security STOC Cont. W. Byrne 349-1313 EOF TLAM Observer D. Baker Pager 1110 EOF ALM Observer J. Josh Pager 1506 3-6

Kine Mte Point Unit 2 Site Emergency ExercIse Scenari No 41, Rev. 0 (RML)

Continued Lumiha PEil11QD Lead Facility Contr. R. Burtch Pager 1124 Tech. Controller T. Paeno 592-3703 Tech Observer R. Magnant 592-3703

'I OCEOC UtilityObserver R. Watts 598-1191 PMC UtilityObserver P. Polfleit Reception Center UtilityObserver M. Prarie 3-7

Nine Mile'Point Unit 2 Site Emergency Exercise Scenari No 41, Rcv. 0 (HEAL) 4.0 A. As the Unit 2 Simulator is being used to produce all data used for this Exercise scenario, it is assumed for the purposes of this Exercise that the Unit 2 Simulator provides "engineering" correct data as far as the simulator is modeled.

B. Radiological data was empirically derived by the simulator model to support the objectives of the scenario.

C. Offsite Radiological Data was derived using an EP Scenario Generating computer model and using the assumptions made for'the EP Scenario Generating computer model. Additionally, offsite dose rates may not reflect release rates experienced at the station. The dose rates have been adjusted as necessary to fulfillOffsite Agency objective requirements.

D. Chemistry Data was derived using the EP Scenario Generating Computer Model and uses the assumptions developed for the computer model.

4-1

Nine Mtc Point Unit 2 Site Emergency Exercise SeenrLrio No 41, Rev. 0 (HML) 50 5.1 The scenario commences with reactor power at 100% having been at this power level for 182 days. The following equipment is out of service:

CSH Marked up, a through wall crack was discovered two days ago (0800) on the CSH piping just before 2CSH-MOV107. The repairs have been completed and radiography is scheduled to begin today at 0700, with return to service of CSH by 1600 today

'B'ain Feed pump is marked up out of service for seal replacement, expected to be off returned to service in two days.

'C'. Main Feed pump is operating on 2NPS-SWG-001, the breaker for 2NPS-SWG-003 is out of service for repair Tech Spec LCOs in effect:

3.4.8.b Structural Integrity, 3.5.1.c ECCS Systems, High Pressure Core Spray With the J. A. FitzPatrick Nuclear Station lin for refueling, the grid is operating at near, record capacity due to the warm weather and high humidity being experienced over the past 10 days. Temperatures are expected to be again in the 90's with high humidity and a 60%

- chance for severe thunderstorms later this morning.

Rmarh The Exercise will commence when Area radiation monitors on Reactor Building elevation 289 alarm. Operators will receive a report from the radiographer that during radiography of the weld repair, the source dropped from the canister. All personnel were evacuated from the area, and the radiographer is requesting assistance in locating the source.'he SSS will inform Radiation Protection personnel, implement EPIP-EPP-21, Radiation Emergencies, review DRMS and EPIP-EPP-02, EALs and declare an Unusual Event per EAL ¹ 1.4.1.

Notifications will be made in accordance with EPIP-EPP-20.

RP will commence surveys of the area and report that radiation levels in the area of the source are 80-100 R/hr. The radiographer reports that the source used was a 100 ci cobalt 60 source. ALARAconcerns will preclude immediate retrieval of the source, and until appropriate tools and lead cask are obtained, reactor building 261 and 289'levations should remain clear of personnel.

At about 0730, the control room will receive a report from the site meteorologist that the potential exists for a severe thunderstorm for counties east and southeast of Lake Ontario until 10:00, with damaging winds, hail, heavy precipitation and lightning. At about 0810, the control room will receive a report of a heavy downpour outside with strong gusting winds and hail.

5-1

Nec Mile Poet Urut 2 Site Emcrscncy Excrcigc Scenario No 41, Rcv. 0 (R¹K)

At about 0813 annunciators will be received indicating a loss of Line 6 115KV offsite power.

At 0815, Security will contact the control room and report that a tornado was spotted on site by guards performing normal rounds.

The tornado was observed to strike the diesel generator building and the reactor building off before moving offto the northeast onto Lake Ontario.

Security will indicate that one of the 115 KV, overhead lines is down. No visible damage can be seen to either the reactor or diesel generator building, however some of the siding on the access control building will be reported to have been tom offas the tornado passed.

Additionally, the tornado will ONLY have touched down at the station before moving t Lake Ontario. No damage will be identified in the surrounding area. DCTs dispatched to

.inspect will find damage as follows:

~ Siding on west wall of access control building removed, roofing damaged

~ Div I DG mufIier minor damage to externals

~ Div II DG muEer and exhaust outlet have no'damage

~ Security fence damaged on north east side of station close to lake

~ ADH system appears to have sustained minor damage to cooling towers The SSS when informed of the tornado strike will refer to EPIP-EPP-02, and declare an Alert emergency condition in accordance with Emergency Action Level¹ 8.4.5 or ¹8.4.6 The SSS/SED will implement actions in accordance with EPIP-EPP-18, and direct notifications in accordance with EPIP-EPP-20. The SSS/SED will direct that the Emergency Response Facilities (ERFs) be activated, and also direct that operators perform rounds to determine extent of damage from the tornado.

At about 0845, the operators will receive an annunciator indicating a Standby Liquid Control (SLC) tank low level, but with the radiographers source remaining uncontrolled, operators will be unable to access the area to determine the cause. When the ERFs are staffed at about 0850, the SSS/SED will provide plant status and other information and turn'over duties of the Site Emergency Director to the TSC/SED. The SSS will also request Damage Control Teams be assigned to the following tasks; location/retrievaVremoval of radiographers source, plant damage assessment following tornado strike, and determine cause of SLC tank low level.

Damage Control Teams will be dispatched as requested. The radiographers source will not be able to be located and retrieved until 1130, thus all access to reactor building elevation 289 will be precluded due to the high radiation in the area.

5-2 '

Nine h6lc Pomt Umt 2 Site Emergency Exercise Sccnano No 41, Rcv. 0 (HEAL)

Ifthe Radiological Assessment Manager (RAM) can provide rapid response teams that will not exceed normal dose limits, or ifdanger to the health and safety of the general public can be averted through the use of emergency exposure authorization in accordance with EPIP-EPP-15, then the on-scene controller will provide indications that the source is located in an inaccessible area and personnel provided dose rates as appropriate when they enter the area.

At about 1000, the control room operators will be made aware of a Main Generator load reject, turbine trip, and associated reactor scram via annunciators sounding in the control room. The control room operators will identify'that only two banks of control rods inserted, with all other control rods remaining at their previous position. Reactor power will remain above 4% until additional actions in accordance with the Emergency Operating Procedures (EOPs) are taken. The turbine bypass valves will fail to operate due to a postulated failure of pressure control circuit. The SLC system will not operate due to the postulated rupture

'he of the storage tank. Power oscillations will begin when both Reactor Recirculation pumps are tripped by the operators performing EOP actions.

The SSS will inform the SED of the change in plant status and recommend declaration of a .

Site Area Emergency per EAL 0 2.2.2. Following concurrence with the CED, the TSC/SED will declare a Site Area Emergency and ensure notifications are carried out in accordance with EPIP-EPP-20. Control room operators will take actions IAW EOPs to stabilize the plant, control reactor water level using normal Feed Water, RCIC and CRD, control reactor pressure via the Safety Relief Valves (SRVs) in manual control and continue attempts to insert the control rods. The SSS will request DCT assistance in performing EOP actions to stabilize the plant.

As power oscillations continue, the oscillations will become severe enough to sufficiently damage the reactor fuel. The use of the SRVs and RCIC will circulate sufficient amounts of the coolant into the Drywell to cause the Drywell radiation and airborne levels to rise, with associated alarms. Additionally a small leak will de;clop in the reactor recirculation system, of sufficient magnitude to cause drywell pressure to rise above 1.68 psig.

At about 1045, an instrument pipe on the RCIC steam line will shear causing a steam release sufficient to cause a turbine trip and successful isolation of the system.

Radiation levels in the drywell will continue to rise due to increased fuel failure from the power oscillations experienced during the failure to scram event, and the small leak in the drywell.

5-3

0 Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (h7NAL)

When Drywell radiation rises to 5.2x10'/hr, the SSS will refer to EPIP-EPP-02, and make recommendations to the TSC/SED to declare a General Emergency per EAL ¹1.3.3 Following concurrence by the CED the TSC/SED will declare a General Emergency in

¹ accordance with EAL 1.3.3. Notifications will be made in accordance with EPIP-EPP-20, and Protective Actions Recommendations will be made in accordance with EPIP-EPP-08.

At about 1230, drywell penetration Z21B, a blank pipe penetration on reactor building elevation 265'ill fail. The failure of this penetration will permit a large noble gas release t'o begin into the reactor building. The reactor building will again be evacuated. The Standby Gas Treatment system will be operating with suction from the reactor building and discharging to the main stack. As noble gases are released from the drywell, a noticeably sharp rise in stack release rates will be'observed. The stack release rates will eventually peak a release duration of 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> expected.

'ith The drywell will depressurize to be equal to reactor building pressure and the release into the reactor building will slowly subside, causing the Stack release rates to subside. As release rates from the stack lower, downwind dose rates will subside.

The exercise will be terminated when the following conditions have been met:-

Reactor Depressurized, reactor level stabilized Control Rods are being inserted via repeated scrams Release Rates are verified as lowering Downwind survey teams have reported dose rates are lowering in the evacuated ERPAs It has been verified that Oswego County has completed all required objectives It has been verified that New York State has completed all required objectives 5-4

0 Nine Mile Point Unit 2, Site Emergency Exercise Sccnano No 41, Rev. D (HEAL) 5.3 NINE MILEPOINT UNIT 2 SITE EMERGENCY EXERCISE SCENARIO ¹41 EXERCISE TIMELINE(Times are approximate) 0700 Scenario ¹ 41 Begins Initial Conditions:

~ Reactor Power 100%

~ Continuous run 182

~ Grid operating at capacity (record levels) due to warm weather

~ Equipment out of service:

-CSH Marked up, through wall crack on CSH piping just before CSH-MOV-107

-"B" Feedpump marked up for seal replacement

-"C" Feedpump is operating on 2NPS-SWG-00 1, breaker for 2NPS-SWG-003 out of service

~ Radiography on weld repair for pipe to CSH-MOV107 continuing this shift.

(RB el. 289')

~ Meteorological Conditions:

-Unusually warm September

-Temperature in 90's for last week with high humidity

-Overcast, thunderstorms predicted for this morning 0715 - ARMs on RB cl. 289'larm Radiographer reports:

- dropped source during radiography of pipe to CSH-MOV-107

- cleared all personnel from area Informs CSO/SSS

~S.

- informs RP

- consults EPIP-EPP-02 and:

- declares an Unusual Event per EAL ¹ 1.4. ) =UNUSUAL

- directs notifications per EPIP-EPP-20 EVENT 0730 - RP commences surveys of area, 0735 - Report from NationalWeather Service Radio of Severe Weather (Scverc Thunderstorm Warning for counties south and east of Lake Ontario until 10:00 am.

0745 - RP locates source, unable to readily retrieve due to location 0810 - Operators report heavy downpour outside with hail and gusting winds.

0813 - -- 115KV Linc G trips 5-5

Nine Mile Point Unit 2 Site Emergency Excrcisc Scenario No 41, Rev. 0 (RP/AL) 5.3 NINE MILEPOINT UNIT 2 SITE EMERGENCY EXERCISE SCENARIO ¹41 EXERCISE TIMELINE(Times are approximate) 0815 - Security reports tornado on-site.

The CSO informs the SSS of tornado strike on DG building and Reactor Building 555:

- consults EPIP-EPP-02, declares an Alert per EAL i'.4.5 or tI 8.4.6

- directs notifications per EPIP-EPP-20 ALERT

- directs operators to perform plant inspections for damage 0845 - SLC Tank low level alarm,

- unable to verify cause due to radiation levels on RB. El 289'850

- Emergency Response Facilities stafed GSS

-turns over SED duties to TSC communications turned over to EOF 0920 - OSC dispatches DCTs to assist as requested for:

- location/removal of radiographers source

- plant damage assessment following tornado

- cause of SLC Tank low level 1000 - -'ain Generator load reject, grid fault

- Reactor Faib to Scram (2 rod banks insert, all others remain at previous location)

- SLC fails to initiate due to tank level at 0 gaL

- Turbine Bypass valves fail to respond

- Power oscillatlons begin (GAP release occurs, increased fuel failure)

- Small stcam leak begins in drywell 1015 - SSS informs SED, recommends declaration of SAE

- SED consults EPIP-EPP-02, and CED and: SITE AREA

- declares a Site Area Emergency per EAL fg 2.2.2 EMERGENCY

- directs notifications per EPIP-EPP-20 1015 - 1 additional control rod bank inserts following each drain-down of SDV 1045 - RCIC Trips and isolates 5-6

Nine Mile Point Unit 2 Site Emergency Excrcisc Scenario No 41, Rev. 0 (HML)

NINE MILEPOINT UNIT 2 SITE EMERGENCY. EXERCISE SCENARIO ¹41 EXERCISE TIMELINE(Times are approximate) 1130 - Drywell radiation exceeds 5.2x10'R/hr 5SS

- reports plant status change to SED/CED,

- recommends upgrade to General Emergency per EAL //1.3.3 1145

- consults EPIP-EPP-02, and the CED GENERAL

- declares a General Emergency per EAL im/1.3.3 EMERGENCY

- directs notifications per EPIP-EPP-20

- makes Protective Action Recommendations per EPIP-EPP-08 1200 - Lunch 1230 - Drywell penetration Z21B at RB eL 265'ails

- ARMs alarm on RB 261,

- Drywell to wetwell vacuum breakers open

- Drywell pressure falls 1245 - Release exceeds Technical Specification limits RELEASE BEGINS

"-)400 - Terminate Exercise when:

- Reactor Depressurized, reactor level stabilized

- Control rods are being inserted via repeated scrams

- Release rates lowering,

- Downwind survey teams report dose rates lowering

- Oswego County has accomplished its objective requirements

- New York State has accomplished its objective requirements 5-7

0 Kine MlcPoint Unit 2 Site Emergency Excreisc Scenario No 41, Rcv. 0 (RYE) d i v 0 Simulator Malfunctions Timeline CAUTION: ~

This timeline, willbe used as a rough estimate for the timing ofmalfunctions necessary to conduct the scenario.

Validation ofthe scenarr'o has shown that the actual timing input ofthese malfunctionslremote functions/instructor overrides may vary due to timing of actions taken by the operators in the performance ofthe required procedures.

Time Malfunction/ Erpectcd Simulator/plant response (Approximate, verify Remote Function/

when to insert item Instructor Overrides with lead controller prior to insertion) 0630 I~i'~ a c' ct' o v e obe i sce a'owi IC-97/ Disk(41)

Thc scenario commences with reactor power at 100% having bccn at this power Icvcl Verify thc following prc-sct for 182 days. Thc following cquipincnt is out of service:

JQghll~ei IJJ; CSH Marked up, a through wall crack was discovered two days ago

1. RX04 at 100% (0800) on thc CSH piping just bcforc 2CSH-MOV107. Thc repairs have
2. TC06 been completed and radiography is schcdulcd to begin today at 0700, with
3. RD17 at 48 for all but rctum to scrvicc of CSH by 1600 today first 2 banks 'B'ain Feed pump is marked up out of scrvicc for seal replacement, cxpcctcd to bc rcturncd to scrvicc in two days.

~V'he following Instructor 'C'ain Fccd pump is operating on 2NPS-SWG401, thc brcakcr for ovemdes for grccn light oA tt: 2NPS-SWG403 is out of scrvicc for repair Tech Spec LCOs in effect:

1. CSH-P1A/P2A 3.4.8.b Structual Integrity
2. CSH'MOV101,105,107, 3.5.l.c ECC, High Prcssure Core Spray 110,111,118
3. FWS-P1B With thc J. A. FitzPatricL Nuclear Station online for refueling, thc grid is operating
4. FWS-MOV47B at near record capacity duc to thc warm weather and high humidity being
5. CNM-MOV84B cxpericnccd over thc past 10 days. Tcmpcraturcs arc expcetcd to bc again in the 90's
6. FWS-P I C from bus 003 with high humidity and a 60% chance for scvcrc thunderstorms later this morning.

VeieV'.

FWL-P2C off 0700 Comincncc Scenario, start tape Crew takes shiA and videota pe cntirc drill.

0715 nsert emote uncii: (FG) Area Rad Monitors in Reactor Building clcvations 289 and 261 in the vicinity ol'thc

1. RMS-143 to read 1.2 R/hr lost radiographcrs source alarm.
2. CMS-10A to read higher than normal:

RMS87 Qa, l."E3 RMS58 Qa GE4 RMS59 Qa 6E4 See Supplemental Scenario it 1 5-8

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL)

Simulafor Malfunctions Timeline CAUTION: This timeline willbe used as a rough estimate for the timing ofmalfunctions necessary to conduct the scenario.

Validation ofthe scenario has shown that the actual timing input ofthese malfunctionsln'motefunctionslinstructor ovemdes may vary due to timing ofactions taken by the operators in the performance ofthe required procedures.

Time Malfunction/ Expected Simulator/plant response (Approximate, verify Remote Function/

when to insert item Instructor Overrides with lead controller prior to insertion) 0717 Control Room this is Joc Jones. I am thc radiographer in thc Reactor RLl Building on 289. While I was cxtcnding thc source for my first shot, thc source came loose and rolled offunder some piping. I'm not sure exactly See Supplemental Scenario ¹1 whcrc it went. I cvacuatcd thc area and told thc RP Tcchs to gct cvcryonc out. What do you want me to do now7 UNUSUALEVENT pet EAL 8 1.4;1.

0735 B essa This is Tom Gallctta thc site Mctcorologist. From the indications that wc scc a potential for a scvcrc thunderstorm exists for areas south and cast of Lake Ontario until 1000.

0810 This is Ed Dclaney, man you should scc it raining outside. Really heavy downpour, I cvcn saw some large hailstones when I was coming in. The wind is really starting to pick up with a lot of lightning also. You may want to tell thc SSS that hc might want to kccp his people inside until this stuff passes.

0813 1 1 SKV Linc 6 trips L ED02B (F3) 0815 See Supplemental Scenario ¹2 (ifsecurity 5%i does not report, This is, Site Security Supervisor, a Guard performing normal rounds just sighted a tornado on-site,'it touched down on top of Diesel Gcncrator Building and then moved olfto northeast, striking Reactor simulator controller shall input Building. It looks like onc of the 115KV ovcrlicad lines came down, and this mcssagc) some siding on thc access building has been stripped off.

See Supplemental Scenario ¹2, 3

ALERT per EAL 8.4.5 I ot 8.4.6 When power control is se Simulator eels ~SM-: A Traveling Operator has been dispatched but it will take some for him to called to dispatch a reach thc site due to the weather conditions e'IM-3 traveling operator.

0845 SLC Tank Low Lcvcl Alarm, SLC storage tank lcakagc rises sharply

1. SL04 at 100% rampcd for 10 minutes (F4)

See Supplemental Scenario ¹4 SIMULATOR OPERATOR NOTE; When operators arc restoring Reactor Building Ventilation, initiate remote functions to cnsurc 2 exhaust and 2 supply fans in reactor building arc running to prcvcnt a reactor building isolation. This should bc accomplished after thc operators secure GTS 5-9

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rcv. 0 (HEAL) ~

Simulator Malfunctions Timeline CAUTION: This timeline'will be used as a rough estimate for the timing ofmalfunctions necessary to conduct the scenario.

Validation ofthe scenario has shown that the actual timing input ofthese malfunctions/remotefunctions/instructor overrides may vary due to timing ofactions taken by the operators in the performance ofthe required procedures.

Time Malfunction/ Expected Simulator/plant response (Approximate, verify Remote Function/

when to insert item Instructor Overrides with lead controller prior to insertion)

(F5) I. Main Generator Trip I. EG01 2. SLC pumps trip (0 Icvcl in storage tank)
2. SL01 3. Fuel damage begins
3. RX01 to 5% rampcd over 4. Small stcam leak inside drywcll begins 10 minutes 5. RMCS Timer Card malfunction
4. MS03 to 2% rampcd over 6. Rods fail to insert on reactor scram for all but 2 rod banks 5 minutes 7. Turbine Bypass valves fail closed
5. RD03 8. Power oscillations begin when recirculation liow is in rcstrictcd zone or in a ci sac'v: natural circulation.

(PREQUED) Continuous insert pushbutton ino p.

6. RD17 at 48 for all but 2 banks of rods
7. TC06
g. RX04 at 100%

0 v c!

9. Continuous Insert P/B inop See Supplemental Scenario

¹5,6,7,8,9 SFMULATOR OPERATOR NOTE: Thc control rods will bc pcrmittcd to bc inscrtcd onc bank at a time following each drain down nf the scram discharge volume, reset of thc reactor scram and insertion of an additional manual scram. Only onc bank will bc inscrtcd for each rc-scram.

SIMULATOR OPERATOR NOTE: Ifusc of WCS to insert boron is commenced, role play as Radwastc operations and indicate that duc to WCS Dcmin backwashing and SFC filter backwashing earlier this wcck, thcrc is no room for any WCS drainage .

SITE AREA EMERGENCY per.:EAL ¹ 2.2;2 1045 1. RCIC stcam leak. auto isolation occurs.

1. RC12 at 10% (F7)

See Supplemental Scenario ¹10 1130 I. Drywcll radiation readings risc to above Gcncral Emcrgcncy Action Level I, RXOI to 100% 2. Fuel damage

2. MS03 to 25% 3. Additional fuel damage
3. RX05 at 50%

See Supplemental Scenario ¹1 1 GENERAL EMERGENCY per EAL ¹ 1.3B 5-10

0 Kine Mc Point Unit 2, Site Emcrgcncy Exercise Scenario No 41, Rev. 0 (RFAL)

Simulator Malfunctions Tiineline CAUTION: This timeline willbe used as a rough estimate for the timing ofmalfunctions necessary to conduct the scenario.

Validation ofthe scenario has shown that the actual timing input ofthese maifunctionslremote functionslinstructor overrides may vary due to timing ofactions taken by the operators in the perfor7nance ofthe required procedures.

Time Malfunction/ Expected Simulator/plant response (Approximate, verify Remote Function/

when to insert item Instructor Overrides with lead controller prior to insertion)

,:".,Wh'c'n'GEMS ica'di.:;";,'.:;,: Entc'r Remote',OpcIationg.:.';: ..;,":::;".:; :: I."::::',,.i,::':!:;;:";::En'su'~c's tb'at,.'GEMS,i'c'mains failc'd;u'p's'calo.'";".:,-',.,':.:": "':.::::.'::!'.i:".g.:'::.i.':';::""

~ +10c7luci/acc;j j;t<(',I", ',1 RM46,'Put, RMSI70 '2c7'i::. )

1230 Primary containment Icakagc begins and rises sharply. Drywcll should

1. PC02 at 50% rampcd dcprcssurizc through a penetration on Reactor Building cl. 265'. ARMs in over 25 minutes associated areas will alarm, GTS, ifoperating, will show risc in Stack See Supplemental Scenario tt12 relcasc rates. Rx Building ventilation, ifoperating will isolate.

<<1400 at thc direction of Place Simulator in FEEI~ 1. Stop video tape.

thc Lead Controller 2. Assist in collecting paperwork

3. Assist in critique
4. Erase boards

<<1400 at thc direction of Input Mcssagc: ~SI 4 I have the shift.

thc Lead Controller SIM-t 5-11

~ ~

Nine MilePoint Unit 2 Site Emcrscncy Exercise Sceiiario No 41, Rev. 0 (HEAL) at This Emergency Preparedness Exercise Scenario has been developed and validated using Operations personnel.

1. Core Life: End Of Life Rod Sequence: Al Plant Conditions: 100% Reactor Power for 182 days

'ca ec'at'o CO's' Structural Integrity ec'.4.8.b 3.5.1.c ECCS, High Pressure Core Spray s/

CSH Marked up, a through wall crack 'was discovered two days ago (0800) on the CSH piping just before 2CSH-MOV107. The repairs have been completed and radiography is scheduled to begin today at 0700, with return to service of CSH by 1600 today

'B'ain Feed pump is marked up out of service for seal replacement, expected to be returned to service in two days.

'C'ain Feed pump is operating on 2NPS-SWG-001, the breaker for 2NPS-SWG-003 is out of service for repair v i' 't ceo

~ Radiography to complete work on CSH piping. Radiographer on Reactor Building el. 289'eady to commence work.

~ Work progressing on 'B'ain feed pump.

~ Breaker repair for 'C'ain feed pump feeder breaker &om 2NPS-SWG-003 in progress.

a to

~ Temperatures are expected to be again in the 90's with high humidity and a 60% chance for severe thunderstorms later this morning.

etio s/ n d'tio ~:

With the J. A. FitzPatrick Nuclear Station off line for refueling, the grid is operating at near record capacity due to the wamt weather and high humidity being experienced over the past 10 days.

Emcrgcncy telephone bank is active, you are expected to use them ifyou need to notify anyone.

GAITRONICS DOES NOT REACH THE PLANT.

In-plant operators can be reached at ext.

Thc Emergency Directors "ALLCALL"line should be used as indicated on EP job aide.

Phone number you should use for announcements in-plant is ext.

All other in-plant contacts should be made to the real person, not the simulator operator.

Complete all appropriate paperwork and save for controllers. Usc all checklists, mark up as appropriate.

5-12

Nine Mile Point Unit 2 Sltc Emergency Exerctse Scenario No 41, Rcv. 0 (HEAL)

EXEECIK 1HESSER5, 6.1 Exercise Time Simulator Malfunctions, Message/Event/Expected Response Controller Messages, Summary Notes, and Instructions 0630 Insert Scenario 41 disk and load scenari 41.

Kl End Of Life, Rod Scqucncc: Al Plant Conditions: 100% Reactor Power for 182 Thc following malfunctions arc ~ 'days pre-inscrtcd: XKhQl&l 52KlflSIItttQ ~ 1Q %EKED

l. RD17 at 100% for all but ~ 3.4.8.b Structural Integrity

~ ECCS, High Prcssure Core Spray 2.

2 banks TC06 of rods 'a 3.5.1.c obc s/ab o a

~ CSH Marked up, a through wall crack was discovcrcd two

3. RX04 at 100%

days ago (0800) on thc CSH piping just bcforc 2CSH-MOV107. The repairs have bccn complctcd and Thc following cquipmcnt is radiography is schcdulcd to begin today at 0700, with marked up for maintcnancc:

return to scrvicc of CSH by 1600 today

1. CSH ~

~ 'B'ain Fccd pump is marked up out of scrvicc for seal

'B'ain Feed pump rcplaccment, cxpcctcd to bc rctumcd to scrvicc in two 2.

3. 'C'ain Fccd pump feed ~

days.

'C'ain Fccd pump is operating on 2NPS-SWG401, thc from 2NPS-SWG403, brcakcr for 2NPS-SWG403 is out of scrvicc for repair (breaker removed) '

v ti s/ I

~ Radiography to complctc work on CSH piping.

Thc following meteorological Radiographer on Reactor Building cl. 289'eady to conditions arc prcsct:

commence work.

Tcmpcraturc in the 90's

~ Seal work on 'B'ain fccd pump.

1'.

2. Humidity at 86%

~ Brcakcr repair for 'C'ain fccd pump fccdcr brc'akcr from 2NPS-SWG403 in progress.

3. Wind from the southwest,
5. c I ica dit'o shiAing to from the Tcmpcraturcs arc cxpectcd to bc again in thc 90's with northwest by midday high humidity and a 60% chance for scvcrc thundcrstorms later this morning.

Input Mcssagc:

~OC-

~ With the J. A FitzPatrick Nuclear Station offlinc for refueling, thc grid is operating at near record capacity duc to thc warm wcathcr and high humidity being cxpcricnccd over thc past 10 days.

~ Emergency tclcphonc bank is active, you arc cxpcctcd to usc them ifyou nccd to notify anyone. GAITRONICS DOES NOT REACH THE PLANT.

~ hI-plant operators can bc rcachcd at cxt.

Phone number you should usc for announccmcnts in. plant Is cxl.

~ All other in. plant contacts should bc made to thc real person, not thc simulator operator.

~ Complctc all appropriate paperwork and save for controllers. Usc all checklists, mark up as appropriate.

0700 Scenario Commences Crew takes the shift (START VIDEO TAPE) 6-1-1

0 Nine IvtilcPoint Unit 2 Site Emergency Exercise Scenario No 41, Rcv. 0 (HEAL)

Exercise Time Simulator Malfunctions, Message/Event/Expected Response Controller Messages, Summary Notes, and Instructions 0715 Area Rad Monitors in Reactor Building clevations 289 and 261 in thc Area Radiation Monitor Alarms vicinity of thc lost radiographcrs source alarm.

Acknowlcdgc alarm, rcport same to SSS Implcmcnts EPIP-EPP-21 See Supplemental Scenario Nl Makes announcemcnts as directed

~S Directs entry into EPIP-EPP-21 Directs Reactor Building evacuation Rcvicws EPIP-EPP42, and dcelarcs an UNUSUAL EVENT per EAL //

1.4.1 Assumes duties of SED and implements EPIP-EPP-18.

Directs Communications Aide to implcmcnt EPIP-EPP-20, for notifications, after completing appropriate fact shccts.

Implements appropriate station operating proccdurcs.

Directs operators to take actions in accordance with ARP's and SOP's.

0715 ~~~a~ 'NO-IC Thc following annunciators arc rcccivcd in thc Unit 2 Control Room: (dropped source)

Input this mcssagc only ifthe simulator is not operating. Thc SEE INDIVIDUALMESSACES FOR ANNUNCIATORLISf AND cxpcctcd res ponsc is thc same as INDICATIONS ifthe simulator werc operating for all SNO messages.

See Supplemental Scenario t/I

'UNUSUAL EVENT per EAL"PJ.4.'I:- "",-'; ':... ". -::".""-:,

0717 itt~u~es <~e'P-I Control Room this is Joc Jones. I am thc radiographer in thc Reactor Building on 289. While I was cxtcnding the source for my first shot, tile source came loose and rolled See Supplemental Scenario //I offunder some piping. I'm not sure exactly where it went.

I evacuated thc area and told the RP Tcchs to gct cveryonc out. What do you want mc to do now?

When RP +naute~ssa e'P-2 QP-2: You arc unablc to exactly locate the source as it is under Technicians some piping, making rctricval at this time not possible.

respond to Reactor Dose rates in thc area arc in cxecss of 75 R/hr.

Building See Supplemental Scenario //I 0735 n ut Simulator essa e This is Tom Galletta thc site Meteorologist, wc just SIM-1 received a report Crom the National Wcathcr Service for a scvcrc thunderstorm watch for areas south and cast of Lake Ontario until 1000.

6-1-2

Nine h6le Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HP/AL)

Exercise Time Simulator Malfunctions, Message/Event/Expected Response Controller Messages, Summary Notes, and Instructions 0745 lttItttiHmttu;: Qg~ Dechre thc cmergcncy pcr EALN 1.4.1 and Implcmcnt OC-2C ncccssary Emergency Plan Proccdurcs.

Ifthc SSS does no! Confer with facility lead declare an Unusual controllers in thc TSC and EOF Event, and provide this mcssagc to thc SSS/SED 0810 This is Ed Dclaney, man you should scc it raining outside.

SIM-2 Really heavy downpour, I cvcn saw some large hailstoncs when I was coming in. Thc wind is really starting to pick up with a lot of lightning also. You may want to tell thc SSS that hc might want to kccp his pcoplc inside until this stuff passes.

~O Acknowlcdgc rcport, inform thc SSS Implements N2-SOP-90 as appropriate Makes announccmcnts as dircctcd HS Monitors situation 0813 I l SKV Linc 6 trips

1. ED02B EzmfaM!tata; 5ZQ Acknowlcdgcs alarm, informs thc SSS Sce Supplemental Scenario //2 Implements appropriate procedures

~S Acknowledges CSO report Directs operator actions IAW Ops/SOPs/ARPs 08 l3 JtlJl 1l t

~e2IfCC'NO-2C ~S~; Thc following annunciators arc rcccivcd in the Unit 2 Control Room:(trip of Linc 6)

Input this mcssagc only ifthe simulator is not operating. The SEE INDIVIDUALMESSAGES FOR ANNUNCIATOR LIST AND expcctcd rcsponsc is thc same as INDICATIONS ifthe simulator werc operating for all SNO messages.

See Supplemental Scenario //2 6-1-3

Nine Mle Point Unit 2 Site Emergency ExcreLse Scenario No 41, Rcv. 0 (FINAL)

Exercise Time Simulator Malfunctions, Message/Event/Expected Response ControHer Messages, Summary.

Notes, and Instructions 0815 This is . gim Smurity Supervisor, a Guard SEC-1 performing no rmai mund s just sighted a remade on site. it (lfsecurity docs not rcport, touched down on top of Dicscl Gcncrator Building and simulator controller shall input then moved offto northeast, striking Reactor Building. It this mcssagc) looks like onc of thc 115KV ovcrhcad lines came down, and some siding on the access building has bccn stripped oK

/ghee~ted

~ct'cknowlcdgc Scc Supplemental Scenario report, inform thc SSS

//2g Ifnot already done, implements N2-SOP-90 as appropriate Makes announccmcnts as directed

~SS Directs implementation of N2-SOP-90 Rcvicws EPIP-EPP42 EAL's detcrmincs conditions mcct an ALERT per EAL ¹ 8.4.5 or ¹8.4.6 Implcmcnts EPIP-EPP-18.

Directs Communications Aide to implement EPIP-EPP-20, for notifications, aAcr completing appropriate fact shccts.

Directs activation of thc Emcrgcncy Response Facilitics (ERFs).

Directs activation of thc ERO.

Implcmcnts appropriate station operating procedures Provides turnover information and plant status to thc TSC/SED.

ALERT per EAL ¹8.4.5 or'S.4.6 When power A Traveling Operator has been dispatched but it will take control is called to StltS some for him to reach the site duc to thc wcathcr dispatch a traveling conditions.

operator.

6-1-4

Nine Mle Point Untt 2-Sttc Emcrgcncy Excrctse Scenario No 41, Rev. 0 (RFAL)

Ezercltte Time Simulator Malfunctions, Message/Event/Ez pected Response Controller Messages, Summary Notes, and Instruct tons N0830 During activation of the Emergency ~iED Rcsponsc Facilitics Continues to monitor plant status

~SC/8 D Rcccivc tumovcr from SSS.

Overscc staAing and activation of TSC pcr EPIP-EPP-23 dt, 13.

BriefTSC statf on plant status.

Dctcrminc nccds of control room and provide assistance as needed.

Ensure activation ol'thc OSC.

Rcccivc plant status update from SED.

Ovcrscc staAing and activation of EOF pcr EPIP-EPP-23 di, 13.

BriefEOF staff on plant status.

Ensure notilications arc up to date and cnsurc tumovcr of communications responsibilities is complctcd.

Ensures coordination of activities between site and otfsitc organizations.

Provides guidance to SED.

Rcvicws activities of cmcrgcncy rcsponsc to date.

Ensures that no PAR's are rcquircd to bc issued.

Ensures coordination bctwccn on-site and hcadquartcrs personnel 0840 ~i lhfLe~sa te'CDC OttO Declare thc cmcrgency per EAL¹ 8.4.5 or ¹ 8.4.6 and Implement ncccssary Emcrgcncy Plan Proccdurcs.

Ifthc SSS does not Confer with facility lead dcclarc an Alert, controllers in thc TSC and EOF 0845 ~t ~au Itdtthtt: SLC Tank Low Level Alarm, SLC storage tank lcakagc rises sharply 1, SL04 at 100% rampcd for Quieted j~e 10 minutes See Supplemental Scenario ¹4 Acknowlcdgcs alarm, informs SSS SSS Acknowlcdgcs inl'ormation Directs operators response IAWARPs, SOPs Informs TSC/SED of change to plant status Requests DCT dispatch to invcstigatc

~SARIS Acknowledges information, updates CED Directs Maintenance Coordinator to dispatch DCT to invcstigatc N0845 ~ut ~essa e'NOc3C SND-SC Thc fehnwinhanncnciarcra are receiecd in rhc Unh e Control Room: (SLC Lo Level)

Input this message only ifthc simulator is not operating. Thc SEE INDIVIDUALMESSAGES FOR ANNUNCIATOR LIST AND cxpccted rcsponsc is the same as INDICATIONS ifthe simulator werc operating for all SNO messages.

See Supplemental Scenario ¹4

k Nine Mile Point Unit2 Site Emcrgcncy Exercise Scenario No 41, Rev. 0 (HNAL)

Exercise Time Simulator Malfunctions, Message/Event/Expected Response Controller Messages, Summary Notes, and Instructions When DCT enters htltliMmum: You arc unablc to exactly locate thc source as it is under thc Reactor DC-1 some piping, making rctricval at this time not possible.

Building to retricvc Dose rates in thc area arc in cxccss of 75 R/hr.

source See Supplemental Scenario ¹1 When DCT cntcrs Thc cause of thc SLC tank leak is a crack which appears to thc Reactor bc located at thc suction lcvcl near thc A pump suction Building to linc. Thc crack is on thc connection bctwcen thc pipe and dctcrminc cause of See Supplemental Scenario ¹4 thc tank and thcrcforc is not isolatablc. Dose rates in thc SLC leak arcs arc in cxccss of 75R/hr, making close inspection impractical at this time.

When DCTs ~iJee~ssa c: Damage asscssmcnt following Tornado strike:

inspect for tornado DC-3 ~ Siding on west wall of access control building damage See Supplemental Scenario ¹2 rcmovcd, roofing damaged alld 3 ~ Div II DG mufller shiflcd slightly from'original position.

~ Div I DG mufller and exhaust outlet have no damage

~ Security fcncc damaged on north cast side of station close to lake

~ . ADH system appears to have sustained minor damage to cooling towers

~ Linc 6 l I SKV overhead linc is on thc ground 6-1-6

0 Kine Mile Point Unit 2 ~

Site Emergency Excicisc Scenario No 41, Rev. 0 (HVAR)

Kzercise Time Simulator Malfunctions, Message/Event/Expected Response Controller Messages, Summary Notes, and Instructions

.KnLa malfiumtlIIm: 1. Main Generator Trip (Breakers 41E and M trip and lockout)

1. EG01 2. SLC pumps trip (0 lcvcl in storage tank)
2. SL01 3. Fuel damage begins
3. RX01 at 5% rampcd for 10 4. Small stcam leak inside drywcll begins minutes 5. Reactor Manual Control Timer card failure
4. MS03 at 2% rampcd for 5 6. Rods fail to insert on reactor scram for all but 2 rod banks minutes 7. Turbine Bypass valves fail closed
5. RD03 8. Power oscillations,begin when recirculation flow is in rcstrictcd zone IIIIIl~>c '~ ~ct'v: or in natural circulation.
6. RD17 at 100% for all but 2 banks of rods Ru~@ Ea181112':
7. TC06
8. RX04 at 100% Reports plant status to SSS Performs operations as directed Makes announcements as dircctcd See Supplemental Scenario I/5,6,7,8,9 SSS Acknowledges CSO Reports plant status change to TSC/SED Enters EOPs and directs operator actions to stabilize plant Refers to EPIP-EPP42, recommends upgrade of emergency classification to a Site Area Emcrgcncy pcr EAL //222 Identify potential fuel damage Identify small leak in drywcll X~/S Rcccivcs plant status change from SSS and brief TSC staK Confers with CED and dcclarcs a SITE AREA EMERGENCY'per EPIP-EPP42 EAL // 2.22 Directs actions pcr EPIP-EPP-I 8 8: 23.

Orders a station evacuation pcr EPIP-EPPES.

Confers with TSC staff to cnsurc proper radiological precautions arc being undcrtakcn.

Directs RAM to cnsurc habitability is dctermincd in all onsite ERF's.

Directs Maintcnancc Coordinator to dispatch DCT's to assist operators effort to insert control rods.

a' ato Coordinates with OSC Coordinator and dispatches DCT's as ncccssary.

Confers with the SED, concurs with the declaration of a SAE.

Briefs EOF staff on plant status change.

Ensures offsitc agencies are notilicd on plant status change, and all notifications are complctcd.

Rcvicws and approves media news rclcascs as appropriate.

SIMULATOR OPERATOR NOTE: Thc control rods will bc permitted to bc inscrtcd onc bank at a time following each dram down of thc scram discharge volume, rcsct of thc reactor scram and insertion of an additional manual scram. Only onc bank will bc inscrtcd for each rc-scram.

6-1-7

Nine Mlc Point Unit 2 Site Emcrgcncy Excrcisc Scenario No 41, Rcv. D (HEAL)

Exercise Time Simulator Malfunctions, Message/Event/Expected Response Controller Messages, Summary Notes, and Instructions SIMULATOR OPERATOR NOTE: Ifusc of WCS to insert boron is commcnccd, rulc play as Radwaste operations and indicate that duc to WCS Dcmin backwashing and SFC filter backwashing carlicr this wcck, there is no room for any WCS drainage .

Jgg~~ne: O~: Thc following annunciators arc reccivcd in thc Unit 2 SN~C Control Room: (generator trip/failure to scram)

Input this message only ifthc simulator is not operating. Thc SEE INDIVIDUALMESSAGES FOR ANNUNCIATOR LIST AND cxpcctcd response is the same as INDICATIONS ifthc simulator were operating for all SNO messages.

See Supplemental Scenario

//5,6,7,8,9 SITE AREA EMERGENCY per,'EAL tlat'2.2.2 a 1030 IaattLhfmmz: Dcclarc thc cmergcncy in accordance with EAL N22.2 and Ifthe SSS does not OCAC implcmcnt appropriate Emergency Plan Implcmcnting declare a Site Area Confer with the lead controllers Proccd urcs.

Emergency in thc TSC and EOF and have them provide this message to thc SED and CED ifappropriate.

~1030 Controller Note (1) 0 Ensure accountability is complctcd within 30 minutes of thc SAE, with list of missing individuals complctcd and that search and rescue is commcnccd as ncecssary per EPIP-EPP-3.

1045 RCIC stcam leak, auto isolation occurs.

1. RC12 at 10%

~O See Supplemental Scenario //10 Acknowledges alarm, and vcrilies RCIC tripped and isolated Informs SSS of plant status change Stabilizes reactor level, prcssure SSS Acknowledges plant status change Informs TSC/SED of plant status change Requests DCT assistance to dctcrminc cause of RCIC trip/isolation Verifies isolation, and reactor building radiation/airbomc lcvcls

~S/S ~+

Acknowlcdgcs plant status change and informs CED Directs Maintenance Coordinator to dispatch DCT as appropriate Verilics release il'any is below Tech Specs Acknowlcdgcs status change Vcrifics relcasc is below Tech Specs and no PARs required.

Informs thc offsitc authorities 6-1-8

Kine Mle Point Unit 2-Site Emergency Exercise Scenario No 41, Rcv. 0 (RNAI.)

Exercise Time Simulator Malfunctions, MessageiEvent/Expected Response Controller Messages, Summary Notes, and Instructions 1045 luuut hfmttgt: Thc following annunciators arc rcccivcd in thc Unit 2 SNO-SC Control Room: (Trip and isolation of RCIC)

Input this message only ifthc simulator is not operating. The SEE INDIVIDUALMESSAGES FOR ANNUNCIATORLIST AND cxpcctcd response is thc same as INDICATIONS ifthc simulator were operating for all SNO mcssagcs.

See Supplemental Scenario ii10

~1045 Controller Note (2) 0 0 Following completion of accountability obtain SSS permission and have thc following announccmcnt made over the in-plant GAltronic System:

Place GAItronics in Merge, sound thc station alarm, and announce:

Attention, Attention allpersonnel. Accountability is conrplete. Oily personnel nol actively participating in Ihe Exercise may return fo normal activities, including eatingldrinking and snroling. Allother personnel shall continue to support the Exercise.

Rcpcat alarm and announcement.

When DCT dispatched to

~ hi~sa DC-4 The team dispatched to troubleshoot thc Turbine Bypass Valves will identify that a low value gate in the Pressure invcstigatc TBV Control clcctronic circuitry has failed and will require failure replaccmcnt. Note: Ifrepairs arc ordered, thc DCT should bc directed to proceed with repairs to include completing See Supplemental Scenario tt7 all required paperwork for markups, and ifstock is necdcd, order forms should bc completed. How'ever, no items should bc removed from the warchousc to complc:tc repairs, items will bc simulated, as will hanging of the markup.

When DCT ~nut 4~cerne: Radiation lcvcls and airborne concentrations in thc reactor dispatched to DC-5 building will prccludc immcdiatc entry into thc reactor investigate RCIC building. Upon clearing of thc reactor building thc DCT trip and isolation See Supplemental Scenario tt10 will identify a small crack in thc RCIC stcam linc downstream of thc isolation valves. Thc brcak is physically located in thc SFP heat exchanger room B on RB 215'l.

6-1-9

Nine h6lc Point Unit 2.

Site Emcrgcncy Excreisc Scenario No 41, Rcv. 0 (HEAL)

Ezerclse Time Simulator Malfunctions, Message/Event/Expected Response Controller Messages, Summary Notes, and Instructions

<<1130 When drywcll CSO radiation rcachcs Reports rising radiation lcvcls in the drywcll, and rising rclcase rates 52x10'R/hr Directs actions IAW EOPs Rcfcrs to EPIP-EPP42, and dctcrmines that a Gcncral Emcrgcncy pcr EAL t'/ 1.3.3 has bccn mct.

Directs Site Evacuation pcr EPIP-EPP-19 (SIMULATED)

Informs thc TSC/SED of plant status change and nccd to upgrade emergency classification to Gcncral Emergency pcr EALN 1.3.3 Rcecivcs update from SSS and cvaluatcs nccd to upgrade.

Informs and confers with CED on nccd to upgrade to a General Emergency Declares a GENERAL EMERGENCY per EAL /t 1.3.3 Rcecivcs update from SED and concurs with GE recommendation.

Dctcrmincs/provides PAR's to NYS and OCEMO via Part I Notification Fact sheet.

Completes appropriate notifications.

GENERAL EMERGENCY per EA'L'"ll;:3;3::,:'. ':,.'.'"-"::-:,'f a site evacuation ~i~es~ Do not announce a Site Evacuation to the Station, this will is discussed OC-SC bc simulated.

%1150 itUi~ui~essa te OCA Declare thc cmergcncy in accordance with EAL /t 1.3.3 Ifthc SSS does not OCZC based upon plant conditions and implcmcnt appropriate recognize the need Confer with the lead controllers Emcrgcncy Plan Implementing Procedures.

to dcelarc and/or in thc TSC and EOF and have the SED docs not them provide this mcssagc to thc dcclarc a Gcncral SED and CED.

Emergency P/ores Log rhr rinir:

condition. when drpmell radiation exceeds

$.2 E6 R/hr 6-1-10

.0 Nine MilePoint Unit 2 Site Emcrgcncy Excreisc Scenario No 41, Rev. 0 (HML)

Exercise Time Simulator Malfunctions, Message/Event/Expected Response Controller Messages, Summary Notes, and Instructions 1230 1. Primary containmcnt leakage begins and rises sharply. Drywcll

1. PC02 at 50% rampcd over should deprcssurizc through a pcnctration on Reactor Building cl.

25 minutes 265'. ARMs in associated areas will alarm, GTS, ifoperating, will show risc in Stack relcasc rates. Rx Building ventilation, ifoperating will isolate.

See Supplemental Scenario l/12 Reports drywcll status change to SSS Reports rising Reactor Building radiation and airbomc contamination Icvcls to SSS Makes announcemcnts as directed SSS Acknowlcdgcs status change Directs CSO to make announcements to cvacuatc thc reactor building of all personnel Reports status change to TSC/SED g~/S~

Acknowledges information from SSS Informs TSC staff of plant status change Informs CED of plant status change

~D Acknowledges information from TSC/SED Updates EOF Staff on plant status Informs Local OIIicials of rclcasc status Conlirms PARs completed, updates PARs as ncccssary I230 lt~ivj essa~: ~S)~4: Thc following annunciators arc rcccivcd in the Unit 2 SN AKC Control Room: (Primary Containmcnt Leak)

Input this message only ifthc simulator is not operating. Thc expected rcsponsc is the same as SEE INDIVIDUALMESSAGES FOR ANNUNCIATORLIST AND ifthc simulator were operating for INDICATIONS all SNO messages.

See Supplemental Scenario r/12 l230 ~uMens e; P-3 Thc first 3 players exiting thc reactor building from l 230 RP-3C until thc cnd of the cxcrcisc will bc considered contaminated duc to thc leak from thc drywcll into thc secondary eontainmcnt. Personnel contamination Icvcls See Supplemental Scenario //12 should be provided by thc controller as well as all other appropriate indications such as instrument alarms, Friskall Alarms ctc..

1 Nine Ivfile Point Unit 2-Site Emcrgcncy Excreisc Scenario No 41, Rcv. 0 (HML)

Exercise Time Simulator Malfunctions, Message/Event/Expected Response Controller Messages, Summary Notes, and Instructions IfDCT is sent into Jitltliil~sygr'C4 DC Team mcmbcrs assigned to locate thc source of thc thc reactor building leak into thc Reactor Building from the Primary to identify thc containmcnt will bc driven back by the cxtremcly high source of thc leak dose rates and airborne concentrations. Ifable to prove that they could cntcr safely, they should cvcntually bc lcd to thc See Supplemental Scenario ¹12 failed drywcll pcnctration as described in Supplemental Scenario ¹12.

If operators are Insert Mcssagc: Do not secure GTS. I understand that is what has been directed to secure OC-7C directed, and this has bccn noted. Howcvcr, to ensure GTS following start completion of oflsitc objcctivcs GTS shall not bc sceurcd.

of thc Containment leak

' stdwe onw d'tip e t s ave be n e

~ Reactor Deprcssurizcd, reactor level stabilized

~ Control Rods arc being inscrtcd by repcatcd manual scrams

~ Rclcasc Rates are vcrificd as lowering

~ Downwind survey teams have reported dose rates are lowering in thc cvacuatcd ERPAs

~ It has been vcrificd that Oswego County has eomplctcd all required objcctivcs

~ It has bccn vcrificd that Ncw York State has eomplctcd all required objcetivcs

~1400 at the Jttp~~sa e. ~S' have the shift.

direction of thc SIM-$

Lead Controller When Exercise is Controller Note (3) terminated Termination of thc Excreisc nl essagc

~O'lace GAIlronics in Merge, sound the station alarm, and announce:

A ¹enrion. A ¹enrion all personnel, rhe Exercise is rernrina red.

Repeat alarm and announccmcnt.

When the Exercise lttli~ut e~ssa e: The Exercise critiqu will commcncc tomorrow, is terminated ~O Scptcmbcr 25, 1997 at 0900 hours0.0104 days <br />0.25 hours <br />0.00149 weeks <br />3.4245e-4 months <br /> in the P Building GET classroom. Please bring all logsrrecords with you to thc critique. Wc will collect them at that time.

'6-1-12

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL)

Message No.: OC-l Time: (0630)

Tot SSS (in U2 simulator)

From: Simulator Controller Location: U2 Simulator "Note: DO NOT initiate actions affecting plant operations Message: Initial Conditions are:

~uJ.ih: End Of Life, Rod Sequence: A 1 Plant Conditions: 100% Reactor Power for 182 days

~ 8.4.8.b Structural Integrity

~ 8.5.1.c ECCS, High Pressure Core Spray t b 4a /

~ CSH Marked up, a through wall crack was discovered two days ago (0800) on the CSH piping just before 2CSH-MOV107. The repairs have been completed and radiography is scheduled to begin today at 0700, with return to service of CSH by 1600 today

~ 'B'ain Feed pump is marked up out of service for seal replacement, expected to be returned to service in two days.

~ 'C'ain Feed pump is operating on 2NPS-SWG-001, the breaker for 2NPS-SWG-003 is out of service for repair vo ut'one aintc ance o e u c Radiography to complete work on CSH piping. Radiographer on Reactor Building el. 289'eady to commence work.

~ Work progressing on 'B'ain feed pump.

~ Breaker repair for 'C'ain feed pump feeder breaker from 2NPS-SWG-003 in progress.

5, ct o 'c Co d't'o ~'

Temperatures are expected to be again in the 90's with high humidity and a 60% chance for severe thunderstorms later this morning.

ct o 4 d'

~ With the J. A. FitzPatrick Nuclear Station off line for refueling, the grid is operating at near record capacity due to the warm weather and high humidity being experienced over the past 10 days.

~ Emergency telephone bank is active, you are expected to use them ifyou need to notify anyone.

GAITRONICS DOES NOT REACH THE PLANT.

~ In-plant operators can be reached at ext.

~ Phone number you should use for announcements in-plant is ext.

~ All other in-plant contacts should be made to the real person, not the simulator operator.

~ Complete all appropriate paperwork and save for controllers. Usc all checklists, mark up as appropriate.

6-2-1

Nine Mle Point Unit 2 Site Emergency Exercise

- Message No.: SNO-1C Time: 0715 Scenario No 41, Rev. 0 (HEAL)

Tot Simulator Operating Shift From: Simulator Controller Location: Unit 2 Simulator Note: Input this message only ifthe simulator is not operating. The expected response is the same as ifthe simulator were operating for all SNO messages.

See Supplemental Scenario ¹I THIS IS A DRILL DO NOT initiate actions affecting plant operations Message:

851-244 REACTOR BLDG AREA RADN MON ACTIVATED I r DRMS Alarm RMS 143 indicates 1.2R/hr DRMS Alarm CMS 10A-1 indicates 6e-6 DRMS Alarm CMS 10A-2 indicates 6e-6 6-2-2

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rcv. 0 (FIPIAL)

Message No.: RP-1 Time: 0717 TQ: CSO From: Simulator Controller Location: Unit 2 Simulator Note: Simulator Controller to provide this message See Supplemental Scenario Pl THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: Control Room this is Joe Jones. I am the radiographer in the Reactor Building on 289. While I was extending the source for my first shot, the source came loose and rolled offunder some piping. I'm not sure exactly where it went. 'I evacuated the area and told the RP Techs to get everyone out. What do you want me to do now?

6-2-3

Nine Mile Point Unit 2, Site Emergency Exercise

- Message No.: RP-2 Sccrlrio No 41, Rev. 0 (FINAE.)

Time: When RP technicians respond to scene TQ: RP Technicians From: RP Controller Location: Unit 2

'Note: See Supplemental Scenario 01 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: You are unable to exactly locate the source as it is under some piping, making retrieval at this time not possible. Dose rates in the area are in excess of 75 R/hr,.

6-2-4

Nine lv6le Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL)

Message No.: SIM-I Time: 0735 Tot CSO From: Simulator Controller Location: Unit 2 Simulator Note: Simulator Controller to provide this call into the simulator THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: This is Tom Galletta the site Meteorologist, we just received a report from the National Weather Service for a severe thunderstorm watch for areas south'and east of Lake Ontario until 1000.

6-2-5

Nine Mle Poet Umt 2 Site Emergencjj Exercise

- Message No.: OC-2C Time: 0745 Scenario No 41, Rev. 0 (FXML)

Tot SSS From: Lead Controller Location: Unit 2 Simulator

'Note: Ifthe SSS does not declare an Unusual Event, confer with facility lead controllers in the TSC and EOF and provide this message to the SSS/SED THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: Declare the emergency per EAL¹.l 4. I and Implement necessary Emergency Plan Procedures.

6-2-6

Kine MilePoint Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL)

Message No.: SM-2 Time: 0810 To: CSO From: Simulator Controller Location: Unit 2 Simulator Note: Simulator Controller to provide this call into the simulator THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: This is Ed Delaney, man you should see it raining outside. Really heavy downpour, I even saw some large hailstones when I was coming in. The wind is really starting to pick up with a lot of lightning also. You may want to tell the SSS that he might want to keep his people inside until this stuff passes.

6-2-7

Kine Mle Point Unit 2 Site Einerscncy Exercise Scenario No 41, Rcv. 0 (HEAL)

Message No.: SNO-2C Time: 0813 To: Simulator Operating Shift From: Simulator Controller Location: Unit 2 Simulator Note: Input this message only ifthe simulator is not operating. The expected response is the same as ifthe simulator were operating for all SNO messages.

See Supplemental Scenario ¹2 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: The following annunciators are received in the Unit 2 Control Room:

SEE ATTACHED The following indications are received in the Unit 2 Control Room:

PANEL 852 INDICATIONS DIV II Diesel Generator starts and comes up to speed .

I HT BRKR 103-14 ON OFF BRKR 103-4 OFF Oji BRKR 17-2 OFF ON SWP MOV66B ON ON Lockout relay for BRKR 103-4 trips Lockout relay for BRKR 17-2 trips 6-2-8

Nrne Me Poet Unrt 2 Site Erncrscncy Exercise Scenario No 41, Rcv. 0 (HEAL)

Message No.: SNO-2C Time: 0813 PANEL 601 INDICATIONS SWP P1B OFF ON SWP P1D OFF ON SWP MOV 74B OFF ON SWP MOV 74D OFF ON SWP MOV 19A ON then OFF ,'N SWP MOV 93A ON then OFF ON SWP MOV 19B ON then OFF ON SWP MOV 93B ON then OFF ON SWP.MOV 3A ON then OFF ON SWP MOV 3B ON then OFF ON SWP MOV 599 ON then OFF ON

'ANEL 870/873 INDICATIONS GTS FN1 A/B ON OFF GTS MOV 2A/B ON OFF GTS MOV lA/B ON OFF GTS MOV 3A/B ON OFF GTS TRAIN A/B INITIATION ON OFF 6-2-9

Nine Me Point Unit 2-"

Site Emergency Exercise Scenari No 41, Rcv. O (HML)

Message No.: SEC-1 Time: 0815 To; SSS/CSO From: Security Controller Location: Unit 2 Simulator

'Note: Security Controller to provide this call into the SIMULATOR See Supplemental Scenario P2, 3 THIS IS A DRILL 'O NOT initiate actions affecting plant operations Message: This is Site Security Supervisor, a Guard performing normal rounds just sighted a tornado on-site, it touched dovm on top of Diesel Generator Building and then moved off to the northeast, striking the Reactor Building. It looks like one of the 115KV overhead lines came down and some siding on the access building has been stripped off 6-2-10

Nine Mile Point Unit 2 Site Erncrscncy Exercise Scenario No 41, Rev. 0 (HEAL)

Message No.: SM-3 Time: When crew contacts power control for a traveling operator Tot Simulator Operating Shift From: Simulator Operator Location: Unit 2 Simulator Note: Simulator Operator provide this message ifpower control is contacted to send a traveling operator to Scriba Switchyard.

See Supplemental Scenario ¹2 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: A traveling operator has been dispatched, but it will take some time for him to reach the site due to the weather conditions.

6-2-1 1

I Nine Mlc Poet Unrt 2 Srte Emergency Exerersc

- Message No.: OC-3C Time: 0840 Scenario No 41, Rev. 0 (HML)

To; SSS/SED

'ead From: Controller Location: Unit 2 Simulator jl Note: Ifthe SSS does not declare an Alert, confer with facility lead controllers in the TSC and EOF.

THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: Declare the emergency per EAL¹ 8.4.5 or ¹ 8.4.6 and Implement necessary Emergency Plan Procedures.

6-2-12

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rcv. 0 (HEAL)

Message No.': SNO-3C Time: 0845 Tot Simulator Operating Shift From: Simulator Controller Location: Unit 2 Simulator

'Note: Input this message only ifthe simulator is not operating. The expected response is the same as ifthe simulator were operating for all SNO messages.

See Supplemental Scenario ¹4 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: The following annunciators are received in the Unit 2 Control Room:

SEE ATTACHED The following indications are observed in the Unit 2 Control Room:

SLC Tank lowering rapidly 6-2-13

0 Nmc Mlc Point Unit2-Sitc Emcrscncy Excrcisc Scenario No 41, Rcv. 0 (HEAL)

Message No.: DC-1 Time: When DCT enters the reactor building to retrieve source TQ: Damage Control Team/RP Technicians assigned to locate the Radiography Source From: Damage Control Team Controller/RP Controller Location: Reactor Building 289'elevation Note: See Supplemental Scenario ¹I THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: You are unable to exactly locate the source as it is under some piping, making retrieval at this time not possible. Dose rates in the area are in excess of 75 R/hr.

6-2-14

0 Nine Mile Point Urnt 2 Site Emergency Exercise Scenario No 41, Rev. 0 (RWAL)

Message No.: DC-2 Time: When DCT enters the reactor building to determine cause of SLC leak.

Tot Damage Control team assigned to investigate SLC Storage Tank Low Level From: Damage Control Team Controller k

Location: Reactor Building 289'levation Note: Dose rates and associated readings should be obtained from maps provided, See supplemental Scenario 84 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: The cause of the SLC tank leak is a crack which appears to be located at the suction level near the A pump suction line. The crack is on the connection between the pipe and the tank and therefore is not isolatable. Dose rates in the area are in excess of 75R/hr, making close inspection impractical at this time.

6-2-15

Nine Mile Point Unit 2 Site Emcrsency Exercise Scenario No 41, Rcv. 0 (FOAL,)

Message No.: DC-3 Time: When DCTs inspect for tornado damage Tot Damage Control Teams assigned to investigate tornado damage if Provide this message to the CSO, DCTs are unavailable or uncalled for by this time, the controller should call in and make these reports to the CSO. If asked, the controller should state that he jshe is an auxiliary operator who was curious to see what damage had been done.

From: Damage Control Team Controller Location: Various Note: Other indications of minor damage may be provided by the controllers to ensure the DCTs are aware that a tornado didin fact pass through the area.

See Supplemental Scenario ¹2, 3 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: Damage assessment following Tornado strike:

~ Siding on west wall of access control building 'removed, roofing damaged

~, Div II DG muftler moved slightly from original position.

. Div I DG muNer and exhaust outlet have no damage

~ Security fence damaged on north east side of station close to lake

~ ADH system appears to have sustained minor damage to cooling towers

~ Line 6, 115KV overhead line is on the ground 6-2-16

Nine Mlc Point Unit2-Sitc Emergency Excrersc Scenario No 41, Rev. 0 (HEAL),

Message No.: SNOAC Time: 1000 Tot Simulator Operating ShiA From: Simulator Controller Location: Unit 2 Simulator Note: Input this message only ifthe simulator is not operating. The expected response is the same as ifthe simulator were operating for all SNO messages.

See Supplemental Scenario ¹5,6,7,8,9 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: The following annunciators are received in the Unit 2 Control Room:

SEE ATTACHED The following indications are observed on the control panels in the control room:

PANEL 603 INDICATIONS Reactor Level slowly lowering Reactor Power ~20% and oscillating slightly (1-2%)

Reactor Press rising rapidly Scram Pilot Solenoids white lights NOT lit RRCS ARI white light lit LFMG Transferred lit for the following Control Rods all other indicate nothing:

22-51, 26-51, 38-51, 14-43, 18-43, 54-43, 58-43, 10-35, 14-35, 46-31, 50-31, 14-27, 18-27, 34-23, 38-43, 18-19, 22-19, 48-15, 50-15, 26-11, 30-11, 38-07, 42-07, 22-03, 26-03 Green Lights on for rods as above Red Drift Lights for some control rods Red Full out lights on for remainder of. rods not mentioned above All Blue Scram lights on 6-2-17

Nine Mle Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (ANAL) essage No.: SNO-4C Time: 1000 PANEL 602 INDICATIONS All breakers for Rx Recirc Pump 1A/1B OFF ON 2MSS AOV 6A-6D OFF ON 2MSS AOV 7A-7D OFF ON PANEL 851 INDICATIONS 2FWS P1C OFF ON 2HDL P1A/B/C OFF ON 2CNM P1B OFF ON 2CNM P2B OFF ON 2CWS P1B/D/F OFF ON Turbine tripped lights on All valves closed lights on All valves indicate 0%

Turbine RPMs indicate lowering PANEL 852 INDICATIONS BRKR 41E OFF ON BRKR 41M OFF ON R230/R925 OFF ON MODS 288/233S OFF ON MODS MDS1/233N OFF ON BRKR 3-14 OFF ON BRKR 3-1 OFF ON BRKR 1-1 ON OFF BRKR 1-3 OFF ON PANEL 601 INDICATIONS ALL 18 SRVs initially ON OFF Then only MSS PSV 128/133 ON OFF and cycling All other automatic actions are expected to occur unless otherwise informed 6-2-18

Nine Mile Point Unit 2 Site Eincrscncy Exercise Sccneno No 41, Rnr. 0 (H¹K)

Message No.: OC-4C. Time: ~1030 To; SSS/SED From: Lead Controller Location: Unit 2 Simulator Note: Ifthe SSS does not declare a Site Area Emergency, confer with the lead controllers in the TSC and EOF and have them provide this message to the SED and CED if appropriate.

THIS IS A DRILL DO NOT initiate actions aAecting plant operations Message: Declare the emergency in accordance with EAL ¹2.2.2 and implement appropriate Emergency Plan Implementing Procedures.

6-2-19

~ ~

Kine Mile Point Unit 2 Site Eincrscncy Exercise Sccnano No 41, Rev. 0 (HNAL)

Message No.: SNO-5C Time: 1045 To: Simulator Operating Shift From: Simulator Controller Location: Unit 2 Simulator Note: Input this message only ifthe simulator is not operating. The expected response is the same as ifthe simulator were operating for all SNO messages.

See Supplemental Scenario ¹10 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: The following annunciators are received in the Unit 2 Control Room:

SEE ATTACHED The following indications are observed on the control panels in the control room:

PANEL 601 INDICATIONS ICS*MOV150 OFF ON ICS*MOV121 OFF ON ICS*MOV159 OFF ON ICS~AOV157 OFF ON ICS*AOV156 OFF ON ICS4AOV126 OFF ON ICS 4MOV128 OFF OFF DIV ISOL INITIATION 1 AMBER LIGHT ON ICS MOV121 CLOSED/SC IN CLOSED POSITION AMBER LIGHT ON TUIUSINE TRIPPED AMBER LIGHT ON 6-2-20

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (RML)

Message No.: Controller Note (2) Time: -"1045 Tot CSO From: Lead Controller Location: Unit 2 Simulator Note: Following completion of accountability obtain SSS permission THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: Have the following announcement made over the in-plant GAItronic System:

Place GAItronics in Merge, sound the station alarm, and announce:

Attention, Attention all personnel. Accountabilityis complete.,Only personnel not acti vely participatingin the Exercise may return to normal activities,,including eatingldrinking and smoking. Allother personnel shall continue to support the Exercise.

Repeat alarm and announcement.

6-2-21

Kine Mlc Point Unit 2 Site Emergency Exercise

- Message No.: DC-4 Scenario No 41, Rcv. 0 (HNAL)

Time: When DCT dispatched to investigate TBV failure TQ: Damage Control Team assigned to investigate failure of turbine bypass valves From: Damage Control Team Controller Location: Control Building 288'levation Note: See supplemental Scenario P7 THIS IS A DRILL DO NOT initiate actions aFecting plant operations Message: The team dispatched to troubleshoot the Turbine Bypass Valves will identify that a low value gate in the Pressure Control electronic circuitry has failed and will require replacement. Note: Ifrepairs are ordered, the DCT should be directed to proceed with repairs to include completing all required paperwork for markups, and ifstock is needed, order forms should be completed. However, no items should be removed .

from the warehouse to complete repairs, items will be simulated, as will hanging of the markup.

6-2-22

Nine Mle Point Unit 2 Site Emctscncy Excise Scenario No 41, Rev. 0 (HNAL)

Message No.: DC-5 Time: When DCT dispatched to investigate RCIC trip and isolation TQ: Damage Control Team assigned to investigate RCIC From: Damage Control Team Controller/RP Controller Location: Reactor Building 261'levation Note: See Supplemental Scenario 0 10 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: Radiation levels and airborne concentrations in the reactor building will preclude immediate entry into the reactor building. Upon clearing of the re'actor building the DCT will identify a small crack in the RCIC steam line downstream of the isolation valves. The break is physically located in the SFP heat exchanger room B on RB 215'l.

6-2-23

0 Nine Mile Point Unit 2 Site Emergency Exeicise Scenario No 41, Rev. 0 (HEAL)

Message No.: OC-5C Time: IfSite Evacuation is discussed TQ: SSS/SED From: Lead Controller Location: Unit 2 Simulator Note:

THIS IS A DRILL DO NOT initiate actions afFecting plant operations Message: Do not announce a Site Evacuation to the Station, this will be simulated.

6-2-24

Nine Mile Point Unit 2 Site Emersency Exercise Scenario No 41, Rev. 0 (RNAL)

Message No.: OC-6C Time: ~1150 Tot SSS/SED From: Lead Controller Location: Unit 2 Simulator Note: Ifthe SSS does not recognize the need to declare and/or the SED does not declare a General Emergency condition, confer with the lead controllers in the TSC and EOF and have them provide this message to the SED and CED.

THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: Declare the emergen'cy in accordance with EAL 8 1.3.3 based upon plant conditions and implement appropriate Emergency Plan Implementing Procedures.

6-2-25

P Nine Mile Point Unit 2, Site Emergency Exercise

- Message No.: SNO-6C Time: 1230 Scenario No 41, Rcv. 0 (HEAL)

TQ: Simulator Operating Shift From: Simulator Controller Location: Unit 2 Simulator Note: See Supplemental Scenario ¹12 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: The following annunciators are received in the Unit 2 Control Room:

SEE ATTACHED The following indications are received in the Unit 2 Control Room:

PANEL 601 INDICATIONS Primary Containment Pressure lowering Drywell and reactor pressure slowly become equalized Drywell vacuum breakers indicate cycling 6-2-26

Nine Mile Point Unit 2 Site Emergency Exeieiac Scenario No 41, Rev. 0 (HVAR)

Message No.: RP-3C Time: 1230 Tot All Players exiting the Reactor Building from 1230 until the end of the exercise From: RP Controllers Location: Reactor Building Access Note: Provide appropriate indications See Supplemental Scenario ¹12 THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: The first 3 players exiting the reactor building from 1230 until the end of the exercise will be considered contaminated due to the leak from the drywell into the secondary containment. Personnel contamination levels should be provided by the controller as well as all other appropriate indications such as instrument alarms, Friskall Alarms etc..

Whole body counts (ifaccomplished) will be as read.

6-'2-27

Kine Mle Point Unit 2 Site Emergency Excteise

- Message No.: DC-6., Time: IfDCT sent Scenario No 41, Rev. 0 (HEAL,)

into reactor building to identify the source of the leak.

N TQ: Damage Control team Members sent into reactor building to identify the source of the leak.

From: DCT Controller Location: Unit 2 Reactor Building Note: See Supplemental Scenario At12 THIS IS A DRILL DO NOT initiate actions aft'ecting plant operations Message: DC Team members assigned to'locate the source of the leak into the reactor building from the Primary containment will be driven back by the extremely high dose rates and airborne concentrations. Ifable to prove that they could enter safely, they should eventually be led to the failed drywell penetration as described in Supplemental Scenario A'12.

6-2-28

Nine Mile Point Unit 2 Site Emergency Exc'reise Scenario No 41, Rev. 0 (RNAL)

Message No.: Time: ~1400 TQ: Simulator Operation ShiA From: Simulator Controller Location: Unit 2 Simulator Note: At the direction of the Lead Controller THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: I have the shiA 6-2-29

0 Kine Mle Point Unit 2 Site Emcrscncy Exercise Sccniiiio No 41, Rm. 0 (HNAL)

Message No.: Controller Note (3) Time: When exercise is terminated Tot CSO From: Lead Controller Location: Unit 2 Simulator Note: i t w win co iti s ve bee et Reactor Depressurized, reactor level stabilized Control Rods are beinginserted via repeated manual scrams Release Rates are verified as lowering Downwind survey teams have reported dose rates are lowering in the evacuated ERPAs It has been verified that Oswego County has completed all required objectives It has been verified that New York State has completed all required obj ecti ves THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: Place GAItronics in Merge, sound the station alarm, and announce:

Attention, Attentionall personnel, the Exerciseis terminated.

Repeat alarm and announcement.

6-2-30

/

Nine MilePoint Unit 2 Site Emcrscncy Exer'cise Scenario No 41, Rcv. 0 (HEAL)

Message No.: OC-7C Time: IfGTS is ordered secured Tot SSS/ASSS/CSO From: Lead Controller Location: Unit 2 Simulator Note: Provide this message only if GTS is ordered secured to stop the release THIS IS A DRILL DO NOT initiate actions affecting plant operations Message: Do not secure GTS. I understand that is what has been directed, and this has been noted. However, to ensure completion of offsite objectives, GTS shall not be secured.

6-2-31

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HNAL)

Message No.: OC-8 Time: When exercise is terminated To: All Exercise Participants From: Lead Controller Location: All ERFs.

'Note:

THIS IS'A DRILL DO NOT initiate actions affecting plant operations Message: The Exercise critique will commence tomorrow September 25, 1997 at 0900 hours0.0104 days <br />0.25 hours <br />0.00149 weeks <br />3.4245e-4 months <br /> in.the P Building GET classroom. Please bring all logs/records with you to the critique. We will collect them at that time.

6-2-32

0 Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL)

Message No.: Time:

To; From:

Location:

Note:

THIS IS A DRILL DO NOT initiate actions affecting plant op'erations Message:

6-2-33

Kine Mile Point Unit 2 Site Emergency Exercise Sccnano No 41, Rcv. 0 (HML)

Supplemental Scenario No.: 1 DROPPED SOURCE DURING RADIOGRAPHY OF PIPE TO CSH-MOV-107 THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background information Radiography of a weld repair to the CSH pipe bend just before CSH-MOV107 is scheduled for this shiR in order to meet the time for the LCO in effect for the CSH system out of service.

While extending the source from its housing, the source loosens sufticiently to drop of the end of the control cable and roll under some nearby piping. The source is postulated to be a 100ci CO~ source. Dose rates in the area will rise when the source is extended beyond its shield. Dose rates in the area should be provided to players using the in-plant dose survey maps attached. The source when detachedbecomes lodged under the piping making immediate extraction impossible due to the high dose rates. Area radiation monitors in the immediate area are expected to alarm.

I t Expected action: Personnel entering the area should receive briefings as appropriate from RP. Doses should be provided on a continuing basis for those personnel entering the areas as indicated on the attached maps. Personnel wearing Digital alarming dosimeters should be informed that they are in alarm due to the high dose rates encountered as they approach the source'area. The source will be permitted to be retrieved at 1130 but no sooner. The purpose of extending the time for retrieval of the source provides reduced availability of contingency actions by operations personnel for the remainder of the scenario.

6-3-1

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rcv. 0 (HNAL)

Supplemental Scenario No.: 3 115KV LINE 6 TRIPS THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background Information 115 KV Line 6 trips when the line itself is struck by a tornado passing through the site. The line becomes detached from the insulators holding it onto the tower. Upon striking the ground, the line causes arcing and an over current trip on Line 6.

Physical damage to line is on site, but outside of MDS-2 (ie...

between the on-site switchyard and Scriba yards)

Expected Actions Personnel sent to investigate should be prompted that they see the line on the ground having come detached from at least three towers. The insulators on these towers are damaged and will require replacing. Inspections should be made to all switchgear downstream of this line for damage. This line is not expected to be returned to service for the duration of the exercise.

Personnel dispatched to emergency arid normal switchgears will see only undervoltage flags on emergency bus (Div. II) and should simulate r setting them.

No 86-devices will be tripped at the switchgear or relay room.

At the Scriba switchyard, indications should be provided that

~

show an overcurrent trip of R60.

6-3-2

0 Nine Mle Point Unit 2 Site Emergency Exercise Scenario No 41, Rcv,o (HEAL)

Supplemental Scenario No.: 9 SECURITY FENCE-DAMAGE THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background Information The tornado that passed through the site is postulated to have touched down on the top of the Diesel Generator Building,'oved towards the northeast damageing the security fence, before it went out over Lake Ontario. The'security aspects of the damage include; E-field in the area north of the stack is down, thirty feet of fence is gone (both inner and outer fence),

and television circuits in the area are gone.

Expected Actions Personnel dispatched to the area should be provided indications as above. Security should take appropriate actions to safeguard this area until the fence is restored. Security personnel in the EOF should provide appropriate directions to on-site personnel, and provide updates to SED/CED as apporpriate. If additional resources are determined to be required, any calls to obtain these resources will be simulated.

6-3-3

Nine Mle Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL)

Supplemental Scenario No.: 4 SLC TANK LOW LEVEL ALARM THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background Information The Standby Liquid Control Tank is postulated to be leaking from a crack on the suction pipe connection to the tank. The pipe cracked when the tornado brushed against the side of the, reactor building causing a pressure wave inside the building sufficient to crack a weld on the pipe. The SLC tank will be leaking in excess'of 50gpm and should be completely empty in 60 minutes.

Expected Actions Personnel in the area will be provided with high dose rates and high doses from maps attached due to the lost radiography source. Personnel will not be able to remain in the area long enough to effect any repairs. The crack is not isolatable.

Repairs are expected to take in excess of 2 days, with welding and radiography required.

Ifoperations personnel are dispatched to the area to inject boron using the hydro pump, radiation levels in the area will make stay times very short, with ALARAreview/ EPIP-EPP-15 review required.

6-3-4

Kine Mle Point Unit 2 Site Emergency Exercise I

Scenario No 41, Rev. 0 (RNAL)

Supplemental Scenario No.: 5 MAINGENERATOR LOAD REJECT, GRID FAULT I

THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background Information The main generator is postulated to trip because of a loss of load. The 41E and M breakers will open due to a large transient on the grid. The transient will be sufficient to open these breakers as well as cause a trip of Oswego Steam Station. No damage can be seen from the generator trip.

Traveling operat'ors will be required to inspect Scriba Station for damage, however this should be simulated. Ifoperations personnel are dispatched to Scriba Switchyard, ensure a controller travels with them, and provides indications below.

Expected Actions Personnel arriving at Scriba Switchyard will determine that no damage has been done to the switchyard, breakers or other.

equipment. Personnel investigating the Nine Mile 345 yard will find 41E and M open with no apparent damage. If contacted, Power control will report that the whole grid is unstable and Nine Mile Point should not return to service until the instability is corrected.

6-3-5

Nine Mile Point Umt 2 Site Emergency Exercise Scenario No 41, Rev..o (HEAL)

Supplemental Scenario No.:~ REACTOR FAILS TO SCRAM (2 ROD BANKS INSERT, ALL OTHERS REMAIN AT PREVIOUS LOCATION)

THIS IS A DRILL DO NOT initiate actions affecting plant operations

'For Controller Use Only Background Information It is postulated that the rods fail to insert due to a mechanic'al failure in the Hydraulic Control Unit. The scram discharge volume level swtiches are postuled to have failed in such a manner that the scram may be reset while the SDV is only partially drained. Following each manual'scram attempt one additional bank of control rods will insert, but the remainder will remain as is. Following each manual scram attempt, the scram must be reset and the scram discharge volume drained down, when drained, the reactor must be manually scrammed again.

Expected Actions Ifoperators are sent into the area to manually vent the control rods, appropriate precautions should be taken due to the expected high radiation levels associated with both the lost radiographers source, and the expected high radiation and airborne concentrations expected from the venting of primary coolant into the floor drains. The associated radiation and airborne levels will rise when venting proceeds. Use the associated zone maps (reactor building 261'l.) for projected doses in the immediate area. Successful completion of venting will result in insertion of the associated control rod.

Coordinate completion of the venting with the simulator operator to ensure that the simulator presents the respective control rod as being inserted.

6-3-6

Nine Mile Point Unit 2 Site Emerttcncy Exercise Scenario No 41, Rcv. 0 (H¹K)

Supplemental Scenario No.: Z THYMINE BYPASS VALVES FAIL TO RESPOND THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background Information The turbine bypass valves will fail to open following the reactor scram and turbine trip. The intent is to cause a rapid rise in reactor pressure and associated rise in reactor power following the failure to scram, leading to fuel failure.

Expected Actions The failure of the bypass valves to respond is due to a failure in a low value gate in the pressure control circuitry of the EHC system. If DCTs are dispatched to the area, no indications will be provided of the failure other than the fact that the bypass valves fail to control reactor pressure. Troubleshooting will be required and when appropriate techniques are demonstrated the failure should be identified by the controller.

6-3-7

Kine Mile Point Unit 2 Site Einergcncy ExctcLie Scenari No 41, Rev. 0 (HNAL)

L Supplemental Scenario No.: 9 REACTOR MANUALCONTROL SYSTEM TIMER CARD MALFUNCTION THIS IS A DRILL DO NOT initiate actions affecting plant operations

'For Controller Use Only Background Information The purpose of this malfunction is to ensure that the control rods remain withdrawn during the scenario. With this failure, operators will'be prohibited from inserting control rods using normal methods. h Expected Actions Ifcontacted to troubleshoot and repair the reactor manual control system, VC Technicians should be provided with indications that lead them to the timer card. Replacement of the card will permit normal operation of the reactor manual control system. The system shall not be returned to service prior to 1230. Delay of the repair may be necessary to ensure that the repair does not take place until 1230. Following completion of the necessary repairs, coordinate with the simulator operator and restore the system ta operation.

Following restoration, insertion of control rods using normal methods will be possible.

Additionally, to ensure that the the control rods are not rapidly inserted, the continuous insert pushbutton is postulated to fail due to corroded contacts internal to the switch.

Troubleshooting will reveal that replacement of this switch is necessary.

6-3-8

Nine hhlc Po>nt Umt 2-Site Erncrgcncy Excrcisc Scenario No 41, Rcv. 0 (HEAL)

Supplemental Scenario No.: 9, POWER OSCILLATIONS BEGIN (GAP RELEASE OCCURS)

THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background Information Reactor Power oscillations are projected to begin shortly after the scram occurs and immediate actions taken as required by the EOPs. The immediate actions of the EOPs require operators to trip the reactor recirculation pu'mps which causes entry. into an area of operation that produces power oscillations. The power oscillations are postulated to result in fuel clad perforations'and a major gap release of about 10-15%.

Expected Actions Actions of the operators will be to continue actions as directed by the EOPs to insert the control rods and reduce reactor power. Radiation alarms will occur as a result of the fuel damage and are expected to provide indications to the operators that fuel damage has o'ccurred. This malfunction will not be recoverable during the exercise.

6-3-9

e n.

Nine Mile Point Unit 2-Site Elnagcncy Excrese Scenario No 41, Rev. 0 (FIPIAL,)

Supplemental Scenario No.: 19 RCIC TRIPS AND ISOLATES THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background Information The RCIC system is postulated to leak sufficiently to cause the RCIC system to isolate. The purpose of this malfunction is'to ensure that the RCIC system will be unavailable during the course of the exercise. This ensure that reactor water level will drop below the top of active fuel and permit further damage of the fuel to occur.'xpected Actions Operators will verify that the system has isolated and that appropriate indications show a leak in the system Indications of a leak should include high area temperatures in the vicinity of the leak, high radiation and airborne levels in the vicinity of the leak. The high temperatures, radiation levels and airborne concentrations will decrease following system isolation. The RCIC system will not be available for further use during the time frame of the exercise.

6-3-10

Nine Mle Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (FIPIAL)

Supplemental Scenario No.: Jl . ADDITIONALFUEL DAMAGE OCCURS THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background Information The purpose of the additional fuel damage is to ensure ofFsite dose rates could reach the levels shown. The extremely high offsite dose rates are needed to ensure that Oswego County and NYS are driven to performing all required actions as specified in the extent of play.

Expected Actions There are no additional expected actions specific to this malfunction. The increased dose rates being indicated to all players should drive all required activities.

6-3-11

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (FIPIAL)

Supplemental Scenario No.: U DRYWELLPENETRATION Z21B AT RB EL. 265'AILS THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background Information The purpose of this malfunction is to provide a release path from the reactor building out through the Standby Gas Treatment system, with sufficient quantities of isotopes to drive the offsite release rates to the levels required.

Expected Actions The drywell penetration is postulated to fail due to the higher 4

than normal pressure in the drywell. The failure of this penetration will be total and catastrophic. Attempts to investigate the area will be met with extremely high dose rates sufficient to keep DCTs from the area until the primary containment depressurizes. As the primary containment depressurizes, the dose rates will eventually lower suSciently to permit DCTs to enter for a short duration stay. Investigation will show a complete failure of the penetration that will require several days to repair.

Any personnel in the reactor building after 1230 will upon exit show high levels of contamination and will require decontamination. Decontamination should proceed using normal methods and result in background levels following successful demonstration of decontamination.

6-3-12

Nine MilePoint Unit 2 Site Einersency Exercise Scenario No 4], Rev. 0 (HML)

Supplemental Scenario No.:

THIS IS A DRILL DO NOT initiate actions affecting plant operations For Controller Use Only Background Information Expected Actions 6-3-13

e t

IIine MilePoint Utut 2 Site Emergency Exercise Scenario No 41, Rev. 0 (RNAL)

.0 6.4 MESSAGE MESSAGE OFFSITE MESSAGE INH'IATING NUMBER OB JECTIVE

SUMMARY

EVENT NUMBER AQcr facility activation COMM-1 , Notmal communication method has failed (will be used to ensure test of backup communication methods)

AAer facility activation COMM-2 Normal Communications restored AAer dispatch of 0 C-FLD-TMS-I Simulate that one field monitoring team has reported County Monitoring experiencing radiation readings in excess of 1.2 R/hr Teams (will be used to ensure demonstration of Rad OQicer actions upon report of Field Monitoring Team reaching a turn back value)

AAer dispatch of OC-FLD-TMS-2 Simulate that each field monitoring team is County Monitoring, experiencing radiation readings in excess of 1.2 R/hr Teaills (willbe used to demonstrate the understanding of the field monitoring teams regarding turn back values)

AAcr dispatch of 0 C-FLD-TMS-3 C lf suQicient levels of airborne contamination is County Monitoring detected, simulate using the silver zeolite cartridges, Teanls actually use the charcoal filter cartridges instead.

AAer receipt of SIREN-I C 10 Ifconditions exist that would require the activation information requiring of thc Prompt Notification System (Sirens) siren activation SIMULATETHIS, DO NOT ACTIVATETHE SIRENS FOR THIS EXERCISE AAcr receipt of TN-AL-IC 10 Ifconditions exist that would require the activation information requiring of the Tone Alert radios, SIMULATETHIS, DO the activation of Tone NOT ACTIVATETHE TONE ALERT RADIOS Alert Radios FOR THIS EXERCISE AAcr activation of TRAF-IMP-I 17 Message is received that trees are down blocking the Oswego County EOC road on County Route 6 in New Haven near Demster (this message will be given to ensure demonstration of the ability to deal with traQic impediments)

AAcr activation of TRAF-IMP-2 17 Message is received of an accident on State Route Oswego County EOC 104B at the Route 104 intersection (this message will be given to ensure demonstration of the ability to deal with traffic im ediments) 6-4-1

Nine Mile Point Unit 2 Site Emergency Exercise, Scenario No 41, Rcv. 0 (HNAL)

MESSAGE MESSAGE OFFSITE MESSAGE INITIATING NUMBER OB JECTIVE

SUMMARY

EVENT NUMBER Afler activation of TRAF-IMP-3 17 Message is received of an accident at the intersection Oswego County EOC of County Route 43 and Route 104B (this message will be given to ensure demonstration of the ability to deal with traQic impediments)

Afler the receipt of BUS-RTS-I 15 Ifconditions exist that would require the dispatching information requiring of buses to bus routes, dispatch only one general bus dispatch to population bus &om Centro, and one bus run &om transportation ~ each school district.

depen'dent bus routes Afler receipt of HRG-IMP-1 15 Ifconditions exist that would require the notification information that would of hearing or mobility impaired individuals, require calls bc made to SIMULATETHIS, DO NOT MAKEANY hearing or mobility CALLS TO THESE INDIVIDUALS impaired individuals Aflcr rcccipt of TCP-1 17 When identified that traQic control points must be information requiring established, OQicers should be dispatched as thc setup of Traflic appropriate to establish two TCPs other than normal Control Points plant access TCPs. They are liot to setup barricades, nor provide any impediment to normal traQic flow.

er receipt of TCP-2 17 When identified that traQic control points must be ormation requiring established, OQiccrs should be dispatched as the setup of TraQic appropriate to establish two TCPs other than normal Control Points plant access TCPs. They are liot to setup barricades, nor provide any impediment to normal traQic flow.

After Reception Center RC-PD-1a 18 Messages given indicating status of contamination of i>> activated RC-PD-1b evacuec (used to demonstr'ate the ability of thc RC-PD-I c personnel monitors to detect and decontaminate evacuecs)

After Reception Center RC-PD-2a 18 Messages given indicating status of contamination of i>> activated RC-PD-2b evacuee (used to demonstrate the ability of the RC-PD-2c personnel monitors to detect and decontaminate evacuees)

After Reception Center RC-PD-3a 18 Mcssagcs given indicating status of contamination of is activated RC-PD-3b cvacuec (used to demonstrate thc ability of the personnel monitors to detect and decontaminate cvacuees)

Aflcr Rcccption Ccntcr RC-PD ta 18 Messages given indicating status of contamination of is activated RC-PD-tb evacuee (used to demonstrate the ability of the RC-PD-4c personnel monitors to detect and decontaminate evacuees) 6-4-2

Kine h6lc Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (RYAN)

MESSAGE MESSAGE OFFSITE MESSAGE INITIATING NUMBER OB JECTIVE

SUMMARY

EVENT NUMBER Mer Reception Center RC-VD-la l8 Messages given indicating status of contamination of is activated RC-VD-1b evacuee automobile (used to demonstrate the ability of the personnel monitors to detect and decontaminate automobiles)

AAer Reception Center RC-VD-2@ 18 Messages given indicating status of contamination of is activated RC-VD-2b evacuee automobile (used to demonstrate the ability of the personnel monitors to detect the

'econtaminate automobiles)

AAer PMC is activated PMC-PD-18 22 Messages given indicating status of contamination of PMC-PD-1b emergency worker (used to demonstrate the ability of PM C-PD-1c the personnel monitors to detect and decontaminate emergency workers)

AAer PMC is activated PMC-PD-2a 22 Messages given indicating status of contamination of PMC-PD-2b emergency workers (used to demonstrate the ability of the personnel monitors to detect and decontaminate emergency workers)

AAer PMC is activated PM C-PD-3a 22 Messages given indicating status of contamination of PMC-PD-3b emergency worker (used to demonstrate the ability of the personnel monitors to detect and decontaminate emergency workers)

AAcr PMC is activated PMC-PDAa 22 Messages given indicating status of contamination of PMC-PDAb emergency worker (used to demonstrate the ability of PIC-PDAc the personnel monitors to detect and decontaminate emergency workers)

AAcr PMC is activated PMC-VD-1a 22 Messages given indicating status of contamination of PMC-VD-14 emergency worker vehicles (used to demonstrate the ability of the personnel monitors to detect and decontaminate emergency workers vehicles)

Aller PMC is activated PIC-VD-2a 22 Messages given indicating status of contamination of PMC-VD-2b emergency worker vehicles (used to demonstrate thc ability of the personnel monitors to detect and decontaminate emergency workers vehicles)

AAer Reception Center MS-1 20 Messages indicating initial Medical and Radiological is activated conditions of victim Atler Rcccption Center MS-2 20 Messages indicating Medical and Radiological is activated conditions of victim AAer Reception Center MS-3 20 Messages indicating Medical and Radiological is activated conditions of victim Ailcr Reception Center MS-4 20 Messages indicating Medical and Radiological is activated conditions of victim 6-4-3

Nine Mile Point Unit 2 Site Emergency Excrciac, No 41, Rcv. 0 (FtPtAL) 'cenario o

All operational plant data will be provided by the Unit 2 simulator in real time display.

'*****Thedata in this section will only be used ifthe Unit 2 Simulator Fails*****

The data provided in this section represents the data obtaii ted during a validation run using an operations crew with as close to real ti meline as possible. Any deviations noted during the actual conduct of the exercise are due to the differences in timing response between the validation crew and operating shift in the simulator.

7-1

Nine Mile Point Site Emergency Exercise Scenario No. 41, Rev. 0 FINAL OPERATIONS PLANT PARAMETER DATA TABLE 7.1 This data ott/y to be (Ised if tlte sinntlator becontes ittoperab/e during the exercise I<eactor/Core U tilts 7:00 7:15 7 30 7:45 8:00 8:15 8I30 - 8:46 '. - -9:00.,'::. -Q9!15$

i? caclor Level incltes 184.3 184.0 184.1 184.1 184.1 183.9 183.7 184.0 184.1 184.

I? Oactor Pres" ure f)st(l 1019.7 1020.2 1019.8 1019.8 1019.8 1019.7 1019.2 1019.2 1019.8 1019.f I'.caclor Recir Loop Flow A It it tl/Ilf 1.58E< 07 1.58E+07 1.58E+07 1.58E+07 1.58E+07 1.58E+07 1.58E+07 1.58E+07 1.58E+07 1.58E+0)

I?( aclor R(cir LI)nf) f-low t3 Il)r>>litt 1.58E< 07 1.58E+07 1.58E+07 1.58E+07 1.58E+07 1.58E+07 1.55E+07 1.55E+07 1.58E+07 1.58E+0)

I'rimary/Secondary Containment I )lywetl Pl cssul e fist(I 0.5 0.5 0.5 0.5 0.5 0.6 0.5 0.5 0.5 p t i)tywcll T('IIII)('.I')lure ntax F . 131.5 131.5 131.5 13j.5 131.5 134.8 132.3 132.2 131.5 131.!

I >>yw(.ll T('IIII)(talutc Avg F 115.0 115.0 115.0 115.0 115.0 121.6 115.8 115.7 115.0 115.t I >>ywell Oxy(icn ni 2.3 2.3 2.3 2.3 2.3 2.3 2.3 2.3 2.3 2.-'c l)tywell Hy(lto(l( n 0 0.4 p4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 "uf)f)rcssion Pool Level Feel 200.0 200.0 200.0 200.0 200.0 200.0 200.0 200.0 200.0 200.I

'ul)i)ression Pool Trn)peralute 79.9 79.9 79.9 79.9 79.9 79.9 79.9 79.9 79.9 79.!

"upi)rr.'ssion Pool Pressure f)S)g 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 ps I?Oaclor Buil(ling D/P I )SIg -0.01 -0.01 -0.01 -0.01 -0.01 -0.06 -0.03 -0.03 -0.01 -0.0

ltatt(ft)y Gas Ttealnient Flow scf ill 5000 5000 I'otal Statiot1 Sl;Ick Flow 10E3 scftn 75.13 75.13 75.13 75.13 75.13 81.62 81.62 77.81 75.13 75.1:

lnltll Si it)on Vrnl Flow 10E3 scftn 111.42 111.42 111.42 111.42 111.42 0.00 0.00 111.42 111.42 111.4; f3alance Of Plant ik~eBR~PX.

,I/Iaiit Genetalor Power Mwe 1159.40 1161.36 1159.46 1159.46 1159.46 1156.58 1151.24 1155.24 1159.46 1159.4(

. i otal Fce(lwat('r Flow I otal Sleant Flow x10E6 It)in/it( 14.89 15.00 14.92 14.92 14.92 14.93 14.76 14.80 '. 14.92:

x10E6 It)tn/ltr 14.97 15.07 14.97 14.97 14.97 14.97 14.84 14.84 14.9'4.97 14.9-M:lln Con(tenser Vacuunl in Hg Vac 26.02 26.02 26.02 26.02 26.02 26.00 26.11 26.11 26.02 26.0;

'f=.CCS Systeit)s (Injection Flow)

, i-:CIC gpfll 0.00 0:00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 O.pt I II)CS x10 gpm 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 I PCS x100 gpm 0.00 0.0(

0.00 0.00 0.00 0.00 0.00 0.00 0.00 I. P Cl A 'indicates S/P cooling 0.00 0.00 0.0(

x100 gpm I. PCI B II,PCI C itulicates S/P cooling x100 gptn x100 gpm 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00

'.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.0'.0'.0'Pf,t ra akeup Storage I'(:ST A Level I=crt j.'g f 34.08 34.04 34.01 34.01 34.01 33 97 lf( ST B Level 33.86 33.82 34.01 34.0 F ce I 34.08 34.04 34.01 34.01 34.01 33 97 33.86 33.82

!I<<t IIL I IIIcl Ir.S 12.0 I 12. 00 12.00 12.00 34.01 34.0 12.00 12.00 . 12.00 12.00 12.00 12.0 7.1- 1

Nine Mile Point Site Emergency Exercise Scenario No. 4I, Rev. 0 FINAL OPERATIONS PLANT PARAMETER DATA TABLE 7.1 This rtata only to be used it the sin)ulator becon)es ir)ol)crab/e during the exercise I? eactor/Core Unl'ts 9:30 9:45 10:00 10:15 10:30 10:45 11:00 11 I5, ;: 11:30 ) <<$ ,1:45;~t r? eactor Level >nrlles 184.1 184.1 184.1 39.8 30.2 20.5 10.8 -5.7 5.3 -25.1 I?eacto) Pressu)e f)s>II 1019.8 1019.8 1019.8 1112.7 1032.0 951.3 870.6 811.4 666.0 650.C

)!canto) I?ecir Loop Flow A II))n/l)r 1 58E~07 1.58E+07 1.58E+07 0.00E+00 O.OOE+00 0.00E+00 O.OOE+00 O.OOE+00 0.00E+00 O.OOE+PC

>'.r actor Recir Loop Flow 8 II)n1/h) 1.58E+07 1.58E+07 1.58E+07 0.00E+00 0.00E+00 0.00E+00 0.00E+00 O.OOE+00 0.00E+00 0.00E+OC Primary/Secondary Containment I)) ywr ll Press)ac f)s>g 0.5 0.5 0.5 0.6 0.9 1.6 1.8 2.3

>Iywnll T()lrlpefatrlfe lnax F 131.5 131.5 131.5 126.3 128.6 131.0 133.3 135.0 139.4 139.7 I)gwell 1r'rnf>r'rat))re Avg F 115.0 115.0 115.0 114.1 116.2 118.2 120.3 121.7 125.6 125X I)rywell Oxygen 2.3 2.3 2.3 2.3 2.2 2.2 2.2 2.2

) )r ywell Hy<fr ouer) OO 0.4 0.4 0.4 0.3 0.3 0.3 0.3 0.3 0.3 P 3 1)I>~>irssior) Pool Level Feel 200.0 200.0 200.0 199.6 200.0 200.5 200.9 201.3 202.0 202.2 h)l>l>ression f'ool Temperature 79.9 79.9 79.9 96.1 105.4 114.7 124.0 130.5 148.1 149.1 "r)f)I))es. ion Pool Pressure pslg 0.5 0.5 0.5 0.7 1.4 1.7 2.0 2.6 2.6 I?eacto) B))if(ling D/P pslg -0.01 -0.01 -0.01 -0.04 -0.03 -0.03 -0.03 -0.03 -0.03 -0.02 "lar)dby Gas Treatment Flow scfm 5000 5000 5000 5000 5000 5000 5000 500C I otal Station Slack Flow 10E3 scfm 75.13 75.13 81.62 40.73 40.71 40.69 40.66 40.65 40.60 40.6C Ir)l )I Station Vent Flow 10E3 scfnl 111.42 111.42 111.42 0.00 0.00 0.00 0.00 0.00 0.00 O.OC 13aiance Qf Plant Main Generator Power Mwe 1159.46 1159.46 1159.46 0.00 0.00 0.00 0.00 0.00 0.00 O.OC

, I otal Feedwater Flow x10E6 Ibm/hr 14.92 14.92 14.92 2.66 2.19 1.72 1.25 0.94 0.00

. I otal Steam Flow O.OC x10E6 Ibm/hr 14.97 14.97 14.97 0.00 0.00 0.00 0.00 0.00 0.00 O.OC Main Co)ulenser Vacuum in Mg Vac 26.02 26.02 26.02 26.02 26.02 26.02 26.02 26.02 11.23 1.9r ECCS Systems (Injection Flow)

c"=. >"

?CIC I..~>;vd~e< ~

gpln 0.00 0.00 0.00 652.92 0.00

,I IPCS 0.00 0.00 0.00 0.0(

x10 gpm 0.00 0.00

.I.PCS x 100 gp)n 0.00 0.00 0.00 0.00 7400'38.22 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.0(

I PCI A 'ir)d icales S/P cooling 0.00 0.00 0.0(

II.PCI B 'indicates S/P cooling x100 x1 00 gpm 0.00 0.00 0.00 7400* 7400'400* 7400 7400* 7400 0.00 0.00

,I.PCI C x100 g pl11 gpn1 0.00 0.00 0.00 7400 0.00 0.00 7400" 0.00 7400'.00 7400 7400'.00 7400'400 0.00 0.00 0.0(

Makeup Storage

<:ST A Lr vel 34.01 34.01 34.01 35.71 34.81 33.90

';ST B Lr vel Frrt 33.00 32.34 30.94 30.0(

34.01 34 .01 34.01 36.82 35.68 I lol II L 34.54 33.40 32.34 30.94 30.0(

I n)ches 12.00 1 2.00 12.00 1-2.00 12.00 12.00 12.00 8.26 9.03 12.5:

7.1- 2

Nine Miie Point Site Emergency Exercise Scenario No. 41 Rev. 0 F INAL OPERATIONS PLANT PARAMETER DATA ~

TABLE 7.1 This data o/)/y to be used if the sinn/lator becon)esh)operab/e during the exercise

'eeactor/Core Units 12IOO 12:15 12:30 12:45 13'00 13:15 13:30'. -. 13:45 . 14:00-.

'.ractor Level inct)rs -3.9 9.4 -25.4 16.4 66.0 -26.9 -60.3 15.8 91.9

'eactor P(essu(e f)sl(i 6I 4.9 224.7 64.2 293.9 607.9 582.1 0.0 0.0 0.0 erarlor fe(!cir Loop Flow A II >nl/h f O.OOE~ 00 O.OOE+00 0.00E+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00

.( actor Recir Loop Flow 0 Itu)1/hr O.OOE< 00 0.00E+00 0.00E+00 0.00E+00 0.00E+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 I 'rimary/Secondary Containment

')rywell Press(i) e f)slg 2.5 5.3 5.8 2.6 1.4 -0.1 -0.1 -0.1

>>ywr II Ten)f)erah)re n)ax F 140.7 163.3 168.3 139.0 141.4 144.5 151.5 149.0 146.6

'(yw(.'ll Trn) prralu(e Avg F 126.9 146.9 151.9 122.3 127.5 129.5 134.6 132.1 129.6

()(ywrll Oxygen 0 2.1 1.8 2.0 2.1 1.9 1.8 2.1 2.4

( )(yw('ll I ly(l(ogen 00 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 uf)p(ession Pool Level Feet 202.4 203.0 203.1 202.6 202.4 202.5 202.7 202.7 202.7

oppression Pool Temperah(re 146.5 125.5 121.7 131.1 140.2 138.3 122.7 118.3 113.9

'suppression Pool Pressure f)slg 2.6 2.1 2.0 2.2 2.5 1.8 0.2 0.0 -0.1 Ieeaclor Building D/P pslg -0.03 -0.03 -0.02 -0.03 -0.03 -0.04 -0.05 -0.07 -0.08 "la)ufh Gas Treahnent Flow scfm 5000 5000 5000 5000 5000 5000 . 5000 5000 5000 I otal Stalion Stack Flow 10E3 scfm 40.62 81.62 81.62 81.62 40.60 40.6 81.49 81.49 81.49 I olal Station Vent Flow 10E3 scfm 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 t3alance Of Plant

(/tain Generator Power Mwe 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 I'otal Ferdwater Flow x10E6 Ib(n/hr 0.44 0.00 0.00 0.00 0.00 0.00 0.89 0.00 0.89 I otal Stean) Flow x10E6 Ibm/hr 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 I/lain Co(ul( nsrr Vacuum in Hg Vac 0.64 0.07 0.07 0.08 0.23 0.07 0.07 0.07 0.07 I='CCS Systems (Injection Flow)

IeCIC (I f)01 0.00 0;00 0.00 0.00 0.00 0.00 0.00 0.00 I IPCS X10 gp)11 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 xl 00 gp)n

)PCS I f'Cl A i(ulicates S/P cooling x100 gpn) 7 400 0.00 7400 0.00 7400 0.00 7400 0.00 7400'.00 7400 0.00 0.00 7400'400'400*

0.00 0.00 0.00 I I'Cl 0 i)ulicates S/P coolin(I x100 gp(n 7400. 7400, 7400'400 7400 7400 7400 7400'400' f'Cl C xi 00 gpn) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 f/laf(cup Storage T A Lrvrl Feet 29.62 28.48 28.34 28.65 29.12 28.7 28.04 27.47 26.91

':ST B Level ret 29.62 28.48 28.34 28.65 29.12 28.2 28.04 27.47 26.91 I l()lwell Levf!I 01cl)rs 11.86 11.87 12.00 11.40 12.47 ,10.44 9.02 10.39 11.77 7.1- 3

ite Point Site Emergency Exercise Scenano No. 41, Rev. 0 FINAL Pl ANT EQUIPMENT STATUS TABLE 7.2 This rlata ortly to be usedif tlte sitttttlator becottu s inoperable drjring the exercise 7:00 7:15 7:30 7 45 8:00 8:15 8130 Modes of Itijectiot>

otttfrtis;tlr. f'tttttlts (A/B/C) (0/0/0l [0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 OIOIO

~

'.tttttlcttsatt. I3oosfrr Ptttnfts (A/13/C) ~OIOJO 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 OIOIO I t ctlwalcr Pittttl>s (A/8/C) ~~OIIIO 0/I/0 0/I/0 0/I/O 0/I/0 0/I/0 OIIIO t'.CIC/Hf CS/LPCS ~S/SI 8 S/S/S S/S/S S/S/S S/S/S S/S/S S/S/S I',I IR (A/8/C) S/S/S S/S/S S/S/S S/S/S S/S/S S/S/S S/S/S r~otlltol Rtul Olive (A/8) 0/S 0/S 0/S 0/S 0/S 0/S 0/S Status Of Engineered Safeguards

la~tttflt Lirtttirf Control (NB) S/S S/S S/S S/S S/S S/S S/S

'utlo Defer ss Sysletn (ADS) (Div. 1/Div. 2 S/S S/S S/S S/S S/S S/S S/S

'lruttflty Gas Trraltncttt (A/8) S/S S/S S/S 0/0 I lydtoftt tt Rrcotttltiners S/S S/S 0/0 (NB) S/S S/S S/S S/S S/S S/S S/S "t'tvit:r Water Pumps (A/8/C/D/EIF) OIOIOIOISIS OIOIOIOISIS OIOIOIOISIS OIOIOIOISIS OIOIOIOISIS OIOIOISISIS OIOIOISIOIS l=lectricaj Distribution Systems 13.8 KV, Swilcltgear (001/002/003) OIOIO 0/0/0 0/0/0 OIOIO 0/0/0 0/0/0 0/0/0

, 1.16 KV Swilclttlear (11/12/13/14/15) 0/0/0/0/0 OIOIOIOIO OIOIOIOIO 0/0/0/0/0 0/0/0/0/0 OIOIOIOIO 0/0/0/0/0 ll. tttergettcy Swilcltgear (101/102/103 0/0/0 OIOIO 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 115 KV RSST (A/8) 0/0 OIO 0/0 0/0 0/0 0/I 0/I I )iest'I Getteralots (EG1/EG2/EG3) S/S/S S/S/S S/S/S S/S/S S/S/S S/S/0 S/S/0 I?5 VDC Mott>>al Bus (A/BIC) OIOIO 0/0/0 0/0/0 0/0/0 1.".5 VDC Et>>rugcttcy Btts (Div. 1/2/3)

OIOIO 0/0/0 0/0/0 OIOIO OIOIO 0/0/0 0/0/0 -

0/0/0 0/0/0 0/0/0 Miscellaneous Systems S Equipment I

MSIVs (lttside/Outside) OOIOO OOIOO OOIOO OOIOO OOIOO OOIOO OOIOO Ilk( at:lot Water Cleanup (A/8) 0/S 0/S OIS OIS 0/S 0/S OIS 0=-oftrt alitttl. S=slatullty. I=inof)etaltlr.. '= RIIR it> S/P r;ooling.

CC=t:Iosctf, OO=open 7.2- 1

Mile Point Site Emergency Exercise Scenario No. 41. Rev. 0 FINAL PLANT EQUIPMENT STATUS TABLE 7.2 This rlafa o>>ly to be iised if flic siii>>ilafnr bren>>ins i>>operat>le during flic exercise.

8:45 9:00 9:15 9130 9:45 10:00 f;lodes of lltjectioi>

onitoiisale P>>>>itis (A/(3/C) [OIOIO [0/0/0 0/0/0 0/0/0 OIOIO 0/0/0 OIOIO

"/>>i<tensatr t3oos/ter I'iiiiilis (A/BIG) [O/0/0j 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0

' nilwali'r P>>>>ii~s OIIIO OIIIO OIIIO 0/I/O 0/t/0 OIIIO Uiivi'n/B/c)

~r ll It tf'C ~/t P(

(A/B/C)

[S/S/SJ

[SIS/S

~S/S/S S/S/S S/S/S S/S/S S/S/S S/S/S S/S/S S/S/S 0/S/S S/S/S OISIS 0'/0 /0 t~n(I '>>tii)l (A/B) 0/S 0/S OIS 0/S 0/S 0/0

':tatus Of E>>rtineered Safeguards

Iarnlt)y Li/t>>i/I Cniilinl (Al(3)

'i>>lo Ui lness Syslei>> (AOS) (Oiv. 1/Uiv. 2) S/S S/S S/S S/S S/S S/S S/S

I iiirttiyGas 1reatr>>e>>t 0/0 (A/B) S/S S/S S/S S/S S/S 0/0 i lyilrogen Recor>>tiiriers (A/f3) S/S S/S S/S S/S S/S S/S S/S

'i.rvicr'Walei Piiiiitis (AIBICIDIEIF) OIOIOISIOIS OIOIOISIOIS OIOIOISIOIS OIOIOISIOIS 0/OIOIOIOIS OIOIOIOIOIS OIOIOIOIOIS l:lectrical Distritiution Systeins I 3.8 KV Switctitti ar (001/002/003) 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0

t. I G KV Switctutr ar (11/12/13/14/15) OIOIOIOIO 0/0/0/0/0 OIOIOIOIO OIOIOIOIO 0/0/0/0/0 0/0/0/OIO 0/0/0/0/0 i irir(ge>>cy Switcliiloar (101/102/103) 0/0/0 OIO/ 0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 115 KV RSST (n/B) 0/I 0/I 0/I 0/I 0/I 0/I 0/I I )ii sr I Grrir raloi s (EG1/EG2/EG3) ~S~/S/0 SISIO S/S/0 SISIO SISIO 0/0/0 0/0/0-I "5 VOC Hnr>>ial Biis (n/B/c) ~C~>IO/0 0/0/0 0/0/0 0/0/0 0/0/0 0/OIO OIOIO l25 VDC t=r>>>>itin>>cy Hiis (Div. 1/2/3) 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 Miscellaiieous Systems 8 Equipl>>erat

.l. IVS (Iiisirtr /Oiilsiiln) [OO/OOj OOIOO OOIOO OOIOO OOIOO OOIOO CC/CC I'< ai:lnr W;ill r Cli:iiiiili (A/0) [0/S 0/S 0/S 0/S 0/S 0/S S/S O=npeiati>>g. S=stantttiy. I=irioperat>le. '= RIIR iii S/P cooling.

CC=ctn~ed. 00=olien 7.2- 2

h 0

t I

Mile Point Site Emergency Exercise Scenario No. 41 Rev. 0 FINAL

~

PLANT EQUIPMENT STATUS TABLE 7.2 This data only to be user/ if the shnulator beconies inoperable during the exercise 10I30 10:45 11:00 11:15 11:30 11:45 12'00 I?

Modes of Injection  ?

.'?onttensate Punlf>s .(A/B/C) 0/0/0 0/0/0 0/S/0 0/S/0 0/S/0 0/S/0 0/S/0

<'.o<utensate Booster Pui>>ps (A/B/C) ~OIO~IO OIO/0 0/S/0 0/S/0 OiSiO OiSiO OISIO I eedwaler Puinps (A/B/C) 0/I/0 0/I/S 0/I/S OIIIS 0/I/S 0/I/S 0/I/S

'I'.GIC/HPCS/LPGS 0/S/0 lis/0 I/S/0 I/S/0 IISIO I/S/0 I/S/0 i? HR (A/B/C) 0 /0 /0 0 IO Io 0'/0 /0 0 /0 /0 0'/0 /0 0 /0*/0 0 /0 /0

, .o>>trot Rod Ddve

~

(A/B) 0/0 0/0 0/0 0/0 0/0 0/0 0/0

'Status Qf Engineered Safeguards i::taiMII)yLi(tuid Conliol (A/B)

I Auto Detness S stern (ADS (Div. 1/Div. 2) S/S S/S S/S S/S S/S S/S S/S "tandby Gas Treatment (A/B) 0/0 0/0 0/0 0/0 0/0 OIO 0/0 I I dro<ien Recotnt>iners (A/B) S/S S/S S/S S/S S/S S/S S/S

.'service Water Pun>ps (A/B/C/D/E/F) OIOIOIOIOIS OIOIOIOIOIS 0/0/0/0/0/S 0/0/0/0/0/s 0/0/0/0/0/s OIOIOIOIOIS OIOIOIOIOIS Electrical Distribution Systems 13.8 KV Switcttgear (001/002/003 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 4.16 KV Swilchgear (11/12/13/14/15) 0/olololo OIOIOIOIO 0/oil/oil OiOIOIOIO OIOIOIOIO 0/0/0/OIO OIOIOIOIO I:n>et tiency Switcltgear (101/102/103) 0/0/0 0/0/0 OIOIO 0/0/0 0/0/0 0/0/0 0/0/0 115 KV RSST (A/8) 0/I 0/I 0/I 0/I 0/I Oil 0/I IJieset Generators (EG1/EG2/EG3) 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 l25 VDG Normal Bus (AIB/C) 0/OIO OIO/0 0/0/0 0/0/0 0/0/0 OIOIO 0/0/0 125 VDC Emergency Bus (Div. 1/2/3) 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 Miscellaneous Systems & Equipment MSIVs (Ittside/Outside) CC/CC CC/CC CC/CC CC/CC CC/CC CC/CC CCICC I? eaclor Water Cleanup (A/B) S/S S/S S/S S/S S/S S/S S/S 0=operating. S=slandby, i=inoperable, = RHR in S/P cooling, CC=closed, Oo=open 7.2- 3

ite Point .

Site Emergency Exercise Scenario No. 41 Rev. 0 FINAL

~

PLANT EQUIPMENT STATUS TASLE 7.2 This data only to be used if the shnu/ator becontes inoperable during the exercise 12:15 12:30 12:45 13:00 13:15 13:30 13:45 Modes of ltijection

';nnttensate Pttntps (A/B/C) [0/S/0] 0/S/0 0/S/0 OISIO OISIO 0/S/0 OISIO

'ontlensate Unosler Puntps (A/8/C) 0/S/0 0/SIO 0/S/0 OISIO 0/SIO 0/S/0 0/S/0

~Olla/S I ne(twalef Putnps "CIC/HPCS/LPCS (A/8/C)

~~//S/0 OIIIS IISIO 0/I/S I/S/0 OIIIS IISIO IIS/0'/l/S 0/I/S IISIO 0/I/S I/S/0 t I lR (A/[3/C) 0 /0 /0 0 IO IO 0 /0 /0 0 /0 /0 0 /0 /0 0 /0"IO 0 IO'IO

'rnllttot Rn(t t)live (A/8) 0/0 0/0 0/0 0/0 0/0 0/0 0/0 Status Of Engineered Safeguards

>tatittt!y Li<luitl Cot>trot (A/8)

"Allto Dt!pless Systetn (ADS) (Div. 1/Div. 2) S/S S/S S/S S/S S/S S/S S/S

'tatult>y Gas Tteattnent (A/8) 0/0 0/0 0/0 0/0 0/0 0/0 0/0 t lytttotten Recotnliiners (A/8) S/S S/S S/S S/S S/S "t rvice Water S/S S/S Putnps (A/8/C/D/E/F) OIOIOIOIOIS OIOIOIOIOIS OIOIOIOIOIS OIOIOIOIOIS OIOIOIOIOIS OIOIOIOIOIS OIOIOIOIOIS Electrical Distribution Systems l3.8 KV Switcttgear (001/002/003) OIOIO OIOIO 0/0/0 t.16 KV Switcttltear OIO/0 0/0/0 OIOIO 0/0/0 (11/12/13/14/15) 0/0/0/0/0 OIOIOIOIO 0/0/0/0/0 OIOIOIOIO OIOIOIOIO OIOIOIOIO 0/0/0/0/0 l nterttt t!cy Swilchgear (101/102/103) ~O/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 115 KV RSST (A/8) 0/I 0/I 0/I 0/I 0/I 0/I 0/I Diesel Generatots (EG1/EG2/EG3) OIO/0 0/0/0 0/0/0 l25 VDC Notrnat Btts 0/0/0 0/0/0 0/0/0 0/0/0 (A/8/C) 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 125 VDC Etttetgency Bus (Div. 1/2/3) 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 0/0/0 OIOIO Miscellaneous Systems & Equipment l.tSIVs (Inside/Oulsi<lr ) CC/CC CC/CC CC/CC CC/CC CC/CC CC/CC I?e tctor Water Cleanup (A/8) S/S CC/CC S/S S/S S/S S/S S/S S/S O=nprnalirtg. S=slantltty. t=ittoperattte. '= RHR in S/P cooling, CC=ctose(t, Oo=opett 7.2- 4

ine alile Point Site Emergency Exercise Scenario No. 4t, Rev. 0 FINAL PLANT EQUIPMENT STATUS TABLE 7.2 This rfata oitly to be Iised if the sinnilator beconies inoperable during the exercise.

14:00 I/Iodes of Injection

".orutensate Puinps (Al(3/C) OISIO

';o>>densate Booster Pumps (NB/C) OISIO i eedwaler Puinps (A/8/C) OIIIS I tCIC/HPCS/LPCS IISIO i',I IR (A/l3/C) 0 /0 /0

<'ontrol Rod Drive (A/8) 0/0 Status Of Engineered Safeguards Auto Depress Systein (ADS (Div. 1/Div. 2) S/S "landhy Gas Treatment (A/8) 0/0 I lydrorlen Recomhiners (A/8) S/S

'>nrvice Water Puinps (NBICIDIEIF) OIOIOIOIOIS l.=.lectrical Distribution Systems l3.8 KV Swilcligear (001/002/003) 0/0/0 1.16 KV Switcti(lear (11/12/13/14/15) 0/0/0/0/0 l=meigenc Swilcligear (101/102/103 0/0/0 I 115 KV RSST (NB) 0/I "Diesel Geiieralois (EG1/EG2/EG3) OIOIO l25 VDC Noiinal Bus (AIB/C) 0/0/OJ I 25 VDC Eineigency Bus (Div. 1/2/3) OIOIO Miscellaneous Systems & Equipment Instvs (inside/Outside) CC/CC

=I'.eactor Water Cleanup (A/8) S/S 0=operating. S=standliy. I=iiioperatite. = RHR in SIP cooling, CC=ctn "ie(l. 00=open 7.2- 5

OI CRATIO I PARAMETERS Nine I Unit 2 P tL 632 Site Einer y Exercise Scenario No. 4I Rev. 0 FINAL Table 7.3 Tlris rlata ortly to be used if the sirrirrlator berorrtes irroperable during the exercise.

.6L>> DtL t tdicator Ittmber Indicator Name 31-N637A f<X BLDG GENL AREA FL. 289f=T 75.61 75.61 75.6 75.9 76.4 76.9 77.2 77.5 77.7 77.8 3I-N640A I<X BLDG GENL AREA EL. 215FT 77.5 77.6 77.6 77.2 76.8 76.7 76.7 76.8 ', 76.9 "'~76.9 31-N641A RX BLDG GENL AREA EL. 206FT 78.01 78 01 78.01 76.7 76.7 76.6 76.4

.31-N615A MSL TUNNEL DELTA TEMP EL. 258FT 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 . 1;3, -'.,";1;.'I 31-NG02A IRX BLDG RCIC f'MP ROOM 78 61 78.51>> 51 73 11 71.91 71.61 76.9I 76.5 31-N612A RX BLDG RADIOACTIVE PIPE CHASE EL. 206FT 78.6 78.5 78.5 73.1 72.6 72.2 71.9 -71.6. 76.9;;-',';76;,-5 31-N630R f<X I3LDG GENL AREA EL. 261FT 76.21 76.21 76.01 76 i I 76 41 76.61 76.81 77.0[ 77.2 31-N639A RX BLDG GENL AREA EL. 240FT 76.7 76.7 76.7 76.7 76.5 76.5 76.6 76.8 " 76.9,",-77.0

'1-N601A RX BLDG RWCU PMP ROOM A 92.7 93.2 93.8 94.2 -

94.6 92.8 89.6

.31-N601C RX BLDG RWCU PMP ROOM B 92.3 92.3 92.3 92.7 93.2 93.8 94.2 94.6,92,8;:-;89,6 31-NG01E RX I3LDG RWCU HX ROOM 78.11 78.01 78.01 78 41 >>21,,>>51 7941766 31-N604A MSL TUNNEL EL. 263FT 89.2 89.2 89.2 89.5 89.5 89.4 89.4 89.3 . 88.4;"--.-.88.k 31-N608A AUX BAY NORTH RHR PUMP ROOM A >>oI 79.o1>>.o1 74 31 73.61 75.1I 76.8 31-N608C AUX BAY SOUTH RHR PUMP ROOM B 79.0 79.0 79.0 78.2 76.6 75.5 74.5, 73.8 78,0,.-"76:8 31-N616A MSL TUNNEL LEAD ENCLOSURE EL. 299FT 88.11 88.11 88.11 88.5 88.5 88.4 88.3 88.3 86.8 87.0

'1-NG1r A MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 88.1 88.1 88.1 88.5 88.5 88.4 88.3 88.3 86.8. -"

87,0

'1-N618R MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 88.11 88.11 88.11 88.5 88.5 88.4 88.31 88.31 86.81 67.0

'1-N619A I<X BLDG SFP HX ROOM B 77.8 77.6 77.4 77.3 77.4 77.4 77.5 77.6 -

77.7:",7,7;7

':4-N620A RX BLDG RADIOACTIVE PIPE CHASE EL. 266FT 77 61 77.41 77.3 77.4 77.4 31-N621A f<X BLDG RADIOACTIVE PIPE CINSE EL. 292FT 7751 776I,.777L 777 78.1 78.1 78.0 78.0 78.4 78.8 79.2 79.5 79.5-."-'"78.9 I 31-N622A RX BLDG RADIOACTIVE PIPE CI-IASE EL. 305FT 78.1 78.1 78.0 78.0 78.4 78.8 79.2 79.5 79.4 78.8 7.3-1

OI ERATION r PARAMETERS Nine t Unit 2 PANEL 632 Site Emergency Exercise Scenario No. 4t Rev. 0 FINAL Table 7.3 This rlala only to be rrserl if tire sirrrrrlator br conies irtoperable during the exercise.

i tdicator Itlmber Indicator Name 31-N637A RX BLDG GENL AREA EL. 289FT 78.3 78.6 79.0 79.3 79.6 77.8 78.1 78.3 31-NGROA RX I3LDG GENL AREA EL. 215FT 76.8 76.8 76.7 76.7 76.7 76.9 77.1 77;2 31-NGrI1A RX BLDG GENL AREA EL. 206FT 76.11 76.01 75.8 75.6 75 41. 78.31 76.3 76.4

.31-N615A IVISL TUNNEL DEL1A 1EMP EL. 258FT 1.2 1.2 1.3 1.3 1.3 1.0 1.0 ',0 31-N602A RX BLDG RCIC PMP ROOM 31-N612A RX BLDG RADIOACTIVE PIPE CHASE EL. 206FT 76 76.1 11 76 81 76.8 77 41 77.4 78.11 78 71. 78.81 72.3 72.0 78.1 78.7 76.6 72.3

21. 7240

~

31-N638A RX BLDG GENL AREA EL. 261FT 77 41 77.61. 77.8 78.0 78.2I 77 77.4 77.5 31-N639A RX BLDG GENL AREA EL. 240FT 77.0 77.1 77.1 . 77.2 77.3 77.0 77.2 .. 77;3 31-N601A RX BLDG RWCU PMP ROOM A 91 71 91.31. 91.0 90.7 oo.sl 86.9 '84.9 83.4 31-N601C RX BLDG RWCU PMP ROOM B 91.7 91.3 91.0 90.7 90.3 86.9 '4.9 = 83.4 .

31-N601E RX BLDG RWCU HX ROOM 79.6I 79.81 so.ol so,11 80.31 83.5 83.41

'31-N604A MSL TUNNEL EL. 263FT 88.0 87.8 87.5 87.3 87.0 88.1, 87.9,'87.6 31-N608A AUX BAY NORTH RHR PUMP ROOM A 74.51 74.21 73.9 73.6 78.01 79.01 79.8 31-NG08C AUX BAY SOUTH RHR PUMP ROOM B t 31-N616A MSL TUNNEL LEAD ENCLOSURE EL. 299FT 74.5 74.1 73.8 73.5 73.2 782;- 793; 80.1 86.8 86.5 86.3 86.0 ss.! I 87.0 86.9 86.6 31-N617A MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 86.8 86.5 86.3 86.0 85.7 87.0 86.9 86.6

31-N618A MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 86.81 86 51 86.3 86.0 ss.71 87.01 86.91 86.6
31-N619A RX BLDG SFP HX ROOM B 77.8 77.9 77.9 78.0 78.1 96.3 113.0...102.0 31-N620A RX BLDG RADIOACTIVE PIPE CHASE FL. 266FT 77 81 77.91.77.91 78.01 78.11 98 31, 113.01 102.0 31-N621A RX BLDG RADIOACTIVE PIPE CHASE EL. 292FT .

31-N622A RX BLDG RADIOACTIVE PIPE CI.IASE EL. 30SFT 79.7 79.9 80.1 80.3 80.5 78.5 83.3.'3,5 79.6 79.8 80.0 80.1 80.3 78.6 83.4 83.5 7.3-2

OPERATION PARAMETERS Nine . Unit2-.

r 4.632 Siie Erner Exercise, Scenario No. 41 Rev. 0 FINAL Table 7.3 This data only to be used if fhe sirrrrrlator becorrres irroperable during the exercise.

~4;lt't; I>dicator lumber Indicator Name 31-N637A RX BLDG GENL AREA EL. 289FT 78.4 78.5 78.5 78.5 83.5 82.5 85.0 86.7 31-N640A RX BLDG GENL AREA EL. 215FT 77.2 77.3 77.5 77.7 80.7 81.3 - -'-

'2.9- ~8';3 31-N641A RX BLDG GENL AREA EL. 206FT 78.41 7711 77.31 7s.4! 79.ol 79.51 'so.z

.31-N615A MSL TUNNEL DELTA TEMP EL. 258FT 0.9 1.0 =

0.9 31-N602A RX BLDG RCIC PMP ROOM 71.8I 7~.41 71.21 71.31 71.21 71.2) 71.1

31-N612A RX BLDG RADIOACTIVEPIPE CHASE EL. 206FT 71.8 71.6 71.4 71.2 71.3:- 71;2,,.71.2 .~4'"p73>)

31-N638A RX BLDG GENL AREA EL. 261FT 31-N639A 78.11 88 71 82 81..88 31 90.8 RX BLDG GENL AREA EL. 240FT 77.4 77.5 77.6 77.7 84.4 82.5.,:-,.85.9 -'788.0 31-N601A RX BLDG RWCU PMP ROOM A sz.zl 81.4 80.7 80.3 80.2 80.2 80.0 79.8 31-N601C RX BLDG RWCU PMP ROOM B 82.2 81.4 80.7 80.3 80.2 80.2;.' 80.0'.'a"~79.8

31-N601E RX BLDG RWCU HX ROOM sz.sl 81.61 80.81 80.31 80.6! 87.11 81.01 87.1
31-N604A MSL TUNNEL EL. 263FT 87.2 86.5-, 85.8 85.1 I P!9.

. 86.1 -.'.;86.2'.:-';;;986.4 g,~y86~6

.31-N608A AUX BAY NORTH RHR PUMP ROOM A 80.41 so 91 si 31 ~

81.6! 81.91 82.11 82 4182 7

,31-N608C AUX BAY SOUTH RHR PUMP ROOM B 80.8 81.3 81.8 . 82.2 .,<<82.4:- .',-82.6-'---:-'. 82.9 '~r~4~83:2

31-N616A MSL TUNNEL LEAD ENCLOSURE EL. 299FT ss.sl 85.5 84.8 842 8451 845 -,844 84.3 31-N617A MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 86.3 85.5 84.8 84.2 .84.5... -'-8445=:.:",84.4.!7(~i84.3 31-N618A MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 4

ss.sl 84.81 84 21 84 51 7,,84 51 84 41 84 3 31-N619A RX BLDG SFP HX ROOM B 94.7 89.8 86.4 84.1 = 82.5:--;-- 81.9.; 80.0 l;;- :.78;4 31-N620A RX BLDG RADIOACTIVE PIPE CHASE EL. 266FT 94.71 ss.sl ss.41 84.1! 82.51 81.91 80.ol zs

31-N621A RX BLDG RADIOACTIVE PIPE CHASE EL. 292FT 82.6 81.6 80.9 80.3 .80.5 -: =='='.81-1=;,=:'-;8099.1~~4'-81',0

=31-N622A RX BLDG RADIOACTIVE PIPE CHASE EL. 305FT 82.5 81.6 80.8 80.3 80.6 81.1 81.0 81.1

'.3-3

. ~

rt I'HORATIO f PARAMETERS Nine .t Unit 2 cL 632 Site Erne y Exercise ..

Scenario No. 4t Rev. 0 FINAL Tabfe 7.3 This dntn ortly to be rrsed if tire sir>>rrhttor hecorr)es irfolrerable during tire exercise.

rtdiCatOr lufftber IfldicBtor N tf11e 31-NG37A RX BLDG GENL AREA FL 289f. T 88.4 90.1 91.8 31-NGROA RX BLDG GENL AREA EL. 215FT 85.8 87.2 88.7 31-N641A RX BLDG GENL AfkEA EL. 206FT 80.8l 81.5I 82.1 31-N615A MSL TUNNEL DFLTA TEMP EL. 258FT 2.7 3.0 3.3 31-N602A RX BLDG RCIC PMP ROOM 71.0l 70.9

.31-N612A RX BLDG RADIOACTIVE PIPE CHASE EL. 206FT 71.1 71.0 70.9

31-N638A RX BLDG GENL AREA EL. 261FT 93.4 I 9S.9I 98.S

'31-N639A RX BLDG GENI AREA EL. 240FT 90.2 92.3 94.5 31-N601A RX BLDG RWCU PMP ROOM A 79.8l 79.5l 79.3 31-N601C RX BLDG.RWCU PMP ROOM B 79.6 79.5 79.3 31-N601E RX BLDG RWCU HX ROOM 81.2l 81.4I 81.5 31-N604A MSL TUNNEL EL. 263FT 86.8 87.0 87.2

31-N608A AUX BAY NORTH RHR PUMP ROOM A 82.9 83.2 83.5
31-N608C AUX BAY SOUTH RHR PUMP ROOM B 83.4 83.7 83.9 31-N616A MSL TUNNEL LEAD ENCLOSURE EL. 299FT 84.2 84.2 84.1

'31-N617A MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 84.2 84.2 84.1

31-N618A MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 84.2 84.2 84.1 31-N619A RX BLDG SFP HX ROOM B 76.9 75.4 73.9 31-N620A RX BLDG RADIOACTIVE PIPE CHASE EL. 266FT 76.9 75.4 73.9

.31-N621A RX BLDG RADIOACTIVE PIPE CHASE EL. 292FT 81.1 81.1 81.2

,31-N622A RX BLDG RADIOACTIVE PIPE CHASE EL. 305FT 81.2 81.4 81.5 7.3-4

rrPERATIO T PARAMETERS Nine t Unit 2 Sile Em =xer

. 642 cise'v.OFINAL Scenario No. 4r ~

~

TABLE 7.4 This rfata orily to he rrserf if the sirrrrrlator becorrrnshroperabfe durirrg tire exercise.

4 'L ';g":rjr- .gjfgi.

Ir>dicator Nirrnber indicator Name

'1-NG370 f<X BLDG Gf NL AREA EL.289f-f 75.6 75.6I 75.6 75.9 76.4 76.9 77.2 77.5 77.7 77.8 i 31-N6380 RX BLDG GENL AIRER LL. 261l=T 76.1 76.1 76.1 76.0 76.2 76.4 76.7 76.9 77.1:"'-;. 77.3 I 31-NGonf3 MSL TUNNEL EL. 263f=T so.zl so.zl so.zl so.sl 89.51 89 41 89 41 89.31 88.11 88.1 I 31-N6010 f<X BLDG RWCU PMP i<00M A 92.3 92.3 92.3 92.7 93.2 93.8 94.2 94.6 92.8 .. 89.6 I 31-N601D f<X BLDG ICWCU PMP ROOM 0 9381 9421 9481.928] 69.6 I:31-NG01F RX BLDG RWCU HX ROOM 78.1 78.1 78.0 78.0 78.4 78.8 . 79.2 79.5 '9.4 =".:,'-78.8 I NGn00 AX BLDG GENL AREA EL. 215FT 77 21 76.81 76.71 76 71 76..81 76.9 76.9 I 31-N6410 RX BLDG GENL AREA EL. 206FT 78.0 78.0 78.0 77.6 77.1 76 9 76 8 76+7 '- 76@6 <6I4 I 31-NG080 AUX OAY NORTH RHR PUMP ROOM A >>oI >>oI >>oI 7811 7651 75 31 74 31 73 61, 75  ![ 76 6 I 31-NGOUD RUX BAY SOUTI I RIIR PUMP ROOM S 79.0 79.0 79.0 78.2 76.6 75.5 74.5 73.8. 75.0..',- 76.8 I:31-N61 GB MSL TUNNEL LEAD ENCLOSURE EL. 299FT 88.11 88.11 88.11 88.51 88.51 88.4 88.3 88.3 86.8 87.0 I:31-NG17f3 MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 88.1 88.1 88.1 88.5 88.5 88.4 88.3 88.3 . 86.8,.;:,87,0 I.31-NG150 I 31-N6180 MSL TUNNEL DELTA TEMP EL. 258FT 1.01 1.01 '.01, 1.01 1.o 1.ol 1.ol 1 Js MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 88.1 88.1 88.1 88.5 88.5 88.4 88.3 88.3 86.8 ";-:,87.0 I:31-N6020 RX BLDG RCIC PMP ROOM 78.61>> 78.51 73 11>> sl 72.2I 71.9I 51 71,61 76.9L 76.5 I 31-NG390 RX BLDG GENL AREA EL. 240FT

'31-N6120 HX BLDG RADIOACTIVE PIPE Cf.IASE EL. 206FT 76.4 76.4 76.4 76.3 76.3 76A 76.8 . 76.8'7 0'q" :737.

I 7s.sl 78.51 7851>>11>>sl 76.5 I 31-NG190 RX BLDG SFP HX ROOM 0 77.8 77.6 77.4 77.3 77.5 '77.6, 77;7, -,,:77,7 I 31-NG200 I:31-N621 0 RX BLDG RADIOACTIVE PIPE CI.IASE EL. 266FT RX BLDG RADIOACTIVE PIPE CI IASE EL. 292FT

>> sl >> sl >> 41 >> 31 >> 41 78.1 78.1 78.0 78.0 77,4 78.4 77.4 77 41 78.8..

77 51 77,61 77 7J 79.2 ='79.5,- 79157r',*".178;9 77 I =,31-NG220 RX BLDG RADIOACTIVE PIPE CHASE EL. 305FT 78.1 78.1 ) 78.0 78.0I 78.4 78.8 79.2 79.5 79.4 78.8 7.4-1

OI I:RATIQI T PARAMETERS Nine t Unit 2 642 Site Eme . -xerctse Scenario No. 4t. Rev. 0 FINAL TABLE 7.4 This data oirly to be iised if tire siniiilator t)ecorrres irroperable during the exercise.

la 4

'Lj'tidicator Number Indicator Name I 31-N6378 RX BLDG GENL AREA EL. 289FT 78.2 78.5 78.8 ) 79.1 79.3 77.8 78.1 78.3 I 31-N6308 RX BLDG GENL AREA EL. 261FT 77.3 77.4 77.6 77.7 77.9 77.3 77.5 -,

77;7 1.31-N6048 MSL TUNNEL EL. 263FT ss.sl as.4( 88.3 88.2 88.1 88.11 87.9[ 87.6 I:31-N601 8 RX BLDG RWCU PMP ROOM A 92.6 92.6 92.6 92.5 92.5 86.9 84.9 83.4 I 31-N601D RX BLDG RWCU PMP ROOM 8 92.81 92 8 1 92.6 92.5 92.5 86.91 84.91 83.4 I'.31-N601F RX BLDG RWCU HX ROOM 79.6 79.7 79.9 80.1 80.2 78.6 83.4 '3.5 I 31-N6408 RX BLDG GENL AREA EL. 215FT 76.41 76.9 77.2 77.2 I 31-N6418 RX BLDG GENL AREA EL. 206FT 76.1 75.9 75.7 75.5 75.3 76.3 76.4-'. 768 I-:=31-N6088 AUX BAY NORTH RHR PUMP ROOM A 73.81 73 31 72.8 72.2 71.7 78.0 79.0 79.8

'I=31-N608D AUX BAY SOUTH RHR PUMP ROOM 8 73.9 73 4 72.9 72.3 71.8 78.2 79.3 80j1 I=31-N6168 MSL TUNNEL LEAD ENCLOSURE EL. 299FT 87.4 87.3 87.11 87.0i 86.91 87.0 86.9 86.6 I:-31-N6178 MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 87.4 87.3 87.1 87.0 86.9 87.0 .-

86.9 86.6 l.31-N6158 MSL TUNNEL DELTA TEMP EL. 258FT 1.1 1.2 1.0) 1.0 1.0 I:-31-N6108 MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT I 87.4 87.3 87.1 87.0 86.9 87.0 - 86.9 ',86.6 I=31-N6028 RX BLDG RCIC PMP ROOM 72.71 72 31 71.61 71.11 76.61 72.31 72.0 I:-31-N6398 RX BLDG GENL AREA EL. 240FT 77.0 77.1 77.2

, 13 77.2 77.3 77.1,- 77..3 - -,?7.5 I=31-N6128 RX BLDG RADIOACTIVE PIPE CHASE EL. 206FT 7271 7231 76.6 72.3 72.0 I=31-N6198 RX BLDG SFP HX ROOM 8 77.6 77.6 77.6 77.6 77.7 96.3, -112.6 30).8 I=31-N6208 RX BLDG RADIOACTIVE PIPE CI-IASE EL. 266FT 77.6 77.6 77.6 77.6 77.7 9631. <<28I 101.8 I 31-N6218 RX BLDG RADIOACTIVE PIPE CHASE EL. 292FT 79.6 79.7 79.9 80.1 80.2 78.5 ~ .: 83.3. 83 5 I-:31-NG228 RX BLDG RADIOACTIVE PIPE CHASE EL. 305FT 79.6 79.7 79.9 80.11 80.2 78.6 83.4 83.5 7.4-2

OPERATIO r PARAMETERS Nin t Unit 2 642 Site Ern ..xercise Scenario No. 41. Rev. 0 FINAL TABLE 7.4 This data only to be rrsed if the sirnrrlator beconres irtoperable durhtg the exercise.

l>>dicator Nttmber lt>dicator Name I 31-NG37I3 RX BLDG GI=NL AREA EL. 289FT 78.4 78.5 78.5 78.5 83.5 82.5 81.5 81.5 I 31-N630I3 RX BLDG GENL AREA EL. 261F T 77.8 77.9 77.9 78.0 86.2 82.6 79.0 . 79.0 l.31-N604 8 MSL TUNNEL EL. 263FT 87.21 86 51 85.sl 85 11 ss.11 86.21 86.31 86.3 I 31-NG018 RX BLDG RWCU PMP ROOM A 82.2 81.4 80.7 80.3 80.2 80.2 80.3, 80.3 I 31-N601D RX BLDG RWCU PMP ROOM 8 82.21 81.41 80.71 80.31 80.21 80.2 80.3 80.3 I.31-N601F RX BLDG RWCU HX ROOM 82.5 81.6 80.8 80.3 80.6 81.7 '

81.1 8).7 l.31-NGROB RX BLDG GENL AREA EL. 215FT 81.21 81.71 81.7 i.=31-N6418 RX BLDG GENL AREA EL. 206FT 76.5 76.9 77.1 77.3 78.2 79.1 80.0 80.0 I 31-NGOBB AUX BAY NORTH RHR PUMP ROOM A so.41 so.91 82.11 82.31 82.3 t.31-N608D AUX BAY SOUTH RHR PUMP ROOM 8 80.8 81.3 81.8 82.2 82 4 '2.8 82.6 82.8 I:31-N6168 MSL TUNNEL LEAD ENCLOSURE EL. 299FT 85.51 84.81 84.21 84.51 84.5 84.6 84.6 I=31-N6178 MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 86.3 85.5 84.8 84.2 84.5 84.5 . 84.6 -

84.6 I=31-N6158 MSL TUNNEL DELTA TEMP EL. 258FT o.91 1.01 o.91 o.91 1.71 1.71 1.81 1.8 I 31-N6188 MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 86.3 85.5 84.8 84.2 84.5 84.5 84.B, . 84.6 I:31-N6028 RX BLDG RCIC PMP ROOM 71 41 71.2I 71.21 71.2 E31-N6398 RX BLDG GENL AREA EL. 240FT 77.6 77.6 77.7 77.8 84.8 82.5 . 80.1; 80.1 I:31-N6128 RX BLDG RADIOACTIVE PIPE CHASE EL. 206FT 71.81 71 61 71.41 71.21 71.31 71.2 71.2 71.2 I=31-N6198 RX BLDG SFP HX ROOM 8 94.7 89.8 86.4 84. I 82.5 81.9 81.3, 81.3 I:-31-N6208 RX BLDG RADIOACTIVE PIPE CHASE EL. 266FT .

94.71 89.81 86 41 84.11 82.51 81.9 81.3 I=31-N621 8 RX BLDG RADIOACTIVE PIPE CI-IASE EL. 292FT 81.3 L31-N6228 RX BLDG RADIOACTIVE PIPE CHASE EL. 305FT 82.B 82.51 81.B 81.6 80.9 80.8 80.3 80.5 81.1 .. 81.7-,;.;81.7 80.3 80.6 81.1 81.7 81.7 7.4-3

OPERATION PARAMETERS Nine '. Unit 2 Site Eme xercise 642 Scenario No. 4t. ev. 0 FINAL TABLE 7.4 This data only to he used if the sirnrrlator l>econies iitoperable during the exercise.

Indicator NUmber Indicator Name I 31-N6378 RX BLDG GENL AREA EL. 289FT 81.5 81.5 81.5 I 31-NG308 RX BLDG GENL AREA EL. 261FT 79.0 79.0 79.0 I.31-N6048 MSL TUNNEL EL. 263FT 88.3I 86.3 I 86.3 I 31-N6018 RX BLDG RWCU PMP ROOM A 80.3 80.3 80.3

'.31-NG01D RX BLDG RWCU PMP ROOM 8 SO.3~ 80.3 80.3 I:31-N601F RX BLDG RWCU HX ROOM 81.7 81.7 81.7 I 31-NG408 RX BLDG GENL AREA EL. 215FT 81.7( 81.7 81.7 I='31-N641 8 RX BLDG GENL AREA EL. 206FT 80.0 80.0 80.0 I 31-NGOOB AUX BAY NORTH RHR PUMP ROOM A SZ.3I 82.3[ 82.3 I:31-NGOOD AUX BAY SOUTH RHR PUMP ROOM 8 82.8 82.8 82.8 I 31-NG168 MSL TUNNEL LEAD ENCLOSURE EL. 299FT 88.8~ 84.6 84.6 I=.31-N6178 MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 84.6 84.6 84.6 I=31-N6158 MSL TUNNEL DELTA TEMP EL. 258FT 1.8( 1.8 1.8 I:-31-N6188 MSL TUNNEL LEADS ENCLOSURE TEMP HIGH EL. 299FT 84.6 84.6 84.B I.31-N6028 RX BLDG RCIC PMP ROOM 71.Z) 71.2( 71.2 I:-31-N6398 RX BLDG GENL AREA EL. 240FT 80.1 80.1 80.1 I:-31-N6128 RX BLDG RADIOACTIVE PIPE CHASE EL. 206FT 71.2~ 71.2~ 71.2 I.-.31-N6198 RX BLDG SFP HX ROOM 8 81.3 81.3 81.3 I :31-N6208 RX BLDG RADIOACTIVE PIPE CHASE EL. 266FT 81.3( 81.3~ 81.3 I:31-N6218 RX BLDG RADIOACTIVE PIPE CHASE EL. 292FT 81.7 81.7 81.7 I =.31-NG228 RX BLDG RADIOACTIVE PIPE CHASE EL. 305FT 81.7 81.7 81.7 7.4-4

AREA RA I MONITORS Nine 'nit 2 Site Ern .xercise

't at?le 7,5 ( endings are il) ITIR/hr) Scenario No. 41 ev. 0 FINAL l(lialioo Ir) IIIIOI' I!i.Ih

'!i 10

!i IC LGcatlGIl OW 261'W?61'W "6

I':00 I:

7:15 I?, I

~

~

03 7:30 I?7f>'03

.I, K! I ~ f '03 I

7:45 27E'03 I ?GE '03 8:00 I 2GE>03 I 26Ei03 8:15 I cGE<03 1,26F>03 8:30 I 26E 03 1.26E+03 8:45 I 2GE>03

$ .2GE+03 9:00

,26E>03 1.26E+03 9:15 9:30 1,26E+03 $ .26E>03 1.26E+03 1.26E+03 9:45 1.26E+03

$ .26E~03 10:00 10:15

.26E+03 2.57E+05 1 26E+03 2.20E+GS

~ l?nl <0! I?!'L>OJ I ? GE '03 1.28E 03 I 28E 03 I 28E+03 I 28E+03 $ ,28E>03 1.28E+03 1.28E+03 1.28E+03 I 28E+Q3 2.93E<05

's>-10 OW 261'X 28E/QJ I?!!I;<G.! I 28L'<QJ I 2GL>03 $ .2GE+03 $ .2?E>03 $ .28E/03 $ .27E+03 $ .2?E+03 $ .2?E+03 1.2?E+03 1.27E+03 1.2?E+03 2.?f E+05 I 1?C ~ (Kl $17L<(K) I 1?E <(K< I 17E ~ 00 1.17E>00 1.17E+00 $ .$ ?E>OO 1,17E>00 1.17E >00 1.17E+00 1.17E+00 1.17E >00 $ .$ ?E>00 1.17E+00 215'>'15'0 I:IGE-0>>. <GE 0>>.  !GE.OI 1. <GI:-01 I AGE.G I 1.48E41 1.48E-O I 1.48E-OI 1.48E-G I 1.48E-OI 1.48E41 1.48E41 .1.48E41 1AGE41

'9.3/l 2ro I '-riC<OI I /Cf' Ql I SSC.<0$ I )SE>01 I SSE>0$ 1,55E'01 1.55E>01 1.55E+01 1.55E/01 1.55E+01 1.54E+01 1.54E+01 1.54E+0l 2.61E+03

~

>0 102M I RC >01 I GQL<>0$ $ .6 'F 'Ol I I'&E>0$ 1.88E+Ol I.GGE+0$ $ .88E>0$ 1.88E+01 1.88C+01 $ .87E~OI 1.87E40$ $ .8?Eiof 1.87E+01 4.$ GE403 10 "SQ I r'Gf: ~ 01 I I'!'0'01 I FQE'01 I 8'.)f. <01 1.88E >011 GGE >011.88E >01 I.GGE>0$ I.GGE>0$ 1.87E+01 $ .87E<0$ 1.87E+Ol $ .8?E+01 4.$ GE+03 RX 175'X I 8!I'>0)J I PSL,()J) I 8 I:>L)Q I.GSE/00 $ .8$ E>OG 1.82E+00 $ .83E/00 $ .8$ E+Go I.GOE+00 I.GOE<oo 1.79E+00 $ .79E<00 1 78E+00 9 33E-Gf IS $ 02 I /5'X 3 391 .Ql 3 I TF O'I 3 3,>E-OI 4<F-01 3.34E.OI 3.3GE 01 3.40E-OI 3 33E.GI 3 33E.GI 3.31E.GI 3.29E.GI 3.27E-GI 3.26E-OI 6.01E+Ol

i.103 175'X 35<.f:./!)r) J('30>OJ 3.5lr Go 3.GIE>00 3.50E>OO 3.52E/00 3.56E+00 3.49E+00 3.48Eioo 3.46E+00 3.45E+00 3.43E+00 3.41E+OG $ .06Eioo

'!i-$0$ $ 75'X I 12{ <(K) I ISL>OO I.I IE'Go I. I SF. <OO 1.10E<OO $ .$ I E>oo $ .$ 3E>OO 1.$ GE <00 I.IGE>00 $ .09E>00 1.08E+00 $ .07E>00 1.07E+00 1.27E.OI I!>. I ors 2M 69".E-Ql 6,98E-GI 6 98E-01 6 98E41 6.98E4$ 6.98E41 6.98E4$ 6.98E-G I 6.98E-OI 6.98E-OI 6.98E41 6.98E41 6.98E41 6.98E4$

I'i I n/i

~ RX 26$ I?3E>OO I 23E>00 $ .23C>00 I 23E>00 $ .23E>oo 1.23E<QO 1.23E>00 I 23E+00 1.23E+00 1.23E+00 1.23E+00

'X 1.23E+00 1.23E+00 1.23E+00

.I!i IOG I SIE 01 I.SIE 01 I 51E-Ol 1.51E.QI 1.51E-GI 1.51E-GI 1.51E.OI 1 5$ E-01 1.51E-QI 1.51E-GI 1 .5 I E-01 -1 .5f E-01 289'X

$ .51E-01 1.51E41 ri I lf.~ Ol 6 I IL~ 01 6 I IE'01 6 I IL>0$ 6,$ I E/0$ 6.11E<01 6 I I E>0$ 6.11F+01 6.11E>01 6 I I E>0$ 6.$ I E<0$

3"8'>'.

6.$ 1E+01 6.11E+01 6.11E+01 353'X 7.1or.o I 7.10E-OI 7.10E-OI 7.10E-G I 7.10E-GI 7.1 QE-01 7.10E-OI 7.10E-OI 7.10E-GI 7.10E-OI 7.10E-G I 7.10E-OI 7.10E-OI 7.$ GE-0$

<53 6 ?ATE 01 6 75L.OI 6.75E.OI 6,75C.OI 6.75E.G I 6 75E-01 6.75E-G I 6.75E-OI 6.75E-G I 6.75E-G I 6.75E-OI 6.75E-OI 6.?SE-GI 6.?SE-GI RX 3<r33 1.14E+GO $ .$ 4E<00 $ .$ 4E>OO 1.1 IE+00 1.14E+00 $ .$ 4E400 1.14E+00 $ .$ 4E>00 $ .$ 4E>00 $ .$ 4E+00 $ .$ 4Etoo 1.14E+00 1.$ 4E+00 f:$ 4Eioo

<$ 9 111 RX 275E<OO 2?SE+00 2.75E>00 2.75E>00 2.75E>00 2.75E+GO 2.75E'00 2.75E+00 353'0 2.75E>00 2.?SE>00 2.75E>00 2.75E+00 2.75E ~00 2.75E+00

'.IS> 116 250'0 488E 0" 488E.02 4.88E 02 4 GGE-02 4.88E.02 4.88E-02 4.88E-02 4.88E.02 4 GGE-02 4.88E-02 4.88E-02 4.88E-02 4.88E-02 4.88E-02 I I'> ~ 117 8 85E.OI 8 85E.OI 8 85E OI 8 GSE-01 8.85E.G I 8,85E.G I 8.8SE.GI 8,85E.GI 250'B 8 85E-01 8.85E-OI 8.8SE-OI 8.85E-GI G.GSE-OI 9.05E-GI r $ 9.1 $ 0 I.GGE-GI 1.90E-O I I.GGE-GI 1.89E Ol 1.87E-GI 1.88E-OI 1.89E-OI 261'O I.GGE-OI 1.88E-OI I.GGE.GI 1.88E-GI I.GGE-OI 1.88E-OI $ .39E4$

'JS 119 ~

I.OI E'01 1.01E>01 I Ol E>01 1.01E>0$ 1.01E+0$ 1.01E >0$ 1.0OE+01 $ .0$ E>0$

250'O I.OGE+01 9.99E+00 9.97E+00 9.95E+00 9.93E+00 3.28E+03

'.'I!i I 0 7< 2.40E.OO 2,40Ei00 240E>00 2.40E+00 2AOE~GG 2AOE+00 2AOEIGO 2.40E+00 2AOE+00 2.40E400 2AOE+00 2AOE400 2AGEt00 2.4$ EtDO r Js. I? I 1 B 6 21E 02 6 24E.02 6 22E.02 6 23E-02 6.$ 9E-02 6 21E-02 6.23E-02 6.21E-02 279'B 6.21E.02 6.21E-02 6.21E-02 6.21E-02 6.21E-02 5.23E42 239E<02 2.39E~02 2.39E/02 2.39E+02 2AOE<02 2.38E+02 2.38E+02 2.38E+G2 2.37E+02 306'W 2.36E+02 2.3GE<02 2.35E+02 2.35E+02 ?.GGE+04 2 15E.OI 2 I GE-GI 2 I SE.GI 2 15E-01 2.14E-GI 2.15E 01 2.15E-OI 2.15E 01 2.15E-GI

',I -129 261'B 2.15E41 2.15E-GI 2.15E-GI 2.1 5E-OI 1.85E-OI 306' 2.07E.O? 2.07C-02 2.07E-O? 2.0?E-02 2.07E-02 2.G7E-02 2.07E42 2.0?E-02 2.07E-02 2.07E-02 2.07E-02 2.07E42 2.07E-02 1.97E42 I JQ CB 261 3,09E.02 3 OGE 02 3 OPE.02 3.07E.02 3.11E-02 3.09E.02 3.07E-02 3 09E-02 3,09E-02 3.09E-02 3.09E-02 3.09E-02 3.09E-02 4.02E-02 RW 265r 6.3 4E-01 6.34E-G I 6.34E-OI 6.34E-OI 6.33E41 6.34E4$ 6.34E41 6.33E41

'.I!i. I J 3 6.34E-Q I 6.34E41 6.33E4$ 6.33E4$ 6.33E41 .6.09E41 RW 56GE 01 5 68E-01 S,GGE Ol 5.6) E.OI 5.64E-OI 5.66E-OI 5.67E-GI 5 6GE-0$

279'W 5.66E.OI 5.66E-GI 5.66E-OI 5.66E-OI 5,65E-OI 4.87E-01

'.I5-13 I 1.0$ E.GI 1 04E.OI 1.04E.QI 1.0$ E 01 1.03E.GI 261'B 1.04E.GI $ .04E-GI 1.04E-GI $ .04E-GI $ .04E-01 $ .04E-0$

~

I! I '</> $ .04E-01 $ .04E-01 ) 8.40E-02 250 1.10C-I I IGE-11 1.10E-I I I.I GE-I I I.IQE-II 1.10E-II 1.10E-II 1.10E-I I 1.1 OE-I I 1.10E-I I 1.10E-I I 1.10E-I I 1.10E-11

',$ 9.136 TO 7.57E-O? 7.5?E42 7E.O2 7.57E-02 7.57E-02 7.57E-02 7.57E-02 7.57E-02 1.10E-11 7.57E-02 ?.57E-02 7.57E-02 288'B

<.I!i.137 5 12E.02 5.26E.02 7.57E-02 7.57E42 2.$ SE-Gf 261'B" 5.13E 02 5.22E-02 5 02E-02 5.11E-02 5.21E-02 5.09E-02 5.11E-02 5.11E-02 5.1 GE-02

<.IS-138 $ .56E>01 $ .57E+01 5.09E-02 5.09E-02 1.84E-03

'!i.139 22Z 0'W 2.7GE < 00 2,76E <00 1.5?E+01 1.57E+01 1.57E+01 1.56E+01 1.56E+01 I.SGEiof 2.7 GE>00 2 76E>OQ 2.76E+00 2.76E+00 2.76E+00 2.76E+00 1.55E+01 1.55E+01 1.55E+01 2.76E+00 2.76E+00 2.76E+00

$ .54Eiof 1.54E+0$ 4.92E+03 r Is. I lo RX I OOE.OI 'I.OOE.O I 2.?GEtoo 2.76E+00 2.68E+00 1 OOE-01 I OOE.OI 1.0OE-01

1$ 353'O 1.0OE.OI 1.0OE-GI 1.00E-OI $ .00E.OI 1.00E-GI 1.00E-0$ .00E-01 r Is. I I?

I 'I!>. I $ 3

~

1 RW RX 25(Y 9'.38E1,08E.OI I QGE-01 0 I 1. II E-Ol I 8 1 E.QI "OE>03 I GHE.OI I OGE.OI 1.08E-OI 1.08E 01 1.08E-OI 39E.P I 1. 'IOE-01 1.37E-OI 1.38E-OI l.40E-GI 1.38F-GI 1.08E-OI 1.08E-OI 1.08E-OI 1.08E-OI 1.38E-OI $ .38E-GI 1.38E-GI 1.08E-GI 1.38E41 1 .GGE-01 1.08E-OI 1;38E-01 1 .GOE-'Gf 3.13E-OI 5.95E42 261'X 20E>03 I ?QE>03 $ .20E<03 $ .2OE>03 1.2OE+03 1.20E+03 261' 1.20E+03 1.2OE+03 1.20E+03 .20E>03 1.20E+03 I 2 "F:01 1.2-E.GI 1.22E-GI I 2E-GI 1.22E ~ 01 1.20E<03

$ .22E4$ 1.22E41 1.22E41

<,Is I 1.22E-OI $ .22E41 1.22E-QI $ .22E41 Irg RX 8 4GF.OI 8 5 IF:Ol 8,4 2E.GI 8 52E.GI 8.4$ E 01 8.43E 01 8.47E.G I 8.40E-OI $ .22E41 $ .22E41

<.Is>.14(j 240'W 8.39E-G I 8.38E-GI 8,36E-OI 8.34E-OI 3 PGE.QI 3 GGE.OI 38 i<F-Ol 88C Ql 87E-01 3.88E.01 3,88E-GI 3 87E-01 8.32E-OI 5.97E41

','!i I.l/ 3.88E-OI 3.88E.GI 3.87E.01

. <Jl'W 3 '>/I..O: 3?/'C 0" 3 IGf:"I J ?JE 02 3.11E 02 3 16E.02 3 22E.02 3.16E-02 3.87E-01 3.87E-OI 3.63E4$

'.IS I.IG 2/fr 4.5JE.OI .1 5?E Gl 3.17E-02 3.16E-02 3,16E-02 3.16E-02 3.1 SE.02 4.53E-OI F-01 4.5QE-OI 4.S2 41 4. SSE-01 4.S2E-GI 2.11E-03 4.52E41 4.52E-OI 4.52E41 4.52E-OI 4 52E-01 3.0SE41

0 nREA RA 0 MONITORS Nine  ! Unit 2 Site Em .xercise ~

Table 7.5 ( Jings are in mR/hr) Scenario No. . 0 FINAL ..

Innitor Location 7:15 7:30 7:45 8:00 8:15 8:30 8:45 9:00 9:15 9:30 9:45 10:00 10:15

'.'I 5-149 nX I 0 Ecol I 0?f Ol I OIL 01 I 03Ec01 I OIEcOI I OIEc01 328'0

~ F 1.02E>01 1.00Ei01 I OOEiot 9.99F+00 9.96E+00 9.92E>00 9.89E+00 5.1 BE+00 IS 150 "50 I O?E cOI I O.cf. col I OIL'01 I 03EIOI I.OIE+01 1.0 I E~OI I.O?E~OI 1.DOE+01 1.00E+01 '1.00E+01 9.96E+00 9.93E+00 9.89'0 5.34E+00

>.151 10 I cc'cf c01 2 (cccf ~ 01 "c"'f ~

Ol 2 ('OE c01 20OEcOI 1.99Ec01 I 99E <01 1.99EIOI 1.99E<OI 1.98E>OI 1.98E+OI 1.98E+01 1.98E+01 3.29Ei03 61':00 306'W

.I!i 152 lt I,I~8,OI 2 Ol 1"Ol 2 '!~f"OI ~ C4E 01 2.57E-O I 2 59E-01 2,60E.OI 2 58E.OI 2.59E-OI 2.59E-OI 2.58E-01 2.58E-01 2.58E-01 1.83E-01

'IS I (rf .Ol 210'W?no 153 I 850 01 I O'0 Ol I 8rF Ol 1.84E-OI 1.85E Ol 1.86E-OI 1.85E.OI 1.85E.OI 1.85E-OI 1.85E-OI 1.85E-01 1.85E-01 1.45EZI

~

13 lr 10?rcO 7.0CL c rlc) c.13E'OO 7 0!~E c 00 7.13E c OO 7.04E~OO 7.03E+00 7.05E<00 7.00E>00 6.97E+00 6.95E+00 6.92E+00 6.90E+00 6.87E+00 1.64E<03 I!I I fco

~ CB?88' 7.,11E 02 7 IOI:.02 7 I IE.O" 7 14E 02 7.07E-02 7.10E-02 7.1 4E-02 sit..01 7.10E-02 7.10E-02 7.10E42 7.10E-02 7.10E-02 7.09E-02 5.23E42

>5 ~ 191 0 3 4" F.OI 3nef; 01 3 <<L.of 3 n'iE-01 3 46E4)1 3.45E-O I 3 44E<1 3.44EC I 3.43EZI 3 43M)1 3.42E4) I 3.42E4) I 3.41 M)1 8.87E+01 ril 306'0 I;.Icc2 4 -01 I '. r E.OI I! fc E 01 4 58E-01 4 56E.OI 4,55E.OI 4.56E-OI 4 54E-01 4.54E-OI 4.53E-OI 4.52E-01 4.51E-OI 1.17E+02

'S I!13 306'.15 I ViE Ol I 07L 01 I 07L.OI I OiF.OI 1 07E-01 1.07E.OI 1.07E-OI 1.07E-OI 1.07E-OI 1.07E-01 1.07E-01 1.07E-01 1.07E-01 1.07EAt

0 AREA RA I MONITORS Nine Unit 2 Srle Ern xercrse I able 7.5 I endings are in mR/hr) Scenario No. 41 Rev. 0 FINAL l(liation Ionitor Locallon 10! 45 11:00 11:15 11:30 11:45 12:00 12:15 12:30 12:45 13:00 13:15 13:30 13:45 I'i. I A DW april'W 68 If ~ (rg I r> II ~ (vI I I."I- ~ "." I ".SE ~ 06 2 35E'8 I I4E>09 2 I5E+IO 4.24E>IQ 4.71E+10 4.70E+10 4.6SE+10 4.66E+10 4.65E+10 4.63E+ i 0 ls>-1 B !I 8 > E= iori 4 ICL'>0> 9'>>L ~ 0'! I IOE>03 2.0 IE+08 9.73E>08 1.84E+ I 0 3.63E4 10 4.04E+10 4 03Ei10 4.01E+10 3.99E+10 3.98E+IO 3.96E>10

'!I.I C 261'W 7 8'. I'. ~ Or> 4 Ill;>O': 1.""I. 03 I I':E 06 271E 08 I,30E>09 2 46E< 10 4,8 IE+10 5.39Ei to 5.37E+10 5.35E+10 5.33E+10 5.31E+10 5.29E+10

'S. ID 261'W 261'X 7 3E< or> 4,33E>(16 I.ll!L'QG I 35E>06 2.5IE+Oe 2.27E+ I 0 4.48E+10 4.98E+10 4.97E+10 4.95E+10 4.93E+10 4.91E+10 4.89E+10 IS 2A I 17L>00 I 2?Fi(YJ 4!"'E'0." 2 47E >03 5 39E+03 8.7QE>03 I.ISE+04 I.46E+04 4.58EiOG 1.56E <07 2.66E>07 3.77E<07 4.87E+07 5.97E>07 I. ISE.QI 7.63E> 2 FJE '03 6 51E '03 215'>'Ir>'8 9 20E+03 1.09E+04 1.18E+04 1.65E<04 2.58E+07 4.33E+07 6.07E+07 7.82E+07 9.57E+07 1.13E408

".. I';E >O! I 7FE>03 I 4:I 03 I!'E >03 9 75E'02 802E>02 I 660E>02 543E+02 4,47F >02 3 93Ei02 3 39E+02 2.85E+02 2.31E+02 1.77Ei02

" SIE>03 750'B

'!i.38 "G 3 ISE>03 231E 03 I R'E 03 1.55E+03 1.28E>03 1.05E+03 8.63E+02 7.10E ~02 6.23E>02 5.37E+02 4.5OE402 3.64E402 2.77E402

'S.3C 10 2'(V 3 nef >03 2 SIF >03 2 3IE'03 I I!IE~ 03 1.55E>03 1.28E >03 1,05E>03 8.63E<02 7.10E>02 6.23Ei02 5.37E+02 4.50E+02 3.64E+02 2.77E+02

'.19- I 0 I HX 175 9 29E.OI 9 OQE.OI 9 QOE 01 9 OOE 01 9.GOE-OI 9.00E-OI 9 OOE.OI 9.03E-GI I.34E+00 9.29Eioo 1.72E<GI 2.52E+Ot vi-102 13-103 HX 175 RX I 250'0:30 75'X I I"L>02 I 71L>02 1 Or,E,QQ 9,68E-QI I 50E ~ 02 9.('SE.OI I 25E > 02 9.68E.QI 1.05E+02 9.68E-OI 8 75E>01 9.68E-QI 7 32E>01 6.39E<01 9,68E-QI 9.69' I 55E+04 9.81E-QI 2.48Eion 1.94E+00 3.40E+04 2.90E+00 4.32E+04 3.87E+00 3.32E+01 5.24E+04 4.83E+00 4.11E+01 6.16E+04 S.79E+00 lgi. I On 17 I 22E.QI 9 02E-02 2,25E.QI 688E 01 1.34E 00 2.03E~OO 2.66E>00 320E>00 9.91E+02 3.25E >03 5.51E+03 7.78E+03 I.OQE+04 1.23E+04

~ ~ I 1 or I>X "Ar'. G.QSE.OI 6 9SE-01 B.SSE-OI 1.53E 00 2.39E 00 3.25E ~00 4.01 E+00 5.12Ei01 5.48E+04 6.52E+04 7.55E+04 8.59E+04 9.63E+04

'.': ~ I (Hi HX I 23E>00 1,23E >00 27QE'00 452E>00 586E>00 6 71E ~00 7 16E+Go 9.44E>00 7.76E+04 1.07E405 "61'x 6.32E+04 4.88E< 04 3.45E+04 2.01E+04 5.71E+03

':i-108 pep 1 51E.QI 1,56E.G'I 1.726.'00 357E OO 4,97E+00 5.78E <GO 6.15E+Oo 9.55E+00

> 3.79E+Q4 2.79E+04 1.78E+04 7.78E+03 2.26E+03 1.23E+04

~ I ("I HX3 6 I IE>01 6 I IE>QI 6 IIE>01 6 IIE>01 6,IIE<OI 6,IIE<01 8'X 6.11F >OI 6.11E+01 6.11E>01 6.IIE>01 6 I I E+01 6.11E+01 6.11E+01 6.11E+01 I'i. I I I 7.10F.QI 7.15E-OI 2,69E OO n 87EiOO 6.25E 00 6.98E>00 353'X 7.27E<00 1.05E+Ol 1.78E+04 2.84E >04 3.89E<on 4.94E+04 6.OGE404 7.05E+04

'S> 112 6 75F..OI 6 SOE-01 3>53'X 2,66E 00 483E>OO 622E>00 6.94E>00 7.24E<00 I 04E<OI 1.78E+04 2.84E>04 3.89E+04 4.94E >04

.I!i 113 6.00E+04 7.05E+04

~

353 I 14E+00 1.15E+00 312E>00 5.3QEiOQ G.GSE+00 7.41E+00 7.70E+00 1.09E+01 1.78E+04 2.84E>04 3.89EI04 4.94E>04 G.OOE404 7.05E404 RX 353' 2 75E>00 2.76Eioo 4.73E>00 6.91E>00 8.29E>00 9.02Eioo 9.31E<00 1.25E>01 1.78E+04 2.84E<04 3.89E+04 4.94E+04 6.00E+04 7.05E<04 B 4 SSE.O" 4.88E.02 4 SSE.02 4 88E.02 4.88E-02 -4 SSE-02 4.88E-02 4 88E.02 250'0 4.88E-02 4.88E-02 4.88E.02 4.88E-02 4.88E-02

'!i-117 9 58F.OI 9 95E-01 I.QIE>00 1.02E<00 I.QOE>00 9.91E.OI 4.88E-02 9.78E 01 9.66E-OI 9.55E-O I 9.48E-OI 9.41E-OI 9.34E-OI 9.27E-QI TB 1.37E-OI 9.20E-OI 1.37E-Q I 1.37E-O I 1.37E-QI 1.37ENI 1.37E-Q I 'I.37E-QI 261'(3 3 89E>03 1.37E-QI 1.37E-OI 1.37' 1.37E-GI 1.37E47I 1.37E4t 3 42E>03 2.84E<03 2 34E>03 1.92E+03 1.57E <03 1.29F <03 1.06E+03 8.70E+02 2'B 7.62E+02 6.55E+02 5.47E+02 4.39E+02 3.32Ei02 2.n3E+OO 2.45E>00 2.46E+00 2.4CE+00 2.45E~OO 2.45E~OO 2.44E+00 2.44Et00 2.43E+00 "I 2.43E>00 2.43E+00 277'8 242E+00 242E+00 2 42E400 I:>~ I

'S.I,3 279'.39E-OI 279'B 5.22E.02 9.33Ei04 5.19E-02 5.19E-02 8."OE<04 6.82E<on 5 19E.02 5.19E.02 5.19E-02 5.19E-02 5,19E-02 5.19E-02 5.19E-02 5.19E-02 5.19E-02 5.1 9E-02 5.19E-02 306'W 5.61E<04 4.61E<04 3.78E+04 3.10E+04 2.54E+04 2.09E+G4 1.83E+04 261 I SGE.QI 1.57E+04 1.31E+04 1.05E+04 7.96E+03 1.84E-OI I 84E-01 I 84F..OI 1.84E.QI I 84E-01 1.84E-QI 1.84E-OI 1.84E-OI 1.84E-OI 1.84E-QI 1.84E-OI CB 1.97E-02 1.97E-02 1.97E-02 1.97E 02 1.97E-02 1.84E>01 1.84EZI 1.97E-02 I.97E-02 1.97E-02

'i!I.130 1.97E-02 306'B 1.97E-02 1.97E-02 . 1.97E42,1.97E-02 1.97E<2 4 03E-02 4 OGE-02 4 OGE-02 4 OGE-02 4.06E-02 406E 02

',I!> 132 "61'W 4.06E-02 4,06E-02 4.06E-02 4 06E.02 4.06E-02 4.06E-02 4.06E-02 4.06E-02 6,09E-OI G.GSE4!I 6.08E-OI 6.08E-QI 6.08E-OI 6.08ENI 6.08ENI

'.1.> ~ 133 265'W 4 87E-01 4 enE.QI 4 8 IE.OI 6.GSE4)1 6.08E-OI 6.08' 6.08ER I 6.G8E<1 6.08M)1 6.08M)1 4 enE.QI 4.84E-ol 4.84E.QI 4.84E-QI 4.84E-OI 4.84E-O I

'.Is 134 RW 26 I' 4.84E-OI 4.84E-OI 4.84E-OI 4.84E-OI 4.84E-OI 39E.02 8.33E-02 8.33E.02 8 33E.02 8.33E-02 8.33E-02 8.33E.02

'-lsi-135 8.33E-02 8.33E-02 8.33E-02 8.33E-02 8.33E-02 8.33E-02 8.33E42 8 i 1,10E-I I I IOE-11 1.10E-I I I I OE.I I 1.10E-I I 1.10E-I I 1.10E-I I 1.10E-I I 1.10E-I I 1.10E-11 i-I36 TB 2.28E-O 2.35E-OI 2.32E.OI 2.21E-QI 2.02E-QI 1.85E-QI 1.10E-I I 1.10E-I I 1.10E-I I 1.10E-11 288'8 1.69E-QI 1.56E<1 1.43E-QI 1.36E4II 1.29E4II '1.22E-QI 1.1 4E-01 1.07E41 r.18-137 261 1.58E 03 7 43E-06 3 67F..QG I 01E.07 4.62E-09 2.13E-08 5. I 3E-09 2.92E.09

.16-138 TB "M 4.13E-09 1.47E.07 2.91E-07 4.34E-07 5.77E-07 7.21E-07 5.8 3f.+03 5.13E+03 4.27E+03 3,51E+03 2.88E+03 2.36E+03 1.94E+03 1.59E <03 1.30E+03

'.IS.139 DW 222 2 68E >Oo 2 68E+00 268E>00 268E>00 2.68E+00 2.68E+00 2,68E+00 2,68E>00 2.68E <00 1.14E+03 9.82E+02 8.21E+02 6.60'2 4.98Et02

'S.140 RX 1.00E Ol 1.05E.QI 2.OSEioo 4.GE~GO 2.68E+00 2.68E+00 2.68E+00 2.68E+00 2.68E+00 353'B 6.37E+00 6.66E 00 9.87E 00

'6.14 I 250 8,38E.QI 1.21E >00 1.40E>00 I 42E<00 1.30E+00 1.17E+00 1.78E+04 2.84E<04 3.89E+04 4.94E+04 6.00E+04 7.05E+04 li 142 RW" 5. 5.65E 02 5.65E-02

~

5,65E.02 5.65E-02 5.65E-02 1.04E+00 5.65E-02 9.15E-QI 5.65E-02 8.03E.OI 7.35E-OI 6.66E-QI 5.98E-OI 5.30E-OI 4.61E-OI 5.65E-02 9'X

'.I';.1>I3 I OE 03 I "QE, 03 12 QE>03 5.65E-02 5.65E-02 .'.65E42 5.65E42 261'X I 20E 03 I 20E 03 1.20E>03 1.20E <03 1.20E>03 6.44Ei05 4.35E+05 2.25E+05 5.65EN2

'.Is.lnn

.ISi- I nrem 279'0E.02 "Gl'X 1.22E Ol 1.59F >00 3 4IE>00 4.76E+00 5.60E 6.05E+00 8.33E+00 7.76E+04 6.32Et04 4.88E404 1.52E+04 3.45E+04 1.94E+05 4.04Ei05

46 240'W2 5 9GE.QI 3 63E-GI 5 SHE-01 3 62E-OI 7.78E OI 3 02E.QI I 12E>00 2.28E>00 3.14E>00 3 (i2E.OI 3.62E -01 3.62E-QI 3 gOE+00 3.62E-QI 5 I I E+01 5.48E+on 6.52E+04 7.55E+04 2.01E+04 8.59Ei04 9.63E+04 5.71E>03 1.07E+05 I!: Inr RW 3.62E<1 3.62E-OI 3.62E.QI 36zE 01 291'W I 95E 03 I QOF..03 01 I QGE-03 E.03 ].OOE-03 I.QOE-03 362E 01 3.62E<t 3.62E<t

.Ig. I.le I.GQE.03 I.QGE-03 I.QOE-03 1.00E-03 3.0'lE Ql 2.(>9L-QI K>I:.QI 2.99E -01 2.99E-OI 1.00E-03 1.00E-03 1.00E-03 2.99E-OI 2,99EZI 2.99E-OI 2.99E-OI 2.99E~ ti(9 IIX 3"8 S. I GEi [8 5 (v.) f- <<00 6 lnfi~ ('r'68f'.i00 I.02E<OI I.t I E>01 I.ISEi01 I.I7E>01 1.20E<04 2 47E+04 3.74Ei04 S.OOEi04 6.27E+04 7.54E<04 lil 150 10 2M. 5 Gr E)00 580!-:iOO 59(E (9 595Ei00

~

586E+00 5.77E+00 5.67E>00 5.59E+00 S.51E+00 5.46Ei00 S.41E+00 5.36Ei00 52t Ei00 5.26E+00

'.l. > ~ 'I 51 10 306'W 3.9QE ~ 03 3 430 '03 2 Pi,r' 01 2 miff i 03 I.93E+03 1.58E >03 1.30E<03 1.07E+03 8.79Ei02 ?.72E>02 664E<02 5.57E+02 4.49E+02 3.42Ei02 I"-I 5

'S-153

'.IS- I 54 "6l'0:30 240'IW 2 IO'0 I 87E.GI I BQC.GI I a.'Of; Gl I 80C'Gt I lsE Ol I I rf; Gl I n.rC.OI 1,9 IEi03 (.7IE'03 1 l2C ~ 01 (.17E>03 I 4.1E.GI 1.80E 01 1 8GE-01 1.80E 01 1.80E-GI t,nnE.OI (.4(E 01 1.44E Ol 1.44E-OI 9.60E+02 7.87E+02 6.46E+02 5.30E+02 1.80E-GI 1.80E-OI 1.80E-01 1.44E.OI 1.44E-O I 1.44E-OI 1.80E-01 1 8GE-Dt 1.44E-OI 1.44E4lt 1.80EZI 1.44E-OI 250'B 4.35E+G2 3.8IE<02 3.27E+02 2.73E+02 220E+02 .1.66E+02

'.IS-( 90 2(I9'0 522E 0" 5 IGE-02 5.16E.O" 5 IGE.02 S,lfiE-02 5.16E-02 5.16E.02 5.16E-02 5.1 6E-02 S.t 6E-02 5.16E-02 5.1 6E-02 5.16E-02 .5.16E-02

'S-191 30(7 I (?SiE i 02 9 2 lf:.iOI 768E Ol G3'CiOI 5.19E Ot 4.26E+Ot 3.50E>0 I 2.87E+01 2.36E+Ol 2.06E+Ol 1.77E+Dt 1.48E+Dl t,t9EtDI 9.04E400

'.IS 192 I 38fiiO' I 2lf'. ~ 02 I OIF ~ 02 8 3lfii01 6 82E+01 5 60E+Ot 4.6QEi01 3.77E<OI 3.10E'01 2.72E+01 2.33E+01 1.95E+01 1.S7E+01 1.19E<GI

'.IS 193 MS 07E.OI I 07E.QI I 07E 01 I 0?E.OI I:07E-GI I 07E.GI 1.07E-OI 1.08E-01 4.98E-01 4.33E.GI 3.67E.G1 3.02E-01 2.36E-Gt 1.7t E-01

I Nine t Unit 2 AREA RA V MONITORS -xelcise' Site Ern 1able 7.5 ( dings are in mR/hr) Scenario No. 4 v. 0 FINAL "

Idiation r)llltol'IS>.

Location IA DW 261'W 4 61E'10 I'.i.l 8 261'W 3 +r,E~ IO

'13 IC 261'W 52!F!10 IS. I D 201'X 4 07f" 10 IS 2A 215'X 7 07E!07 IS.? 8 215'i 1.31E>08

'I.> 3A 250 I "~F!0' I!> 38 l3 250 90E!02 I'!> 3C TB 250'X I 90E!0 IS-101 175'X

~ IOIE>01

'0.102 175'X 7,OIIE>0 I 13.103 175'X 6.75E >00

'S-104 175'X I 46f:!01 I!>.105 2517 I.t 7E F05 IS-1(r6 RX 261'X 8,66E!03 I!i 108 ~

289'X 2.23Ei04 "I.>~ 109 328'X 6.11F >01

.a-I I I 353'X

8. IOE>04

'.15-112 353'X 8 IOE>04

'.IS-I 13 353'X 8.IOE+04 16.114 353'B 8 IOE!01 r.tS-116 25'B 4.88E-02 25'

'.15-117 8 279'4:00 261'B 9.13E.OI 1.37E-OI 250 224E<02 TB 277 2.41Ei00

'.IS-I 21 TB 279'B 5.19E-02 I IS-123 306'W 5.38Ei03 r,'IS-125 261'B 1,84E 01

'8.129 306'B 1.97E.02

'5-130 261'W 4 06E.02

'.IS-132 265'W 6.08E41

'.IS-133 279'W 4,84E-OI I.IS.134 261'B 8.33E.02

'S.135 250'B 1.10E-I I

'13-136 208'B 9.98E-02

'.IS-137 261'B 864E 07 "IS-138 FM 3.37Et02

'S-139 DW 227 2 68E>00

'5-140 RX 353'B 8.10E<04 IS I 11 250'W 3 93E-01

IS-I 12 279'X 5.65E-02 r I!>.143 261'X 6.14E<05

'.18-144 261'X 8.66E~03 r I'>-145 240'W I 17E!05 I.IS 116 279'W 3.62E 01

'!.>-I 17 I OOE.03

'S. I-III 291'W 2.99E.OI

ARFA RA I MONITORS Site Nine Ern

'. Unit 2 xercise fable 7.5 (A ~.)dings are in mR/hr) Scenario No. 41 Rev. 0 FINAL

')nI'tor Location IS) 149 RX 328'0 8 t)OE<01 IS)-150 "0 5 21 E<(%

ls 10 231E<02 151

.15.152

.Is. I 53 306'W210'W 210'B 61'4:001.80E.OI 1,41E 01

'19.154 1.12E <02

'15.190 288'0 5 16E.02 I!).191 306'0

.6.13E+00 15.192 306'.1S 8 07E <00 IS 1<93 1 05E 01

Nin 'nt Unil 2 PROCESS ION MONITORS Site Em Exercise

~ 7.6 No. 4 ev. 0 FINAL . 'cenario ~

Monitors'r 7:00 7:15 7:30 7:45 8:00 8:15 8:30 8:45 ell Containment Atmos here >.%%<<7~46~>z44Wj CMS 10A Gas 1EWT to 1E-01 uCi/cc 2,09E-06 6.02E-06 6.02E-06 O.OOE+00 6.02E-06 6.02E-06 6.02E-06 6.02E-06 Partic. 1E-11 to 1EZS uCi/cc 1,01E-10 6.00E-06 6.00E-06 O.OOE+00 6.00E-06 6.00E-06 6.00E-06 6.00E-06 CMS 108 Gas 1E47 to 1E41 uCi/cc 3.75E-06 3.7?E-06 3.75E-06 O.OOE+00 3.74E-06 3.?SE-06 3.76E-06 3.75E-06 Partic. 1E-11 to 1EZ5 uCi/cc 2.86E-11 2.91E-11 2.86E-11 O.OOE+00 2.82E-11 2.85E-11 2.89E-11 2.85E-11 Reactor Bulldin Vent Effluent Monitor '- K~iC"'.~Y4.Bi HVR 14A Gas 1E47 to 1E41 uCi/cc 8.61E-07 8.61E-OT 8.61E-07 8.61E-07 8.61E-07 8.61E-OT 8.61E-OT 8.61E4IT Partic. 1E-11 to 1ENS uCi/cc 5.81E-10 5.81E-10 5.81E-10 5.81E-10 5.81E-10 5.81E-10 S.81E-10 5.81E-10 HVR 148 Gas 1E47 to 1EW1 uCi/cc 1.08E-06 1.08E-06 1.08E-06 1.08E-06 1.08E-06 1.08E-06 1.08E-06 1.08E~

HVR 32A Gas 1ENT to 1E41 uCi/cc 5.08E-OT 5.08E-07 5.08E-07 5.08E-07 5.08E-07 5.08E-07 5.08E-OT 5.08E-OT Partic. 1E-11 to 1E45 uCi/cc 8.54E-10 8.54E-10 8.54E-10 8.54E-10 8.54E-10 8.54E-10 8.54E-10 8.54E-10 HVR 328 Gas 1EZT to 1EO1 uCi/cc 7.63E-07 7.63E-07 7.63E-07 - 7.63E-07 7.63E-07 7.63E-OT 7.63E-OT 7.63E-07 Main Control Room Air Intake HVC 18A Gas 1EWT to 1EW1 uCi/cc 5.19E-07 5.23E-OT 5.19E-OT 5.22E-OT 5.16E-07 5.19E-07 5.21E-07 5.18E-07 HVC 188 Gas 1EWT to 1EW1 uCi/cc 4.64E-07 4.6?E-O? 4.65E-OT 4.66E-OT 4.62E-OT 4.64E-OT 4.66E-07 . 4.64 EAT HVC 18C Gas 1E<7 to 1EW1 uCi/cc 3.3?E-OT 3.34E-OT 3.36E-OT 3.35E-07 3.39E-07 3.37E-07 3.35E-07 3.37E-OT HVC 18D Gas 1ENT to 1EW1 uCi/cc 3.02E-OT 3.01E-07 3.02E-07 3.01E-07 3.02E-07 3.02E-OT 3.01E-OT 3.02E-07 RHR Heat Exchan er Service Water .'4~~~~N P.~

SWP 23A Ll uid 1EAT to 1EW1 uCi/cc O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 0.00E+00 O.OOE+00 O.OOE+00 SWP 238 Li uid 1EWT to 1EW1 uCi/cc O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 Main Steam Line ~ ra'>>, ~: <<'<<'r'+r Mss 46A 1E+00 to 1E+06 mR/hr 6.27E+02 6.35E+02 6.28E+02 6.31E+02 6.24E+02 6.19E+02 6.22E+02 6.20E+02 Mss 468 1E+00 to 1E+06 mR/hr 6.17E+02 6.25E+02 6.18E+02 6.21E+02 6.14E+02 6.09E+02 6.12E+02 6.10E+02 Mss 46C 1E+00 to 1E+06 mR/hr 5.83E+02 5.90E+02 5.84E+02 5.8?E+02 5.80E+02 5.75E+02 5.78E+02 5.76E+02 Mss 46D 1E+00 to 1E+06 mR/hr 5.99E+02 6.0?E+02 6.01E+02 6.04E+02 5.97E+02 5.92E+02 5.95E+02 5.93E+02 Service Water Dischar e -; ~'.;~.-"~;~"'""< Ye&xv~~AÃax4 SW 146A LI uid 1EWT to 1EO1 uCI/cc 1.55E-07 1.55E-OT 1.55E-OT 1.55E-07

- 1.55E-OT 1.55E-07 1.55E-07 1.55E-07 SW 1468 Li uid 1E<7 to 1EW1 uCI/cc 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-.06 Solid Radwaste E. 279'outh WSS 207. 1EW1 to 1E+04 uCi/cc 1.13E-01 1.16E-01 1.13E-01

><<? <<cr'..  ! ~s.*<<%+<< i~a.<< ~ << ~c 1.15E-01 1.10E-01 1.12E-01 1.15E-01 1.12E-01 WSS 208 1EW1 to 1E+04 uCi/cc 1.74E-01 1.79E-01 1.75E-01 1.77E-01 1.71E-01 1.74E-01 1.77E-01 1.73E-01 Fuel Pool Coolin Pum Dlschar e SFC 142 Li uid 1EWT to 1E1 uCi/cc '..98E-06 1.98E-06 1.98E-06 1.98E-06 1.98E-06 1.98E-06 1.98E-06 1.98E-06 Reactor Bulldin Closed Loo Coolln Water:

-nfd~r<<<<"Ir

.'CP 115 Li uid 1E-07 to 1EW1 uCI/cc 1.84E-OT 1.85E-OT 1.85E-OT 1.85E-OT 1.84E-O? 1.84E-07 1.85E-07 1.84E-07 CCP 131 Li uid 1EWT to 1EW1 uCi/cc 1.56E-06 1.56E-06 1.56E-06 1.56E-06 1.56E-06 1.56E-06 1.56E-06 Turbine Bulldln Closed Loo Coolln Water:. .-,;--: ~

~'i'~V<<i~ <<:=:~;w CCS 152 Li uid 1EWT to 1EW1 uCi/cc 1.15E-06 1.1? E-06 1.15E-06 1.17E-P6 LI uld Radwaste,'- ':,:- 1:13E-06 1.14E-06 1.16E-06 1.14E-06 LWS 206 Li uid 1EWT to 1EW1 uCi/cc 1.10E-05 1.13E-05 %ran'~"-8f>K 1.11E-05 1.12E-OS 1.08E-OS C oolln Tower Blowdown .'=: 1.10E-OS 1.12E-05 1.10E-OS

.'"A" r<<'9<<i."

C WS 157 Li uid 1EWT to 1EW1 uCi Icc 2.06E-06 2.07E-06 2.06E-06 Standb Gas Treatment -.:. 2.06E-06 -2.06E-06 2.22E-07 2.24E-OT 2.22E-07

%>>.<<.<<r>>r',

GTS 105 Gas 1E<7 to 1E4I1 uCi/cc 3.43E-06 3.44E-06 3.43E-06 Rr" Off 3.44E-06 3.42E-06 3.43E-06 3.44E-06 rfP P,,<<<<*r r<<f>> << ~ << ~<<>>p Q3 3.42E-06 OFG 13A Gas 1E-07 to 1E<1 uCilCC 1.93E-02 1.93E-02 1.94E-02 1.94E-02 1.94E-02 1.93E-02 OFG 138 Gas 1E-07 t o 1E<1 uCi/cc 1.93E-02 1.93E-02 1.92E-02 1;92E<2 1.94E-02 1.94E-02 1.94E-02 1.93E-02 1.92E-02 1.92E-02

Nine ot Unit 2 PROCESS ION MONITORS Exercise Site Em

~(= 7.6 Scenario No 4 ev 0 FINAL - .

Monitors'r 9:00 9:15 9:30 9:45 10:00 10:15 10:30 10: 45 II Containment Atmos here ~~'.:KAC4~9'~P CMS 10A Gas 1EWT to 1E41 uCi/cc 6.02E-06 6.02E-06 6.02E-06 6.02E-06 O.OOE+00 0.00E+00 O.OOE+00 O.OOE+0(

Partic. 1E-11 to 1EZ5 uCi/cc 6 OOE-06 6.00E-06 6.00E-06 6.00E-06 O.OOE+00 O.OOE+00 O.OOE+00 0.00E+0(

CMS 108 Gas 1EZT to 1E41 uCi/cc 3.78E-06 3.79E-06 3.81E-06 3.82E-06 0.00E+00 O.OOE+00 O.OOE+00 O.OOE+0(

Pariic. 1E-11 to 1EW5 uCi/cc 2.95E-11 2.98E-11 3.01E-11 3.05E-11 0.00E+00 O.OOE+00 O.OOE+00 O.OOE+0(

Reactor Bulldin Vent Effluent Monitor HVR 14A Gas 1E47 to 1E41 uCi/cc 8.61E-07 8.61E-07 8.61E-07 8.61E-07 8.61E-OT 8.61E-07 8.61E-OT 5.12':

Partic. 1E-11 to 1E45 uCi/cc 5.81E-10 5.81E-10 5.81E-10 5.81E-10 5.81E-10 5.81E-10 5.81E-10 6.11E-O!

HVR 148 Gas 1E47 to 1E41 uCi/cc 1.08E-06 1.08E-06 1.08E-06 1.08E-06 1.08E-06 1.08E-06 1.08E-06 5.12E-O HVR 32A Gas 1E47 to 1E41 uCi/cc 5.08E-07 5.08E-07 5.08E-07 5.08E-07 5.08E-07 5.08E-07 5.08E-07 6.46E-O Partic. 1E-11 to 1EZ5 uCi/cc 8.54E-10 8.54E-10 8.54E-10 8.54E-10 8.54E-10 8.54E-10 8.54E-10 7.75E-O HVR 328 Gas 1EWT to 1E41 uCi/cc 7.63E-07 7.63E-07 7.63E-07 7.63E-07 7.63E-07 7.63E-07 7.63E-07 6.46E-O Main Control Room Air Intake HVC 18A Gas 1E47 to 1E41 uCi/cc 5.26E-07 5.28E-07 5.31E-OT 5.33E-07 3.78E-07 3.78E-07 3.77E-07 3.73E-O HVC 188 Gas 1E<7 to 1E41 uCi/cc 4.69E-07 4.70E-07 4.72E-OT 4.74E-07 3.71E-OT 3.70E-07 3.70E-07 3.67E-O HVC 18C Gas 1E<7 to 1EW1 uCi/cc 3.32E-OT 3.31E-OT 3.29E-OT 3.27E-OT 4.30E-OT 4.31E-07 4.32E-07 4.34

HVC 18D Gas 1E7 to 1E41 uCi/cc 3.00E-07 3:OOE-07 2.99E-07 2.99E-07 3.30E-OT 3.30E-07 3.30E-OT 3.31E-O RHR Heat Exchan er Service Water SWP 23A Li uid 1EWT to 1E41 uCi/cc O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 0.00E+00 0.00E+00 0.00E+0(

SWP 238 Li uid 1EWT to 1EN1 uCI/cc O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 0.00E+00 0.00E+00 O.OOE+00 0.00E+0(

Main Steam Line  :='C.'>>.""" ~~::. ~:.'7.'".'. "-.'<~..wfÃ7iZ44 Mss 46A 1E+00 to 1E+06 mR/hr 6.19E+02 6.18E+02 6.17E+02 6.16E+02 6.25E+02 5.13E+02 4.01E+02 4.21E+0:

Mss 468 1E+00 to 1E+06 mR/hr 6.09E+02 6.08E+02 6.07E+02 6.06F+02 6.16E+02 S.OSE+02 3.94E+02 4.14E+0:

Mss 46C 1E+00 to 1E+06 mR/hr 5.75E+02 S.74E+02 5.74E+02 5.73E+02 5.81E+02 4.77E+02 3.72E+02 3.91E+0:

Mss 46D 1E+00 to 1E+06 mR/hr 5.92E+02 5.91E+02 5.90E+02 5.89E+02 5.98E+02 4.91E+02 3.83E+02 4.02E+0:

Service Water D schar e ',

SW 146A Li uid 1MlT to 1E41 uCI/cc 1.55E-OT 1.55E-07 1.55E-07 1. SSE-07 1.55E-07 1.55E-07

~

1.55E-OT 1.5SE-Oi SW 1468 LI uid 1EWT to 1E41 uCi/cc 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-O(

Solid Radwaste E. 279'outh . .' . r>><,>>,'..~:.i:X..Q ~r>>A>> g<Fp, >> +~~,'.r;r>>'>>>>~

WSS 207 1E41 to 1E+04 uCi/cc 1.14E-01 1.15E-01 1.16E-01 1.16E-01 4.06E-03 3.48E-03 2.90E-03 1.64E-O!

WSS 208 1E41 to 1E+04 uCi/cc 1.76E-01 1.77E-01 1.79E-01 1.80E-01 6.27E-03 Fuel Pool Coolln Pum Dlschar e. "; .r .~ -.- ":::;-;

5.37E-03 4.48E-03 2.53E-Of SFC 142 LI uid 1E47 to 1EW1 uCi/cc 1.98E-06 1.98E-06 1.98E-06 1.98E-06 1.93E-06 1.93E-06 1.93E-06 1.93E-O(

Reactor Buildin Closed Loo Coolln Water -;:" '..~-;;,

CCP 115 Li uid 1EWT to 1E41 uCI/cc 1.85E-07 1.86E-07 1.86E-07 1.86E-07 1.65E-OT 1.65E-07 1.65E-OT 1.64E-O CCP 131 Li uid 1E47 to 1EW1 uCi/cc 1.56E-06 1.56E-06 1.57E-06 1.57E-06 1.46E-06 1.46E-06 1.46E-06 Turbine Bulldin Closed Loo Coolln Water:-, "=;=~- 1.46E-O>>

~w~~~~~8@<

CCS 152 Li uid 1ENT to 1E41 uCi/cc 1.19E-06 1.21E-06 1.23E-06 1.25E-06 1;60E-07 1.55E-OT 1.49E-07 LI uld Radwaste; 1.23'a,>>

LWS 206 Li uid 1E47 to 1EN1 uCi/cc g&+~>>Qg@

1.15E-OS 1.17E-05 1.18E-OS 1.20E-OS 1.16E-06 1.11E-06 1.05E-06 7.90E-O Coolln Tower Blowdown->>

157 Li uid 1E47 to 1E41 uCi/cc

'WS 7.08E-06 9.37E-06

>>r>> P~ r>>>>  % ~~<~Vs~B>>M 1.17E-OS 1.39E-OS Standb Gas Treatment'.;.

1.24E-OT 1.23E-07 1.23E-07 1.20' GTS 105 Gas 1EWT t o 1E<1 uC(/cc 3.45E-06 3.46E-06 A.- r'>>r>>. ~i~aNASAN

. 3.47E-06 3.47E-06 O.OOE+00 O.OOE+00 Off as 0.00E+00 0.00E+0 OFG 13A G as 1E<7 t 1EW 1 u C'(/cc 1;91E-02 1.91E-02 1.90E-02 1.90E-02 OFG 138 Gas O.OOE+00 0.00E+00 O.OOE+00 1EWT t o 1EW 1 uC(/cc 1.91E-02 1.91E-02 1.90E-02 0.00E+0 1.90E-02 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+0

Nine 'nl Unit 2 PROCESS ION MONITORS

-i 7.6 Site Em Scenario No.

Exercise .

v. 0 FINAL ..

Monitors' 11:00 11:15 11:30 11:45 12:00 12:15 12:30 12:45 II Containment Atmos here A0L+4. (4 c4IIL %4AAKCMM CMS 10A Gas 1E47 to 1E41 uCi/cc 0 OOE+00 O.OOEIOO O.OOE+00 O.OOE+00 O.OOE+00 0.00E+00 0.00E+00 0.00E+0(

Partic.. 1E-11 to 1E45 uCi/cc 0 OOE+00 0.00E+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 0.00E+0(

CMS 1OB Gas 1E-07 to 1E41 uCi/cc O.OOE+00 O.OOEioo O.OOE>00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+0(

Partic. 1E-11 to 1E45 uCi/cc O.OOE+00 O.OOE+00 O,OOE+00 O.OOE+00 O.OOE+00 0.00E+00 O.OOE+00 0.00E+0(

Reactor Buildin Vent Effluent Monitor 4 HVR 14A Gas 1E47 to 1E41 uCi/cc 1.97E+00 4.14E+00 5.53E+00 6.26E+00 6.56E+00 9.72E+00 1.77E+04 2.82E+Oi Partic. 1E-11 to 1E45 uCi/cc 1.42E-02 1.68E-02 1.27E-02 8.08E-03 4.75E-03 4.61E-02 1.65E+02 1.79E+0; HVR 14B Gas 1E47 to 1E41 uCi/cc 1.97E+00 4.14E+00 5.53Eioo 6.26E+00 6.56E+00 9.72E+00 1 77E+04 2 82E+Oi HVR 32A Gas 1E47 to 1E41 uCi/cc 5.84E+00 7.03E+00 7.25E+00 7.1SE+00 6.95E+00 4.69E+02 5.45E+04 4.55E+Oi Partic. 1E-11 to 1E45 uCi/cc 4.22E-02 2.87E-02 1.66E-02 9.20E-03 5.00E-03 6.49E+00 5.20E+02 2.78E+0:

HVR 32B Gas 1E47 to 1E41 uCi/cc 5.84E+00 7.03E+00 7.25E+00 7.15E+00 6.95E+00 4.69E+02 5.45E+04 4.55E+Oi Main Control Room Air Intake v ~ 'E ~ <<

HVC 18A Gas 1E47 to 1E41 uCi/cc 3.73E-07 3.73E-07 3.73E-07 3.73E-07 3.73E-07 3.73E-OT 3.73E-07 3.73E-O HVC 18B Gas 1E47 to 1E41 uCi/cc 3.67E-OT 3.67E-OT 3.67E-07 '.67E-OT 3.67E-07 3.67E-OT 3.67E-07 3.67E-O:

HVC 18C Gas 1E47 to 1E41 uCi/cc 4.34E-07 4.34E-OT 4.34E-07 4.34E-07 4.34E-OT 4.34E-07 4.34E-07 4.34E<i HVC 18D Gas 1E47 to 1E41 uCi/cc 3.31E-07 3.31E-07 3.31E-07 3.31E-07 3.31E-07 3.31E-OT 3.31E-07 3.31E-O;.

RHR Heat Exchan er Service Water SWP 23A LI uid 1E47 to 1E41 uCi/cc

/3J p~';F4 'c; O.OOE+00 O.OOE+00 O.OOE+00 0.00E+00 O.OOE+00 0.00E+00 0.00E+00 0.00E+0(

SWP 23B Li uid 1E47 to1E41 uCi/cc O.OOE400 O.OOE+00 O.OOE+00 O.OOE+00 0.00E+00 O.OOE+00 O.OOE+00 0.00E+0(

Main Steam Line '<~~ v <<"

Mss 46A 1E+00 to 1Et06 mR/hr 3.45E+02 2.83E+02 2.32E+02 1.91E+02 1.56E+02 1.28E+02 1.05E+02 9.22E+0 Mss 46B 1E+00 to 1E+06 mR/hr 3.40E+02 2.79E+02 2.29E+02 1.88E+02 1.54E+02 1.26E+02 1.04E+02 9.08E+0 Mss 46C 1E+00 to 1E406 mR/hr 3.21E+02 2.63E+02 2.16E+02 1.77E+02 1.45E+02 1.19E+02 9.78E+01 8.57E+0 Mss 46D 1E+00 to 1E+06 mR/hr 3.30E+02 2.71E+02 2.22E+02 1.82E+02 1.50E+02 1.23E+02 1.01E+02 8.82E+0 Service Water Dlschar e v.: " W ~A iY~ ~m/~~0~c',~~:6 z SW146A Li uid 1E47 to 1E41 uCI/cc

~

4 ~M~R4XA'P.

1.55E-07 1.55E-OT 1.55E-07 1.55E-OT 1.55E-07 1.55E-07 1.55E-07 SW146B Li uid 1E47 to1E41 uCi/cc 1.55E-oi 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-06 Solid Radwaste .,279'outh .;<<::, -,. ".. -.:-.-.'."'..K 1.96E-O(

WSS 207 1E41 to 1E+04 uCi/cc 8.07E-06 2.29E-OT 1.02E-08 4.68E-08 1.13E-08 6.44E-09 9.10E-09 3.24E-Oi WSS 208 1E41 to 1E<04 uCi/cc 1.25E-05 3.54E-07 1.57E-08 7.23E-08 1.75E-08 9.94E-09 1.41E-08 5.01EZi Fuel Pool Coolln Pum Dlschar e,,= . -"-':=,-;=:.;,,=. +., g'.;.:-;,.-.;<<,

SFC 142 Li uid 1E47 to 1E41 uCi/cc 1.93E-06 1.93E-06 1.93E-06 1.93E-06 1.93E-06 1.93E-06 1.93E-06 1.93E-O(

Reactor Bulidln Closed Loo Coolln Water'=- .~:..- - ~->~;" ...'.'.,:.. c w<< .

<(<<,<rue <~

CCP 115 Li uid 1E47 to 1E41 uCi/cc 1.64E-OT 1.64E-07 1.64E-OT 1.64E-OT 1.64E-OT 1.64E-OT 1.64E-Oi CCP 131 Li uid 1E47 to 1E41 uCi/cc 1.46E-06 1.46E-06 1.46E-06 1.46E-06 1.46E-06 1.46E-06 Turbine Buildln Closed Loo Coolln Water.-:=: ~"<;.,~:>>t ~<<.-, .--.,-.-."

CCS 152 Ll uld 1E47 to 1E41 uCi/cc 1.23E-OT J.<<,ggjp,~~/4. i~)A~~ t. ~'.64E-OT 1.46E-06 oc .<<<<g 1.46E-O(

fi PMi%%>C 1.23E-07 1.23E-OT . 1.23E-OT 1.23E-07 1.23E-07 LI uld Radwaste .':;. ".=<<'<<~ Zc -HsV+.j".

1.23E-07 1.23E4 LWS 206 Li uid 1E47 to 1E41 uCi/cc 7.90E-07 7.89E-OT PWm&4'~ M~X>>

7.89E-07 7.89E-07 7.89E-07 C oolln Tower Biowdown::.,-,-; " - -.;- 7.89E-OT 7.89E-07 7.89E-O

<<.'"<gi ~~'.". ~ v.' <</ "(@4,,,",P;:.w. " g., o.. '<<",.> ',jy CWS 157 Li u(d 1E47 to 1E41 uCi/cc 1.20E-07 1.20E-07 1.20E-07 1.20E-OT 1.20E-07 1.20E-07 St andb Gas Treatment.... 1.20E-07 GTS 105 G as 1E47 to 1E 41 uCi/cc O.OOE+00 0.00E+00 1.20E-O'kY4VK

" 'M 2.62E-05 2.59E-OS 2.52E-05 1.12E-03 Off as <<r. 4'vA~ .l:<<.p'n. 3.91E-01 3.26E-O OFG 13A Gas 1E47 t o 1E41 uCi/cc O.OOE+00 O.OOE+OO 1.44E+00 OFG 13B Gas 1.18E+00 9.72E-01 7.97E-01 1E47 t o 1E41 uCi/cc O.OOE+00 O.OOE+00 1.44E+00 6.54E-01 5.73E-O 1.18E+00 9.72E-01 7.97E-01 6.54E-01 5.73E-O

PROCESS ION MONITORS Nine nt Unit 2 Site Ern Exercise c 7.6 No. 4 ev. 0 FINAL ~

'cenario

~

Monitors'r 13:00 13:15 13:30 13:45 14:00 II Containment Atmos here CMS 10A Gas 1E47 to 1E41 uCi/cc O.OOE+00 O.OOEi00 O.OOE+00 O.OOE+00 0.00E+00 Partic. 1E-11 to 1E-05 uCi/cc 0 OOEi00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 CMS 108 Gas 1EWT to 1EZ1 uCi/cc O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 Partic. 1E-11 to 1EW5 uCi/cc 0.00E+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 Reactor Bulldin Vent Effluent Monitor HVR 14A Gas 1ENT to 1f 41 uCi/cc 3.87E+04 4.92E+04 5.97E+04 7.03E+04 8.08E+04 Partic. 1E-11 to 1EW5 uCi/cc 1.93E+02 2.07E+02 2.22E+02 2.36E+02 2.50E+02 HVR 148 Gas 1E47 to 1E41 uCi/cc 3.87E+04 4.92E+04 5.97E+04 7.03E+04 8.08E+04 HVR 32A Gas 1ENT to 1E41 uCi/cc 3.64E+04 2.73E+04 1.82E+04 9.09E+03 -3.38E+00 Partic. 1E-11 to 1E45 uCi/cc 3.70E+01 -2.04E+02 -4.46E+02 -6.87E+02 -9.28E+02 HVR 328 Gas 1EOT to 1EW1 uCi/cc 3.64E+04 2.73E+04 1.82E+04 9.09E+03 -3.38E+00 Main Control Room Air Intake HVC 18A Gas 1E47 to 1E41 uCI/cc 3.73E-07 3.73E-07 3.73E-07 3.73E-07 3.73E-07 HVC 188 Gas 1E47 to 1E<1 uCi/cc 3.67E-OT 3.67E-OT 3.6?E-07 '.67E-07 3.67E-07 HVC 18C Gas 1E47 to 1E41 uCi/cc 4.34E-07 4.34E-07 4.34E-07 4.34E-07 4.34E-07 HVC 180 Gas 1ENT to 1EZ1 uCI/cc 3.31E-07 3.31E-OT 3.31E-OT 3.31E-07 3.31E-07 RHR Heat Exchan er Service Water r>>'+>>'s<<>>.>>':.taY ..

SWP 23A Li uld 1E47 to 1EN1 uCi/cc O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 SWP 238 Li uld 1EWT to 1E41 uCi/cc O.OOE+00 O.OOE+00 O.OOE+00 O.OOE+00 0.00E+00 Main Steam Line *r<<r Y rc "-

Mss 46A 1E+00 to'1E+06 mR/hr 7.92E+01 6.62E+01 5.32E+01 4.02E+01 2.71E+01 Mss 468 1E+00 to 1E+06 mR/hr 7.80E+01 6.52E+01 5.23E+01 3.95E+01 2.67E+01 Mss 46C 1E>00 to 1E+06 mR/hr 7.36E+01 6.15E+01 4.94E+01 3.73E+01 2.52E+01 Mss 460 1E+00 to 1E+06 mR/hr 7.57E+01 6.33E+01 5.08E+01 3.84E+01 2.60E+01 Service Water Dlschar e;.':>>..,.: >>.;..r 4 c'i<gj 1>>: '"'.c>"" ..c!>><<<<.c<<<<'>>. >>rr 0 . c ~ <<X rc re~a.'rc, >>>>'<<j<<!p~">>.Y<<v.'".

SW 146A LI uid 1E47 to 1E41 uCi/cc 1.55E-OT 1.55E-07 1.55E-07 . 1.55E-OT 1.55E-O?

SW 1468 LI uid 1E47 to 1EW1 uCi/cc 1.96E-06 1.96E-06 1.96E-06 1.96E-06 1.96E-06 Solid Radwaste E. 279 South;-.! '~"."~t':cr! a~~'. Irr"As~<m4. -.~" <<u4":c-.$ " cc<<M-&c ~' >cr>>

WSS 207 1E41 to 1E+04 uCi/cc 6.40E-07 9.55E-07 1.27E-06 1.59E-06 1.90E-06 WSS 208 1EN1 to 1E+04 uCi/cc 9.89E-07 1.48E-06 1.96E-06 2.45E-06 2.94E-06 Fuel Pool Coo n Pum Dlschar e;-. -;-.:.:: =; '~-:-g.;", A'<<'A.'4 R'<<-

-=- - . ac='%~<'$ '; w>>

fc !>>; >>g w SFC 142 Li uid 1EWT to1E<1 uCi/cc

~

1.93E-06 1.93E-06 1.93E-06 1.93E-06 1.93E-06 Reactor Bulfdln Closed oo Coolln Water. '.~- -;. ., Vc,<<'c.<< -.'W ~~g-CCP 115 Li uid 1E47 to 1E41 uCi/cc 1.64E-G7 1.64E-07 1.64E-OT 1.64E-OT 1.64E-07 CCP 131 Li uid 1ENT to 1EW1 uCi/cc 1.46E-06 1.46E-06 1.46E 1.46E-06 1.46E-06 Turbine Bulldln Closed oo Coolin Water~';.":.."~'

CCS 152 Li uid 1E47 to 1E41 uCi/cc 1.23E-07

~

1.23E-07 1.23E-OT 1.23E-07 1.23E-G?

Lf uid Radwaste>>-,"c~.,-.:,.:..< .

%4'~>>r<<. <<!,>>.'rrc, c'>>

LWS 206 LI uid 1E47 to 1EW1 uCf/cc 7.89E-07 7.89E-O? 7.89E-GT 7.89E-07 7.89E-O?

Coolln Tower Blowdown.:.-':..- '=:-:-:=..; ..-- ".~=".:

CWS 157 Li ufd 1EWT to 1EC1 uCi/cc c~

1.20E-07 1.20E-OT 1.20E-07 '.20E-O? 1.20E-07 Standb Gas Treatment "-,-=;

>> .','-.o'c,':;j GTS 105 Gas 1EWT to 1EW1 uCi/cc 2.60E-01 1.95E-01 1.29E-01 6.38E-02 -1.68E-03

'Mr '~*.<<" c<<, r, !

c OFG 13A Gas NX-<< '<<<<c.:>>>-'.W:>>

1M)7 to 1E<1 uCi/cc 4.92E-01 4.11E-01 OFG 138 Gas 3.31E-01 2.50E-01 1.69E-01 1EWT to 1E<1 uCi/cc 4.92E-01 4.11E-01 3.31E-01 2.50E-01 1.69E-01

0 Nine o}nt Unit 2 .

CONTINU ~IR MONITORS Site Emergency Exercise TABLE 7.7 Scenario No. 41 Rev. 0 FINAL Corttirtuous Air Mortitors 7:00 7:15 7:30 7:45 8:00 8:15 8:30 8:45 9:00 9:15 9:30 9:45 fka(twaste Eqt~ri )rne>>t Exttaust Vent 1 966.1? 1 96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-1r Partic. 1E-17 to 1E-05 trCi/cc 1 G" 6.1? 1 9GE-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 '1.96E 12 1.96E 12 1.96E 12 ftadwaste Tartk Vent s,".

<<r - pip IIVW 196 Go<< ~1E-071o IE-01 VCiicc} 5 1? fi 07 5,17E-07 5.17E 07 5.17E.07 5.17E-07 5. I 7E.O/ 5 17E.07 5.17E-07 5.17E-07 5.1'7E-07 5.17E-07 5.17EN7 Partic. 1E-11 to 1E-05 trCi/cc  ? orc I~ 2 9GE.12 2.96E-12 2 96E-12 2 96E-12 2 96E 12 2 96E-12 2.96E.12 2.96E-12 2.96E612 2.96E-12 2.96E-12 Ra(twaste Bi~il(lin Vent '<<9 J~<<6<<

IIVW 197 Go~sIE071o IE01 oCiicc 4 91E.07 4 95E.07 4 92E 07 4 94E.07 4.89E.07 4.91E-07 4.94E-07 4.91E-07 3.70E-07 3.69E-07 1.27E-07 5.78E4L9 Partic. 1E-11 to 1E-05 uCi/cc 2 26E.12 2,38E-12 2 36E.12 2.37E-12 2.35E-12 2.366-12 2 37E-12 2.36E-12 1.89E-12 1.89E-12 9.62E-13 4.95E-13 R.B. N Atrx Bay El. 196'; RHR Heat Exct>

llVR 237 Gas 1E-07 to 1E-01 uCi/cc 1 10E-11 1 10E-11 1,10E-11 1.10E-11 1.10E-11 1.10E-11 1.10E-11 1.10E-11 1.10E-11 1.10E-11 1.10E-11 1.10E-11 Par tic. 1E-11 to 1E-05 uCi/cc 2 OOE-12 2 OQE-12 2 OOE-12 2 OOE-12 2.00E-12 2.00E-12 2,00E-12 2,00E-12 2.00E-12 2.00E-12 2.00E-12 1.99E-12 f<.B. S. Aux Bay El. 196" RHR Heat Exctt.

ltVR 238 Gas 1E-07 to 1E-01 uCi/cc 2 69E-10 2.77E-10 2 65E-10 2.75E.10 2.64E-10 2.66E.10 2.70E-10 2.63E-10 2.02E-11 1.89E-11 .4.66E-10 -7.09E-10 Partic. 1E-11 to 1E-05 uCi/cc 2 GOE-10 2.68E-10 2,56E-10 2.66E-10 2.55E-10 2,57E-10 2,61E-10 2.54E-10 1.12E-11 9.92E-12 -4.75E-10 -7.18E-10 f<artwaste Buildirt El. 279" Sw r Room r<<E-'- <<kg'*

I tVW 199 Gas 1E-07 to 1E-01 uCi/cc 4 GGE-06 4.66E-O6 4 66E.OG 4,66E.06 4 66E.06 4,66E.OG 4.66E-06 4.66E-06 4.66E-06 4.66E-06 4.66E-06 4.66E-06 Partic. 1E-11 to 1E-05 uCi/cc 3 05E-12 3.05E-12 3.05E-12 3.05E-12 3.05E-12 3,05E-12 3 05E-12 3.05E-12 3.05E-12 3.05E-12 3.05E-12 3.05E-12 Turbine Buildin Vent 1 l0<<

llVT 206 Gas 1E-07 to 1E-01 uCi/cc 8,88E-07 8 88E-07 .8 88E-07 8,88E-07 s.ssE-07 8,88E-07 8.88E-07 8.88E-07 e.esE-07 8.88E-07 8.88E-07 8.88E<7 Partic. 1E-11 to 1E-05 uCi/cc 1,51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 Reactor Buit(tin Recircutation l IVf< 229 Gas 1E-07 to 1E-01 uCi/cc 3 51E.O/ 3 5 I E-07 3.51E-07 3.51E.07 3.51E-07 3.51E-07 3.51E-07 3.51E-07 3.51E-07 3.51E-07 3.51 E<7 3.51E-07 Partic. 1E-11 to 1E-05 uCi/cc 1.946-12 1.94E-12 1.94E-12 1.94E-12 1.94E-12 1.94E-12 1.94E-12 1.94E-12 1.94E-12 1.94E-12 1.94E-12 1.94E-12 Ernertl en'esp) ortse Facilities ,tX~;.I'<<Etc TSC PING CPM As read As read As read As read As read As read As read As read As read As read As read As read 7 7-1

CONTINU, IR MONITORS Nine rv lnt Unit 2 Site Emergency Exercise TABLE 7.7 Scenario No. 41 Rev. 0 FINAL Contirrirot(s Air Morritors 10:00 10:15 10:30 10:45 11:00 11:15 11:30 11:45 12:00 12:15 12:30 12:45 Ratlwaste Eq~ui >ment Exhaust Vent 1 96E-12 1,96E-12 1,96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 Partic. 1E-17 to 1E-05 irCI/cc 1 96E-12 1.96E-12 1.96E.12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 1.96E-12 Rarlwaste Tartk Vent I!VW 190 Gas ~IE-07 (o IE-01 uCI/cc) "> 1/I (I7 5 17E.07 5.17E 07 5 17E.07 5.17E.07 5.17E-07 5.17E.07 5.17E-07 5.17E-07 5.17E-07 5.1 7E-07 5.17E47 Pattie. 1E-11 to 1E-05 trCi/cc 2 or 1,1' 2 96E-12 2 6E-12 2.96E-12 2.96E-12 2.96E-12 2.96E 12 2.96E '12 2.96E-12 2.96E-12 2.96E-12 2.96E-12 Ha(lwaste B<<il(li>>g Vent IIVW 197 Gas~tE-07 lo IE.01 u~CI/cc 1 rsf:.07 ~ 2 37E.07 -3 58E.07 3.65E.07 3,65E 07 3.65E-07 3.65E-07 3 65E.07 3.65E-07 3.65E-07 3.65E-07 3.65E47 l>arlic~IE-II lo I E-05 ttCiicc 290I:-r r ~ 4,37E-13 ~ 9 01E-13 1 88E-12 1.88E-12 1.88E-12 1.88E-12 1.88E-12 1,88E-12 1.88E-12 1.88E-12 1.88E-12 I<.B. N A<<x B~a EI. 196', RHR Heat Exch IIVR 237 Gas~IE-07 to I E-01 uCi/cc 1 10E 11 1.10E-11 1.10E-11 4 08E.08 4.01E-OS 3 94E.08 3.87E-08 3 81E-08 3.75E-08 3.68E-08 2.81E.03 4.36E-01 Par tie. 1E-11 to 1E-05 uCi/cc 99E.1" 99E-12 99E-12 4 86E-10 2.32F-10 1.11E-10 5,38E-11 2.66E-11 1.37E-11 -2.78E-11 1 1 1 5.80E-06 3.03E43 R.B. S. A<<x Ba El. 196" RHR Heat Exch.

IIVR 238 Gas 1E-07 to 1E-01 <<Ci/cc ~

9 52E.10 -1.19E-09 ~ 1.44E.09 5 28E-11 5.20E-11 5.13E-11 5.07E-11 5.00E- I 1 4,93E-11 4.87E-11 1.24E-03 1.33E42 Par tie. 1E-11 to 1E-05 <<Ci/cc -9 61E.10 ~ 1 20E-09 -1.45E-09 2,53E-12 2,26E-12 2.12E-12 2.06E-12 2.03E-12 2.01E-12 1.97E-12 5.13E47 3.29E45 I<a(lwaste Btrildirt El. 279", Sw r Room IIVW 199 Gas 1E-07 to 1E-01 uCi/cc 4 66E-06 4 66E.06 4 66E.06 4,66E.06 4.66E-06 4.66E-06 4.66E-06 4 66E-06 4.66E-06 4.66E-06 4.66E-06 4.66E46 Partic. 1E-11 to 1E-05 uCi/cc 3,05E-12 3 05E-12 3 OSE-12 3,05E-12 3.05E-12 3.05E-12 3 05E-12 3 05E-12 3.05E-12 3.05E-12 3.05E-12 3.05E-12 Trrrbine Buildin Vent IIVT 206 Gas 1E-07 to 1E-01 uCi/cc 888E 07 8 88E.07 .seeE o7 8.88E-07 s.seE-07 8.88E-07 8.88E107 8 88E-07 8.88E-07 8.88E-07 8.88E-07 8.88E47 Partic. 1E-11 to 1E-05 uCi/cc 1 51E-12 1 51E.12 1 51E.12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 Reaclor~Builtli<l Recirculaliotl IIVR 229 Gas 1E-07 to 1E-01 uCi/cc 3 51E 07 351E 07 3.5 E-07 5.31E-OI 5.82E coo 7.02Ei 00 7.25Eaoo 1

7.15E000 6.95E+00 6.82E+00 3.53E>02 5.46Et04 Pattie. 1E-11 to 1E-05 <<CI/CC 1 91E-12 1.94E-12 1.94E-12 6.35E.03 4.20E.02 2.86E-02 1.66E-02 9.18E 03 4.99E-03 1.34E-03 4.85E<00 5.19E+02 Errtergency~Res )ortse Facilities ISC PING CPM As read As read Asread Asread Asread As read As read As read As read As read As read As read 7.7-2

CONTINU iilR MONITORS Nine nt Unit 2 Site Emergency Exercise TABLE 7.7 Scenario No. 41 Rev. 0 FINAL e

Corrtirruous Air h1orritors 13:00 13:15 13:30 13:45 14:00 I<adwaste E(It~ri )rne>>t Exhaust Vent 1 97 E.l." 1 96E-12 1.96E-12 1.96E-12 1.96E-12 Partic. 1E-17 to 1E-05 uCi/cc 1 96L 1 96E-12 1 96E-12 1:96E-12 1.96E-12 Ra<lwaste Tsrrk Vent 5 17F 07 5 17E-07 5 17F-07 5,17E.07 5 17E.07 Par tie. 1E-11 to 1E-05 11Ci/cc > cent', 1 2 96E-12 2 96E-12 2.96E-12 2,96E-12 Be<lwesle Buil~iini Vecu IIVW 197 Gas I1E-07 to 1E-01 11Ci/cc 3 656.07 3 65E.07 3.65E.07 3.65E.07 3.65E-07 Partic. 1E-11 to 1E-05 trCi/cc 1 886-12 I 88E-12 1.88E-12 1.88E-12 1,88E-12 R.B. N Aux Baal. 196', RHR Heat Exch ill/B 237 G00~1E-0710 1E-01 uCi/cc 8 69E-OI 1 30E000 1.73E000 2.17E000 2.60E000 Par tie. 1E-11 to 1E-05 trCI/cc 6 OOE-03 9 09E-03 1.21E.02 1 52E.02 1.82E.02 R.B. S. Aux~Ba El. 196" RHR Heat Exch IIVR 238 Gas 1E-07 to 1E-01 uCi/cc 2 53E.02 3.74E-02 4.94E:02 6.14E.02 7.35E.02 Partic. 1E-11 to 1E-05 uCi/cc 652E 05 9.76E.05 1.30E-04 1.62E.04 1.95E.04 Radwaste Buildin EI. 279" Sw r Room ItVW 199 Gas 1E-07 to 1E-01 uCi/cc 4 66E-06 4 66E.06 4 66E-06 4,66E-06 4,66E.06 Partic. 1E-11 to 1E-05 uCi/cc 3 05E-12 3 05E-12 3.05E-12 3.05E-12 3 05E-12 Turbirte Building Vent IIVT 206 Gas 1E-07 to 1E-01 uCi/cc 8 88E.07 8 88E-07 8 88E-07, 8.88E-07 8.88E-07 Partic. 1E-11 to 1E-05 uCi/cc 1,51E-12 1.51E-12 1.51E-12 1.51E-12 1.51E-12 Reactor Buiidin Recirculation IIVR 229 Gas 1E-07 to 1E-01 uCi/cc 1 09E005 1 63E005 2.17E005 2.72E005 3.26E005 Par tie. 1E-11 to 1E-05 uCi/cc I 036003 1.55E003 2.06E003 2.57E003 3.09E+03 Errre~rency Res )onse Facilities

  • ISC PING CPM As rea<I As read As read As read As read 7 7-3

Nine Mile Point Unit 2 I Site Emergency Exercise Scenario 41 Rev. 0 Reactor Building Node Map NORTH 4 5 6 14 196'15'7 12 16 175'0 8 7 8 i

19

/ 20 240'1

/ 261'3 289'5 26 24 22

/

306' 27 28 328'0 31 32 353'3 29 SOUTH

Nine Mile Pomt Urnt 2 Site Emergency Exercise Scenario 41 Rev. 0 Turbine Building Node Map 3 4 10 9'0 5 10 250'levation 25 23- Vent supply 13 14 15 16 18 19 21, 12 .

277'levation 17 35 22 24 20 34 - Vent exhaust 33 28 30 27 32 306'levation 31 29 26 30

Oose Rates Nine Mite Point Unit 2 (mR/hr) Site Emergency Exercise Scenario 41 Rev. 0 175'0 Table 7.8.1 Real Drill Reactor Building Tl rile Time 2 06:00 00:00 1 OE+0 2.6E-1 1.0E-12 <LLD <LLD 9.2E-1 2.6E+0 <LLD <LLD <LLD <LLD 06:15 00:15 1.0EiO 2.6E-1 1.0E-12 <LLD <LLD 9.2E-1 2.6E+0 <LLD <LLD <LLD <LLD 06:30 00:30 1.0E+0 2,6E-1 1.0E-12 <LLD <LLD 9.2E-1 2.6E+0 <LLD <LLD <LLD <LLD 06:45 00:45 1.0E+0 2.6E-1 1.0E-12 <LLD <LLO 9.2E-1 2.6E+0 <LLD <LLD <LLD <LLD 07:00 01:00 1.0E+0 2.6E-1 1.0E-12 <LLD <LLD 9.2E-1 2.6E+0 <LLD <LLD <LLD <LLD 07:15 01:15 1.0E+0 2.5E-1 1.0E-12 <LLD <LLD 9.1E-1 2.5E+0 <LLD <LLD <LLD <LLO 07:30 01:30 1.0E+0 2.5E-1 1.0E-12 <LLD <LLD 9.1E-1 2.5E+0 <LLD <LLD <LLD <LLD 07:45 01:45 1.0E+0 2.5E-1 1.0E-12 <LLD <LLD 9,1E-1 2.5E+0 <LLO <LLD <LLD <LLD 08:00 02:00 1.0E+0 2.5E-1 1.0E-12 <LLD <LLD 9.1E-1 2.5E+0 <LLD <LLD <LLD <LLD 08:15 02:15 1.0E+0 2.5E-1 1.0E-12 <LLD <LLD 9.1E-1 2.5E+0 <LLD <LLD <LLD <LLD 08:30 02:30 1.0E+0 2.6E-1 1.0E-12 <LLD <LLD 9.2E-1 2.6E+0 <LLD <LLD <LLD <LLD 08:45 02:45 1.0E+0 2.5E-1 1.0E-12 <LLD <LLD 9.1E-1 2.5E+0 <LLD <LLD <LLD <LLD 09:00 03:00 1.0E+0 2.6E-1 1.0E-12 <LLD <LLD'.3E-1 2.6E+0 <LLD <LLD <LLD <LLD 09:15 03:15 1.0E+0 2.6E-1 1.0E-12 <LLD <LLD 9.4E-1 2.6E+0 <LLD <LLD <LLD <LLD 09:30 03:30 1.0E+0 2.6E-1 1.0E-12 <LLD <LLD 9.2E-1 2.6E+0 <LLD <LLD <LLD <LLD 09:45 03:45 3.7E-2 6.0E+1 <LLD <LLD <LLD 3.4E-2 9.3E-2 <LLD <LLD'LLD <LLD 10:00 04:00 3.2E-2 1.4E+2 <LLD <LLD <LLD 2.8E-2 7.9E-2 <LLD <LLD <LLD <LLD 10:15 04:15 1.5E-4 1.7E+2 <LLD <LLD <LLD 1.3E-4 3.7E-4 <LLD <LLD <LLD <LLD 10:30 04:30 7.3E-5 1.5E+2 <LLD <LLD <LLD 6.5E-5 1.8E-4 <LLD <LLD <LLD <LLO 10:45 04:45 6.0E-1 1.2E+2 4.5E-1 3.1E-2 8.9E-2 <LLD <LLD 1.6E-2 <LLD 7.2E-2 2.0E-5 11:00 05:00 1.3E+0 1.0E+2 9.2E-1 1.3E-1 2.3E-1 1.2E-7 2.3E-7 1.1E-1 3.0E-1 2.1E-1 1.9E-S 11:15 05:15 1.9E+0 8.7E+1 1 4E+0 2.2E-1 3.7E-1 4.2E-7 1.1E-6 1.9E-1 5.7E-1 3.5E-1 1.9E-5 11:30 05:30 2.6E+0 7.3E+1 1.9E+0 3.2E-1 5.2E-1 1.3E-7 2.6E-7 2.8E-1 "'9.0E-1 4.9E-1 1.9E-5 11:45 05:45 3.2E+0 6.4E+1 2.2E+0 4.4E-1 6.7E-1 2.9E-3 1.3E-3 3.9E-1 1.3E+0 6.2E-1 8.9E-2 12:00 06:00 9.8E+1 1.6E+3 7.9E+1 1.BE+1 3.5E+1 2.3E-2 1.3E-2 1.3E+1 2.4E+1 9.3E+0 3.1E+0 12:15 06:15 2.0E+2 3.1E+3 1.6E+2 3.5E+1 7.0E+1 4.0E-2 1.3E-2 2.6E+1 4.6E+1 1.8E+1 6.0E+0 12:30 06:30 3.0E+2 4.7E+3 2.3E+2 5.3E+1 1.0E+2 5.7E-2 1.3E-2 3.8E+1 6.9E+1 2.7E+1 9.0E+0 12:45 06:45 9.9E+2 1.6E+4 7.8E+2 9.3E+1 2.2E+2 4.4E-1 1.3E-2 8.5E+1 1.3E+2 1.0E+2 1.3E+1 13:00 07:00 1.1E+3 1.7E+4 8.6E+2 1.1E+2 2.5E+2 4.6E-1 1.3E-2 9.BE+1 1.5E+2 1.1E+2 1.6E+1 13:15 07:15 1.4E+3 2.1E+4 1.1E+3 1.3E+2 3.1E+2 5.8E-1 1.3E-2 1.2E+2 1.8E+2 1.4E+2 2.0E+1 13:30 07:30 1.1E+3 1.7E+4 8.6E+2 1.1E+2 2.5E+2 4.6E-1 1.3E-2 9.8E+1 1.5E+2 1.1E+2 1.6E+1 13:45 07:45 9.9E+2 1.6E+4 7.8E+2 9.3E< 1 2.2E+2 4.4E-1 1.3E-2 8.5E+1 1.3E+2 1.0E+2 1.3E+1 14:00 08:00 7.7E 1.2E+4 6.1E+2 7.1E+1 1.7E+2 3.5E-1 1.3E-2 6.6E+1 9.9E+1 7.9E+1 1.0E+1 7.8.1-1

0 Dose Rates Nine Mile Point Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1 Scenario 41 Rev. 0 Real Drill Reactor. Building 196'2 Time Time 13 06:00 00:00 1.0E-12 9,2E-1 2.6E+0 <LLD <LLD 06:15 00:15 1.0E-12 9.2E-1 2.6E+0 <LLD <LLD 06:30 00:30 1.0E-12 9.2E-1 2.6E+0 <LLD <LLD 06:45 00:45 1.0E-12 9.2E-1 2.6E+0 <LLD <LLD 07:00 01:00 1.0E-12 9.2E-1 2.6E+0 <LLD <LLD 07:15 01:15 1.0E-12 9.1E-1 2.5E+0 <LLD <LLD 07:30 01:30 1.0E-12 9.1E-1 2.5E+0 <<LLD <LLD 07:45 01:45 1.0E-12 9.1E-1 2.5E+0 <LLD <LLD 08:00 02:00 1.0E-12 9.1E-1 2.5E+0 <LLD <LLD 08'15 02:15 1.0E-12 9.1E-1 2.5E+0 <LLD <LLD 08:30 02:30 1.0E-12 9.2E-1 2.6E+0 <LLD <LLD 08:45 02:45 1.0E-12 9.1E-1 2.5E+0 <LLD <LLD 09:00 03:00 1.0E-12 9.3E-1 2.6E+0 <LLD <LLD 09:15 03:15 1.0E-12 9.4E-1 2.6E+0 <LLD <LLD 09:30 03:30 1.CE-12 9.2E-1 2.6E+0 <LLD <LLD 09:45 03:45 <LLD - 3.4E-2 9.3E-2 <LLD <LLD 10:00 04:00 <LLD 2.8E-2 7.9E-2 <LI D <LLD 10:15 04:15 <LLD 1.3ER 3.7E-4 <LLD <LLD 10:30 04:30 <LLD 6.5E-5 1.8E-4 <LLD <LLD 10:45 04:45 4.5E-1 <LLD <LLD <LLD 2.4E-1 11:00 05:00 9.2E-1 1.2E-7 2.3E-7 9.0E-2 7.5E-1 11'15 05:15 1.4E+0 4.2E-7 1.1E-6 2.0E-1 1.3E+0 11:30 05:30 1.9E+0 1.3E-? 2.6E-7 3.7E-1 1.8E+0 11:45 05:45 2.2E+0 2.9E-3 1.3E-3 5.7E-1 2.3E+0 12:00 06:00 7.9E+1 2.3E-2 1.3E-2 3.1E+0 4.5E+1 12:15 06:15 1.6E+2 4.0E-2 1.3E-2 5.6E+0 8.9E+1 12:30 06:30 2.3E+2 5.7E-2 1.3E-2 8.2E+0 1.3E+2 12:45 06:45 7.BE+2 4.4E-1 1.3E-2 1.3E+1 4.6E+2 13:00 07:00 8.6E+2 4.6E-1 1.3E-2 1.5E+1 5.0E+2 13:15 07:15 1.1E+3 5.8E-1 1.3E-2 1.9E+1 6.3E+2 13:30 07:30 8.6E+2 4.6E-1 . 1.3E-2 1.5E+1 5.0E+2 13:45 07:45 7.8E+2 4.4E-1 1.3E-2 1.3E+1 4.6E+2 14:00 08:00 6.1E+2 3.5E-1 1.3E-2 9.9E+0 3.6E+2 7.8.1-2

Dose Rates Nine Mile Point Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1 Scenario 41 Rev. 0 Real Drill Reactor Building 215'ime Time 14 15 16 17 18 06:00 00:00 <LLD <LLD <LLD <LLD (LLD 06:15 00:15 (LLD <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLD <LLD 06:45 00:45 (LLD <LLD (LLD <LLD, <LLD 07:00 01:00 <LLD <LLD <LLD <LLD <LLD 07:15 01:15 <LLD <LLD (LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD <LLD (LLD 07:45 01:45 <LLO <LLD <LLD (LLD <LLD 08:00 02:00 <LLD <LLD <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD <LLD 09:00 03:00 (LLD <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD <LLD 09:30 03:30 <LLD (LLD <LLD <LLD (LLD 09'45 03:45 <LLD (LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLO <LLD 10:30 04'30 <LLD (LLD <LLD . <LLD <LLD 10:45 04:45 6.4E-1 5.9E-1 1.1E-1 2.0E+0 1.7E+2 11:00 05:00 1.6E+0 6.8E-1 2.9E-1 2.5E+0 1.4E+2 11:15 05:15 2.5E+0 8.1E-1 4.7E-1 3.1E+0 1.1E+2 11:30 05:30 3.5E+0 8.8E-1 6.5E-1 3.5E+0 8.2E+1 11:45 05'45 4.3E+0 1.2E+0 8.2E-1 3.7E+0 6.5E+1 12:00 06:00 1.3E+2 3.BE+2 2.7E+1 7.3E+2 3.0E+2 12:15 06;15 2.6E+2 7.7E+2 5.4E+1 1.5E+3 5.4E+2 12:30 06:30 4.0E+2 1.1E+3 8.0E+1 2.2E+3 7.7E+2 12:45 06:45 1.3E+3 1.9E+3 2.4E+2 4.6E+3 1.7E+3 13:00 07:00 1.5E+3 2.3E+3 2.7E+2 5.3E+3 2.0E+3 13:15 07'15 1.9E+3 2.8E+3 3 4E+2 6.6E+3 2.4E+3 13:30 07:30 1.5E+3 2.3E+3, 2.7E+2 5.3E+3 2.0E+3 13:45 07:45 1.3E+3 1.9E+3 2.4E+2 4.6E+3 1.7E+3 14:00 08:00 1.1E+3 1.5E+3 1.9E+2 3.5E+3 1.3E+3

'.8.1-3

Dose Rates Nine Mile Point Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1 Scenario 41 Rev. 0 Rest Drill Reactor Building 240'ime Time 19 20 21 22 06:00 00:00 <LLD 2.6E-1 <LLD <LLD 06:15 00:15 <LLD 2.6E-1 <LLD <LLD 06:30 00:30 <LLD 2.6E-1 <LLD <LLD 06:45 00:45 <LLD 2.6E-1 <LLD <LLD 07:00 01:00 <LLD 2.6E-1 (LLD (LLD 07:15 01:15 <LLD 2.5E-1 <LLD <LLD 07:30 01:30 <LLD 2.5E-1 <LLD <LLD 07:45 01:45 <LLD 2.5E-1 <LLD <LLD 08:00 02:00 <LLD 2.5E-1 <LLD <LLD 08:15 02:15 (LLD 2.5E-1 <LLD <LLD 08:30 02:30 <LLD 2.6E-1 <LLD <LLD 08:45 02:45 <LLD 2.5E-1 <LLD <LLD 09:00 03:00 <LLD 2.6E-1 (LLD <LLD 09:15 03:15 <LLD 2.6E-1 <LLD <LLD 09:30 03:30 <LLD 2.6E-1 <LLD <LLD 09:45 03:45 (LLD 9.3E-3 <LLD <LLD 10:00 04:00 <LLD 7.9E-3 <LLD <LLD 10:15 04:15 <LLD 3.7E-S <LLD <LLD 10:30 04:30 <LLD 1.8E-5 <LLD <LLD 10:45 04:45 4.4E-11 9.0E-1 4.6E+0 3.8E-8 11:00 05:00 4.3E-11 1.7E+0 5.0E+0 3.8E-8 11:15 05:15 4.3E-11 2.6E+0 5.8E+0 3.7E-8 11'30 05'30 4.2E-11 3.3E+0 6.1E+0 3.6E-8 11:45 05:45 8.5E-3 5.2E+1 9.0E+0 2.9E-3 12:00 06:00 1.2E+0 5.1E+3 1.0E+3 1.4E-1 12:15 06:15 2.4E+0 1.0E+4 2.1E+3 2.8E-1 12:30 06:30 3.6E+0 1.5E+4 3.1E+3 4.2E-1 12:45 06:45 7.0E+0 5.5E+4 1.6E+4 4.9E-1 13:00 07:00 8.2E+0 6 OE+4 1 7E+4 6.3E-1 13:15 07:15 1.0E+1 7.5E+4 2.1E+4 7;5E-1 13:30 07:30 8.2E+0 6.0E+4 1.7E+4 6.3E-1 13:45 07:45 7.0E+0 5.5E+4 1.6E+4 4.9E-1 14:00 08:00 5.3E+0 4.3E+4 1.2E+4 3.7E-1 7.8.1-4

.. Rates Nine Mil Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1 Scenario 41 Rev. 0 Real Drill Reactor. Building 261'4 Time Time 23 06:00 00:00 <LLD <LLD 06:15 00:15 <LLD <LLD 06:30 00:30 <LLD <LLD 06:45 00:45 <LLD <LLD 07:00 01:00 <LLD <LLD 07:15 01:15 1.2E+2 1.3E+2 07:30 01:30 1 2E+2 1.3E+2 07:45 01:45 1.2Ei2 1.3E+2 08:00 02:00 1.2Ei2 1.3Ei2 08:15 02:15 1.2Ei 2 1.3E+2 08:30 02:30 1.2E~2 1.3E+2 08:45 02:45 1.2E+2 1.3E+2 09:00 03:00 1 2E42 1.3E+2 09:15 03:15 1.2E+2 1.3E+2 09:30 03:30 1.2Ei2 1.3E+2 09:45 03:45 1,2E+2 1.3E+2 10:00 04:00 1.2E+2 1.3E+2 10:15 04:15 1.2E+2 1.3E+2 10:30 04:30 1 2E+2 1.3E+2 10:45 04:45 1.2E+2 1.3E+2 11:00 05:00 1.2E+2 1.3E+2 11:15 05:15 1.2Ei2 1.3E+2 11:30 05:30 1.2E+2 1.3E+2 11:45 05:45 1.4E+4 1.3E+2 12:00 06:00 3.6EI4 7.8E+3 12:15. 06:15 5.9E+4 3.5E+4 12:30 '6:30 8.1E+4 4.0E+4 12:45 06:45 6.4E+5 7.8E+4 13:00 07:00 6.7Ei 5 9.4E+4 13:15 07:15 8.5EI5 1.2E+5 13:30 07:30 6.7E+5 9.4E+4 13:45 07:45 6.4E+5 7.8E+4. ~

14:00 08:00 5.1E+5 5.8E+4, Shaded area is indicative ot dose rates expected if sonrce is removed at 1130 7.8.1-5

~ <ales Nine Mil,t Unit 2 Exercise (mR/hr) Site Emergency Table 7.8.1 Scenario 41 Rev. 0 Real Drill Reactor Building 289'5 Time Time 26 06:00 00:00 <LLD <LLD 06:15 00:15 <LLD <LLD 06:30 00:30 <LLD <LLD 06:45 00:45 <LLD <LLO 07:00 01:00 <Li.D <LLD 07:15 01:15 <LLD 7 SE+4 07:30 01:30 <LLO 7 SE+4 07:45 01:45 <LLD 7 5E+4 08:00 02:00 <LLD 7 SEi4 08:15 02:15 <LLD 7,5E+4 08:30 02:30 <LLD 7.5E+4 08:45 02:45 <LLD 7.5E+4 09:00 03:00 <LLO 7.5E+4 09:15 03:15 <LLD 7,5E+4 09:30 03:30 <LLD 7.5E+4 09:45 03:45 <LLD 7 SE+4 10:00 04:00 <LLD 7 5E+4 10:15 04:15 <Lt D 7 SEi4 10:30 04:30 <LLD 7.5E+4 10:45 04:45 5 7E+0 7.5E+4 11:00 05:00 5.9E+0 7.SE+4 11:15 05:15 6,3E+0 7.5E+4 11:30 05:30 6 4E+0 7.5E+4 11:45 05:45 1.3E+1 7.5E+4 12:00 06:00 1.5Ei3 3.8E+3 12:15 06:15 3.1E+3 7.6E+3 12:30 06:30 4 6E+3 1.1E+4 12:45 06:45 1.4E+5 3.8E+4 13:00 07:00 1.4E+5 4.2E+4 13:15 07:15 1.9E+5 5.2E+4 13:30 07:30 1 4E+5 4.2E+4 13:45 07:45 14Ei5 3.BE+4 14:00 08:00 1.1E+5 3.0E+4 Shaded area is indicative of dose rates expected if source is removed at 1130 7.8.1-6

Dose Rates Nine Mile Point Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1 Scenario 41 Rev. 0 Real Drill Reactor BuiIding 306'7 Time Tl file 28 29 06:00 00:00 (LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD 06:30 00:30 <LLD (LLD <LLD 06:45 00:45 <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD 07:15 01 15 (LLD (LLD <LLD 07:30 01:30 <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD 08:15 02:15 (LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD 10:15 04 15 <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD 10:45 04:45 1.9E+0 4.2E+0 6.4E+1 11:00 05:00 2.9Ei0 4.8E+0 5.0E+1 11:15 05:15 4.2E+0 5.9E+0 3.2E+1 11:30 05:30 5.1E+0 6.3E+0 2.1E+1 11:45 05:45 5.7E+0 6.5E+0 1 4E+1 12:00 08:00 8.5E+2 6.2E+2 6.8E+2 12:15 ~

06:15 1.7E+3 1.2E+3 1.4E+3 12:30 06:30 2.5E+3 1.BE+3 2.0E+3 12:45 06:45 8.5E+3 6.2E+3 6.8E+3 13:00 07:00 9.4E+3 6.BE+3 7.5E+3 13:15 07:15 1.2E+4 8.6E+3 9.4E+3 13:30 07:30 9 4E+3 6.8E+3 7.5E+3 13:45 07:45 8.5E+3 6.2E+3 6.8E+3 14:00 08:00 6.6E+3 4.8E+3 5.3E+3 7.8.1-7

0 Dose Rates Nine Mile Point Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1 Scenario 41 Rev. 0 Reel Drill Reactor. Building 328'0 Time Time 31 32 06:oo oo:oo <LLO <LLD 5.1E+0 06:15 00:15 <LLD <LLD 5.1E+0 06:30 OQ:3Q <LLD <LLD 5.1E+0 06:45 00:45 <LLD <LLD 5.1E+0 07:00 01:00 <LLD <LLD 5.1E+0 07:15 01:15 <LLD <LLD 5.1E+0 07:30 01:30 <LLD <LLO 5.1E+0 07:45 01:45 <LLD <LLD 5.1E+0 08:00 02:00 <LLD <LLD 5.1E+0 08:15 02:15 <LLD <LLD 5.1E+0 08:30 02:30 <LLD <LLO 5.1E+0 08:45 02:45 <LLD <LLD 5.1E+0 09:00 03:00 <LLD <LLD 5.2E+0 09:15 03:15 <LLD <LLD 5.2E+0 09:30 03:30 <LLD <LLD 5.1E+0 09:45 03:45 <LLO <LLD 1.9E-1 10:00 04:00 '<LLD <LLD 1.6E-1 10:15 04:15 <LLO <LLD 7.4E-4 10:30 04:30 <LLD <LLD 3.6E-4 10:45 04:45 8.9E-1 4.5E+0 4.7E+0 11:00 05:00 1.6E+0 5.1E+0 5.2E+0 11:15 05:15 2.5E+0 6.0E+0 6.1E+0 11:30 05:30 3.2E+0 6.4E+0 6.5E+0 11:45 05:45 3.7E+0 6.6E+0 6.7E+0 12:00 06:00 8.3E+1 1.1E+3 1.2E+3 12:15 . 06:15 1.6E+2 2.1E+3 2.4E+3 12:30 06'30 2.4E+2 3.2E+3 3.6E+3 12:45 06:45 8.3E+2 1.1E+4 1.2E+4 13:00 07:00 9.1E+2 1.2E+4 1.3E+4 13:15 07:.15 1.1E+3 1.5E+4 1.7E+4 13:30 07:30 9.1E+2 1.2E+4 1.3E+4 13:45 07:45 8.3E+2 1.1E+4 1.2E+4 14:00 08:00 6.5E+2 8.3E+3 9.4E+3 7.8.1-8

Dose Rates Nine Mite Point Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1 Scenario 41 Rev. 0 Real Drill ReaCtOr Buiiding 353'ime Time 33 06:00 00:00 <LLD 06:15 00:15 <LLD 06:30 00:30 <LLD 06:45 00:45 <LLD 07:00 01:00 <LLD 07:15 01:15 <LLD 07:30 01:30 <LLD 07:45 01:45 <LLD 08:00 02:00 <LLD 08:15 02:15 <LLD 08'30 02'30 <LLD 08:45 02:45 <LLD 09:00 03:00 <LLD 09:15 03:15 <LLD 09:30 03:30 <LLD 09:45 03:45 <LLD 10:00 04:00 <LLD 10:15 04:15 <LLD 10:30 04:30 <LLD 10:45 04:45 5.1E+0 11:00 05:00 5.5E+0 11:15 05:15 6.3E+0 11:30 05:30 6.6E+0 11:45 05:45 9.9E+0 12:00 06:00 1.BE+3 12:15 06:15 3.6E+3 12:30 06:30 5.4E+3 12:45 06:45 1.8E+4 13:00 07:00 2.0E+4 13:15 . 07:15 2.5E+4 13:30 07:30 2.0E+4 13:45 07:45 1.8E+4 14:00 08:00 1.4E+4 7.8.1-9

Dose Rates Nine Mile Point Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1 Scenario 41 Rev. 0 Reel Drill Turbine Building Time Time 250'LLD 10 06:00 00:00 <LLD 5.5E+0 8.8E+0 8.8E+0 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 06:15 00:15 (LLD 5.5E+0 8.8E+0 8.8E+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 06:30 00:30 <LLD 5.5E+0 8.8E+0 8.8E+0 <LLD 5.1E+0 <LLD  ?.OE+0 <LLD 1.5E+1 <LLD 06:45 00:45 <LLD 5.5E+0 8.BE+0 8.8E+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 07:00 01:00 <LLD 5.5E+0 8.8E+0 8.BE+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 07:15 01:15 <LLD ~ 5.6E+0 8.9EtO 8.9E+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD'.5E+1 <LLD 07:30 01:30 <LLD 5.6E+0 8.9E+0 8.9E+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 07:45 01:45 <LLD 5.6E+0 8.9E+0 8.9E+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 08:00 02:00 <LLD 5.6E+0 8.9E+0 8.9E+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 08:15 02:15 <LLD 5.6E+0 8.9E+0 8.9E+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 08:30 02:30 <LLD 5.5E+0 8.9E+0 8.9E+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 08:45 02:45 <LLD 5.5E+0 8.8E40 8.8E+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 09:00 03:00 <LLD 5.5E+0 8.BE+0 8.8E+0 <LLD 5.2E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 09:15 03:15 <LLD 5.5E+0 8.8E+0 8.BE+0 <LLD 5.2E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 09:30 03:30 <LLD 5.5E+0 8.BE+0 8.8E+0 <LLD 5.1E+0 <LLD 7.0E+0 <LLD 1.5E+1 <LLD 09:45 03:45 <LLD 2.6E+3 4.2E+3 4.2E+3 <LLD 3.4E-1 <LLD 1.6E+3 <LLD 4.9E+3 <LLD 10:00 04:00 <LLD 2.1E+3 3.4E+3 3.4E+3 <LLD 6.9E-1 <LLD 1.9E+3 <LLD 5.8E+3 <LLD 10:15 04:15 <LLD 1.8E+3 2.BE+3 2.8E+3 <LLD 8.0E-1 <LLD 1.7E+3 <LLD 5.1E+3 <LLD 10:30 04:30 <LLD 1.4E+3 2.3E+3 2.3E+3 <LLD 9.4E-1 -

<LLD 1.4E+3 <LLD 4.3E+3 <LLD 10:45 04:45 <LLD 1.1E+3 1.BE+3 1.8E+3 <LLD 9.6E-1 <LLD 1.1E+3 <LLD 3.4E+3 <LLD 11:00 05:00 <LLD 9.7E+2 1.5E+3 1.5E+3 <LLD 8.6E-1 <LLD 9.6E+2 <LLD 2.9E+3 <LLD 11:15 05:15 <LLD 7.9E+2 1.3E+3 1.3E+3 <LLD 7.7E-1 <LLD 7.9E+2 <LLD 2.4E+3 <LLD 11:30 05:30 <LLD 6.5E+2 1.0E+3 1.0E+3 <LLD 6.7E-1 <LLD 6.5E+2 <LLD 1.9E+3 <LLD 11:45 05:45 <LLD 5.3E+2 8.5E+2 8.5E+2 <LLD 5.9E-1 <LLD 5.3E+2 <LLD 1.6E+3 <LLD 12:00 12:15 06:00 06:15

<LLD

<LLD 4.4E+2 7.0E+2 7.0E+2 <LLD 5.1E-1 'LLD 4.3E+2 <LLD 1.3E+3 <LLD 4.4E+2 7.0E+2  ?.0E+2 <LLD 5.1E-i <LLD 4.3E+2 <LLD 1.3E+3 <LLD 12:30 06:30 <LLD 4.4E+2 7.0E+2 7.0E+2 <LLD 5.1E-1 <LLD 4.3E+2 <LLD 1.3E+3 <LLD 12:45 06:45 <LLD 4.4E+2 7.0E+2 7.0E+2 <LLD 5.1E-1 <LLD 4.3E+2 <LLD 1.3E+3 <LLD 13:00 07:00 <LLD 4.4E+2 7.0E+2  ?.0E+2 <LLD 5.1E-1 - <LLD 4.3E+2 <LLD 1.3E+3 <LLD 13:15 07:15 <LLD 4.4E+2 7.0E+2 7.0E+2 <LLD 5.1E-1 (LLD 4.3E+2 <LLD 1.3E+3 <LLD 13:30 07:30 <LLD 4.4E+2 7.0E+2 7.0E+2 <LLD 5.1E-1 <LLD 4.3E+2 <LLD 1.3E+3 <LLD 13:45 07:45 <LLD 4.4E+2 7.0E+2 7.0E+2 <LLD 5.1E-1 <LLD 4.3E+2 <LLD 1.3E+3 <LLD 14: 00 08:00 <LLD 4.4E+2  ?.OEi2  ?.OE+2 <LLD 5.1E-1 -<LLD 4.3E+2 <LLD 1.3E+3 <LLD

'7.8.1-10

Dose Rates Nine Mile Point Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1. Scenario 41 Rev. 0 Real Drill Turbine Building 277'est Time Time 12 13 24 25 06:00 00:00 <LLD 4.5EA <LLD 1.3E-3 06:15 00:15 <LLD 4.5EP <LLD 1.3E-3 06:30 00:30 <LLO 4.5E-4 <LLD 1.3E-3 06:45 00:45 <LLD 4.5E-4 <LLD 1.3E-3 07:00 01:00 <LLD 4.5E-4 <LLD 1.3E-3 07:15 01:15 <LLD 4.5E-4 <LLO 1.3E-3 07:30 01:30 <LLD 4.5E-4 <LLD 1.3E-3 07:45 01:45 <LLD 4.5E-4 <LLD 1.3E-3 08:00 02:00 <LLD 4.5E-4 <LLD 1.3E-3 08:15 02:15 <LLD 4.5E-4 <LLD 1.3E-3 08:30 02:30 <LLD 4.5ER <LLD 1.3E-3 08:45 02:45 <LLD 4.5EA <LLD 1.3E-3 09:00 03:00 <LLD 4.5EA <LLD 1.3E-3 09:15 03:15 <LLD 4.5E-4 <LLD 1.3E-3 09:30 03:30 <LLD 4.5E-4 <LLD 1.3E-3 09:45 03:45 <LLD 9.6E-3 <LLD 1.4E-1 10:00 04:00 <LLD 3.3E-2 <LLD 1.5E-1 10:15 04:15 <LLO 5.0E-2 <LLD 1.6E-1 10:30 04:30 <LLD 5.9E-2 <LLD 1.6E-1 10:45 04:45 <LLD 6.0E-2 <LLD 1.5E-1 11:00 05:00 <LLD 5.4E-2 <Ll D 1.3E-1 11:15 05:15 <LLD 4.8E-2 <LLD 1.1E-1 11:30 05:30 <LLO 4.2E-2 <LLD 9.5E-2 11:45 05:45 <LLD 3.7E-2 <LLD 8.1E-2 12:00 08:00 <LLD 3.2E-2 <LLD 6.9E-2 12:15 08:15 <LLD 3.2E-2 <LLD 6.9E-2 12:30 06'30 <LLD 3.2E-2 <LLD 6.9E-2 12:45 08:45 <LLD 3.2E-2 <LLD 6.9E-2 13:00 07:00 <LLD 3.2E-2 <LLD 6.9E-2 13:15 0?:15 - <LLD 3.2E-2 <LLD 6.9E-2 13:30 07:30 <LLD 3.2E-2 <LLD 6.9E-2 13:45 07:45 <LLD 3.2E-2 <LLD 6.9E-2 14:00 08:00 <LLD 3.2E-2 <LLD 6.9E-2 7.8.1-11

Dose Rates Nine Mile Point Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1 Scenario 41 Rev. 0 Real Drill Turbine Building 277'ast Time Time 14 15 16 17 18 19 20 21 22 35 06:00 00:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:45 00:45 <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:00 .01:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD O7:15 Oi:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD

~

08:15 02:15 'LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD -

<LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:45 04:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:00 05:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:15 05:15 <LL0 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11reO O5:3O <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:45 05:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:OO O6:OO <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:15 06:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:30 06:30 <LL0 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:45 06:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:00 07:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:15 07:15 <LLD <LLD <LLD'LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:30 07:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:45 07:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD

'7.8.1-12

Dose Rates Nine Mile Point Unit 2 (mR/hr) Site Emergency Exercise Table 7.8.1 Scenario 41 Rev. 0 Real Drill Turbine Building 306'9 Time Time 26 27 28 30 31 32 33 06:00 00:00 <LLD <LLD <LLD <LLD 3.5E-1 9.9E+0 <LLD <LLD 06:15 00:15 <LLD (LLD <LLD <LLD 3.5E-1 9.9E+0 <LLD <LLD 06:30 00:30 <LLD (LLD <LLD (LLD 3.5E-1 9.9E+0 <LLD <LLD 06:45 00:45 <LLD <LLD (LLO <LI.D 3.5E-1 9.9E+0 <LLD <LLD 07:00 01:00 (LLD <LLD <LLD (LLD 3.5E-1 9.9E+0 <LLD <LLD 07:15 01:15 (LLD <LLD <LLO <LLD 3.5E-1 1.0E+1 <LLD <LLD 07:30 01:30 <LLD (LLD <LLD (LLD 3.5E-1 1.0E+1 <LLD <LLD 07:45 01:45 <LLD <LLD <LLD (LLD 3.5E'-1 1.0E+1 <LLD <LLD 08:00 02:00 <LLD <LLD (LLD (LLD 3.5E-1 1.0E+1 <LLD <LLD 08:15 02:15 <LLD <LLD <LLD <LLD 3.5E-1 1.0E+1 <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD 3.5E-1 1.0E+1 <LLD <LLD 08:45 02:45 <LLD <LLD <LLD (LLD 3.5E-1 1.0E+1 <LLD <LLD 09:00 03:00 (LLD <LLD <LLD <LLD 3.5E-1 9.9E+0 <LLD . <LLD 09:15 03:15 <LLD <LLD (LLD <LLD 3.5E-1 9.9E+0 <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD 3.5E-1 9.9E+0 <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD 1.2E+2 3.3E+3 <LLD <LLD 10:00 04:00 (LLO <LLD <LLD <LLD 1.4E+2 3.9E+3 <LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD 1.2E+2 3.4E+3 <LLD <LLD 10:30 04:30 <l LD <LLD <LLD <LLD 1.0E+2 2.BE+3 <LLD <LLD 10:45 04:45 (LLD <LLD <LLD (LLD 8.0E+1 2.3E+3 <LLD <LLD 11:00 05:00 <LLD <LLD <LLD <LLD 6.8E+1 1.9E+3 <LLD <LLD 11:15 05:15 .<LLD <LLD <LLD <LLD 5.6E+1 1.6E+3 <LLD <LLD 11:30 05:30 <LLD <LLD <LLD (LLD 4.6E+1 1.3E+3 <LLD <LLD 11:45 05:45 <LLD <LLD <LLD <LLD 3.8E+1 1.1E+3 (LLD <LLD 12:00 06:00 (LLD <LLD <LLD <LLD 3.1E+1 8.7E+2 <LLD <LLD 12:15 06:15 <LLD <LLD 'LLD. <LLD 3.1E+1 8.7E+2 <LLO <LLD 12:30 06:30 <LLD <LLD (LLD <LLD 3.1E+1 8.7E+2 <LLD <LLD 12:45 06:45 <LLO <LLD <LLD <LLD 3.1E+1 8.7E+2 <LLD <LLD 13:00 07:00 (LLD <LLD <LLD <LLD 3.1E+1 8.7E+2 <LLD <LLD 13:15 07:15 <LLD <t.LP <<LLD 3.1E+1 8.7E+2 <LLD <LLD 13'30 07'30 <LLD (LLD <LLD <LLD 3.1E+1 8.7E+2 <LLD <LLD 13:45 07:45 <LLD <LLD <LLD <LLD 3.1E+1 8.7E+2 <LLD <LLD 1 4:00 08:00 <LLD <LLD <LLD <LLD 3.1E+1 8.7E+2 <LLD <LLD

'7.8.1-13

Airborne Concenlralion Nine Mile Point Unit 2 uCi/cc Site Emergency Exercise Scenario 41 Rev. 0 175'0 Table 7.8.2 Real Time Drill Time 2 3 f'eactor Building 06:00 00:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLO <LLD 06:15 00:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:45 00:45 <LLD <LLD <LLD <LLD (LLD <LLD <LLD (LLD <LLD <LLD

<LLD 07:00 01:00 <LLD <LLD <LLD (LLD <LLD <LLD (LLD <LLD <LLD <LLD <LLD 07:15 01:15 (LLD <LL0 <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD ~

07:30 01:30 <LLD <LLD <LLD <LLD <LLD <LLD '- <LLD <LLD <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD (LLD 08:15 02:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD (LLD 08:30 02:30, <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD - <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD . <LLD <LLD 09:45 03:45 <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLO <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:45 04:45 6.3E-4 4.7E-3 4.7E-4 3.3E-S 9.3E-S 4.1E-11 <LLD 1.6E-5 <LLD 7.5E-5 2.1E-8 11:00 05:00 1.4E-3 5.7E-3 1.0E-3 1.5E-4 2.7E-4 4.4E-11 <LLD 1.2E-4 3.4E-4 2.4E-4 2.2E-8 11:15 05:15 2.4E-3 7.0E-3 1.7E-3 2.6E-4 4.SEA 4.6E-11 <LLD 2.3E-4,6.9E-4 4.2E-4 2.3E-8 11:30 05:30 3.3E-3 7.8E-3 2.4E-3 4.1E-4 6.7E-4 4.8E-11 <LLD 3.7E-4 1.2E-3 6.3E-4 2.4E-8 11:45 05:45 4.3E-3 1.2E-2 3.0E-3 6.0E-4 9.1E-4 3.9E-6 1.7E-6 5.2E-4 1.7E-3 8.5E-4 1.2E-4 12:00 06:00 1.4E-1 2.2E+0 1.1E-1 2.6E-2 S.OE-2 3.3E-5 1.9E-5 1.9E-2 3.4E-2 1.3E-2 4.4E-3 12:15 06:15 3.0E-1 4.6E+0 2.3E-1 5.3E-2 1.0E-1 6.0E-5 2.0E-5 3.8E-2 6.9E-2 2.7E-2 9.1E-3 12:30 06:30 4.7E-1 7.3E+0 3.7E-1 8.3E-2 1.6E-1 9.0E-5 2.1E-5 6.0E-2 1.1E-1 4.2E-2 1.4E-2 12:45 06:45 1.6E+0 2.5E+.1 1.3E+0 1.5E-1 3.6E-1 7.2E-4 2.2E-S 1.4E-1 2.1E-1 1.7E-1 2.2E-2 13:00 07:00 1.9E+0 2.9E+1 1.5E+0 1.9E-1. 4.4E-1 7.8E-4 2.3E-5 1.7E-1 2.6E-1 1.9E-1 2.8E-2 13:15 07:15 2.4E+0 3.BE+1 1.9E+0 2.4E-1 5.6E-1 1.0E-3 2.4E-S 2.2E-1 3.3E-1 2.5E-1 3.5E-2 13:30 07:30 2.0E+0 3.2E+1 1.6E+0 2.0E-1 4.7E-1 8.4E-4 2.5E-5 1.8E-1 2.8E-1 2.0E-1 3.0E-2 13:45 07:45 1.9E+0 3.0E+1 1.SE+0 1.8E-1 4.2E-1 8.4E-4 2.6E-S 1.6E 2.5E-1 1.9E-1 2.6E-2 14:00 08:00 1.5E+0 2.4E+1 1.2E+0 1.4E-1 3.4E-1 6.9E-4 2.6E-S 1.3E-1 2.0E-1 1.6E-1 2.0E-2

~

7.8.2-1

0 Airborne Concentration Nine Mile Point Unit 2 uCi/cc Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.2 Rest Drill Reactor Building 196'ime Time 12 13 06:00 00:00 (LLD (LLD <LLD <LLD <LLD 06:15 00:15 <LLD (LLD <LLD <LLD <LLD 06:30 00:30 (LLD <LLD <LLD <LLD (LLD 06:45 00:45 (LLD <LLD <LLD (LLD <LLD 07:00 01:00 <LLD <LLD (LLD <LLD <LLD 07:15 01:15 (LLD <LLD <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD <LLD <LLD 07:45 01:45 (LLD <LLD <LLD <LLD <LLD 08:00 02:00 <LLD (LLD <LLD (LLD <LLD 08:15 02:15 <LLD (LLD <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD <LLD 08:45 02'45 <LLD <LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD (LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD- <LLD 10:00 04:00 (LLD <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD <LLD 10:30 04:30 (LLD <LLD <LLD <LLD <LLD 10:45 04:45 4.7E-4 4.1E-11 <LLD <LLD 2.5E-4 11:00 05:00 1.0E-3 4.4E-11 <LLD 1.0E-4 8.5E-4 .

11:15 05:15 1.7E-3 4.6E-11 <LLD 2.5E-4 1.5E-3 11:30 05:30 2.4E-3 4.8E-11 <LLD 4.8ER 2.3E-3 11:45 05:45 3.0E-3 3.9E-6 1.7E-6 7.8E4 3.1E-3 12:00 06:00 1.1E-1 3.3E-5 1.9E-S 4.4E-3 6.5E-2 12:15 06:15 2.3E-1 6.0E-5 2.0E-5 8.5E-3 1.3E-1 12:30 06:30 3.7E-1 9.0E-5 2.1E-5 1.3E-2 2.1E-1 12:45 06:45 1.3E+0 7.2EA 2.2E-5 2.1E-2 7.5E-1 13:00 07:00 .1.5E+0 7.8E-4 2.3E-5 2.6E-2 8.6E-1 13:15 07:15 1.9E+0 1.0E-3 . 2.4E-5 3.3E-2 1.1E+0 13:30 07:30 1.6E+0 8.4E-4 2.5E-5 2.9E-2 9.3E-1 13:45 07:45 1.5E+0 8.4E-4 2.6E-5 2.5E-2 8.8E-1 14:00 08:00 1.2E+0 6.9E-4 2.6E-S 2.0E-2 7.1E-1 7.8.2-2

Airborne Concentration Mile Point Unit 2 Real Drill UCi/cc Table 7.8.2 Reactor Building 215'ine Site Emergency Exercise Scenario 41 Rev. 0 Time Time 14 15 16 17 18 06:00 00:00 <LLD <LLD <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD <LLD (LLD 06:30 00:30 <LLD <LLD <LLD <LLD <LLD 06:45 00:45 (LLD <LLD <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD <LLD (LLD 07:15 01:15 <LLD <LLD <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD, <LLD O8:45 02'45 (LLD <LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD <LLD 09:30 03'30 <LLD <LLD <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD <LLD <LLD 10:45 04:45 6.7E-4 6.2ER 1.1E-4 2.1E-3 1.7E-1 11:00 05:00 1.8E-3 7.7E-4 3.3E-4 2.8E-3 1.6E-1 11:15 05:15 3.1E-3 9.SEE 5.7E-4 3.7E-3 1.3E-1 11:30 05:30 4.5E-3 1.1E-3 8.4E-4 4.4E-3 1.1E-1 11:45 05:45 5.8E-3 1.7E-3 1.1E-3 S.OE-3 8.9E-2 12:00 06:00 1.9E-'1 5.5E-1 3.9E-2 1.1E+0 4.3E-1 12:15 06:15 4.0E-1 1.2E+0 8.1E-2 2.2E+0 8.1E-1 12:30 06:30 6.2E-1 1.BE+0 1.3E-1 3.4E+0 1.2E+0 12:45 06:45 2.2E+0 3.1E+0 4.0E-1 7.6E+0 2.8E+0 13:00 07:00 2.5E+0 3.9E+0 4.6E-1 9.2E+0 3.4E+0 13:15 07:15 3.3E+0 5.0E+0 6.0E-1 1.2E+1 4.3E+0 13:30 07:30 2.7E+0 4.2E+0 5.0E-1 9.9E+0 3.6E+0 13:45 07:45 2.6E+0 3.7E+0 4.7F=1 8.9E+0 3.3E+0 14:00 08:00 2.1E+0 2.9E+0 3.8E-1 7.0E+0 2.7E+0 7.8.2-3

Airborne Concentration Nine Mile Point Unit 2 uCi/cc Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.2 Real Drill Reactor Building 240'ime Time 19 20 21 22 06:00 00:00 <LLD <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLD 06:45 00:45 <LLD <LLD <LLD <LLD 07:00 01:00 <LLO <LLD <LLD <LLD 07:15 01:15 <LLO <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LL'D <LLD 07:45 01:45 <LLD <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD <LLD 08:15 02:15 <LLO <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD. <LLD 10:30 04:30 <LLD <LLD <LLD <LLD 10:45 04:45 <LLD 9.4E-4 4.8E-3 4.0E-11 11:00 05:00 <LLD 1.9E-3 5.7E-3 4.3E-11 11:15 05:15 <LLD 3.1E-3 7.0E-3 4.5E-11 11:30 05:30 <LLD 4.3E-3 7.9E-3 4.7E-11 11:45 05:45 1.2E-5 7.1E-2 1.2E-2 3.9E-6 12:OQ 06:00 1.7E-3 7.3E+0 1.5E+0 ~ 2.1E-4 12:15 06:15 3.6E-3 1.5E+1 3.1E+0 4.3E-4 12:30 06:30 5.7E-3 2.4E+1 4.9E+0 6.7E-4 12:45 06:45 1.1E-2 9.0E+1 2.6E+1. 8.1EA 13:00 07:00 1;4E-2 1.0E+2 2.9E+1 1.1E-3 13:15 07:15 1.8E-2 1.3E+2 3.BE+1 1.3E-3 13:30 07:30 1.5E-2 1.1E+2 3.1E+1 1.2E-3 13:45 07:45 1.3E-2 1.1E+2 3.0Ei1 9.5E-4 14:00 08:00 1.1E-2 8.5E+1 2.5E+1 7.3E-4

'.8.2-4

Airborne Concentration Nine Mile Point Unit 2 UCi/cc Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.2 Real Drill Reactor Building Time 23 24 261'6:00 00:00 <LLD <LLD 06:15 00:15 <LLD <LLD 06:30 00:30 <LLD <LLD 06:45 00:45 <LLD <LLD 07:00 01:00 <LLD <LLD 07:15 01 15 <LLD <LLD 07:30 01:30 <LLD <LLD 07:45 01:45 <LLD <LLD 08:00 02:00 <LLD <LLD 08:15 02:15 <LLD <LLD 08:30 02:30 <LLD <LLD 08:45 02:45 <LLD <LLD 09:00 03:00 <LLD <LLD 09:15 03:15 <LLD <LLD 09:30 03:30 <LLD <LLD 09:45 03:45 <LLD <LLD 10:00 04:00 <LLD <LLD 10:15 04:15 <LLD <LLD 10:30 04:30 <LLD <LLD 10:45 04:45 1.7E-3 4.2E-3 11:00 05'00 2.8E-3 5.3E-3 11:15 05:15 4.3E-3 6.6E-3 11:30 05:30 5.7E-3 7.6E-3 11:45 05:45 1.9E+1 1.1E-2 12:00 06:00 5.2E+1 1.1E+1 12:15 06:15 8.8E+1 5.2E+1 12:30 06:30 1.3E+2 6.3E+1 12:45 06:45 1.1E+3 1.3E+2 13:00 07:00 1.1E+3 1.6E+2 13:15 07:15 1.5E+3 2.1E+2 13:30 07'30 1.2E+3 1.7E+2 13:45 07:45 1.2E+3 1.5E+2 14:00 08:00 1.0E+3 1.2E+2 7.8.2-5

0 Mile Point Unit 2 289'ine Airborne Concentration UCi/cc Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.2 Real Drill Reactor Building Time 25 26 06:00 00:00 <LLO <LLD 06:15 00:15 <LLD <LLD 06:30 00:30 <LLD <LLD 06:45 00:45 <LLD <LLD 07:00 01:00 <LLO <LLD 07:15 01:15 <LLD <LLD 07:30 01:30 <LLD <LLD 07:45 01:45 <LLD <LLD 08:00 02:00 <LLD <LLD 08:15 02:15 <LLD <LLD 08:30 02:30 <LLD <LLO 08:45 02:45 <LLD <LLD 09:00 03:00 <LLD <LI D 09:15 03:15 <LLD <LLD 09:30 03:30 <LLD <LLD 09:45 03:45 <LLD <LLD 10:00 Q4:00 <LLD <LLD 10:15 04:15 <LLD <LLD 1Q:30 Q4:30 <LLD <LLD 10:45 04:45 6.0E-3 4.5E-3 11:00 05:00 6.7E-3 5.5E-3 11'15 05:15 7.6E-3 6.8E-3 11:30 05:30 8.2E-3 7.7E-3 11:45 05:45 1.8E-2 1.3E-2 12'.00 06:00 2.2E+0 5.4E+0 12:15 06:15 4.6E+0 1.1E+1 12:30 06:30 7.2E+0 1.8E+1 12:45 06:45 2.3E+2 6.2E+1 13:00 07:00 2.5E+2 7.1E+1 13:15 3.3E+2 9.3E+1 07:30 2.7E+2 7.7E+1 13:45 07:45 2.7E+2 .7.3E+1 14:00 08:00 2.3E+2 5.9E+1 7.8.2-6

Airborne Concentration Nine Mile Point Unit 2 UCI/CC Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.2 Reel Drill Reactor Building 306'ime Time 27 28 29 06:00 00:00 <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD 06:30 00:30 (LLD <LLD <LLD 06:45 00:45 <LLD <LLD (LLD 07:00 01:00 <LLD <LLD <LLD 07:15 01:15 <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD 07:45 01:45 <LLD (LLD <LLD 08:00 02:00 <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD 10:00 04'00 <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD 10:45 04:45 2.0E-3 4.3E-3 6.?E-2 11:00 05:00 3.3E-3 5.5E-3 5.7E-2 11:15 05:15 5.1E-3 7.1E-3 3.9E-2 11:30 05:30 6.6E-3 8.2E-3 2.7E-2 11:45 05:45 7.7E-3 8.9E-3 1.9E-2 12:00 06:00 1.2E+0 8.9E-1 9.8E-1 12:15 06:15 2.5E+0 1.9E+0 2.0E+0 12'30 06:30 4.0E+0 2.9E+0 3.2E+0 12:45 06:45 1.4E+1 1.0E+1 1.1E+1 13:00 07:00 1.6E+1 1.2E+1 1.3E+1 13:15 07:15 2.1E+1 1.5E+1 1.7E+1 13:30 07:30 1.?E+1 1.3E+1 1 4E+1 13:45 07:45 1.6E+1 1.2E+1 1.3E+1 14:00 08:00 1.3E+1 9.6E+0 1.1E+1 7.8.2-7

Airborne Concentration Mile Point Unit 2 Real Drill uCi/cc Table 7.8.2 Reactor Building 328'ine Site Emergency Exercise Scenario 41 Rev. 0 Time Time 30 31 32 06:00 00:00 <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD 06:45 00:45 <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD 07:15 01:15 (LLD <LLD <LLD 07:30 01:30 (LLD <LLD <LLD 07:45 01:45 (LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD 08:45 02:45 <LLD <LLD (LLD 09:00 03:00 (LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD 10:45 04:45 9.3ER 4.7E-3 4.9E-3 11:00 05:00 1.8E-3 5.8E-3 5.9E-3 11:15 05:15 3.0E-3 7.3E-3 7.4E-3 11:30 05:30 4.1E-3 8.2E-3 8.3E-3 11:45 05:45 5.0E-3 9.0E-3 9.1E-3 12:00 06:00 1.2E-1 1.5E+0 1.7E+0 12:15 06:15 2.4E-1 3.2E+0 3.6E+0 12:30 06:30 3.8E-1 5.0E+0 5.7E+0 12:45 06:45 1.4E+0 1.7E+1 2.0E+1 13:00 07:00 1.6E+0 2.0E+1 2.3E+1 13:15 07'15 2.0E+0 . 2.6E+1 3.0E+1 13:30 07:30 1.7E+0 2.2E+1 2.5E+1 13:45 07:45 1.6E+0 2.0E+1 2.3E+1 14:00 08:00 1.3E+0 1.6E+1 1.9E+1

-7.8.2-8

Airborne Concentration Nine Mile Point Unit 2 uCi/cc Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.2 Real Drill ReaCtOr Building 353' Time Time 33 06:00 00:00 <LLD 06:15 00:15 <LLD 06:30 00:30 <LLD 06:45 00:45 <LLD 07:00 01:00 <LLD 07:15 01:15 <LLD 07:30 01:30 <LLD 07:45 01:45 <LLD 08:00 02:00 <LLD 08:15 02:15 <LLD 08:30 02:30 <LLD 08:45 02:45 <LLD 09:00 03:00 <LLD 09:15 03:15 <LLD 09'30 03:30 <LLD 09:45 03:45 <LLD 10:00 04:00 <LLD 10:15 04:15 <LLD 10:30 04:30 <LLD 10:45 04:45 5.3E-3 11:00 05:00 6.3E-3 11:15 05:15 7.6E-3 11:30 05:30 8.4E-3 11:45 05'45 1.3E-2 12:00 06:00 2.6E+0 12:15 06:15 5.4E+0 12:30 06:30 8.4E+0 12:45 06:45 2.9E+1 13:00 07:00 3.4E+1 13:15 07:15 4.4E+1 13:30 07:30 3.6E+1 13:45 07:45 3 4E+1 14:00 08:00 2.8E+1 7.8.2-9

Airborne Concentration Nine Mile Point Unit 2 uCi/cc Site Emergency Exercise

- Scenario 41 Rev. 0 250'0 Table 7.8.2 Real Drill Turbine Building Time 06:00 00:00 <LLD <LLO <LLO <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLO <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:45 00:45 <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:15 01:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD (LLD <LLD 07:30 01:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD (LLD 08:00 02:00 <LLD <LLD . <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD ~ <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLO <LLD <LLD <LLD <LLD. <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD *

<LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:45 04:45 <LLD <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:00 05:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:15 05:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLO <LLD <LLD <LLD

<LLD 11:30 05'30 <LLD <LLD <LLD" <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:45 05:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:00 06:00 <LLD <LLD . <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:15 06:15 (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:30 06:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:45 06:45 <LLD <LLO (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:00 07:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD

. <LLD <LLD <LLD 13:15 07:15 <LLD <LLD <LLD 'LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:30 07:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:45 07:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 14: 00 08:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD (LLD <LLD <LLD

  • 7.8.2-1 0

Airborne Concentration , Nine Mile Point Unit 2 uCi/cc Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.2 Real Drill Turbine Building 277'est Time Time 12 13 24 25 06:00 00:00 <LLO <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLD 06:45 00:45 (LLO <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD <LLD 07:15 01:15 <LLD <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLD 08:00 02:00 <L'LD <LLD <LLD <LLD 08:15 02:15 <LLO <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD 09:30 03:30 (LLD <LLD <LLD <LLD 09:45 03:45 (LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD 10:30 04:30 <LLD (LLD <LLD <LLD 10:45 04:45 (LLD <LLD <LLD <LLD 11:00 05:00 <LLD <LLD <LLD <LLD 11:15 05:15 <LLD <LLD <LLD <LLD 11:30 05:30 <LLD <LLD (LLD <LLD 11:45 05:45 (LLD <LLD <LLD <LLD 12:00 06:00 'LLD <LLD <LLD <LLD 12:15 06:15 <LLD <LLD <LLD <LLD 12:30 06:30 <LLD <LLD (LLD <LLD 12:45 06:45 <LLD <LLD <LLD <LLD 13:00 07:00 <LLD <LLD <LLD <LLD 13:15 07:15 <LLO <LLD (LLD <LLD 13:30 07:30 <LLD <LLD <LLD <LLD 13:45 07:45 <LLD <LLO 'LLD

<LLD 14:00 08:00 <LLO <LLD

<LLD <LLD

.7.8.2-11

Airborne Concentration Nine Mile Point Unit 2 uCi/cc Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.2 Real Drill Turbine Building 277'ast Time Time 15 16 17 18 19 20 21 22 35 06:00 00:00 (LLD <LLD <LLD <<LLD <LLD <LLD <LLD <LLD (LLD <LLD 06:15 00:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:30 00:30 (LLD <LLD <LLD <LLD <LLD <LLD (LLD <LLD <LLD <LLD 06:45 00:45 (LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD <LLO <LLD <LLD <LLD <LLD <LLD <LLD 07:15 01:15 <LLD <LLD <LLD (LLO <LLD <LLD <LLD <LLD <LLD <LLD 07:30 01:30 (LLD <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:45 01:45 (LLD (LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:00 02:00 (LLD <LLD <LLD <LLD <LLD <LLD (LLD (LLD <LLD <LLD 08:15 02:15 (LLD <LLD <LLD <LLD <LLD (LLD (LLD (LLO <LLD <LLD 08:30 02:30 (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD <LLD <LLD (LLD (LLD <LLD <LLD 09:00 03:00 (LLD <LLD (LLD <LLO <LLD <LLD (LLD (LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD (LLD (LLD (LLD <LLD <LLD <LLD 09:30 03:30 <<LLD <LLD <LLD <LLO <LLD <LLD <LLD (LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD <LLD <LLD (LLD (LLD . <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD (LLD 10:15 04:15 (LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:45 04:45 <<LLD <LLD <LLD <LLD <LLD <LLD <LLD, (LLD <LLD <LLD 11:00 05:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD (LLD <LLD <LLD 11:15 05:15 <LLD <LLD <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD 11:30 05:30 <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:45 05:45 <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:00 06:00 <LLD <LLD . <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:15 06:15 <LLD <LLD <LLD <<LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:30 06:30 (LLD (LLD (LLD <LLD (LLD <LLD <LLD (LLD <LLD <LLD 12:45 06:45 <LLD ~

<LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:00 07:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLO <LLD 13:15 07:15 (LLD <LLD <LLD (LLD (LLD (LLD <LLD <LLD <LLD <LLD 13:30 07:30 <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD

<LLD <LLD 13:45 07:45 <<LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 14:00 08:00 (LLD <LLD <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD

'.8.2-12

Airborne Concentration Nine Mile Point Unit 2 uCi/cc Site Emergency Exercise =

Scenario 41 Rev. 0 Table 7.8.2 Real Drill Turbine Building 306'1 Time Time 26 t 27 28 29 ~30 32 33 06:00 00:00 (LLD <LLD <LLD <LLD (LLD <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD (LLD (LLD (LLO <LLD (LLD 06:30 00:30 <LLD <LLD <LLD <LLD <LLD (LLD <LLD <LLD 06:45 00:45 (LLD <LLD <LLD (LLD <LLD (LLD <LLD <LLD o7:oo o1:oo <t.LO <LLD (LLD (LLD <LLD (LLD <LLD <LLD O7:15 01:15 <LLD <LLD <LLD (LLD <LLD (LLD <LLD (LLD 07:30 01:30 <LLD <LLD <LLD (LLD (LLD'LLD (LLD -

<LLD <LLD 07:45 01:45 <LLD <LLD <LLD (LLD (LLD <LLD <LLD 08:00 02:00 <LLD <LLD (LLD (LLD (LLD (LLD (LLD <LLD 08:15 02:15 <LLD (LLD (LLD <LLD <LLD <LLD (LLD <LLD 08:30 02:30 (LLD <<LLD <LLD <LLD <LLD <LLD (LLD <LLD 08:45 02:45 <LLD (LLD (LLD (LLD (LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD <LLD (LLD (LLD <LLD 09:15 03:15 <LLD (LLD <LLD <LLD (LLD <LLD (LLD <LLD 09:30 03:30 (LLD <LLD <LLD <LLD <LLD (LLD (LLD '<LLD 09:45 03:45 (LLD <LLD <LLD (LLD <LLD (LLD <LLD ~ <LLD 10:00 04:00 <LLD (LLD <LLD <LLD <LLD (LLD <LLD <LLD 10:15 04:15 (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:30 04:30 (LLD <LLD <LLD (LLD <LLD (LLD <LLD <LLD 10:45 04:45 (LLD <LLO <LLD (LLD <LLD <LLO <LLD <LLD 11:00 05:00 <LLD (LLD <LLD (LLD <LLD <LLD <LLD <LLD 11:15 05:15 (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:30 05:30 <LLD <LLD <LLD (LLD <LLD (LLD <LLD <LLD 11:45 05:45 (LLD <LLD <LLD (LLD <LLD <LLD (LLD <LLD 12:00 06:00 (LLD (LLD (LLD (LLD <LLD <LLD <LLD <LLD 12:15 06:15 <LLD <LLD <LLD (LLD <LLD <LLD <LLD <LLD 12:30 06:30 <LLD (LLD <LLD <LLD <LLD <LLD (LLD <LLD 12:45 06:45 (t LD <LLD <LLD (LLD <LLD <LLD <LLD <LLD 13:00 07:00 <LLD <LLD <LLD (LLD (LLD <LLD <LLD <LLD 13:15 07:15 <LLD <LLD (LLD (LLD (LLD <LLD <LLO <LLD 13:30 07:30 (LLD (LLD <LLD (LLD <LLD <LLD (LLD <LLD 13:45 07:45 (LLD (LLD <LLD (LLD <LLD <LLD (LLD <LLD 14:00 08:00 (LLD (LLD (LLD <LLD <LLD <LLD <LLD <LLD 7.8.2-13

0 Contamination Levels Nine Mile Point Unit 2 (dpm/1 00cm "2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Real Time 06:00 Drill Time 00:00 <LLD <LLD <LLD <LLD Reactor Building

<LLD <LLD 115'0

<LLD <LLD <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:45 00:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:15 01:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD <LLD <LLD <LLD cLLD <LLD <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD -

<LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD .<LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD ~ <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD - <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:45 04:45 1.3E+1 9.5E+1 9.4E+0 6.5E-1 1.9E+0 8.2E-7 8.4E-10 3.2E-1 -<LLD 1.5E+0 11:00 05:00 3.8E+1 2.0E+2 2.8E+1 3.3E+0 6.6EI0 1.6E-6 1.6E-9 2.5E+0 5.8E+0 8.0E-4 4.1'.1E+0 11:15 05:15 7.6E+1 3.1E+2 5.6E+1 7.6E+0 1.4E+1 2.3E-6 2.4E-9 6.3E+0 1.8E+1 1.3E+1 1.2E-3 11:30 05:30 1.3E+2 4.2E+2 9.1E+1 1.4E+1 2.4E+1 3.0E-6 3.1E-9 1.2E+1 3.5E+1 2.2E+1 1.5E-3 11:45 05:45 1.8E+2 5.BE+2 1.3E+2 2.2E+1 3.7E+1 5.6E-2 2.5E-2 1.9E+1 5.9E+1 3.4E+1 1.7E+0 12:00 06:00 2.1E+3 3.0E+4 1.6E+3 3.6E+2 7.1E+2 5.0E-1 2.8E-1 2.7E+2 5.1E+2 2.1E+2 6.0E+1 12:15 06:15 5.8E+3 8.BE+4 4.6E+3 1.0E+3 2.0E+3 1.2E+0 5.3E-1 7.5E+2 1.4E+3 5.5E+2 1.7E+2 12:30 06:30 -1.1E+4 1.7E+5 8.BE+3 2.0E+3 3.9E+3 2.3E+0 7.7E-1 1.4E+3 2.6E+3 1.0E+3 3.4E+2 12:45 06:45 2.9E+4 4.5E<5 2.3E+4 3.7E+3 7.9E+3 1.0E+1 1.0E+0 3.0E+3 4.9E+3 2.9E+3 5.8E+2 13:00 07:00 4.9E+4 7.6E+5 3.8E+4 .5.6E+3 1.2E+4 1.8E+1 1.2E+0 4.7E+3 7.6E+3 4.8E+3 8.6E+2 13:15 07:15 7.3E+4 1.1E+6 5.7E+4 7.9E+3 1.8E+4 2.9E+1 1.4E+0 6.8E+3 1.1E+4 7.2E+3 1.2E+3 13:30 07:30 9.1E+4 1.4E+6 7.1E+4 9.8E+3 2.2E+4 3.6E+1 1.7E+0 8.5E+3 1.3E+4 9.0E+3 1.5E+3 13:45 07:45 5 1.7E+6 8.4E+4 1.1E+4 2.6E+4 4.4E+1 1.9E+0 9.8E+3 1.5E+4 . 1.1E+4 1.7E+3 14:00 08:00 1.2E+5 1.9E+6 9.4E+4 1.2E+4 2.8E+4 4.9E+1 2.1E+0 1.1E+4 1.7E+4 1.2E+4 1.BE+3

'.8.3-1

Contamination Levels Nine Mile Point Unit 2 (dpml 1 00cm "2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Real Reactor Building 196'2 Time Time 13 06:00 00:00 <LLD <LLD <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLD <LLD 06:45 00:45 <LLD <LLD <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD <LLD <LLD 07:15 01:15 <LLD <LLD <LLD <LLD <LLD 07:30 01:30 <LLD <LLO <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLO <LLD 08:00 02:00 <LLD <LLD <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLO <LLD 09:00 03:00 <LLD <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD <LLD <LLD 10:45 04:45 9.4E+0 8.2E-7 8.4E-10 -<LLD 4.5E+0 11:00 05:00 2.8E+1 1.6E-6 1.6E-9 5.9E-1 1.8E+1 11:15 05:15 5.6E+1 2.3E-6 2.4E-9 4.3E+0 4.0E+1 11:30 05:30 9.1E+1 3.0E-6 3.1E-9 1.1E+1 7.0E+1 11:45 05:45 1.3& 2 5.6E-2 2.5E-2 2.0E+1 1.1E+2 12:00 06:00 1.6E+3 5.0E-1 2.8E-1 7.3E+1 8.8E+2 12:15 06:15 4.6E+3 1.2E+0 5.3E-1 1.7E+2 2.3E+3 12:30 06:30 8.BE+3 2.3E+0 7.7E-1 3.0E+2 4.5E+3 12:45 06:45 2.3E+4 1.0E+1 1.0E+0 5.0E+2 1.2E+4 13:00 07:00 3.8E+4 1.8E+1 1.2E+0 7.5E+2 2.0E+4 13:15 07:15 5.7E+4 2.9E+1 1.4E+0 1.0E+3 3.0E+4 13:30 07:30 7.1E+4 3.6E+1 1.7E+0 1.3E+3 3.7E+4 13:45 07:45 8.4F+4 4.4E+1 1.9Ei 0 1.4E+3 4.4E+4 14:00 08:00 9.4E+4 4.9E+1 2.1E+0 1.6E+3 4.9E+4 7.8.3-2

Contamination Levels Nine Mile Point Unit 2 (dpm/100cm*2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Real Doll Reactor Building 215'ime Time 14 15 16 17 18 06:00 00:00 <LLD <LLD <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLD <LLD 06:45 00:45 <LLD <LLD <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD <LLD <LLD 07:15 01:15 <LLD <LLD <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD 'LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD <LLD <LL0 08:15 02:15 <LLD <LLD <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD <LLD, 10:00 04:00 <LLD <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD <LLD <LLD 10:45 04:45 1.3E+1 9.3E+1 2.4E+0 4.7E+1 3.9E+3 11:00 05:00 4.3E+1 2.0E+2 8.9E+0 1.0E+2 6.9E+3 11:15 05:15 9.1E+1 3.1E+2 1.9E+1 1.7E+2 9.1E+3 11:30 05:30 1.5E+2 4.4E+2 3.3E+1 2.4E+2 1.1E+4 11:45 05:45 2.3E+2 6.1E+2 5.0E+1 3.2E+2 1.2E+4 12:00 06:00 2.7E+3 5.6E+4 6.3E+2 1.6E+4 1.8E+4 12:15 06:15 7.4E+3 1.6E+5 1.7E+3 4.6E+4 2.9E+4 12:30 08:30 1.4E+4 3.2E+5 3.4E+3 9.1E+4 4.4E+4 12:45 08:45 3.7E+4 5.8E+5 8.3E+3 1.8E+5 7.9E+4 13:00 07:00 .6.2E+4 8.BE+5 1:4E+4 2.9E+5 1.2E+5 13:15 07:15 9.3E+4 1.2E+6 2.0E+4 4.2E+5 1.6E+5 13:30 07:30 1.2E+5 1.5E+6 2.5E+4 5.2E+5 2.0E+5 13:45 07:45 1.4E+5 1.BE+6 3.0E+4 6.0E+5 2.3E+5 14:00 08:00 1.5E+5 1.9E+6 3.3E+4 6.6E+5 2.5E+5

'.8.3-3

Contamination Levels Nine Mile Point Unit 2 (dpm/1 00cm"2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Real Drill Reactor Building 240'ime Time 19 20 21 22 06:00 00:00 <LLD (LLD <LLD (LLD 06:15 00:15 <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLD 06:45 00:45 <LLD <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD <LLD 07:15 01:15 <LLD (LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD (LLD 08:30 02:30 <LLD <LLD <LLD <LLD 08:45 02'45 <LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD 'LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD 09:45 03:45 (LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD (LLD'LLD 10:30 04:30 <LLD <LLD <LLD 10:45 04:45 9.2E-10 1.9E+1 9.5E+1 8.0E-7 11:00 05:00 1.8E-9 5.3E+1 2.0E+2 1.5E-6 11:15 05:15 2.6E-9 1.0E+2 3.1E+2 2.3E-6 11:30 05:30 3.4E-9 1.7E+2 4.2E+2 2.9E-6 11:45 05:45 ,1.6E-1 1.2E+3 5.9E+2 5.6E-2 12:00 06:00 2.3E+1 9.BE+4 2.1E+4 2.8E+0 12:15 06:15 6.8E+1 2.9E+5 6.0E+4 8.1E+0 12:30 06:30 1.3E+2 5.6E+5 1.2E+5 1.6E+1 12:45 06:45 2.6E+2 1.6E+6 4.0E+5 2.5E+1 13:00 07'00 4.0E+2 2.6E+6 7.0E+5 3.6E+1 13:15 07:15 5.8E+2 3.9E+6 1.1E+6 4.9E+1 13:30 07'30 7.1E+2 4.9E+6 1.4E+6 5.9E+1 13:45 07:45 8.3E+2 5.8E+6 1.6E+6 6.7E+1 14:00 08:00 9.1E+2 6.5E+6 1.8E+6 7.3E+1 7.8.3-4

Contamination Levels Nine Mile Point Unit 2 (dpm/1 00cm "2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Real Drill Reactor Building 261'ime Time 23 24 06:00 00:00 <LLD <LLD 06:15 00:15 <LLD <LLD 06:30 00:30 <LLD <LLD 06:45 00:45 <LLD <LLD 07:00 01:00 <LLD = <LLD 07:15 01:15 <LLD <LLD 07:30 01:30 <LLD <LLD 07:45 01:45 <LLD <LLD 08:00 02:00 <LLD <LLD 08:15 02:15 <LLD <LLD 08:30 02:30 <LLD <LLD 08:45 02:45 <LLD <LLD 09:00 03:00 <LLD <LLD 09:15 03:15 <LLD <LLD 09:30 03:30 <LLD <LLD 09:45 03:45 <LLD <LLD 10:00 04:00 <LLD <LLD 10:15 04:15 <LLD <LLD 10:30 04:30 <LLD <LLD 10:45 04:45 4.3E+1 1.1E+2 11:00 05:00 1.1E+2 2.3E+2 11:15 05:15 2.0E+2 3.6E+2 11:30 05:30 3.0E+2 5.0E+2 11:45 05:45 3.5E+5 7.0E+2 12:00 06:00 1.2E+6 1.9E+5 12:15 06:15 2.6E+6 1.0E+6 12:30 06:30 4.5E+6 2.0E+6 12:45 06:45 1.9E+7 3.7E+6 13:00 07:00 3.5E+7 5.9E+6 ~

13:15 07:15 5.4E+7 8.4E+6

.13:30 07:30 6.8E+7 1.0E+7 13:45 07:45 8.1E+7 1.2E+7 14:00 08:00 9.2E+7 1.3E+7

'.8.3-5

Contamination Levels Nine Mile Point Unit 2 (dpm/1 00cm"2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Real Drill Reactor Building 289'ime 25 26 06:00 00:00 <LLD <LLD 06:15 00:15 <LLD <LLD 06:30 00:30 <LLD <LLD 06:45 00:45 (LLD <LLD 07:00 01:00 <LLD <LLD 07:15 01:15 <LLD <LLD 07:30 01:30 <LLD <LLD 07:45 01:45 <LLD <LLD 08:00 02:00 <LLD <LLD 08:15 02:15 <LLD <LLD 08:30 02:30 <LLD <LLD 08:45 02:45 <LLD <LLD 09:00 03:00 <LLD <LLD 09:15 03:15 <LLD <LLD 09:30 03:30 <LLD <LLD 09:45 03:45 <LLD <LLD 10:00 04:00 <LLD <LLD 10:15 04:15 <LLD <LLD 10:30 04:30 <LLD <LLD 10:45 04:45 8.6E+1 6.5E+1 11:00 05:00 1.7E+2 1.3E+2 11:15 05:15 2.6E+2 2.1E+2 11:30 05:30 3.4E+2 2.9E+2 11:45 05:45 5.2E+2 4.2E+2 12:00 06:00 2.2E+4 5.3E+4 12:15 08:15 6.3E+4 1.5E+5 12:30 06:30 1.2Ei5 3.0E+5 12:45 06:45 2.0E+6 8.0E+5 13:00 07:00 3.9E+6 1.3E+6-13:15 07:15 6.2E+6 2.0E+6 13:30 07:30 8.0E+6 2.5E+6 13:45 07:45 9.7E+6 2.9E+6 14:00 08:00 1.1E+7 3.3E+6 7.8.3-6

Contamination Levels Nine Mile Point Unit 2 (dpm/1 00cm"2) Site Emergency Exercise Scenario 41 Rev. 0 Tabte 7.8.3 Real Drill Reactor Buiiding 306'7 Time Time 28 06:00 00:00 <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD 06:45 00:45 <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD 07:15 01:15 <LLD (LLD <LLD 07:30 01:30 <LLD <LLD <LLD 07:45 01:45 <LLD (LLD <LLD 08:00 02:00 <LLD <LLD <LLD 08:15 02:15 <LLD (LLD <LLD 08:30 02:30 <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD 10:15 04:15 <LLD (LLD <LLD 10'30 04'30 <LLD <LLD <LLD 10:45 04:45 3.7E+1 8.2E+1 1.3E+3 11:00 05:00 9.2E+1 1.7E+2 2.2E+3 11:15 05:15 1.7E+2 2.BE+2 2.BE+3 11:30 05:30 2.6E+2 3.9E+2 3.1E+3 11:45 05:45 3.6E+2 5.0E+2 3.3E+3 12:00 06:00 1.BE+4 1.2E+4 1.6E+4 12:15 06:15 4.6E+4 3.4E+4 3.9E+4 12:30 06:30 B.SE+4 6.5E+4 7.4E+4 12:45 06:45 2.4E+5 1.7E+5 1.9E+5 13:00 OT:00 3.9E+5 2.SE+5 3.2E+5 13:15 07:15 5.9E+5 . 4.3E+5 4.7E+5 13:30 07:30 =

7.3E+5 5.4E+5 5.SE+5 13:45 07:45 8.7E+5 6.3E+5 7.0E+5 14:QO 08:QO 9.BE+5 T.OE+5 7.7E+5

~

7.8.3-7

Contamination Levels Nine Mile Point Unit 2 (dpm/1 00cm "2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Reel Drill Reactor Building 328'ime Time 30 31 32 OB:00 00:00 <LLD <LLD <LLD OB:15 00:15 <LLD <LLD <LLD OB:30 00:30 <LLD <LLD <LLD 08:45 00:45 <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD 07:15 01:15 <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD 09:45 03:45 <L'LD <LLD <LLD 10:00 04:00 <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD 10:30 04:30 <<LLD <LLD <LLD 10:45 04:45 2.1E+1 1.0E+2 1.1E+2 11:00 05:00 5.7E+1 2.2E+2 2.3E+2 11:15 05:15 1.1E+2 3.5E+2 3.6E+2 11:30 05:30 1.BE+2 4.BE+2 4.9E+2 11:45 05:45 2.5E+2 6.1E+2 6.2E+2 12:00 06:00 2.0E+3 2.3E+4 2.6E+4 12:15 08:15 5.4E+3 6.8E+4 7.6E+4 12:30 08:30 1.0E+4 1.3E+5 1.5E+5 12:45 08:45 2.7E+4 3.5E+5 3.9E+5 13:00 07:00 4.5E+4 5.BE+5 6.5E+5 13:15 07:15 6.7E+4 8.6E+5 9.8E+5 13:30 07:30 8.4E+4 1.1E+6 1.2E+6 13:45 07:45 9.9E+4 1.3E+6 1.4E+6 14:00 08:00 1.1E+5 1.4E+6 1.6E+6 7.8.3-8

Contamination Levels Nine Mile Point Unit 2 (d pm/100cm "2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Real Drttt Reactor Building 353'ime Time 33 06:00 00:00 <LLD 06:15 00:15 <LLD 06:30 00:30 <LLD 06:45 00:45 <LLD 07:00 01:00 <LLD 07:15 01:15 <LLD 07:30 01:30 <LLD 07:45 01:45 <LLD 08:00 02:00 <LLD 08:15 02:15 <LLD 08:30 02:30 <LLD 08:45 02:45 <LLD 09:00 03:00 <LLD 09:15 03:15 <LLD 09:30 03:30 <LLD 09:45 03:45 <LLD 10:00 04:00 <LLD 10:15 04:15 <LLD 10:30 04:30 <LLD 10:45 04:45 4.4E+2 11:00 05:00 9.1E+2 11:15 05:15 1.4E+3 11:30 05:30 1.9E+3 11:45 05:45 2.7E+3 12:00 06:00 1.5E+5 12:15 06:15 4.3E+5 12:30 06:30 8.4E+5 12:45 06:45 2.2E+6 13:00 07:00 3.6E+6 13:15 07:15 ~ 5.4E+6 13:30 07:30 6.8E+6 13:45 07:45 8.0E+6 14:00 08:00 8.9E46

'.8.3-9

0 Contamination Levels Nine Mile Point Unit 2 (d pm/100cm "2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Real Drill Turbine Building Time Time 250'LLD 10 06:00 00:00 <LLD (LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:15 00:15 (LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:30 00:30 (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:45 00:45 <LLD <LLD <LLD <LLD (LLD (LLD <LLD (LLD <LLD <LLD <LLD 07:00 01:00 (LLD <LLD <LLD <LLD (LLD =

<LLD <LLD <LLD <LLD <LLD <LLD 07:15 01:15 (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLO <LLD (LLD (LLD 'LLD <LLD <LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:00 02:00 <LLD (LLD <LLD <LLD'LLD

<LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:15 02:15 <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:30 02:30 (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD ~. <LLD <LLD <LLD <LLD <LLD . <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD (LLD <LLD <LLD 09:30 03:30 (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:00 04:00 <LLD <LLD <LLO <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLO <LLD <LLD <LLO <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:45 04:45 (LLD <LLD <LLD <LLD <LLO <LLD <LLD <LLD <LLD <LLD <LLD 11:00 05:00 (LLD <LLD <LLD <LLD <LLD <LLD <LLO <LLD <LLD <LLD <LLD 11:15 05:15 <LLO <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:30 05:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:45 05:45 (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLO 12:00 06:00 <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:15 06:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:30 06:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:45 06:45 (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:00 07:00 <LLD <LLD <LLD . <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 1 3:15 07:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:30 07:30 <LLD <LLD <LLD <LLO <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:45 07:45 <LLD <LLD <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD 14:00 08:00 <LLD (LLD <LLD <LLD (LLD <LLD (LLD <LLD <LLD <LLD <LLD

'7.8.3-10

Contamination Levels Nine Mile Point Unit 2 (dpm/1 00cm"2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Real Drill Turbine Building 277'est Time Time 12 13 24 25 06:00 00:00 <LLD <LLD <LLD (LLO 06:15 00:15 <LLD (LLD (LLD (LLD 06:30 00:30 <LLD (LLD (LLD (LLD 06:45 00:45 <LLD <LLD <LLD (LLD 07:00 01:00 (LLD <LLD <LLD (LLD 07:15 01:15 (LLO (LLD (LLD (LLD 07:30 01:30 <LLD <LLD <LLD (LLD 07:45 01:45 <LLD <LLD <LLD (LLD 08:00 02:00 (LLD <LLD <LLD (LI D 08:15 02:15 <LLD <LLD <LLD <LLD 08:30 02:30 (LLD <LLD <LLD - (LLD 08:45 02:45 <<LLD <LLO <LLD (LI D 09:00 03:00 <LLD (LLD <LLD (LLD 09:15 03:15 (LLD <LLO <LLO <LLO 09:30 03:30 <LLD (LLD <LLD <LLD 09:45 03:45 (LLD (LLD <LLD (LLD 10:00 04:00 <LLD <LLD <LLD <LLD 10:15 04:15 <LLD <LLD <LLD= (LLD 10:30 04:30 <LLD <LLD <LLD (LLD 10:45 04:45 <LLD <LLD <LLD (LLD 11:00 05:00 <LLD <LLD <LLD <LLD 11:15 05:15 <LLD <LLD <LLD <LLD 11'30 05'30 <LLD <LLD <LLD (LLD 11:45 05:45 <LLD <LLO <LLO <I.LO 12:00 06:00 <LLD <LLD <L'LD <LLD 12:15 06:15 <LLD <LLD <LLD (LLD 12:30 06'30 <LLD <LLD <LLD <LLD 12:45 06:45 <LLD <LLD <LLD <LLD 13:00 07:00 <LLD (LLD <LLD (LLD 13'15 07'15 <LLD <LLD <LLD <ILD 13:30 07:30 <LLD <LLD <LLD <LI D 13:45 07:45 <LLD <LLD <LLD <I LO 14:00 08:00 <LLD <LLD <LLD <LI D

'7.8.3-11

0 Contamination Levels Nine Mile Point Unit 2 (dpm/1 00cm"2) Site Emergency Exercise Scenario 4$ Rev. 0 Table 7.8.3 Real Drill Turbine Building 277'ast Time Time 14 17 18 19 20 21 22 35 06:00 00:00 <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:15 00:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:45 00:45 <LLD (LLD <LLD <LLD <LLD (LLD (LLD <LLD <LLD <LLD 07:00 01:00 <LLD <LLD (LLD <LLD <LLD <LLD <LLD (LLD <LLD <LLD 07:15 01:15 <LLD <LLD <LLD <LLD <LLD (LLD <LLD <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:45 01:45 <LLD <LLD (LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD <LLD <LLD (LLD <LLD <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:45 03:45 <LLO <LLD <LLD <LLD <LLD <LLD <LLD <LLD ~ <LLD <LLD 10:00 04:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <L'LD <LLD 10:15 04:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLO 10:45 04:45 <LLD <LLD <LLD (LLD <LLD (LLD <LLD <LLD <LLD <LLD 11:00 05:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:15 05:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:30 05:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:45 05:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:00 06:00 <LLD <LLD ~

<LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:15 06:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD (LLD <LLD 12:30 06:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:45 06:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:00 07:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:15 07:15 <LLD <LLO <U O <LLO <LLD <LLD <LLD <LLD <LLD <LLD 13:30 07:30 <LLD <LLD <LLD <LLD <LLD <LLD <l.LO <LLO <LLD <LLD 13:45 07:45 <LLD <LLO <LLD <LLD <LLD <LLD <LLD <Lt D <LLD <LLD 14:00 08:00 <LLD <LLO <LLD <LLO <LLD <LLD <LLD <LLD <LLO

'7.8.3-12

Contamination Levels Nine Mile Point Unit 2 (dpm/100cm "2) Site Emergency Exercise Scenario 41 Rev. 0 Table 7.8.3 Real Drill Turbine Building 306'ime Time 26 27 28 29 30 31 32 33 06:00 00:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD.

06:15 00:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:30 00:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 06:45 00:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:00 01:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:15 01:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 07:30 01:30 <LLD <LLD <LLD <LLD <LLD 'LLD <LLD <LLD 07:45 01:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:00 02:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:15 02:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:30 02:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 08:45 02:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:00 03:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:15 03:15 <LLD <LLD <LLD .<LLD <LLD <LLD <LLD <LLD 09:30 03:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 09:45 03:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD * <LLD 10:00 04:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD . <LLD 10:15 04:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:30 04:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 10:45 04:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:00 05:00 <LLD <LLD <LLD <LLO <LLO <<LLO <LLD <LLD 11:15 05:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:30 05:30 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 11:45 05:45 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:00 06:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:15 06:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 12:30 06:30 <LLD <LLD <LLD <LLD <LLO <LLD <LLD <LLD 12:45 06:45 <t Lo <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:00 07:00 <LLD <LLD <L D <LLD <LLD <LLD <LLD <LLD 13:15 07:15 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 13:30 07:30 <LLD <LLD <LLD <t.LO <LLO <LLO <LLD <LLD 13:45 07:45 <LLD <LLD <LLD <LLO <LLO <Lt O <LLD <LLD 14: 08:00 <LLD <LLD <LLD <LLD <LLD <LLD <LLD <LLD 7.8.3-13

Nine Mile Point Unit 2 Site Ernerscncy Exercise Scenario No 41, Rev. 0 (HEAL)

NOTE:

This data was developed using methods other than the Unit 2 simulator. Any expected actions such alarms or system actuations that would be expected to occur should be verified and or effected when the associated setpoint is reached according to the data table provided.

NOTE: Chemistry data should be provided'as follows:

1. Log time sample is requested.
2. Add one hour to time logged, and use the sample analysis for this time as the time sample was collected.
3. Provide TSC Staff with the analysis for sample collected in step 2, 30 minutes after the time it was collected.

Example: Sample requested: 1000 Sample simulated to have been collected: 1100 Sample analysis provided to TSC staff: 1130

'able 8.1 Nine Mile'Point Unit 2 Reactor Water Sam le Anal sis Exercise Scenario 41 REACTOR WATER SAMPLE DATA Real Time: 6:15 6:30 6:45 7:00 7:15 7:30 Drill Time: 0:00 0:15 0:30 0:45 1:00 1:15 1:30 Concentration uCl/cc

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr<3m

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr5m Kr-85 <LLD <LLD <LLD <LLD <LLD <LLD <<LLD

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr<7 Kr-88 <LLD <LLD <LLD <LLD <LLD 'LLD Kr-89 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-131m <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-133m <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-133 <LLD <LLD ~ <<LLD <LLD <LLD <LLD <LLD Xe-135 <LLD <LLD <LLD <LLD <LLD <LLD Xe-135m '<LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-137 <<~~LD <LLD <LL J <LLD

<LL 33

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD Xe-138 <LLD <LLD <LLD Total Noble Gas uCI/cc <LLD <LLD <LLD <LLD <LLD <LLD <LLD I-131 2.3E-03 2.3E-03 2.3E-03 2.3E-03 2.3E-03 2.3E-03 2.3E-03 l-132 1.1E-01 1.1E-01 1.1E-O 1.1E-01 1.1E-01 1.1E-01 1.1E-01 1-133 3.0E-02 3.0E-02 3.0E-02 3.0E-02 3.0E-02 3.0E-02 3.0E-02 l-134 3.1E-01 3.1E-01 3.1E-01 3.1E-01 3.1E-01 3.1E-01 3.2E-01 l-135 ~5.4E-02 8.4E-02 84E 2 8.4E-02t 8.4E-02 8.5E-02 Total lodines uCi/cc 5.4E41 5.4E41 5.4E41 5.4E41 5.4E41 5.4E41 5.5E41 Cs-137 <LLD <LLD <LLD <LLD <LLD <LLD Te-132 <LLD <LLD <~LLD <L~LD <LLD <LL 7 <LLD Sr-89 <<LLD <LLD <LLD (LLD <<LLD <<LLD <LLD Sr-90 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Ba-140 <LLD <LLD <LLD <LLD <LLD <LLD <LLD La-140 <LLD <LLD <LLD <LLD <LLD <LLD <<LLD Total Particulates { uCi/c Jc <LLD <LLD <LLD <LLD 'LLD <LLD <LLD Xe133 DEC (uCi/cc} <LLD <<LLD <<LLDI <LLD <LLD <<LLD l131 DEC uCi/cc 3.4E+00 3.4E+00 3.4E+00 3.4E+00 3.4E+00 3'.4E+00 3.4E+00 Cs137 DEC (uCi/cc} <LLD <LLD <LLD <LLD <LLD <LLD <<LLD Gross Activity 5.4E41 5.4E41 5.4E4 5.4E41 I 5.4E41 I 5.4E41 I 5.5E41 Sample Sink Sample Sink II

~Sam le Data mR/hr Contact 3 feet 2.2E-02 5.3E-05 2.2E-02 5.3E-05K 2.2E-02 5.35-05~

2.2E-02 5.3E-O 2.2E-02 5.3E-05 2.2E-02 5.3E-05 2.3E-02 5.3E-05 Undiluted Sam le Contact 1.8E+01 1.BE+01 1.8E+01 1.8E+01 1.BE+01 1.8E+01 5 1.8E+01 Undiluted Sample e 2 feet 1.2E-02 1.2E-02 1.2E-02 1.2E-02 5.2E-02 1.2E-02 4.7E-02 1 1.2E-02 4.7E-02 Undiluted Sample in small cask O contac 4.7E-02 4.7E-02 4.7E-02 4.7E-02 4.7E-O Undiluted Sam le in small cask 2 feet 8.1E-04 8.1E-04 8.1E-04 8.1E-04 8.1E-04 8.1E-04 8.2E-04 Undiluted Sample in large cask O contact 1.5E-07 1.5E-07 1.5E-07 1.5E-07 1.5E-07 1.5E-07 1.5E-07 Undiluted Sample in large cask 2 feet 1.8E-08 1.8E-08 1.8E-08 1.8E-08 1.8E-08 1.8E-08 1.8E-08 1.8E-01 Diluted Sam Diluted Sample le I Contact 2 feet Diluted Sample in small cask O contact 1.8E-01 4.7E-04 1.8E-01 1.2E-04~~ 2E-04 4.7E-04 1.8E-01 1.2E-04 4.7E-04 1.8E-01 1.2E-04 4.7E-04 1.8E-01 4.7 04 1.8E-01 1.2E-04 4.75-0~4 1.2E-04 4.7E-04 Diluted Sam le in small cask 2 feet 8.1E-06 8.1E-06 8.1E-06 8.1E-06 8.1E-06 8.1E-06 8.2E-06 Diluted Sample in large cask O contact 1.5E-09 1.5E-09 1.5E-09 1.5E-09 1.5E-09 1.5E-09 1.5E-09 Diluted Sam le in larae cask 2 feet . 1.8E-10 1.8E-10 1.8E-10 1.8E-10 1.8E-10 8.1-1

Table 8.1 Nine Mile Point Unit 2 Reactor Water Sam le Anal sis Exercise Scenario 41-REACTOR WATER SAMPLE DATA 8:00 8:15 8:30 8:45 9.'00 9:15 Real Time: 7:45 Drill Time: 1:45 2.'00 2:15 .2:30 2:45 3:00 3:15 Concentration uCI/cc

<LLD <<LLD <LLD <LLD <LLD Kr-83m Kr-85m <LLD <LLD <LLD <<LLD <LLD <LLD <LLD Kr-85 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-87 <LL J <LLD <<LLD <LLD <LLD <LLD <LLD Kr-88 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-89 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-131m <LLD <LLD <L~LD <LLD <LLD <LLD <LLD Xe-133m <LLD . <<LLD <LLD <LLD <LLD <LLD '<LLD Xe-133 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-135 <LLD <LLD 'LLD <LLD <LLD <LLD <LLD Xe-135m <LLD <LLD <LLD <L'LD <LLD <LLD <<LLD Xe-137 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-138 <LLD <LLD <LLD <LLD <LLD -<LLD Total Noble Gas uCI/cc <LLD <LLD <<LLD <LLD LD <LLD <LLD l-131 2.3E-03 2.3E-03 2.3E-03 2.3E-03 2.3E-03 2.3E-03 2.3E-03 l-132 1.1E-01 1.1E-01 1.1E-01/ 1.1E-01 1.1E-01 1.1E-01 1.1E-01 I-133 3.0E-02 3.0E-02 3.0E-02 3.0E-02 3.0E-02 3.0E-02 3.0E-02 I-134 3.2E-01 3.2E-01 3.2E-01 3.2E-01 3.1E-01 3.1E-01 3.1E-01 I-135 8.5E-02 8.5E-02 8.5E-02] 8.5E-02 8.4E-02 8.5E-02 8.4E-02 Total lodines uCi/cc 5.5EC1 5.5EC1 5.5E41 5.5EC1 5.4EN1 5.4EC1 5.4E41 Cs-137 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Te-132 <LLD <LLD <<LLDJ <<LLD <LLD (LLD <LLD Sr-89 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Sr-90 <LLD <LLDI <LLD <LLD <<LLD <LLD <LLD Ba-140 <LLD <LLD <LLD <LLD <LLD <LLD La-140 <LLD <LLD <LLD <LLD (LLD <LLD <LLD Total Particulates ( uCI/cc) <LLD <LLD <LLD <LLD <LLD <<LLD <LLD Xe133 DEC (uCI/ccrc <LLD <LLD <LLD <LLD <LLDL <LLD <LLD 1131 DEC uCi/cc 3.4E+00 3.4E+00 3.4E+00 3.4E+00 3.4E+00 3.4E+00 3.4E+00 Cs137 DEC (uCI/cc} <LLD <LLD <LLD <LLD <LLD <<LLDI <LLD Gross Activity 5.5E<1 5.5EC1 5.5E~~1 5.5EW1 5.4E1 5.4EZ1l 5.4E-01 Sam le Data mR/hr Sample Sink O Contact 2.3E-02 2.3E-02 2.3E-02 2.3E-02 22E 02 2.2E-02 i 2.2E-02 Sample Sink O 3 feet ~5.3E-05J 5.3E-05 5.3E-O 5.3E-05 5.3E-05 5.3E-05 5.3E-05 Undiluted Sam le Contact 1.BE+01 1.BE+01 1.BE+01 1.BE+01 1.BE+01 1.BE+01 1.BE+01 Undiluted Sample O 2 feet 1.2E-02 1.2E-02 1.2E-02 1.2E-02 1.2E-02 1.2E-02 1.2E-02 Undiluted Sample in small cask O contac 4.7E-02 4.7E-O J 4.7E-02 4.7E-02 4.7E-02 4.7E-02 4.7E-02 Undiluted Sam le in small cask 2 feet. 8.2E-04 8.2E-04 8.2E-04 8.2E-04 8.1E-04 8.2E-04! 8.1E-04 Undiluted Sample in large cask O contact 1.5E-07l 1.5E-07 1.5E-07 1.5E-07 1.5E-07 I 1.5E-07 I 1.5E-O?

Undiluted Sample in large cask O 2 feet 1.8E-OBI 1.8E-OB 1.8E-081.8E-OB 1.8E-OBj 1.8E-OBI 1.8E-OB Diluted Sam le Contact 1.8E-01 I 1.8E-01 1.8E-01 1.8E-01 1.8E-01 I 1.8E-01 i 1.8E-01 Diluted.Sample O 2 feet 1.2E-04 I 1.2E-04 1.2E-04 1.2E-04 1.2E-04 I 1.2E-04 I 1.2E-04 Diluted Sample in small cask O contact 4.7E-04l 4.7E-OJ 4.7E-04 4.7E-04 4.7E-0~4 4,7E-04l 4.7E-04 iluted Sam le in small cask 2 feet 8.2E-06I 8.2E-06 8.2E-06 8.2E-06 8. 1E-06 8.2E-06 I 8.1E-06 iluted Sample in large cask contact 1.5E-09 I 1.5E-09I 1.5E-09 1.5E-09 1.5E-09 1.5E-09I 1.5E-09 iluted Sam le in laroe cask 2 feet 1.8E-10! 1.8E-10l 1.8E-10 1.8E-10 1.8E-10 1.8E-10l 1.8E-10 8.1-2

~ ~

~

ggggi ~

gggi I ~ ~ I I e I

~ I I I I

~ ~

I ~ I I ~ ~ I I~ I ~

I ~

~ I ~ ~ I i I I ~ ~ I ~ I I',

I ~ I ~

~ ~

~ I 4 ~ ~ I ~ I I

~ ~

I~ I ~

I ~ I ~

~ ~

~I ~

I I

~ I ~ II ~ I

~ ~

I ~ I I~

~ ~ ~ '

~ ' ~ ~ i

~ ~ ~ ~

~ ' ~I ~

~ ~ ~ ~ ~I I ~ I~

0 ~ ~ ol ~ ~ I

~

~

~ ~ ~ ~>

~ ~ ~ ~

~ ~ I~

~ ~ ~ I ~ I ~

~ i

Table 8.1 Nine Mlle Point Unit 2 Reactor Water Sam le Anal sls Exercise Scenario 41 REACTOR WATER SAMPLE DATA Real Time: 11:15 11:30 11:45 12:00 12:15 12:30 12:45 Drill Time: 5:15 5:30 5:45 .6:00 6:15 6:30 6:45 Concentration uCi/cc Kr-83m <<LLD <LLD <LLD <LLD <LLD 3.0E+07 6.4E+07 Kr-85m 5.1E+05 5.0E+05 4.9E+06 4.BE+07 4.7E+07 1.2E+08 2.7E+08 Kr-85 1.3E+00 1.6E+00 1.BE+01 2.0E+02 2.2E+02 6.2E+02 1.6E+03 Kr-87 3.9E+05 3.4E+05 3.0E+06 2.7E+07 2 4E+07 5.7E+07 1.2E+08 Kr-88 9.7E+04 9.3E+04 8.9E+05 8.5E+06 8.1E+06 2.3E+08 5.1E+08 Kr-89 <LLD <LLD ~ <LLD <LLD <LLD <LLD <LLD Xe-131m 2.5E-02 2.9E-02 3.4E-01 3.9E+00 4.4E+00 3.2E-01 8.3E-01 Xe-133m 7.1E-01 8.5E-01 9.BE+00 1.1E+02 1.3E+02 9.1E+00 2 4E+01 Xe-133 4.3E+06 4.4E+06 4.4E+07 4.5E+08 4.6E+08 1 .4E+09 3.4E+09 Xe-135 6.4E+0 6.4E+05 6.4E+07 6.4E+07 1.9E+08 4.5E+08 Xe-135m 1.1E+04 5.BE+03 3.1E+04 1.7E+05 9.5E+04 1.2E+05 1.5E+05 Xe-137 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-138 1.1E+04 5.2E+03 2.5E+04 1.2E+05 6.0E+04 8.9E+04 1.0E+05 Total Noble Gas uCl/cc 5.9E+06 6.0E+06 6.0E+07 6.0E+08 6.0E+08 2.1E+09 4.8E+09 l-131 6.2E+02 6.3E+02 6.5E+03 6.6E+04 6.7E+04 4.4E+03 1.0E+04 l-132 5.6E+02 5.3E+02 5.0E+03 4.7E+04 4.5E+04 3.5E+03 8.1E+03 l-133 1.2E+03 1.3E+03 1.3E+04 1.3E+05 1.3E+05,. 8.5E+03 2.0E+04 l-134 3.7E+02 3.1E+02 2.6E+OJ 2.2E+0 1.BE+04 9.7E+02 1.9E+03 I-135 9.6E+02 9.6E+02 9.5E+0 I 9.4E+0 9.3E+04 l 5.BE+03 1.3E+04 Total lodines uCi/cc 3.BE+03 3.7E+03 3.6E+04 3.6E+05 3.5E+05 2.3E+04 5.4E+04 Cs-137 <LLD <LLD <LLD <LLD <LLD .1.3E+02 3.1E+02 Te 132 (LLD <LLD LLD <LLD <LLD 3.5E+03 Sr-89 <LLD <LLD <LLD <LLD <LLD 9.4E+02 2.2E+03 Sr-90 <<LLD cLLD . cL LD <LLD <LLD B.BE+02 2.1E+03 Ba-140 <LLD <LLD <LLD <LLD <<LLD 1.9E+03 La-140 <LLD <LLD <LLD <LLD <LLD 8.7E+01 2.2E+02 Total Particulates { uCi/cc} <LLD <<LLD (LLD (LLD 5.4E+03 1.3E+04 Xe133 DEC {uCi/cc} 2.BE+07 ~2.59+08 2.6E+07 2.4E+09 2.3E+09 1.9E+10 4.4E+10 l131 DEC uCi/cc 1.3E+04 1.2E+04 1.2E+05 1.1E+06 1.1E+06 7.2E+04 1.7E+05 Cs137 DEC {uCi/cc) <LLD <LLD <<LLD <LLD . <LLD 1.6E+03 3.9E+03 Gross Activity 6.0E+06 6.0E+06 6.0E+07 6.0E+08 6.0E+08 2.15+0~9 4.BE+09 Sam le Data mR/hr Sample Sink O Contact 2.9E+04 2.BE+04 2.7E+05 2.7E+0 J 2.6E+OJ6 1.5E+07 3.5E+07 Sample Sink O 3 feet 5.5E+01 5.3E+01 5.0E+03 4.BE+03 ~2.25+04 3.2E+04 Undiluted Sam le Undiluted Sample I Contact 2 feet Undiluted Sample in small cask O contac 1.6E+07 1.1E+OJ4

<LLDI 1.6E+07 1.0E+04

<LLD 1.5E+08 9.6E+04

<LLD 1.4E+09 9.2E++

1.4E+09

.8.9E+05

<LLD 1.0E+10 6.6E+06 1.1E+07 2.3E+10 1.5E+07 2.3E+07 Undiluted Sam le in small cask 2 feet <<LLD <<LLD <LLD <LLD <LLD 1.9E+05 4.2E+05 Undiluted Sa~mle in large cask Q contact <<LLD <<LLD <LLD (LLD (LLD 5.1E+00 8.9E+00 Undiluted Sample in large cask O 2 feet <LLD <<LLD <LL 5.4E 01 8.9E-01 Diluted Sam le Diluted Sample I Contact 2 feet Diluted Sample in small cask contact 1.6E+05 1.1E+02

<LLD 1.6E+05 1.0E+02

<LLD 1.5E+06 9.6E+02

<LLD 1.4E+07 9.2E+03

<LLD 1.4E+07 8.95~+03

<LLD 1.0E+08 6.6E+04 1.1E+05 2.3E+08 1.5E+05

~2.3E+05 iluted Sam le in small cask 2 feet <<LLD <LLD <LLD <LLD (LLD 1.9E+03 4.2E+03 iluted Sample in large cask O contact <<LLD <<LLD <LLD <LLD <<LLD 5.1E-02 8.9E-02 iluted Sample in larae cask 2 feet <<LLD <<LLD <<LLD <<LLD3 <<LLD 5.4E-03 8.9E-03 8.1-4

Table 8.1 Nine Mile Point Unit 2 Reactor Water Sam le Anal sis Exercise Scenario 41 REACTOR WATER SAMPLE DATA Real Time: 13:00 13:15 13:30 13:45 14:00 Drill Time: 7:00 7:15 .7:30 7:45 8:00 Concentration uCi/cc Kr-83m 1.1E+07 5.2E+06 4.9E+06 4.3E+05 4.0E+05 Kr-85m 4.6E+07 2.4E+07 2.4E+07 2.3E+06 2.2E+06 Kr-85 3.0E+02 1.8E+02 1.9E+02 1.9E+01 2.1E+01 Kr-87 1.9E+07 8.9E+06 7.9E+06 6.BE+05 6.0E+05 Kr-88 8.7E+07 4.4E+07 4.3E+07 3.9E+06 3.8E+06 Kr-89 <LLD <LLD <LLD <<LLD <LLD Xe-131m 1.6E-01 9.5E-02 1.0E-01 1.1E-02 1.2E-02 Xe-133m 4.6E+00 2.7E+00 2.9E+00 3.0E-01 3.2E-01 Xe-133 6.2E+08 3.GE+08 3.4E+08 3.4E+07 3.4E+07 Xe-135 8.0E+07 4.3E+07 4.3E~~?l 4.2E+06 4.1E+06 Xe-135m 1.4E+04 4.0E+03 2.2E+03 1.2E+02 7.1E+01 Xe-137 <LLD <LLD <LLD <LLD <LLD Xe-138 8.BE+03 2.3E+03 1.1E+03 5.3E+0 l 2.6E+01 Total Noble Gas uCi/cc 8.6E+08 4.6E+08 4.7E+08 4.5E+07 4.5E+07 l-131 1.9E+03 1.0E+03 1.0E+03 1.0E+02 1.0E+02 I-132 1.4E+03 7.3E+~2 7.2E+02 6.8E+01 6.6E+01 l-133 3.6E+03 1.9E+03 2.0E+03 1.9E+02 1.9E+02 I-134 2.BE+02 1.3E+02 1.1E+02 8.5E+00 7.0E+00 I-135 2.4E+03 1.3E+03 1.3E+03 1.2E+02 1.2E+02 Total lodines'Ci/cc 9.5E+03 5.1E+03 5.1E+03 4.9E+02 4.9E+02 Cs-137 5.7E+01 3.1E+01 3.2E+01 3.1E+00 3.1E+00 Te-132 6.3E+0 3. 4E~+02 3.5&02! 3.4E+01 3.5E+01 Sr-89 4.0E+02 2.2E+02 2.3E+02 2.2E+01 2.2E+01 Sr-90 3.8E+02 2 1E+02 2 1E+02 1E+01 Ba-140 8.0E+02 4.4E+02 5E+0 4.4E+01 4E+01 La-140 4.4E+01 2.6E+01 2.BE+01 2.9E+00 3.1E+00 2.3E+03 1.3E+03 1.3E+0 1.3E+02 1.3E+02 Xe133 DEC (uCi/cc} 3.8E+09 3.4E+08 3.3E+08 l131 DEC uCi/cc 2.9E+04 1.5E+04 1.5E+04 1.4E+03 1.4E+03 Cs137 DEC (uCi/cc) 7.1E+02 3.9E+02 4.1E+02 4.1E+0 4.2E+01 Gross Activity 8.6E+08 4.5E+0 4.5E+07 Sample Sink Sample Sink II Sam le Data mR/hr Contact 3 feet 6.0E+06 1.2E+04 3.1E+06 6.4E+03 3.1E+06 6.3E+03 2.9E+05 5.9E+07 2.8E+05 5.? E+02 1.9E+09 1.8E+08 1.7E+08 Undiluted Sample I 2 feet Undiluted Sample in small cask I contac 3.9E+09 2.5E+06 3.8E+06 2.0E+09 1.3E+06

~1.7E+0 1.9E+06 1.3E+06 1.2E+05 1.5E+05 1.1E+05 1.4E+05 Undiluted Sam le in small cask 2 feet 6.9E+04 3.4E+04 3.1E+04 2.8E+03 2.5E+03 Undiluted Sample in large cask Q contact 1.0E+00 2.8E-01 6.0E-03 <<LLD <LLD Undiluted Sample in large cask 2 feet 9.2E-02 1.6E-02 <LLD <LLD (LLD Diluted Sam le Contact 3.9E+07 2.0E+07 1.9E+07 1.BE+06 1.7E+06 Diluted Sample Q 2 feet Diluted Sample in small cask I contact 2.5E+04 3.BE+04 1.3E+04 1.9E+04 1.3E+0 1.2E+03 1.5E+03 1.1E+03 1.4E+03 Diluted Sam le in small cask Diluted Sample in large cask Diluted Sam le in large cask I 2 feet contact 2 feet 6.9E+02 1.0E-02 9.2E-O 3.4E+02 2.8E-03 1.6E-04 3.1E+02 6.0E-05 (LLD 2.8E+01 (LLDJ (LLD 2.5E+01 (LLD (LLD 8.1-5

~

~ II I II

~, ~ ~

~ ~

~ ~ .

~t ~

~I

~ ~

~I ~

~I

~ ~

~ ~

~ ~

~

'l ~

0 Table 8.2 Nine Mlle Point Urilt 2 D well Air Sam le Anal sis Exercise Scenario 41 DRYWELLAIR SAMPLE DATA Real Time: 7:45 8:00 8:15 8.'30 8:45 9:00 9:15 2:00 2:15 2:30 2:45 3:00 3:15 Drill Time: 1:45 .

Concentration uCl/cc

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-83m cLLD <LLD <LLD <LLD <LLD <LLD <LLD Kr5m Kr-85 <LLD <LLD ~

<LLD <LLD <LLD <LLD <LLD Kr-87 <LLD <<LL f <LLD <LLD <LLD <LLD <<LLD Kr-88 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-89 Xe-131m Xe-133m

<LLD

<LLD

~<<LLD~

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD Xe-133 <LLD <LLD ~ <LLD <LLD <LLD <LLD <LLD Xe-135 cLLD <LLD <LL0 <LLD <LLD <LL <LLD Xe-135m <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-137 cLLD <LLD <LLDL <LLD <LLD <LLD <LLD Xe-138 (LLD <LLD <LLD <LLD <LLD <LLD <LLD Total Noble Gas uCi/cc <LLD <LLD <LLD <LLD cLLD <LLD <LLD l-131 <LLD <LLD <LLD <LLD <LLD <LLD <LLD 1-132 <LLD <LLD <LLD <LLD <LLD <LLD <LLD 1-133 <LLD <LLD <LLD <LLD <LLD <LLD cLLD 1-134 <LLD <LLD <LLD <LLD <LLD (LLDj cLLD l-135 "<LLDI <LLD1 <LLD <LLD <LLD <LLD <LLD Total lodines uCi/cc <LLD <LLD <LLD <LLD <LLD <LLD <LLD Cs-137 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Te-132 (LLD <LLD <LLD <LLD <LLD <LLD <LLD Sr-89 <LLD <LLD (LLD <LLD <LLD <LLD <<LLD Sr-90 <LLD <LLD <LLD <LLD <LLD <LLD (LLD Sa-140 <LLD <L~LD <LLD <LLD <LLD <LLD La-140 <LLD <LLD <LLD <LLD cLLD (LLD <LLD Total Particulates ( uCi/c~c <LLD <LLD cLLD cLLD <LLD <LLD cLLD Xe133 DEC (uCi/cc} <LLD <l.LD <LLD <LLD <LLD <LLD <LLD l131 DEC uCi/cc <LLD <LLD <LLD <LLD <LLD <LLD <LLD Cs137 DEC (uCi/cc} <LLD <LLD <LLD <LLD <LLD <LLD Gross Activity <LLD <LLD <LLD <LLD <LLD <LLD <LLD Sample Sink Sample Sink II Sam le Data mR/hr Contact 3 feet

<LLD

<LLD

<LLD

<LLD

<LLD

<LLD

<LLDJ

<LLD

<LLD

<LLD

<<LLD

<LLD

<LLD

<LLD (LLD <LLD <LLD <LLDl <LLD <LLD Sam le Sample I Contact 2 feet Sample in small cask I contact (LLD

<LLD

<LLD (LLD (LLD

<LLD

<LLD

<<LLJO

<LLD

<LLD

<<LLD

<LLOYD

<LLD

<LLD

<LLD Sam le in small cask Sample in large cask Sample in large cask II 2 feet contact 2 feet

<LLD

<LLD

<LLD

<LLD

<LLD cLLD

<LLD

<LLD

<LLD

<LLD

'LLD

<LLD.

<LLD

<LLD~ (LL

<LLD

<LLD l

<<LLD

<LLD

<LLD Filter Pa er Contact . <LLD <LLD <LLD <LLD <LLD <LLDl <LLD Charcoal Cartridae Contact <LLD <LLD <LLB <LLD <LLD, <LLDl <LLD 8.2-2

0

~

~ II ~ II I ~ I ~ I ~ I ~

~

~

4 ~

I ~

~ ~

I

~ I I ~ I ~ I ~

~ ~ I

~ ~

~ I I

~ I I

~ ~ ~ ~

~

~

~ I

~ ~ .

~ ~ I I I

~ ~ I ~ I I'

~ ~ ~ I I

~ ' I I

~ ~

~ ~

~ '

~ ~ ~\

~ ~

~

'l ~ ~ I ~ I ~ I

Table 8.2 Nine Mile Point Unit 2 D well Air Sam le Aaal ala Exercise Scenario 41 DRYWELLAIR SAMPLE DATA 11:30 11:45 12:00 12:15 12:30 12:45 Real Time: 11:15 5:15 5:30 5:45 6:00 6:15 6:30 6:45 Drill Time:

Concentration uCl/cc

<LLD <LLD <LLD <LLD <LLD 4.8E-01 8.1E+01 Kr-83m 3.3E+00 3.5E 3.BE+00 4.0E+00 4.3E+00 1.9E+00 3.4E+02 Kr-85m 8.6E-06 1.1E-05 1.4E-05 1.7E-05 2.0E-05 1.0E-05 2.0E-03 Kr-85 2.55+00] ~2.45+00 2.3E+00 2.3E~~00 2.2E+00J 9.2E-01 1.5E+02 Kr-87 6.2E-01 6.4E-01 6.8E-01 7.1E-01 7.4E-O1I 3.7E+00 6.4E+02 Kr-88 Kr-89 Xe-131m Xe-133m

<LLD 1.6E-07 4.6E-06

<LLD 5.8E-06

<LLD 2.6E-07 7.5E-06

<LLD 3.3E-07 9.3E-06

~5.

<LLD 4.0E-07 1.1E-05

<LLD 1~~E09 1.5E-07

<LLD 1.0E-06 3.0E-05 Xe-133 2.7E+01 3.0E+01 3.4E+01 3.8E+01 4.2E+01 2.3E+01 4.3E+03 Xe-135 4.1E+0 J 4.4E+00 4.9E+00 5.4E+ Q 5.8E+00 3.1E+0~ 5.7E+02 Xe-135m 7.'1 E-02 4.0E-02 2.4E-02 1.4E-02 8.6E-03 2.0E-03 1.9E-01 Xe-137 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-138 6.8E-02 3.6E-02 1.9E-02 1.0E-02 5.5E-03 1.4E-03] 1.3E-01 Total Noble Gas uCi/cc 3.BE+01 4.1E+01 4.6E+01 5.0E+01 5.5E+01 3.3E+01 6.1E+03 l-131 4.0E-03 4.4E-03 4.9E-03 5.5E-03 i 6.1E-03 7.0E-05 1.3E-02 l-132 3~6E-03 3.7E-03 3.8E-03 4.1E-03 5.7E~ 1.0E-02 l-133 7.9E-03 8.6E-03 9.7E-03 1.1E-02 1.2E-02 1.4E-04 2.5E-02 1-134 2.4E-03 2.1E-03 2.0E-03 1.8E-03 1.6E-03 1.6E-05 2.4E-03 l-135 6;2E-03 6.6E-03 7.3E-03 7.9E-03 8.5E-03 9.4E-05 1.7E-02 Total lodines uCl/cc 2.4E2 2.5E42 2.8EC2 3.0EC 2EQ2 3.7EC4 6.BE<2 Cs-137 <LLD <LLD <LLD <LLD <LLD 2 1E 06 3.9E-04 Te 132 <LLDU <LLD <LLD] <LLD <LLDJ 2 4E-05 4.4E-03 Sr-89 <LLD <LLD <LLD <LLD <LLD 1.5E-05 2.8E-03 Sr-90 <LLD <LLD <LLD1 <LLD <LLD 1.4E-05 2.6E-03 ea-<<0 <LLD <LLD <LLDi cLLDJ <LLD 3.0E-05 5.6E-03 La-140 <LLD <LLD <LLD," <LLD <LLD 1.4E-06 2.8E-04 Total Particulates g uCi/cc) <LLD <LLD <LLD! <LLD <LLDi 1.6EW2 Xe133 DEC (uCi/cc) 1.85+02J 1.BE+02 1.9E+02l 2.0E+02J 2.1E+02 5 5Ei04 l131 DEC uCi/cc 8.3E-02 8.5E-02 9.0E-02l 9.5E-02/ 9.9E-02 1.2E-03 2.1E-01 Cs137 DEC (uCi/cc) <LLD <LLD <LLD', <LLDi 2.6E-05i 4.8E-03 Gross Activity 3.BE+01 4.1E+01 4.6E+01 j 5.0E+01lj 5.5E+015 3.3E+01! 6.1E+03 Sam le Data mR/hr <LLD'.7.EC5 Sample Sink Sample Sink Sam le I Contact 3 feet Contact 1.8E-011 3.6E-04 1.4E+021 i

1.9E-01i 3.7E-04 1.4E+02l 2,1E-01 l 3.9E-04i 1.5E+02i 2.2E-01l 4.2E-04 1.5E+02l 1

2.4E-01 1.6E+02'.0E-01!

'.4E-04!

2.5E-01l 5.1E-04i

'2.3E+02'.

4.4E+01 9.1E-02 4.0E+04 Sample O 2 feet 9.1E-02 l 9.3E-02 l 9.7E-02II 1.0E-01 I 1.5E-01 ( 2.7E+01 Sample in small cask O contact <LLDl <LLOYD <LLD <LLD) <LLDl 2.7E-01 i. 4.6E+01 Sam le in small cask 2 feet <LLD'LLD <LLD <LLDr 4.8E-03! 8.1E-01 Sample in large cask O contact <LLDl <LLDl <LLD <LLDi <LLDr 1.3E-07l 1.7E-05 Sample in large cask @ 2 feet <LLD3 <LLDl <LLD <LLDl <LLDi 1.4E-OB'-. 1.9E-06 Filter Pa er Contact <LLDi <LLDl <LLDt <LLD <LLD! B.BE-024 1.6E+01 Charcoal Cartridae Contact 2.7E+01 '.BE+01 i 3.0E+01 l 3.1E+01 l 3.2E+01 i 3.8E-01! 6.BE+01 8.2-4

Table 8.2 Nine Mile Point Unit 2 well Air Sam le Anal sis .

D Exercise Scenario 41 DRYWELLAIR SAMPLE DATA Real Time: 13:00 13:15 13:30 13:45 14:00 Drill Time: 7:00 7:15 7:30 7:45 8:00 Concentration uCilcc Kr-83m 3.6E+02 6.3E+03 1.2E+04 1.2E+04 1.1E+04 Kr-85m 1.6E+03 2.9E+04 5.7E+04 6.1E+04 6.0E+04 Kr-85 1.0E-02 2.1E-01 4.5E-01 5.3E-01 5.6E-01 Kr<7 6.4E+02 1.1E+04 1.9E+04 1.8E+04 1.6E+04 Kr-88 -3.0E+03 5.4E+04 1.0E+05 1.1E+05 1.0E+05 Kr-89 <LLD <LLD <LLD <LLD <LLD Xe-131m 1.1E-04 2.5E -04 3.0 E-04 3.2E-04 Xe-133m 1.6E-04 3.2E-03 6.9E-03 8.2E-03 8.8E-03 Xe-133 2.1E+04 4.'1E+05 8.1E+05 9.1E+05 9.2E+05 Xe-135 2.BE+03 5.2E+ 0~4 1.0E+05 1.1E+0 J 1.1E+05 1.9E+00 Xe-135m 4.9E-01 4.9E+00 5.2E+00 3.2E+00 Xe-137 <LLD <<LLD <LLD <LLD <LLD Xe-138 3.0E-01 2.BE+00 2.7E+OJ 1 4E+00 7.0E-01 Total Noble Gas uCi/cc 2.9E+04 5.6E+05 1.1E+06 1.2E+06 1.2E+06 l-131 6.4E-02 1.2E+00 2.5E+00 2.BE+00 2.BE+00 1-132 4.8E-02 8.9E- 1.7E+ 00) 1.BE+00 1.8E+00 l-133 1.2E-01 2.3E+ 4.7E+00 5.2E+00 5.2E+00 l-134 9.6E-03 1.5E-01 2.5E-01 2.3E-01 1.9E-01 I-135 8.1E-02j 1.5E+Q 3.0E+00 3.3E+00 3.2E+00 Total lodines uCi/cc 3.3EW1 6.1E+00 1.2E+01 1.3E+01 1.3E+01 Cs-.137 1.9E-03 3.7E-02 7;5E-02 8.4E-02 8.5E-02 Te-132 2.2E-02 4.1E-01 8.3E-01 9.3E+ 9.4E-01 Sr-89 1.4E-02 2.7E-01 5.3E-01 6.0E 6.1E-01

~"

Sr-90 1.3E-02 2.5E-01 5.0E-01 5.6E-01 5.7E-01 Ba-140 2.8E-02 5.3E-++1 1.1E+00 1.2E+OOJ 1.2E+00 La-140 1.5E-03 3.1E-02 6.6E-02 8.0E-02 I 8.6E-02 Total Particulates LuCi/cc) 8.0E42 1.5E+00 3.1E+00 3.5E+00 3.5E+00 Xe133 DEC {uC~i/cc l131 DEC uCi/cc 2.6E+05 9.9E-01 9

1.8E+01I 8.8E+06 3.5E+0~1.

9.4 3.9 + 9.0E+06 3.BE+01 Cs137 DEC (uCi/cc} 2.4E-02 4.8E-01 9.7E-01l 1.1E+00 1.1E+00 Gross Activity 2.9E+04 5.6 E+AA 1.1E+06 1.2E+06 '.2E+06 Sam le Data mR/hr Sample Sink O Contact 2.1E+02 3.8E+03l 7.2E+03l 7.BE+03! 7.6E+03 Sample Sink O 3 feet 4.3E-01 7.8E+OOI 1.5E+01] 1.6E+ 01/ 1.5E+01 Sam le Contact 1.9E+05 3.4E+06l 6.4E+06 6.8E+06l 6.5E+06 Sample O 2 feet 1.2E+02 2.3E+03 i 4.3E+03 4.5E+03 4.4E+03 Sample in small cask O contact 2.1E+02 3.6E+031 6 4E+03 6.5E+03j 5.BE+03 Sam le in small cask 2 feet 3.7E+00 6.3E+01 1.1E+02 1.2E+02 1.0E+02 Sample in large cask O contact 5.2E-05 4.4E-04 <LLD <LLD <<LLD Sample in large cask O 2 feet 5.6E-06 4.3E-05 <LL <LLD~ <LLD Filter Pa er Contact 7.9E+01 1.5E+03 2.9E+03 3.3E+03 3.3E+03 Charcoal Cartrid e Contact 3.2E+02l 6.0E+03 1.2E+04 1.3E+04l 1.2E+04 8.2-5

Table 8.3 Nine Mile Point Unit 2 Stack Air Eam te Anaiaia Exercise Scenario 41 STACK SAMPLE DA7'A 6:15 6:30 6:45 7:00 7:15 7:30 Real Time: 6:00 0:15 0:30 0:45 1:00 1:15 1:30 Drill Time: 0:00

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-83m

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-85m

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-85

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-87

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-88 Kr-89 <LLD <LLD <LLD <<LLD <LLD <LLD <LLD Xe-131m <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-133m <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-133 <LLD <LLD 'LLD <LLD <LLD <LLD <LLD Xe-135 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-135m <LLD ~ <LLD <LLD <LLD <LLD , <LLD <LLD Xe-137 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-138 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Total Noble Gas uCi/cc <LLD <LLD <LLD <LLD <LLD <LLD <LLD l-131 6.3E-10 6.3E-10 6.3E-10 6.3E-10 6.3E-10 6.3E-10 6.3E-10 l-132 3.1E-OB 3.1E-OB 3.1E-OB 3.1E-OB 3.1E-OB 3.1E-OB 3.1E-OB 1-133 8.2E-09 8.2E-09 8.2E-09 8.2E-09 8.2E-09 8.2E-09 8.2E-09 1-134 8.6E-OB 8.6E-OB 8.6E-OB 8.6E-OB 8.6E-OB 8.6E-OB 8.6E-OB l-135 2.3E-OB 2.3E-OB 2.3E-OB 2.3E-OB 2.3E-OB 2.3E-OB 2.3E-OB Total lodines uCi/cc 1.5E7 1.5EC7 1.5EC7 1.5E7 1.5EN7 1.5EC7 1.5E47 Cs-137 eLLO (LLD <LLD <LLD <LLD <LLD <LLD Te-132 <LLD (LLD <LLD (LLD <LLD '<LLD (LLD Sr-89 <LLD (LLD <L'LD <LLD <LLD <LLD <LLD Sr-90 (LLD (LLD <LLD <LLD <LLD <LLD <LLD Ba-140 <LLD <LLD <LLD <LLD <LLD <LLD <LLD La-140 (LLD <LLD <LLD <LLD <LLD (LLD <LLD Total Particulates l uCi/cc) <LLD <LLD <LLD <LLD <LLD '<LLD <LLD Xe133 DEC (uCi/cc) <LLD <<LLDf <LLD <LLD <LLD <LLD l131 DEC uCi/cc 9.2E-07 9.2E-07 9.2E-07 9.2E-07 9.2E-07 9.2E-07 9.2E-07 Cs137 DEC (uCi/cc) <LLD <LLD <LLD (LLD <<LLD <LLD (LLD Gross Activity 1.5EC7 1.5EW7 1.5EW7 1.5EW7 1.5EW7 1.5E<7 1.5EW7 Sam le Data mR/hr 6.4E-09 6.4E-09 6.4E-09l 6.4E-09 6.4E-09 I

]

Sample Sink O Contact 6.4E-09 6.4E-09 Sample Sink 3 feet 1.5E-11 1.5E-11 1.5E-11 ) 1.5E-11 l 5E-11 1.5E-11 1.5E-11 Sam le Contact 7.5E-06 7.5E-06 7.5E-06 7.5E-06 7.5E-06 7.5E-06 7.5E-06 Sample O 2 feet 5.DE-DD~ 5.0E-09 5.0E-09 5.0E-09 5.0E-09 5.0E-09 5.0E-09 Sample in small cask O contact 2.0E-OB 2.0E-OB 2.0E-OB 2.0E-OB 2.0E-OB 2.0E-OB 2.0E-OB Sam le in small cask 2 feet 3.5E-10 3.5E-10 3.5E-101 3.5E-10 3.5E-10 3.5E-10 3.5E-10 Sample in large cask Q contact <LLD (LLD <<LLD <LLD <LLD <LLDl (LLD Sample in large cask Q 2 feet (LLD <LLD (LLD <LLD (LLD (LLDi (LLD

~Fitter Pa er Contact (LLD (LLD (LLD (LLD (LLD <LLDi (LLO Charcoal Cartridoe Contact 3,1E-04: 3.1E-04r 3.1E-04 3.1E -04> 3.1E-04I 3.1E-04'.1E-04 8.3-1

Table 8.3 Nine Mile Point Unit 2 Stack Air Sam le Analsis Exercise Scenario 41 STACK SAMPLE DATA 8:00 8:15 8:30 8:45 9:00 9:15 Real Time: 7:45 Drill Time: 1:45 2:00 2:15 2:30 2:45 3:00 3:15 Concentration uCl/cc

<LLD <LLD <LLD <LLD <LLD <LLD <LLD:,

Kr<3m

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-85m

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-85

<LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-87 Kr-88 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Kr-89 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-131m <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-133m <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-133 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-135 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-135m <LLD <LLD <LLD <LLD <<LLD <LLD <LLD Xe-137 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-138 <<LLD <LLD <LLD <LLD <LLD <LLD <LLD Total Noble Gas uCI/cc <LLD <LLD <LLD <LLD <LLD <LLD <LLD l-131 6.3E-10 6.3E-10 5.8E-10 5.8E-10 5.8E-10 6.4E-10 6.5E-10 I-132 3.1E-OB 3.1E-OB 2.8E-OB 2.8E-OB 2.8E-OB 3.1E-OB 3.1E-OB 1-133 8.2E-09 8.2E-09 7.5E-09 7.5E-09 7.5E-09 8.3E-09 8.4E-09 l-134 8.6E-OB 8.6E-OB 7.9E-OB 7.9E-OB 7.9E-OB 8.7E-OB B.BE-OB 1-135 2.3E-OB 2.3E-OB 2.1E-OB 2.4E-OB 2.4E-OB Total lodines uCi/cc 1.5E<7 1.5EW7 1.4E7 1.4EC7 1.4E47 1.5E47 1.5EW7 Cs-137 <LLD <LLD <<LLD <LLD <LLD <LLD <LLD .

Te-132 <LLD <LLD <LLD <LLDl <LLD 'LLD <LLD Sr-89 <LLD <LLD <LLD <LLD <LLD <LLD <<LLD Sr-90 <LLD <LLD <LLD <LLD <LLD (LLD <LLD Ba-140 <LLD (LLD <<LLD <LLD <LLD <LLD <LLD La-140 <LLD <LLD <LLD <LLD <<LLD <<LLD< <LLD Total Particulate~s uCi/cc) <LLD <LLD <LLD <LLD <LLD 'LLD <LLD Xe133 DEC (uCi/cc) <LLD <LLD <<LLD <LLD <<LLD <LLD <LLD l131 DEC uCi/cc 9.2E-07 9.2E-07 8.5E-07 8.5E-07 8.5E-07 9.4E-07 9.5E-07 Cs137 DEC (uCi/cc) <LLD <<LLD <LLD <LLD <LLD <LLDi <LLD Gross Activity 1.5E<7 1.5E<7 1.4E<7 i 1.4EW7 1.4E-07 1.5EC7 1.5EW7 Sam le Data mR/hr Sample Sink O Contact 6.4E-09 6.4E-09 5.9E-09l 5.9E-09 5.9E-09 Sample Sink Q 3 feet 1.5E-11 1.5E-11 1.3E-11 1.3E-11 1.3E-11 1.5E-11 1.5E-11 Sam~le Contact 7.5E-06 7.5E-06 6.9E-06 6.9E-06 6.9E-06 7.6E-06 7.7E-06 4.6E-09i 5.1E-09 5.1E-09 Sample O 2 feet Sample in small cask I contact 5.0E-09 2.0E-OB 5.0E-09 2.0E-OB 4.6E-09 1.8E-OB 4.6E-09 1.8E-OB 1.8E-OB 3.2E-10 2.0E-OB 3.5E-10 2.-1 E-08 3.6E-10 Sam le in small cask Sample in large cask Sample in large cask II 2 feet contact 2 feet 3.5E-10

<LLD

<<LLD 3.5E-10

<<LLDI 3.2E-10I

<<LLDl

<<LLDI 3.2E-10

<<LLD

<<LLD

<<LLD

<<LLD 'LLD

<<LLD'LLD',

<LLD

~airier Pa er Contact 3.1E-04'LLDi

<LLD

<LLD'.1E-04

<<LLD'- <<LLD <LLD <LLD>> <LLD Charcoal Cartridae Contact 2.9E-04: 2.9E-04" 2.9E-04l 3.2E-04 3.2E-04 8.3-2

~ ~

~ ~

I I II I~

I I I

~ ~

1l ~ I~

~t

~

~ 'l eJ

~I ~

~

I I~

I ' I I

II

~

~

~I ~

~ ~ ~ ~P

~ ~ ~

t~ ~ ~

Table 8.3 Nine Mile Point Unit 2 Stack Air Sam le Analsis Exercise Scenario 41 STACK SAMPLE DATA Real Time: 11:15 11:30 11:45 12:00 12:15 12:30 12:45 Drill Time: 5:15 5:30 5:45 6:00 6:15 6:30 6:45 Concentration uCI/cc Kr-83m <LLD <LLD <LLD <LLD <LLD '.5E-05 3.6E-02 Kr-85m 2.8E-06 1.9E-06 1.5E-06 1.1E-06 7.5E-O? 5.9E-05 1.5E<1 Kr-85 7.4E-12 6.0E-12 5.5E-12 4.7E-12 3.6E-12 3.1E-10 B.BE-07 Kr-87 2.1E-06 1.3E-06 9.4E-07 6.3E-07 3.8E-07 2.9E-05 6.6E-02 Kr-88 5.3E-O? 3.5E-07 2.7E-07 2.0E-07 1.3EZ? 1.1E-04 2.8E-01 Kr-89 <LLD <LLD <LLD <LLD <LLD <LLD <LLD Xe-131m <LLD <LLD <LLD <LLD <LLD <LLD 4.6E-10 Xe-133m 3.9E-12 3.2E-12 3.0E-12 2.6E-12 2.0E-12 4.6E-12 1.3E-OB Xe-133 2.4E-05 1.7E-OS 1.4E-05 1.1E-05 7.3E-06 7.2E-04 1.9E+00 Xe-135 3.5E-06 2.5E-06 2.0E-06 1.5E-06 1.0E-06 9.8E-05 2.5E-01 Xe-135m 6.1E-OB 2.2E-OB 9.6E-09 3.9E-09 1.5E-09 6.3E-OB 8.5E-05 Xe-137 <LLD <LLD <LLD <<LLD <LLD <LLD <LLD Xe-138 5.9E-OB 2.0E-OB 7.8E-09 2.9E-09 9.6E-10 4.5E-OB 5.7E-05 Total Noble Gas uCI/cc 3.3EC5 2.3 EBS 1.8EC5 1.4E45 9.6E<6 1.0EC3 2.7E+00 l-131 3.4E-09 2.4E-09 2.0E-09 1.5E-09 1.1E-09 2.2E-09 5.8E-06 l-132 3.1E-09 2.0E-09 1.5E-09 1.1E-09 7.1E-10 1.8E-09 '.5E-06 I-133 6.8E-09 4.8E-09 3.9E-09 3.0E-09 2.0E-09 4.3E-09 1.1E-05 1-134 2.0E-09 1.2E-09 8.0E-10 5.0E-10 2.9E-10I 4.9E-10~ 1.1E-06 l-135 5.3E-09 3.7E-09 2.9E-09 2.2E-09 1.5E-09 2.9E-09 7.5E-06 Total lodines uCi/cc 2.1EWB 1.4ECB 1.1EZB 8.3EW9 5.6EW9 1.2E<8 3.0E45 Cs-137 <LLD <LLD <LLD <LLD <LLD 6.6E-11 1.7E-O?

Te-132 (LLD ~<LLD <LLD <LLD <LLD 7.4E-10 1.9E-06 Sr-89 <<LLD <LLD <LLD (LLD <LLD 4.7E-10 1.2E-06 Sr-90 <LLD <LLD <LLD (LLD <LLD 4.4E-10 1.2E-06 Ba-140 <LLD <LLD <LLD <LLD <LLD 9.4E-10 2.5E-06 La-14O <LLD <LLD <LLD <LLD <LLD 4.4E-11 1.2E-07 Total Particulates ( uCI/cc) <LLD <LLD <LLD <LLD~<LLD 2.?E<9  ?.1E<6 Xe133 DEC (uCI/cc) 1.5E-04 1.0E-04 7.7E-OS 5.5E-05 3.6E-05 9.8E-03 2.4E+01 I131 DEC uCi/cc 7.1E-OB 4.7E-OB 3.6E-OB I 2.6E-OB 1.7E-OB 3.6E-OB 9.2E-OS Cs137 DEC (uCI/cc) <<LLD <LLD <LLD'. <LLDi <LLD[ B.OE-10l 2.1E-06 Gross ActiyIty 3.3E5 2~3EW5 1.BEC5 1.4EW5I 9.6EC6 1.0E<3 I 2.7E+00 Sam le Data mR/hr 4.1E-06 7.9E-06! 2.0E-02 Sample Sink

~6am te I

Sample Sink O Contact 3 feet Contact 1.6E-07 2.9E-10 1.2E-04 1.1E-07 1.9E-10 7.?E-05 8.4E-OB 5.9E-05 6.2E-OB 1.1E-10 4.3E-OS 2.8E-OS l 1.6E-OB I 7.1E-03 I 3.9E-05 1.BE+01 Sample O 2 feet  ?.BE-OB 5.1E-OB 3.9E-OB 2.8E-OB 1.8E-OB 4.8E-06 1.2E-02 Sample in small cask O contact <LLD <LLD <LLD, <LLD <<LLD B.SE-06 2.0E-02 Sam le in small cask 2 feet <<LLDI <LLD <LLD <<LLD <LLD 1.5E-07 3.6E-04 Sample in large cask O contact <<LLD) <LLD <LLDI <LLD'i 3.9E-12" 7.4E-09

<LLD'LLD';

Sample in large cask O 2 feet <LLD <LLD <LLDI <LLD1 8.2E-10

<<LLD.'LLD1

~Filter Pa er Contact <LLD <<LLD <<LLD (LLD" 2.8E-06'.1E-03 Charcoal Cartridoe Contact 2.4E-OS 1.6E-05. 1.2E-OS i 8.6E-06% 5.7E-06) 1.2E-OS. '3.0E-02 8.3-4

~(pig

~ Ii

~~iII ii

~

~ I I.

~~i

~gig+I

~

~

I II ~ I I I I' ~ I~

~ ~ I I I II ' I I I I I ll

~

~

I II

~+~i II

~

>> ~ggiic)

I I I'

~

~ ~

~ I I I ~ Il I ll I I~ I I

~ ~ ~ I I'

~ ~ IE I ~ I I I

~ I I I~ ~ I~ I I~ I~

~ I I I I~ ~ '

I~ I ~ ~ I

~

~

o I

~ I I ~ I I;

~

~ I I~ 0 I 0 I ~ I ~

~ ~

I~

~I ~ I I ~

I ~

~

~ 'l ~I

~P ~

I~

I~

~I I~

~ ~ I I

~l I Il I ~

~ Ot ~ I~

~ ~ ~ ~ I~

Nme Mrle Porno Umt 2 Sih Emergent Exereire, SeenrLrio No 41, Rev. 0 (HHAL,)

0 NOTE This data was developed using methods other than the Unit 2 simulator. Any expected actions such alarms or system actuations that would be expected to occur should be verified and or effected when the associated setpoint is reached according to the data table provided.

9-1

~ ~

- ~ ~ ~ I . ~

~ II ~ I I II ~ I

~

' ~ ~ I . ~

~ ~ ~ ~ ~ ~

.. ~

~

I

~ ~ ~ ~ ~

~ 's ~ ~ ~ .. ~ ~

~ ~

' ~ ~ s ~

~ ~ ~ I .. i ~

~ ~

~ ~ ~

I ~ . ~ . ~

~ I

~ ~ . ~ . ~

~ ~

~ - .

~ ~

~ ~ ~ ~ ~

~ ~ ~ ~ ~ ~ I I I I I I

~ ~ ~ I ~ ~

~ ~ ~ I ~ ~ I I I I I '

~ ~ ~ ~ ~ ~

~ ~ I II I II I Il

's ~ ' ~ ~ ~

~ ' ~ 'I ~ ~

~

~ ~ . .

~

. ~

~ ~

~ ~

~ ~ ' ~ ~

I ~ ~

~ . ~ ~

~ I

~ '

~ ~ ~ ~ . ~

~ ~

' ~

~ . ~

' I~ ~ I ~ I

~

' ~ ~ I

~

' ~ . ~ ~

~ ~

~

~ ~ ~ ~ ~ ~

~ ~ ~ ~ ~

~ ~ ~

~ I . ~ ~ I ~

~ ~

~ I~

~ ~ . ~ ~

~ ~ ~

~ . ~ o ~ ~

~ ~ ~ ~ ~ ~ I

~ I~ I ~ ~ I ~ I ~ ~

~ I~ ~ e ~

e I~ ~ ~ . ~ I ~ I ~ I o ~ ~ I ~

. ~

~

I ~

~

~ ~ 1 ~ ~ ~ ~

~ ~ .. ~ ~

~ s ' i ~I ~ ~

~ ~ . ~ ~

~ ~

~ ~

~ ~ ' ~ ~ . ~

~ ' ~ ~ s ~ I

~ ~

~ o

~ ~

~ ' '

~ ~ ~ ~ . ~

~ ~ ' ~ ~

~ ~

' ~ ~ I~ ~ I

~, ~

' ~ ~ I

~ ~ ~ . ~ ~

~ ~ ' i ~ ~ ~ ~ ~

I~ ~ ~

~ . ~ ~

~ I ~ ~

~ ~ ~ ~

I~

~ I . ~

' I ~

~ ~

i ~ ~ ' ~ I ~

~

~ ~ ~ -

~

. ~ ~ I ~ I

~ II I ~ .i I ~ I

~ I~ ~ ~ ~

~ ~ I I ~

~ II ~ ~ ~

~ ~

~ ~

~ ~

' ~ ~

~ ~ ~ ~ ~ ~ ~

~ ~ ~ ~ ~ I

~

~ ~

~ ~

~ + ' ~ ~ ~

~ ~ ~ ~ . ~

~ I ~

I .

i ~

~ '

~ ~ ~ ~ . ~

~ II

~ . ~ ' ~ ~

~ . ~ '

~ ~ I

~ ~

' ~ ~ ~ I

~ ~ ~ ~ ~ . ~ ~

~ ~

' ~ ~ ~ .. ~ ~

~ ~ ~ . ~ . ~

~ ~ ~

~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~

~

~ ~ ~ ~ I ~

~ I~

I~ . ~ ~

~ ~ I

~ .. ~ ~ I~

~ ~ I .. ~ ~ ~ ~ ~ I ~ ~ ~ I

~ ~ ~ ~ ~ ~

~ I~ ~ s ~

~ ~ ~ ~ ~ ~ ~ I

~ I~ ~ ~ ~

~ ~

~ + . ~ ~ ~ ~

~ ~ ~ ~ t ~ . ~

+ ~ ~ ~

~ ~ ~

~ ~

~ ~ ~ + ~ ~

~ ~ ~ o I ~ '

~ ~ . ~ ~

~ I

~

' ~ '

Table 9.1 Nine Mile Point Unit 2 Meteorolo ical Data Exercise Scenario 41 Real Time 13:00 13:15 13:30 13:45 14:00 DrillTime 7:00 7:15 7:30 7:45 8:00 Main Tower Parameters Wind from the 3tr level m Qh 8.0 8.0 8.0 8.0 8.0 Wind speed from the 100'evel (m~Qh 12.0 12.0 12.0 12.0 12.0 Wind s from the 2Ny level m h 13.0 13.0 13.0 13.0 13.0 Wind direction from the 3tr level d } 333 333 333 333 333 Wind direction from the 1Nr level deg) 337 ss7 337 337 337 Wind direction from the 2Nr level d 337 337 337 337 337 Si ma-theta from the 30'evel deg) 16.6 16.6 16.6 16.6 16.6 Stability chss from the 30'evel Si ma-theta from the 1'evel d 10.9 10.9 10.9 10.9 10.9 Stability class from the 1Ny level D D D D D Sigma-theta from the 2Ny level (deg) 10.2 10.2 10.2 10.2 StabiT class from the 2Nr level D D D D Temperature from the 3fr level (deg F) 90 90 91 91 91 Dewpoint from the Xy level (deg F} 69 7O 70 70 Delta-T from 1Ny-30' F -0.90 -0.90 -0.90 -0.90 Stability class from 1 Nr-3P (deg F} A A Delta-T from 2Nr-3'deg F)

Stabil'lass from 200'-3tr de F

-1.50 -1.50 -1.50 ~ -1.50 -1.50 Pressure (in Hg) 29.73 29.73 29.73 29.73 29.73 Precipitation rate (in/15 min) 0.00 0.00 0.00 0.00 0.00 JAF Tower Parameters Wind speed from Rr level/mph} 8.0 8.0 8.0 8.0 Wind direction from RY level d ) 12 12 12 12 Si ma.theta fromRY level d 13.0 13.0 13.0 13.0 13.0 Stability class from Ry level Inland Tower Parameters Winds from30'level m h Wind direction from 30'evel (deg) 219 219 219 219 219 Sigma theta from 30'evel (deg)

Stabil class from 3tr level D D D D D Lake Tem rature d F 9.1-5

Nme Mrle Pomt Umt 2 Site Emergency Exercise Scenario No. 41 FINAL

~ ~*~ THIS IS A DRILL * **

JEFFERSON-LEWIS-OSWEGO-INCLUDINGCITIES OF... OSWEGO... WATERTOWN ... LOWVILLE NATIONALWEATHER SERVICE BUFFALO NY 503 EDT WED SEPTEMBER 25 1997

      • SEVERE THUNDERSTORM WATCH IS IN EFFECT ~*~

UNTIL 1000 AM EDT

. TODAY... CONTINUED VERY HOT AND MUGGY WITH SHOWERS AND SEVERE TIMNDERSTORMS LIKELY'. EXPECT HEAVYDOWNPOURS STRONG WINDS AND HAIL. TEMPERATURES WILLREMAIN IN THE HIGH 80S TO LOW 90S BUT BMEFLY COOLER 'AFTER THUNDERSTORMS PASS. WINDS WILLBE SOUTI~STERLY EARLY IN THE MORNING, 5 TO 15 MPH WITH HIGHER GUSTS IN THUNDERSTORMS, SHIFTING TO NORTHWESTERLY BY LATE MORNING.

. TONIGHT...CONTINUED HOT AND MUGGY WITH SHOWERS AND TIKINDERSTORMS LIKELY. TEMPERATURES WILLREMAIN IN THE MID 70S WITH LIGHT VARIABLEWINDS EXCEPT GUSTY IN THLRMDERSTORMS.

. THURSDAY... HOT AND MUGGY IN THE MORNING WITH SHOWERS AND THUKDERSTORMS LIKELYBECOMING BECOMING REFRESHINGLY COOL AND DRIER BY AFTERNOON. LIGHT VARIABLE WINDS EXCEPT GUSTY IN THUNDERSTORM S.

9.2-1

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No. 41 (FINAL)

  • ~~~ THIS IS DRILL ~~**
  • ~* EBS ACTIVATIONREQUESTED ***

SEVERE THUNDERSTORM WAIQGNG ISSUANCE NATIONALWEATHER SERVICE BUFFALO NY 900 EDT WED SEPTEMBER 24

...A SEVERE THUNDERSTORM LOCATED OVER WOLCOTT IS MOVING TOWARDS THE EAST AT 35 MPH. THE STORM HAS A HISTORY OF PRODUCING STRONG WINDS, HEAVYRAIN, AND QUARTER SIZE HAIL. THE CITY OF OSWEGO SHOULD ANTICIPATEITS ARRIVALWITHIN A HALF AN HOUR. PEOPLE IN THE PATH OF THIS THUNDERSTORM SHOULD SEEK SHELTER IMMMEDIATELY.

9.2-2

Nine Mile Poi it 2 Total Release Rates Exercise Scenano 41 TOTAL RELEASE RA TES Real Time: 06:00 06."15 06:30 06:45 07:00 I 07:15 07:30 07:45 08:00 08:15 Drill Time: 00.00 00:15 00:30 00:45 01:00 I 01:15 01:30 01:45 02:00 02:15 Elevated Elevated Elevated Elevated Elevated Elevated Elevated Elevated Elevated Elevated Release Height Total Etevated Release Rate (o~CI/sec 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.DOE-01 O.DOE-01 0.00E-01 0.DOE<1 0.DOE<1 0.00E-01 Kr-83m Kr-85m 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Kr-85 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 I 0.00E-01 0.00E-01 I 0.00E-01 0.00E-01 0.00E-01 Kr-87 D.OOE-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.DOE<1 Kr-88 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00EC1 Kr-89 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.DOE<1 Xe-131m 0.00E-01 O.OOE-O Jt 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 Xe-133m 0.00E-01 D.OOE-01 I O.OOE-01 0.00E-01 O.OOE-01, 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Xe-133 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 I O.OOE-01 0.00E-01 I 0.00E-01 0.00E-01 0.00E-01 Xe-135 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 o.ooE-o1 I O.OOE-01 0.00E-011 0.00E-01 0.00E-01 0.00E-01 Xe-135m 0.00E-01 O.DOE-01 0.00E-01 0.00E-O ] O.OOE-01 0.00E-"01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Xe-137 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 O.DOE-01 I Xe-138 0.00E-01 O.OOE-01 0.00E-01 O.~OOE-01 ~0. 0 0 E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 1-131 2.23E-02 2.23E-02 2.23E-02 2.23E-02 '.23E-02 7 2.23E-02 2.23E-02 2.23E-02 2.23E-02 2.23E-02 1-132 1.09E+00 1.09E+00 1.09E+00 1.09E+00 1.09E+00 1.09E+00 1.09E+00 1.09E+00 1.09E+00 1.09E+00 1-133 2.89E-01 2.89E-01 2.89E-01 2.89E-01 2.89E-01 2.89E-01 2.89E-01 2.89E-01 2.89E-01 2.89E-01 1-134 3.04E+00 3.04E+00 3.04E+00 3.04E+00 '.04E+00.

3.04E+00 3.04E+00 3.04E+00 3.04E+00 3.04E+00 1-135 8.17E-01 8.17E-01 8.17E-01 8.17E-01 8.17E-D1 I 8.17E-01 8.17E-01 8.17E-01 8.17E-01 8.17E-01 Cs-137 O.OOE-01 O.OOE-01 O.DOE-01 0.00E-01 O.OOE-01 I 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Te-132 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01I 0.00E-01 0.00E-01 0.00E-01 Sr-89 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 '.00E-01 Sr-90 0.00E-01 O.DOE-01 O.ODE-01 0.00E-01 O.OOE-01 I 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Ba-140 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01! 0.00E-01 0.00E-01 0.00E-01 0.0 0E-01 0.00E-01 La-140 O.OOE-01 O.OOE-01 O.DOE-01 0.00E-01 O.OOE-01 I 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Total Elevated Release 5.25E+OO 5.25E+00 5.25E+00 5.25E+00 5.25E+00 I 5.25E+00 5.25E+00 5.25E+00 5.25E+00 5.25E+00 I

9.3-1

d.3 Nine Mile Poi iit 2 Total Release Rates Exercise Scenario 41 TOTAL RELEASE RA TES Real Time 06.00 06:15 06:30 06:45 07:00 07:1 07:30 07:45 08:00 08:15 Drill Time 00:00 00:15 00:30 00:45 01:00 01:15 01:30 01:45 02:00 02:15 Total Ground Release Rate (uCi/sec)

Kr-83m 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 0.00ECf 0.00E-01 O.OOE-01 Kr-85m 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOEC1 Kr-85 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-O O.OOE-01 0.00E-01 0.00E-01 0.00ECf Kr-87 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01( O.OOE-01 O.OOE-O O.OOE-01 O.OOE-01 O.OOE-01 O.OOE<1 Kr-88 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 Kr-89 O.OOE-01 0:OOE-01 O.OOE-01 O.OOE-01 O.OOE-O O.OOE-01 O.OOE-01 O.OOECf Xe-131m O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 I O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 O.OOECf Xe-133m O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 Xe-133 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E<f Xe-135 0.00E-01 O.OOE-01 0.00 0.0 0.DOE~01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 Xe-135m 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 Xe-137 0.00E-01 0.00E 01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 Xe-138 l-131 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 f~

1 OOE-01 O.OOE-01 0.00E-O O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 l-1 32 1-133 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-Of 0.00E-01 O.OOE 01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01

~ 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 I-134 0.00E-01 O.OOE-01 O.OOE-01 ~O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 I-135 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 Cs-137 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 Te-132 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Sr-89 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE O.OOE-01 O.OOE 01 0.00E-01 Sr-90 0.00E-01 0.00E-01 0.00E-01 0.0 O.OOE-01 O.OOE-01 0.00E 0.00E-01 0.00E-01 I 0.00E-01 Ba-l40 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E<f La-l40 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 Total Ground Release 0.00EWf 0.00E<1 O.OOEZf 0 OOEAf 0 OOE-01 O.OOEW1 0.00EWf 0.00EC1 O.OOEW1 0.00E41 9.3-2

Ta e 93 Nine Mile Poin 2 Total Release Rates Exercise Scenario 41 TOTAL RELEASE RA TES Real Time: 08:30 08:45 09:00 09:15 09:30 09:45 10:00 10:15 10:30 10:45 Drill Time: 02:30 02:45 03:00 03:15 03:30 I 03:45 04:OO 04:15 04:30 04:45 Release Height Elevated Elevated Elevated Elevated Elevated Elevated Elevated Elevated Elevated Elevated Total Elevated Release R~ata uCI/sec)

Kr-83m O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 D.DOE-01 0.00E-01 O.OOE-01 0.00E-01 O.ODE-01 0.DOE<1 Kr-85m O.OOE-O I O.OOE-011 0.00E-01 0.00E-01 0.00E-01 0.00E-01 4.47E-01 4.63E-01 8.02E+00 8.58E+01 Kr-85 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 I 1.77E-07 3.75E-07 9.93E-06 1.44E-04 Kr-87 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 5.48E-01 5.16E-01 8.10E+00 7.86E+01 Kr-88 D.OOE-O'l O.OOE-01t O.OOE-01 O.OOE-01 O.OOE-01 0.00E-D1 9.45E-02 9.58E-02 1.62E+00 1.70E+01 Kr-89 O.DOE-01 O.DOE-01 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01 I O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 Xe-131m O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.DOE-01 2.98E-09 6.43E-09 1.73E-07 2.57E-06 Xe-133m O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 O.DOE-01 8.83E-08 1.89E-07 5.08E-06 7.49E-05 Xe-133 0.00E-01 0.00E-01 0.00E-01 O.DOE-01 D.OOE-01 0.00E-01 3.11E+00 3.35E+00 6.02E+01 6.6SE+02 Xe-135 0.00E-01 0.00E-01 0.00E-01 0.00E-01 I O.OOE-01 0.00E-01 5.09E-01 5.39E-01 9.51E+00 1.04E+02 Xe-135m 0.00E-01 0.00E-01 D.OOE-01 0.00E-01] 2.33E-01 1.17E+00 6.61E+00 Xe-137 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01'.OOE-01 0.00E-01 0.00E-01 i 0.00E-01 O.ODE-01 Xe-138 0.00E-01 0.00E-01 0.00E-01) O.OOE-01 O.OOE-01 O.OOE-01 3.04E-01 1.57E-01 1.35E+00 7.21E+00 I-131 2.23E-02 2.23E-02 2.36E-02 2.37E-02 2.36E-02 2.37E-02 4.50E-04I 4.85E-041 8.72E-03 9.68E-02 I-132 1.09E+00 1.09E+00 1.15E+00 1.16E+00 1.15E+00'.15E+00 5.89E-04 5.89E-04 9.83E-03 1.01E-01 l-133 2.89E-01 2.89E-01 3.06E-01 3.07E-01 3.06E-01 3.06E-01 9.28E-04 9.92E-04 1.77E-02 1.95E-01 I-134 3.04E+00 3.04E+00 3.21E+00 3.22E+00 3.21E+00 3.22E+00 7.17E-04 6.34E-04 9.37E-03 8.54E%2 l-135 8.17E-01 8.17E-01 8.64E-01 8.67E-01 8.64E-01 8.65E-01 7.92E-04 8.31E-04 1.46E-02 1.58E-01 Cs-137 O.OOE-01 O.OOE-01/ O.OOE-01 0.00E-01 O.OOE-01 D.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 Te-132 O.DOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.DOE-01 O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 Sr-89 O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.DOE-01 O.OOE-01 0.00E-01

] O.DOE-01 Sr-90 O.OOE-01 O.OOE-01 O.OOE-01 '.OOE-01 OOE-01 O.OOE-01 O.OOE-01 0.00E-01 I I I O.OOE-01 O.DOE-01 ea-14O 0.00E-01 O.OOE-01 O.DOE-01 O.OOE-01 OOE-01 0.00E-0/1 O.OOE-01 0.00E-01 j 0.00E-01 0.00E-01 La-14O 0.00E-01 0.00E-01 O.DOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.DOE-01 O.OOE-01 O.ODE-01 Total Elevated Release 5.25E+00 5.25E+00 5.56E+00 5.57E+00 5.56E+00 5.57E+00 5.25E+00 5.25E+00 1

9.00E+D1 9.67E+02 9.3-3

a d.3 Nine Mile Po iit 2 Total Release Rates Exercise Scenario 41 TOTAL RELEASE RA TES Real Time 08.30 08:45 09:15 09:30 09:45 10:00 10:15 10:30 10:45 Drill Time 02:30 02:45 03:00 03:15 03:30 03:45 04:00 04:15 04:30 04:45 Total Ground Release Rate (uCi/sec)

Kr-83m O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E<1 0.00E-01 Kr-85m 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE<1 0.00E<1 Kr-85 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E<1 Kr-87 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E1 Kr-88 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E<1 Kr-89 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Xe-131m O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01 0.00M)1 Xe-133m O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E<1 Xe-133 0.00E-01 0.00E-O'I O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE<1 Xe-135 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 Xe-135m 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Xe-137 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01j 0.00E<1 0.00E-01 Xe-138 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 I-131 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 l-132 0.00E-01 0.00E-01 O.OOE-01 0.00E 01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 l-133 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01I 0.00E-01 0.00E-01 0.00E-01 l-134 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 I-135 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Cs-137 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E<1 Te-132 O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Sr-89 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00EC1 Sr-90 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 lla-t40 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 La-140 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E<1 Total Ground Release O.OOE41 O.OOEA1 O.OOE O.OOEC1 0.00EZ1 O.OOEW1 0.00EW1 0.00EW1 0.00EW1 O.OOEW1 9.3-4

8.3 Nine Mile Poi it 2 Total Release Rates Exercise Scenario 41 TOTAL RELEASE RA TES 11:00 11:15 11:30 11:45 12:00 12:15 12:30 12:45 13:00 13:15 Real Time: '.

Drill Time: 05:00 i 05:15 05:30 05:45 06:00 06:15 06:30 06:45 07:00 07:15 Elevated Elevated Elevated Elevated Elevated Elevated Elevated l Elevated Elevated Elevated Release Height Total Elevated Release Rate ~uCi/sea 2.42E+07 1.76E+07 Kr-83m 0.00E-01 0.00E-01 o.ooE-o1 +0 .OOE-01 O.OOE-01 0.00E-01 2.85E+02 8.18E+07 Kr-85m 8,46E+01 5.39E+01 3.68E+01 2.90E+01 2.15E+01 1.43E+01 2.84E+06 5.99E-03'.83E+05 1.06E+08 1.82E-04 1.42E-04 1.15E-04 1.06E-04 9.00E-05 6.81E-OS 1.69E+01 7.00E+02 5.91E+02 Kr-85 Kr-87 7.03E+01 4.06E+01 2.52E+01 1.80Eeet 1.21E+01 3 1E+00 5.48E+02I 1 26E+06 4 28E+07 2 98E+07 Kr-88 1.64E+01 1.02E+01 6.80E+00 5.24E+00 3.80E+00 47E+00 2.19E+03l 5.43E+06. 1.99E+08 1.49E + 08 Kr-89 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 Xe-131m 3.29E-06 2.61E-06 2.16E-06 2.02E-06 1.75E-06 1.35E-06L 3.07E-06! 8.81E-03 3.71E-01 3.19E-01 Xe-133m 9.54E-05 7.54E-OS 6.20E-05 5.77E-OS 4.98E-05 3.81E-OS 1 8.78E-OSI 2.50E-01 1.05E+01 8.98E+00 Xe-133 6.84E+02 4.52E+02 3.20E+02 2.62E+02 2.02E+02 1.40E+02 1.38E+04l 3.63E+07 1.41E+09 1.13E+09 Xe-135 1.04E+02 6.78E+01 4.72E+01 J 3.798+01 2.87E+01 1.95E+01 1.87E+03 4.83E+06 1.85E+08 1.45E+08 Xe-13Sm 3.46E+00 1.17E+00 4.29E-01 I 1.83E-01 7.51E-02 2.88E-02 1.20E+00, 1.62E+03 3.25E+04 1.35E+04 Xe-137 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 I 0.00E-01 0.00E-01 0.00E-01 Xe-138 3.54E+00 1.12E+00 3.82E-01 1.50E-01 1.84E-02 8.64E-01) 1.09E+03 2.03E+04 7.77E+03 1-131 9.92E-02 6.56E-02 4.65E-02 3.81E-02 2.93E-02 2.03E-02 4.21E-02 i 1.11E+02 '.30E+03 3.43E+03 l-132 9.63E-02 5.91E-02 3.89E-02 2.96E-02 2.11E-02 1.36E-02 3.41E-02 8.59E+01 3.21E+03 2.46E+03 l-133 1.98E-01 1.30E-01 9.17E-02 7:45E-02 5.69E-02 3.91E-02 8.17E-02 2.13E+02 8.23E+03 6.52E+03 l-134 7.19E-02 3.90E-02 2.27E-02 1.53E-02 9.66E-03 5.49E-03 9.33E.-03 I 2.01E+01 6.43E+02 4.21E+02 l-135 1.58E-01 1.02E-01 7 03E-02 5.60E-02 4.21E-02 2.84E-02 5.60E-02 1.44E+02 5.45E+03 4.24E+03 Cs-137 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 1.27E-03 3.34E+00 1.30E+02 1.04E+02 Te-132 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 1.42E-02 3.72E+01 1.44E+03 1.15E+03 Sr-89 0.00E-01 0.00E-01 Q.OOE-01 0.00E-01 0.00E-01 0.00E-01 9.08E-03 2.39E+01 9.30E+02 '.42E+02 er-90 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 8.49E-03 2.23E+01 8.70E+02 6.95E+02 ea-too 0.00E-01 0.00E-01 0.00E-01 1.8OE-O2; 4.73E+01 1.84E+03 1.47E+03 La-140 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 8.36E-04 2.39E+00 1.01E+02 8.64E+01 Total Elevated Release 9.67Et02 6.27E+02 4.37E+02 3.53E+02 2.68E+02 1.83E+02 1.99E+04 5.14E+07 1.97E+09 1.55E+09 9.3-5

II d 3 Nine Mile Poi it 2 Total Release Rates Exercise Scenatlo 41 TOTAL RELEA SE RA TES 11:00 11:15 11:30 11:45 12:00 12:15 12:30 12:45 13:00 13:15 Real Time:

Drill Time: 05:00 05:15 05:30 05:45 06:00 06:15 06:30 06:45 07:00 07:15 Total Ground Release Rate (uCi/sec)

O.OOE-01 O.OOE-01 0.00E-01 0.00E-O'I 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE<1 0.00E<1 Kr-83m 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 Kr-85m Kr-85 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E<1 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Kr-87 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Kr-88 Kr-89 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE<1 Xe-131m 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E<1 Xe-133m 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE<1 Xe-133 0.00E-01 O.OOE-O O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Xe-135 0.00E-01 0.00E-O 0.00E-01] O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E<1 Xe-135m 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 Xe-137 0.00E-01 0.00E-01 0.00E-01 0.00E 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01

~ Xe-138 0.00E-01 0.00E-01 0.00E-01 O.OOE O.OOE-01 0:OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 1-131 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 1-132 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E<1 1-133 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E<1 1-134 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 1-135 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 OOE-01 0.00E-01 0.00E-01 Cs-137 0.00E-01 0.00E-01 O.OOE-O1 O.OOE-01 O.OOE-01 0.00E-01 OOE-01 O.OOE-01 0.00E<1 Te-132 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 Sr-89 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE<1 Sr-90 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E<1 13a-140 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE<1 La-l40 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Total Ground Release O.OOE41 0.00 E<1 0.00EW1 0.00MI1 O.OOEC1 O.OOEZ1 O.OOEW1 0.00EW1 O.OOEW1 0.00EW1 9.3-6

J.3 Nine Mite Poi it 2 Total Release Rates Exercise-Scenario 41 TOTAL RELEASE RA TES Real Time: 13:30 13:45 14:00 Drill Time: 07:30 07:45 08:00 Release Height Elevated Total Elevated Release Rate uCi/sec Kr-83m 9.23E+05 4.33E+03 2.22E+02 Kr-85m 4.54E+06 2 26E+04l 1 22E+03 Kr-85 3.59Ei01 1.94E-01 1.14E-02 Kr-87 1.50E+06 6.76E+03 3.32E+02 Kr-88 8.11E~~ 3.94E+04 2.08E+03 Kr-89 O.OOE-01 0.00E-01 0.00E-01 Xe-131m 1.97E-02 1.08E-04 6.47E-06 Xe-133m 5.52E-01 3.02E-03 1.79E-04 Xe-133 6.50E+07 3.35E+05 1.88E+04 Xe-135 8.19E+06 4.15E+04 2.29E+03 Xe-135m 4.17E+02 1.19E+00 3.94E-02 Xe-137 O.OOE-01 0.00E-01 0.00E-01 Xe-138 2.15E+02 5.31E-01 1.43E-02 I-131 1.98E+02 1.02E+00 5.73E-02 I-132 1.37E+02 6.78E-01 3.67E-02 l-133 3.73E+02 1.91E+00 1.07E-01 l-134 2.00E+01 8.45E-~ 3.90E-03 I-135 2.38E+02 1.20E+00 6.56E-02 Cs-137 6.00E+00 3.10E-02 1.74E-03 Te-132 6.63E+01 3.41E-01 1.91E-02 Sr-89 4.29E+01 2.21E-01 1.24E-02 Sr-90 4.01E+01 2.07E-01 1.16E-02 Ba-140 8.49E+01 4.38E-01 2.46E-02 La-140 5.33E+00 2.93E-02 1.74E-03 Total Elevated Release 8.82E+07 4.49E+05 2.49E+04 9.3-7

d.3 Nine Mile Poi iit 2 Total Release Rates Exercise Scenano 41 TOTAL RELEASE RA TES Real Time 13:30 13:45 14:00 Drill Time: 07:30 07:45 08:00 Total Ground Release Rate (uCI/sec}

Kr-83m 0.00E-01 O.ODE-01 0.00EN1 Kr-85m 0.00E-01 0.00E-01 0.00E-01 Kr-85 0.00E-01 0.00E-01 0.00E-01 Kr-87 0.00E-01 0.00E-01 O.OOE-01 Kr-88 0.00E-01 O.OOE-01 0.00E-01 Kr-89 0.00E-01 O.OOE-01 O.OOE-01 Xe-131m 0.00E-010.00E-01 0.00E-01 Xe-133m 0.00E-01 O.OOE-01 0.00E-01 Xe-133 O.DOE-01'.DOE-01 0.00E-01 Xe-135 0.00E-01 0.00E-01 0.00E-01 Xe-135m 0.00E-01 0.00E-01 0.00E-01 Xe-137 0.00E-01 O.ODE-01 O.OOE-01 Xe-138 O.DOE-01 O.ODE-01 0.00E-01 1-131 0.00E-01 0.00E-01 0.00E-01 I-132 O.DOE-01 0.00E-01 O.DOE-01 I-133 0.00E-01 O.OOE-01 O.OOE-01 I-134 0.00E-D1 0.00E-01 0.00E-01 l-135 0.00E-01 O.DOE-01 0.00E-01 Cs-137 Te-132 Sr-89 0.00E-01 0.00E-01 0.00E-01 0.00

+

0.00E-01 0.00E-01 0.00E-01 0.00E-01 Sr-90 0.00E-O 0~0E-01 0.00E-01 Oa-i40 0.00E-O DOE-01 O.DOE-01 La-140 0.00E-01 0.00E-01 0.00E-01 Total Ground Release 0.00EW1 O.OOEQ1 0.00EC1 9.3-8

Release Rate Data 2.00e+09 1.50e+09 Total X Elevated Release Release, pp~9 UCi/s 5.00e+08

'6 'Ground Release

/

&A i I I~ A I t I A ~

Q .00e+0&0 II > ~ A ~~ A ~ '

A A ~ II ~ ~

06:00 07:30 09:00 10:30 12:00 13:30 06:45 08:15 09:45 11:15 12:45 Real Time

Table 9.4 Nine Mile Point Unit 2 Stack Release Rates Exercise Scenario 41 STACK RELEASE RATES Real Time: 6:00 6:15 6:30 6:45 7:00 Drill Time: 0:00 0:15 0:30 0:45 1:00 Release Rate uCl/sec Kr-83m O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 Kr-85m 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01 Kr-85 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 Kr-87 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 Kr-88 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 Kr-89 0.00E-01 '.00E-01 O.OOE-01 0.00E-01 O.OOE-01 Xe-131m 0.00E1 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 Xe-133m O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 Xe-133 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 Xe-135 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 Xe-135m O.ODE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 Xe-137 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 Xe-138 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 1-131 2.23E-02 2.23E-02 2.23E-02 2.23E-02 2.23E-02 1-132 1.09E+00 1.09E+00 1.09E+00 1.09f+00 1.09E+00 1-133 2.89E-01 2.89E-O1 2.89E-01 2.89E-01 2.89E-01 1-134 3.04E+00 3.04E+00 3.04E+00 3.04E+00 3.04E+00 1-135 8.17E-01 8.17E-01 8.17E-01 8.17E-01 8.17E-01 Cs-137 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 Te-132 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 Sr-89 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 O.OOE-01 Sr-90 O.OOE-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 Da-140 O.OOE-01 O.OOE-01 O.OOE-01 I OE-01 O.OOE-01 Ln-140 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 Total Release 5.25E+00 5.25E+00 '1 5.25E+00 5.25E+00 5.25E+00 9.4-1

Table 9.4 Nine Mile Point Unit 2 Stack Release Rates Exercise Scenario 41 STACK RELEASE RATES Real Time: 7:15 7:30 7:45 8:00 8:15 8:30 8:45 Drill Time: 1:15 1:30 1:45 . 2:00 2:15 2:30 2:45 Release Rate uCI/sec Kr-83m 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 Kr-85m 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E<1 Kr-85 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Kr-87 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Kr-88 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 Kr-89 -

0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Xe-131m 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 Xe-133m O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Xe-133 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 Xe-135 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 Xe-135m O.OOE-'01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 Xe-137 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Xe-138 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 1-131 2.23E-02 I 2.23E-02 2.23E-02 2.23E-02 2.23E-02 2.23E-02 2.23E-02 1-132 1.09E+00 1.09E+00 1.09E+00 1.09E+00 1.09E+00 1.09&00 1.09E+00 1-133 2.89E-01 2.89E-01 2.89E-01 2.89E-01 2.89E-01 2.89E-01 2.89E-01 1-134 3.04E+00 3.04E+00 3.04E+00 3.04E+00 3.04E+00 3.04E+00 3.04E+00 1-135 8.17E-01 8.17E-01 8.17E-01 8.17E-01 8.17E-01 8.17E-01 8.17E-01 Cs-137 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 Te-132 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 Sr-89 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E O.OOE-01 0.00E-01 Sr-90 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE-01 O.OOE O.OOE-01 0.00E-01 Da-14O O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 O.OOE-01 LG-140 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 '.00E-01 O.OOE-01 O.OOE-01 Total Release 5.25E+00 5.25E+00 5.25E+00 5.25E+00 5.25E+00 5.25E+00 5.25E+00 9.4-2

&SR&~

i i s i M'-EW~~~~WER&~K%

pig~st ggiitt]/@gest i~i i ii II i giittjgiig I i s I

EX!~ ~ RIEECSBESOIBSI RHIHR I;

giitPgiig~is i ~i i s i s gfgggtg s ~ ~

s .

I II I I ll ~ I II I I II I Igggglg I II giiiggiig s s s s s is s ~si ~igmgg+i.gIX~II

'l Ill~lj~l I II I II I

I I

I iI II I

I ~l I I Ilail~l il~l I II I I I

I II

' I'eglllglgglg I

~

gll'g I I I I I

I II I I II I I il I ' I'gg~l I: I' si s>>s s i is s giiiPgiig I II I ~ II I ~il I gglggiittggtg I' I s iI s III~I/I+ssgiiggiitgt~i I I I II I It I I Il I ~ li I gttlgt~l I II I I il I I II I I IS I I It I I tt I I It I I' I II I I I i gg~s

~

~ ~ s s IS ~ IS SI ~ I I ~ I I I I ~ I ~ ~ I I ' I ~

IS s s gfg~ss I ' I I ~ ~

I ~ ~ I I ~ ' I ~ I I' I I II I II I I il I I II I tl I I II I I II I I II I I II I I II I I Sl I I II I I Il I I I I II I I II I I I I II I I II I I I I II I I II I I I I II I

~ II II ~ I I I I I

0 Table 9.4 Nine Mlle Point Unit 2 Stack Release Rates Exercise Scenario 41 STACK RELEASE RATES 11:00 11:15 11:30 11:45 12:00 12:15 Real Time: 10:45 5:00 5:15 .5:30 5:45 6:00 6:15 Drill Time: 4:45 Release Rate uCI/sec 0.00E<1 0.00E-01 .0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 Kr-83m 8.58E+01 8.46E+01 5.39E+01 3.68E+01 2.90E+01 2.15E+01 1.43E+01 Kr-85m 1.44E-04 1.82E-04 1.42E-04 1.15E-04 1.06E-04 9.00E-05 6.81E-05 Kr-85 7.86E+01 7.03E+01 4.06E+01 2.52E+01 1.80E+01 1.21E+01 7.31E+00 Kr-87 1.70E+01 1.64E+01 1.02E+01 6.80E+00 5.24E+00 3.80E+00 2.47E+00 Kr-88 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Kr-89 2.57E-06 3.29E-06 2.61E-06 2.16E-06 2.02E-06 1.75E-06 1.35E-06 Xe-131m 7.49E-05 9.54E<5 7.54E-05 6.20E-05 5.77E-05 4.98E-05 3.81E-05 Xe-133m Xe-133 6.68E+02 6.84E+02 4.52Et02 3.20E+02 2.62E+02 2.02E+02 1.40E+02 Xe-135 1.04E+02 1.04E+02 6.78E+01 4.72E+01 3.79E+01 2.87E+01 1.95E+01 Xe-135m 6.61E+00 3.46E+00 1.17E+00 4.29E-01 1.83E-01 7.51E-02 2.88E-02 Xe-137 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 Xe-138 7.21E+00 3.54E+00 1.12E+00 3.82E-01 1.50E-01 5.53E-02 1.84E-02 1-131 9.68E-02 9.92E-02 6.56E-02 4.65E-02 3.81E-02 2.93E-02 2.03E-02 1-132 1.01E-01 9.63E-02 5.91E-02 3.89E-02 2.96E-02 2.11E-02 1.36E-02 1-133 1.95E-01 1.98E-01 1.30E-01 9.17E-02 7.45E-02 5.69E-02 3.91E-02 1-134 8.54E-02 7.19E-02 3.90E-02 2.27E-02 1.53E-02 9.66E-03 5.49E-03 1-135 1.58E-01 1.58E-01 1.02E-01 7.03E-02 5.60E-02 4.21E-02 2.84E-02 Cs-137 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 O.OOE-01 0.00E-01 0.00E Te-132 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Sr-89 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Sr-90 O.OOE-01 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 BG-140 0.00E-01 O.OOE-01 0.00E-01 0.00E-01 O.OOE-01 0.00E-01 O.OOE-01 La-140 O.OOE-01 0.00E-01 0.00E-01 0.00E-01 O.OOE-01 O.OOE-01 0.00E-01 Total Release 9.67E+02 9.67f+02 6.27f+02 4.37f+02 3.53E+02 2.68f+02 1.83f+02 9.4-4

I Table 9.4 Nine Mile Point Unit 2 Stack Release Rates Exercise Scenario 41 STACK RELEASE RATES Real Time: 12:30 12:45 13'.00 13:15 13:30 13:45 14:00 Drill Time: 6:30 6:45 7:00 , 7:15 7:30 7:45 8:OO Release Rate uCl/sec Kr43m 2.85E+02 6.83E+05 2.42E+07 1.76E+07 9.23E+05 4.33E+03 2.22E+02 Kr-85m 1.12E+03 2.84E+06 1.06E+08 8.18E+07 4.54E+06 2.26E+04 1.22E+03 Kr-85 5.99E-03 1.69E+01 7.00E+02 5.91E+02 3.59E+01 1.94E-01 1.14E-02 Kr-87 5.48E+02 1.26E+06 4.28E+07 2.98E+07 1.50E+06 6.76E+03 '.32E+02 Kr-88 2.19E+03 5.43E+06 1.99E+08 1.49E+08 8.11E+06 3.94E+04 2.08E+03 Kr-89 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Xe-131m 3.07E-06 8.81E-03 3.71E-01 3.19E-01 1.97E-02 1.08E-04 6.47E-06 Xe-133m 8.78E-05 2.50EC1 1.05E+01 8.98E+00 5.52E-01 3.02E-03 1.79E-04 Xe-133 1.38E+04 3.63E+07 1.41E+09 1.13E+09 6.50E+07 3.35E+05 1.88E+04 Xe-135 1.87E+03 4.83E+06 1.85E+08 1.45E+08 8.19E+06 4.15E+04 2.29E+03 Xe-135m 1.20E+00 1.62E+03 3.25E+04 1.35E+04 4.17E+02 1.19E+00 3.94E-02 Xe-137 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 0.00E-01 Xe-138 8.64E-01 1.09E+03 2.03E+04 7.77E+03 2.15E+02 5.31E-01 1.43E-02 1-131 4.21E-02 1.11E+02 4.30E+03 3.43E+03 1.98E+02 1.02E+00 5.73E-02 1-132 3.41E-02 8.59E+01 3.21E+03 2.46E+03 J 1.37E+02 6.78E-01 3.67E-02 1-133 8.17E-02 2.13E+02 8.23E+03 6.52E+03 3.73E+02 1.91E+00 1.07E-01 1-134 9.33E-03 2.01E+01 6.43E+02 4.21E+02 2.00E+01 8.45E-02 3.90E-03 1-135 5.60E-02 1.44E+02 5.45E+03 4.24E+03 2.38E+02 1.20E+00 6.56E-02 Cs-137 1.27E-03 3.34E+00 1.30E+02 1.04E+02 6.00E+00 3.10E-02 1.74E-03 Te-132 1.42E-02 3.72E+01 1.44E+03 1.15E+03 6.63E+01 3.41E-01 1.91E-02 Sr-89 9.08E-03 2.39E+01 9.30E+02 7.42E+02 4.29E+01 2.21E-01 1.24E-02 Sr-90 8.49E-03 2.23E+01 8.70E+02 6.95E+02 4.01E+01 2.07E-01 1.16E-02 Ba-140 1.80E-02 4.73E+01 1.84E+03 1.47E+03 8.49E+01 4.38E-01 2.46E-02 La-140 8.36E-~04 2.39E+00 1.01E+02 8.64E+01 5.33E+00 2.93E-02 1.74E-03 Total Release 1.995+04 5.14EJ07 I 1.97E+09 1.55E+09 8.82E+07 4.49E+05 2.49E+04 9.4-5

Release Rate Data 2.00e+09 1.50e+09 Stack Release, 00~9 UCi/s

/ Total Stack Release 5.00e+08 O.ppe+00 06:00 07:30 09:00 10:30 12:00 13:30 06:45 08:15 09:45 11:15 12:45 Time

'eal

Nine Mile Point Unit 2 Site Emergency Exercise, No 41, Rev. 0 (HML) 'cenario NOTE:

This data was developed using methods other fhan the Unit 2 simulafor. Any expected actions such alarms or system actuations that would be expected to occur should be verified and or effected when the associated setpoint is reached according fo the data fable provided 10-1

C Unit N2 Unit 01 Cooling Tower NINE MlLE POINT SITE MAP

Waist, Service Road 0 mi

James A. Fkzpatrhk ttuotaar Paver PIant Nine Ltlle Point Strnsct By' Nuctoar Station rr

~ nnmnmt!

Ener py hfrnaat On Center U~nnn I T II

~~

II

~ I m II I ~

~~

~~

I(

~~

I ~~

~ I I I Immn mme mo 4 ~ nnnr t

I I I

1 t

.I I

I 4I Ttnntmt shn U niagara Mohawk ow Yor I

P A Iy I I I

I I I I I

I I I I

ycornlnp O.

CL

Table 10.1 Nine Mile Point Unit 2 '

Onsite Instrument Readin s Exercise Scenario 41 .

~ . Elevated Plume Data Real Time: 12:00 Drill Time: 06 00 Survey Meter - R02 Survey Meter Gross Gross SRD Plume 3 fest Contact E140N Iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 3I Contact NMPC NMPC NMPC miles mR/hr mR/hr mR/hr mR/hr c m mR 0.1 Centerline <2 <2 <2 <2 as read as read as read as read <10 0.1 Mid Center/Edge <2 <2 <2 <2 as read as read as read Bs fBad <10 0.1 Plume Ed e <2 <2 <2 <2 es read as read as read as read <10 0.2 Centerline <2 <2 <2 <2 as read es reed as reed as reed <10 0.2 Mid Center/Edge <2 <2 <2 <2 as read as read as read as read <10 0.2 Plume Ed e <2 <2 <2 as read BS feBd as read as read <10 0.3 Centerline <2 <2 <2 as read BS rBBd as read , as read <10 0.3 Mid Center/Edge <2 <2 <2 <2 as read as reed as reed BS rBad <10 0.3 Plums Ed e <2 <2 <2 <2 as read es rBad as read BS rBBd <10 0.4 Centerline <2 <2 <2 <2 as read es read as read as read <10 0.4 Mid Center/Edge <2 <2 <2 <2 es reBd as read as read as reed <10 0.4 Plume Ed e <2 <2 <2 <2 as read es read as read as read <10 0.5 Centerline <2 <2 <2 <2 as read as read as read as read <10 0.5 Mid Center/Edge <2 <2 ,<2 <2 as read 'as read as reed as read <10 0.5 Plume Ed 8 <2 <2 <2 <2 as read as reed as read as read <10 0.6 Centerline <2 <2 <2 <2 as read as read as reed as read <10 0.6 Mid Center/Edge <2 <2 <2 <2 BS feBd as reBd as read as feed <10 0.6 Plume Ed e <2 <2 <2 <2 as read as read as read Bs read <10 0.7 Centerline <2 <2 <2 <2 as reed as read as reed as feed <10 0.7 Mid Center/Edge <2 <2 <2 <2 as read Bs feed es read as read <10 0.7 Plume Ed 8 <2 <2 <2 <2 BS rBBd as read as reed as reed <10 0.6 Centerline <2 <2 <2 <2 as reBd as read as read Bs reBd <10 0.6 Mid Center/Edge <2 <2 <2 <2 as read BS fBBd as read BS feed <10 0.8 Plume Ed e <2 <2 <2 <2 Bs reed Bs reBd as read as read <10 ABBREVIATIONKEY & NOTES CW i Closed Window mR ~ milli Rem hr ~ Hour OW ~ Open Window CPM = Counts Per Minute NA,~ Not Applicable OSH = Off Scale High SRD = Self Reading Dosimeter Notes: 1. Background for Gross lodines and Particulates is assumed to be 30 CPM.

2. All data before and after date times are "es read".
3. Date outside isopleths ere as read."

10.1- 1

SIO) OUIOII)!

I, 9 SO)!W a>VOS I

'I

~5 ls 'll Il St elx I X IA eWo St oe IOQ IOAOSOO 0 I )

r / ll4I 444 44 V>>0 VVI III SIIIW Une 'IAT I ~ I)

~ \ I I II A )IOq!II) 1 0 lr O>>III IP 0>>0 v>>lJIA'5 4 V

>> 0 II IIOO I III ~ II 00 hl5 S.UO))ne 044ll 54 UN't 'IATTWII AII II 4>> ~ 0404 I

II~

A+ ~ I>> 1414 VI 5 SIO Iv ~ I>>

/'SIOO leod St

~ I s,lopuoa ao>>I <</

0 Sl 9 .IIIINIIIS

'uuole 0 llIIU>>T 44, I ITU J $ H St C~P Sll I'S

)5e

)h . 0)

/ slo

<<UOsd 0 Sll

~

T I I IUN IIA

'44 Illll It)!))ea 0 SII!W ssn)I

~ IAI ~ Il>>

sl Og ss

/o ~ I 5 U Old. ~

Ill a

O~ Olil PI 0<<>>

~

k 44IQ C

4 A~ L SI 4

0>>

4 p

1, &g 55 I>>

Ol O>>4

4) ION Oss IOg>>

POOAAIIOM

~ O

~ I 4!! On 0 I O

PA P

o tn

'tp 0 SS ss e P OO "41 l1 lv(II q)n t

'I '0 1 404 Sl ~ Ie 'Slo I4OO! )!

)55TI T VIS gr IS I IVI ~ I 'SIOQ Pl)8 u!Iu ng sr OO44 OOO

!XIIII OT Dl 3OI S,UI)sny Ol I'ue4))OI C 'OT 0 ~

HISTN IVOIS

~541 All>>I UOAO)I S IJ d >>o))n!I I<< 0

'OT 5I IOI A V a II I) I xp IIVIAA Iol P 'IO 5 41 O'B o II AAO '4l or ~ S T ~ I

'= lV

~I

~ )I 1 1141 140 'OT led O)5 POOAAU o>> )I O I OPIA E >> VI Pe 'III 0 V 5 40 ~ 0<<A Z >I 4oln4 II)lo j' .

I

>>>> Jwr>> c R O

Wallru Z sexog O I 4 '4/elk e oAOII) )Ueseo!d A ol)e II o / SAIO I ~ ~ A<<

I) AOI) oolxoW )ulod o)IW

~ NOO J N

)Uiod OOIXOW

.01 II

.--'V ,II OV

~ .h nr IIUIOn Olklluell

I IININIlW%85%I

~ ~

i ~ ~

i '

i ~

~

~ i

~ ~

i ~

~ ~

i ~

I ~

i;

~ ~ ~

~ ~

~

~ ~

I ~ ~

i ~

~ ~

~ ~

i~ i, i I ~

~

I i ~

~ ~ ~ ~

~ ~

~ ~ ~ ~

~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~

~ i i O ~ ~ ~ ~

Table 10.1 Nine Mile Point Unit 2 Onsite Instrument Readin s Exercise Scenario 41 Elevated Plume Data Real Time: 12:30 Drill Time: 06:30 Survey Meter - R02 Survey Meter Qfosd Gross SRD Plum'8 3 feat Contact E140N iodine Part. Par 5 Min Loca'tl on O.W. C.W. O.W. C.W. 3' Contact NMPC NMPC NMPC miles mR/hr mR/hr mR/hr mR/hr ml mR 0.1 Centerline <2 <2 <2 <2 12 12 as read as food <10 0.1 Mid Center/Edge <2 <2 <2 <2 7 8 as feed as read <10 0.1 Plurne Ed e <2 <2 <2 <2 2 2 as read es read <10 0.2 Centerline <2 <2 <2 <2 14 14 OS feed as read <10 0.2 Mid Center/Edge <2 <2 <2 <2 9 as feed as read ~

<10 0.2 Plume Ed e <2 <2 <2 <2 2 2 as read as read <10 0.3 Centerline <2 <2 <2 12 12 as read os read <10 0.3 Mid Center/Edge <2 <2 <2 <2 7 7 as read as read <10 0.3 Plume Edge <2 <2 <2 <2 2 2 as read as read <10 0.4 Centerline <2 <2 <2 <2 12 12 OS food as read <10 0.4 Mid Center/Edgo <2 (2 <2 <2 8 8 as read as read <10 0.4 Plume Ed e <2 (2 <2 <2 2 2 as read '8S fe8d <10 0.5 Centerline <2 <2 <2 <2 18 18 as read OS feed <10 0.5 Mid Center/Edge <2 <2 <2 <2 11 11 as read as read <10 0.5 Plume Ed 8 <2 <2 <2 3 3 OS feed 8s read <10 0.6 Centerline <2 <2 <2 <2 22 22 as read as read 10 0.6 Mid Canter/Edge <2 (2 <2 (2 14 14 as read as read <10 0.6 Plume Ed e <2 <2 <2 <2 3 3 as road es read <10 0.7 Centerline <2 (2 <2 (2 22 23 as read as read <10 0.7 Mid Center/Edge <2 <2 <2 <2 14 14 as read as read <10 0.7 Plume Ed e <2 <2 <2 (2 3 as read es read (10 0.8 Centerline <2 <2 <2 21 21 as road as re8d <10 0.8 Mid Center/Edge <2 <2 (2 13 13 OS feed as read <10 0.8 Plume Ed e <2 (2 3 3 as read es read <10 ABBREVIATIONKEY 5 NOTES CW ~ Closed Window mR ~ milli Rem hr e Hour OW ~ Open Window CPM ~ Counts Per Minute NA ~ Not Applicable OSH ~ Off Scale High SRD ~ Self Reading Dosimeter Notes: 1. Background for Gross lcdines and Particulates is assumed to be 30 CPM.

2. AII data before and after data times are "as read".
3. Data outside isopleths afe as feed."

10.1- 3

Table 10.1 Nine Mile Point Unit 2 Onsite Instrument Readin s Exercise Scenario 41

, Elevated Plume Data Reel lime: 12:46 Drill Time: 06:45 Survey Meter - R02 Survey Meter Gross Gross BRD Plume 3 feet Contact E140N Iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 3e Contact NMPC NMPC NMPC miles mR/hr mR/hr mR/hr mR/hr c m mR 0.1 Centerline 11 8 11 30454 30454 as read as read <10 0.1 Mid Center/Edge 7 5 7 18577 18577 as read as food <10 0.1 Plums Ed e <2 <2 <2 <2 4264 4264 as read as read <10 0.2 Centerline 13 10 13 10 35268 35268 as read as read <10 6 21514 21514 as read as read '< '10 0.2 Mid Center/Edge 8 6 8 0.2 Plume Ed e <2 <2 <2 <2 4938 4938 as read as read <10 0.3 Contorline 11' 8 11 30366 30370 as read e

as read <10 0.3 Mid Cantor/Edge 5 7 18523 18526 as re8d as read <10 0.3 Plums Edge <2 <2 <2 <2 4251 4252 as read as read <10 0.4 Centorline 11 8 11 8 30507 30526 91 cpm as read <10 0.4 Mid Center/Edge 7 5 7 5 18609 18621 56 cpm as road <10 0.4 Plume Ed e <2 <2 <2 <2 4271 4274 as read is read <10 0.5 Centerline 16 13 16 13 45392 45425 160 cpm 8S fo8d 1 0.5 Mid Center/Edge 10 8 10 8 27689 '7709 97 cpm as read <10 0.5 Plume Ed e 2 <2 2 <2 6355 6360 as reed os read <10 0.6 Centorhno 20 15 20 15 OSH OSH 196 cpm. 60 cpm 0.6 Mid Center/Edge 12 9 12 9 33496 33521 119 cpm os read <10 0.6 Plume Ed e 3 2 3 2 7688 7693 os reed as reed <10 0.7 Centerline 20 15 20 15 OSH OSH 199 cpm 61 cpm 1 0.7 Mid Center/Edge 12 9 12 9 34001 34027 121 cpm as read <10 0.7 Plume Ed e 3 2 7804 7809 as read es reed <10 0.8 Centerline 19 14 19 14 OSH OSH 185 cpm 57 cpm 1 0.8 Mid Center/Edge 11 9 11 9 31642 31666 113 cpm as rend <10 0.8 Plume Ed e 3 2 3 2 7262 7268 8S fe8d es read <10 ABBREVIATIONKEY L NOTES CW = Closed Window mR ~ milli Rem hr ~ Hour OW ~ Open Window CPM ~ Counts Per Minute NA .~ Not Applicable OSH = Off Scale High SRD ~ Self Roading Dosimeter Notes: l. Background for Gross lodines and PaniculsteS is aSsumed to be 30 CPM.

2. All date before ond after data times are "as reed .
3. Data outside isopleths are "as read."

10.1- 4

, Table 10.1 Nine Mile Point Unit 2 Onsite Instrument Readin s Exercise Scenario 41 e

Elevated Plume Data Real Time: 13:00 Drill Time: 07:00 e

Survey Meter - R02 e Survey Motor Gross SRD Gross'art.

Plume 3 feet Contact E140N ladino Per 5 Min e

Location O.W. C.W. O.W. C.W. 3e Contact NMPC NMPC NMPC miles mR/hr mR/hr mR/hr mR/hr c m mR 0.1 Centerline 404 311 404 311 OSH OSH as read as read 26 0.1 Mid Center/Edge 247 190 247 190 OSH OSH as read as read 16 0.1 Plume Ed e 57 44 57 44 OSH OSH 8s read as read 4 0.2 Centerline 468 360 468 360 OSH OSH 8s fo8d as read 30 0.2 Mid Center/Edge 286 220 286 220 OSH OSH 8s read as read 18 0.2 Plume Ed e 66 50 66 50 OSH OSK as read as read 4 310 751 cpm 233 cprrl 26

'SH 0.3 Centerline 403 310 403 OSH 0.3 Mid Conter/Edge 246 189 246 189 OSH OSH 458 cpm 142 cpm 16

~0.3 Plume Ed 56 43 56 43 OSH OSH 105c m as read 4 0.4 Centerline 405 311 405 312 OSH OSH 3471 cpm 1080 cpm 26 Oe4 Mid Center/Edge 247 190 247 190 OSH OSH 2118 cpm 659 cpm 16 0.4 Plume E~de 57 44 57 44 OSH OSH 486c m 151c m 0.5 Centerline 603 463 603 464 OSH OSH 2 mR/hr 1894 cpm 39 0.5 Mid Center/Edge e

368 283 ,368 283 OSH OSH 1 mR/hr 1155 cpm 24 0.5 Plume Ed e 84 65 84 65 OSH OSH 852c m 265c m 5 0.6 Centerline 729 561 729 561 OSH OSH 2 mR/hr 2323 cpm 47 0.6 Mid Center/Edge 445 342 445 342 OSH OSH 1 mR/hr 1417 cpm 29 0.6 Plume Ed e 102 78 102 79 OSH OSH 1046 c m 325 c m 7 0.7 Centerline 740 569 740 570 OSH OSH 2 mR/hr 2361 cpm 47 0.7 Mid Center/Edge 451 347 452 347 OSH OSH 1 mR/hr 'l 440 cpm 29 0.7 Plume Ed e 104 80 104 80 OSH OSH 1063 c m 331 c nl 7 ~

0.8 Centerline 689 530 689 530 OSH OSH 2 mR/hr 2198 cpm 44 0.8 Mid Center/Edge 420 323 420 323 OSH OSH 1 mR/hr 1341 cpm 27 0.8 Plume Ed e 96 74 96 74 OSH OSH 990c m 308c m 6 ABBREVlATIONKEY 8 NOTES CW ~ Closed Window mR ~ milli Rem hr a Hour OW = Open Window CPM ~ Counts Per Minute NA, ~ Not Applicable OSH ~ Off Scale High SRD ~ Self Reading Dosimeter Notes: 1. Background for Gross lodines and Particulates is assumed to be 30 CPM.

2. All date before end after data times ere "as read".
3. Data outside isoploths ere "as road.

10.1- 5

Table 10.1 Nine Mite Point Unit 2 Onsite Instrument Readin s Exercise Scenario 41 Elevated Plume Data Real Time: 13:15 Drill Time: 07:15 Survey Meter - R02 Survey Meter Gross SRD Plume 3 feet Contact 5140M Iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 3d Contact NMPC NMPC NMPC miles mR/hr mR/hr mR/hr mR/hr c m c m mR 0.1 Centerline 305 235 305 235 OSH OSH as road as read 20 0.1 Mid Center/Edge 186 143 186 143 OSH OSH as read as reed 12 0.1 Plums Ed e 43 33 43 33 OSH OSH as read as read 3 0.2 Centerline 353 272 353 272 OSH OSH as read as read 23 0.2 Mid Center/Edge 215 166 215 166 OSH OSH as read as read 14 0.2 Plume Ed e 49 38 49 38 OSH d OSH as read as reed 3 0.3 Centerline 304 234 304 234 OSH OSH 588 cpm 185 cpm 19 0.3 Mid Center/Edge 185 143 186 143 OSH OSH 359 cpm 113 cpm 12 0.3 Plume Edge 43 33 43 33 OSH OSH 82c m as read 3 0.4 Centerline 306 235 306 235 OSH OSH 2719 cpm 857 cpm 20 0.4 Mid Center/Edge 186 143 'I 87 144 OSH OSH 1658 cpm 523 cpm 12 0~4Pt m Ed 43 33 43 33 OSH OSH 381c m 120 c m 3 0.5 Centerline 455 350 455 350 OSH OSH 1 mR/hr 1503 cpm 29 0.5 Mid Center/Edge 277 213 278 214 OSH OSH 2909 cpm 917 cpm 18 0.5 Plume Ed e 64 49 64 49 OSH OSH 668 c m 210 c rn 4 0.6 Centerline 550 423 551 424 OSH OSH 2 mR/hr 1844 cpm '35 0.6 Mid Center/Edge 335 258 336 259 OSH OSH 3568 cpm 1125 cpm 22 0.6 Plume Ed e 77 59 77 59 OSH OSH 819c m 258 c m 5 0.7 Centerline 558 429 559 430 OSH OSH 2 mR/hr 1875 cpm 36 0.7 Mid Center/Edge 341 262 341 262 OSH OSH 1 mR/hr 1144 cpm 22 0.7 Plume Ed e 78 60 78 60 OSH OSH 833 c m 262c m 5.

0.8 Centerline 519 400 520 400 OSH OSH 2 mR/hr 1745 cpm 33 0.8 Mid Center/Edge 317 244 317 244 OSH OSH 3377 cpm 1064 cpm 20 0.8 Plume Ed c 73 56 73 56 OSH OSH 775 c m 244c m 5 ABBREVIATIONKEY st NOTES CW d* Closed Window mR ~ migi Rom hr ~ Hour OW ~ Open Window CPM ~ Counts Per Minute NA ~ Not Applicable OSH Off Scale High SRD ~ Self Reading Dosimeter Notes: 1. Background for Gross lodines and Particulates is assumed to be 30 CPM.

2. All dote before end after date times are "as read".
3. Data outside isopleths are "as read."

10.1- 6

Table 10.1 Nine Mile Point Unit 2 Onsite Instrument Readin s Exercise Scenario 41

. Elevated Plume Data Real Time: 13:30 Drill Time: 07:30 Survey Meter - R02 Survey Mater Gross Gross SRD I'lume 3 feat Contact E140N Iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 3I Contact NMPC NMPC NMPC miles mR/hr mR/hr mR/hr mR/hr c m c tn mR 0.1 Centerline 17 13 17 13 46099 46099 ss read ss read 1 0.1 Mid Center/Edge 10 8 10 8 28120 28120 ss read ss read <10 0.1 Plume Ed e 2 <2 2 <2 6454 6454 as road ss read <10 0.2 Centerline 19 15 19 15 OSH OSH 8S fe8d as r8sd 1 0.2 Mid CenterlEdga 12 9 12 9 32566 32569 as feed as road '<10 0.2 Plume Ed a 3 2 3 2 7474 7475 ss read as read <10 0.3 Contorline 17 13 17 13 45996 46273 as read ss lold 1 0.3 Mid Cantor/Edge 10 10 8 28057 28226 ss read as read <10 0.3 Plum~eEd e 2 <2 2 <2 6439 6478 as read ss read <10 0.4 Contetline 17 13 17 13 46318 4759& 154 cpm as read 1 0.4 Mid CanterlEdge 10 8 10 8 28254 29035 94 cpm as read <10 0.4 Plume Ed a 2 <2 2 <2 6485 6664 ss read as read <10 0.5 Conterline 25 19 26 '20 OSH OSH 270 cpm 86 cpm 2 0.5 Mid Canter/Edge 15 12 16 12 42062 43431 165 cpm 53 cptn <10 0.5 Plume Ed o 3 3 ~

4 3 9654 9968 as toad as read <10 0.6 Centetlino 30 23 31 24 OSH OSH 332 cpm 106 cpm 2 0.6 Mid Center/Edge 18 14 19 15 OSH OSH 202 cpm 65 cpm '1 0.6 Plurne Ed a 4 3 3 1 1679 12064 ss road ss rasd <10 0.7 Centerline 31 24 32 24 OSH OSH 337 cpm 108 cptn 2 0.7 Mid Center/Edge 19 14 19 15 OSH OSH 206 cpm 66 cpm 1 0.7 Plume Ed a 4 3 4 3 11855 1 2247 as read as read <10 0.8 Cantotline 28 22 29 23 OSH OSH 314 cpm 100 cpm 2 0.8 Mid Center/Edge 17 13 18 14 48070 49660 191 cpm 61 cpm 1 0.8 Plume Ed o 4 3 4 3 11032 11397 as read ss toad <10 ABBREVIATIONKEY 5 NOTES CW ~ Closed Window mR ~ milli Rem hr ~ Hour OW ~ Open Window CPM ~ Counts Per Minute NA .~ Not Applicable QSH ~ Off Scale High SRD ~ Self Reading Dositneter Notes: 1. Background for Gross lodines snd Particulates is sssumod to be 30 CPM.

2. All data before and after data times 8ro ss food".
3. Dots outside isoplaths are "ss read."

10.1- 7

Table 10.1 Nine Mlle Point Unit 2 Onsite Instrument Readin s Exercise Scenario 41 Elevated Plume Data e Real Time: 13:45 Drill Time: 07:45 Survey Meter - R02 Survey Meter Gross Gross SRD Plume 3 fest Contact E140N ladino Part. Per 5 Min Location O.W. C.W. O.W. C.W. 3e Contact NMPC NMPC NMPC miles mR/hr mR/hr mR/hr mR/ r c m c m mR O.l Centerline <2 <2 <2 <2 225 225 as read as read <10 0.1 Mid Center/Edge <2 <2 <2 <2 137 137 ss read as read <10 0.1 Plumo Ed e <2 <2 <2 <2 32 32 as read as read <10 0.2 Centerlino <2 <2 <2 <2 261 266 as read as feed <10 0.2 Mid Center/Edge <2 <2 <2 <2 159 162 as feed as read <10 0.2 Plume Ed o <2 <2 <2 <2 37 ~ 37 as read as read <10 0.3 Centerline <2 <2 <2 <2 254 523 ss read as read <10 0.3 Mid Cantor/Edge <2 <2 <2 <2 155 319 as read ss read <10 0.3 Plume Edge <2 <2 <2 <2 36 73 ss read as read <10 0.4 Conterlino <2 <2 <2 <2 364 1606 as read as read <10 0.4 Mid Center/Edge <2 <2 <2 <2 222 980 as read ss read <10 0~4Pte e Ed e <2 <2 <2 <2 51 225 as read as read <10 0.5 Centerline <2 <2 <2 <2 578 2757 as reed as read <10 0.5 Mid Center/Edge <2 <2 <2 <2 352 1682 ss read as read <10 0.5 Plume Ed e <2 <2 <2 <2 81 386 ss read ss read <10

.6 Centerline <2 <2 <2 <2 703 3376 as read as read <10

.6 Mid Conter/Edge <2 <2 <2 <2 429 2059 es read as read <10

.6 Plume Ed o <2 <2 <2 <2 98 473 ss read ss read <10

.7 Centerline <2 <2 <2 <2 714 3431 ss read as reed <10 0.7 Mid Center/Edge <2 <2 <2 <2 435 2093 as read ss read <10 0.7 Plume Ed e <2 <2 <2 <2 100 480 ss road ss read <10 0.8 Centerline <2 <2 <2 <2 664 3194 as read as read <10 0.8 Mid Center/Edge <2 <2 <2 <2 405 1948 as read ss road <10 0.8 Plume Ed e <2 <2 <2 <2 93 447 ss read ss read <10 ABBREVIATIONKEY 8d NOTES'W

~ Closed Window mR ~ milli Rem hr -<<Hour OW ~ Open Window CPM ~ Counts Per Minute NA ~ Not Applicable OSH ~ Off Scale High SRD ~ Self Reading Dosimeter Notes: 1. Background for Gross lodines snd Particulates is assumed to be 30 CPM.

2. All data before and after data times ere "ss read".
3. Dots outside isopleths sre "as read."

10.1- 8

0 0

~ ~

0 ~ ~; ~ ~

5%5%NSWl%88%NN

~ ~

! ~

~ ~

~ ~

~ I I ~

~ ~ I ~

I '

~

~ ' ~ ~ I '

~

I '

~ ~

~ ~

~ '

~ ~ ~ ~ I

~ ~

' ~ q I  ! ~

I ~

~ ~

() ~ ~ ~

~ t I '

I '

~

~ ~ ~ ~ ~

~ ~ .

~ ~ i

~ ~ I ~ ~; ~

~ ' ~ ~ ~ ~

<O.2 Nine Mil Unit 2 NMPC Offsite Instrument Readings for Elevated Plume Exercise Scenario 41

'eel Time: 12:00 Survey Meter - R02 survey Meter Gross Gross SRD Plume 3 feet Contact E140N iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 30 Contact NMPC NMPC lmiles) (mR/hr) lmR/hr) lmR/hr) lmR/hr) {cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 <2 as road as feed es f884 as read <1

.87 Mid Center/Edge <2 <2 <2 <2 as read as read as read es read <1

.87 Plume Edge <2 <2 <2 <2 as read as reed as read as read <1 1 Centerline <2 <2 <2 <2 es reed as read as read as read <1 1 Mid Center/E4ge <2 <2 <2 <2 as reed ss reed as read as read <1 1 Plums Edge <2 <2 <2 <2 as read as read ss read as read <1 2 Centerline <2 <2 <2 <2 es read as read as read as reed <1 2 Mid Center/Edge <2 <2 <2 <2 8S read as read as reed as read <1 2 Plume Edge <2 <2 <2 <2 as read as reed as read as read <1 3 Centerline <2 <2 <2 <2 as read as read as read as reed <1 3 Mid Center/Edge <2 <2 <2 <2 as read as read as road as read <1 3 Plume Edge <2 <2 <2 <2 ss reed 8s read as read 8s re84 <1 4 Centerline <2 <2 <2 <2 as read 8s re84 as read as read <1 4 Mid Canter/Edge <2 <2 <2 <2 as read as reed as read as read <1 4 Plume Edge <2 <2 <2 <2 as road as read as read 8s read <1 5 Centerline <2 <2 <2 <2 es read as read ss read., as read <1 5 Mid Center/Edge <2 <2 <2 <2 as rand as read as read 8S fe8d <1 5 Plume Edge <2 <2 <2 <2 as re84 as road as road as read <1 6 Centerline <2 <2 <2 <2 as reed as read as read as read <1 6 Mid Center/Edge <2 <2 <2 <2 ss read as read as read as read <1 6 Plume Edge <2 <2 <2 <2 as read as road as reed 8s re8d <1 7 Centerline <2 <2 <2 <2 as read as read ss reed as read <1 7 Mid Center/Edge <2 <2 <2 <2 as read as read as read 8s read <1 7 Plume Edge <2 <2 <2 <2 as read as read as read as read <1 8 Centerline <2 <2 <2 <2 as re84 as read as read as read <1 8 Mid Center/Edge <2 <2 <2 <2 as read 8s road as read as read <1 8 Plums Edge <2 <2 <2 <2 as read as reed 8S'fo8d as read <1 9 Centerline <2 <2 <2 <2 8S fo8d as read as read as read <1 9 Mid Center/Edge <2 <2 <2 <2 as read as read as read as reed <1 9 Plume Edge <2 <2 <2 <2 es read as reed as read as read <1 10 Centerline <2 <2 <2 <2 as reed s's reed as reed 8s read <1 10 Mid Center/E4ge <2 <2 <2 <2 as read as road as read 88 read <1 10 Plume Edge <2 <2 <2 <2 as read as read as fe8d as read <1 Note: Data outside isoplcths are "es read." 10.2- 1

0 Ic 10.2 Nine Mile Unit 2 .

NMPC Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 12:15 Survey Meter ~ R02 Survey Mater Gfoss Gross SRD Plume 3 feat Contact E140N iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 3I Contact NMPC NMPC (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 <2 as read 0$ reed as read 8$ f884 <1

.87 Mid Center/Edge <2 <2 <2 <2 es reed as read es read as read <1

.87 Plume Edge <2 <2 <2 <2 8$ f084 as read as read 8$ feed <1 1 Centerline <2 <2 <2 <2 as reed ss read es reed as read <1 1 Mid Center/Edge <2 <2 <2 <2 as reed Bs feed es reed as read <1 1 Plume Edge <2 <2 <2 <2 es read. as reed as read es read <1 2 Centerline <2 <2 <2 <2 BS feBd BS feed as reed es reed 2 Mid Center/Edge <2 <2 <2 <2 es read 8$ f084 as read as read 2 Plume Edge <2 <2 <2 <2 as read as read as read Bs read 3 Centerline <2 <2 <2 <2 as read as read es read as feed <1 3 Mid Center/Edge <2 <2 <2 <2 8$ read as reed 0$ M84 as read 3 Plume Edge, <2 <2 <2 <2 as read as read es read as read <1 4 Centerline <2 <2 <2 <2 as reed as read as read Bs r08d <1 4 Mid Center/Edge <2 <2 <2 <2 as read as read as read as read <1 4 Plume Edge <2 <2 <2 <2 es reed as read as read 8$ Mad <1 5 Centerline <2 <2 <2 <2 as reed as reed 8$ reBd as read <1 5 Mid Center/Edge <2 <2 <2 <2 as read as reed as read 8$ r884 <1 5 Plume Edge <2 <2 <2 <2 es reed as reed as read as reed <1.

6 Centerline <2 <2 <2 <2 as read as read 8$ MBd as read 6 Mid Center/Edge <2 <2 <2 <2 as read as reed as re84 as read 6 Plume Edge <2 <2 <2 <2 as read as read 8$ read 8$ M84 7 Centerline <2 <2 <2 <2 as read as read 8$ read as read <1 7 Mid Conter/Edge <2 <2 <2 <2 Bs read 8$ read as read as read <1 7 Plume Edge <2 <2 <2 <2 as read as read 8$ feBd as read <1 8 Centerline <2 <2 <2 <2 BS Mad . as read BS feed 8$ read <1 8 Mid Center/Edge <2 <2 <2 <2 as read as read 8$ f084 8$ f084 <1 8 Plume Edge <2 <2 <2 <2 as read as reed 8$ MBd Bs read <1 9 Centerline <2 <2 <2 <2 BS fBBd as read Bs read as read <1 9 Mid Center/Edge <2 <2 <2 <2 as read as read es read as reed <1 9 Plume Edge <2 <2 <2 <2 as read as read 8$ Med 8$ reBd <1 10 Centerline <2 <2 <2 <2 as read 8$ read 8$ reBd 8$ read <1 10 Mid Center/Edge <2 <2 <2 <2 as read as read as read as reed <1 10 Plume Edge <2 <2 <2 <2 as read as read as read as feed <1 Note: Data outside isople!hs are "Bs read." '0.2-2

iu 10.2 Nine Mile Unit 2 NMPC Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Rosl Time: 12:30 Survey Meter - R02 Survey Mater Gross Gross SRD Plume 3 (oet Contact E140N Iodine Part. Pet 5 Mln Location O.W. C.W. O.W. C.W. 3I Contact NMPC NMPC (miles) (mR/hr) (mR/hr) (cnR/ht) (mR/hrl (cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 <2 40 40 8S fdad ds feed <1

.87 Mid Center/Edge <2 <2 <2 <2 24 24 as reed as read <1

.87 Plume Edge <2 <2 <2 <2 6 6 8s road as read <1 1 Centerline <2 <2 <2 <2 36 36 as read as read <1 1 Mid Center/Edge <2 <2 <2 "<2 22 22 as read as teed <1 1 Plume Edge <2 <2 <2 <2 4 4 is reed as read <1 2 Centerline <2 <2 <2 <2 14 14 as read as read <1 2 Mid Center/Edge <2 <2 <2 <2 10 10 as read as read <1 2 Plume Edge' <2 <2 <2 <2 2 2 as read as read <1 Centerline <2 <2 <2 <2 8s read es read <1 3 Mid Center/Edge <2 <2 <2 <2 as read as read <1 3 P(ume Edge. <2 <2 <2 <2 as read 8s re8d 8s read as read <1 4 Centerline (2 <2 <2 <2 es read as read as ro8d. es reed <1 4 Mid Center/Edge <2 <2 <2 <2 es reed es reed as reed ss reed <1 4 Plume Edge (2 <2 <2 <2 as read as read as read es read <1 5 Centerline <2 <2 <2 <2 as read as teed as read . as read <1 5 Mid Center/Edge <2 <2 <2 <2 as ce8d as read es read as read <1 5 Plume Edge (2 <2 <2 <2 as read as read 8S Cead ss fo8d <1.

6 Centerline <2 <2 <2 <2 es re8d as read as read as read <1 6 Mid Center/Edge <2 <2 <2 <2 as read as read as read as reed <1 6 Plume Edge (2 <2 <2 <2 as read as read 8S teed as teed <1 7 Centerline (2 (2 <2 <2 as read ss read as read as read <1 7 Mid Center/Edge <2 <2 <2 <2 es cosd as read as read as read <1 7 Plume Edge <2 <2 <2 <2 as read ss read as read ss reed <1 8 Centerline <2 (2 <2 <2 as read as read as read as read <1 8 Mid Center/Edge (2 <2 <2 <2 as read es read as read as read <1 8 Plume Edge (2 <2 <2 <2 ss read ss reed as read OS fd8d <1 9 Centerline (2 <2 <2 <2 as read as read as read as reed <1 9 Mid Center/Edge <2 <2 <2 <2 8S teed 8s cd8d as teed as reed <1 9 Plume Edge <2 <2 <2 <2 as read ss read as read as read <1 10 Centerline <2 <2 <2 ss reed as read- as food 8S fd8d <1 10.Mid Center/Edge <2 <2 <2 <2 as read as read ss read ss read <1 10 Plume Edge <2 <2 <2 <2 8s re8d ss read as read es teed <1 Nota: Dote outside isopleths are "ss read." 10.2- 3

10.2 Nine Mile Unit 2 NMPC Offsite Instrument Readings for Elevated Plume Exercise Scena)10 41 Real Time: 12:45 Survey Meter - R02 Survey Meter Gross Gross SRD 3 (eot Contact E140N iodine Pert. Per 5 Min Plume O.W. C.W. O.W. C.W. 30 Contact NMPC NMPC Location (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

(miles) 18 14 18 14 48955 48992 175 cpm 8$ Med 1

.87 Centerline

.87 Mid Cantor/Edge ll 8 8 29863 29885 107 cpm as Med <1

.87 Plume Edge 2 <2 <2 6854 6859 as read 8$ Mad <1 1 Centerline 16 12 16 12 43632 43665 156 cpm as read 1 1 Mid Center/Edge 10 7 10 7 26615 26636 95 cpm 8$ read <1 1 Plume Edge 2 <2 2 <2 6108 6113 as read as read <1 2 Centerline 14 10 14 10 36623 36623 65 cpm es reed <1 2 Mid Canter/Edge 8 6 8 6 22344 22344 8S Mad as reed <1 2 Plume Edge <2 <2 <2 <2 5030 5030 as reed 8S M8d <1 3 Centerline 6 6 6 19160 19160 as read as read 3 Mid Center/Edge 4 4 4 10646 10646 8$ road as read 3 Plumo Edge. <2 <2 <2 <2 2682 2682 8$ M8d as reed 4 Centerline <2 <2 <2 <2 326 328 es read 8$ Mad <1 4 Mid Center/Edge <2 <2- <2 <2 200 200 as read 8$ Mad <1 4 Plume Edge <2 <2 <2 <2 46 46 8$ road as read <1 5 Conterlino <2 <2 <2 <2 es read'. 8s read <1 5 Mid Center/Edge <2 <2 <2 <2 as read 8$ M8d <1 5 Plume Edge <2 <2 <2 <2 as road es read 8$ road as reed <1 6 Centerline <2 <2 <2 <2 as reed 8$ M8d <1, 6 Mid Center/Edge <2 <2 <2 <2 8$ reed as read as read as reed <1 6 Plums Edge <2 <2 <2 <2 as read as read es read as read <1 7 Centerline <2 <2 <2 <2 as read as read as read as read <1 7 Mid Center/Edge <2 <2 <2 <2 as read as read as read as reed <1 7 Plume Edge <2 <2 <2 <2 8s read as read as reed as read <1 8 Centerline <2 <2 <2 <2 8S Mad as read as read 8$ M8d <1 8 Mid Center/Edge <2 <2 <2 <2 as reed es read as reed as reed <1 8 Plume Edge <2 <2 <2 <2 as read as reed as'read as read <1 9 Centerline <2 <2 <2 <2 ss read as read as read es read <1 9 Mid Center/Edge <2 <2 <2 <2 as read ss reed es read as read <1 9 Plums Edge <2 <2 <2 <2 es fe8d 8S Mad -

as read as read <1 10 Centerline <2 <2 <2 <2 as read as read as read as read <1 10 Mid Center/Edgo <2 <2 <2 <2 as read 8$ Mad es read as reed <1 10 Plume Edge <2 <2 <2 <2 as reed as read as read 8$ road <1 Note: Data outside isopleths are "es read." 10.2- 4

tu 10.2 Nine Mite t Unit 2 ..

NMPC Offsite Instrument Readings for Elevated Plume Exercise Scena(1o 41 Reel Time: 13:00 Survey Meter - R02 Survey Meter Gross SRD Plurne 3 (eet Contact E140N Iodine Part. Per 5 Min I.ocetion O.W. C.W. O.W. C.W. 3I Contact NMPC NMPC (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline 650 500 650 500 OSH OSH 2 mR/hr 1619 cpm 42

.87 Mid Center/Edge 396 305 397 305 OSH OSH 1 mR/hr 987 cpm 25

.87 Plume Edge 91 70 91 70 OSH OSH 934 cpm 227 cpm 1 Centerline 579 446 580 446 OSH OSH 2 mR/hr 1443 cpm 37 1 Mid Center/Edge 353 272 354 272 OSH OSH 1 mR/hr 880 cpm 23 1 Plume Edge 81 62 81 62 OSH OSH 832 cpm 202 cpm 5 2 Centerline 483 374 486- 374 OSH OSH 2497 cpm 606 cpm 16 2 Mid Center/Edge 296 228 296 228 OSH OSH 1523 cpm 370 cpm 10 2 Plume Edge 68 52 68 52 OSH OSH 350 cpm 85 cpm 2 3 Centerline 256 196 256 196 OSH OSH 1310 cpm 318 cpm 8 3 Mid Canter/Edge 156 120 156 120 OSH OSH 799 cpm 194 cpm 5 3 Plume Edge 36 28 36 28 OSH OSH 183 cpm as read 1 4 Centerline 10 8 10 8 26208 26208 as read as read <1 4 Mid Center/Edge 6 4 6 4 15995 16000 as read as reed <1 4 Plume Edge <2 <2 <2 <2 3670 3672 as read as reed <1 5 Centerline <2 <2 <2 <2 10466 10544 as read as read <1 5 Mid Center/Edge <2 <2 <2 <2 6184 6390 as read as read <1 5 Plume Edge <2 <2 <2 <2 1466 1466 as read as read <1-6 Centerline <2 <2 <2 <2 6476 6480 as read as read <1'1 6 Mid Center/Edge <2 <2 <2 <2 3950 3954 as read as read 6 Plums Edge <2 <2 <2 <2 906 908 as read as reed <1 7 Centerline <2 <2 <2 <2 1662 1666 as read as read <1 7 Mid Center/Edge <2 <2 <2 <2 1014 1016 as read as read <1 7 Plume Edge <2 <2 <2 <2 232 234 as read as read <1 8 Centerline <2 <2 <2 <2 56 56 as read as read <1 8 Mid Center/Edge <2 <2 <2 <2 34 34 es read as read <1 8 Plume Edge <2 <2 <2 <2 8 8 as read as read <1 9 Centerline <2 <2 <2 <2 as read as read as read as read <1 9 Mid Center/Edge <2 <2 <2 <2 as reed as read as read as reed <1-9 Plume Edge <2 <2 <2 <2 as reed as read as read as read <1 10 Centerline <2 <2 <2 <2 as read as read as read as read <1 10 /void Center/Edge <2 <2 <2 <2 as read as read as read as read <1 10 Plume Edge <2 <2 <2 <2 as read as read as read - as read <1 Note: Data outside isopleths aro as feed." -

10.2-5

a tt:-10.2 Nine Mile it Unit 2 .-

NMPC Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reef Time: 13:15 Survey Meter ~ R02 Survey Meter Gross Gross SRD Plume 3 feet Contact 5140N iodine Pert. Per 5 Min Location O.W. C.W. O.W. C.W. 31 Contact NMPC NMPC (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline 490 377 491 378 OSH OSH 1 mR/hr 1293 cpm 31

.87 Mid Center/Edge 299 230 300 230 OSH OSH 3187 cpm 789 cpm 19

.87 Plume Edge 69 53 S9 53 OSK OSH 731 cpm 181 cpm 4 1 Centerline 437 336 438 337 OSH OSH 1 mR/hr 1153 cpm 28 1 Mid Center/Edge 267 205 2S7 205 OSH OSH 2840 cpm 703 cpm .17 1 Plurne Edge 61 47 61 47 OSH OSH 652 cpm 161 cpm 4 2 Centerline 368 282 368 242 OSH OSH 1955 cpm 484 cpm 12 2 Mid Center/Edge 224 176 224 176 OSH OSH 1193 cpm 295 cpm 7 2 Plurne Edge 52 40 52 40 OSH OSH 274 cpm 68 cpm 2 3 Centerline 228 176 228 176 OSH OSH 1214 cpm 301 cpm 7 3 Mid Center/Edge 140 106 140 108 OSH OSH 741 cpm 183 cpm 4 3 Plume Edge 32 24 32 24 OSH OSH 170 cpm as read 1 4 Centerline 194 150 194 150 OSH OSH 1015 cpm 251 cpm 6 4 Mid Center/Edge 118 92 118 92 OSH OSH 619 cpm 153 cpm 4 4 Plume Edge 28 20 28 20 OSH OSH 142 cpm es read <1 5 Centerline 140 106 140 108 OSH OSH 722 179 cpm 4 cpm'40 5 Mid Center/Edge 84 66 84 66 OSH OSH cpm 109 cpm 3 5 Plume Edge 20 14 20 14 OSH OSH 101 cpm as reed <1 ~

6 Centerline 86 66 86 66 OSH OSH 450 cpm 111 cpm 6 Mid Center/Edge 52 40 52 40 OSH OSH 275 cpm 68 cpm 2 6 Piume Edge 12 10 l2 10 33444 33444 63 cpm as read <1 7 Centerline 24 18 24 18 OSH OSH 124 cpm as read <1 7 Mid Center/Edge 14 12 14 12 40022 40054 75 cpm es read <1 7 Plume Edge 3 3 3 9186 9198 as read as reed <1 8 Centerline 2 2 2 2 6746 6746 as read as reed <1 8 Mid Center/Edge <2 <2 <2 <2 4120 4120 as read as read <1 8 Plume Edge <2 <2 <2 <2 944 944 as read as read <1 9 Centerline <2 <2 <2 <2 3222 3222 as read as read <1 9 Mid Center/Edge <2 <2 <2 <2 2034 2034 as read as read <1 9 Plume Edge <2 <2 <2 <2 466 466 as reed as read <1 10 Cenlerline <2 <2 <2 <2 1544 1544 as read as feed 10 Mid Center/Edge <2 <2 <2 <2 922 922 as read as read 10 Plurne Edge <2 <2 <2 <2 212 212 es read as reed Note: Date outside isopleths are as reed." 10.2- 6

ru 10.2 Nine Mil t Unit 2 .

NMPC Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 13:30 Survey Meter - R02 Survey Meter Gross Gross SRD Plume 3 feet Contact E140N iodine Part. Per 5 Min

).ocotion O.W. C.W. O.W. C.W. 3I Contact NMPC NMPC lmiles) lmR/hr) lmR/hr) lmR/hr) lmR/hr) (cpm) lcpm) (mR)

.87 Centerline 27 21 28 21 OSH OSH 296 cpm 75 cpm 2

.87 Mid Center/Edge 16 13 17 13 45367 46867 181 cpm as toad 1

.87 Plurne Edge 4 3 4 3 10412 10756 as read es read <1 1 Centerline 24 18 25 19 OSH OSH 264 cpm 67 cpm 2 1 Mid Center/Edge 15 11 15 12 40433 41771 161 cpm as read <1 1 Plume Edge 3 3 3 3 9280 ~ 9587 ss reed as road <1 2 Centerline 20 16 20 16 OSH OSH 111 cpm as reed <1 2 Mid Center/Edge 12 10 12 10 33989 35900 68 cpm ss feed <1 2 Plurne Edge 3 3 3 3 7800 7800 as read as read <1 3 Centerline 38 30 38 30 OSH OSH 209 cpm 53 cpm 3 Mid Center/Edge 24 18 24 18 OSH OSH 127 cpm as teed 3 Plume Edge 6 4 6 4 15676 14810 as read ss toad 4 Centerline 144 112 144 112 OSH OSH 784 cpm 198 cpm 5 4 Mid Center/Edge 88 68 88 68 OSH OSH 478 cpm- 121 cpm 3 4 Plume Edge 20 16 20 16 OSH OSH 110 cpm ss read <1 5 Centerline 106 80 106 82 OSH OSH 568 cpm 143 cpm 5 Mid Center/Edge 63 50 64 50 OSH OSH 346 cpm 87 cpm 5 Plume Edge 14. 12 14 12 40808 40899 79 cpm ss read 6 Centerline 78 60 78 60 OSH OSH 422 cpm 106 cpm 2 ~

6 Mid Center/Edge 48 36 48 36 OSH OSH 257 cpm 65 cpm 2 6 Plume Edge 10 8 10 8 30220 32276 59 cpm as read <1 7 Conterlino 76 58 76 58 OSH OSH 407 cpm 103 cpm 2 7 Mid Center/Edge 46 36 46 36 OSH OSH 249 cpm 63 cpm 1 7 Plume Edge 10 8 10 8 29570 29570 57 cpm ss road <1 8 Centerline 64 50 64 50 OSH OSH 340 cpm 86 cpm 2 8 Mid Center/Edge 40 30 40 30 OSH OSH 207 cpm 52 cpm 1 8 Plume Edge 8 6 8 6 24824 24844 as teed as read <1 9 Centerline 44 34 44 34 OSH OSH 237 cpm 60 cpm 1 9 Mid Center/Edge 28 20 28 20 OSH, OSH 144 cpm as read 9 Plume Edge 4 6 4 17222 17236 as read as read <1 10 Centerline 20 16 20 16 OSH OSH 111 cpm ss read <1 10 Mid Center/Edge 12 10 12 10 35028 35056 68 cpm as read <1 10 Plurne Edge 3 3 3 3 8040 8046 ss read ss reed <1 Nota: Dots outside isopleths sre "as reed." 10.2- 7

~ 10.2 Nine Mil Unit 2 NMPC Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 13:45 Survey Mater - R02 Survey Me'ter Gross SRD Plume 3 feet Contact E140N iodine Pert. Per 5 Min Location O.W. C.W. O.W. C.W. 3I Contact NMPC- NMPC (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) {cpm) {cpm) {mR)

.87 Centerline <2 <2 <2 <2 627 3014 es ro8d as re8d <1

.87 Mid Center/Edge <2 <2 <2 <2 383 1839 as read es read <1

.87 Plurne Edge <2 <2 <2 <2 88 422 as read es read <1 1 Centerline <2 <2 <2 <2 559 2687 as read as read <1 1 Mid Center/Edge <2 <2 <2 <2 341 1639 as reed es read <1 1 Plume Edgo <2 <2 <2 <2 78 376 as reed as reed <1 2 Centerline <2 <2 <2 <2 470 2260 as rood as read <1 2 Mid Center/Edge <2 <2 <2 <2 286 1376 as read as read <1 2 Plume Edge <2 <2 <2 <2 66 306 as read es rood <1 3 Centerline <2 <2 <2 3 4400 10912 es read 8s rood <1 3 Mid Center/Edge <2 <2 <2 <2 2680 3344 es read es read <1 3 Plume Edge. <2 <2 <2 <2 614 766 os ro8d as read <1 4 Centerline 8 6 21387 22696 as reed as read <1 4 Mid Center/Edgo 4 3 13386 13844 as read os read <1 4 Plume Edge <2 <2 <2 <2 3072 3178 as read 8s reed <1 5 Centerline 6 4 6 4 16455 17050 8s rood . as reed <1 5 Mid Center/Edge 3 3'2 3 3 10176 10400 es reed as read <1 5 Plume Edge <2 <2 <2 2302 2386 as read as read <1 6 Centerline 14 10 14 10 37158 37444 75 cpm ss reed <1.

6 Mid Center/Edge 8 6 8 6 22606 22842 as read ss read <1 6 Plume Edge 2 2 2 2 5196 5242 as reed es read <1 7 Centerline 46 36 46 36 OSH OSH 254 cpm 65 cpm 1 7 Mid Center/Edge 28 22 28 22 OSH OSH 155 cpm as read <1 7 Plumo Edge 6 4 6 4 17646 17800 es read as read <1 8 Centerline 48 38 48 38 OSH OSH 268 cpm 69 cpm 2 8 Mid Center/Edge 30 22 30 22 OSH OSH 164 cpm es re8d <1 8 Plurne Edge 6 6 6 6 18860 18896 as reed as read <1 9 Centerline 40 32 40. 32 OSH OSH 224 cpm 58 cpm 1 9 Mid Center/Edge 24 20 24 20 OSH OSH 137 cpm as read <1 9 Plume Edge 6 4 6 4 15624 15750 as reed es read <1 10 Centerline 38 30 40 30 OSH OSH 215 cpm 55 cpm 1 10 Mid Center/Edge 24 18 24 18 OSH OSH 131 cpm as reed <1 10 Plume Edge 6 4 6 4 15102 15122 as re'ed es read <1 Note: Octa outside isopleths are "as reed." 10.2- 8

ru 10.2 Nine Mile t Unit 2 NII/IPC Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 14:00 Survey Meter - R02 Survey Meter Gross Gross SRD 3 (eet Contact E140N iodine Pert. Per 5 Min Plume Location O.W. C.W. O.W. C.W. 3I Contact NMPC NMPC (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 <2 277 2592 as reed es reed <1

.87 Mid Center/Edge <2 <2 <2 <2 169 1581 as reed as read <1

.87 Plume Edge <2 <2 <2 <2 39 363 as reed as reed <1 1 Centerline <2 <2 <2 <2 246 2310 as Mad as Mad <1 1 Mid Center/Edge <2 <2 <2 <2 150 1409 es read as reed <1 1 Plume Edge <2 <2 <2 <2 35 323 as reed es reed <1 2 Centerline <2 <2 <2 <2 206 1840 es read es reed <1 2 Mid Center/Edge <2 <2 <2 <2 126 1188 as read as read <1 2 Plume Edge <2 <2 <2 <2 28 272 as read as teed <1 3 Centerline <2 <2 <2, <2 144 1190 as reed as read <1 3 Mid Center/Edge <2 <2 <2 <2 88 726 as read es read <.1 3 Plume Edge <2 <2 <2 <2 20 176 es read as read <1 4 Centerline <2 <2 <2 <2 188 826 as read as read <1 4 Mid Center/Edge <2 <2 <2 <2 116 576 as reed as read <1 4 Plurne Edge <2 <2 <2 <2 26 130 es read as teed <1 5 Centerline <2 <2 <2 <2 168 670 as Msd as Mad <1 5 Mid Center/Edge <2 <2 <2 <2 102 222 as reed as read <1 5 Plums Edge <2 <2 <2 <2 24 96 as read as road <1 6 Centerline <2 <2 <2 <2 1676 1944 as reed as read <1 6 Mid Centet/Edge <2 <2 <2 <2 962 1192 as read as read <1 6 Plurne Edge <2 <2 <2 <2 220 274 as reed as read <1 7 Centerline 2. 2 2 2 6868 7090 as read as read <1 7 Mid Center/Edge <2 <2 <2 <2 4190 4392 as reed as read <1 7 Plume Edge <2 <2 <2 <2 972 1006 as reed as Mad <1 8 Centerline 3 3 3 3 8652 8910 as reed as read <1 8 Mid Center/Edge <2 <2 <2 <2 5278 5436 as read as read <1 8 Plume Edge <2 <2 <2 <2 1212 1248 as read as read <1 9 Centerline 6 6 20032 20238 as feed as read <1 9 Mid Center/Edge 3 3 12220 12334 as read as read <1.

9 Plume Edge <2 <2 <2 <2 2804 2834 as read as read <1 10 Centerline 18 14 18 14 OSH OSH 108 cpm as teed <1 10 Mid Center/Edge 12 8 12 8 31978 32000 66 cpm as read <1 10 Plume Edge 2 2 2 2 7320 7342 as Mad . as read <1 Note: Data outside isopleths are "as reed." 10.2- 9

~ 10.3 Nine Mile Ir{ Unit 2 .

Oswego County Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 .

Real Time: 12:00 Survey Motor - R02 Survey Motor Gross Gfoss SRD Plume 3 {oot Contact E140N Iodine Part. Per 5 Min Location O.w. C.W. O.w. C.W. 30 Contact (miles) (mR/hr) (mR/hr) (mR/hr) {mR/hr) {cpm) (cpm) {mR)

.87 Centerline <2 <2 <2 <2 as rood es read Bs fe84 as read <1

.87 Mid Center/Edge <2 <2 <2 <2 8$ road es reed as read as reed <1

.87 Plume Edge <2 <2 <2 <2 8$ ro84 as read es read ss read <1 1 Centerline <2 <2 <2 <2 as read as read as reed 8$ te84 <1 1 Mid Center/Edge <2 <2 <2 <2 es road as read as read BS CBBd <1 1 Plume Edge <2 <2 <2 <2 8$ M84 as read as read 8$ foBd <1 2 Centerline <2 <2 <2 <2 as reed ss read 8$ CBBd as reed <1 2 Mid Center/Edge <2 <2 <2 <2 8$ Med 8$ Mad 8$ roBd as read <1 2 Plume Edge <2 <2 <2 <2 as reed as read as reed ss read <1 3 Centerline <2 <2 <2 <2 ss read 8$ Mad ss read Bs reed <1 3 Mid Conter/Edge <2 <2 <2 <2 as reed as teed as read as read <1 3 Plume Edge <2 <2 <2 <2 as read as read as read as read <1 4 Centerline <2 <2 <2 <2 as read as reed ss reed as read <1 4 Mid Center/Edge <2 <2 <2 <2 as read. Bs coBd ss read Bs read <1 4 Plume Edge <2 <2 <2 <2., 8$ Mad as read 8$ road Bs read <1 5 Centerline <2 <2 <2 <2 as read 8$ Mad as read 'as read 5 Mid Center/Edge <2 <2 <2 <2 Bs read as read as read as read 5 Plume Edge <2 <2 <2 <2 as read as read as read as read 6 Centerline <2 <2 <2 <2 as read as reed as read as reed <1 6 Mid Center/Edge <2 <2 <2 <2 as read 8$ road es read 8$ re84 <1 6 Plume Edge <2 <2 <2 <2 as read as read Bs coBd as read <1 7 Centerline <2 <2 <2 <2 as read as read 8$ M84 BS feed <1 7 Mid Center/Edge <2 <2 <2 <2 Bs reed as read as read ss reed <1 7 Plume Edge <2 <2 '<2 <2 as reed 8$ feed as read 8$ read <1 8 Centerline <2 <2 2 <2 as read as read Bs read 8$ Mad <1 8 Mid Center/Edge <2 <2 <2 <2 as reed as read Bs read as read <1 8 Plume Edge <2 <2 <2 <2 as read as read as feBd as read <1 9 Centerline <2 <2 <2 <2 8$ read as reed . as read as read <1 9 Mi4 Center/Edge <2 <2 <2 <2 as read as reed as read as read <1 9 Plume Edge <2 <2 <2 <2 as read as reed as read as read <1 10 Centerline <2 <2 <2 <2 as read as reed as read as read <1 10 Mid Center/Edge <2 <2 <2 <2 as read as read as read as read <1 10 Plume Edge <2 <2 <2 <2 8$ read ss reed as read Bs read <1 Nota: Data outside isopleths Bre "as read."

10.3- 1

0 te 10.3 Nine Mile Unit 2 Oswego County Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 12:15 Survey Meter - R02 Survey Meter Gross Gross SRD Plume 3 feet Contact E140N iodine Pert. Per 5 Min

{.ocetion O.w. C.W. O.w. C.W. 3I Contact (miles) (mR/hf) {mR/hr) (mR/hr) (mR/hr) (cpm) {cpm) (mR)

.87 Centerline <2 <2 <2 <2 as rend as reed es reed as read <1

.87 Mid Center/Edge <2 <2 <2 <2 as read as read 8S f08d as cead <1

.87 Plume E4ge <2 <2 <2 <2 as reed 8S r084 ss read as read <1 1 Centerline <2 <2 <2 <2 as read as read es feed as coed <1 1 Mid Center/Edge <2 <2 <2 <2 as read as reed es read as reed <1 1 Plume Edge <2 <2 <2 <2 as reed as read es reed ss reed <1 2 Centerline <2 <2 <2 <2 as read 8$ f084 ss read as read <1 2 Mid Centec/Edge <2 <2 <2 <2 SS read as read as reed ss r084 2 Plume Edge <2 <2 <2 <2 as coed 8S f084 Ss read as feed <1 3 Centerline <2 <2 <2 <2 Ss read as reed es read ss read <1 3 Mid Center/Edge <2 <2 <2 <2 as reed as reed ss read as reed <1 3 Plume Edge <2 <2 <2 <2 as read ss cesd es cesd ss teed <1 4 Centerline <2 <2 <2 <2 ss read SS Mad ss Mad ss read <1 4 Mid Center/Edge <2 <2 <2 <2 as reed as reed as read as read <1 4 Plume Edge <2 <2 <2 <2- SS feed ss read as teed as reed <1 5 Centerline <2 <2 <2 <2 as read es reed as reed 'es read <1 5 Mid Center/Edge <2 <2 <2 <2 ss read es read as read as read 5 Plume Edge <2 <2 <2 <2 as ceed SS f084 SS f08d es reed <1 6 Centerline <2 <2 <2 <2 as ceed ss reed as read as reed <1 6 Mid Center/Edge <2 <2 <2 <2 as ceed as read as reed as read <1 6 Plume Edge <2 <2 <2 <2 8s f084 as reed as reed Ss read <1 7 Centerline <2 <2 <2 <2 8S feed ss read SS M8d 88 reed <1 7 Mid Center/Edge <2 <2 <2 <2 as read as read as reed as read <1 7 Plume Edge <2 <2 <2 <2 as read as teed es feed as read <1 8 Centerline <2 <2 <2 <2 as read ss f084 as read as read <1 8 Mid Center/Edge <2 <2 <2 <2 as reed as reed es read SS Mad <1 8 Plume Edge <2 <2 <2 <2 8S Msd SS reed as read 88 read <1 9 Centerline <2 <2 <2 <2 as read as reed as read Ss cesd <1 9 Mid Center/Edge <2 <2 <2 <2 es reed as read as read as read <1 9 Plume Edge <2 <2, <2 <2 as read as reed as read as reed <1 10 Centerline <2 <2 <2 <2 Ss cesd ss read ss read ss read <1 10 Mid Center/Edge <2 <2 <2 <2 ss reed as reed as read as reed <1 10 Plume Edge <2 <2 <2 <2 es cesd as read as read Ss reed <1 Note: Data outside isopleths ere "ss reed." 10.3- 2

r~ 10.3 Nine Mile ( Unit 2 Oswego County Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 12:30 Survey Meter - R02 Survey Meter Gross Gross SRD Plume 3 feat Contact E140N Iodine Part. Per 5 IVI(n Location O.w. C.W. O.w. C.W. 3I Contact (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 <2 20 20 8s re8d as read <1

.87 Mid Center/Edge <2 <2 <2 <2 12 12 ss reed as ra8d <1

.87 Plurne Edge <2 <2 <2 <2 3 3 as read 8S fe8d <1 I Centerline <2 <2 <2 <2 18 18 as read as read <1 I Mid Center/Edge <2 <2 <2 <2 11 11 as read 8s re8d <1 I Plume Edge <2 <2 <2 <2 2 2 as reed as read <1 2 Centerline <2 <2 <2 <2 14 14 as read as reed <1 2 Mid Center/Edge <2 <2 <2 <2 10 10 as reed as re8d <1 2 Plume Edge <2 <2 <2 <2 2 2 as read as read <1 3 Centerline <2 <2 <2 <2 as read as read <1 3 Mid Center/Edge <2 <2 <2 <2 as read 8s reed <1 3 Plume Edge <2 <2 <2 <2 8s re8d as read as read as read <1 4 Centerline <2 <2 <2 <2 as read as rend as read as reed <1 4 Mid Center/Edge <2 <2 <2 <2 as reed as reed as read - as read <1 4 Plume Edge <2 <2 <2 <2 8s read as reed ss read as read <1 5 Centerline <2 <2 <2 <2 8s re8d as read as reed as read <1 5 Mid Center/Edge <2 <2 <2 <2 ss read as read as read as read <1 5 Plume Edge <2 <2 <2 <2 ss read as read as read as read <1 6 Centerline <2 <2 <2 <2 es re8d as read as read as read <1 6 Mid Center/Edge <2 <2 <2 <2 as reed 8s read as read as read <1 6 Plume Edge <2 <2 <2 <2 as reed as read as reed 8s reed <1 7 Centerline <2 <2 <2 <2 as read ss read as read as read <1 7 Mid Center/Edge <2 <2 <2 <2 as read as read as read as read <1 7 Plume Edge <2 <2 <2 <2 as read as read 8s read as read <1 8 Centerline <2 <2 <2 <2 8s reed as read as read ss re8d <1 8 Mid Center/Edge <2 <2 <2 <2 8s re8d ss read ss read as read <1 8 Plume Edge <2 <2 <2 <2 ss reed as read as read as read <1 9 Centerline <2 <2 <2 <2 as reed as read as read 8s read <1 9 Mid Center/Edge <2 <2- <2 <2 ss read ss read as read as read <1 9 Plume Edge <2 <2 <2 <2 as reed ss read as read- as read <1 10 Centerline <2 <2 <2 <2 as reed as read as read 8s read <1 10 Mid Center/Edge <2 <2 <2 <2 ss read as read ss read as read <1 10 Plume Edge <2 <2 <2 <2 as read as read as read as read <1 Note: Data outside isopleths are "as read. 10.3- 3

rc 10.3 Nine Mile t Unit 2 Oswego County Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 12:45 Survey Motor - R02 Survey Mater Gross Gross SRO Plume 3 feat Contact E140N iodine Port. Per 5 Min Location O.w. C.W. O.w. C.W. 3t Contact (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline 18 14 18 14 48955 48992 8s road es reed 1

.87 Mid Center/Edge ll 8 11 8 29863 29885 es road es read <1

.87 Plume Edge 2 <2 2 <2 6854 6859 as read as road <1 1 Centerline 16 12 16 12 43632 ~ 43665 as reed as M84 1 1 Mid Center/Edge 10 7 10 7 26615 26636 as read as read <1 1 Plume Edge 2 <2 2 <2 6108 6113 as road es reed <1 2 Centerline 14 10 14 10 36646 36674 as read es reed <1 2 Mid Center/Edge 8 6 8 6 22344 22372 as reed as read <1 2 Plume Edge <2 <2 <2 <2 5130 5134 as reed as read <1 3 Centerline 6 6 6 6 19062 19076 as read 8S road <1 3 Mid Center/Edge 3 3 3 3 11188 11198 as read as read <1 3 Plumo Edge <2 <2 <2 <2 2682 2684 es read as read <1 4 Centerlino <2 <2 <2 <2 326 328 es read as fe8d <1 4 Mid Center/Edge <2 <2 <2 <2 200 200 as read as read <1 4 Plume Edge <2 <2 <2 <2. 46 46 as read as read <1 5 Centerline <2 <2 <2 <2 as read as road <1 5 Mid Center/Edge <2 <2 <2 <2 2 2 as read as read <1 5 Plume Edge <2 <2 <2 <2 as road as read 8s ro84 as read <1 6 Centerline <2 <2 <2 <2 as read as Mad <1 6 Mid Center/Edge <2 <2 <2 <2 as read 8s ro8d as read as read <1 6 Plume Edge <2 <2 <2 <2 as read es read as reed as read <1 7 Centerline <2 <2 <2 <2 as read as read as read as read <1 7 Mid Center/Edge <2 <2 <2 <2 8s read as read as road as read <1 7 Plume Edge <2 <2 '<2 <2 as read as reed 8S Mad as read <1 8 Centerline <2 <2 <2 <2 as read es read es re8d 8s ro8d <1 8 Mid Center/Edge <2 <2 <2 <2 as read as rea4 as read as reed <1 8 Plume Edge <2 <2 <2 <2 es reed as read 8S feed as read <1 9 Centerline <2 <2 <2 <2 8S Med as read 8s road as road <1 9 Mi4 Center/Edge <2 <2 <2 <2 as read as M8d as reed as read <1 9 Plume Edge <2 <2 <2 <2 as read as read as read as read <1 10 Centerline <2 <2 <2 <2 as reed es read as reed as re8d <1 10 Mid Conter/Edge <2 '<2 <2 <2 as read es read 8$ Mad as reed <1 10 Plume Edge <2 <2 <2 <2 as read as reed as read as read <1 Note: Data outside isopleths are "as read." 10.3- 4

Ie 10.3 Nine Mile Unit 2 Oswego County Offsite instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time 13:00 Survey Meter - R02 Survey Meter Gross Gross SRD Plume 3 (est Contact E140N iodine Part. Per 5 Min

(.scat{on O.W. C.W. O.W. C.W. 3I Contact (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline 650 500 650 500 OSH OSH 1779 cpm 619 cpm 42

.87 Mid Center/Edge'87 396 305 397 305 OSH OSH 1085 cpm 378 cpm 25 Plume Edge 91 70 91 70 OSH OSH 249 cpm 87 cpm 6 I Centerline 579 446 580 446 OSH OSH 1585 cpm 552 cpm 37 1 Mid Center/Edge 353 272 354 272 OSH OSH 967 cpm 337 cpm 23 1 Plume Edge 81 62 81 62 OSH OSH 222 cpm 77 cpm 5 2 Centerline 486 374 486 374 OSH OSH 666 cpm 232 cpm 16 2 Mid Center/Edge 296 228 296 .228 OSH OSH 406 cpm 141 cpm 10 2 Plums Edge 68 52 68 52 OSH OSH 93 cpm as read 2 3 Centerline 256 196 256 196 OSH OSH 349 cpm 122 cpm 3 Mid Center/Edge 156 120 156 '1 20 OSH OSH 213 cpm 74 cpm 3 Plume Edge 36 28 36 28 OSH OSH as read as read 4 Centerline 10 8 10 8 26210 26230 as read as read <1 4 Mid Center/Edge 6 4 6 4 15920 16000 as reed as reed <1 4 Plume Edge <2 <2 <2 <2 3670 3672 as reed es read <1 5 Centerline 3 3 3 3 10466 10474 es reed .as read <1 5 Mid Center/Edge 2 2 2 2 6384 6390 as read as reed <1 5 Plume Edge <2 <2 <2 <2 1466 1466 as read as read <1 6 Centerline 2 2 2 2 6476 6480 as read as read <1 6 Mid Center/Edge <2 <2 <2 <2 3950 3954 as read as read <1 6 Plurne Edge <2 <2 <2 <2 906 908 as read as reed <1 7 Centerline <2 <2 <2 <2 1664 1666 as read as reed <1 7 Mid Center/Edge <2 <2 <2 <2 1014 1016 as read as read <1 7 Plume Edge <2 <2 <2 <2 232 234 as read as read <1 8 Centerline <2 <2 ,<2 <2 56 56 es read as read <1 8 Mid Center/Edge <2 <2 <2 <2 34 34 as read as read <1 8 Plume Edge <2 <2 <2 <2 8 8 as read ss read <1 9 Centerline <2 <2 <2; <2 as read as read as read as read <1 9 Mid Center/Edge <2 <2 <2 <2 as read as read as read as read <1 9 plume Edge <2 <2 <2 <2 as read as reed as read as read <1 10 Centerline <2 <2 <2 <2 as read as read as read as read <1 10 Mid Center/Edge <2 '<2 <2 <2 as reed as read as read as read <1 10 Plume Edge <2 <2 <2 <2 as read es reed es read as read <1 Nota: Data outside isoplsths are "as reed."

10.3- 5

0 T

ru I0.3 Nine Mile Unit 2 .

Oswego County Offsite Instrument Readings for Elevated Plume Exercise Scenario 45 R I T(: 13:15 Survey Mater ~ R02 Survey Meter Gross Gross SRD Plume 3 feet Contact E140N iodine Part. Per 5 Min Locetion- O.W. C.W. O.W. C.W. 3I Contact (ITllI e S) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline 490 377 491 378 OSH. OSH 1393 cpm 495 cpm 31

.87 Mid Canter/Edge 299 230 300 230 OSH OSH 850 cpm 302 cpm 19

.87 Plume Edge 69 53 69 53 OSH OSH 195 cpm 69 cpm 4 1 Centerline 437 336 438 337 OSH OSH 1242 cpm 441 cpm 28 1 Mid Canter/Edge 267 205 267 205 OSH OSH 757 cpm 269 cpm 17 1 Plume Edge 61 47 61 47 OSH OSH 174 cpm 62 cpm 4 2 Centerline 368 282 368 282 OSH OSH 521 cpm 185 cpm 12 2 Mid Center/Edge 224 172 224 172 OSH OSH 318 cpm 113 cpm 7 2 Plume Edge 52 40 52 40 OSH OSH 73 cpm as read 2 3 Centerline 228 176 228 176 OSH OSH 324 cpm 115 cpm 7 3 Mid Center/Edge 140 106 140 108 OSH OSH 198 cpm 70 cpm 4 3 Plume Edge 32 24 32 24 OSH OSH ss read as read 1 4 Centerline 194 150 194 150 OSH OSH 271 cpm 96 cpm 6 4 Mid Center/Edge 118 92 118 92 OSH OSH 165 cpm 59 cpm 4 4 Plume Edge 28 20 28 20, OSH OSH as read as read <1 5 Centerline 140 106 140 108 OSH 192 cpm '68 cpm 4 OSH'SH 5 Mid Center/Edge 84 66 84 66 OSH 117 cpm ss read 3 5 Plume Edge 20 14 20 14 OSH OSH ss reed as read <1 6 Centerline 86 66 86 66 OSH OSH 120 cpm as read 3 6 Mid Center/Edge 52 40 52 40 OSH OSH 73 cpm ss read 2 6 Plume Edge 12 10 12 10 33486 33684 ss reed ss reed <1 7 Centerline 24 18 24 18 OSH OSH as read ss reed <1 7 Mid Center/Edge 14 12 14 ,12 40022 40054 as read as read <1 7 Plume Edge 3 3 3 9186 9192 ss read as read <1 8 Centerline 2 2 6746 6750 as read ss feed <1 8 Mid Center/Edge <2 <2 <2 <2 4114 4118 as reed as read <1 8 Plume Edge <2 <2 <2 <2 944 946 as read as reed <1 9 Centerline <2 <2 <2 <2 3320 3332 as read as read <1 9 Mid Center/Edge <2 <2 <2 <2 2032 2034 as read ss read <1 9 Plume Edge <2 <2 <2 <2 466 466 as read ss read <1 10 Centerline <2 <2 <2 <2 1412 1414 as read as read <1 10 Mid Center/Edge <2 <2 <2 <2 922 922 ss read ss read <1 10 Plume Edge <2 <2 <2 <2 212 212 as read as read <1 Note: Data outside isopleths are "ss reed." '0.3-6

10.3 Nine Mile t Unit 2 .

Oswego County Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Real Time: 13:30 Survey Meter ~ R02 Survey Mater Gross Gross SRD Plurne 3 feet Contact E140N iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 3I Con(8ct (Iniies) (mR/hr) {mR/hr) {mR/hr) (mR/hr) (cpm) {cpm) {mR)

.87 Centerline 27 21 28 21 OSH OSH 79 cpm as M8d 2

.87. Mid Center/Edge 16 13 17 13 45367 46867 as rand as read 1

.87 Plume Edge 4 3 4 3 10412 10756 as Mad 8S Mad <1 1 Centerline 24 18 25 19 OSH OSH 70 cpm as road 2 1 Mid Center/Edge 15 11 15 12 40433 41771 as read as reed <1 1 Plume Edge 3 3 3 3 9280 9587 as read 8s re8d <1 2 Centerline 20 16 20 16 OSH OSH as read ss reed <1 2 Mid Canter/Edge 12 10 12 10 33966 35190 as read as read <1 2 Plurne Edge 2 2 2 2 7796 8054 as read as reed <1 3 Centerline 38 30 38 30 OSH OSH 56 cpm as reed 1 3 Mid Center/Edge 24 18 24 18 OSH OSH 8S feed as reed <1 3 Plurne Edge 6 4 6 4 14656 14810 as road as read <1 4 Centerline 144 112 144 112 OSH OSH 209 cpm 76 cpm 5 4 Mid Center/Edge 88 68 88 68 OSH OSH 127 cpm as road 3 4 Plume Edge 20 16 20 16. OSH OSH as read 8s ro8d <1 5 Centerline 106 80 106 80 OSH OSH 151 cpm '55 cpm 3 5 Mid Center/Edge 64 50 64 50 OSH OSH 92 cpm as reed 2 5 Plurne Edge 14 12 14 12 40808 40892 as read as Mad <1 6 Centerline 78 60 78 60 OSH OSH 112 cpm as road 2 6 Mid Center/Edge 48 36 48 36 OSH OSH 69 cpm as read 2 6 Plume Edge 10 8 10 8 30220 30272 as read as read <1 7 Centerline 76 58 76 58 OSH OSH 109 cpm ss read 2 7 Mid Center/Edge 46 36 46 .36 OSH OSH 66 cpm as reed 1 7 Plums Edge 10 8 '10 8 29470 29502 as read as read <1 8 Centerline 64 50 64 50 OSH OSH 91 cpm as read '2 8 Mid Center/Edge 40 30 40 30 OSH OSH 55 cpm as reed 1 8 Plurne Edge 8 6 8. 24824 24844 as read as read <1 9 Centerline 44 34 44 34 OSH OSH 63 cpm ss read 1 9 Mid Center/Edge 28 20 28 20 37518 37549 as read as reed <1 9 Plume Edge 6 4 6 4 17222 17236 as read as read <1 10 Centerline 20 16 20 16 OSH OSH ss read as road <1 10 Mid Center/Edge 12 '10 12 10 35028 35056 as reed as read <1 10 Plume Edge 2 2 2 2 8040 '8046 ss read as read <1 Note: Data outside isopieths are "as read."

10.3- 7

10.3 Nine Mil t Unit 2 Oswego County Offsite instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 13:45 Survey Meter ~ R02 Survey Meter Gross Gross SRD Plume 3 feet Contact E140N iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 3I Contact (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 <2 627 3014 as road as read <1

.87 Mid Contec/Edge <2 <2 <2 <2 383 1839 es reed 8$ rood <1

.87 Plume Edge <2 <2 <2 <2 88 422 as reed es reed <1 1 Centerline <2 <2 <2 <2 559 2687 es road as cead <1 1 Mid Center/Edge <2 <2 <2 <2 341 1639 es reed as read <1 1 Plums Edge <2 <2 <2 <2 78 376 as reed as reed <1 2 Centerline <2 <2 -<2 <2 470 2258 as re8d 8$ road <1 2 Mid Center/Edge <2 <2 <2 <2 286 1376 as teed as read <1 2 Plume Edge <2 <2 <2 <2 66 316 ss reed as read <1 3 Centerline <2 <2 <2 <2 4390 5466 es reed es read <1 3 Mid Co n to r/Edge <2 <2 <2 <2 2678 3334 85 re8d es read <1 3 Plume Edge <2 <2 <2 <2 614 766 as read as cead <1 4 Centerline 8 6 8 21138 22692 as reed as read <1 4 Mid Center/Edge 4 3 4 3 13382 13844 as reed as read <1 4 Plume Edge <2 <2 <2 <2. 3172 3188 as read as read <1 5 Centerline 5 3 16510 17050 as reed as read <1 5 Mid Conter/Edge 3 3 3 3 = 10072 10400 as reed as reed <1 5 Plume Edge <2 <2 <2 <2 2312 2386 as reed as read <1 6 Centerline 28 20 28 20 37078 37444 as read as road <1 6 Mid Center/Edge 8 6 8 6 22606 22842 as reed as reed <1 6 Plume Edge 2 2 2 2 5188 5242 es read as read <1 7 Centerline 46 36 46 36 OSH OSH 68 cpm as reed 1 7 Mid Center/Edge 28 22 28 22 OSH OSH es reed as read <1 7 Plume Edge 6 5 ' 5 17654 17690 as read as read <1 8 Centerline 48 38 ,48 38 OSH OSH 72 cpm as read 2 8 Mid Centoc/Edge 30 22 30 22 OSH OSH as reed as reed <1 8 Plume Edge 7 6 7 6 18860 18896 as read as reed <1 9 Centerline 40 32 40 32 OSH . OSH ~ 60 cpm as reed 1 9.Mid Center/Edge 24 20 24 20 OSH OSH as read as read - <1 9 Plume Edge 6 4 6 4 15622 15654 as reed. as read <1 10 Centecline 38 30 40 30 OSH OSH 57 cpm as read 1 10 Mid Center/Edgo 24 18 24 18 OSH OSH as reed as read <1 10 Plums Edge 6 4 6 15110 -16120 as cesd as reed <1 Note: Dets outside isopleths aro "os reed." -

qp 3 8

10.3 Nine Mile Unit 2 Oswego County Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 14:00 Survey Meter ~ R02 Survey Motor Gross Gross SRD Plume 3 feet Contact E140N iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 3I Contact

{miles) lmR/hr) {mR/hr) {mR/hr) {mR/hr) {cpm) {cpm) {mR)

.87 Centerline <2 <2 <2 <2 277 2592 es read as read <1

.87 Mid Canter/Edge <2 <2 <2 <2 169 1581 es reed es read <1

.87 Plume Edge <2 <2 <2 <2 39 363 as read es rood <1 1 Centerline <2 <2 <2 <2 246 2310 as reed as reed <1 1 Mid Center/Edge <2 <2 <2 <2 150 1409 es reed as read <1 1 Plume Edge <2 <2 <2 <2 35 323 as reed ss read <1 2 Centerline <2 <2 <2 <2 206 1840 as read as reed <1 2 Mid Center/Edge <2 <2 <2 <2 125 1184 as reed as reed <1 2 Plume Edge <2 <2 <2 <2 28 272 as read 8s ro8d <1 3 Centerline <2 <2 <2 <2 144 1190 as read as reed <1 3 Mid Canter/Edge <2 <2 <2 <2 88 726 as reed as read <1 3 Plume Edge <2 <2 <2 <2 20 166 as reed as ro8d <1 4 Centerline <2 <2 <2 <2 188 922 as reed as reed <1 4 Mid Center/Edge <2 <2 <2 <2 116 566 es reed as read <1 4 Plume Edge <2 <2 <2 <2, 26 130 8S feed as rood <1 5 Centerline <2 <2 <2 <2 168 690 as read .as read <1 5 Mid Center/Edge <2 <2 <2 <2 102 422 as read as reed <1 5 Plume Edge <2 <2 <2 <2 24 96 as read as read <1 6 Centerline <2 <2 <2 <2 1576 1844 as read as reed <1 6 Mid Center/Edge <2 <2 <2 <2 962 1182 as read as read <1 6 Plume Edge <2 <2 <2 <2 220 274 as reed 8S food <1 7 Centerline 2 2 2 6868 .7190 as road as read <1 7 Mid Center/Edge <2 <2 <2 <2 4190 4386 8s ro8d as reed <1 7 Plume Edge <2 <2 '<2 <2 962 1006 as reed as read <1 8 Centerline 3 3 .3 2 8652 8910 as reed as read <1 8 Mid Center/Edge <2 <2 <2 <2 2639 2718 as reed as reed <1 8 Plume Edge <2 <2 <2 <2 1212 1248 as read as read <1 9 Centerline 7 6 7 6 20032 20338 as read as read <1 9 Mid Center/Edge 4 3 4 3 12220 12344 as reed as read <1 9 Plume Edge <2 <2 <2 ~ <2 2804 2834 as read as read <1 10 Centerline 18 14 18 14 OSH QSH as read as read

)0 Mid Cantor/Edge 12 "8 12 9 31884 31992 8s reed as reed 10 Plume Edge 2 2 2 2 7320 -7342 es reed as rood Noto: Data outside isopleths ero "os read." 10.3- 9

~ c 10.4 Nine Mil t Unit 2 New York State Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 12:00 Survey Meter ~ R02 Survey Meter Gross Gross SRD Plume 3 feet Contact E140N iodine Pert. Per 5 Min Location O.w. C.W. O.w. C.W. 3I Contact (miles) (mR/hf) (mR/hr) (mR/hf) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 <2 ss read es read ss feed as reed <1

.87 Mid Center/Edge <2 <2 <2 <2 as read as reed ss reed es read <1

.87 Plume Edge <2 <2 <2 <2 as read as C08tj -ss read as read <1 1 Centerline <2 <2 <2 <2 as read ss reed ss reed ss reed <1 1 Mid Center/Edge <2 <2 <2 <2 ss read es read as read 8s read <1 1 Plume Edge <2 <2 <2 <2 as read as read as read ss read <1 2 Centerline <2 <2 <2 <2 ss read as reed es read as read <1 2 Mid Center/Edge <2 <2 <2 <2 as read as read as read ss read <1 2 Plume Edge <2 <2 <2 <2 8s read as read 8S feed as read <1 3 Centerline <2 <2 <2 <2 as read ss read as read as read <1 3 Mid Center/Edge <2 <2 <2 <2 as read ss read 8S read as read <1 3 Plume Edge <2 <2 <2 <2 8S read as reed as read es read <1 4 Centerline <2 <2 <2 <2 as c08d as read es reed as c08d <1 4 Mid Center/Edge <2 <2 <2 <2 'as road as reed . as read ss read <1 4 Plume Edge <2 <2 <2 <2 as read as read as reed as read <1 5 Centerline <2 <2 <2 <2 as reed as read ss read as read <1 5 Mid Center/Edge <2 <2 <2 <2 as read ss read as read ~

as read <1 5 Plume Edge <2 <2 <2 <2 as reed 8S C08d as read ss reed <1 6 Centerline <2 <2 <2 <2 as read ss read as read as reed <1.

6 Mid Center/Edge <2 <2 <2 <2 as read 8s read . ss read 8S f08d <1 6 Plume Edge <2 <2 <2 <2 as read as read

  • as read 8S feed <1 7 Centerline <2 <2 <2 <2 as C08d as read ss read as read <1 7 Mid Center/Edge <2 <2 <2 <2 8s read 8S C08d as read as read <1 7 Plume Edge <2 <2 <2 <2 as read as reed as read 8s read <1 8 Centerline <2 <2 <2 <2 ss read ss read 8$ f08d as feed <1 8 Mid Center/Edge <2 <2 <2 <2 ss read ss read as read as read <1 8 Plume Edge <2 <7. <2 <2 as read 8S Cead 8S f08d as read <1 9 Centerline <2 <2 <2 <2 as reed as read as read as reed <1 9 Mid Center/Edge <2 <2 <2 <2 as read as read as reed as read <1
9. Plume Edge <2 <2 <2 <2 as read as read as read as read <1.

)0 Centerline <2 <2 <2 <2 as read as read as read as reed <1 10 Mid Center/Edge <2 <2 <2 <2 as read ss read as read ss c08d <1 10 Plurne Edge <2 <2 <2 <2 as C08d as read as read as read <1 Note: Data outside isopleths sfe "ss read.

10.4- 1

~ 10.4 Nine Mll ( Unit 2 New York State Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Roof Time: 12:15 Survey Meter - R02 Survey Motor Gross Gross SRD Plume 3 feet Contact E140N iodine Part. Per 5 Min Location O.w. C.W. O.w. C.W. 3t Contact (miles) (rnR/hr) (cnR/hr) (mR/hc) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 <2 as road es read es coed es Med <1

.87 Mid Center/Edge <2 <2 <2 <2 es reed es reed es reed as read <1

.87 Plume Edge <2 <2 <2 <2 es cead es reed as read as read <1 1 Centocline <2 <2 <2 <2 as reed as read as rood es read 1 Mid Center/Edge <2 <2 <2 <2 as read es coed as read es ree4 1 Plume Edge <2 <2 <2 <2 es reed es read as read as read 2 Centerline <2 <2 <2 <2 es Med es road as reed es read <1 2 Mid Contoc/Edge <2 <2 <2 <2 as read es read es reed as read <1 2 Plume Edge <2 <2 <2 <2 as cead as read as read as read <1 3 Centerline <2 <2 <2 <2 as read as read es read as road <1 3 Mid Center/Edge <2 <2 <2 <2 es reed es coed es read as read <1 3 Plume Edge <2 <2 <2 <2 as cead es cesd es coed as read <1 4 Centerline ~ <2 <2 <2 <2 as read es read es reed as read 4 Mid Canter/Edge <2 <2 <2 <2 es reed es read es road as read 4 Plurne Edge <2 <2 <2 <2 as reed as read es read as read 5 Centerline <2 <2 <2 <2 ss read as read as read es roa4 <1 5 Mid Center/Edge <2 <2 <2 <2 as reed es reed es coed ~ as read <1 5 Plume Edge <2 <2 <2 <2 es read as cead es read as read <1 6 Centerline <2 <2 <2 <2 as road es Mad es casd as read <1.

6 Mid Center/Edge <2 <2 <2 <2 es coed as read as ceed es MS4 <1 6 Plucno Edge <2 <2 <2 <2 as reed es read as read as read <1 7 Centerline <2 <2 <2 <2 as reed as read as read as read <1 7 Mid Center/Edge <2 <2 <2 <2 as read as read es read ss read <1 7 Plume Edge <2 <2 <2 <2 es Mad es read as read as read <1 8 Centerline <2 <2 <2 <2 as ces4 es read as read as read <1 8 Mid Center/Edge <2 <2 <2 <2 as reed as read es reed as read <1 8 Plume Edge <2 <2 <2 <2 es feed es reed as reed as reed <1 9 Centerline <2 <2 <2 <2 as read as ces4 as read es read <1 9 Mid Center/Edge <2 <2 <2 <2 as read - as read as fes4 Bs read <1 9 Plume Edge <2 <2 <2 <2 as read as ceed ss read as read <1 10 Centerline <2 <2 <2 <2 as read as reed as read es read <1 10 Mid Center/Edge <2 <2 <2 <2 es reed as read as read es reed <1 10 Plums Edge <2 <2 <2 <2 es read es reed as read as read <1 Note: Data outside isopleths ere as reed."

10.4- 2

. 10.4 Nine Mlle Unrt 2 New York State Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Real Time: 12:30 Survey Meter - R02 Survey Mater Gross Gross SRD Plume 3 feet Contact E140N iodine Part. Per 5 Mln Location O.W. C.W. O.W. C.W. 3I Contact (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 <2 20 20 as read 8$ reed

.87 Mid Canter/Edge <2 <2 <2 <2 12 12 8$ r08d as read

.87 Plume E4ge <2 <2 <2 <2 3 3 8$ read as read 1 Centerline <2 <2 <2 <2 18 18 es feed 8$ r884 <1 1 Mid Canter/Edge <2 <2 <2 <2 11 11 as read ss read <1 1 Plums Edge <2 <2 <2 <2 2 2 as read as read <1 2 Centerline <2 <2 <2 <2 14 14 ss read ss read <1 2 Mid Canter/Edge <2 <2 <2 <2 10 10 as read 8$ f084 <1 2 Plume Edge <2 <2 <2 <2 2 2 as reed 8$ f084 <1 3 Conterline <2 <2 <2 <2 as read as read <1 3 Mid Center/Edge <2 <2 <2 <2 as read es read <1 3 Plume Edge <2 <2 <2 <2 ss read 8$ r084 as read as read <1 4 Centerline <2 <2 <2 <2 as road ss read as read as read <1 4 Mid Center/Edge <2 <2 <2 <2 as read ss read ss read ss read <1 4 Plume Edge <2 <2 <2 <2 as read 8S feed 8$ read ss reed <1 5 Centerline <2 <2 <2 <2 es reed as read 8$ read 8$ r08d <1 5 Mid Center/Edge <2 <2 <2 <2 es reed as reed 8$ r08d ss read <1 5 Plume Edge <2 <2 <2 <2 8$ read 8$ read ss read as read <1 6 Centerline <2 <2 <2 <2 ss read as read as read es read <1 ~

6 Mid Center/Edge <2 <2 <2 ss read 8s r08d as read as read 6 Plume Edge <2 <2 <2 <2 8$ read 8$ f084 8$ r08d as reed <1 7 Centerline <2 <2 <2 <2 as read as read as read as read 7 Mid Center/Edge <2 <2 <2 <2 as read as read ss read as read 7 Plume Edge <2 <2 <2 <2 ss read ss read as read as read 8 Centerline <2 <2 <2 <2 as read ss seed 8$ read as reed <1 8 Mid Center/Edge <2 <2 <2 <2 8$ read ss reed 8$ r084 as read <1 8 Plume Edge <2 <2 <2 <2 8S read ss read as read as read <1 9 Centerline <2 <2 <2 <2 - as read as reed as read as read <1 9 Mid Center/Edge <2 <2 <2 <2 as re8d 8S f08d as read 8$ f084 <1 9 Plume Edge <2 <2 <2 <2 as read as reed ss reed as read <1, 10 Centerline <2 <2 <2 <2 ss read as read ss read ss reed <1 10 Mid Center/Edge <2 <2 <2 <2 as read as read 8$ read as read <1 10 P(ume Edge <2 <2 <2 <2 as read as read 8$ f08d as read <1 Note: Data outside isopleths are "ss read."

10.4- 3

.=- 10.4 Nine Mile Unit 2 New York State Offsite Instrument Readings for Elevated Plume Exercise ScenariD 41 Reel Time: 12:45 Survey Meter - R02 Survey Meter Gross Gross SRD Plume 3 feet Contact E140N iodine Psft. Per 5 IVI(n Location O.w. C.W. O.W. C.W. 3I Contact (miles) (mR/hr) (mR/hc) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline 18 14 18 14 48955 48992 SS read as read <1

.87 Mid Center/Edge 11 11 8 29863 29885 as reed ss feed <1

.87 Plume Edge 2 <2 2 <2 6854 6859 es read as teed <1 1 Centerline 16 12 16 12 43632 43665 as read as read <1 1 Mid Center/Edge 10 7 10 7 26615 26636 as read as Msd <1 1 Plume Edge 2 <2 2 <2 6108 6113 as reed as reed <1 2 Centerline 14 10 13 10 36646. 36674 as read as read <1 2 Mid Canter/Edge 8 6 8 6 22374 22372 as read as read <1 2 Plume Edge 2 <2 2 <2 5130 5134 as read SS read <1 3 Centerline 7 5 7 5 19162 19176 as read as cead 3 Mid Center/Edge 4 3 4 3 11688 11698 as read SS read 3 Plume Edge <2 <2 <2 <2 2682 2684 as read as read 4 Centerline ~ <2 <2 <2 <2 326 328 as Med as read 4 Mid Centec/Edge <2 <2 <2 <2 200 200 as reed as read 4 Plume Edge <2 <2 <2 <2 46 46 as read SS Mad 5 Centerline <2 <2 <2 <2 as Mad as read <1 5 Mid Center/Edge <2 <2 <2 <2 as read'. as Msd <1 5 Plume Edge <2 <2 <2 <2 as read ss Med ss Mad as teed <1 6 Centerline <2 <2 <2 <2 as read as read <1.

6 Mid Center/Edge <2 <2 <2 <2 ss read ss Msd as feed as read <1 6 Plume Edge <2 <2 <2 <2 SS read as read as read as read <1 7 Centerline <2 <2 <2 <2 ss read es read as cesd as read <1 7 Mid Center/Edge <2 <2 <2 <2 as read as read as teed ss feed <1 7 Plume Edge <2 <2 <2 <2 as cesd as fesd as read as teed <1 8 Centerline <2 <2 <2 <2 as reed as read SS Mad as read <1 8 Mid Centec/Edge <2 ~ <2 <2 <2 as reed as read SS read as read <1 8 Plume Edge "

<2 <2 <2 as read as read as read as teed ,<1 9 Centerline <2 <2 <2 <2 ss read as read as read as read <1 9 Mid Center/Edge <2 <2 <2 <2 as read as read as read SS read <1 9 Plume Edge <2 <2 <2 <2 as read as Msd as read as reed <1 10 Centerline <2 <2 <2 <2 SS read as cead as read as read <1 10 Mid Centec/Edge <2 <2 <2 <2 SS read as cead as read as resd <1 10 Plume Edge <2 <2 <2 <2 ss reed as cead ss read as reed <1 Note: Dets outside isoploths are "as reed."

10.4- 4

rc 10.4 Nine Mile lt Unit 2 .

New York State Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Real Time: 13:00 Survey Meter - R02 Survey Meter Gross Gross SRD Plume 3 feet Contact E140N iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 30 Contact

{miles) (mR/hr) (mR/hr) (mR/hr) {mR/hr) {cpm) (cpm) (mR)

.87 Centerline 650 500 650 500 OSH OSH 1779 cpm 619 cpm <1

.87 Mid Center/Edge 396 305 397 305 OSH OSH 1085 cpm 378 cpm <1

.87 Plume Edge 91 70 91 70 OSH OSH 249 cpm 87 cpm <1 1 Centerline 579 446 580 446 OSH OSH 1585 cpm 552 cpm <1 1 Mid Center/Edge 353 272 354 272 OSH OSH 967 cpm 337 cpm <1 1 Plume Edge 81 62 81'86 62 OSH OSH 222 cpm 77 cpm <1 2 Centerline 486 374 374 OSH OSH 666 cpm 232 cpm <1 2 Mid Center/Edge 296 228 296 228 OSH OSH 406 cpm 141 cpm <1 2 Plume Edge 68 52 68 52 OSH OSH 93 cpm as read <1 3 Centerline 256 196 25 196 OSH OSH 349 cpm 122 cpm <1 3 Mid Canter/Edge 156 120 156 120 OSH OSH 213 cpm 74 cpm ~

<1 3 Plurne Edge 36 27 36 27 OSH OSH es read as read <.1 4 Centerline 9 7 7 26210 26230 as read as read <1 4 Mid Center/Edge 6 4 6 4 15992 16000 es reed as read <1 4 Plume Edge <2 <2 <2 <2 3670 3672 as read as read <1 5 Centeriine 4 4 3 10433 10474 as reed as read <1 5 Mid Center/Edge 2 2 2 6394 6390 es read as read <1 5 Plume Edge <2 <2 <2 <2 1466 1466 as feed as read <1 6 Centerline 2 2 2 2 6476 6480 as reed as read <1 ~

6 Mid Center/Edge <2 <2 <2 <2 3950 3964 as reed as read <1' 6 Plume Edge <2 <2 <2 <2 906 908 as read as read <1 7 Centerline <2 <2 <2 <2 1664 1666 as read ss read <1 7 Mid Center/Edge <2 <2 <2 <2 1014 1016 as read as read <1 7 Plume Edge <2 <2 <2 <2 232 234 as read as read <1 8 Centerline <2 <2 <2 <2 56 56 ss read as read <1 8 Mid Center/Edge <2 <2 <2 <2 34 34 as read as read <1 8 Plurne Edge <2 <2 <2 <2 8 8 as read as read <1 9 Centerline <2 <2 <2 <2 as read as read as feed as reed <1 9 Mid Center/Edge <2 <2 <2 <2 as reed as read as read es read <1 9 Plume Edge <2 <2 <2 <2 as read as read as read as read <1 10 Centerline <2 <2 <2 <2 as read as read as read as read <1 10 Mid Center/Edge <2 <2 <2 <2 as read as read as reed as read <1 10 Plume Edge <2 <2 <2 <2 es read as read as read as read <1 Note: Data outside isopleths are "as read."

10.4- 5

a le10.4 Nine Mile Unit 2 New York State Offsite Instrument Readings for Elevated Plume Exercise Scenario 4$

Reel Time: 13:15 Survey Meter - ROZ Survey Meter Gross Gross SRD Plume 3 feet Contact E140N iodine Part. Per 5 Min Location O.W. C.W. O.W. C.W. 3I Contact (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline 490 377 491 378 OSH OSH l393 cpm 495 cpm 31

.87 Mid Center/Edge 299 230 300 230 OSH OSH 850 cpm 302 cpm <1

.87 Plume Edge 69 53 69 53 OSH OSH 195 cpm 69 cpm <1 1 Centerline 437 336 438 337 OSH OSH 124Z cpm 441 cpm <1 1 Mid Center/Edge 267 205 267 205 OSH OSK 757 cpm 269 cpm (1 Pfumd dddd 61 47 6) 47 OSH OSH 174 cpm 62 cpm <1 2 Centerline 368 282 368 282 OSH OSH 521 cpm 185 cpm (1 2 Mid Center/Edge 224 172 224 172 OSH OSH 318 cpm 113 cpm (1 2 Plume Edge 52 40 52 40 OSH OSH 73 cpAl as read <1 3 Centerline 228 176 228 176 OSH OSH 324 cpm 115 cpm (1 3 Mid Center/Edge 140 106 140 108 OSH OSH 198 cpm 70 cpm <1 3 Plume Edge 32 24 32 24 OSH OSH 8S fe8d as read <1 4 Centerline 194 150 194 150 OSH OSH 271 cpm 96 cpm <1 4 Mid Center/Edge 118 92 118 92 OSH OSH 165 cpm 59 cpm <1 4 Plume Edge 28 20 28 20 OSH OSH as feed as reed <1 5 Centerline 140 106 140 108 OSH OSH 192 cpm 68 cpm <1

'4 5 Mid Center/Edge 66 84 66 OSH OSH 117 cpm as reed <1 5 Plume Edge 20 14 20 14 OSH OSH as reed as read <1 6 Centerline 86 66 86 66 OSH OSH 120 cpm as read (1-6 Mid Center/Edge 52 40 52 40 OSH OSH 73 cpm <1'.

as reed 6 Plume Edge 12 9 12 9 33486 33544 as reed es reed (1 7 Centerline 24 18 24 18 OSH OSH as re8d as read <1 7 Mid Center/Edge 14 11 14 11 OSH 40054 es reed 88 re8d 7 Plume Edge 3 2 3 2 9186 9192 8s feed as read <1 8 Centerline 3 2 3 2 6646 6750 as read as re8d <1 8 Mid Canter/Edge <2 <2 (2 <2 4154 5158 es reed as read <1 8 Plume Edge (2 <2 <2 <2 944 946 as reed as read <1 9 Centerline <2 <2 <2 3330 3332 8s re8d as read <1 9 Mid Center/Edge (2 (2 <2 <2 2032 2034 8s read as read <1 9 Plume Edge <2 <2 <2 <2 10 Centerline 10 Mid Center/Edge 10 Plume Edge

<2

<2

<2 (2

<2

<2

<2'2 (2

(2

<2

<2

<2 466 1512 922 212 466 1554 922 212 as read as read ss read as read as read as reed

<1

<1 as read as read <1 Note: Oats outside isoploths ere "es road."

10A- 6

1 ro 10.4 Nine Mile Unit 2 for Elevated Plume Exercise Scenario 41 New York State Offsite Instrument Readings Reel Time: 13:30 Survey Meter Gross Gross SRD Survey Meter - R02 Contact E140N iodine Part. Per 5 Min Plume 3 feet O.W. C.W. O.W. C.W. 3I Contact Location (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

(mifes) (mR/hr) 27 21 28 21 OSH OSH 79 cpm as reed <1

.87 Centerline 16 13 17 13 45367 46867 as reBd ss read <1

.87 Mid Center/Edge 3 3 10412 10756 es reed as read <1

.87 Plume Edge Centerline 24 18 25 19 OSH OSH 70 cpm as read <1 1

1 Mid Center/Edge 15 11 15 12 40433 41771 as read as read <1 1 Plume Edge 3 3 3 3 9280 9587 Bs read ss read <1 2 Centerline 20 15 20 16 OSH OSH Bs reed as read <1 2 Mid Center/Edge 12 10 13 10 33868 35090 as reed as reed 2 Plume Edge 3 2 3 2 7796 8054 es reBd es read <1 3 Centerline 38 30 38 30 OSH OSH 56 cpm Bs read <1 3 Mid Center/Edge 23 17 23 18 OSH OSH Bs reed Bs reed <1 3 Plume Edge 5 4 5 4 14658 14810 es read as reed <1 4 Centerline 144 112 144 112 OSH OSH 209 cpm 76 cpm 4 Mid Center/Edge 88 68 88 68 OSH OSH 127 cpm as reed 4 Plume Edge 20 16 20 16 OSH OSH as read Bs reed 5 Centeriine 106 80 104 82 OSH OSH 151 cpm 55 cpm <1 5 Mid Center/Edge 64 50 64 50 OSH OSH 92 cpm . Bs reed <1 5 Plume Edge 15 11 15 ll 40808 40884 8$ reed as rest( <1 6 Centerline 78 60 78 60 OSH OSH 112 cpm as reed <1, 6 Mid Center/Edge 48 37 48 37 OSH OSH 69 cpm as read <1.

6 Plume Edge 11 8 11 8 30220 30272 Bs reed as read <1 7 Centerline 76 58 76 58 OSH OSH 109 cpm as reed <1 7 Mid Center/Edge 46 34 46 35 OSH OSH 66 cpm as read <1 7 Plume Edge 11 8 11 8 29470 29502 ss read as read <1 8 Centerline 64 50 64 50 OSH OSH 91 cpm as reed <1 8 Mid Center/Edge 40 30 40 30 OSH OSH 55 cpm as read 8 Plurne Edge 9 7. 9 7 .24824 24844 as read Bs reed <1 9 Centerline 44 34 44 34 OSH OSH 63 cpm as read <1 9 Mid Center/Edge 27 21 27 21 OSH OSH as reed as read <1 9 Plume Edge 6 5 5 17222 17236 as reed Bs reed <1 10 Centerline 20 16 21 16 OSH OSH es reed as read's

<1 10 Mid Center/Edge 13 10 13 10 35028 35056 es reed reed <1 10 Plume Edge 3 2 3 2 8040 8046 as reed as read <1 Note: Oats outside isopleths Bre "as read."

'I0.4- 7

r -10.4 Nine Mil Unit 2 New York State Offsite Instrument Readings for Elevated Plume Exercise Scenario 41 Reel Time: 13:45 Survey Meter - R02 Survey Mater Gross Gross SRD Plume 3 feet Contact 5140M Iodine Per 5 Min Location O.W. C.W. O.W. C.W. 3I Contact (miles) (mR/hr) (mR/hr) (mR/hr) (mR/hr) (cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 <2 627 3014 es reed 8$ f884

.87 Mid Center/Edge <2 <2 <2 <2 383 1839 es read as read

.87 Plume Edge <2 <2 <2 <2 88 422 as read 8S re84 I Centerline <2 <2 <2 <2 559 2687 as reed as read <1 I Mid Center/Edge <2 <2 <2 <2 341 1639 es read as read <1 I Plume Edge <2 <2 <2 <2 78 376 es read as reed <1 2 Centerline <2 <2 <2 <2 470 2258 as reed as read 2 Mid Center/Edge <2 <2 <2 <2 246 1376 as reed as re84 2 Plume Edge <2 <2 <2 <2 66 316 es reed es read 3 Centerline 2 <2 2 <2 4390 5466 as reed 8s read <1 3 Mid Center/Edge <2 <2 <2 <2 2678 2734 es read as read <1 3 Plume Edge <2 <2 <2 <2 614 766 as read as read <1 4 Centerline 8 6 8 6 21878 22696 es read as reed <1 4 Mid Center/Edge 5 4 5 4 13382 13844 as read as read <1 4 Plume Edge <2 <2 <2 <2 3072 3178 es read 8s re8d <1 5 Centeriine 6 5 6 5 16510 17050 as read es read <1 5 Mid Center/Edge 4 3 4 3 10072 10400 es read 8s re8d <1 5 Plume Edge <2 <2 <2 <2 2312 2386 as read as read <1 6 Centerline 14 10 13 10 37078 37488 8s ree4 es read <1 ~

6 Mid Center/Edge 8 6 8 6 22606 22842 as reed as read 6 Plume Edge 2 <2 2 <2 5188 5242 as reed as re8d <1 7 Centerline 46 35 46 35 OSH OSH 68 cpm 8s reed <1 7 Mid Center/Edge 28 22 28 22 OSH OSH es re8d 8s re84 <1 7 Plume Edge 6 5 5 17746 17790 es read as read <1 8 Centerline 48 38 48 38 OSI-I OSH 72 cpm es read <1 8 Mid Center/Edge 30 23 30 23 OSH OSH as reed as reed <1 8 Plume Edge 7 5. 7 5 18860 18976 . =

as read as read <1 9 Centerline 40 32 40 32 OSH OSH 60 cpm as ra8d <1 9 Mid Center/Edge 24 19 24 19 OSH osH es reed as reed <1 9 Plume Edge 6 4 6 4 15624 15650 as read es read <1.

10 Centerline 39 30 39 30 OSH OSH 57 cpm as read <1 10 Mid Center/Edge 24 18 24 18 OSH OSH as reed es read <1 10 Plume Edge 5 4 5 4 15102 15122 as reed as read <1 Note: Date outside isop'laths ere "as read."

10.4- 8

e 10.4 Nine Mite n(t 2 New York State Offsite tnstrument Readings for Etevated Ptume Exercise Scenario 41 Rddl Time: 14:00 Survey Meter - R02 Survey Meter Gross Gross SRD Plume 3 (ddt Contact E140N iodine Pert. Per 5 Min Location O.W. C.W. O.W., C.W. 3I Contact (mi1os) {mR/hr) (rnR/hf) (mR/hf) (mR/hr) {cpm) (cpm) (mR)

.87 Centerline <2 <2 <2 (2 277 2592 8$ rd8d es reed <1

.87 Mid Center/Edge <2 <2 <2 <2 169 1581 8$ fdSd es read <1

.87 Plume Edge <2 <2 <2 <2 39 363 es reed as feed <1 ~

1 Centerline <2 <2 <2 246 2310 es reed as reed <1 1 Mid Center/Edge <2 <2 <2 <2 150 1409 es read es reed-1 Plume Edge <2 .<2 <2 <2 35 323 es re8d as read <1 2 Centerline <2 <2 <2 (2 206 1940 as read as re8d <1 2 Mid Center/Edge <2 <2 <2 <2 126 1184 as read as reed <1 2 Plume Edge <2 <2 <2 (2 28 272 as read es reed <1 3 Centerline <2 <2 <2 (2 144 1190 es reed es reed 3 Mid Center/Edge <2 <2 <2 <2 88 726 as read es fdSd =

3 Plume Edge <2 <2 <2 <2 20 166 as read es read 4 Centerline <2 <2 <2 (2 188 926 8$ rd8d as read <1 4 Mid Center/Edge <2 <2 <2 (2 116 576 8S rdsd as reed <1 4 Plume Edge <2 <2 <2 <2 26 130 es read es reed <1 5 Centerline <2 <2 <2 (2 168 690 as read es reed <1 5 Mid Canter/Edge <2 <2 <2 (2 ')02 422 es read es reed <1 5 Plume Edge <2 <2 <2 <2 24 96 as reed es read <1 6 Centerline <2 <2 <2 (2 1576 1954 as reed es read 6 Mid Center/Edge <2 <2 <2 (2 962 1192 es read es reed 6 Plume Edge <2 <2 <2 <2 220 274 as read es reed 7 Centerline 3 2 3 2 6868 7190 as read, es reed <1 7 Mid Center/Edge 2 <2 2 <2 4190 4386 as reed as read (1 7 Plume Edge <2 <2 <2 <2 962 1006 8S feed as. reed (1 8 Centerline 3 2 3 2 8652 8910 as reed es reed <1 8 Mid Center/Edge 2 <2 2 (2 5278 5436 as reed as reed (1 8 Plume Edge <2 <2 <2 (2 1212 1248 as read es read <1 9 Centerline 7 6 7 6 20032 20238 8S fd8d 8s fd8d (1 9 Mid Center/Edge 4 3 4 3 12220 12346 as fdad as read <1 9 Plume Edge <2 <2 <2 2804 2834 as read 10 Centerline 19 as reed <1.

14 19 14 OSH OSH as read as reed <1 10 Mid Center/Edge 12 9 12 9 31884 31992 as read es read (1 10 Plume Edge 3 2 3 2 7308 7342 as read as read (1 Note: Data outside isopldths ere "as rdsd."

10.4- 9

Nine Mile Point Unit 2 Site Etnergency Exercise, No 41, Rev. 0 (ETNA) 'cenario

.0

- General Inquiry I. This is Mr. Jay DeLuca, Pulaski Pop Warner Football president. I heard that there was a major accident at Nine Mile Point and was wondering ifwe should cancel tonights practice?

2. This is Don Haywax at the Central Square Fire Department. I'e had several calls from some of the townspeople trying to relay messages to family members who work at Nine Mile. Everyone is concerned because no one is answering the telephones. What do you want me to tell these people? ~
3. This is John Thomas. I'm President of the Fulton PTA, should we cancel tonights meeting?
4. This is J. R. Pritchard of Pritchards Construction. A state trooper gave me this number to call to get some information. We'e got a six man crew cleaning up our site just outside the access road to Nine Mile. Is it okay for them to continue to work there with all this accident stuQ'happening?
5. How come you people are not giving out Iodine like they did when Chernobyl blew up?
6. My son's eyes are red and watering, could this be caused by the radiation leak you had at Nine Mile Point?

Is it true that you are evacuating only the families of Niagara Mohawk workers?

8. How do we get some medical attention, my throat is killing me from the radiation you people are releasing?
9. Was this accident caused by those cracks that were reported back in March?

'0.

One of my neighbors goats just died. Is it because of the accident at Nine Mile? How many more of our farm animals have to die before we can get compensated by NIMO?

11. IfI have to leave my house, should I take my cat along?
12. IfI have to evacuate, how much money will I need to take? Where will we be sent to sleep? Who will watch our house?
13. I heard that since you evacuated Oswego County that you'e brought in the National Guard to shoot any looters, is that true?
14. This is Mike Carlucci, will my electric bills go up again because of this accident, hell, I can hardly afford to pay these now?
15. What is it about you people up there at Nine Mile, can't you guys do anything right?

11.1-1,

Nine Mile Po>nt Umt 2 Site Erncrgcncy Exercise Scenario No 41, Rcv. 0 (HNAL)

- General Inquiry (continued)

16. This is Joe Burns, I just bought a new car, will that radiation you guys let loose ruin the paint job?
17. The electric sockets, in my house feel warmer than usual, is that because of the radiation you people are releasing up there at Nine Mile?
18. My power just went out, is that because of the accident at Nine Mile? When can I expect to have my power back on?
19. This is Corbin Benson at the Scriba Fire Hall, I'e had four calls in the last half hour saying people have heard sirens going oK I haven't heard any sirens. Are they going oft?
20. This is Debbie Buluski at the Tiny Tots Day Care Center on Middle road. Parents are calling me and coming in to get there kids, saying that the radiation is coming this way. Should I take the rest of the kids and run? I'm not sure I have enough room in my Volkswagen to get them all in? What should I do?
21. This is Barb Vanallo, at the Oswego Elementary School. Parents are calling in and asking us to send there kids home right away so they can get out of the area. Should we be evacuating the schools?
22. My husband works at Nine Mile and I can't get in touch with him. Is he alright?
23. My wife works at Nine Mile and she is pregnant. Ifanything happens to the baby will NIMO cover the costs?
24. My wife works at Nine Mile in the maintenance department. She is always telling me that the maintenance workers are given al) the dirty jobs. I don't want her near that radiation leak, but I can't get in touch with her. How can I call her?

25 I heard that there is a blue glow coming from the plant? Can we come up to take pictures?

26. I hear that with the radiation leak up there at Nine Mile, you'e banned fishing on Lake Ontario. I'bought.

fishing excursion tickets out of Rochester, are you guys going to compensate me?

27. Is this radiation leak going to affect my garden?

I

28. I'm a volunteer firefighter and I heard that the plant is on fire just like Chernobyl. Do you people need any he)p to put out the fire?
29. What's an ERPA? I heard there were evacuating ERPAs. Is that a town in Oswego County?
30. I have an old Civil Defense Geiger Counter and its reading 20 cpm. Is that because of the radiation leak there at Nine Mile?

11.1-2

I Nine h6le Point Unit 2 Site Emergency Exercise '

Scenario No 41, Rev. 0 (FINAL)

- General Inquiry (continued)

31. This is Marcy Delans. I was wondering ifthe radiation leak will hurt my house? Ifso willNIMO pay to have it fixed? off
32. Hi, this is Adam Lecell. When we evacuate Mexico, where will webe going?
33. This is Archie Blutowski. I'm fishing out on my boat just Nin Mile Point. I don't have a CB radio but I did bring my cell phone. I heard there was an accident at Nine Mile. I just caught a record breaking salmon.

Do I have to put it back. Will the radiation leak aFect the fish when it is mounted?

34. I work at the Bible Camp on Lake Ontario on weekends. Will the radiation be cleaned up so I can go to work this Saturday?
35. This is Mi Ling. I just got an order for some Chinese Food to deliver at Nine Mile Learning center. A guard gave me this number and told me to call. How do I deliver this food. Who will pay for it?

'6.

This is Sam Fredonia. I work for. the New York Pizzeria. I got three pizzas here that are supposed to go to the Engineering Building at Nine Mile. What am I supposed to do with them The guard wouldn't let me get near the place.

~7. This is Cathy Walpinger. We have a class trip scheduled to go to the Energy Center. Should I cancel this trip because of the accident at Nine Mile?

38. This is Michael Jamison. I have a delivery of laundry here that's supposed to go to the Unit 2 Security Building. What do you want done with them. The guards said I can't go in.
39. This is Jordan Hismael. 1 am allergic to radiation, and I am starting to get a real red rash all down my arms.

Should 1 go see my doctor? Are you going to pay for the visit?

40, This is Jamahl Smith. I am a counselor with AA. We are scheduled to have an AA meeting at the Scriba Fire Hall tonight. Should I cancel it?

41. 1 am Joe Sensor fire chief at New Haven. We have a ham dinner scheduled for tonight. Should we cancel it or will this accident mess be cleared up by then?
42. My name is Jose Hildago. I represent the migrant farm workers in this area. Are the vegetables in the area contaminated. Should I advise my workers not to work until the radiation is gone?
43. This is Mary Putz. We are scheduling a nature hike at Nine Mile this weekend. Will there be any danger due to the radiation leak?
44. This is Marty Hurtz. Are we all going to die from the radiation leak at Nine Mile?

1 1.1-3

Nine Mile Point Un>t 2 Site Enlcrsen+ Exercise Sccncrio No 41, Rev. 0 (HML)

I. How will the accident at Nine Mile affect my quarterly stock earning?

2. I heard that Nine Mile I and FitzPatrick were also shutdown. I'm looking at brokering some power, how much do you need?
3. Will the cost of replacement power be borne by the rate payers or by the stockholders?
4. How much of the lost income to the joint owners will be covered by the Federal Insurance program?
5. I understand that the Nuclear plants are self insured. Does NIMO have adequate resources to cover the cost of repairs as well as all the litigation that will most likely result from this accident?
6. Ifthe NRC fines NIMQ because of this accident, will the stockholders be liable or will the fine be paid from the insurance?
7. I heard that the stock exchanges have stopped-trading on MMO stock. When will it res'ume trading so I can unload this stock?
8. How low is the price of the stock expected to go, I'm interested in picking up a lot of stock of NIMO at a reduced price?

Is it true that other utilities have offered NIMO access to their cash reserves to help NIMO meet its short-term emergency financial needs?

10. I'e heard that because of the accident that MMO will be decommissioning both Nuclear Plants. How will this affect the NIMO stock? Is it true?
11. This is the Wall Street Journal, we would like to set up an interview with your Chief Financial Officer?
12. This is Forbes Magazine, we would like to set up an interview with your CEO, who should we talk to?
13. This is USA Today. We would like to have someone from you company at an interview session to discuss the cracks that were discovered in March and their impact on the accident today. Whom should we contact to arrange this?
14. In light of this accident at Nine Mile, will NIMO be forced into bankruptcy?
15. How is the NYNOC agreement helping with the accident at Nine Mile? IS RG 8. E now going to be held financially accountable as well as NIMO?
16. I own stock at RG 8. E. They have never had any accident. Will my stocks drop because of the agreement with NIMO?

11.2-1

Nine hGtc Point Unit 2 Site Emcrscncy Exctcisc Scenario No 41, Rcv. 0 (Her%)

17. The cost of the accident at Nine Mile will be relayed to the customers. How will we be able to pay the electric bills ifwe are on Social Security?
18. I'e been told that the radiation actually melted the road surfaces at Nine Mile. I work as a roadway contractor and was wondering ifI can bid on the repairs?
19. Will my preferred NIMO stock be affected by the accident at Nine Mile?
20. Haven't we paid enough for the Nine Mile plants'? We should decommission the plants as soon as posstble?
21. This is the Reuters News Service. The Securities and Exchange Commission has suspended trading on NIMO stock. When is NMO recommending that it be resumed?
22. This is Madeline Albright. I was just informed that the IPPs are offering to take over the nuclear plants at Nine Mile. Is this true?
23. This is Harold Chapman with TIME magazine. We understand that the reactor was built by GE. Does GE think that their stock will be affected by the accident at Nine Mile?

".4. How long will NIMO have to buy replacement power because of the accident at Nine Mile?"

5. Now that the plant has been damaged. What effect will this have on the request BY NIMO to reduce the tax paid to Oswego County for the Nuclear plants?
26. What effect will this accident have on the bond rating?
27. What is the expected revenue loss from this accident?

2S. ls it going to be economically viable to repair the plant following this accident?

29. Will NIMO be hiring outside consultants to determine needed plant repairs?

I

30. Will NIMO be expecting to bring in a lot of outside help to restore the plant to operation'?

11.2-2

Nine Mile Point Unit 2 Site Emergency Exercise.

Scenario No 41, Rcv. 0 (ESPIAL)

1. This is Channel 9 News. We will be sending a Helicopter out to Nine Mile for some exclusive footage of the site. Which direction should it approach to minimize its radiation exposure?
2. This is Channel 3 News. How long do you project that the emergency will continue. We'e gathering a team to send to your JNC and they should be there within the hour. Will the JNC still be activated?
3. This is Margaret Meade of CNN. We are preempting our programming to cover the accident at Nine Mile.

Who do I talk to about being designated as the provider of network pool coverage?

4. This is Tom Brokeclaw of NBC News. We will be sending in an entire news team. Is there any large space available to setup a news center from which we can report?
5. This is Nickie O'rien from BR459 radio in Kingston, Ontario. Can I arrange an on the air interview with one of the plant operators that was involved in the accident?
6. This is Simeon Bergouis and Marcell Maginote of the Press Corps French International We will be sending over a news reporter and photographer. Could you please arrange for someone to meet them at the airport with an interpreter?

I'm Mallory Macdougal with the British Broadcasters. We would like to set up an interview'with some of your employees family members. With whom should we speak?

8. This is Susan Anthony of the Boston Globe. Could you please FAX us some plant information on Nine Mile including some information on any previous accidents?
9. This is Mark Generity of WKBY in Chicago. I just arrived in Syracuse and would like to know how to get to your Joint News Center?
10. This is Governor Pataki's press secretary, Mabel Gloomster. He is having a press conference in 15 minutes and would like a statement from a Senior Niagara Mohawk OHicial.
11. This is the San Francisco Journal. We would like to interview the person in charge of the emergency at Nine Mile. Could you please put him or her on the phone?
12. This is KGBY News From Birmingham Alabama. We understand the NRC has taken over your plant in order to stop the radiation leak. Has this ever been done before? Can you put someone on the line to discuss this?
13. This is Ian Woods from the New York Times. Could you tell me how many press releases you'e done thus far and how I can obtain copies?

11.3-1

Nine Mile Point Unit 2 Site Emergency Exorcist No 41, Rev. 0 (HEAL) 'cenario 2K Hcssapg< Media Inquiry: (continued)

14. This is Conan O'Brian. We would like to interview some of the folks who are working on the emergency.

Who should we see about doing this?

15. This is Pierre Claude in Quebec. Could you please tell me ifmore than one nuclear station blew up at Nine Mile point?
16. My name is Manuel Ortega. We just had a similar type of accident here in El Salvador. Our government has covered it up. Are you expecting your government to put a lid on this situation?
17. I'm at the Syracuse Train Station. Could you please give me directions to the JNC?
18. Can I speak to the NRC spokesperson. I would like for them to compare this accident to TMI.
19. This is Guy Smiley of CBS. Is there any way we can get a truck close enough to the plant to get us some live coverage?
20. This is Dan Webster of ABC. We understand the Feds are sending in some helicopters to do some surveys.

Is it possible to get one of our cameramen on board to get some live footage of the disaster?

1. This is Web Stuart of GNN. We have a boat on Lake Ontario and would like to know how close we can get to the plant without our people ge'tting killed from the radiation?
22. My name is Emanuel Lewis of FOX. When will we be able to get some closeup pictures of the damaged reactor core like they did at Chernobyl?
23. We are calling from the Czech Republic. We have several reactors here in our country and would like to know ifthe same accident could happen here?
24. This is Hans Gurdling of the Swedish News Station. What information can you send to us about your accident there in the United States?
25. My name is Greta Goshen of the Deutschland Press. We would like to have someone who speaks German provide us with some answers to questions we have concerning the accident at your plant.
26. Hello, my name is Hellen Goodbody and I work for the Herald Journal. We would like to setup a video conference with some of your technical people to answer some of our questions. Whom should we talk to about his?
27. My name is Frank Muir of the Weekly Chronicle. When can we get an exclusive interview with the operators who were in control of the plant when the accident happened?

11.3-2

Nine Mite Point Unit 2 Site Emergency Exercise.

Scenario No 41, Rev. 0 (HML)

0 Nine Mile Point Unit 2 Site Emergency Exercise.

Scenario No 41, Rev. 0 (RNAL)

TO: Communicators Location Controller LOCATION: State EOC, Oswego County EOC, NMPC EOF, Onondaga County EOC, Joint News Center, State Field Monitoring Teams TIME: When appropriate facilities are activated. (Note: FEMA Evaluator should be notiTied prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL

+~'QZINITIATL ANl'CTIONSAFFECTING NORMALPLANTOPERA TION Your normal communication method has just failed. Do not try to use it until you are notified that it has been repaired. (It is simulated to have failed for purposes of this exercise) 11.4-2.

Nine Mte Point Unit 2 Site Etncfgen+ Exefelse Scenario No 41, Rev. 0 (RML)

TO: Communicators FROM: Location Controller I.OCATION: State EOC, Oswego County EOC, NMPC EOF, Onondaga County EOC, Joint News Center, State Field Monitoring Teams Following review by the FEMA Evaluator as to the adequacy of the backup communications.

{Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS 1$ A DRILL Q~~INITIATE AM'ACTIONSAFFECTING NORMALPLANTOPERA TION Your norma) communication method has now been repaired.'].4-3

Nine Mile Point Unit 2 "

Site Emergency Exercise No 41, Rev. 0 (HVAR} 'cenario Oswego County Rad Office TO'ROM:

Dose Assessment Controller LOCATION: Oswego County EOC Following dispatch of County Monitoring Teams. {Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control (Dose assessment Discussion Only)

THIS IS A DRILL QQj~INITIATE ANYACTIONS AFFECTING NORMALPLANTOPERATION 1

One of your teams reports that they are experiencing self reading dosimeter readings in excess of 1.2 R/hr.

Please tell the Controller what you would expect this team to do when confronted with this situation.

11.4-4,

N<ne Mc Pont Urut 2 Site ENcfgcAcfg Excfchc Scenario No 4], Rcv. 0 (HEAL)

TO: County Field Monitoring Teams FROM'swego Field Monitoring Teams Controller LOCATION: Oswego County Following dispatch of County Monitoring Teams. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control (Field Team Discussion Only)

THlS 1$ A DRILL QQj ~INITIATE ANYACTIONS AFFECTING NORMALPLANTOPERATION Your teams are experiencing self reading dosimeter readings'in excess of 1.2 R/hr. Please indicate to the Controller what you would expect to do when confronted with this situation.

11.4-5

Nine h6le Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HNAL)

-3

-TO: Oswego County Field Monitoring Teams FROM: Field Monitoring Teams Controller LOCATION: Oswego County TIME: Following dispatch of Oswego County Monitoring Teams. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Contingency THIS IS A DRILL.

DQj ~ INITIATE AAYA CTIONS AFFECTING NORMALPLANTOPERA TION Ifthe Field Monitoring Teams detect sufficient levels of airborne contamination and attempt to use silver zeolite air filtration cartridges, note this and direct them to use the charcoal filter cartridges instead.'1.4-6

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HEAL)

TO: Oswego County Emergency Director FROM: Location Controller LOCATION: Oswego County EOC TIME: Following receipt of necessary information that would require activation of the Prompt Notification Sirens. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Contingency THIS IS A DRILL Q~QI'INITIATE ANTACTIONS AFFECTING NORMALPLANTOPERA.TION Ifconditions exist that would require activation of the Prompt Notification Sirens, SIMULATETHIS, DO NOT ACTIVATETHE SIRENS FOR THIS EXERCISE 11 4-7

NmcMlePomtUrnt2 .

Site Emergency Exercise Sccnarin Nn 41, Rev. 0 {HEAL)

TO: Oswego County Emergency Director FROM: Location Controller LOCATION: Oswego County EOC Following receipt of necessary information that would require activation of the Tone Alert Receivers. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Contingency THIS IS A DRILL Qgj 92Z'INITlATI: ANTACTIONS AFFECTING NORMALPLANT OPERA TION Ifconditions exist that would require activation of the Tone Alert Receivers, SIMULATETHIS, DO NOT PLACE Ah%'ALLS TO THE NATIONALWEATHER SERVICE.

11.4-8,

0 Nine Mile Point Unit 2 Site Emergency Exercise.

Scenario No 41, Rcv. 0 (HÃAQ TO: Oswego County Emergency Director FROM: Location Controller LOCATION: Oswego County EOC Following receipt of information that an evacuation of the Nine Mile Site is needed. (Note:

FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control (Discussion Item Only)

THIS IS A DRILL

~92Z'INITIATE ANYACTIONS AFFECTING NORMALPLANTOPI;RATION There is a report that trees are down blocking the road on County Route 6 in New Haven near Demster.

11.4-9

0 Kine Mle Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (RML)

TO: Oswego County Emergency Director Location Controller LOCATION: Oswego County EOC Following activation of Oswego County EOC. (Note: FEMA Evaluator should be notiTied prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control (Discussion Item Only)

. THIS IS A DRILL Q~~~INITIATEAM'ACTIONSAFFECTING NORMALPLANTOPERATION An accident has just been reported on State Route 104B at the Route 104 intersection. The accident is involving a New Haven Township dump truck loaded with gravel. The truck flipped on it's side and spilled its contents on the roadway, blocking al) traffi flow in all directions while rounding the turn. The driver is unhurt and was able to set up flares to warn other traHic in the area.

11.4-10

Nine Mile Pornt Unrt 2 Site Ernerscncy Exercise Scenario No 41, Rcv. 0 (HML)

TO: Oswego County Emergency Director FROM: Location Controller LOCATION: Oswego County EOC Following activation of Oswego County EOC. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control (Discussion Item Only)

THIS IS A DRILL QQj ~INITIATL ANYACTIONS AFFECTING NORMALPLANTOPERA TION An accident has just been reported at the intersection of County Route 43 and Route 104B . The accident is involving a tractor trailer loaded with logs and an empty school bus. The trailer has flipped on it's side and spilled it's contents on the roadway, blocking all traffic flow in all directions.

Nine Mile Point Unit 2 Site Emersency Exereiee Scenario No 41, Rev. 0 (HEAL)

'O:

Oswego County Emergency Director FROM: Location Controller LOCATION: Oswego County EOC TIME: Following the receipt of necessary information that would require bus dispatch to transportation dependant bus routes. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Contingency THIS IS A DRILL Q~rQI'INITIATE AM ACTIONS AFFECTING NORMALPLANT OPERA TION Ifconditions exist that would require bus dispatch, only perform one general population bus run and one bus run for each school district.

11.4- l2

I Nine Mrle Poet Umt 2 Site Emergency Exercise Scenario No 4], Rev. 0 {HNAL)

TO: Oswego County Eniergency Director FROM: Location Controller LOCATION: Oswego County EOC TIME: Following receipt of necessary information that would require calls be made to the hearing impaired and mobility impaired individuals. (Note: FEMA Evaluator should be notiTied prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Contingency (Discussion Item Only)

'HIS IS A DRILL QQj 922'INITIATE ANTACTIONS AFFECTING NORMALPLANT OPERA TION Ifconditions exist that would require calls be made to non-institutionalized hearing or mobility impaired individuals, SIMULATETHIS, DO NOT PLACE ANY CALLS TO THESE INDIVIDUALS.

11.4-13

Nine Mile Point Unit 2 Site Emergency Exercise No 41, Rev. 0 (ITPIAL) 'cenario TO: Oswego County Emergency Director FROM: EOC Controller LOCATION: Oswego County EOC Following receipt of necessary information that would require dispatch and set up of traf5c control points in Oswego County. (Note: FEMA Evaluator should be notiTied prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL

~'QZ'INITIATL ANYACTIONS AFFECTING NORMALPLANTOPERA TION When it is identified that traffic control points, must be established, the police officers will be'dispatched to those areas identified, they will be instructed that they are not to set up any roadblocks, barriers, nor provide any impediment to normal traffic flow. These officers shall also be instructed to provide any information requested of them from the FEMA representatives. When FEMA has completed their evaluation'of this activity, the officer will be released to the control of the Oswego County Director of Emergency Management.

11.4-14

Nine Mile Point Unit 2 Site Emergency Exercise Sccnrrrio No 41, Rev. 0 (ANAL)

TO: Oswego County Emergency Director FROM: EOC Controller Oswego County EOC 'OCATION:

Following receipt of necessary information that would require dispatch and set up of traffic control points in Oswego County. {Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL QQj~ INITIATE AM' CTIONS A FFEC TING NORMALPLANTOPERA TION When it is identified that traffic control points must be established, the police officer will be'dispatched to those areas identified, they will be instructed that they are not to set up any roadblocks, barriers, nor provide any impediment to normal traffic flow. These officers shall also be instructed to provide any information requested of them from the FEMA representatives. When FEMA has completed their evaluation'of this activity, the officers will be released to the control of the Oswego County Director of Emergency Management.

'1.4-15

N<nc Mile Pont Umt 2 See Emcrgcncy Exercise Scenario No 41, Rcv. 0 (HEAL)

TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities. are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL

~QZINITIATE ANYACTIONS AFFECTING NORAQL PLANT OPERATION "he individual before you is contaminated in the folio@ring areas:

~

(Refer to diagram attached}

ote: Readings are in CPM 11.4-16

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No, 4 l, Rev. 0 (Dnrft I)

'29OO Allareas are as read unless indicated by tlute above picture.

Nine Mlc Point Unit 2 Site Emesgeney Exercise Scenario No 41, Rcv. 0 (HNAL)

TO: Initial Personnel Monitor/Personnel Decon Monitor Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities. are activated. {Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THISISA DNLL-

~~INITIATE ANYACTIOMAFFECTING NOJBbfL PLANTOPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached)

<ote: Readings are in CPM After first decon effort 11.4-17

Nine MQe Point Umt 2 Site Emergency Exanse Scenari No. 41. Rtv. 0 (Dnrfi 1) l2L- Pll- It f

('ll areas are as read unless indicated by the above picture.

. ~

Nine Mile Poet Unit 2 Site Eincrgcncy Excrcisc Sccnano No 41, Rev. 0 (PXNAL)

TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DMLL Q~iQI'INITIATE ANTACTIONS AFFECTING NORMALPLANT OPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached) lote: Readings are in CPM After second decon effort

0 Site Emergency E~

Nine Mile Point Unit 2 Sceaario No. 41, Rev. 0 (Dms 1)

S, r ea.(k, Allareas are as read unless indicated by tire above picnire.

0 Nine Mile Poet Unrt2 Site Erncrsen+ Exercise Scenario No 41, Rcv. 0 (HNAQ TO: Initial Personnel Monitor/Personnel.Decon Monitor FROM: Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DMLL Q~QI'INITIATE ANYACTIONS AFFECTING NORMALPLANTOPERA TION

\

The individual before you is contaminated in the following areas: (Refer to diagram attached) ote: Readings are in CPM 11.4-19

Nine hGle Point Unit 2 Site Emergency Exercise

~ Scenario No. 4l, Rer. 0 (Dnrfr 1)

'2e.-Pl\- 2 1 I

~500 III

/

oD Allareas are as read unless indicated by dre above picnsre.

Nine Mile Poet Umt 2 Site Einergcncy Exercise Scenario No 41, Rev. 0 (H¹K)

TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities, are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DMLL DQj92ZINITIATE ANYACTIONS AFFECTING NORMALPLANT OPERATION

'I The individual before you is contaminated in the following areas: (Refer to diagram attached) 0ote: Readings are in CPM After first decon effort

Nine lvQle Point Unit 2 S>te Bncfga~ ExaeLsc Scenario No. 41. Rev. 0 (Defi')

/

l Allareas are as read unless indicated by tlute above picture.

NiiicMile Point Umt 2 Sitt; ENcfgcn+Excfcisc 9ccnatio No 41, Rev. 0 {HNAL)

TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL ~

D~Q'I INITIATE ANYACTIONS AFFECTING NORMALPLANTOPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached)

<ote: Readings are in CPM After second decon effort 11.4-21

Nine hGlc Point Unit2 Site Emergency Exercise Scenario No. 4 l, Rev. 0 (Dnrfi l)

RC- 'PD- c.

'I I Cease s

Allareas are as read unlessindicated by tlute above picture.

Nee Mile Po>nt Unit 2 S>fe Etoeraen+ Exercise Scenario No 4], Rev. 0 (RÃAL)

-3 TO: Initial Personnel Monitor/Personnel Decon Monitor FROM:, Reception Center Controller LOCATION: Reception Center {NYS Fairgrounds)

When appropriate facilities are activated. {Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL QQ~2Z'INITIATE AAYACTIONS AFFECTING NORMALPLANT OPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached)

Cote: Readings are in CPM 11.4-22.

Nine hQlc Point Unit 2 Site Emcfgcncl/ Excrcisc Scenario Ho. 4 I. Rcv. 0 (Drafi l)

RC - +iD- o.

l (

I oo 811 areas are as read unless indicated by dre above picture.

Nine Mile Point Unit 2 Site Emergency Excrciae Scenario No 41, Rev. 0 (ANAL)

TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds).

When appropriate facilities are activated. (Note: FEMA Evaluator should be notiTied prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL

~YQZ'INITIATE AM'CTIONSAFFECTING NORMALPLANT OPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached)

~ ~

Cote: Readings are in CPM After first decon effort 11.4-23

%me hQlc Point Unit 2 Site Emergency,Exacisc Scenario No. 41. Rev. 0 (Drafi 1)

Allareas are as read unless indicated by tice above picture.

P Nee M1e Poet Unit 2 Stte Emcrsency Exercrse Scceuio No 41, Rcv. 0 (HEAL)

P R TO: Initial Personnel Monitor/Personnel Decon Monitor Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities are activated. (Note: FEMA Evaluator should be. notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL D.~iQTT INITIATE ANTACTIONS AFFECTING NORM'ALPLANT OPERATION he individual before you is contaminated in the following areas: (Refer to diagram attached)

Note: Readings are in CPM l l.4-24

Nine MiltPoint Unit 2 Sie Emeqpncy Exaaisc Seeaano No. 41, Rcv. 0 (Defi 7)

C - PQ-Ra.

II f

ij

~500 Allareas are as read unless indicated by the above picture.

Nine lv61e Point Unit 2, Site Emcrscncy Exercise Scenario No 41, Rev. 0 (b7ÃAL)

TO: Initial Personnel Monitor/Personnel Decon Monitor Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL

~522'INITIATE AM'ACTIONSAFFECTING NOISbfL PLANTOPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached)

Note: Readings are in CPM After first decon effort 11.4-25

Nme hGle Point Unit 2 Site Emergency Exercise ji Scenttrio No. 4 l, Rev. 0 (Dnr I) l (

io Allareas are as read unless indicated by Che above picncre.

%inc S: Point Unit 2 Site Emcrscncy Exetcisc.

Scenario No 41. Rcv. 0 (Dnr~ L)

TO: Initial Personnel Monitor/Personnel Decon Monitor Personnel Monitoring Center Controller LOCATION: PMC (Dill Pickel Alley, Parish, New York)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL

~@7. INITIALAM'ACTIONSAFFECTING NODAL PLANTOPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached)

Note: Readings in CPM After second decon effort

Sire Emergency E~

Nine hQle Point Unit 2 Scenario No. 41, Rcv. 0 (Dmfi I) f Allareas are as read unless indicated by tire above picture.

Nine Mlc Point Unit 2 Site Emergency Exercise Scenario No 41, Rcv. 0 (HNK)

TO: Initial Vehicle Monitor/Vehicle Decon Monitor FROM: Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

I When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation" is performed)

MESSAGE: Control THIS IS A DRILL QQ3~g INITIATEANY ACTIONS AFFECTING NORMAL PLANT OPERATION he vehicle before you is contaminated in the following areas:

Location Survey meter results (readings are CPM > background)

Windshield 700 Grill 500 Hood 500 Front Tires 500 Rear Tires 500 Steering Wheel 350 Front Seat 500 Drivers Floor 500 Drivers Door 500

r Nine h6lc Point Unit 2 Site Ernerscncy Excrcilc Scenario No 41, Rcv. 0 (RNAQ TO: Initial Vehicle Monitor/Vehicle Decon Monitor Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure, that the obser vation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL QQj 522'INITIATE AAYACTIONS AFFECTING NORMALPLANT OPERATION fhe vehicle before you is contaminated in the following areas:

ote: Readings in mR/hr After first decon effort Location Survey meter results (readings

)

are CPM background)

Windshield As read Grill As read Hood As read Front Tires As read Rear Tires As read Steering Wheel As r'ead Front Seat As read Drivers Floor As read Drivers Door As read 11 4-28

Nine Mle Point Unit 2 Site Emersency Exereisc Scenario No 41, Rev. 0 (HMK)

TO: Initial Vehicle Monitor/Vehicle Decon Monitor Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities are activated. {Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL D~Q1 IMTIATEANY ACTIONS AFFECTING NORMALPLANT OPERATION fhe vehicle before you is contaminated in the following areas:

~ ~

Note: Readings in mR/hr Location Survey meter results (readings are CPM > background}

Windshield. 500 Grill 500 Hood 350 Front Tires 700 Rear Tires 700 Steering Whee) 500 Front Seat 350 Drivers Floor 500 Drivers Door 500 11.4-29

Nine Mile Potnt Utnt 2 Site Etncrgcncy Exacise Scenario No 41, Rev. 0 (FJPIAL)

TO: Initial Vehicle Monitor/Vehicle Decon Monitor FROM: Reception Center Controller LOCATION: Reception Center (NYS Fairgrounds)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRlLL Q2j YQZ'INITIATEENY ACTIONS AFFECTING NORMALPLANT OPERATION fhe vehicle before you is contaminated in the following areas:

Note: Readings in mR/hr After first decon eKort Location Survey meter results (readings are CPM > background)

Windshield As read Grill As read Hood As read Front Tires 350 Rear Tires 350 Steering Wheel As read Front Seat As read Drivers Floor As read Drivers Door As read 11.4-3,0

0 C

Nine Mile Point Unit 2 Site Emergency Exercise:

Scenario No 41, Rev. 0 (FILL)

R P RED E

'O:

Initial Personnel Monitor/Personnel Decon Monitor FROM: Personnel Monitoring Center Controller LOCATION: PMC {DillPickel Alley, Parish, New York)

TIME: When appropriate facilities are activated. (Note: FEMA Evaluator should. be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THlS IS A DNLL Qg~QQ'INITIATE ANYACTIONS AFFECTING NORMALPLANTOPERA TION l'he individual before you is contaminated in the following areas: (Refer to diagram attached)

'ote: Readings in CPM

l Nine Mile Point Unit 2 Site Bnageacy Exacisc Scenario No. 41, Rcv. 0 (Drafi I)

P+c - PQ- l~

) (

f 4Q oo Allareas are as read unless indicated by tire aboveP icture.

Nine Mile Po>nt Un>t 2 Site Ernerscncy Exercise Scenario No 41, Rcv. O (ANAL)

TO: Initial Personnel Monitor/Personnel Decon Monitor Personnel Monitoring Center Controller I

LOCATION: PMC (Dill Pickel Alley, Parish, New York)

'I TIME: When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL Q2j 92TINITIATE AAVACTIONS AFFECTING NORMALPLANT OPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached)

Note: Readings in CPM After first decon effort 11.4-32

Nine Mile Point Unit 2 Site Emergency.Exetase Scenario No. 4l, Rcv. 0 (Defi t)

). (

lo o Allareas are as read unless indicated by tlute above picture.

Nine Mile Point Unit 2

. Site Emcrscncy Exercise

'Scenario No 41,Rcv. 0 (HNAL)

'O:

Initial Personnel Monitor/Personnel Decon Monitor Personnel Monitoring Center Controller LOCATION: PMC (DillPickel Alley, Parish, New York)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation. is performed)

MESSAGE: Control THIS IS A DRILL Q~'QZ'INITIATEANYACTIONS AFFECTING NORMALPLANTOPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached)

Note: Readings in CPM After second decon etrort 11.4-33

Nine Mile Point Unit 2 Site Emergaxy Exacise Scenario No. 41, Rcv. 0 (Defi l)

~sr~ad Allareas are as read unless indicated by tf>e above picture.

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HZ',)

TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: 'ersonnel Monitoring Center Controller LOCATION: PMC (Dill Pickel Alley, Parish, New York) h When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DMLL Qgj 922'INITIATE AAYACTIONS AFFECTING NOISAL PLANTOPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached)

Note: Readings in CPM 11.4-34

Niae Mile Point Uait 2 Site Eraergeacy Exercise Scenario No. 41, Rcv. 0 (DnifiI) rn(- P04a l OSO Allareas are as read unless indicated by tice above picture.

Nine Mile Point Unit 2 Site EnietgencJJ Exetcse Scenario No 41, Rev. 0 (ANAL)

TO: Initial Personnel Monitor/Personnel Decon Monitor Personnel Monitoring Center Controller LOCATION: PMC (Dill Pickel Alley, Parish, New York)

When appropriate facilities are activated. {Note: FEMA Evaluator should be notified prior to

'his message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL Q~QQ'INITIATE AATACTIONS AFFECTING NORMALPLANTOPERATION The individual before you is contaminated in the following areas: {Refer to diagram attached)

Note: Readings in CPM After first decon effort 11.4-3,5

Nine Milo Poiat Uait 2 Site Emergoocff Ex~isc Scenario Ho 41 Rev 0(Drafi l) j (

f Allareas are as read unlessindicated by Che above picture.

,,Needle Poet Uet2 S>te Emergency Excrasc Scenario Ne 41, Rev. 0 (HEAL)

%3 TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: Personnel Monitoring Center Controller LOCATION: PMC (Dill Pickel Alley, Parish, New York)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation. is performed)

MESSAGE: Control THIS IS A DRILL QQj ~INITIATE ANVACTIONS AFFECTING NORMALPLANTOPERA TION The individual before you is contaminated in the following a'reas: {Refer to diagram attached)

Note: Readings in CPM 1].4-36

Nine Mile Point Unit 2 Site Emeryntcy Exercise Scenario No. 41. Rev. 0 (Dnrfi 1) t I Allareas are as read unless indicated by tire above picture.

Nine Mile Poet Umt 2 Site Emergency Exercise, Scenario No 41, Rev. 0 {HNAI)

P R D A3 TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: Personnel Monitoring Center Controller LOCATION: PMC (Dill Pickel Alley, Parish, New York)

When appropriate facilities are activated. {Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL DQj ~INITIATE ANYACTIONS AFFECTING NORMALPLANTOPERA TION The individual before you is contaminated in the following areas: (Refer to diagram attached)

Note: Readings in CPM After first decon effort 11.4-37,

Nine Mile Point Uait 2 Site Bnergeacy Exercise Scenario No. 4 l, Rcv. 0 (Defi ()

Allareas are as read unlessindicated by tire above picture.

h Nine h6c Poet Umt2 Site Emcrscncy Excrete Scenario No 41, Rev. 0 (Dipl)

-4 TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: Personnel Monitoring Center Controller LOCATION: PMC (Dill Pickel Alley, Parish, New York)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL QQjVQZINI77ATE ANYACTIONS AFFEC77NG NORMALPLANT OPERA 77ON The individual before you is contaminated in the following areas: (Refer to diagram attached)

Note: Readings in CPM

Nine ale Point Unit 2 Site Emergency Exerrise

~

Scenario No. 41. Rev. 0 (Dms J)

'l Loo Allareas are as read unless indicated by tice above picture.

Kine Mite Point Unit Z Site Eincrgcncjj Exercise .

Scenario No 41, Rev. 0 (ANAL)

TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: Personnel Monitoring Center Controller LOCATION: PMC (Dill Pickel Alley, Parish, New York)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRlLL Q~~QI'INITIATE ANTACTIONS AFFECTING NORMALPLANTOPERATION The individual before you is contaminated in the following areas: (Refer to diagram attached)

Note: Readings in CPM After first decon effort 11.4-39

Nine ale Pomt Umt 2 Sire Emergency Excise Scenario No. 41, Rev. 0 (Dmfi I) a 3L

'I I

) (

Allareas are as read unless indicated by the above picture.

0 Nine 1v5)e Point Unit 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HMK)

TO: Initial Personnel Monitor/Personnel Decon Monitor FROM: Personnel Monitoring Center Controller LOCATION: PMC (Dill Pickel Alley, Parish, New York)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS 1$ A DNLL Q~~QI'INITIATE AM'CTIONSAFFECTING NORMALPLANT OPERA TION The individual before you is contaminated in the following areas: (Refer to diagram'attached)

Note: Readings in CPM After second decon effort 11.4-40

Nine Mi1e Pomt Umt2 Site Emergency Exercise Scenario No, 41, Rev. 0 (Defi 1)

Proc- PO-0 <

~sr cW Allareas are as read unlessindicated by tice above picture.

Nine Mile Potnt Urnt 2 Site Emergency Exercise Scenario No 41, Rev. 0 (HSING TO: Initial Vehicle Monitor/Vehicle Decon Monitor FROM: Personnel Monitoring Center Controller F

LOCATION: PMC (Dill Pickel Alley, Parish, New York)

When appropriate-facilities are activated. (Note: FEMA Evaluator should be notiTied prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS 1$ A DRILL Q~QI'INITIATE AATACTIONS AFFECTING NORAH L PLANTOPERA TION he vehicle before you is contaminated in the following areas:

Note: Readings in CPM Location Survey meter results (readings are CPM > background)

Windshield 350 500 Hood 500 Front Tires 700 Rear Tires 500 Steering Wheel 350 Front Seat '00 Drivers Floor 500 Drivers Door 700 11.4-41

Kine MilePornt Unit 2 Site Emerscncy Exercise Sccnrrrio No 41, Rev. 0 (ANAL)

P D TO: Initial Vehicle Monitor/Vehicle Decon Monitor FROM: Personnel Monitoring Center Controller LOCATION: PMC (Dill Pickel Alley, Parish, New York)

TIME: When appropriate facilities are activated. (Note: FEMA Evaluator should be notiTied prior to this message being distributed to ensure that the observation is made and an evaluation. is performed)

MESSAGE: Control THIS IS A DRILL DQ~~2TINITIATE ANYACTIONS AFFECTING NORMAL PLANTOPERA TION fhe vehicle before you is contaminated in the following areas:

After first decon effort Location Survey meter results (readings are CPM > background)

Windshield As read Grill As read Hood As read Front Tires As read Rear Tires As read Steering Wheel As read Front Seat As read Drivers Floor As read Drivers Door As read

Nine Mte Point Unit 2 Site Emergency Exercise Scenari No 41, Rev. 0 (HEAL)

TO: Initial Vehicle Monitor/Vehicle Decon Monitor Personnel Monitoring Center Controller LOCATION: PMC (Dill Pickel Alley, Parish, New York)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL QQj 92T INITIATE ANYACTIONS AFFECTING NORMAL PLANT OPERA TION he vehicle before you is contaminated in the following areas:

Location Survey meter results (readings are CPM > background)

Windshield 500 Grill 500 Hood 700 Front Tires 700 Rear Tires 500 Steering Wheel 700 Front Seat 500 Drivers Floor . 350 Drivers Door 700 11.4-43

Nine Mile Point Unit 2 Site Emergency Exercise.

Scenario No 41, Rcv. 0 (HNAL)

TO: Initial Vehicle Monitor/Vehicle Decon Monitor FROM: Personnel Monitoring Center Controller LOCATION: PMC (Dill Pickle Alley, Parish, New York)

When appropriate facilities are activated. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL 0

~QZINITIATE AATACTIONS AFFECTING NORMALPLANT OPERA TION he vehicle before you is contaminated in the following areas:

After first decon effort Location Survey meter results (readings are CPM > background)

Windshield As read Grill As read Hood As read Front Tires As read Rear Tires As read Steering Wheel As read Front Seat As read Drivers Floor ~ As read Drivers Door As read 11.4-44

0 Nine Mte Point Unit 2 Site Ernerscncy Exerciae Scenario No 41, Rev. 0 (HEAL)

A E TO: Reception Center Medical Personnel FROM: Location Controller LOCATION: Reception Center TIME: When appropriate facilities are activated. (Note: FEMA Evaluator should be notiTied prior to this, message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DMLL

~QT INITIATE ANYACTIONS AFFECTING NORAH L PLANTOPERA TION The information in this message is for Controller use. Provide the information/data contained in this message to accident scene responders when requested regarding the initial medical condition of the victim.

lniilM i I . i'~ f 'm In'Vi Lii.'espiration: 16, Regular Skin: cooVdry Pulse: 68, bounding B.P.: 150/110 Pupils right side dilated and unresponsive, left side normal and reactive Level of consciousness: Responsive to pain only Physical Exam: 3 inch laceration over left eye, bleeding profusely. Ecchymosis over each mastoid.

Remainder of primary and secondary survey unremarkable.

11.4-45

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rcv. 0 (FtptAL)

(Contamination levels mill remain the same throughout the event)

Area CPM DPM Clothing-general 350 3500 Head 600 6000 Neck 600 6000 Face 450 4500

.Chest <100 <1000 Back <100 <1000 Arms (left Ec right) <100 <1000 Legs (left 8c right <100 <1000 Hand (lefl) <100 <1000 Hand (right) <100 <1000 11.4-46

Nine Mile Point Unit 2 Site Emeqymcy Exaaise Scauuio No. 41, Rev. 0 (Dnrfi I)

'I I Allareas are as read unless indicated by dr e above picture.

W

'ineMBePointUnit2 Sr re ErncrsencJJ Excrcmc.

Scenario No 41, Rev. 0 (HEAL)

P RED TO'eception Center Medical Personnel I.ocation Controller LOCATION: Reception Center At 15 minutes after victim arrives. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS 1$ A DRILL QQj92ZINITIATE ANTACTIONS AFFECTING NORMALPLANT OPERATION The information in this message is for Controller use. Provide the information/data contained in this message to accident scene responders when requested regarding the initial medical condition of the victim.

Ifsupportive treatment has Ifno treatment or inadequate been given (i.e., lay flat, keep treatment given, then the vitals warm, give oxygen, bleeding are:

controlled) then vitals are Respiration 16, Regular 16, Regular Pulse 68, Bounding 72, Bounding B.P. 150/114 142/114 Pupils R-Blown, L-Normal R-Blown, L-Normal Skin Cool, Dry Cool, Dry Level of Consciousness Responsive Only to Pain Responsive Only to Pain 11.4-47,

0 Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rcv. 0 (HNAQ

-3 TO: Reception Center Medical Personnel FROM: Location Controller LOCATION: Reception Center TIME: After 30 minutes aAer victim arrives. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE:

Control THIS IS A DMLL Q~Q'I INITIATE ANYACTIONS AFFECTING NORMAL PLANT.OPERA TION The information in this message is for Controller use. Provide the information/data contained in this message to accident scene responders when requested regarding the initial medical condition of the victim.

Ifsupportive treatment has Ifno treatment or inadequate been given (i.e., lay flat, keep treatment given, then the vitals warm, give oxygen, bleeding are:

controlled) then vitals are Respiration 16, Regular 16, Regular Pulse 68, Bounding 72, Bounding B.P. 150/116 150/120 Pupils R-Blown, L-Normal R-Blown, L-Normal Skin Cool, Dry Cool, Dry Level of Consciousness Responsive Only. to Pain Responsive Only to Pain 11.4-4,8

Nine Mile Point Unit 2 Site Emergency Exercise Scenario No 41, Rcv. 0 (HMl,)

TO: Reception Center Medical Personnel FROM: Location Controller LOCATION: Reception Center At time of transport of the victim. (Note: FEMA Evaluator should be notified prior to this message being distributed to ensure that the observation is made and an evaluation is performed)

MESSAGE: Control THIS IS A DRILL QQ.M2ZINITIATE ANYACTIONS AFFECTING NORMALPLANTOPERATION The information irt this message is for Controller use. Provide the information/data contained in this message to accident scene responders when requested regarding the initial medical condition of the victim.

If supportive treatment has Ifno treatment or inadequate been given (i.e., lay flat, keep treatment given, then the vitals warm, give oxygen, bleeding are:

controlled) then vitals are Respiration 12, Regular 10, Regular Pulse 68, Bounding 64, Bounding 150/122 144/126 Pupils R-Blown, L-Normal R-Blown, L-Normal Skin Cool, Dry Cool, Dry Level of Consciousness Unresponsive Unresponsive 11.4-49