1989 Annual Emergency Preparedness Exercise on 890920 for DC Cook Nuclear Power Plant.

ML17328A185
Person / Time
Site:	Cook
Issue date:	09/20/1989
From:	INDIANA MICHIGAN POWER CO. (FORMERLY INDIANA & MICHIG
To:
Shared Package
ML17328A184	List: ML17328A183 ML17328A185
References
NUDOCS 8910110256
Download: ML17328A185 (744)
v • d • e

Text

Donald C. Cook Nuclear Plant 1989 Annual Emergency Preparedness Exercise September 20, 1989 910110256 891005 PDR ADOCK 05000315 F PDC

TABLE OF CONTENTS Introduction Exercise Objective Conduct of Exercise Controllers/Observers Information Off-site Agency Participation Exercise Narrative Summary (Basic Sequence of Events)

Exercise Messages A. Plant Data Curves B. Controller Messages C. OTSC Loq Data D. Thermocouple Maps Radiation Data A. In-Plant Radiation Data B. On-site Radiation Monitoring Teams Data C. Dose Projection Data D. Meteorological Data E. RMS Data F. Plume Exposure Data ERE>>09/20/89

DONALD C. COOK NUCIEAR PZANT EMERGENCY RESPONSE EXERCISE INTRODUCTION In the interest of verifying that the health and safety of Plant staff, Plant visitors and the general public are protected in the event of an accident at the Cook Nuclear Plant, the Indiana Michigan Power Company conducts an annual emergency response exercise. In accordance with the schedule prescribed by the Nuclear Regulatory Commission (NRC) and the Federal Emergency Management Agency (FEMA),

the 1989 emergency response exercise will be a "utility only" with only partial participation by state and local agencies.

The exercise is scheduled to be conducted on September 20, 1989 at 0730. It will include mobilization of Cook Nuclear Plant, American Electric Power Service Corporation (AEPSC),

and Indiana Michigan Power Company (IM) personnel. They will demonstrate their ability to respond to an accident at the Cook Nuclear Plant in a coordinated fashion. The intent of the exercise is to demonstrate that these various emergency response organizations're adequately trained to implement their corresponding emergency plans and procedures from respective emergency response facilities.

Specifically unique and challenging to this exercise is'the planned first time use of the Cook Plant training si'mulator and simulated Technical Support Center. The simulated TSC, identical to the real plant TSC but located adjacent to and driven by the training control room simulator, is believed to be one of a kind and is expected to provide excellent Plant Evaluation Team training.

The exercise will be evaluated by assigned observers from AEPSC, the Cook Nuclear Plant and the NRC. A critique will be conducted following the exercise to identify response deficiencies. The critique will be conducted on September 21, 1989, 6 1500 in the Plant Manager's Conference Room. The critique will be attended by exercise Controller/Observers, key exercise participants and NRC observers. Deficiencies identified in the critique shall be documented with subsequent resolution being the responsibility of the Plant and AEPSC Emergency Preparedness Coordinators.

This manual has been prepared to assist exercise Controllers and Observers in the conduct and evaluation of the exercise. This manual contains all information and data necessary to conduct the exercise in a coordinated and efficient manner in the event the simulator becomes unuseable. Since the use of the simulator will provide the ERE-09/20/89 1-1

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE INTRODUCTION CONTINUED opportunity for more free-play one caveat to remember is that the timeline in Section Vl may not track with the exercise activities as closely as it has with the more artificial, closely controlled timelines used in past exercises.

The Joint Public Information Center (JPIC) has been exercised in the last several Annual Emergency Preparedness Exercises at the Cook Nuclear Plant. During this 1989 exercise, the absence of State and local participation provides the opportunity to thoroughly exercise our Emergency News Center (ENC). The ENC is set up in the Cook Energy Information Center, located on the plant property, and is intended to provide Emergency Public Information in the event of a serious fire, natural disaster, or a nuclear emergency. Normally, upon declaration of a Site Area emergency, Emergency Public Information activities would be transferred to the JPIC, outside the Plume EPZ. However, personnel will be directed to continue operation of the ENC for the duration of this scenario.

Finally, given that the players response should be candid and spontaneous to affect a valid evaluation, this manual'ust be treated as confidential material. Potential players shall not have prior knowledge of the scenario material in this manual.

ERE-09/20/89 1-2

DONAR'. COOK NUCLEAR PKdQlT EMERGENCY RESPONSE EXERCISE II. EXERCISE OBJECTIVES The exercise objectives dictate the scope of the scenario.

The objectives for this exercise were developed based upon the Donald C. Cook Nuclear Plant Emergency Plan Administrative Manual.

Situations will be presented in the scenario to prompt the desired player response for each objective. Nhere appropriate, specific objectives and criteria for adequate demonstration, have been included in the exercise messages for Controller/Observer use.

ERE-09/20/89 2~1

DONALD C. COOK NUCLEAR PLANT 1989 EMERGENCY PREPAREDNESS EXERCISE OBJECTIVES OB JECTI VE A. OVERALL LICENSEE OB JECTIVES A-1 Demonstrate the ability of the emergency response organization to implement DCCNP Emergency Plan and Procedures, the ISM Emergency Response Manual and the AEPSC Emergency Response Manual.

A-2 Demonstrate the ability to establish emergency management command and control, and maintain continuity of this function for the duration of the postulated event.

A-3 Demonstrate the ability to establish communications and information flow between DCCNP emergency response facilities and participating offsite agencies.

A-4 Demonstrate the ability to designate subsequent shifts of the emergency response organization.

B. CONTROL ROOM OBJECTIVES B-1 Demonstrate the ability to recognize symptoms and parameters indicative of degrading plant conditions and to classify degraded conditions as emergencies.

P-2 Demonstrate the ability to initiate notification of off-site authorities and plant personnel.

B"3 Demonstrate communications flow to and from the Technical Support Center.

B-4 Demonstrate the ability to transfer emergency authorities and responsibilities from the on-shift emergency organization to the DCCNP emergency response organization.

C. TECHNICAL SUPPORT CENTER OBJECTIVES C-1 Demonstrate the ability to activate the facility within one hour of declaration of an emergency requiring facility activation.

C-2 Demonstrate the ability to provide analytical assistance and operational guidance to the Control Room.

C-3 Demonstrate the ability to coordinate on-site activities in response to an emergency.

C-4 Demonstrate the ability to establish and maintain hard copy communications with the EOF and verbal communications with the EOF, OSA, IAG, and ENC.

ERE"09/20/89 2-1

OB JECTIVE C. TECHNICAI SUPPORT CENTER OBJECTIVES Cont'd.

C"5 Demonstrate the ability to provide analytical and radiological assistance to the OSA and Control Room.

C-6 Demonstrate the ability to obtain data from the OSTC/PSSD system.

C-7 Demonstrate the ability to request emergency response teams from the OSA.

C-8 Demonstrate the ability to designate a second shift for TSC operation.

C-9 Demonstrate the ability to evaluate the results of TSC/OSA habitability surveys a'nd assess the need to evacuate these facilities.

C-10 Demonstrate the ability to recognize degrading plant condi ions and classify plant conditions as an emergency.

C-11 Demonstrate the ability to determine the level of core damage based on plant parameters provided.

C-12 Demonstrate the ability to direct the implementation of site assembly and accountability.

C-13 Demonstrate the ability to display key plant systems status and trends on TSC Status Board.

D. OPERATIONS STAGING AREA OBJECTIVES D-1 Demonstrate the ability to activate the facility within one hour of declaration of an emergency requiring facility activation.

D-2 Demonstrate the ability to assemble, brief and dispatch the following emergency response team(s):

a Damage Control Team

b. Post Accident Sampling Team c ~ On-Site Radiation Monitoring Team

d. Off-Site Radiation Monitoring Team D-3 Demonstrate the ability to designate a second shift for OSA operation.

ERE"09/20/89 2-2

OB JECTIVE D. OPERATIONS STAGING AREA OBJECTIVES Cont'd D-4 Each emergency response team assembled and dispatched shall demonstrate the following actions as applicable to the team type and mission:

a ~ Assembly of tools/equipment

b. Preoperation checks of equipment and communications devices c ~ Performance of appropriate radiological precautions

d. Performance of simulation of team mission

e. Post-mission debriefing and radiological controls D-5 Demonstrate the ability to provide emergency radiological support.

As a minimum the following activities should be demonstrated:

a. Establishment of emergency dosimetry and exposure tracking system.

b. Establishment of emergency control points.

c. Performance of habitability surveys prescribed by procedure.

d. Analysis of radiological conditions to be encountered by emergency response teams.

e. Specification of radiological controls and precautions for emergency response teams.

D-6 Demonstrate the ability to perform off-site radiological monitoring. As a minimum, two teams should be dispatched and direct radiation monitoring as well as airborne radioactivity analysis should be demonstrated.

D"7 Demonstrate the ability to perform on-site radiological monitoring in accordance with applicable Emergency Plan Procedures. This monitoring should include direct radiation surveys and analysis of airborne radioactivity.

D-8 Demonstrate the ability to obtain environmental samples in accordance with applicable Emergency Plan Procedures. The following samples should be'btained:

a. Vegetation

b. Soil D<<9 Demonstrate the ability to obtain post accident samples from the reactor coolant system and complete appropriate chemical and isotopic analysis within three hours of the sample request.

D-10 Demonstrate the ability to respond to a contaminated person.

Included in this demonstration, personnel decontamination shall be simulated.

ERE"09/20/89 2" 3

OB JECTIVE E. EMERGENCY OPERATIONS FACILITY OMECTIVES E"1 Demonstrate the ability to activate the facility within one hour of declaration of an emergency requiring emergency activation.

Demonstrate the ability to establish overall command and control of the DCCNP emergency response within one hour of declaration of an alert, site area emergency or general emergency, as applicable.

E-3 Demonstrate the ability to establish and maintain effective emergency communications with each of the following agencies and facilities:

a. NRC (if participating)

b. Technical Support Center C. Emergency News Center

d. Initial Assessment Group E-4 Demonstrate the ability to establish and maintain hard copy data transmission and reception with each of the following facilities:

a.. Technical Support Center

b. Emergency News Center

c. Initial Assessment Group E-5 Demonstrate the ability to direct Offsite Radiation Monitoring Teams in order to determine the geographical location and radiological magnitude of any postulated offsite release.

E-6 Demonstrate the ability to designate a second shift for EOF operation.

E-7 Demonstrate'the ability to develop protective action recommendations based on projected dose and/or core and containment status.

E-8 Demonstrate the ability to update the State of Michigan on the status of the emergency at 15 minute intervals.

E-9 Demonstrate the ability to respond to inquiries from the TSC, ENC, IAG and State of Michigan in a timely manner.

E-10 Demonstrate the ability to project the magnitude of offsite dose using the Dose Assessment Program and the IBM PS/2 Personal Computer.

E-11 Demonstrate the corporate augmentation of the EOF staff.

E"12 Demonstrate recovery associated with emergency termination.

E-13 Demonstrate the ability to display key plant systems status and trends on EOF Status Boards.

ERE-09/20/89 2-4

OB JECTIVE F. PUBLIC AFFAIRS OBJECTIVES F-1 Demonstrate activation of the Emergency News Center.

F-2 Demonstrate the ability to conduct media briefings.

F-3 Demonstrate the ability to respond to actual or simulated inquiries from media representatives.

ERE-09/20/89 2-5 '

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE III. CONDUCT OF THE EXERCISE A. EXERCISE PLAYER INFORMATION This exercise is intended to satisfy the requirements for an annual emergency response exercise to demonstrate the readiness of the Plant to respond to an abnormal Plant condition. The following information should be understood by all players prior to initiation of the exercise.

It should be understood that the circumstances simulated for this exercise are unrealistic in certain aspects, which should not be construed as flaws in the scenario. Moreover, it is due to the reliable design and construction of nuclear power facilities that require unrealistic assumptions to be made in order to generate conditions that will affect the general public. Thus, in order to obtain a sequence of events that will result in a significant radiological hazard to the general public, the exercise scenario must contain an incredible Plant condition, an unlikely series of equipment failures, or an improbable sequence of.

events coupled with equipment failure.

2. The purpose of the exercise is to demonstrate actual integrated emergency response capabilities, including the use of emergency equipment and facilities. Personnel knowledge and familiarity with the Emergency Plan and Procedures are the primary aspect of the evaluation. Demonstration of detailed knowledge of plant systems, equipment and operation is of secondary importance for purposes of this evaluation. Although knowledge of the plant is not being evaluated, system evaluations should not be eliminated from discussions during the exercise since this contributes to the realism of the response.

3. All emergency communications that relate to the exercise shall be identified as part of the drill. Verbal communications should be initiated and closed by the statement, "this is a drill".

Exercise extreme care to ensure that individuals who may overhear or observe exercise activities are not misled into believing that an actual emergency exists.

ERE-09/20/89 3~1

Manipulation of any plant operating system, valves, breakers or controls in response to this exercise are to be simulated. There are to be no alternation of plant equipment, systems or circuits in response to this exercise.

Any motor vehicle response to this exercise, whether it be ambulance, fire fighting equipment, security or field monitoring vehicle should observe all normal motor vehicle operating laws including posted speed limits, stop lights/signs, one-way streets, etc.

Should any on-site security actions be required in response to this exercise, exercise participants are to cooperate as directed, and security representatives are to be prudent and tolerant in their actions.

Participants should inject as much realism into the exercise as is compatible with the safe performance of the exercise.

Play out all actions, as much as possible, in accordance with the Emergency Plan Procedures.

Unless specifically instructed by the controller, you should not simulate your actions. If instructed to simulate an activity, tell the observer/controller how and when you would actually perform the activity.

Periodically speak out loud, verbalizing your key actions and decisions to the controller and federal evaluator. This may seem artificial, but it will assist in the evaluation process and is to your benefit.

If ever in doubt, ask your controller for clarification. The controller will not provide prompting or coaching information.

Periodically the controller will issue messages or instructions designed to initiate response actions. You must accept these messages immediately.

You must, not accept any messages or instructions from federal evaluators. If they desire to initiate some action, they must work through the controller.

If entering radiologically controlled areas, observe all rules and procedures governing access and egress. Do not enter high radiation areas for purpose of exercise response. Follow normal ALARA principles and guidelines.

ERE-09/20/89 3~2

14. Utilize status boards, log books, three-part message forms, etc., as much as possible to document and record your actions, instructions and reports to co-players.

REMEMBER - PUT IT IN WRITING ERE-09/20/89 3-.3

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE IV. CONTROLLERS OBSERVERS INFORMATION The Controller/Observer group is essential to the successful implementation of the exercise. Controllers are responsible for ensuring the scenario proceeds on schedule by disseminating timely information and maintaining scenario integrity. Observers are responsible for observing, documenting and analyzing players actions. Observers may assume the function of Controller if identified inthe scenario or directed by the facilities lead controller.

A. Control Room

1. Control Room Lead Controller R. Stephens

2. Control Room Observer I. Fleetwood

3. EOP Controller J. Schrader

4. EOP Observer B. Davidson B. Technical Su ort Center

1. Exercise Zead Controller M. Barfelz

2. TSC Observer R. Ptacek

3. Radiological Controller B. Jepkema C. 0 erations Sta in Area

1. OSA Zead Controller G. Griffin

2. ISC Controller T. Walsh

3. DCT Controller T. Johnson 4 ~ DCT Controller J. Moline

'5. DCT Controller D. Zondot

6. DCT Controller W. Lee

7. RRT/Onsite RMT Controller H. Springer

8. RRT/Onstie RMT Controller D. Gallagher

9. RP Lead Controller K. Scherer

10. Offsite RMT Controller (Counting) M. Schafer

11. Offsite RMT Controller (Survey) J. Paris

12. Offsite RMT Controller (Survey) J. Hoss

13. PASS Team Controller G. Cook D. Emer enc 0 erations Facilit l.

2.

EOF Lead Controller Communications Observer R. Heydenburg K. Umphrey

3. Environmental Assessment Controller D. Noble ERE-09/20/89 4-1

h Controller Observer Functions Controllers and Observers are utilized in this exercise to provide exercise information to the participants and to observe players response. In doing so, the Controllers and Observers should allow players to make, and correct, their own mistakes, while the Controller or Observer identifies the items to improve Plant emergency response capability. However, situations may arise where complete freedom of player response and success of the overall exercise are conflicting objectives. In such cases, the Controller or Observer must ensure proper continuity of the scenario, while identifying problem areas in sufficient detail to allow corrections. Generally, the following rules apply to control of the exercise:

1. Keep the reaction and emergency response going according to the time element established in the scenario.

2. Provide command messages to key personnel as a mechanism to prevent deviation from the scenario.

3. Observe player procedural discipline.

4. Provide prepared input data to players to stimulate response actions.

5. Observe and critique the participants actions, procedure effectiveness, -equipment capability and general emergency response.

Exercise Controller Observer Instructions Each Controller/Observer shall participate in exercise briefings and critiques scheduled as follows:

September 19, 1989 - 0800, Training Building; Exercise Briefing September 21, 1989 1500, Plant Manager' Conference Room; NRC Critique ERE-09/20/89 4-2

)5 E\

EPAM ATTACHMENT-5D DCCNP ERE-CL 1 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE CHECKLIST NO. 1 APPLICABLE STATION: CONTROL ROOM DATE OF EXERCISE: TIME INITIATED:

EVALUATORS ASSIGNED:

LEAD CONTROLLER:

CR OBSERVER:

EOP CONTROILER:

A. EMERGENCY CLASSIFICATION SCENARIO PROJECTED ACTUAL CLASSIFICATION ECC EAL TIME ECC EAL TIME UNUSUAL EVENT ALERT SITE AREA EMERG.

GENERAL EMERG.

B. NOTIFICATIONS YES NO N~A Were the State and County notified within 15 minutes of emergency declaration?

(Attach completed EXHIBIT-B of PMP 2080 EPP.106)

2. Was the NRC notified promptly following State/County notification?

3. Was Security notified of the declaration?

Was the STA notified and in the Control Room within 10 minutes?

Was PMP 2080 EPP.107, Notification of Plant Personnel, implemented within twenty minutes of declaration' Page 1 of 5 Rev. 0

EPAM ATTACHMENT-SD DCCNP ERE-CL 1 C. COMMUNICATIONS YES NO ~NA

1. Were the State and County provided 15 minute updates using the Nuclear Plant Accident Notification Form?

( attach copies of completed forms)

2. Was communication with the TSC established within one hour of the emergency declaration?

D. PROCEDURAL COMPLIANCE Were one or more of the following implementing procedures referred to as appropriate for the classification?

a. PMP 2080 EPP.102, Unusual Event

b. PMP 2080 EPP.103, Alert

c. PMP 2080 EPP.104, Site*Area Emergency

d. PMP 2080 EPP.105, General Emergency Compliance was judged to be adequate/inadequate (if inadequate, identify deficiencies in the comments section).-

2. Was PMP 2080 EPP.108, Initial Dose Assessment, implemented?

a. 'ere results consistent with scenario projections?

b. Was a protective action recom-mendation developed based on projected dose?

c Was the State notified of dose projection results and/or pro-tective action recommendation within 15 minutes?

Compliance was judged inaequate, to be adequate/inadequate identify deficiencies in the comments (if section).

Page 2 of 5 Rev. 0

J)

V

EPAM ATTACHMENT-SD DCCNP ERE-CL 1 YES NO ~N. A

3. Mere any of the following EPPs implemented?

a. PMP 2080 EPP.109, Fire Emergency Guidelines

b. PMP 2080 EPP.110, Toxic Gas Release Guidelines

c. PMP 2080 EPP.111, Natural Emergency Guidelines

d. PMP 2080 EPP.112, Personnel Injury

e. PMP 2080 EPP.113, Transportation Accident Involving Radioactive Material Compliance was judged to be; (list as appropriate)

ADE UATE INADE UATE (If inadequate, identify deficiencies section).

in comment E. GENERAI ITEMS

1. Emergency kits in the Control Room were adequately equipped?

2. Turnover from SS to oncoming SEC was thorough and documented.

3. Communications and interface with the TSC was adequate.

4. TSC support of Control Room activities was adequate?

5. Operator familiarity with plant

'procedures (abnormal and EOP's) was adequate?

Page 3 of 5 Rev. 0

EPAM ATTACHMENT"SD DCCNP ERE-CI 1 YES NO N~A

6. Was the OTSC/PSSD system utilized?

F. SCENARIO DEFICIENCIES The following deficiencies in scenario content were noted:

Page 4 of 5 Rev. 0

EPAM ATTACHMENT-SD DCCNP ERE-CF 1 G. COMMENTS COMMENT I CHECKZ ST COMMENT NO REFERENCE Page 5 of 5 Rev. 0

l EPAM ATTACHMENT-5E DCCNP ERE - CL 2 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE CHECKLIST NO. 2 APPLICABLE STATION: TSC LEAD CONTROLLER DATE OF EXERCISE: TIME INITIATED:

EVALUATOR:

A. ACTIVATION

1. Were each of the following actions completed?

YES NO N~A

a. Turn on lights

b. Turn on CAM

c. Turn on ARM

d. Unlock supply cabinets

e. Turn on remote TV monitors

f. Prepare OTSC/PSSD

g. Prepare RDDS

h. Update TSC STAFF status board

i. Establish communications

j. SEC turnover completed

k. TSC staff briefed

l. PMP 2081 EPP.101, EXHIBIT-B criteria satisfied

2. Was the TSC operational within one hour. of the emergency declaration?

Page 1 of 5

0, EPAM ATTACHMENT-5E DCCNP ERE - CI 2 GENERAI OPERATION YES ~

NO N~A 1, Did the Technical Director establish and maintain command and control of activities' 'SC

~g C

2. Did the Technical Director consdier and/or direct implementation of the following EPP's when appropriate?

a. PMP 2081 EPP.102, TSC Emergency Communications

b. PMP 2081 EPP.106, On-site Radio-logical Assessment

c. PMP 2081 EPP.103, Evacuation .

of Plant Personnel

d. PMP 2081 EPP.216, Barring of. the PABX

3. Did the Technical Director, in coordination with the PET, maintain an awareness of emergency conditions and assess the need for re-classification of the emergency periodically?

4. Did the TSC respond to Contxol Room requests in a timely manner?

5. Were emergency response teams -requested in accordance

~ with step 4.6 of PMP 2081 EPP.101?

6. Was the TSC ventilation system operated in accordance with section 4.8 of PMP 2081 EPP.101?

. 7. If appropriate, was TSC evacuation evaluated in accordance with section 4.9 of PMP 2081 EPP.101?

8. Was the OTSC/PSSD utilized by the TSC staff'

9. Were subsequent shift(s) designated in accordance with section 4.10 of PMP 2081 EPP.101?

10. Did the Technical Director periodically brief the TSC staff on emergency conditions? (A minimum of once per hour's adequate).

Page 2 of 5

EPAM ATTACHMENT-5E DCCNP ERE - CI 2 C. PEDANT EVAIUATION TEAM YES NO ~NA

1. Were all members of the PET aware of emergency conditions at all times?

2. Did the PET-Opertions and STA personnel follow Control Room progress in the EOPs?

3. Did the PET-Chemistry and Nuclear personnel assess the core status continually?

Did the PET evaluate overall plant conditions and develop appropriate mitigating and/or corrective actions?

D.

5. Was interface of the adequate?

GENERAK ITEMS PET with the Control

~

Room and IAG

~

Were materials and equipment in the TSC adequate to facilitate an effective emergency response?

Were communications and interface with the OSA adequate?

3. Were communications and interface with the EOF adequate? I

4. If the postulated events had actually occurred, would the actions taken by the TSC been adequate to protect the health and safety of plant personnel and the general public?

Page 3 of 5

EPAM ATTACHMENT-SE DCCNP ERE " CI 2 E. SCENARIO DEFICIENCIES The following deficiencies in scenario content were noted:

Page 4 of 5

lt EPAM ATTACHMENT-5<

DCCNP ERE - CL 2 F. COMMENTS COMMENT CHECKLIST COMMENT NO REFERENCE Page 5 of 5

EPAM ATTACHMENT-5F DCCNP ERE- CL3 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE CHECKLIST NO. 3 APPLICABLE STATION: TSC COMMUNICATIONS OBSERVER DATE OF EXERCISE: TIME INITIATED:

EVALUATOR:

A. ACTIVATION YES NO N~A

1. Were the following positions staffed within one hour of emergency declaration?

a. TSC Administrative Coordinator

b. TSC Boardwriter

c. Telecopy Operator

d. OSA Communicator

e. IAG Communicator

f. Public Affairs Liaison

g. Runners (2)

If these positions were not staffed, was compensatory action taken to ensure the function was performed?

2. Did the Boardwriter establish communications with the Control Room and initiate status board update on arrival?

B. GENERAL COMMUNICATIONS ACTIVITIES

1. Did the Administrative Coordinator implement PMP 2081 EPP.102, TSC Emergency Communications?

Page 1 of 4

EPAM ATTACHMENT-5F DCCNP ERE - CL 3 YES NO N~A

2. Did each communicator follow the general guidance provided in the respective attachment of PMP 2081 EPP.102?

a. Boardwriter - Attachment 2

b. Telecopy Operator-Attachment 3

c. TSC Runner-Attachment 4

d. IAG Communicator-Attachment 6

e. TSC OSA Communicator-Attachment 6

f. Pub. Affairs Liaison-Attachment 8

3. Was document transmission completed in accordance with Attachment 1 of PMP 2081 EPP.102?

Did each of the following communicators appear familiar with applicable EPP's and communications equipment?

a. Boardwriter.

b. IAG Communicator

c. OSA Communicator

d. TSC Scribe

e. Public Affairs Liaison

f. TSC Runners

g. Telecopy Operator

5. Were inquiries received by communicators from other facilities documented and processed in a timely manner?

Page 2 of 4

0 EPAM ATTACHMENT-5F DCCNP ERE CL 3 COMMUNICATIONS E UIPMENT Document the operability of the following communications equipment. Spot-check telephones and document operability in OTHER section. It may be necessary to question communicators on equipment operability.

E UIPMENT OPERABIE INOPERABLE PROBLEM NOTED TELECOPIER PHOTO-COPY MACHINE TEST-TELE HEADSET OSA COMM. PHONE IAG COMM. PHONE P.A. LIAISON PHONE TECH.C DIR. PHONE RADIOS TV MONITORS OTSC PSSD TERMS RDDS TERMINAL PLANT PAGE OTHER:

Page 3 of 4

EPAM ATTACHMENT-5F DCCNP ERE - CL 3 D. COMMENTS COMMENT CHECKZ I ST COMMENT NO. REFERENCE Page 4 of 4

EPAM ATTACHMENT"SG DCCNP ERE - CI,4 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE CHECKLIST NO. 4 APPLICABLE STATION: TSC RADIOLOGICAI. CONTROLLER DATE OF EXERCISE: TIME INITIATED:

EVALUATOR:

A. ACTIVATION YES NO N~A Was the position of Radiological Assessment Coordinator staffed within one hour of emergency declaration?

2. Was the RDDS system prepared for operation (i.e. energized and appropriate program loaded)'

3". Were the TSC CAM and ARM energized and verified to be in proper working order?

B. RAC IMMEDIATE ACTIONS Did the RAC conduct a review of RDDS monitor indications in accordance with step 4.4.2 of PMP 2081 EPP.106'?

2. Did the RAC conduct a review of Westinghouse radiation monitor indications in accordance with step 4.4.3 of PMP 2081 EPP.106?

C.'AC SUBSE VENT ACTIONS Was the necessity for site evacuation based on site radiological conditions evaluated?

a. If evacuation PMP from item 1 2081 EPP.103 implemented?

was directed, was

b. Were the provisions of PMP 2081 EPP.103 followed for implementation of the evacuation?

2. Did the RAC provide adequate support to the RPD in determining adequate response team protective actions?

Page 1 of 4

EPAM ATTACHMENT-SQ DCCNP ERE - CL4 YES NO ~NA

3. Were appropriate correction factors applied to post-accident samples in accordance with steps 4.5.7 and 4.5.9 of PMP 2081 EPP.106?

KI DETERMINATION

1. Was KI considered for application to an emergency response team?

2. Was compliance with PMP 2081 EPP.106, Section 4.6, Potassium Iodide Determina-tion, adequate?

3. . Was EXHIBIT-B of PMP 2081 EPP.106 completed?

VOLUNTARY OVER-EXPOSURES

1. Was EXHIBIT-D of PMP 2081 EPP.106, completed'

2. Was compliance with PMP 2081 EPP.106, Section 4.7, Voluntary Over-Exposure, adequate?

.3 ~ Did the SEC approve the o"er-exposure request?

ALTERNATE RELEASE LEVEL DETERMINATIONS

1. Was compliance with PMP 2081 EPP.107 adequate?

2. Were calculated results in close proximity to scenario predictions?

EFFLUENT SCENARIO PREDICTIONS CALCULATED RESULTS Page 2 of 4

EPAM ATTACHMENT-SG DCCNP ERE- CI 4 G. GENERAI ITEMS YES NO N~A

1. Did the RAC provide adequate support to each of the following groups?

a. Plant Evaluation Team

b. OSA-Radiation Protection Director

c. EOF-Environmental Assessment Director

2. Did the following procedures provide adequate information to the RAC for performance of activities?

a. PMP 2081 EPP.101, TSC Activation 6 Operation

b. PMP 2081 EPP.103, Evacuation of Plant Personnel

c. PMP 2081 EPP.106, On-site Radiological Assessment

3. Were adequate supplies, equipment and reference documentation available to perform the RAC function?

SCENARIO DEFICIENCIES The following deficiencies in scenario content were noted:

Page 3 of 4

l I

EPAM ATTACHMENT-5G DCCNP ERE - CL 4 I. COMMENTS COMMENT CHECKLIST COMMENT NO. REFERENCE Page 4 of 4

EPAM ATTACHMENT-5H DCCNP ERE -CL 5 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE CHECKLIST NO. 5 APPLICABLE STATION: OSA LEAD CONTROLLER DATE OF EXERCISE: TIME INITIATED:

EVALUATOR:

A. ACTIVATION YES NO ~NA

1. Was the OSA operational within one hour of the emergency declaration?

2. Were each of the following activities completed?

a. Turn on North and South Classroom lights

b. Arrange tables and chairs

c. Establish communications

d. Unlock cabinets and offices

e. Control points established at North and South access points

f. PMP 2081 EPP.201, EXHIBIT-B criteria satisfied B. GENERAL OPERATION

1. Did the OSA Manager establish and maintain command and control of OSA activities?

2. Did the OSA Manager consider and/or direct implementation of the fo'llowing EPP's when appropriate?

a. PMP 2081 EPP.202, Operation of the Operations

'Staging Area Page 1 of 4

EPAM ATTACHMENT-SH DCCNP ERE CK 5 YES NO N~A

b. PMP 2081 EPP.203, Activation of Emergency Response Teams

c. PMP 2081 EPP.208, Emergency Radiation Protection

3. Did the OSA Manager maintain an awareness of emergency conditions and brief the OSA staff at least once per hour?

4. Were the following records maintained accurately and expeditiously?

a. Classroom Board

b. OSA Manager Office Status Board

c. OSA Manager Kog

5. If the werc the Nuclear Emergency Alarm sounded, OSA staff badge numbers and color recorded?

6. Were subsequent shifts designated in accordance with PMP 2081 EPP.202, Step 4.5.5?

7. Did the OSA.Manager complete PMP 2081 EPP.203, EXHIBIT-D and provide a copy to the RPD and the Skills Supervisor?

8. Did the OSA Manager provide a copy of EXHIBIT-E of PMP 2081 EPP.203 to the Skills Supervisor.

9. Were team briefings adequate to establish the team objective, communications, procedures and methods,and equipment involved?

10. Did the OSA Manager notify the facility that. requested the team upon dispatch?

Page 2 of 4

c,r Ai'1 ATTACHMENT-5H DCCNP ERE -CG 5 C. GENERAI ITEMS YES NO ~NA

1. Were material and equipment in the OSA adequate to facilitate an effective emergency response7

2. Were communications and interface with the TSC adequate'.

Were Communications and interface with dispatched teams adequate.

4. If the postulated events had actually occurred, would

'the actions taken by the OSA have been adequate to protect the health and safety of plant personnel and the general public?

D. SCENARIO DEFICIENCIES The following deficiencies in scenario content were noted:

page 3 of 4

EPAN ATTACHMENT-5H DCCNP ERE -CL 5 E. COMMENTS COMMENT CHECKLIST COMMENT NO. REFERENCE Page 4 of 4

EPAM ATTACHMENT-5J DCCNP ERE CI 6 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE CHECKI IST NO. 6 APPLICABLE STATION: DCT CONTROLIER DATE OF EXERCISE: TIME INITIATED:

EVALUATORS ASSIGNED:

ACTIVATION YES NO ~NA Did the RPD brief the DCT on protective measures?

2 ~ Did the skills Supervisor brief the DCT on the task method?

3 ~ Were the following forms completed for each team? (PMP 2081 EPP.203)?

a. EXHIBIT-D, Response Team Request Form

b. EXHIBIT-E, Team Briefing Form Was EXHIBIT-F of PMP 2081 EPP.203 consulted for team staffing?

5. Was the OSA Manager's Log completed?

6. If applicable, PMP 2081 EPP.208?

did the RPD consult 7 ~ Did the OSA Manager or Skills Supervisor notify the appropriate facility upon team dispatch?

Page 1 of 4

EPAM ATTACHMENT-5J DCCNP ERE - CI 6 B. 'ENERAZ OPERATION YES NO ~NA

1. Did the team inform the OSA of unexpected conditions during enroute, assignment performance, and egress activities?

2. Did the team update the OSA on assignment progress?

3. Did the team report any injured personnel to the OSA?

4. Did the team carefully monitor radiological conditions at all times?

5. Were appropriate emergency actions performed for any of the following:

a. Turn back dose rate

b. Turn back dose

c. Personnel contamination

6. Was personal contamination monitoring performed in low count rate areas?

7. Were contaminated. equipment and anti-C's properly disposed?

C. GENERAI ITEMS Were adequate supplies and equipment conveniently located for each team?

2 ~ Were all briefings adequate?

3. Were all procedures adequate?

Did the OSA respond to the TSC and EOF requests in a timely manner'?

Page 2 of 4

El 'a 1% 4, V EPACT ATTACEPKNT-5J DCCNP ERE - CL 6 D. SCENARIO DEFICIENCIES The following deficiencies in scenario content were noted:

Page 3 of 4

I le EPAM ATTACHMENT-5J DCCNP ERE-Ct 6 E. COMMENTS COMM!2PZ CHECKLIST COMMENT NO. REFERENCE Page 4 of 4

EPAM ATTACHMENT-5K DCCNP ERE - CL 7 DONALD C. COOK NUCI EAR LANT EMERGENCY RESPONSE EXERCISE CHECKLIST NO. 7 APPLICABIE STATION: REENTRY AND RESCUE TEAM DATE OF EXERCISE: TIME INITIATED:

EVAZUATORS ASSIGNED:

ACTIVATION YES NO ~NA Did the RPD brief the RRT on protective measures?

2. Did the Skills Supervisor brief the RRT on the task method?

3 ~ Were the following forms completed for each team? (PMP 2081 EPP.203)

a. EXHIBIT-D, Response Team Request Form

b. EXHIBIT-E, Team Briefing Form

4. Was EXHIBIT-F of PMP 2081 EPP.203 consulted for team staffing?

5. Was the OSA Manager's Iog completed?

6. If applicable, 2081 did the RPD consult PMP EPP.208?

7~ Did the OSA Manager or Skills Supervisor notify the appropriate facility upon team dispatch?

Page 1 of 4

EPAN ATTACiPKNT-5K DCCNP ERE - CL 7 B. GENERAL OPERATION YES NO ~NA

1. Did the team inform the OSA of un-expected conditions while enroute, during assignment performance, and egress?

2. Did the team update the OSA on assign-ment progress?

3. Did the team report any injured personnel to the OSA?

4. Did the team carefully monitor radiological conditions at all times?

5. Were appropriate Emergency Actions performed for any of the following:

a. Turn back dose rate

b. Turn back dose

c. Personnel contamination

6. Was personal contamination monitoring performed in low count rate areas?

7. Were contaminated equipment and anti-C's properly disposed?

C. GENERAI ITEMS Were adequate supplies and equipment conventiently located for each team?

2 ~ Were all briefings adequate?

3. Were all procedures adequate?

Did the OSA respond to TSC and EOF requests in a timely manner?

Page 2 of 4

k9 EPAN ATTACHMENT-SK DCCNP ERE - CL 7 D. SCENARIO DEFICIENCIES The following deficiencies in scenario content were noted:

Page 3 of 4

EPAM ATTACHMENT-SK DCCNP ERE- CE 7 E. COMMENTS CO CHECKS 1 ST COMME

'O. REFERENCE Page 4 of 4

EPAM ATTACHMEÃZ-SL DCCNP ERE - CI 8 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE I

CHECKLIST NO. 8 APPLICABLE STATION: ONSITE RMT CONTROLLER OBSERVER DATE OF EXERCISE: TIME INITIATED:

EVALUATOR:

A. ACTIVATION YES NO ~NA Did the RPD brief the RMT on protective measures?

2 ~ Did the Skills Supervisor brief the RMT on the task method'?

3. Were the following forms completed for each team? (PMP 2081 EPP.203)

a. EXHIBIT-D, Response Team Request Form

b. EXHIBIT-E, Team Briefing Form Was EXHIBIT-F of PMP,2081 EPP.203

.consulted for team staffing?

5. Was the OSA Manager's Log completed?

6. If applicable, did the RPD consult PMP 2081 EPP.208? (KI assessment or dose extension)

7. Did the OSA Manager or Skills Supervisor notify the appropriate facility upon team dispatch'?

Page 1 of 4

EPAM ATTACK'KNT-5I DCCNP ERE - CI 8 B. GENERAL OPERATION

.YES NO ~iV A

1. Did the team inform the OSA of unexpected conditions while enroute, during assignment performance and egress?

2. Did the team update the OSA on assignment progress?

3. Did the team report any injured personnel to the OSA?

4. Did the team carefully monitor radiological conditions at all times?

5. Were appropriate Emergency Actions performed for any of the following:

a. Turn back dose rate

b. Turn back dose

c. Personnel contamination

6. Was personal contamination monitoring performed in low count, rate areas?

7. Were contaminated equipment and anti-C's properly disposed?

C. MISSION DETAILS Answer each of the following questions as applicable to the mission.

Was PMP 2081 EPP.210, Unit Vent Sampling, adequately implemented

2. Was PMP 2081 EPP.211, Secondary Systems Sampling ,

adequately implemented?

3. Was PMP 2081 EPP.212, Containment Atmosphere Sampling, adequately implemented'?

4. Were prescribed surveys performed and documented in accordance with normal RP procedures?

Page 2 of 4

EPAN ATTACHMENT-5 L DCCNP ERE- CI 8 D~ GENERAI I TEMS YES NO ~NA

1. Were adequate supplies and equipment.

conveniently located for each team?

2. Were all briefings adeqaute?

3 . Were -all procedures adequate?

4. Did the OSA respond to TSC .and EOF requests in a timely manner?

SCENARIO DEFICIENCIES The fallowing deficiencies in scenario content were noted:

Page 3 of 4

EPAM ATTACHMENT-56 DCCNP ERE - Cl 8 F. COMMENTS COMMENT CHECKS I ST COMMENT NO. REFERENCE Page 4 of 4

EPAM ATTACHMENT - 5M DCCNP ERE - CL 9 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE CHECKLIST NO. 9 APPI ICABLE STATION: POST ACCIDENT SAMPLING TEAM CONT OBS DATE OF EXERCISE: TIME INITIATED:

EVALUATOR:

A. ACTIVATION YES NO ~NA

1. Did the RPD brief the PAST on pro-tective measures?

2. Did the Skills Supervisor brief the PAST on the task method?

3. Were the following forms completed for each team? (PMP 2081 EPP.203)

a. EXHIBIT-D, Response Team Request Form

b. EXHIBIT-E, Team Briefing Form

4. Was EXHIBIT-F of PMP 2081 EPP.203 consulted for team staffing?

S. Was the OSA Manager's Log completed?

6. If applicable, PMP did the RPD consult 2081 EPP.208? (KI assessment and dose extension).

7. Did the OSA Manager or Skills Super-visor notify the appropriate facility

~

upon team dispatch?

Page 1 of 4

EPAM ATTACiBKNT - SM DCCNP ERE - CL 9 B. GENERAL OPERATION YES NO N~A

1. Did the team inform the OSA of unexpected conditions while enroute, during assignment performance, and egress?

2. Did the team update the OSA on assignment progress?

3. Did the team report any injured personnel to the OSA?

4. Did the team carefully monitor radio-logical conditions at all times?

5. Were appropriate Emergency Actions performed for any of the following:

a. Turn back dose rate

b. Turn back dose

c. Personnel contamination

6. Was personnel contamination monitoring performed in low count rate areas'

7. Were contaminated equipment and anti-C's properly disposed?

C. SAMPLING ACTIVITY EVALUATION What form of sample was requested?

a. RCS Loop

b. CTMT Sump

c. CTMT Atm.

2. Was the sample obtained in accordance with applicable Chemistry procedures?

3. Was the technician familiar with the post-accident sampling system and its operation?

Page 2 of 4

EPAM ATTACHMENT " SM DCCNP ERE - CL 9 YES NO ~NA

4. Were sample results available within three hours of the request for sample?

REQUEST TIME:

TIME RESUITS AVAIMBIE:

5. Were dose rates evaluated in the area of the sample panel periodically?

6. "

Were radiation surveys performed in the hot lab during sample analysis?

7. Did the technician analyzing the sample practice adequate contamination control techniques?

8. Was sample analysis performed adequately?

SCENARIO DEFICENCIFS The following deficiencies in scenario content were noted:

Page 3 of 4

I cb

EPAM ATTACHMENT - 5M DCCNP ERE - CK 9 E. COMMENTS COMMENT CHECKLIST COMMENT NO. REFERENCE Page 4 of 4

e DCCNP ERE - CL 10 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE CHECKLIST NO. 10 APPLICABLE STATION: EMERGENCY OPERATIONS FACILITY- LEAD CONTROLIER DATE OF EXERCISE: TIME INITIATED:

EVALUATOR:

A; ACTIVATION Yes No N~A Were each of the following actions completed?

a\ North gate open

b. EOF unlocked c ~ Cook security notified

d. Area radiation monitor on

e. Lights on Copier on g OTSC/PSSD operational

h. RDDS and IBM terminal operational Chronological event board being updated EOF Manager briefing and staff briefing completed

k. Time designated to establish EOF communications PMP 2081 EPP.301 EXHIBIT-A require-ments satisfied Page 1 of 4

DCCNP ERE CL 10 Yes No N~A

2. Was the EOF operational within one hour of the emergency declaration?

B. GENERAL OPERATION

1. Did the EOF Manager establish and maintain command and control of EOF activities?

2. Did the EOF Manager consider and/or direct implementation of the following EPP's when appropriate?

a. PMP 2081 EPP.303, Off-site Radiological Assessment

b. PMP 2081 EPP.302, EOF Emergency Communications

3. Was the State Notification Form completed and transmitted every 15 minutes according to the requirements of PMP 2081 EPP.301, Section 4.6?

4. Did the SEC/Recovery Control Manager approve initial or changed Protective Action Recommendations?

Did the EOF Manager brief the EOF staff on emergency conditions at least once per hour?

6. Were subsequent shift(s) designated in accordance with PMP 2081 EPP.301, Section 4.7?

Page 2 of 4

DCCNP ERE - Cj 10 C. GENERAI ITEMS Yes No ~NA

1. Were materials and equipment in the EOF adequate to facilitate an effective emergency response?

2. Were communications and interface with the TSC adequate?

3. Were communications and interface with government agencies adequate?

4. If the postulated events had actually occurred, would the actions taken by the EOF been adequate to protect the health and safety of plant personnel and the general public?

D. INITIAI RECOVERY ACTIVITIES

1. Were any emergency radiation exposure limit controls terminated and 10CFR20 radiation control measures re-established?

2. Was a preliminary damage evaluation compiled and priority repairs identified for maintaining a safe shutdown condition?

3. Was a preliminary assessment made of the scope of decontamination and disposal requirements?

, 4. Was the status and disposition of the uneffected unit.

examined?

E. SCENARIO DEFICIENCIES The following deficiencies in scenario content, were noted:

Page 3 of 4

DCCNP ERE - CE 10 F. COMMENTS COMMENT I CHECKS ST COMMENT NO. REFERENCE Page 4 of 4

DCCNP ERE - CI 11 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE CHECKLIST NO 11 APPLICABLE STATION: EOF COMMUNICATIONS OBSERVER DATE OF EXERCISE: TIME INITIATED:

EVALUATOR:

A. ACTIVATION Yes No N~A

1. Were the following positions staffed within one hour of emergency declaration?

a. EOF Communications Director

b. EOF Boardwriter

c. Telecopy Operator

d. EOF 'Scribe

e. JPIC Communicator

f. NRC HPN Communicator

'g. Runners (2)

h. BCSD Communicator

i. MSP Communicator

j. NRC ENS Communicator If these positions were not staffed, action taken to ensure the function was compensatory was performed'?

2. Did the Boardwriter establish communications with the Control Room and initiate status board update on arrival?

Page 1 of 4

DCCNP ERE - CL 11 Yes No N~A GENERAL COMMUNICATIONS ACTIVITIES I

1. Did the Communications Director implement PMP 2081 EPP.102, TSC Emergency Communications?

2. Did each communicator follow the general guidance provided in the respective attachment of PMP 2081 EPP.302?

a. Boardwriter - Attachment 2

b. Telecopy Operator-Attachment 3

c. EOF Runner-Attachment 4

d. BCSD Communicator-Attachment 6

e. AEPCS Communicator - Attachment 5

f. MSP Communicator-Attachment 7

g. NRC ENS Communicator-Attachment 8

h. NRC HPN Communicator-Attachment 9

i. JPIC Communicator-Attachment 10

j. EOF Scribe-Attachment 11

3. Was do ument transmission completed in accordance with Attachment 1 of PMP 2081 EPP.302?

4. Did each of the following communicators appear familiar with applicable EPP's and communications equipment?

a ~ Boardwriter

b. AEPSC Communicator C. MSP Communicator

d. BCSD Communicator

e. JP IC Communicator EOF Scribe Page 2 of 4

gl, k

DCCNP ERE - CL 11 Yes No N~A

g. NRC ENS Communicator

h. NRC HPN Communicator

i. Runners

j. Telecopy Operator

5. Were inquiries received by communicators from other facilities documented and processed in a timely manner?

6. Was the Nuclear Plant Accident Notification Form completed accurately every 15 minutes?

7. Was the Nuclear Plant Accident Notification Form transmitted to the MSP every 15 minutes?

COMMUNICATIONS E UIPMENT Document the operability of the following communications equip-ment. Spot-check telephones and document operability in OTHER section. It may be necessary to question communicators on equipment operability.

E UIPMENT PERABIE INOPERABLE PROBLEM NOTED TELECOPIER .

PHOTO-COPY MACHINE TEST-TELE HEADSET AEPSC COMM. PHONE BCSD .COMM. PHONE MSP COMM. PHONE COMM. DIR. PHONE RADIOS JPIC COMM. PHONE OTSC SSD TERMS RDDS TERMINAL NRC ENS CONN. PHO NRC HPN COMM. PHO OTHER Page 3 of 4

DCCNP ERE CL 11 D. COMMENTS NO.'HECKLIST OMMENT REFERENCE COMMENT Page 4 of 4

DCCNP ERE - CL 12 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE CHECKLIST NO ~ 12 APPLICABLE STATION: EOF ENVIRONMENTAL ASSESSMENT CONTROLLER DATE OF EXERCISE: TIME INITIATED:

EVALUATOR:

A. ACTIVATION Yes No ~NA

1. Were the following positions staffed within one hour of emergency declaration'

a. Environmental Assessment Director

b. Environmental Assessment Coordinator

3. Was the EOF ARM energized and verified to be in proper working order?

IMMEDIATE ACTIONS

1. Did the EAD/EAC conduct a review of RDDS monitor indications in accordance with Step 4.4.4 of PMP 2081 EPP.303?

2. Was a meteorological forecast obtained in accordance with Step 4.4.1 of PMP 2081 EPP.303?

3. Was a dose projection performed in accordance with PMP 2081 EPP.304, Dose Projection?

4. Were Off-site Radiation Monitoring Teams requested from, the OSA?

C. SUBSE VENT ACTIONS

1. Did the EAC provide adequate support to the EAD in determining adequate off-site dose projections and protective action recommendations?

Page 1 of 6

DCCNP ERE - CL 12 Yes No N/A

2. Was the State Notification Form completed and transmitted every 15 minutes in accordance with PMP 2081 EPP.303, Attachment 1?

3. Were Off-site RMT's dispatched to confirm off-site radiation levels?

4. Did EAD turnover include the following?

a. Verbal turnover

b. PMP 2081 EPP.303, EXHIBIT-D, Off-site Radiological Assessment Turnover Checklist

5. Was potassium iodide administration considered for Off-site RMT's in accordance with PMP 2081 EPP.212?

OFFSITE DOSE ASSESSMENT Was a dose projection calculated in accordance with PMP 2081 EPP.304?

2. Did the EAC perform dose assessment in accordance with Section 4. 5. 3 o f PMP 2081 EPP.303 for unmonitored releases?

3. Were the field teams prepositioned for possible escalation of classification'

4. Was the containment LOCA sequence considered for dose projections?

5. Were dose calculations verified by field data?

6. Were dose projections recomputes for every change in meteorological or radiation release data?

7. Did the emergency DAP sign-on procedure work properly?

Page 2 of 6

DCCNP ERE - CL 12 Yes No N/A

8. Were communications and interface with the Canton Computer Center effective?

9. Did dose assessment personnel fill Accident Notification Form in accordance out the with EXHIBIT-A of PMP 2081 EPP.304?

10. Were calculated results in close proximity to scenario predictions?

IME SCENARIO PREDICTIONS CALCULATED RESULTS

11. Did a protective action recommendation accompany initial notification of general emergency?

12. Were release duration predictions properly incorporated into dose assessment?

FIELD MONITORING Was FMT prepositioning performed in accordance with section 4.7.2 of PMP 2081 EPP.303?

2. Was the counting team positioned outside of the plume?

3. Was plume tracking planning effective?

Page 3 of 6

fl DCCNP ERE - CI 12 Yes No N A

4. Was plume definition performed in accordance with Section 4.7 of PMP 2081 EPP.303?

F. PROTECTIVE ACTION RECOMMENDATIONS

1. Was the dose-saving effectiveness of protective acions considered by the EAD?

2. Was a protective action recommended to the State within 15 minutes of general emergency declaration?

Was the Protective Action Worksheet (Attachment 1, PMP 2081 EPP.305) completed in accordance with section 4.4 of PMP 2081 EPP.305?

4. Was the basis for protective action recommendation included on the State Notification Form'

5. If applicable, was the Core/Containment Status Worksheet completed in accordance with Section 4.5 of PMP 2081 EPP.305'?

G. GENERAI ITEMS Did the EAC provide adequate support to each of the following groups?

a. Field Monitoring Teams

b. OSA-Radiation Protection Director

c. EOF-Environmental Assessment Director

2. Did the following procedures provide adequate information to the EAC for performance of activities?

a. PMP 2081 EPP.301, Activation and Operation of the Emergency Operation Facility

b. PMP 2081 EPP.304, Off-site Radiological Assessment

c. PMP 2081 EPP.305, Protective Action

'ecommendations

3. Were adequate supplies, equipment and reference documentation available to perform the EAC function?

Page 4 of 6

DCCNP ERE - CL 12 H. SCENARIO DEFICIENCIES The following deficiencies in scenario content were noted:

Page 5 of 6

4 DCCNP ERE - CE 12 I. COMMENTS OMMENT CHECKIIST COMMENT NO. REFERENCE Page 6 of 6

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE U. OFF-SITE AGENCY PARTICIPATION This exercise will be a "utility only" exercise wherein only limited offsite agency participation will take place in the form of communications support.

ERE-09/20/89 5-1

~ ~

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE NARRATIVE

SUMMARY

INITIAL CONDITIONS:

E i ment ardware Unit 2AB Emergency Diesel Generator (EDG) out on clearance for governor replacement. EDG went out on overspeed testing on September 19th and is not expected to be repaired before September 21st.

~ Evidence of fuel cladding leaks has been worsening over the recent past with present leakage just under plant administrative limits.

~ The CVCS cross tie is inoperable to replace the orifice on QFI-201.

~Ss hem Unit 2 is at 100% power.

Unidentified RCS leakage has been trending upward over the last three days with the latest surveillance test results showing 0.6 gpm leakage. This was completed at 0400 hrs the morning of 9-20-89. The mid-night shift performed those tasks outlined in the "Excess Leakage Procedure", 2-OHP 4022.002.004, but were unable to either isolate or determine the source of leakage.

Lab requested to check activity level of Steam Generator blowdown. Results reported at 0600 hrs indicate no primary to secondary leakage.

2. The operators on mid-shift switch letdown over to excess letdown in an attempt to identify the leakage source. The results were inconclusive in identifying the leakage source.

3. Waste inventory was checked and found to be constant over the last 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> except for- 420 gallons pumped out of the lower containment sump.

Reactor Coolant Filters and Seal Water Filter were checked for proper line-up and found to be properly aligned.

ERE-09/20/89 6-1

5. During the bi-monthly inspection of the Pipe Tunnel Sump nothing was found that would identify the source of the leakage.

6. The levels of the Pressurizer Relief Tank and Reactor Coolant Drain Tank were trended to determine in-leakage. No leaks were indicated.

The Unit has been operating at 100% rated thermal power for the last 198 days.

A second "Reactor Coolant System Leak Test",

2-OHP 4030 STP.016 was started at 0500 hours0.00579 days <br />0.139 hours <br />8.267196e-4 weeks <br />1.9025e-4 months <br /> on 9-20-89 to verify the leakage found at 0400 hours0.00463 days <br />0.111 hours <br />6.613757e-4 weeks <br />1.522e-4 months <br />. This test is underway and should be completed by the day shift operators around 0800 hours0.00926 days <br />0.222 hours <br />0.00132 weeks <br />3.044e-4 months <br />.

ERS-2300/2400 setpoints have been set upward.

Boron concentration is 11 ppm.

Cycle Burnup = 17,500 MWD/MTU. EFPD = 399 Primary coolant activity is:

Ar 41 7.4 E-2 pCi/cc Kr 85m 4.0 E-1 pCi/cc CS 134 8.1 E-2 pCi/cc Kr 87 6.9 E-1 pCi/cc CS 137 1.8 E-1 pCi/cc Kr 88 9.5 E-1 pCi/cc I 131 2.0 E-1 pCi/cc Rb 88 6.4 EO pCi/cc I 132 4.2 E-1 pCi/cc Xe 133 5.0 EO pCi/cc I 133 4.6 E-1 pCi/cc Xe 131 2.6 E-2 pCi/cc I 134 7.9 E-1 pCi/cc Xe 135 7.5 E-1 pCi/cc I 135 6.0 E-1 pCi/cc Xe 135m 6.2 E-1 pCi/cc Meteorological conditions for typical September morning are: .

1. Temperature 53oF

2. Wind Speed 2-5 mph

3. Wind direction 300-330

4. No precipitation Both 50 and 150 pound auxiliary steam headers are being supplied by Unit 1.

ERE-09/20/89 6-2

EXERCISE NARRATIVE

SUMMARY

REAL SCENARIO TIME TIME EVENT CONDITION Initial Conditions:

0730 00:00 ~ Turn-over from 12 - 8 crew (controllers). Problem with RCS leakage and steps taken to find leak discussed.

0800 00:30 ~ Unit 2 operators finish reactor coolant system leakage surveillance (2-OHP 4030 STP.016) which gives a result of 1.4 gpm.

0810 00 40 + UNUSUAL EVENT DECLAIMED (optional).

ECC-14 leakrate in excess of Technical Specifications.

Operators may elect to shut-down Reactor.

0827 00:57 ~ A step change in RCS leakage has occurred (approx. 400 gpm) which results in the necessity of starting a second. charging pump to maintain pressurizer level.

Simultaneously the following occur:

~ Ice Condenser Doors open.

~ Receive upper containment high pressure alarm

~ Receive low pressurizer level deviation alarm.

0829 00 59 The operators start a second charging pump to maintain pressurizer level.

ERE-09/20/89 6-3

~ L EXERCISE NARRATIVE

SUMMARY

CONTINUED REAL SCENARIO TIME TIME EVENT CONDITION 0831 01:01 Controlled unit shutdown initiated as per 2-OHP 4022.002.004, Excessive Reactor Coolant Leakage.

0833 01:03 Reactor trips on Low RCS Pressure due to inability to maintain pressurizer level.

Safety Injection Phase A is received due to low RCS/high containment pressure. The following active failures occur upon receipt of SI signal:

~ Rod G-3 stuck out Shutdown Bank B, Group 1 Relay K602 in safeguards cabinet fails. ("N" Train battery charger was not stripped from the 600V bus. Other symptoms of the failure will be evident as time goes on.)

~ U2-Control Room PressuriZation Fan did not start.

~ Relay K610 also fails which results in "A" Train ECCS pumps failing to start. All pumps should be manually started by the operator. The east motor driven aux. feed pump starts but instantaneously trips on overload.

0839 01 09 Resetting of SI signal attempted.

"A" Train components fail to reset due to malfunctioning K602 relay.

"B" Train components reset.

ERE-09/20/89 6-4

EXERCISE NARRATIVE

SUMMARY

CONTINUED REAL SCENARIO TIME TIME . EVENT CONDITION 0840 01:10 ALERT DECLARED based on ECC-14/4-Inability to maintain pressurizer level above 22%'with one charging pump.

0850 01:20 Containment Spray actuated (Phase B) when containment pressure reaches 2.9 psig.

0855 01:25 Reactor coolant pumps manually tripped due to loss of thermal barrier and seal injection flow 0900 01:30 SITE AREA EMERGENCY declared as per ECC-14 due to SI initiation followed by containment spray.

0903 01:33 Began natural circulation cool down due to loss of RCPs.

0910 01:40 TSC and OSA should be activated by this time.

0919 01:49 Natural circulation cool down confirmed by hot leg/cold leg temperature differentials.

0925 01 55 Post Accident Sampling Team dispatched.

0930 02:00 EOF should be activated by this time.

0942 02: 12 East RHR pump is started to establish recirculation from the containment sump seal ruptures resulting in 20 gpm leak.

ERE-09/20/89 6-5

EXERCISE NARRATIVE

SUMMARY

CONTINUED REAI SCENARIO TIME TIME EVENT CONDITION 0943 02:13 Received containment vent stack alarm.

0945 02:15 RHR pump room sump level alarm is received and a damage control team requested to check on RHR pump level.

1007 02:37 K602 jumpered to permit SI reset.

1010 02:40 Reset Phase "A" and "B" and Safety

.Injection.

1015 02:45 Isolated Boron Injection Tank 1020 02:50 Charging flow is realigned from Boron Injection Tank (BIT) to normal charging line flow path.

1022 02:52 Due to the inability to maintain pressurizer level/pressure, BIT injection is reestablished.

1025 02: 55 Begin post IOCA cooldown by natural circulation due to absence of reactor coolant pumps.

1030 03:00 To terminate release, the East RHR*

pump is shut off and the suction line from recirculation sump isolated resulting in removal of east containment spray pump from service due to loss of its suction source.

ERE-09/20/89 6-6

EXERCISE NARRATIVE

SUMMARY

CONTINUED REAL SCENARIO

-'TIME TIME EVENT CONDITION 1033 03: 03 Release Terminates 1035 03: 05 Establish approximately 50'F/hr.

cooldown rate using the steam generator PORVs for heat removal.

1200 04:30 Accumulators are isolated as RCS pressure decreases below 1000 pounds.

Ongoing During RCS pressure is reduced as cooldown Cooldown continues using the pressurizer PORVs venting to the Pressurizer Relief Tank.

1206 04:36 Post, Accident Sampling Team reports their sampling results.

1330 06:00 RCS has been cooled to 350 F and depressurized to 400 psi which allows RHR cooling to be initiated.

I 1335 06:05 Initial recovery process begins.

1400 06:30 Exercise terminates.

ERE-09/20/89 6-7

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE VII. EXERCISE MESSAGES AND PLANT DATA SHEETS A. PLANT DATA CURVES B. CONTROLLERS MESSAGES C. OTSC LOG DATA D. THERMOCOUPLE MAPS

.s) V S DW ERE-09/20/89 7-1

DONAZD C. COOK NUCZ EAR PLANT EMERGENCY RESPONSE EXERCISE VII. A. PLANT DATA CURVES This section provides Control Room and TSC Controllers with selected primary and secondary plant parameters in graphic format. Controllers will provide time specific data upon request from participants.

TABLE OF CONTENTS GRAPH PARAMETER Containment Temperature Containment Hydrogen Concentration 3 RWST Level Source Range Indication Intermediate Range Indication Containment Pressure Containment Sump Zevel Containment Zevel CTS Pump Status 10 RHR Spray Flow Safety Injection Pump Flow Boron Injection Flow 13 Accumulator Pressure RHR Injection Flow 15 Reactor Coolant Pump Status 16 Reactor Coolant System Pressure (WR) 17 Charging Flow 18 Pressurizer Liquid Temperature ERE-09/20/89 7A-1

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE VII. A. PLANT DATA CURVES CONTINUED GRAPH PARAMETER 19 Pressurizer Steam Temperature 20 Pressurizer Zevel 21/22/23 PRT Temperature, Level 6 Pressure 24/25 Pressurizer Heater Status 26 Z,etdown Flow 27 Saturation Margin 28 T-HOT, Wide Range 29 T-COLD, Wide Range 30 Steam Generator Pressure 31 Steam Generator Level, (NR) 32 Steam Generator Zevel, (WR) 33 Steam Flow 34 Feed Flow Auxiliary Feed Flow 36/38 Steam Flowpath, Atmos/Dump 37 Condensate Storage Tank Level Parameters not addressed graphically, but which are significant to the scenario are given in appropriate messages.

ERE-09/20/89 7A-2

CONTAINMENT TEMPERATURE PRESSURIZER COMPONENT VS. TIME CONTAINMENT TEMPERATURE F 220 210

, 200 190 180 170 160 150 140 130 120 110 100 7:30 8.30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL

CONTAINMENT H CONC.

VS.

TIME

'Yo HYDROGEN 2.75 2.5 2.25 1.75 1.5 1.25 0.75 ZERO 0.5 0.25 0

7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL

REFUELING WATER STORAGE TANK (RWST) LEVEL VS.

TIME RWST LEVEL  % RWST LEVEL GAL X E+03 100 420 95 399 90 378 85 357 80 336 75 315 70 294 65 273 60 ~ . ~ 4 252 55 231 50 210 45 189 40 '

168 35 147 30 126 25 105 20 84 15 63 10 42 5 21 0 0 730 830 930 1030 1130 1230 1330 T[ME 20SEP89 THIS IS A DRILL

SOURCE RANGE VS.

TIME SOURCE RANGE IN LOG CPS 100000 10000 1000 100 10 7:30 8:30 9.30 10:30 11:30 12.30 13:30 TIME 20SEP89 THIS IS A DRILL

INTERMEDIATE POWER RANGE VS.

TIME INTERMEDIATE POWER RANGE IN AMPS 1.000E-03

~ '" '

~

1.000E-04

~ "0 1.000E-05 1.000E-06 1.000E-07 '

~

1.000E-08 1.000E-09 V " ' '

1.000E- 10 1.000E- 1 1 730 830 930 1030 1130 1230 1330 TIME 20SEP89 THIS IS A DRILL

CONTAINMENT PRESSURE VS.

TIME CONTAINMENT PRESSURE PSIG 2.75 2.5 -,

2.25 1.75 1.5 1.25 0.75 0.5 0.25 0

7:30 8:30 9:30 10:30 11:30 t2:30 13:30 TIME 20SEP89 THIS IS A DRILL

CONTAINMENT SUMP LEVEL VS.

TIME CGNTAINMENT SUMP LEVEL 100 90 80 70 60 60 40 30 20 10 7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL

CONTAINMENT LEVEL VS.

TIME CONTAINMENT LEVEL %

100 95 90 85 80 75 70 65 60 55 50 45 40 35 30 25 20 15 10 5

0 7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL

CTS PUMP STATUS VS.

TIME PUMP STATUS ON EAS OFF WES .

OFF 7:30 8:30 9:30 10:30 11:30 12:30 13:30

'IME'HIS 20SEP89 IS A DRILL

EAST RHR SPRAY FLOW VS. TIME 1

E 809 T

8 0.8 P

R p, 0.7 Y

P 0.8 L

0 W 0.6 I

N OA 0

P 0.3 M ZERO X 0.2 E

~ 0.1 0

3 0

7:30 8:30 9(30 10:30 11:30 12:30 13:30 TIME 2086P80 WEST RHR SPRAY FLOW VS.

TIME W 1 E

8 T 0.9 N 0.8 R

8 0.7 P

R p 0.8 Y

P 0.6 L

w" I3 0.3 P

M ,ZERO 0.2 X

E 0.'I 0

3 0 7 30 8 30 9~30 10 30 11330 12 30 13 30 20$ EP8D THIS IC A DRILL

C>

SAFETY INJECTION PUMP FLOW VS.

TIME NORTH SI PUMP FLOW OPM 3

2.9 2.8 2.7 2.5 2.6 2A 2.3 22 2.1 2

1.9 1.8 1.7 1.5 1.5 1A 1.3 1.2 1.1 1

0.9 0.8 0.7 0'.8 0.6 OA ",ZERO.";,; ',

0.3 0.2 0.1 0

7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20$ $ P$ 0 SAFETY INJECTION PUMP FLOW VS.

TIME SOUTH SI PUMP FLOW OPM 3

2.9 2.8 4 2.7 E 2.5 2.6 2A ~-

2.3 2.2 2.1'2 1.9 1.8 1.7 1.5 1.5 1.4 1.3 1.2 1.1 1

0.9 0.8 0.7 0.5 0.6 ~ZERO-"---

OA OD 0.2 0.1 0

7:30 8:30 9:30 10:30 1130 12:30 13:30 TIME 20$ 2P$ 0 THIS IS A DRILL

BORON INJECTION FLOW VS.

TIME FLOW GPM 115 LOOP1 0

115 LO.OP 2 0

115 LOOP 3 115 LOOP 4 7 0

730 830 930 1030 1130 1230 1330 TIME 20SEP89 THIS IS A DRILL 12

ACCUMULATOR PRESSURE VS.

TIME ACCUMULATOR P RESSU RE PS I 6 700 675 650 625 600 575 550 525 500 7:30 8:30 9:30 10:30 11:30 12:30 13.30 TIME 20SEP89 THIS IS A DRILL

RHR INJECTION FLOW VS.

TIME EAST AND WEST FLOW GPM 10

'ZERO~

0 7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL

REACTOR COOLANT PUMP STATUS VS.

TIME REACTOR COOLANT PUMP STATUS ON t" t

¹1 OFF ON

¹2 OFF ON

¹3 OFF

~

ON

¹4 OFF 7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME NUMBER 1 NUMBER 2 NUMBER 3 NUMBER 4 20SEP89 THIS IS A DRILL

h REACTOR COOLANT SYSTEM PRESSURE (W.R.)

VS. TIME RCS PRESSURE WIDE RANGE PSIG 3000 2900 ~ *'"'"

2800 2700 2600 2500 2400 2300 2200 2100 2000 1900 1800 1700 1600 1500 1400 1300 1200 1100 1000 900 800 700 600 500 400 300 E 200 100 0

730 830 930 1030 1130 1230 1330 TIME 20SEP88 THIS IS A DRILL

8 CHARGING FLOV/

VS.

TIME CHARGING FLOW GPM 200 190 180 170 160 150 140 130 120 110 100 90 80 70 60 50 40 30 20 10 0

730 8 30 930 1030 1130 12 30 13 30 TIME 20SEP89 THIS IS A DRILL

PRESSURIZER LIQUID TEMPERATURE VS.

TIME 0

PRESSURIZER LIQUID TEMP F 700 676 650 625 600 575 550 625 500 t h

475 ~

450

. 425 400 376 350 326 300 276 250 225 200 175 150 125

'30 100 76 50 25 830 930 1030 1130 1230 1330 TIME 20SEP89 THIS IS A DRILL

PRESSURIZER STEAM TEMPERATURE VS.

TIME 0

PRESSURIZER STEAM TEMP F 700 675 650 625 600 575 550 525 500 l =.*

475 450 425 400 375 350 325 300 275

'50 225 200 175 150 125 100 75 50 25 0

7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL

PRESSURIZER LEVEL VS.

TIME PRESURIZER LEVEL /o 110 105 100 95 90 85 80 75 70 65 60 55 50 45 40 35 30 25 20 15 10 5

0 7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL

P RT TEMP ERATU RE VS.

TIME 0

PRT TEMPERATURE F 200 190 180 170 160 150 140 130 120 110 100 90 80 70 60 50 730 830 930 1030 1130 1230 1330 TIME 20SEP89 THIS IS A DRILL

PRT LEVEL VS.

TIME PRT LEVEL %

100 95 90 85 80 75 70 65 60 55 50 45 40 35 30 25 20 15 10 5

0 7:30 8:30 9:30 10.30 11:30 12:30 13.30 TIME 20SEP89 THIS IS A DRILL 22

PRT PRESSURE VS.

TIME PRT PRESSURE PSIG 50 45 40 35 30 25 20 15 10 7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL 23

PRESSURIZER HEATER STATUS VS.

TIME PRESSURIZER HEATER .STATUS

'P Z R" CYCL I N G H TR ON OFF PZR BACKUP HTR ON OFF 7:30 8:30 ':30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL 24/25

LETDOWN FLOW VS.

TIME LETDOWN FLOW GPM 100 90 80 70 60 50 40 30 20 10 0

7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL 26

SATURATION MARGIN VS.

TIME 0

SATURATION MARGIN F 110 100 90 80 70 60 50 40 30 20 10 7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL 27

WIDE RANGE THoT VS.

TIME 700 WIDE RANGE TF 675 650 625 600 675 550 525 500 475 450 425 400 375 350 325 300 275 250 225 200 176 150 125 100 75 60 25 0

7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL 28

COLD VS.

TlME 0

700 E NG F 675 650 625 600 575 550 525 500

'75 450 425 400 375 350 325 300 7 30 8 30 9:30 10 30 11:30 12 30 13 30 TIME S/8 1/4 ~ S/8 2/3 20SEP89 THIS IS A DRILL 29

STEAM GENERATOR PRESSURE VS.

TIME STEAM GENERATOR PRESSURE PSIG 1000 950 900 850 800 750 700 650 600

'550 500 450 400 350 300 250 200 150 100 50 0

7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME S/G 1/4 ~ S/G 2/3 20SEP89 THtS IS A DRILL 30

NARROW RANGE STEAM GENERATOR LEVEL VS. TIME n

NARROW RANGE STEAM GENERATOR LEVEL  %

100 95 90 85 80

-75 70 65 60 55 50 45 40 35 30 25 20 15 10 5

0 730 830 930 1030 1130 1230 1330 TIME S/G 1/4 ~ S/G 2/3 20SEP89 THIS IS A DRILL

'I ii

WIDE RANGE STEAM GENERATOR LEVEL VS. TIME WIDE RANGE STEAM GENERATOR LEVEL %

100 95 90 85 80 75 70 65 60 55 50 45 40 35 30 25 20 15 10 5

0 730 830 930 1030 1130, 1230 1330 TIME S/G 1/4 ~ S/G 2/3 20SEP89 THIS IS A DRILL 32

STEAM FLOW VS.

TIME STEAM FLOW LBS/HOUR E+03 5000 4000 3000 2000 1000 730 830 930 1030 1130 1230 1330 TIME 20SEP89 THIS IS A DRILL 33

FEED FLOW VS.

TIME FEED FLOW LBS/HR X E+03 4000 3500 3000 2500 2000 1500 1000 500 7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL 34

AUXILIARYFEED FLOW VS.

TIME AUXILIARYFEED FLOW LBS/HR X E+03 200 190 ~

180 1.70 160 150 140 130 120 110 100 90 80 70 60 50 40 30 20 10 0

7:30 8:30 9:30 10:30 11:30 12:30 13-30 TIME LOOP 1 & 4 ~ LOOP 2 & 3 20SEP89 THIS IS A DRILL 35 (e

STEAM FLOWPATH VS.

TIME STEAM GENERATOR STOP VALVES ATM OS STEAM UMP COND OPEN

¹1 CLOSE OPEN

¹2 CLOSE OPEN

¹3 CLOSE OPEN

¹4 CLOSED 730 830 930 1030 1130 1230 1330 TIME STEAM DUMP ~ STOP VLV 1 ~ STOP VLV 2 STOP VLV 3 ~ STOP VLV 4 20SEP89 THIS IS A DRILL 36/38

I

CONDENSATE STORAGE TANK LEVEL VS. TIME CST LEVEL % CST LEVEL FEET 100 30 95 28.5 90 27 85 25.5 80 24 75 22.5 70 21 65 19.5 60 18 55 1 6.5 50 15 45 . 13.5 40 12 35 10.5 30 9 25 7.5 20 6 15 4.5 10 3 5 1.5 0 0 7:30 8:30 9:30 10:30 11:30 12:30 13:30 TIME 20SEP89 THIS IS A DRILL 37

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE VII. B. CONTROLLER MESSAGES The following forms represent the means by which information required to prompt a response from players, and provide the Controller with general guidance, is provided. The messages are not given directly to players. This series is for Controllers only.

These messages are available to continue exercise play in the event of simulator malfunction. Because of the additional free-play permitted and subsequent variance from a preplanned time line, it is possible that adjustments will have to be made in delivery times of controller messages from the times stated messages are needed.

if the ERE>>09/20/89 78-1

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.;

TIME: 0715 MESSAGE FOR: Control Room The following phone numbers are to be used for the duration of this exercise:

Michigan State Police - Number used in PMP 2080 EPP.106, Exh. B NRC ENS - To be announced NRC HPN - To be announced BCSD - 983-3784 CONTROLLER USE ONLY Establish the communications systems that are to be used and not to be used during the exercise. Review the basic rules of participation with the shift personnel. (See Section III., "Conduct of Exercise" )

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.".

TIME: 0730 MESSAGE FOR: Control Room Initial conditions are as follows:

~ Unit 1 is in mode one at 100% power, 550'F Tave, 1060 MWe.

Control rod bank D at 215 steps. RCS boron = 1460 ppm at 0217 this morning.

~ Unit 2 is at 100% power.

~ Unit 1 and Unit 2 failed fuel detector is out of service.

~ Unit 1 east RHR pump is out of service due to excessive bearing temperature identified late yesterday. No actions have been taken to identify the cause or rectify this problem.

~ Unit 1 pressurizer PORV block valves (1-NMO-151/1-NMO-153) are closed due to leakage from the associated PORV.

2AB diesel is tagged out for governor replacement. EDG went out on overspeed testing September 19 and is not expected to be repaired before September 21.

~ The'VCS cross tie is inoperable to replace the orifice on QFI-201.

Evidence of fuel cladding leaks has been worsening over the recent past with present leakage just under plant administrative limits.

~ Unidentified RCS leakage has been trending upward over the last three days with the latest surveillance test results showing 0.6 gpm leakage. This was completed at 0400 hrs the morning of 9-20-89. The mid-night shift performed those tasks outlined in the "Excess Leakage Procedure", 2-OHP 4022.002.004,,but were unable to either isolate or determine the source of leakage.

Lab requested to check activity level of Steam Generator blowdown. Results reported at 0600 hrs indicate no primary to secondary leakage.

2. The operators on mid-shift switch letdown over to excess letdown in an attempt to identify the leakage source. The results were inconclusive in identifying the leakage source.

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE TIME: 0730 MESSAGE FOR: Control Room

3. Waste inventory was checked and found to be constant over the last 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> except for 420 gallons pumped out of the lower containment sump.

4. Reactor Coolant Filters and Seal Water Filter were checked for proper line-up and found to be properly aligned.

5. During the bi-monthly inspection of the Pipe Tunnel Sump nothing was found that would identify the source of the leakage.

6. The levels of the Pressurizer Relief Tank and Reactor Coolant Drain Tank were trended to determine inleakage. No leaks were indicated.

~ The Unit has been operating at 100% rated thermal power for the last 198 days.

~ A second "Reactor Coolant System Teak Test", 2-OHP 4030 STP.016 started at 0500 hours0.00579 days <br />0.139 hours <br />8.267196e-4 weeks <br />1.9025e-4 months <br /> on 9-20-89 to at 0400 hours0.00463 days <br />0.111 hours <br />6.613757e-4 weeks <br />1.522e-4 months <br />. This test is underway andverify was the leakage found should be completed by the day shift operators around 0800 hours0.00926 days <br />0.222 hours <br />0.00132 weeks <br />3.044e-4 months <br />.

~ ERS-2300/2400 setpoints have been set upward.

~ Boron concentration is ll ppm.

Cycle burnup = 17,500 MWD/MTU. EFPD = 399

~ Primary coolant activity is:

Ar 41 7.4 E-2 pCi/cc Kr 85m 4.0 E-,1 pCi/cc Cs 134 8.1 E-2 pCi/cc Kr 87 6.9 E-1 pCi/cc Cs 137 1.8 E-1 pCi/cc Kr 88 9.5 E-1 pCi/cc I 131 2.0 E-1 pCi/cc Rb 88 6.4 E+0 pCi/cc I 132 4.2 E-1 pCi/cc Xe 133 5.0 E+0 pCi/cc I 133 4.6 E-1 pCi/cc Xe 131 2.6 E-2 pCi/cc I 134 7.9 E-1 pCi/cc Xe 135 7.5 E-1 pCi/cc I 135 6.0 E-1 pCi/cc Xe 135m 6.2 E-1 pCi/cc

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 2 Cont.

TIME: 0730 MESSAGE FOR: Control Room Meteorological conditions for typical September morning are:

1. Temperature 53'F

2. Wind Speed 2-5 mph

3. Wind direction 30(L-330

4. No precipitation

~ Both 50 and 150 pound auxiliary steam headers are being supplied by Unit l.

CONTROLIER USE ONLY Establish the initial conditions with the Control Room staff. Review the basic rules of participation.

~ 0 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.'.

TIME: 0745 MESSAGE FOR: Control Room 0745 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.:

TIME 0800 MESSAGE FOR: Control Room PSSD Data attached.

Provide R01 with copy of STP.016.

CONTROLLER USE ONLY Expected Response:

STP.016 results indicate 1.4 GPM leakrate (in excess of 1.0 GPM limit).

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.;

TIME: 0800 MESSAGE FOR: Control Room 0800 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.;

TIME: 0800 MESSAGE FOR: Control Room RDDS data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.:

TIME: 0810 MESSAGE FOR: Control Room (optional)

UNUSUAZ EVENT is declared as per ECC-14 CONTROLLER USE ONLY This declaration is option based on elected, allow it to happen at any SS judgement if unit shutdown rate less than or equal to is 50%%u~r.

DONAID C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.;

TIME: 0815 MESSAGE FOR: Chemical Technician C.R. reguests S/G samples to determine primary to secondary leakage.

CONTROLLER USE ONLY Chemical Technician will be simulated because not enough time to respond before emergency escalates.

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.!

TIME: 0815 MESSAGE FOR: Control Room 0815 OTSC Log Groups CONTROLLER USE ONIY USE ONLY IF SIMULATOR FAIZS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.". 10 TIME: 0815 MESSAGE FOR: Control Room RDDS Data CONTROLIER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: ll TIME: 0827 MESSAGE FOR: Control Room Pressurizer level low deviation alarm Rapidly decreasing pressurizer level Decreasing pressurizer pressure

~ In-service charging pump flow increasing

~ Ice condenser doors open

~ Receive upper containment high pressure alarm CONTROLLER USE ONLY Expected Response:

Start standby charging pump USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.,'2 TIME: 0829 MESSAGE FOR: Control Room Contingency pumps if second charging pump not started tell them to start CONTROLIER USE ONLY Issue message if control room personnel do not start second pump.

USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 13 TIME: 0830 MESSAGE FOR: Control Room Second charging pump fails to maintain pressure level - does slow level decrease CONTROLLER USE ONLY Begin controlled unit shutdown based on above.

USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.". 14 TIME: 0830 MESSAGE FOR: Control Room RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 15 TIME: 0830 MESSAGE FOR: Control Room 0830 OTSC Log Groups CONTROLLER USE ONIY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 16 TIME: 0831 MESSAGE FOR: Control Room Begin controlled unit shutdown in accordance with 2-OHP 4022.002.004.

CONTROLLER USE ONLY (contingency)

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.".'7'IME:

0833 MESSAGE FOR: Control Room

~ Rx trips Low RCS'pressure alarm

~ SI Phase A occurs (SI status light lit)

High containment pressure alarm

~ All rod bottom lights lit ~exce t G3 CONTROLLER USE ONLY Expected Response:

Begin Emergency Operating Procedure implementation USE ONIY IF SIMULATOR FAILS e

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 18 TIME: 0834 MESSAGE FOR: Control Room All Train B pumps auto-start.

The following Train A pumps fail to start:

~ North SI East RHR East CCW EMDAFP starts but trips on overload CONTROLLER USE ONLY Expected Response:

Manually start Train A pumps USE ONLY IF SIMULATOR FAILS e

ll DONALD C. COOK NUCLEAR PIANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 19 TIME: 0839 MESSAGE FOR: Control Room Safety Injection "RESET" "A" Train components fail to reset.

"B" Train components reset.

CONTROLLER USE ONLY Expected Response:

Request ISC investigate USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 20 TIME: 0840 MESSAGE FOR: Balance of Plant Operator

~ Emergency trip alarm operated Red light on control switch went out, green on Frequency meter decreases to stop CONTROLLER USE ONLY (contingency)

Issue if diesel is tripped.

USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 21 TIME: 0840 MESSAGE FOR: Control Room CD diesel won't stop when attempted from Control Room.

CONTROZ LER USE ONLY Expected Response:

Request ISC assistance.

USE ONLY IF SIMULATOR FAILS

t't\

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 22 TIME: 0840 MESSAGE FOR: Control Room Declare AIERT based on ECC-14/4, "Inability to maintain pressurizer level above 22% with one charging pump.

CONTROLLER USE ONIY (contingency)

Issue this if not already declared.

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 23 TIME: 0840 MESSAGE FOR: Control Room Control room requests assistance due to Train A safety injection pump failures/SI reset logic malfunction.

CONTROLLER USE ONLY (contingency)

Expected Response:

ISC initiates investigation.

Issue only if not previously requested.

V DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 24 TIME: 0845 MESSAGE FOR: Control Room 0845 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAIZS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 25 TIME: 0845 MESSAGE FOR: Control Room RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

~C

~ ~

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 26 TIME: 0847 MESSAGE FOR: Control Room AEO dispatched to check ventilation isolation at CAS panel reports that instrument room purge fans are in "stop".

CONTROLLER USE ONLY (contingency)

Issue if AEO does not report by now.

t

.A<>y

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 27 TIME: 0850 MESSAGE FOR: Control Room Containment pressure reaches 2.9 lbs.

Receive containment HI-HI alarm

~ Phase B actuation

~ Auto start on both containment spray pumps

~ Steam generator stop valves close CONTROLLER USE ONLY Expected Response:

Trip RCP's within 5 minutes.

USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 28 TIME: 085'5 MESSAGE FOR: Control Room Secure all four Reactor Coolant Pumps due to Low Reactor Coolant System Pressure

, CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS '

DONALD C. COOK NUCIEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 29 TIME: 0900 MESSAGE FOR: Control Room Declare SITE AREA EMERGENCY based on ECC-14.

CONTROLLER USE ONIY (contingency)

Issue this message if declaration not already made.

'F F J

DONALD C ~ COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO..'0 TIME: 0900 MESSAGE FOR: Control Room/TSC Scribe 0900 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.". 31 TIME: 0900 MESSAGE FOR: Control Room, TSC RDDS Data CONTROLLER USE ONLY USE ONZY IF SIMULATOR FAIZS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 32 TIME: 0902 6 after MESSAGE FOR: All AEO's dispatched to realign charging systems Report back to control room after appropriate time delay that mission successfully completed.

CONTROLLER USE ONLY

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO..: 33 TIME: 0903 MESSAGE FOR: Control Room Begin RCS cooldown using natural circulation CONTROLLER USE ONZY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT

.EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 34 TIME: 0930 MESSAGE FOR: Control Room/TSC 6 EOF Scribes 0930 OTSC Log Groups

,CONTROLLER USE ONLY

'USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO..'5 TIME: 0915 MESSAGE FOR: Control Room, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 36 TIME: 0919 MESSAGE FOR: Control Room Natural circulation confirmed by Hot Leg/Cold Leg 25 F differential of-CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 37 TIME: 0925 MESSAGE FOR: TSC Request Post Accident Sampling Team and Onsite Radiation Monitoring Team(s).

CONTROLLER USE ONLY Contin enc Messa e Issue this if not completed by this time.

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 38 TIME: 0925 MESSAGE FOR: Control Room

~ Low RWST level alarm CONTROLLER USE ONLY Expected Response:

Begin changeover to cold leg recirculation from containment sump.

USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 39 TIME: 0915 MESSAGE FOR: Control Room/TSC Scribe 0915 OTSC Log Groups CONTROLLER USE ONIY

.USE ONLY IF SIMULATOR FAILS

DONALD CD COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 40 TIME: 0930 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLIER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 41 TIME: 0942 MESSAGE FOR: Control Room Start the East RHR pump to establish recirc. flow from containment s limp .

CONTROLL'ER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 42 TIME: 0943 MESSAGE FOR: Control Room Containment vent stack alarm

~ RHR pump room high sump level alarm CONTROI LER USE ONLY Expected Respo'nse:

Dispatch AEO to investigate high sump level alarm.

USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.. 43 TIME: 0945 MESSAGE FOR: Control Room/TSC 6 EOF Scribes 0945 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.'. 44 TIME: 0945 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY

'USE ONLY IF SIMULATOR FAIIS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 45 TIME: 0905 MESSAGE FOR: TSC Request Damage Control Team to check on RHR pump room sump level.

CONTROLLER USE ONIY

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 46 TIME: 1000 MESSAGE FOR: Control Room/TSC & EOF Scribes 1000 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAIZS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 47 TIME: 1000 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 48 TIME: 1007 MESSAGE FOR: I6C Team Working on K602 Relay K602 relay jumpered to permit SI reset.

CONTROLLER USE ONLY

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 49 TIME: 1010 MESSAGE FOR: Control Room Reset Phase "A" and Phase "B" Safety Injection.

CONTROLLER USE ONLY

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE I

MESSAGE NO. 50 TIME: 1015 MESSAGE FOR: Control Room/TSC 6c EOF Scribes 1015 OTSC Log Groups CONTROILER USE ONLY USE ONLY IF SIMULATOR FAILS

>I DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 51 TIME: 1015 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

-I DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 52 TIME: 1020 MESSAGE FOR: Damage Control Team Member Returning from RHR Room Attached contamination information.

CONTROLLER USE ONLY Upon return from RHR room investigation, DCT member should be told that the frisker and/or portal monitor has responded as per the attached form. The RP Technician accompanying him should then decontaminate him according to standard procedures.

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 53 TIME: 1022 MESSAGE FOR: Control Room Reestablish charging flow through BIT tank due to the maintain pressurizer level.

inability to CONTROLLER USE ONLY Contin enc Messa e Issue only if normal charging is established.

USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCIEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.;

TIME: 1030 MESSAGE FOR: Control Room Shut of E RHR pump, E CTS and isolate suction flowpath by closing ICM-305.

CONTROLLER USE ONLY (contingency)

Issue if not previously completed.

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 55 TIME: 1030 MESSAGE FOR: Control Room/TSC & EOF Scribes 1030 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAIZS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 56 TIME: 1030 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR'AILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 57 TIME: 1045 MESSAGE FOR: Control Room/TSC 6 EOF Scribes 1045 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 58 TIME: 1045 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAIIS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 59 TIME: 1100 MESSAGE FOR: Control Room/TSC 6 EOF Scribes 1100 OTSC Log Groups CONTROLLER USE ONIY USE ONLY IF SIMULATOR FAILS

4 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 60 TIME: 1100 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 61 TIME: 1115 MESSAGE FOR: Control Room/TSC 8 EOF Scribes 1115 OTSC Iog Groups CONTROLL'ER USE ONLY USE ONLY IF SIMULATOR FAIZS

DONAID C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO..'2 TIME: 1115 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 63 TIME: 1130 MESSAGE FOR: Control Room/TSC 6 EOF Scribes 1130 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO..'4 TIME: 1130 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

8 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 65 TIME: 1145 MESSAGE FOR: Control Room/TSC 6 EOF Scribes 1145 OTSC Log Groups CONTROLLER USE ONLY USE ONZY IF SIMULATOR FAIZS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 66 TIME: 1145 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER.USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 67 TIME: 1200 MESSAGE FOR: Control Room/TSC S EOF Scribes 1200 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAII S

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 68 TIME: 1200 MESSAGE FOR: Control Room, EOF, TSC RDDS Data

.,CONTROLLER USE ONIY USE ONLY IF SIMULATOR FAIZS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 69 TIME: 1200 MESSAGE FOR: Post Accident Sampling Team 1:1000 dilution, no spike (not enough time), 2.0 hr. decay time Kr-85n 2.0E-3 p Ci/cc Kr-87 5.8E-6 p Ci/cc KR-88 6.4E-3 p Ci/cc Xe-131n 1.2E-6 p Ci/cc Xe-133 5.0E-4 pCi/cc Xe-133n 6.7E-4 p Ci/cc Xe-135 , 6.2E-3 pCi/cc I-131 4.1E-4 p Ci/cc I-132 8.5E-5 pCi/cc I-133 9.1E-4 p Ci/cc I-135 1.7E"4 p Ci/cc CONTROLLER USE ONIY

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 70 TIME: 1215 MESSAGE FOR: Control Room/TSC 8 EOF Scribes 1215 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.- 71 TIME: 1215 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

J, DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 72 TIME: 1230 MESSAGE FOR: Control Room/TSC 6 EOF Scribes 1230 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO..: 73 TIME: 1230 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONIY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 74

~

TIME: 1245 MESSAGE FOR: Control Room/TSC 6 EOF Scribes 1245 OTSC Log Groups CONTROLLER USE ONLY USE ONZY IF SIMULATOR FAILS

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO., 75 TIME: 1245 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONIY USE ONIY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 76 TIME: 1300 MESSAGE FOR: Control Room/TSC & EOF Scribes 1300 OTSC Log Groups CONTROLLER USE ONLY USE ONIY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 77 TIME: 1300 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 78 TIME: 1315 MESSAGE FOR: Control Room/TSC 6 EOF Scribes 1315 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

~ '

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.-. 79 TIME: 1315 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.; 80 TIME: 1330 MESSAGE FOR: Control Room/TSC 6 EOF Scribes 1330 OTSC Log Groups CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

gp

'g 1

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.: 81 TIME: 1330 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROI LER USE ONLY USE ONLY IF SIMULATOR FAILS

DONALD C. COOK NUCI EAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 82 TIME: 1345 MESSAGE FOR: Control Room/TSC S EOF Scribes 1345 OTSC Log Groups

,CONTROLLER USE ONLY USE ONLY IF SIMULATOR FAILS

Ac DONALD C. COOK NUCLEAR PLANT

( EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO.". 83 TIME: 1345 MESSAGE FOR: Control Room, EOF, TSC RDDS Data CONTROILER USE ONIY USE ONLY IF SIMULATOR FAILS 4

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE EXERCISE MESSAGE MESSAGE NO. 84 TIME: 1400 MESSAGE FOR: Control Room, TSC, EOF, OSA, IAG Drill terminates CONTROLLER USE ONLY

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE VII. C. OTSC IOG DATA This section represents data as a direct facsimile of the OTSC/PSSD (SPDS) log data.

These logs are pre-established on the system and are the primary source of information for the Emergency Response Organization. This time specific data will be provided by the Controller when appropriate.

ERE-09/20/89 7C-1

0 LOI'ROUP D C COOK UNIT g 20 sEP 89 0 I:"IS: OO LOC tiPOUP 54 = EP-ESF-1 POINT DESCRIPTION VALUE UNITS TAG NO.

1 RUST LEVEL ~7. 50PC ILS-S50 2 SI PHP N TO LP 1, 0 COLD LEG O.OO GPN IFI-260 3 SI PIP S TO LP 2,3 COLD LEG Q. QQ GPH IF I-266 0 BIT COLD LEG INJECT FLOtI LPl O.OO GP~ IFI-51 0

i BIT ILD LEC INJECT FLOM LP2 IFI-52 I-y 6 BIT CDLD LEt INJECT FLOH LP3 GPM IFI-53 Qa

? IIIT COLD LEC INJECT FLOM LH GPN IF I-51 8 ACCUMULATOR TK1 PRESSURE IPA-110 O~cn Cl 1 ~ ~~

9 ACCUHULATOR TK2 PRESSURE PSIG IPA-120

~)

10 ACCUHULATOR TK3 PRESSURE l . 3> PSIG IPA-130

~w

~CA 11 ACCUHULRTOR TKl PRESSURE 7 B2. PSIG IPA-100 ~l-z 12 Cl CREATE LOG GROUP INSTRUCT ION5 PRINT LOG DIGITAL TREND i.

2.

POSITION CURSOR SELECT ON DE5IRED FUNCTION DEPRE55

a h

LOI GROUP D C COOK UNIT Q 20 SEP 89 01: "f~:OO LOG GROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS ~ TAG NO.

1'RHR SYSTEtl E FLOH '0 'Q 0 GPK IFI-310 2 RHR SYSTEtl N FLON < 0 GPK IFI-320 3 CHTtlT SPRAY FROtl RHR SYSTEtl-E C). OO IFI-330 0 CHTtlT SPRAY FROtl RHR SYSTEtl N IFI-331

~P.

5 CttTHT TEtlP PRZR COtlP j4 7 I + DEGF ETR-126 jgo 6 H2 COHC TR A HI C,OQ PC H2-AH t5o 7 CNTNT PRESSURE AVG C> PS I G UP1001 8 CNTHT SUtlP NIDE LEVEL sR f,QS NLI-320 9 CHTtlT SUHP NIDE LEVEL '5 t f. QQ FT ttLI-321 10 PZR REl IEF TANK PRESS PSIG ttPA-351 11 PiR RELIEF TANK TEtlP 1 I8 F> DEGAS HTA-351 12 CREATE LOG GROUP INSTRUCT ION5 PRINT LOG 1. POSITION CUR50R ON DESIRED FUNCTION DIGITAL TREND 2 DEPRE55 5ELECT

0 C COOK UNIT g 20 SEP 89 01 Is:oo LOG GROUP 5fi = EP-RCS-1 POINT OE5CRIPTION VALUE UNITS TAG NO.

1 SOURCE RHG DETECTOR 1 LOGCP5 HE-31 2 INTERN RHG DET 1 4.5 E- t LOGNCANP HE-35 3 RCS QR PRESSURE BYG ~c2 94 S P5 I G

~ UP1004 4 PRZR LEVEL AVG PC UL1003 5 PZR LIQUID TENP ~1 OEGF HTA-251 fi PZR VAPOR TEtlP 4 SO ~

65 OEGF HTA-252 7 PRZR HTR GP CPH STATUS LS9040 ,

8 CHARGING FLOM P9.Q ( GPN OFI-200 9 LET DONH FLOH >k S"I GPV OFI-301 10 SUKOOLIHG OEGF UT1004 11 12 CREATE LOG GROUP IN5TRUCTION5 PR. NT LOG i.POSITION CURSOR ON DESIRED FUNCTION OI CITAL TREND 2 OEPRE55 SELECT

O C COOK 0-t: I 5:oo UNIT Q 20 SEP 89 LOG GROUP 57 = EP-PCS-2

'OINT DESCRIPTIOH VALUE UNITS TAG KO.

1 LOOP 1 HOT LEG TEtlP 40 l. OY DEGF HTR-110 2 LOOP 2 HOT LEG TEtlP @~/. Qg DEGF HTR-120 3 LOOP 3 HOT LEG TEtlP g pe. ( DEGF HTR-130 0 LOOP 0 HOT LEG TEtlP g gL{ i@ DEGF HTR-140

5. LOOP 1 COLS LEG TEtlp 5 I 1 ~ o I. DEGF HTR-210 6 LOOP 2 COLD LEG TEtlP ~ I l -gk OEGF NTR-220

? LOOP 3 COLD LEG TEtlP SH .+ KI DEGF KTR-230 8 LOOP 0 COLD LEG TEtlP DEGF KTR-240 9 RCP1 CURREHT 'HP RCPlAtl 10 RCP2 CURREHT '7 (g. gQ. AHP RCP2Atl 11 PCP3 CURRENT 7 f c2 ~ gG AHP RCP3Atl 12 RCPT) CUPREKT Q5 AHP RCPORT CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

e U

H I

I'

D C COOK 20 sEP 89 Qq:q5 LOG CROUP UNIT +

LOG CROUP 58 = EP-HSSS M POINT OE5CR IPTI ON VALUE UNITS TAG NO.

1 STh.GEH OUTLET PRES LP 1 80O ~ K I PSIG hpp-210 2 STh GEH OUTLET PRES LP 2 FOG Sl PSIG hPP-220 3 STll GEH OUTLET PRES LP 3 4 STtl GEH OUTLET PRES LP 4 Qgg . gg PSIG PSIG tlPP-230 tlPP-240 0

~c) 5 STtl GEH 1 HARROM LEVEL /g 4D PC BLP-110 6 STtl GEH 2 HARRON LEVEL ggg7 PC BLP-120 Oocn BLP-130

? STtl GEH 3 HARRON LEVEL qg gp PC 8 STtl GEH 4 HARRON LEVEL PC BLP-140 QZ UJ El- 94 ~us 9 STtl GEH 1 NIDE LEVEL PC BLI-110

~ CD 10 STtl GEH 2 NIDE LEVEL PC BLI-120 ~I-11 STh GEH 3 NIDE LEVEL WO.e, l SC BLI-130 CE 12 STh GEH 4 NIDE LEVEL PC BLI-140 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CUR5OR 2-DEPRESS SELECT ON DESIRED FUNCTION

D C COOK 20 SEP 89 < l:95'. oo UNIT Q LOG GROUP 59 = EP-NSSSMOQ POINT DESCRI PT ION VALUE UNITS TAG NO 1 STEAN FLOM LOOP 1 3Z'l59D. KyH NFC-110 2 STEAN FLOk LOOP 2 9 3 1~+7 KBH NFC-120 3 STEAN FLOM LOOP 3 Q Pgg.,fg KBH NFC-]30 4 STEAN FLOM LOOP 4 Sl KBH NFC-140 5 FEEDMATER FLOM LOOP 1 ~

3116 03 KBH FFC-210 6 FEEDMATER FLOM LOOP 2 zg'7R. lF KBH FFC-220 7 FEEDMATER FLOM LOOP 3 31<~ "t'7 KBH FFC-230 8 FEEDMATER FLOk LODP 4 zq i9.8I KBH FFC-240 9 AUX FEEDkATER FLOk LODPl O-OO KBH FFI-210 10 AUX FEEDMATER FLOM LOOP2 O. OO KBH'.

FFI-220 11 AUX FEEDMATER FLOM LOOP3 QQ KBH FFI-230 12 AUX FEEDMATER FLOM LOOP4 KBH FFI-240 OQ CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1. POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2. DEPRESS SELECT

D C COOK 20 sEP 89 Qq:Q5: Q~

LOG GROUP UNIT g LOG GROUP 60 = EP-HSSS-PATHQAY POINT .DE5CRIPTION VALUE UNITS TAG NO.

1 STEAN GEH STOP VALVE H01 QT ~L,S NR4-210 2 STEAN GEH STOP VALVE HO2 gT cL+ NRV-220 3 STEAN GEH STOP VALVE HO3 Arel-S NRV-230

') STEAN GEH STOP VALVE HO'I gVcLS NRV-240 O~

5 CONDEHSATE STORAGE TK LV SP.G"/ rc CLR-110 6 COHD STN DUNP ACTUATIOH Ac.T'aw LA1010 gl-2 7 NS ATNOSPHERIC RELIEF ACTUATIOH LA1011 <o 8 O~cn Q

9 g~)

10 ~Id ll 12 ~

e.

l-CREATE LOG GROUP I N5TRUC TIONS PRINT LOG I.POSITION CURSOR ON DE5IRED FUNCTION DIGITAL TREND 2.DEPRESS 5ELECT

M

'OG n C COaV, 20 sEP 89 0'p:QO'OQ CRO~JP UNIT g LOG GROUP 54 = EP-ESF-1 POINT DE5CRIPTI ON 'VALUE UNITS TAG HO.

1 RHST LEVEL 97. 9W ILS-S50 2 SI PHP N TO Lf', 0 COLD LEG Q OD GPH IFI-260

. 3 SI PNP S TO LI', 3 COLD LEG Q OO GPH IFI-266 0 SET COLD LEG INJECT FLOM LP1 g g~ IFI-51 GPN O

5 BIT COLD LEG INJECT FLOM LP2 +.QQ GPH IFI-52 I-y 6 BIT CDLD LEG INJECT FLOH LP3 +.QQ GPH IF I-53

? BIT COLD LEG INJECT FLOM LH C)'Q GPN IF I-51 o 8 ACCUMULATOR TK1 PRESSURE PS IG IPA-110 Qacn 9 ACCUHULATOR TK2 PRESSURE @ ( 1. t'SIG IPA-120

~Ul 4J 10 ACCUHULATOR TK3 PRESSURE 7 . WCa PSIG IPA-130 11 ACCUHULATOR TKl PRESSURE PSIG IPA-140 12 Cl CREATE LOG GROUP I H5TRUC T I OH5 PRINT LOG DIGITAL TREND I. P05ITION CURSOR ON DESIRED FUNCTION 2.DEPRESS SELECT

D C COOK 20 SEP 89 oo'. 0Q LOIi GROUP UNIT g cger:

LOB GROUP'5 = EP-ESF-2 POINT .DESCRIPT ION VALUE UNITS TAG NO.

1 RHR SYSTB E FLOM GPN IFI-310 2 RHR SYSTEH M FLOW 0 OO IFI-320 3 CNTliT SPRAY FROll RHR SYSTEtl E ~.g~ GPK IFI-330 0 CNTNT SPRAY FROtl RHR SYSTEtt M ~. QQ GPH IFI-331 5 CNTHT TEMP PR2R COlfP OEGF ETR-126 6 H2 CONC TR A HI ~.dd PC H2-AH 7 CNTHT PRESSURE AVG PSIG UP1001 8 CNTHT SUNUP MIDE LEVEL FT NLI-320 9 CNTHT SUHP MISE LEVEL f '5 FT ttLI-321 10 P2R RELIEF TANK PRESS PSIG HPA-351 11 PZR RELIEF TANK TEMP (I~ .8'~ DEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

LOG GROUP D C UNIT COOK g 20 SEP 89 +f 'O: QQ LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALVE UNITS TAG NO.

1 SOURCE RHG DETECTOR 1 LOGCP5 HE-31 2 IHTERtf RHG DET 1 LOGNCANP HE-35 3 RCS MR PRESSURE AVG cP c2 V6.4 P5IG UP100'I 4 PRZR LEVEL AVG ~gP'C UL1003 O

5 PZR LIQUID TENP C SG.7tt', OCGF HTA-251 6 PZR VAPOR TEtlP @~.5g OEGF HTA-252

? PRZR HTR GP CPH STATUS LS9040 O~cn 8 CHARGIHG FLOM gQ GPN OFI-200 9 LET DDMH FLOM 7(.SO 6 OFI-301 +

~CO LJJ LJj 10 SUBCODLIHG ~cg c/ OEGF UT1000 11 Cl 12 CREATE LOG GROUP INSTRUCT IONS PR. NT LOG i.POSITION CURSOR ON DE5IRED FUNCTION DICITAL TREND 2 DEPRE55 SELECT

E 1

D C COOK LOG GROUP UNIT Q 20 sEP 89 ~g Qg i go

~

LOG GROUP 57 = EP-RCS-2 POINT DESCRIPTION VALUE UNITS TAG NO.

1 LOOP 1 HOT LEG TENP ,$ 0 Q.// DEGF NTR-110 2 LOOP 2 HOT LEG TEllP gQQ. /9 DEGF NTR-120 3 LOOP 3 HOT LEG TEitP DEar NTR-130 0 LOOP 0 HOT LEG TEl1P gD //( DEGF NTR-100 5 LOOP 1 COLD LEG TENP g l (,$ Q, DEGF NTR-210 6 LOOP 2 COLD LEG TBP g /I . $ ( DEGF NTR-220 7 LOOP 3 COLS LEG TENP EP/./1 mar NTR-230 8 LOOP 4 COLD LEG TEtlP gQ/. QQ. DEGF NTR-240 9 RCP1 CURRENT g g P. gP Acr RCP1Atf 10 RCP2 CURRENT q Ig ANP RCP2AN

~~

li PCP3 CURPENT

~(g ~ AMP RCP3Ah 12 RCPT CUPRENT RCPOH 693.8 I CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

D C COOK 20 SEP 89 LOG GROm UNIT g LOG GROUP 58 = EP-HSSS S-G POINT DE5CR IPTION VALUE UNITS TAG NO 1 STN GEH OUTLET PRES LP l g QQ Q5 PSIG NPP-210 2 STN GEH OUTLET PRES LP 2 $ "QQ.Q P5IG NPP-220 3 STN GEH OUTLET PRES LP 3 ggQ.5Q PSIG NPP-230 4 STN GEH OUTLET PRES LP 4 QQO.5Q PSIG NPP-240 O~

~c) 5 STN GEH 1 HARROM LEVEL /gg5 PC BLP-110 6 STN GEH 2 HARROM LEVEL c/ggQ PC BLP-120

.7 STN GEH 3 HARROM LEVEL gg.@ PC BLP-130 O~cn

'4 8 STN GEH HARROM LEVEL Pg gQ PC BLP-140 QZ

~)w

~wV) 9 STN GEH 1 MI DE LEVEL 5q gl/ ec BLI-110

~X 10 STN GEH 2 MIDE LEVEL PC BLI-120 ~l-ll STN GEH 3 RIDE LEVEL ~.I3 PC BLI-130 Cl 12 STN GEH 4 MIDE LEVEL PC BLI-140 g~ gg CREATE LOG GROUP IN5TRUCTION5 PRINT LOG I.POSITION CUR5OR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS 5ELECT

1%

D C COOK UNIT Q 20 SEP 89 F:oa'cm LOC BLOOP 5S = EP-SSSS-FLON POINT DESCRIPTION VALUE UNITS TAG NO l STEAN FLON LOOP 1 gg7P.QQ KeH ttFC-110 2 STEAN FLON LOOP 2 9799.10 KeH NFC-120 3 STEAN FLON LOOP 3 3V4 <0 KBH

~ NFC-130 4 STEAN FLQM LOOP 4 374'7 l 8'SH NFC-140 5 FEEDNATER FLOM LOOP 1 QQ Qk.g7 KBH FFC-210 6 FEEDNATER FLOM LOOP 2 Q'7QQ.Q+KBH FFC-220 7 FEEDNATER FLOM LOOP 3 34 89.gg KeH FFC-230 8 FEEDNATER FLON LOOP 4 377$ .09 KSH FFC-240 9 AUX FEEDMATER FLOM LOOP1 D <gKSH FFI-210 10 AUX FEEDNATER FLON LODP2 g.~ KBH FFI-220 11 AUX FEEDMATER FLON LOOP3 080 KSH FFI-230 12 flUX FEEDMATER FLON LOOP4 gag KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINZ LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

0 C COOK LOG CROUP UNIT 20 SEP 89 ~P Q~

LOG GROUP. 60 = EP-HSSS-PATHMAY POINT DESCRIPTION VALUE UNITS TAG NO.

1 STEAN GEH STOP VALVE HOl pi< <LS NR4-210 2 STEAN GEH STOP VALVE *H02 gT GL5 NRV-220 3 STEAN GEH STOP VALVE HO3 gf <LE tlRV-230 4 STEAN GEH STOP VALVE H04 ply C.LS NRV-240 O~

5 CONDENSATE STORAGE TK LV 8'J.7$ PC CLR-110 6 COND STN DUNP ACTUATION A c.w LA1010 7 NS ATNOSPHERIC RELIEF ACTUATIOH Hv Ac% LA1011

8 Qo cn Q

.QZ 9 ~) LLJ 10 ~iu ll ~l-12 C3 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

~ QJ D C COOK 20 sEP 89 OP:1S:OO LOG CROUP UNiT g LOG t POOP 54 = EP-ESF-1 POINT DE5CRIPTION VALUE UNITS TAG NO.

1 RUST LEVEL Pg qQ PC ILS-S50 2 SI FHP N TO LP 1,4 COLD LEG y.00 GPN IFI-2CO 3 SI PMP S TO Lf',3 COLD LEG Q.Q Q GPH IFI-266 0 BIT COLD LEG INJECT FLOQ LP1 0.0 Q GPN IFI-51 0

J SIT COLD LEG INJECT FLOLl LP2 gQ g/gal GPV IFI-52 I-y 6 BIT CDLD LEG INJECT FLOH LP3 DQ g GPH IF I-53 gl-7 BIT COLD LEC INJECT FLOM LH Q.OO GPN,. IF I-M ~

Qo IZ 8 ACCUMULATOR TK1 PRESSURE g I7gg PSIG IFA-1N ~cn IPA-120 3 ACCUHULATOR TK2 PRESSURE 10 ACCUHULATOR TK3 PRESSURE Q /

g I 7.+Q P5IG PSIG IPA-130 ~ LLJ LLj 11 ACCUMULATOR TKR PRESSURE f 1 7.c2Ca PSIG IPA-100 ~l-12 Cl CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITlON CURSOR SELECT ON DESIRED FUNCTION 2-DEPRESS

D C COOK 20 sEP 89 0 K: l 5: QC3, LOI GROUP UNIT g LOri GROlJP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTEh E FLOH gag GPM IF1-310 2 RHR SYSTEH k FLOk D,Qg GPM IFI-320 3 CHTNT SPRAY FROh RHR SYSTEtl E ~ GPV IFI-330 0 CNThT SPRAY FROh RHR SYSTEh k Q.PQ Geo IFI-331 5 CHTHT TEhP PRZR COhP /Q 7.$ Q DEGF'gO ETR-126 6 H2 CONC TR A HI PC H2-AH 7 CNTNT PRESSURE AVG - D. J PSIG UP1001 8 CNTHT SUhP kIDE LEVEL 9ggrT NLI-320 9 CHTHT: SUHP kIDE LEVEL HLI-321 10 P2R RELIEF TANK PRESS Q gQ P51G HPA-351 11 PZR RELIEF TAHK TEhP g gg ggDEGF HTR-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2 DEPRE55 SELECT ON DESIRED FUNCTION

LOG GROUP D C COOV UNIT g 20 SEP 89 or: is:oo LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNITS TAG NO.

1 SOURCE RNG DETECTOR 1 LoGcP NE-31 2 INTERN RNG DET 1 3 RCS XR PRESSURE AYG

~5 ~ f LQGNcANP PslG NE-35 UP1004 4 PRZR LEYEL AYG 59.g PC UL1003 5 PZR LIQUID TENP g50.7$ DEGr NTA-251 6 PZR YAPOR TEtlP DEGAS NTA-252 7 PRZR HTR GP CPH STATUS LS9040

& CHARGING FLOM gg g5 GPN OFI-200 9 LET DDXN FLOX 7f 5g GPN OFI-301 10 SUBCOOLING pcs g DEGF UT1004 11 12 CREATE LOG GROUP INSTRUCTIONS PR. NT LOG i.POSITION CURSOR ON DESIRED FUNCTION DICITAL TREND 2 DEPRESS SELECT

D C COOK LOG GROUP UNIT Q 20 sHP 89 08': 'i 5:OO LOG CROUP 57 = EP-RCS-2 POINT DESCRIPTION VALUE UNIT5 TAG NO 1 LOOP 1 HOT LEG TEhP QDQ. /J DEGF HTR-l 10 2 LOOP 2 HOT LEG TEhP ( Q Q. // DEGF HTR-120 3 LOOP 3 HOT LEG TEhP $ Q Q. / $ 'EGF HTR-130 4 LOOP 4 HOT LEG TEhP $ (fQ // DEGF HTR-140 5 LOOP 1 COLD LEG TEhP 5 g(. g( DEGF HTR-210

)~I 6 LOOP 2 COLD LEG TEhP gg/ g / OEGF HTR-220 .<o iOo 7 LOOP 3 COLD LEG TEhp Q Q/. // DEGF HTR-230 :Q cn 8 LOOP 4 COLD LEG TEhP DEGF HTR-240 UJ

~us 9 RCP1 CURREHT pe 7g ANP RCPlAh Z

10 RCP2 CURREHT 7 /'3 gQ ANP RCP2Ah li PCP3 CURPEHT 7/ 3,QQ AMP RCP3flh C3 12 RCP4 CURREHT gyp g I AMP PCP4flH CREATE LOG GROUP INSTRUCT ION5 PRINT LOG 1. POSITION CURSOR ON DE5IREP FUNCTION DIGITAL TREND 2.DEPRESS SELECT

0 C COOK 20 sEP 89 ~g (5 '.QO UNIT g LOG GROUP.58 = EP-HSSS S-G POINT DESCRIPTION gpss VALUE UNITS TAG NO.

1 STh GEH OUTLET PRES LP 1 g5'SIG hPP-210 2 STh GEH OUTLET PRES LP 2 PSIG hPP-220 3 STh GEH OUTLET PRES LP 3.

4 STh GEH OUTLET PRES LP 4 PSIG gpss 3Q PSIG hPP-230 hPP-240 0

5 STh GEH 1 HARROM LEVEL qlf 93 PC BLP-110 6 STh GEH 2 HARROM LEVEL qg. c/g PC BLP-120

? STh GEH 3 HARROM LEVEL g3.Q / PC BLP-130 Oo cn 8 STh GEH 4 HARROM LEVEL qq gq PC BLP-140 QZ

~) LLJ

~UJV) 9 STh GEH 1 NI DE LEVEL PC BLI-110

~

10 STh GEH 2 MIDE LEVEL g~ gg PC BLI-120 ~l-ll STh GEH 3 MIDE LEVEL ~Qg PC BLI-130 Cl 12 STh GEH 4 NIDE LEVEL gag j PC BLI-140 CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2 DEPRESS SELECT

0 C COOK 20 SEP 89 08:15'OO LOt GROUP UNIT Q LOG GROUP 59 = EP-NSSSMON POINT OE5CRIPTI ON VALUE UNIT5 TAG NO 1 STEAll FLOk LOOP 1 KBH IlFC-110 Sing Q P,(

2 STERN FLOM LOOP 2 3'gag QS'KBH NFC-120 3 STEAll FLOM LOOP 3 KBH NFC-130 4 STEAN FLOk LOOP 4 g7Qg. 7 Q KBH ilFC-140 5 FEBNATER FLON LOOP 1 ~psfg. Q7 KBH FFC-210

/0

~l-0 6 FEEDMRTER FLOk LOOP 2

~g t.QQ KBH FFC-220 '<o 7 FEBMATER FLON LOOP 3 3 tf.7+ KBH FFC-230 :iQ Q J CD 8 FEEDMATER FLOM LOOP 4 '8'7 1Q KBH FFC-240

~

.~ )

LLj 9 AUX FEEDNATER FLON LOOP1 g~Q KBH FFI-210 10 AUX FEEDMATER FLON LOOP2 g .g~ KBH FFI-220

~ CD 11 AUX FEEDMRTER FLOM LOOP3

~.g~ KBH FFI-230 12 AUX FEEDMATER FLOM LOOP4 KBH FFI-240

()~

CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. OEPRE55 5ELECT ON DESIRED FUNCTION

~l D C COOK LOG GRIlp UNIT g 20 sEP 89 Qg: 5: QQ J

LOG GROUP 60 = EP-HSSS-PATHQAY POINT DE5CRIPTION VALUE UNITS TAG NO.

1 STEAN GEH STOP VALVE H01 T C.LS NR4-210 td 2 STEAN GEH STOP VALVE H02 eT ~S NRV-220 3 STERN GEH STOP VALVE HO3 IVY ~> NRV-230 4 STEAN GEH STOP VALVE H04 PJ T'L-5 NRV-240 O~

5 CONDEHSATE STORAGE TK LV CLR-110 8l ~C PC 6 COND STtl DUNP ACTUATIOH LA1010 gl-Z 7 NS ATNOSPHERIC RELIEF ACTUATION LA1011 <o 8 Qocn Q

S I~)LLJ 10 ~i@

ll ~I-12 CREATE LOG GROUP I N5TRUC T I ONS PRINT LOG I . POSITION CURSOR ON OE51REO FUNCTION DIGITAL TREND 2.DEPRESS SELECT

OC Com 20 SEP 89 o8.3o:oo LOG CP,O(JP UNIT g LOG CROUP 54 = EP-ESF-1 POlHT DE5CRIPT ION VALUE UN I TS TAG NO.

1 RUST LEVEL

'2 975 Pc ILS-950 SI. F'HP N TO LP l,h COLD LEG QOQ GPH IFI-2CO 3 SI PIP S TO LP 2,3 COLD LEG O~ GPH IFI-266 0 SIT COLD LEG INJECT FLOM LPl yog GPM IFI-51 5 BIT COLD LEG INJECT FLOM LP2 g g~ GPH IFI-52 6 BIT COLD LEG INJECT FLOH LP3 ~()~ GPN IFI-53 7 BIT COLD LEG INJECT FLOH LN ~.gQ GPN IFI-54 8 ACCUMULATOR TKl PRESSURE g(~ g/ PSIG IPA-110 9 ACCUHULATOR TK2 PRESSURE PSIG IPA-120 10 ACCUHULATOR TK3 PRESSURE g (g gg PS I G IPA-130 11 ACCUHULATOR TKl PRESSURE PSIG IPA-140 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1. POSITION CURSOR OH DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

D C COOK 20 sEP 89 LOG GROOP UNiT Q Og pQ QQ

~ ~

LOG GROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTEtl E FLOH GPN IFI-310 2 RHR SYSTEH k FLOk GPN IFI-320 3 CHThT SPRAY FROh RHR SYSTEtl E y p~ GPN IFI-330 0 CHThT SPRAY FROtl RHR SYSTEtl k IFI-331 .O~

~c. ~

5 CNTHT TEhP PRZR COhP jgg P7 OEGF ETR-126 jgo 6 H2 CONC TR A HI H2-AH jQo g ggPC 7 CNTttT PRESSURE AUG PSI G UP1001 8 CNTHT SUtlP kIDE LEVEL NLI-320 ~ ~ CA I

9 CHTtlT SUHP kIDE LEVEL

~g. 25 HLI-321 (~ (IUl

((g J

10 PZR RELIEF TANK PRESS I/ g3 PSIG HPA-351 J.,(

11 PZR REI IEF TANK TEtlP ] ]g,gg DEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG I.POSITION CURSOR ON DESIRED. FUNCTION DIGITAL TREND 2 DEPRES5 SELECT

D C COOK LOG GROUP UNIT g 20 sEP 89 gg:3() g~

~

LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNITS TAG NO.

1 SOURCE RHG DETECTOR 1 LOGCPS HE-31 2 IHTERN RHG SET 1 LOGNCANP HE-35 3 RCS MR PRESSURE AVG 0 PRZR LEVEL AVG POSQ.

5O 2.

I PSIG PC UP100'1 UL1003 0

t o c{.o 5 PZR LIQUID TEMP $ /0,+QDEGF HTA-251 +I-6 PZR VAPOR TEMP f 0.$ Q DEGF HTA-252 QZ 7 PRZR HTR GP CPH STATUS LS9040 Oocn 8 CHARGIHG FLOM qq. f-.7GPN OFI-200 S LET BOMH FLOH 10 SUSCOOLIHG 7g g 'f GPN OFI-301

~ l-CO ll DEGF UT1004

~

e3 12 CREATE LOG GROUP 'NSTRUCT IONS PR. NT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIrITAL TREND 2 DEPRESS SELECT

I'M I

9 C COON 20 SEP 89 LOG GROUP UNIT LOG'-GROUP 57 = EP-PCS-2 POINT DESCRIPTION VALUE. UNITS TAG NO.

1 LOOP 1 HOT LEG TBP ggq gg HTR-110 DEGF'gg.

2 LOOP 2 HOT. LEG TEMP g5 DEGF HTR-120 3 LOOP 3 HOT LEG TEllP Q j Q,Q$ DEGF HTR-130 4 LOOP 4 HOT LEG TEtlP g'f t. Q5 DEGF HTR-140 5 LOOP 1 COLD LEG TENP DEGF HTR-210 6 LOOP 2 COLS LEG TEMP ~88.6$ DEGF HTR-220 7 LOOP 3 COLD LEG TENP ~++, QQ DEGF HTR-230

.8 LOOP 4 COLD LEG TEMP gp g,Q )

DEGF HTR-240 9 RCP1 CURREKT gqy g Q ANP RCP1Arl 10 RCP2 CURREKT f 9Q, d5 AMP RCP2AN 11 RCP3 CURPEHT 7 ig ll ANP RCP3AN 12 RCP4 CUPREKT ggqg 7 ANP RCP4AH CREATE LOG GROUP INSTRUCTIONS PRINT LOG f.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

D C COOK 20 SEP 89 LOG GROUP UNIT g LOG CROUP 5$ = EP-NSSS S-G POINT DE5CR IPTI ON VALUE UNITS TAG NO.

S 1 STl1 GEH OUTLET PRES LP 1 391,07 PsIG l1PP-210 2 STll GEH OUTLET PRES LP 2 791 >l'o PSIG t1PP-220 3 STl1 GEH OUTLET PRES LP 3 g9 (. 70 PsIG l1PP-230 4 STl1 GEH OUTLET PRES LP 4 7') l.83 PsIG l1PP-240 O

~c) 5 STl1 GEH 1 HARROM LEVEL I3.94 Pc BLP-110 6 STl1 GEH 2 HARROM LEVEL 98.0/ fc BLP-120 7 STl1 GEH 3 HARROM LEVEL 99 3l Pc BLP-130 O~cn g9.V / BLP-140

& STl1 GEH 4 HARROM LBEL Pc

~) LJJ 9 STl1 GEH MIDE LEVEL $ 0, l Pc BLI-110 ~w 1 J Mw 10 STl1 GEH 2 MIDE LBEL CoO. ~ BLI-120 ~l-Z 11 STl1 GEH 3 MIDE LBEL ri BLI-130 C3 12 STl1 GEH 4 MIDE LEVEL I PC BLI-. 140 C REATE LOG GROUP INSTRUCTION5 PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

0 C COOK 20 sEP 89 oS 30 LOt GROUP UNIT Q LOG GROUP 59 = EP-NSSSMOM POINT DESCRIPTION VALUE UNITS TAG KO-1 STEAN FLOM LOOP 1 g533.)l KSH NFC-110 2 STEAN FLOM LOOP 2 l~ KBH NFC-120 STEAN FLOk LOOP 3 Qg5Q. l 0 KBH NFC-130 4 STEAN FLOM LOOP 4 ~H1 9 32 KBH NFC-1'e 5 FEEDMATER FLON LOOP 1 3g gQ.'fg KBH FFC-210 6 FEEDMATER FLON LOOP 2 PC9g. J2 KSH FFC-220 7 FEEDMATER FLOM LOOP 3 GS IS'>'t KSH FFC-230 8 FEEDMATER FLOk LOOP 4 Il i 1 KBH FFC-240 9 AUX FEEDMATER FLON LOOP1 O.O6 KSH FFI-210 10 AUX FEEDMATER FLOM LOOP2 g.OQ KBH FFI-220 ll AUX FEEDMATER FLON LOOP3 KBH FFI-230 12 'AUX FEEDNATER FLOM LOOP4 FFI-240 g QQ KBH CREATE LOG GROUP INSTRUCTIONS I RINT LOG DIGITAL TREND

t. POSITION SELECT CURSOR ON DESIRED FUNCTION 2.DEPRESS

6 C COOK LOG CROUP UNIT g 20 sEP 89 OZ. 30, QO LOG GROUP 60 = EP-HSSS-PATHMAY POINT DESCRIPTION VALUE UNI TS TAG NO.

1 STERN GEH STOP VALVE H01 gT'~ NR4-210 2 STERN GEH STOP VALVE HO2 plr CLS NRV-220 3 STERN GEH STOP VALVE H03 NT CLS tlRV-230 4 STEAN GEH STOP VALVE H04 NW Ct.h tlRY-240 O<

o 5 CONDEHSATE STORAGE TK LV f0.7Q PC CLR-110

~8 gl-6 COND STN DUNP ACTUATIOH Ace LA1010 7 tlS ATtlOSPHERIC RELIEF ACTUATION AcC LA1011 8 Qocn LI S j~)

10 ~ UJ I Lj 11 12

~l-X Cl CREATE LOG GROUP INSTRUCTIONS PRINT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TRENO 2.DEPRESS SELECT

l

'I I

0 C COOV, LOG GROJP UNIT g 20 SEP 89 Og: 9 5:OO LOG GROUP 54 = EP-ESF-1 POINT DESCRIPTION VALUE < UN I TS TAG NO.

1 RUST LE'VEL 'jg.'/g PC ILS-S50 2 SI PHP N TO Lf',4 COLD LEG Q.QO GPH IFI-260 3 SI PIP S TO LP 2,3 COLD LEG 0.00 GPH IFI-266 4 I'IT COLD LEG INJECT FLOQ LP1 l ll- fg GPH IFI-51 5 BIT COLD LEC INJECT FLOW LP2 GPH IFI-52 6 BIT CDLD LEG INJECT FLOW LP3 GPH IFI-53 7 IIIT COLD LEG INJECT FLOM LH GPH IFI-54 8 AKUNIjLATOR TK1 PRESSURE PSIG IPA-110 9 ACCUHULATOR TK2 PRESSURE PSIG IPA-120 10 ACCUHULATOR TQ PRESSURE ( p gq P5IG IPA-130 11 ACCWULATOR TK4 PRESSURE p7 P5IG IPA-140 12 CREATE LOG GROUP IN5TRUCTIONS PRINT LOG DIGITAL TRENO

i. POSITION CUR50R SELECT ON DESIREO FUNCTION 2.DEPRESS

4 I.

D C COOK LOG GROUP UN1T 20 SEP 89 Qg eg5e LOG GROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UN I TS TAG NO.

1 RHR SYSTEh E FLOH ~.OQ GPH IF1-310 2 RHR SYSTEH k FLOk ~ QQ GPH IFI-320 3 CNThT SPRAY FROh RHR SYSTEh E ~. ()O GPH IFI-330 0 CHThT SPRAY FROh RHR SYSTEh k Q,QQ GPH IFI-331 5 CNTtlT TEhP PRZR COhP A+5. g Q OEGF'g~

ETR-126 6 H2 CONC TR A HI FC H2-AH 7 CNTNT PRESSURE AVG PSIG UP1001 8 CNTHT SUhP kIDE LEVEL fT NLI-320 9 CNTHT SUHP kIBE LFVEL ~cycy g+ f T HLI-321 10 PZR RELIEF .TANK PRESS cj,g Q PSIG HPA-351 11 PZP, RELIEF TANK TEhP J /+.$

' DEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG i.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

D C COOk UNIT g 20 SEP 89 Qf: RS:QQ LOG GROUP 56 = EP-RCS-1 POINT DESCRLPTLOK VALUE UNITS TAG NO.

1 SOURCE RNG DETECTOR 1 l- QQ E+ 3 LOGCPS NE-31 2 INTERN RNG DET 1 1', lg 5 5 LOGNCANP NE-35 3 RCS MR PRESSURE AVG < 4 'R P. 0 PSIG UP1004 4 PRZR LEVEL AVG PC UL1003 5 PZR LIQUID TENP 5.8 l DEGF NTA-251 6 PZR VAPOR TBP gal. g 1 nEar NTA-.252

? PRZR HTR GP CPH STATUS LS9040 S CHARGING FLOM O aO GPN OF I-200 9 LET DDMN FLOH OFI-301 0 g~ GPN 10 SUBCODLING DEGF 071004 0 90 11 12 CREATE LOG GROUP INSTRUCTIONS PR. NT LOG DI CITAL TREND L.POSLTLON CURSOR ON DESIRED f UNCTION

2. DEPRESS SELECT

V

(

Q

D C COOK UNIT Q 20 sEP 89 oS'. fS '.QQ LOG GROUP 57 = EP-PCS-2 POINT DE5CRIPTION VALUE UNIT5 TAG NO.

1 LOOF 1 HOT LEG TBP gag p Q DEGF HTR-110 2 LOOP 2 HOT LEG TEtIF g QQ gQ DEGF HTR-120 3 LOOP 3 HOT LEG TEttP ~Q Q. BC7 DEGF HTR-130 0 LOOP 4 HOT LEG TEMP +92- FQ DEGF HTR-140 5 LOOP 1 COLD LEG TEtlP ~g(), 3( DEGF HTR-210 6 LOOP 2 COLD LEG TENP DEGF. HTR-220 7 LOOP 3 COLD LEG TENP QQ ].g' DEGF HTR-230 8 LOOP 4 COLD LEG TEMP DEGF HTR-240 9 RCPl CURREHT ANP RCPlAtl 10 RCP2 CURREHT ANP RCP2AN 11 PCP3 CURPEHT ANP RCP3AH 12 RCPT CURREHT ANP RCPAAH CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED .FUNCTION

I 0 C COOK 20 SEP 89 Qg ~

qg UNIT g LOG GROUP 58 = EP-NSSS S-G POINT OESCR IPT ION VALUE UNI TS TAG NO.

1 STtl GEN OUTLET PRES LP 1 9 ] 3 .'g'P P5IG tlPP-210 2 STtl GEN OUTLET PRES LP 2 gag. GB PSIG tlPP-220 3 STtl GEN OUTLET PRES LP 3 QOQ'5 PS IG tlPP-230 tiPP-240 O

f 0 STtl GEN OUTLET PRES LP 0 PSIG o

go gl-5 STtl GEH 1 NARROM LEVEL GOO PC BLP-110 6 STtl GEH 2 HARROM LEVEL g.QQ PC BLP-120 7 STtl GEH 3 HARROM LEVEL O,Og PC BLP-130 Oocn

g. gQ BLP-140 8 STtl GEN 4 HARROM LEVEL PC

~) UJ S STtl GEN 1 MIDE LEVEL gg.~ PC BLI-110 MUJ 10 STtl GEH 2 MIDE LEVEL ~g if'C BLI-120 ~I-Z 11 STtl GEH 3 MIDE LEVEL Y4"cv " BLI-130 CE 12 STtl GEH 4 MISE LEVEL BLI-140 yb gg,PC CREATE LOG GROUP INSTRUCTIONS PRINT LOG I.POSITION CURSOR ON OESIREO FUNCTION OIGITAL TREND 2.DEPRESS 5ELECT

D C COOK UNIT Q 20 sEP.89 Qg'. f 5: QQ LOG GROUP 59 = EP-NSSSMOk POINT DESCRIPTION VALUE UNITS TAG NO-1 STEAN FLOM LOOP 1 7 g,35 KBH NFC-110 2 STEAN FLOk LOOP 2 9 8 .2V KBH NFC-120 3 STEAN FLOM LOOP 3 3 S.~~ KBH NFC-130 0 STEAN FLOk LOOP 0 73.9 I KBH NFC-140 5 FEEDMATER FLOM LOOP 1 ~. 0

$ KBH FFC-210 6 FEEDMATER FLOM LOOP 2 Q'95 KBH FFC-220 7 FEEDMATER FLOM LOOP 3 4, K7 KBH FFC-230 8 FEEDMATER FLOM LOOP 4 KBH FFC-240 9 AUX FEEDMATER FLOM LODP1 QQ. I Q KBH FFI-210 10 AUX FEEDMATER FLOM LOOP2 KBH . FFI-220 11 AUX FEEDMATER FLOM LOOP3 gP. 3 ) KBH FFI-230 12 AUX FEEDMATER FLOM LOOPA KBH FFI-2%

CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

~ l LOG GROUP 0 C COOK UNIT g 20 sEP 89 Q g! 9 5 'Q LOG GROUP 60 = EP-HSSS-PATHQAY POINT .DESCRIPTION VALUE UNITS TAG NO.

1 STERN GEH STOP VALVE H01 N< CLS NR4-210 2 STEAN GEH STOP VALVE HO2 ~~ c,cs NV-.220 3 STEAtl GEH STOP VALVE H03 IlRV-230 4 STEW GEH STOP VALVE HO4 gT C L.S NRV-240 0<

o 5 CONDENSATE STORAGE TK LV gq.al'C CLR-110

~8 6 COND STtl DUNP ACTUATIOH A~T LA1010 7 llS ATMOSPHERIC RELIEF ACTUATION hlT Ac7 LA1011 <o 8 O~cn Q

.QZ 9 g~)

10 + LLJ Id 11

~l 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

ill 0 A~

t el

D C COOK 20 SEP 89 Q9 LOC GROtJP UHIT g LOG GROUP 54 = EP-ESF-1 POINT DESCRIPTION VALUE UNITS TAG HO.

1 RHST LEVEL 'PQ ) 7PC ILS-S50 2 SI F'HP N TO Lf' 0 COLD LEG b.OO GPN IFI-2CO 3 SI PMP S TO Lf', 3 COLD LEG o.00 GPN IFI-266 0 SIT COLD LEG INJECT FLOM LP1 7g. 7 f GPH IFI-51 5 BIT COLD LEG INJECT FLOM LF'2 GPN IFI-52 6 BIT CDLD LEG INJECT FLOH LP3 q g.q Q GPN IF 1-53 V BIT COLD LEG INJECT FLOu LX 7g. Q f GPN IF I-5l 8 ACCUMULATOR TK1 PRESSURE g~g, Q g PSIG IPA-110 9 ACCUHULATOR TK2 PRESSURE P516 IPA-120 10 ACCUSLATOR TK3 PRESSURE PSIG IPA-130 11 ACCUHULATOR TKl PRESSURE PSIG IPA-100 12 CREATE LOG GROUP INSTRUCT IOH5 PRINT LOG DIGITAL TRENO

i. POSITION CURSOR SELECT ON DESIRED FUNCTION 2.DEPRESS

LOG CROUP D C COOK UNIT g 20 sEP 89 ~cj 'O Og LOB NDUP 55 = EP-ESF-2 POINT .DESCRIPTION VALVE VNIT5 TAG NO-l RHR SYSTEtt E FLOH IFl-310 2 RHR SYSTEH N FLON ~,QQ GPN IFI-320 3 CHTttT SPRAY FROti RHR SYSTEtt E ~.QQ GPN IFI-330 0 CHTNT SPRAY FROti RHR SYSTEtt k O. Qa IFI-331 0, 5 CNTHT TENP PR2R COIIP iq p.Qg DEGF ETR-126 jgo 6 H2 CONC TR A HI O.OQ << H2-AH j5o 7 CNTHT PRESSURE AVE P5IG UP1001 8 CNTHT SUNUP MIDE LEVEL +DO. 4Cc. FT NLI-320 ~Wz CA I

4I 9 CHTHT SUHP MIDE LEVEL l OO ~ 4( FT NLI-321 Ul CIP 10 P2R RELIEF TANK PRESS y.g3 PSIG HPA-351 J.,i ll P2R RELIEF TANK TEMP f /Q 9'0- DEGF

~ HTA-351 12 CREATE LOG GROUP INSTRUCTION5 PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRE55 SELECT ON DESIRED FUNCTION

0 C COOK LOG GROUP UNIT g 20 SEP 89 09:oo'oo LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNITS TAG NO.

1 SOURCE RNG DETECTOR 1 f E+3- LOGCP NE-31 2 INTERN RNG DET 1 /. 3 l E Q LOGMCANP NE-35 3 RCS RR PRESSURE AVG PSIG UP 1001 0 PR2R LEVEL AVG PC UL1003 5 P2R LIQUID TEMP g QQ ~ 4/OEGF NTA-251 6 P2R VAPOR TEltP Qg 0 ~ I l DEGF NTA-252

.7 PRZR HTR GP CPH STATUS LS9000 S CHARGING FLOM 0 0() GPN OFI-200 9 LET DOllN FLOH GPN OFI-301 10 SUBCOOLING OEGF UT1004 11 12 CREATE LOG GROUP INSTRUCTIONS PR. NT LOG DI CITAL TREND

i. POSITION CURSOR 2 DEPRESS SELECT ON DESIRED FUNCTION

~'

~

D C COOK LOG CROUP UNIT 20 sEP 89 Q9: QQ; g~

LOG CROUP 57 = EP-PCS-2 POINT DESCRIPTION VALUE UNIT5 TAG NO 1 LOOP 1 HOT LEG TEhP .

SS S. l I DEGF HTR-110 2 LOOP 2 HOT LEG TEhp 5 SS. 4S DEGF HTR-120 3 LOOP 3 HOT LEG TEhP 559.8 I OEGF NTR-130 4 LOOP 4 HOT LEG TEhP 55 l ~ P~ HTR-140 DEGF'o?

5 LOOP 1 COLD LEG TEtlP 7 7D HTR-210 DEGFQS.

6 LOOP 2 COLD LEG TENP IO DEGF HTR-220 7 LOOP 3 COLD LEG TEtlP 5Qg. 7 oL DEGF HTR-230 8 LOOP 4 COLD LEG TEhp 5'~g Q4 DEGF HTR-240 9 RCP1 CURRENT a. gQ ANP RCPlAh 10 RCP2 CURREHT y. gP AVP RCP2Ah 11 PCP3 CURRENT b. 00 avr RCP3Ah 12 RCP4 CURRENT 0 DQ AMP RCP4AN CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND i P05ITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

D C COOK LOG GROI UNIT g 20 sEP 89 ~9 Q~l gg e

LOG GROUP 58 = EP-HSSS S-G POIHT DESCRIPTION VALUE UNITS TAG KO.

1 STN GEH OUTLET PRES LP l QOQ. 7 Q. PSIG NPP-210 2 STh GEH OUTLET PRES LP 2 Q OQ.OQ PSIG NPP-220 3 STN 4 STll GEH OUTLET PRES LP GEH OUTLET PRES LP 3

4 9&S.

'f04,.20 I I PSIG PSIG NPP-230 NPP-240 0

f o go gl-5 STtt GEH 1 HARRON LEVEL Q.t f PC BLP-110 6 STtt GEH 2 HARRON LEVEL & I.Q7 PC BLP-120 7 STh 5EH 3 HARRON LEVEL BO.d I PC BLP-130 Oocn 8 STtl GEH 4 HARRON LEVEL f47 Pc BLP-140

~)LJJ 9 STlf NIDE LEVEL So.Sr Pc BLI-110 ~bJ GEH 1 Du)

X 10 STll GEH 2 NIDE LEVEL $3.82 Pc BLI-120 ~l ll STN GEH 3 NIDE LEVEL sa.~i PC . BLI-130 12 STN GEH 4 NIDE LEVEL Gi. l5 PC BLI-140 CREATE LOG GROUP IN5TRUCTIONS PRINT LOG 1.P05ITION CURSOR OH DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

1 tN l3/

D C COOK UNXT Q 20 SEP 89 QQ: QQ '~

LOG GROUP 59 = EP-NSSS+LOM POINT DESCRIPTlON VALUE UNlTS TAG NO 1 STEAN FLOM L00P 1 KBH NFC-110 2 STEAN FLOM LOOP 2 KBH NFC-120 3 STEAN FLOM LOOP 3 d.O t KBH IlFC-130 4 STEAN FLOM LOOP 4 y.Q (

KBH NFC-1%

5 FEEDMATER FLOM LOOP 1 KBH FFC-210 6 FEEDMATER FLOK LOOP 2 KBH FFC-220 7 FEEDMATER FLOM LOOP 3 )0 KBH FFC-230 8 FEEDMATER FLOM LOOP 4 KBH FFC-2c$ 0 g 95 S AUX FEEDMATER FLOM LODP1 q KBH FFI-210 SQ . I 10 AUX FEEDNATER FLOM LOOP2 p~. g 3 KBH FFI-220 11 AUX FEEDMATER FLOM LOOP3 KBH FFI-230 12 AUX FEEDMATER FLOM LOOP% KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRlNT LOG I.POSITION CUR5OR OH DE5lRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

POINT 1

4 STEAN 8

9 10 LOG GROUP LOG GROUP

,DESCRIPTION STEAN GEH STOP VALVE HOl 2 STEAN 3 STEAN GEH STOP VALVE H02 GEH STOP VALVE HO3 GEH STOP VALVE 5 CONDEHSATE STORAGE TK LV 6 COND STN DUNP ACTUATION H04 7 NS ATNOSPHERIC RELIEF ACTUATIOH

'I D C CC}OK UNIT, g 60 = EP-HSSS-PATHMAY VAEUE e c-o8 E&"

c a,toss'6

~ woGFW cf os FD Acr 77.'7Q PC 20 SEP 89 UNITS,

'NR4-210 f

QQ

',NRV-220 NRV-240 CLR-110 LA1010 LA1011

~

gQ g ~

TAG NO.

NRV-230

~

~

gl-0 ~

Qocn Q

.QZ

~ ~) UJ

~laJ 11 12

~l-Cl

~ ~ y~

i l( .- ~EaiE'aaa GROUP INSTRUCTIONS PRINT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

1 LOG CROUP 0 C COOK UNIT g 20 sEP 89 09-: 15 'o LOC GROUP 54 = EP-ESF-1 POINT DE5CRIPT ION VALUE UNITS TAG HO.

1 RUST LEVEL gg. 7g PC ILS-S5G 2 SI F'NP N TO LP 1,4 COLD LEG >.QQ GPM IFI-2CO 3 SI PIP S TO LP 2,3 COLD LEG D. 0Q IFI-266 4 BIT COLD I.EG INJECT FLOM LP) 1 7RX GPN IFI-51 0

5 SIT COLD LEG INJECT FLOM LP2 77. QQ. GPH IFI-52 I-y 6 BIT COLD LK INJECT FLOH LP3 77 cled, GPH IFI-53 Pl-7 BIT COLD LEG INJECT FLOM LH 7 1.2K GPN IFI-54 8 ACCUMULATOR TK) PRESSURE +gal.Qg P51G IPA->>0 Qocn Q

9 ACCUHULATOR TK2.PRESSURE PS IG IPA-120 10 ACCUWLATOR TK3 PRESSURE 4,gC .S Y PSIG IPA-130

~w 11 ACCUHULATOR TK4 PRESSURE ~ma SS'SIG IPA-140 ~l-12 Cl CREATE LOG GROUP INSTRUCT10NS PRINT LOG DIGITAL TREND i.

2.

P051T10N CUR50R SELECT ON DESIREO FUNCTION OEPRE55

D C COOK su 2O Se O9 l g Q~

LOP CROllP UNIT g .

LOC t'ROUP'55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTEh E FLOH O OQ GPK IF 1-310 2 RHR SYSTEH M FLOM O.QO GPK IFI-320 3 CHThT SPRAY FROh RHR SYSTEtl E ~.QQ GPK IFI-330 0 CHThT SPRAY. FROtl RHR SYSTEtl M ~,QQ GPK .IFI-331 0 P

5 CKTHT TEhP PRZR COhP ISO. I i DEGF ETR-126 iso 6 H2 COHC TR A HI o.oo H2-AH jQc 7 CNTHT PRESSURE AK /8 PSI G UP1001 8 CNTHT SUtlP MIDE LEVEL lILI-320 9 CHThT SUHP MIDE LEVEL aOa,~~ ~T KLI-321 10 PZR RELIEF TAHK PRESS PSIG HPA-351 11 PiR RELIEF TANK TEhP //@. 8 g DEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

0 C COOK 20 SEP 89 i ~:Oo:od LOG CROUP UNIT g LOG CROUP 58 = EP-HSSS S-G POINT DESCRIPTION VALUE UNITS TAG NO.

1 STtl GEH OUTLET PRES LP 1 p~g graf PSIG tip p-210 2 STtl GEH OUTLET PRES LP 2 ~g,gg PSIG tlPP-220 3 STtl GEH OUTLET PRES LP 3 p~. 7g P5IG tlPP-230 4 STtl GEH OUTLET PRES LP 4 QQQ.QQ PSIG tlPP-240 5 STtl GEH 1 HARROM LEVEL Qg.g~ PC BLP-110 6 STtl GEH 2 HARROM LEVEL C

~

BLP-120

? STtl GEH 3 HARROM LEVEL L/5.'7 PC BLP-130 8 STtl GEH 4 HARROM LEVEL PC BLP-140 9 STtl GEH 1 MIDE LEVEL @g.Qg BLI-110 10 STtl GEH 2 MIDE LEVEL 87 PC BLI-120 11 STtl GEH 3 MIDE LEVEL 4o-57 " BLI-130 12 STtl GEH 4 MIDE LEVEL de ->7 " BLI-140 CREATE LOG GROUP IN5TRUCTIONS PRINT LOG I.POSITION CURSOR ON OESIREO FUNCTION DIGITAL TREND 2.DEPRESS 5ELECT

D C COOK LOG CROUP UNIT g 20 SEP 89 Oct: l5:GO LOG CROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNI T5 TAG- NO-1 SOURCE RHG DETECTOR 1 + 43E+ I LOGCPS HE-31 2 INTERN RNG DET 1 ~. D/ H-/( LOGNCAMP HE-35 3 RCS MR PRESSURE P5I G g g()L/. 5 AVG UP1004 4 PRZR LEVEL AVG egg ~ PC UL}003 5 PZR LIQUID TEMP ~S'f gg DEGF HTA-251 6 PZR VAPOR TENP DEGF HTA-252

? PRZR HTR CP CPH STATUS LS9040 8 CHARGING FLOW C),QQ GPtl OFI-200 9 LET QOWH FLOW ~.Q O GPN OFI-301 10 SUSCOOLIHG 4 S.46 DEGF UT1004.

11 12 CREATE LOG GROUP INSTRUCTIONS PR. NT LOG DI CITAL TREND

i. POSITION CURSOR

2. DEPRE55 SELEC T ON DESIRED FUNCTION

4 t

D C COOK LOG GROUP UNIT 20 SEP 89 Qg ~

ig ~

~~

LOG GROUP 57 = EP-PCS-2 POINT DESCRIPTION VALUE UNITS TAG NO.

1 LOOP 1 HOT LEG TNP DEGF HTR-110 2 LOOP 2 HOT LEG TEMP 5~~ ~ ~ I DEGF HTR-120 3 LOOP 3 HOT LEG TEtlP DEGF' HTR-130 4 LOOP 4 HOT LEG TEitP lG ~~

~

DEGF HTP,-140 5 LOOP 1 COLD LEG TENP 6%6 Q f DEGF

~ HTR-210 6 LOOP 2 COLD LEG TBP gP 6 ~ RE DEGF HTR-220 7 LOOP 3 COLD LEG TEliP. SB-> 73 DEGF HTR-230 8 LOOP 4 COLD LEG TEtlP ggd. 3g DEGF HTR-240 9 RCPi CURREHT ANP RCP1AN 10 RCP2 CURREHT ~.OQ AMP RCP2Att 11 PCP3 CURPEHT AHP RCP3AH 12 RCP4 CURRENT O.Ob A"P RCP4AM CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

0 C COOK 20 SEP 89 Ot:iS:00 LOG GROUP UNIT g LOG GROUP 58 = EP-HSSS 5-G POINT DE5CRIPTION VALUE UN I T5 TAG NO.

1 STtl GEH OUTLET PRES LP 1 PSIG tlPP-210 2 STtl GEH OUTLET PRES LP 2 8']5 (

~ l P51G tlPP-220 3 STtl GEH OUTLET PRES LP 3 p 2 i.'f5 P516 tlPP-230

'I STtl GEH OUTLET PRES LP 0 gag.-7 [ PSIG tlPP-240 5 STtl GEH 1 HARROM LBEL PC SLP-110 6 STtl GEH 2 HARROM LEVEL S,i' PC SLP-120 7 STtl GEN 3 HARROM LEVEL aa.~S PC SLP-130

& STtl GEH 4 HARRDM LEVEL PC SLP-1%

9 STtl GEH 1 MIDE LEVEL SS.9 SPC BLI-110 10 STtl GEH 2 MIDE LBEL S~l 0> PC BLI-120 ll STtl GEH 3 MIDE LBEL PC BLI-130 12 STtl GEH 4 MIDE LEVEL BLI-140 C REATE LOG GROUP INSTRUCTION5 PRINT LOG I . POSITION CUR5OR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS 5ELECT

0 C COOK LOG NOllP UNIT Q 20 SEP 89 o I ' 5'.Oo LOG GROVP 59 = EP-NSSSMON POINT DESCRIPTION VALUE UNITS 'AG NO 1 STEAN FLOM LOOP 1 KBH NFC-110 2 STEAN FLOM LOOP 2 KBH llFC-120 3 STEAN FLON LOOP 3 KBH tlFC-130 4 STEAN FLOM LOOP 4 KBH NFC-140 5 FEEDNATER FLON LOOP 1 KBH FFC-210 6 FEEDNATER FLOM LOOP 2 FFC-220

~ cq5 KBH 7 FEEDNATER FLOM LOOP 3 KBH FFC-230 8 FEBMATER FLOM LOOP 4 KBH FFC-240 9 AUX FEEDMATER FLON LOOP1 FFI-210 pZ KBH 10 AVX FEEDNATER FLOM LOOP2 KBH FFI-220 11 AUX FEEDMATER FLON LOOP3 KBH FFI-230 12 AUX FEEDMATER FLON LOOP4 37 "BH FFI-240

<a.

CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

Cll 0 C COOK ~ 20 SEP 89 Q9: I 5: QQ LOG GROUP UNIT g LOG t'ROllP'60 = EP-HSSS-PATHQAY POINT . DESCRIPTION VALUE UNITS TAG HO.

1 STEAN GEH STOP VALVE H01 CI dS GQ NR4-210 2 STEAN GEH STOP VALVE H02 C I dSED NRV-220 3 STEAN GEH STOP VALVE H03 c I. 0 5 EG NRV-230 0 STEAN GEH STOP VALVE H04 C LOS ED NRV-240 5 COHDEHSATE STORAGE TK LV 74,.75 PC CLR-110 6 COND STN DVNP ACTllATIOH . Ac.7 LA1010 7 IIS ATIIOSPAEAIC PELIEF AETUATIAII g7 C}c7 LA1011 8

9 10 11 12 CREATE LOG GROUP IH5TRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CUR5OR 2.DEPRESS 5ELECT ON DE5IRED FUNCTION

D C COOK LOG GROUP UNIT g 20 sEP 89 ~

~9 30 QQ LOG GPOUP 54 = EP-ESF-1 POINT DE5CRIPT ION VALUE UNITS TAG NO.

1 RUST LEVEL 32.SZ pc ILS-S50 2 SI PHP N TO LI',4 COLD LEG o.00 GPH IFI-2CG 3 SI PIP S TO LP 2,3 COLD LEG 0-OG GPH IFI-266 0 SIT COLD LEG INJECT FLOM LP1 77.2 l IFI-51 GPH O

IFI-52 I-y 5 BIT COLD LEG INJECT FLOM LP2 6 BIT COLD LEG INJECT FLOH LP3 7 l >SGPH 77 Q7 GPH IFI-53 II

~K

? IIIT COLD LEC INJECT FLOM LH 7 l.>7 GPH IF I-5l 8 ACCUMULATOR TKl PRESSURE d>C - SS P51G IPA-110 Oacn Q

3 ACCUHULATOR TK2 PRESSURE QZQ.SS'SIG IPA-120

~)w 10 ACCUHULATOP, TK3 PRESSURE gak. SS PSIG IPA-130

~w 11 ACCUHULATOR TKl PRESSURE 424.88 P5IG IPA-140 ~I-12 CE CREATE LOG GROUP I NSTRUC T I ONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR SELECT ON DESIRED FUNCTION Q.DEPRE55

D C COOK LOI CROUP UNIT g 20 sEP 89 Og ~

+p ~

QO LOG NOUP 55 = EP-ESF-2 POINT .DESCRIPTION IPALUE UNITS TAG NO.

1 RHR SYSTEtl E FLOH GPN IF1-310 2 RHR SYSTEH k FLOQ Q.QQ GPN IFI-320 3 CHTtlT SPRAY FROtl RHR SYSTEtl E C.QD GPN IFI-330

'1 CHTtlT SPRAY FROtl RHR SYSTEtl M Q.QQ GPH IFI-331 0 I P.

5 CttTHT TEtlP PRZR COtlP /5'I // OEGF ETR-126 jgo 6 H2 CONC TR A HI 0.00 PC H2-AH j5o Mr )

7 CNTNT PRESSURE AYG 0-0 P51G UP1001 ~Q 8 CNTHT SUtlP IIIDE LEVEL Qg.7g FT NLI-320 ~gZ CA

~ 41 Ul 9 CttTtlT SUHP IIIDE LEVEL t'oOC. I't FT NLI-321 C/J 10 PZR RELIEF TANK PRESS Q.g5 PSIG HPA-351 j.,i 11 PZR RELIEF TANK TEtlP ] t g .gQ DEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG X.POSITION CURSOR ON DE5IRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

D C COOV LOG NOUP UNIT g 20 SEP 89 Qg.'QQ'. ~~

LOG GROUP 56 = EP-RCS-1 POINT DE5CRIPTION VALUE UNITS TAG NO.

1 SOURCE RNG DETECTOR 1 S.~2 ~+ I LOGCPS NE-31 2 INTERN RNG DET 1 5'.g i g -/i LOGNCANP NE-35 3 FCS MR PRESSURE AVG 4 PRZR LEVEL AYG gg@g. /

JDS..5 PSIG PC UP1004 UL1003 0

t o C{.u 5 PZR LIQUID TEMP 55 I.(oO DEGF NTA-251 6 PZR VAPOR 7EtiP 513.95 DEGF NTA-252

? PRZR HTR GP CPH STATUS LS9040 O~cn Q

& CHARGING FLOM ~. 0Q OFI-200 GPH

~)

~LU 9 LET DOMN FLOH 10 SUSCOOLING O.g~ GPN tlFI-301

~ CA Z

11 DEGF UT1004 ~I-CE 12 CREATE LOG GROUP INSTRUCTIONS PR. NT LOG i.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2. DEPRES5 SELEC T

D C COOK LOG GROUP UNIT 20 sEP 89 g t: 30: OO LOG GPOUP 57 = EP-RCS-2 POINT DE5CRIPTION VALUE UNIT5 TAG NO.

1 LOOP 1 HOT LEG TEhP ~3Q Q7 DEGF 1tTR-110 2 LOOP 2 HOT LEG TEhP P2. H2 DEGF ttTR-120 3 LOOP 3 HOT LEG TEhP HTR-130 ,O~

DEGF'3'-

0 LOOP 0 HOT LEG TEtlP 07 DEGF NTR-140 I

g 5 LOOP 1 COLD LEG TEtlP Qgs. I NTR-210 6 LOOP 2 COLD LEG TEtlP f g'EGF'OS.

cX DEGF NTR-220 7 LOOP 3 COLD LEG TEtlP QQ7 7 I DEGF HTR-230 8 LOOP 1 COLD LEG TEhp ~d g. 'g ) DEGF HTR-240 9 RCP1 CURREHT ANP RCP1Ah 10 RCP2 CURRENT AMP RCP2Ah 11 PCP3 CURPEHT g gg ANP RCP3Ah 12 RCPT CUPRENT AMP RCPOM CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. PO5ITION CURSOR 2.DEPRESS 5ELECT ON DESIRED FUNCTION

D C COOK 20 SEP 89 LOG GROUP UNIT g LOG GROUP 58 = EP-HSSS S-G POINT DE5CR IPTION VALUE UNITS TAG NO.

1 STN GEH OUTLET PRES LP 1 QQQ.'P 9 PSIG NPP-210 2 STtl GEH OUTLET PRES LP 2 gog. to PSIG NPP-220 3 STN GEH OUTLET PRES LP 3 P l9.'f2. PSIG NPP-230 4 STN GEH OUTLET PRES LP 4 SOS.~~ PSIG NPP-240 O~

5 STtl GEH 1 HARROM LEVEL gg. 4g PC BLP-110 gt-6 STtl GEH 2 HARROM LEVEL BLP-120 7 STtl GEH 3 HARROM LEVEL QQ.O3 PC BLP-130 Oo cn 8 STtl GEH 4 HARROM LEVEL ~Z.63 PC BLP-140 QZ

~) w BLI-110 Qw 9 STN GEH 1 MIllE LEVEL ~q gg PC

~wX 10'STtl GEH 2 MIDE LEVEL SSS6 PC BLI-120 ~I-11 STN GEH 3 MIDE LEVEL SS.SZ PC BLI-130 CE 12 STN GEH 4 MIDE LEVEL BLI-140 C REATE LOG GROUP IN5TRUCT IONS PRINT LOG DIGITAL TREND

i. POSITION CUR5OR 2.DEPRESS 5ELECT ON DESIRED FUNCTION

'D COOK LOG NOllP C

UNIT Q 20 SEP 89 OR: 3o:oo LOG NOUP 59 = EP-NSSSMOM POINT DESCRIPTION VALUE UNITS TAG NO-STEAlf FLOM LOOP 0 O'BH NFC-110 1 1 C ~

2 STERN FLOM LOOP 2 KBH NFC-120 3 STEAN FLOM LOOP 3 KBH I1FC-130 4 STEAN FLOM LOOP 4 ~.Qg KBH llFC-140 5 FEEDMATER FLOM LOOP 1 KBH FFC-210 6 FEEDMATER FLON LOOP 2 KBH FFC-220 7 FEEDMATER FLOM LOOP 3 O. Q~ KBH FFC-230 8 FEEDNATER FLOM LOOP 4 KBH FFC-240 S AUX FEEDNATER FLON LOOP1

]g cg / KBH FFI-210 10 AUX FEEIlNATER FLOM LOOP2 FFI-220 gg.g / KBH 11 AUX FEEDMATER FLON LOOP3 FFI-230 jq qg KBH 12 AUX FEEDMATER FLOM LOOP4 KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1. POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2. DEPRESS SELECT

0'OG COOK GROUP D C UNIT Q, 20 SEP 89 o9'90'-OO LOG GROUP 60 = EP-HSSS-PATHMAY POINT . DE5CRIPT ION VALUE UNITS TAG NO.

. 1 STEAN GEH STOP VALVE N01 c Las EQ hR4-210 2 STEAN GEH STOP VALVE HO2 c s-aS E'9 hRV-220 3 STEAN GEH STOP VALVE HO3 C LOS<~ hRV-230 0 STERN GEH STOP VALVE HOO ~ LoS$ 3 hRV-240 5 CONDENSATE STORAGE TK LV 75,7( PC CLR-110 6 COND STh DUNP ACTUATION LA1010 7 hS AThOSPHERIC RELIEF ACTUATION LA1011 8

'9 10 11 12 CREATE LOG GROUP I N5TRUC T ION5 PRINT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND '2.DEPRESS SELECT

D C COOK 20 sEP 89 0'9: /5: OQ LOG GP,O~JP UNIT g LOG GROUP 54 = EP-ESF-1 PO1NT DESCR le r lON VALUE UN1 TS TAG NO 1 RUST LEVEL Pg.3'T PC ILS-950 2 SI PHP N TO LP 1,0 COLS LEG O.QQ GPH IFI-2CO 3 SI PIP S TO LP 2,3 COLS LEG Q DO GPM IFI-266 0 BIT COLD LEG INJECT FLOQ LP1 ?8.1 9 GPN IFI-51 0

5 BIT COLD LEG INJECT FLOW LP2 GPN IFI-52 I-y 6 BIT CDLD LEG INJECT FLOH LP3 7p.g 't GPH IFI-53 ~o

? BIT COLD LEC INJECT FLOM LH 7 g. l g GPN IFI-54 8 ACCUMULATOR TKl PRESSURE g'1 3Q'S I G IPA-110 Qocn

@ ~

Q Qz 9 ACCUHULATOR TK2 PRESSURE gg-y pg PSlG IPA-120 LLj 10 ACCUHULATOR TK3 PRESSURE PSIG IPA-130

+bi gg7.+P 11 RCCUtIULATOR TKl PRESSURE A+7.Q'f PS1G IPA-i~O ~l-12 C3 CREATE LOG GROUP 1NSTRUCT10NS PR1NT LOG i ~ POS1T1ON CURSOR ON DES1REO FUNCT1ON D1GlTAL TREND 2. DEPRESS SELECT

D C COOK LOP GROUP UNIT Q 20 SEP 89 09:H5. oo LOG GROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RKR SYSTB E FLOH ~ g~ GPH IF1-310 2 RHR SYSTEH M FLOM ~g~ GPH IFI-320 3 CHTtlT SPRAY FROll RHR SYSTEN E GPH IFI-330 0 CNThT SPRAY FROll RHR SYSTEtl M ~.OQ GPH IFI-331 5 CNTHT TEMP PR2R COllP I f N.OQOEGF ETR-126 6 H2 CONC TR A HI gag PC H2-AK

? CNTHT PRESSURE AUG Q.Q PSI G UP1001 8 CNTHT SUMP MIDE LEVEL gg9'r FT NLI-320 9 CHTHT SUHP MIDE LEVEL 4O'7./F FT NLI-321 10 PZR RELIEF TANK, PRESS gg+PSIG NPA-351 11 P2R RELIEF TAHV. TEtlP g /~ P QOEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG I.POSITION CURSOR ON DESIRED.FUNCTION DIGITAL TREND 2.DEPRESS SELECT

D C COOV LOG GROUP UNIT g 20 SEP 89 09: 'tO'.OO LOG GROUP 56 .= EP-RCS-1 POINT OE5CRIPTION VALUE UNITS TAG NO.

1 SOURCE RHG DETECTOR 1 S. 12 E~ l LoGcps HE-31 2 INTERN RHG DET 1

5. 0 l C - J )

LOGNCANP NE-35 3 RCS MR PRESSURE AVG 7 7 P 5 P5IG UP1004 0 PRZR LEVEL AVG g g~,5 PC ULl003 5 PZR LIQUID TENP 5 gO 5'/ OEGF HTA-251 6 PZR VAPOR TEMP @49.g)OEGF HTA-252 7 PRZR HTR GP CPH STATUS LS9040 8 CHARGING FLOM g gD GPN OFI-200 9 LET BOMH FLOH

() () Q GPN OFI-301 10 SUSCOOLIHG 9Q OEGF f lJTI004 12 CREATE LOG GROUP IN5TRUCTIONS PR. NT LOG I.PO5ITION CURSOR ON OESIREO FUNCTION nirITAL TREND 2 OEPRFS5 SELECT'

0 C COOK UNIT 20 sEP 89 OR 95 OO LOG GROUP 57 = EP-RCS-2 POINT DESCRIPTION VALUE UNITS TAG NO.

1 LOOP 1 HOT LEG TEtlP Qp 7,Qg DEGF NTR-110 2 LOOP 2 HOT LEG TEtlP Q+'7,3 j DEGF HTR-120 3 LOOP 3 HOT LEG TEttP 'Qg '7,$ $ HTR-130 >ply-DEGF

,O~

4 LOOP 4 HOT LEG TEMP gP 7, gQ DEGF HTR-140

.I-y S LOOP 1 COLD LEG TEllP gg g /g OEGF HTR-210 6 LOOP 2 COLD LEG TBP +03 gp OEGF NTR-220 .<o 7 LOOP 3 COLD LEG TENP QQ3 ] 7 OEGF'gg NTR-230 8 LOOP 4 COLD LEG TEMP g) DEGF 1tTR-240

. 9 RCP1 CURRBT ANP RCP1A1 10 RCP2 CURREHT AMP RCP2Akl 11 PCP3 CURRENT g gg ANP RCP3AH 12 RCP4 CURRENT ANP RCP4AN CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

'I 4

LOG CROUP 0 C COOK UNIT g 20 SEP 89 0'i '"l5: oo LOG CROUP 58 = EP-NSSS S-G POINT OE5CR I PT I ON VALUE UNI TS TAG NO 1 STtt GER OUTLET PRES LP 1 PSIG NPP-210 2 STll GEtt OUTLET PRES LP 2 PSIG NPP-220 3 STll GEM OUTLET PRES LP 3 4 STtt GEM OUTLET PRES LP 4 7~/ g p PSIG PSIG NPP-230 tfPP-240 0

5 STN GEtt 1 HARROM LBEL a<.7 l PC BLP-110 6 STtt GEM 2 HARROM LBEL g3.gq PC BLP-120 7 STN GEtt 3 HARROM LBEL 99o 2 BLP-130 u cn

"'~

BLP-140

& STh GEtt 4 HARROM LEVEL pcs PC

~)w 9 STli BLI-110 ~w GEN 1 MIDE LEVEL g gyL/ Aw X 10 STtl GEH 2 MIDE LBEL PC'<,3/

PC BLI-120 ~I-11 STN GER 3 MIDE LBEL gg.O Z PC BLI-130 CE 12 STN GER 4 kIDE LBEL g(,7l PC BLI-140 C REATE LOG GROUP IH5TRUCTION5 PRINT LOG 1. POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS 5ELECT

0 C COOK LOG NOIP UNIT Q 20 SEP 89 o9:R5: ao LOt; CROUP SS = EP-SSSS-fLak POINT DESCRIPTION VALUE UNITS TAG NO-1 STEAN FLOM LOOP 1 KBH llFC-110 QO 0 2 STEAN FLOM LOOP 2 KBH llFC-120 3 STEAN FLOM LOOP 3 gag KBH NFC-130 4 STEAN FLOM LOOP 4 KBH tlFC-140 Q~ Q

.5, FEBMATER FLOM LOOP 1 gag KBH FFC-210 6 FEEDMATER FLOk LOOP 2 7 FEBMATER FLOk LOOP 3 Z) // KBH FFC-220 gg / KBH FFC-230 8 FEEDMATER FLOM LOOP 4 FFC-240 y gg KBH 9 AUX FEEDMATER FLOk LODP1 gy $ 3 KBH FFI-210 10 AUX FEEDMATER FLOM LOOP2 g j g /

KBH FFI-220 11 AUX FEEDMATER FLOM LOOP3

/g 7/ KBH FFI-230 12 AUX FEEDkATER FLOM LOOP4

~ ~/ KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

O C COOK 20 SEP 89 UNIT Q gq LOG GROUP 60 = EP-HSSS-PATHQAY POINT . OE5CR IPT I ON VALUE UNI TS TAG NO.

1 STEAN GEH STOP VALVE HO1 cg os0 NR4-210 2 STEAtl GEH STOP VAL'VE H02 C l.d SE'l0 tlRV-220 3 STEAN GEH STOP VALVE HO3 CC.OS'J tlRV-230

'> STEAN GEH STOP VALVE HOO GLED NRV-240 5 CONDEHSATE STORAGE TK LV '7g.75 PC CLR-110 6 COND STN DVNP ACTUATIOH Ac,7 LA1010 II'lS ATNOSPHERIC RELIEF ACTUATION gr Rc7 LA1011 8

S 10 ll 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG i.POSITION CUR5OR ON OE5IREO FUNCTION DIGITAL TREND 2.DEPRESS SELECT

LOG CROtJP D C COOK UNIT Q 20 SEP 89 I 0: oo '.Oo LOG.GROUP 54 = EP-ESF-1 POINT DE5CRIPT ION VALUE UNITS TAG NQ.

1 RHST LEVEL ~+.3~ PC ILS-950 2 SI PHP N TO LP 1, I COLD LEG g,d 5 GPH IFI-260 3 SI PMP S TO LP 2, 3 COLD LEG yg D GPH IFI-266 0 BIT COLD LEG INJECT FLOQ LP1 '77.7 P GPH IFI-51 BIT COLIl LEG INJECT FLOM LP2 ~ 7g 'PH GPH IFI-52 IFI-53 6 BIT CDLD LK INJECT FLOH LP3 77 7$

? BIT COLD LEC INJECT FLOM LH 77. 7$ GPH IF I-SR 8 ACCUMULATOR. TK1 PRESSURE gag 3g PSIG IPA-110 9 ACCUHULATOR TK2 PRESSURE P51G IPA-120 10 ACCUHULATOR TK3 PRESSURE gg g gg P516 IPA-130 11 ACI:UHULATOR TK1 PRESSURE g~g gg P5IG IPA-140 12 CREATE LQG GROUP INSTRUCTlONS PRINT LOG DIGITAL TREND

i. PQSlTlON SELECT 2.

CURSOR ON DESIRED FUNCTION DEPRE55

f,l 0 C COOK LOC CROUP UNIT @ 20 SEP 89 io:oG.oo LOG GROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNI T5 TAG NO.

1 RHR SYSTElt E FLOM gag are IF?-310 2 RHR SYSTEH k FLOM

~()g GPN IFI-320 3 CHTttT SPRAY FROtt RHR SYSTEtt E QQQ GPN IFI-330 0 CNThT SPRAY FROtl RHR SYSTEtt M g QQ GPH IFI-331 5 CHTHT TEMP PR2R COliP g 35.OB OEGF ETR-126 6 H2 COttC TR A HI ceo << H2-AH 7 CNTtiT PRESSURE AK Q Q P5IG UP1001 8 CNTHT SUtfP MIDE LEVEL fog 7P FT NLI-320 9 CHTHT SUHP MISE LEVEL ggq 7P FT HLI-321 10 PiR RELIEF TANK PPESS PSIG HPA-351 gg g ll PiR RELIEF TAHK TEMP g gg $ ~OEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2 DEPRE55 SELECT ON DESIRED FUNCTION

if" D C COOk LOG GROUP UNIT 20 SEP 89 lO: OO.O~

LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNITS TAG NO-1 SOURCE RHG DETECTOR 1 LOGCPS HE-31 2 INTERN RHG DET 1 ~b g -li LOGMCAMP HE-35 3 RCS MR PRESSURE AVG / 7V'S. 8 PSIG UP 100'I 0 PRZR LEVEL AYG / g,5 PC UL1003 5 P2R LIOUID TENP SQ$ ./g DEGF HTA-251 6 P2R VAPOR TENP 5SQ.g'0 DEGF HTA-252 7 PRZR HTR GP CPH STATUS LS9040 8 CHARGIHG FLOM gQ() GPM OFI-200 9 LET DOMH FLOH GPM OFI-301 D Qg 10 SUBCOOLIHG

/gal DEGF UT1000 11 12 CREATE LOG GROUP INSTRUCT IONS PR. NT LOG 1.POSITION CURSOR ON DESIRED FUNCTION DI CITAL TREND 2. DEPRESS SELECT

I

'4 D C COOK LOG GROUP UNIT Q 20 SEP 89 ~o:oO:oO LOG GPOVP '57 = EP-PCS-2 POINT DESCRIPTION VALUE UNITS TAG NO.

1'LOOF 1 HOT LEG TEtlP S~Q 3 NTR-110 2 LOOP 2 HOT LEG TEtlP g~3.~ I DEGF HTR-120 3 LOOP 3 HOT LEG TEtlP DEGF NTR-130 ,O~

4 LOOP 4 HOT LEG TEtlP ~ g.5'g DEGF NTR-140 I-y 5 LOOP 1 COLD LEG TEtlP gg 1 I g DEGF HTR-210 6 LOOP 2 COLD LEG TEtlP ~O ].g ( DEGF -NTR-220 7 LOOP 3 COLD LEG TEtlP DEGF NTR-230 8 LOOP 4 COLD LEG TEtlP gg ) pQ DEGF HTR-240 9 RCPl CURRENT OD Q ANP RCPlAtl 10 RCP2 CURRENT ANP RCP2Atl 11 PCP3 CURPENT dDC A"P RCP3fltl 12 RCP4 CURRENT avp PCP4flH Q.OC CREATE LOG GROUP I N5TRUC 7 ION5 PRINT LOG I. POSITION SELECT CUR5OR ON DESIRED. FUNCTION DIGITAL TREND 2.DEPRESS

LOG GROUP D C COOK UNIT +

20 SEP 89 to:oo'oo LOG CROUP 58 = EP-HSSS S-G POINT DE5CRIPTION VALUE UNI TS TAG NO 1 STtl GEH OUTLET PRES LP 1 77+ / g PSIG tlPP-210 2 STtl GEH OUTLET PRES LP 2 7ygs// PSIG tlpp-220 3 STtl 4 STfl GEH OUTLET PRES LP 3 GEH OUTLET PRES LP 4 7ygg @

gpss pg PSIG P5IG tlPP-230 tlPP-240 0

~u 5 STtl GEH 1 HARROM LBEL 4/ F3" BLP-110 6 STtl GEH 2 HARROM LEVEL gg.yg PC BLP-120 IXc,

? STtl GEH 3 HAPROM LBEL ~g 3Q PC BLP-130 Qo cn BLP-140 8 STtl GEH 4 HARROM LEVEL +~. iO PC

~)

9 STtl GEH 1 MIDE LEVEL 5C V9 BLI-110

~X CD 10 STtl GEH 2 MIDE LEVEL

"'g BLI-120 ~l-ll STtl GEH 3 MIDE LEVEL g7 PC BLI-130 Cl BLI-140 12 STtl GEH 4 MISE LEVEL

~( sj'/ PC CREATE LOG GROUP IN5TRUCTIONS PRINT LOG l.POSITION.CURSOR ON DE5IRED FUNCTION DIGITAL TREND 2.DEPRESS 5ELECT

0 C COOK LOt NOVP UNIT g 20 SHP 89 ) 0:oo: OO LOG GROUP 59 = EP-NSSSMOM POINT DE5CRIPT I ON VALUE UNIT5 TAG NO.

1 STERN FLOM LOOP NFC-110 1

~g g KBH 2 STEAN FLOW LOOP 2 KBH NFC-120 3 STERN FLOW LOOP 3 KBH NFC-130 g gD 4 STEAN FLOM LOOP 4 KBH NFC-140 gpss 5 FEEDMATER FLOW LOOP 1 FFC-210 g gg KBH 6 FEEDMATER FLOW LOOP 2 KBH FFC-220 7 FEEDMATER FLOW LOOP 3 gag gag KBH FFC-230 8 FEEDMATER FLOW LOOP 4 Qg~KBH FFC-240 9 AUX FEEDMATER FLOM LOOPl FFI-210 RO.WQ. KBH 10 AUX FEEDMATER FLOM LOOP2 FFI-220

]igfKBH ll AUX FEEDMATER FLOM LOOP3 jy KBH FFI-230 l2 AUX FEEDMATER FLOM LOOP4

~ q~ KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DE51RED FUNCTION

rw D C COOK LOG GROUP UNIT 3, 20 SEP 89 t o: OO.oO LOG GROUP 60 = EP-HSSS-PATHMAY POINT .DESCRIPTION VALUE UNITS TAG NO.

1 STEAN GEH STOP VALVE H01 <L065D NR4-210 2 STEAN GEH STOP VALVE H02 c Los E'0 tlRV-220 3 STEAN GEH STOP VALVE HO3 c-LoSEQ NRV-230 4 STEAN GEH STOP VALVE HO4 C LOS I=0 NRV-240 5 CONDEHSATE STORAGE TK LV 7$ 75PC CLR-110 6 COND STN DVNP ACTOATIOH Pc,7 LA1010 7 NS ATNOSPHERIC RELIEF ACTUATION gr Q7 LA1011 8

t~~)QJ 9 I 10 ~iu 11 12

~l-CREATE LOG GROUP INSTRUCT ION5 PRINT LOG DIGITAL TREND

i. POSITION CUR5OR 2.DEPRESS SELECT ON DE5IRED FUNCTION

LOG GROUP C COOK UNIT g 20 SEP 89 I Q: IS:gQ LOG GROUP 54 = EP-ESF-1 POINT OESCR1PT ION VALUE UNITS TAG NO.

1 RUST LEVEL aa.3 jPC ILS-950 2 SI F'HP N TO LP 1, 0 COLD LEG ~00 GPN IFI-2CO 3 SI PIP S TO LP 2,3 COLD LEG Q()Q GPN IFI-266 0 BIT COLD LEG INJECT FLOM LP1 gg Q GPN IFI-51 5 BIT COLD LEG INJECT FLOM LP2 gag GPH IFI-52 6 BIT COLD LEG INJECT FLOH LP3 g Qg GPH IF 1-53

? BIT COLD LEG INJECT FLOM LH P.OO G IF I-5l 8 ACCLINLILATOR TKI PRESSURE g/g g QPSIG IPA-110 3 ACCUHULATOR TK2 PRESSURE g i 9 pgPSIG IPA-120 10 ACCUHULATOR TK3 PRESSURE TKl f

/ / 3/Ps la IPA-130 IPA-140 11 ACCUHULATOR PRESSURE g / gpgPSIG 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITlON CURSOR ON OE51REO FUNCTION

2. OEPRE55 5ELECT

0 D C COOK LOP CROUP UNIT @ 20 SHP 89 IQ' '5:Q~

LOr GROUP'55 = EP-ESF-2 POINT .DESCRIPTION VALUE UN1TS TAG NO.

1 RHR SYSTEh E FLOH OOO GPN 2 RHR SYSTEH k FLOk Q.OO GPN IFI-320 3 CHThT SPRAY FROh RHR SYSTEh E QQ Q GPN IFI-330 0 CHThT SPRAY FROh RHR SYSTEh k QOO Grx IFI-331 5 CNTHT TEhP PRZR COhP I 9g,Q QDEGF ETR-126 6 H2 CONC TR A HI c.oo <<

P+DEGF'F1-310 H2-AH

? CNTHT PRESSURE AK J. 5 PSIG UP1001 8 CNTHT SUNP kIDE LEVEL C']O.Z S ~T NLI-320 9 CNTHT SUHP kIDE LEVEL 4]O.~a~T NLI-321 10 PZR RELIEF TANK PRESS Qgg PSIG NPA-351 11 PZR RELIEF TANK TEhP gag NTA-351 12 CREATE LOG GROUP IN5TRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DE5IRED f'UNCTION

D C COOk LOG CROUP UNIT 20 SEP 89 tQ'.lQ'~~

LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNI TS TAG NO.

SOURCE RHG DETECTOR 1 Q. Q P+ ( LOGCPS HE-31 2 IHTERN RHG DET 1

~> ~-i( LOGNCaxr HE-35 I 8/ I. I 3 PCS MR PRESSURE 4 PRZR LEVEL AVG AVG

/OS.S PSIG PC UP1004 UL1003 0

o Qo 5 PZR LIQUID TEtlP 535.qP OEGF HTA-251 ~l-6 PZR VAPOR TEMP X5$ .l OEGF HTA-252 7 PRZR HTR GP CPH STATUS LS9040 Qocn 8 CHARGIHG FLOM / I,QQ GPN OFI-200

~)

~UJV) 9 LET DOMH FLOW Q'QQ GPN QFI-301

~

10 SUKOOLIHG 11 g~+./ DEGF UT1004 ~I-CE 12 CREATE LOG GROUP INSTRUCTIONS PR. KT LOG DIC ITAL TREND I. POSITION CURSOR ON DESIRED FUNCTION

2. DEPRESS SELECT

t l I

D C COOK LOG GROllP UNIT @ 20 sEP 89 io i5 Q~-

~

LOG GPOlJP 57 = EP-RCS-2 POINT DE5CRIPTIOH VALUE UHIT5 TAG HO 1 LOOP 1 HOT LEG TEttP DEGF HTR-110 2 LOOP 2 HOT LEG TEMP DEGF HTR-120 Z:

3 LOOP 3 HOT LEG TEtlP DEGF HTR-130 ,0 g~ HTR-100 0 LOOP 0 HOT LEG TEMP / gg DEGF I~)

HTR-210 5 LOOP 1 COLD LEG TBP $ 77 g/ DEGF HTR-220 6 LOOP 2 COLD LEG TEMP A/ 7 'Pg DEGF 7 LOOP 3 COLD LEG TEtIP Qf 7 fg'EGF HTR-230 0 COLD LEG HTR-240 S LOOP TEMP qg 7 gp DEGF S RCP1 CURREHT AHP RCPiAh 10 RCP2 CURREHT o.oQ *"' RCP2Att 11 RCP3 CURRENT AHP RCP3AN gg 12 RCPT CURREHT acr RCP0AH CREATE LOG GROUP IHSTRUCTION5 PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS 5ELECT OH DE5IRED FUNCTION

D C COOK UNIT +

20 SEP 89 lO:/5: OO LOG GROUP 58 = EP-HSSS S-G POINT OESCR IPT ION VALUE UNITS TAG NO.

1 STN GEH OUTLET PRES LP 1 767.l P PSIG ttPP-210 2 STN GEH OUTLET PRES LP 2 79cR3 P P5IG NPP-220

/8 3 STN'EH OUTI ET PRES LP 3 4 STlt GEH OUTLET PRES LP 4 7$ '7 7<>

PSIG i~ PSIG lfPP-230

)HAPP-240 0

5 STtl GEH 1 HARROM LBEL aS.>9 PC SLP-110 6 STtl GEH 2 HARROM LEVEL 3 j.'7/ pc BLP-120

? STli GEH 3 HARROM LEVEL BF.PQ PC BLP-130 Oo LL~

8 STH GEH 4 HARROM LBEL Q /~/PC BLP-140 QZ 9 STll GEH 1 MIDE LEVEL 8'7 q/ PC BLI-110 10 STli GEH 2 MIDE LEVEL ~7.g/ PC BLI-120 ~I-X ll STlt GEH 3 MIDE LBEL Q jgg PC BLI-130 CE 12 STN GEH 4 MISE LEVEL gg, g7 PC BLI-140 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

0 C COOK UNIT Q 20 SEP 89 1 a: l~: ace LOI CROUP 59 = EP-NSSSMOQ POINT DESCRIPTION VALUE UNITS TAG NO 1 STEAN FLOM lOOP 1 O.dO. KBH NFC-110 2 STEAN FLOW LOOP 2 O.OD KBH ttFC-120 3 STEAN FLOM LOOP 3 ply-Q. t9C7 KBH tlFC-130 4 STEAN FLOM LOOP 4 KBH NFC-140

~8 5 FEEDMATER FLOM LOOP 1 ~.gg KBH FFC-210 D 6 FEEDMATER FLOM LOOP 2 DOC3 KBH FFC-220 '<Oz 7 FEEDMATER FLOW LOOP 3 8 OQ KBH FFC-230 :i+O CD 8 FEEDMATER FLOW LOOP 4 FFC-240 wh

~)

9 AUX FEEDMATER FLOW LOOP1 jy./0 KBH FFI-210 Qw 10 AUX FEEDWATER FLOW-LOOP2 KBH FFI-220 Z li AUX FEEDMATER FLOM LOOP3 QQ/ KBH FFI-230

~

M 12 AUX FEEDMATER FLOM LOOP4 .g/ KBH FFI-240 ~

M CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

LOG GROUP D C UNIT COOK 20 SEP 89 iO: iS:OD LOG GROUP 60 = EP-HSSS-PATHMAY POINT . I DESC R PT ION VALUE UNITS TAG NO.

1 STEAN GEH STOP VALVE H01' cLaSWQ NR4-210 STEAN GEH STOP VALVE H02 g g.os EQ NRV-220 3 STEAN GEH STOP VALVE HO3 cl oDEQ NRV-230 4-STERN GEH STOP VALVE HO4 SZG NRV-240 5 COHDEHSATE STORAGE TK LV 7975PC CLR-110 6 COND STtl DUNP ACTUATIOH Pc7 LA1010 7 NS ATNOSPHERIC RELIEF ACTUATIOH Rc7 LA1011 8

9 10 11 12 CREATE LOG GROUP I N5TRUC T IONS PRINT LOG 1.POSITION CURSOR ON OE5IREO FUNCTION DIGITAL TREND 2.0EPRESS 5ELECT

D C COOK 20 sEP 89 / Q: '3g QQ

~

LOS GROtlP UNIT +

LOG GROUP 54 = EP-ESF.-1 POINT DESCRIPTION VALUE UN I TS TAG NO.

1 RUST LE'L'EL PC ILS-950 2 SI F'HP N TO LP 1,0 COLS LEG GPH IFI-260 3 SI PtlP S TO LP 2,3 COLD LEG GPH IFI-266 I'lT LPl 77.7 9 IFI-51 0 COLD LEG INJECT FLOM GPH O

5 SIT COLD LEG INJECT FLOW LF'2 GPH IFI-52 I-y 6 BIT CDLD LEG INJECT FLOH LP3 7q qg GPH IFI-53 Pl-

? IIIT COLD LEG INJECT FLOM LH 77 7$ GPH IFI-54 8 AKUl1ULATOR TK1 PRESSURE P5IG IPA-110 O~cn r

3 ACCUHULATOR TK2 PRESSURE PSIG IPA-120 g] ~ g/ ~M 10 ACCUHULATOR TK3 PRESSURE

( I g ~f PSIG IPA-130 ~

~X CO 11 ACCUHULATOR TKl PRESStlRE l++( PSIG IPA-100 gl-12 C3 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL'REND

i. P05ITIONSELECT CURSOR ON OE51REO FUNCTION

2. DEPRE55

D C COOK LOI CROllP UNIT Q 20 SEP 89 I Q: 30 '.

QQ LOS CROUP 55 = EP-ESF-2 POINT ,DESCRIPTION VALUE UNI T5 TAG NO-1 RHR SYSTEh E FLOH gag GPN IFl-310 2 RHR SYSTEH N FLON gpss GPH IFI-320 3 CHThT SPRAY FROh RHR SYSTEh E QQQ GPN IFI-330 0 CHThT SPRAY FROh RHR SYSTEh M GOO G>> IFI-331 0 5 CNTHT TEhP PR2R COhP yg p gDEGF ETR-126 6 H2 CONC TR A HI aoO << H2-AH 7 CNTNT PRESSURE AVG P5IG UP1001 8 CNTHT SUNP MIDE LEVEL g id ~aFT NLI-320 9 CHTHT SUHP RIDE LEVEL gg~~ FT HLI-321 10 PZR PELIEF TANK PRESS NPA-351 gag P516 11 P2R RELIEF. TAHV, TEhP 1 ] ~ g'~OEGF HTA-351 12 CREATE LOG GROUP INSTRUCT ION5 PRINT LOG DIGITAL TREND

i. POSITION CUR50R 2.DEPRESS SELECT ON DESIRED FUNCTION

LOG GROtlP D C UNIT COOK g 20 sEP 89 i g SO s 'O LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNITS TAG NO-1 SOURCE RHG SETECTOR 1 +Q N +l LOGCP5 HE-31 2 IHTERti RHG IiET 1

// LOGNC AHP HE-35 3 RCS MR PRESSURE AVG 1VCg.d I PSIG UP1004 O

PRZR LEVEL AVG JC G.5 PC UL1003 C{.c) 5 PZR LIOUIIl TENP QQQ.otS DEGF HTA-251 6 PZR VAPOR TEllP g fg. /D DEGF HTA-252

~

7 PRZR HTR GP CPH STATUS LSS040 Oocn 8 CHARGIHG FLOM GOO GPH OFI-200 9 LET QDMH FLOM M)Q GPH OFI-301 ~w 10 SUSCOOLIHG Vga OEGF UT1000 ~l-11 C3 12 CREATE LOG GROUP INSTRUCTION5 PR. HT LOG DI CITAL TREND

i. POSITION CURSOR

2. DEPRE55 SELEC T OH DESIRED,FUNCTION

0 C COOK LOG GROUP UNIT @ 20 sEP 89 /Q: 3Q:QQ LOG GROUP 57 = EP-RCS-2 POINT OE5C RIP T ION VALUE UNI T5 TAG NO.

1 LOOP 1 HOT LEG TEhP DEGF NTR-110 2 LOOP 2 HOT LEG TEhP ~1 g qg OEGF NTR-120 3 LOOP 3 HOT LEG TEhP g ) L/ g 'g OEGF' NTR-130 4 LOOP 4 HOT LEG TEhP /Q. 2/ OEGF NTR-140

'.~o 5 LOOP 1 COLD LEG TEhP gp / /p DEGF'yp NTR-210 6 LOOP 2 COLD LEG TEhP OEGF NTR-220 PP IOocn 7 LOOP 3 COLD LEG TEhP .L/pQ +f OEGF NTR-230

$ LOOP 4 COLD LEG TEhP 4/gg gg DEGF NTR-240

~w S RCP1 CURRENT g gg ANP RCP1Ah .Uw 10 RCP2 CURRENT ANP RCP2Ah ~l-11 PCP3 CURRENT

~ gg AMP RCP3AN Cl 12 RCP4 CURRENT RCP4AH O.Od CREATE LOG GROUP IN5TRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

P C COOK 20 SEP 89 LOt GROtP UNIT g LOG GROUP"58 = EP-HSSS S-G POINT DESCRIPTION VALUE UNITS TAG HO.

1 STN GEH OUTLET PRES LP 1 7g p.//PslG tlPP-210 2 STN GEH OUTLET PRES LP 2 $ Q g. Ig PSIG NPP-220 3 STtl GEH OUTLET PRES LP 3 4 STN GEH OUTLET PRES LP 4 g9'7,g3 jg'P. /Q PSIG PSIG NPP-230 tlPP-240 0

C{.u 5 STN GEH 1 HARROM LEVEL gg 8'g PC BLP-110 6 STtl GEH 2 HARROM LEVEL gP,g) PC BLP-120

? STN GEH 3 HARROM LEVEL gg ff PC BLP-130 O~cn l9'C BLP-140 8 STN GEH 4 HARROM LEVEL 87.

~)

S STtl GEH MIDE LEVEL i 9PC BLI-110 ~w 1 CO. Mw 10 STN GEH 2 MIDE LEVEL gq py PC BLI-120 ~I-11 STN GEH 3 MIDE LEVEL ~PP/ PC BLI-130 CE 12 STN GEH 4 MISE LEVEL gg (Q PC BLI-140 CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1.POSITION CURSOR OH DESIRED F'UNCTION DIGITAL TREND 2.DEPRESS SELECT

O C COOK LOG glOUP UNIT Q 20 SEP 89 I 0: 30: OO LOG GROUP 59 = EP-NSSMOk POINT OESCRIPTION. VALUE UNITS TAG NO 1 STEAN FLOM lOOP hFC-110 1

~

~g ~ KBH 2 STERN FLOM LOOP 2 hFC-120

~ QQ KBH STEAN FLOM LOOP 3 hFC-130 g QD KBH 4 STEAN FLOk LOOP 4 ~ QQ KBH NFC-140 5 FEEDMATER FLOM LOOP 1 FFC-210 gg0 KBH 6 FEEDMATER FLOk LOOP 2 FFC-220 g gg KBH 7 FEEDMATER FLOk LOOP 3 gag KBH FFC-230 8 FEEDMATER FLOM LOOP 4 FFC-240 g gg KBH 9 flUX FEEDMATER FLOk LOOPl JQ 3Q KBH FFI-210 10 AUX FEEDMATER FLOk LOOP2 / /.4 / KBH FFI-220 li AUX FEEDMATER FLOk LOOP3 l+QZ KBH FFI-230 12 flUX FEEDMATER FLOM LOOP4 J5$ + KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINT LOG 0 I 6 ITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON OESIREO FUNCTION

5 0 C COOK LOG CROUP UNIT 20 SEP 89 ( ()

~

p ~i g~

LOG GROUP 60 = EP-HSSS-PATHMBV POINT ,DESCRIPTION VALUE UNITS TAG NO.

1 STEAN GEH STOP VALVE H01 c.ao5EQ tiR4-210 2 STERN GEH STOP VALVE H02 Cz oSEQ llRV-220 3 STERN GEH STOP VALVE H03 CLdb EjQ tlRV.-230 4 STERN GEH STOP VALVE H04 ~ J oSFQ NRV-240 0<

~u 5 CONDEHSATE STORAGE TK LV 7~.gP PC CLR-110

~8

~i-6 COND STN DtjNP ACTUATIOH air Ac) LA1010 7 AS RTtlOSPHERIC PELIEF ACTUATION 4<r LA1011 <o 8 Qo

.QZ

'S g~) UJ 10

~iu 11 ~l-X 12 Cl CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1 POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

4 LOIi GP,OJJP D C COOK UNIT g 20 sEP 89 J Q: Q5: O~

LOti GROUP 54 = EP-ESF-1 POINT DESCRIPTION VALUE UNITS TAG NO.

1 RUST LEVEL ZaZ /PC ILS-950 2 SI F'HP N TO LP 1, 4 COLS LEG O,OQ GPH IFI-2CO 3 SI PHP S TO LP 2,3 COLS LEG ~.DO Gl V IFI-266 0 BIT COLS LEG INJECT FLOQ LP1 7 7- 1F GPN IFI-51 0

5 BIT COLS LEG INJECT FLOW LF'2 77.7g GPN IF I-52 I-y 6 BIT COLS LEG INJECT FLOW LP3 77.7S'PN IF 1-53 Pl-

? BIT COLIl LEG INJECT FLOM LH 77.78 GPN IFI-50 8 AKUHULATOR TKl PRESSURE g l ~.3(o PSIG IPA-110 O~cn

. 9 ACCUHULATOR TK2 PRESSURE $ 17,+g PSIG IPA-120

~)

~w 10 ACCUHULATOR TK3 PRESSURE $ 17,+QPSIG IPA-130 ~

~X CO 11 ACCUHULATOR TKl PRESSURE gg 7.3g PSIG IPfl-100 ~l-12 Cl CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR SELECT ON DESIRED FUNCTION 2.DEPRESS

D C COOK LOI GROUP UNIT @ 20 sEP 89 i~ q5 gg

~ ~

LOG GROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTEtl E FLOM Q 0Q GPN IFj-310 2 RHR SYSTEh W FLOW Q,Q Q GPtl IFI-320 3 CHThT SPRAY FROh RHR SYSTEtl E QQQ GPH IFI-330 0 CHThT SPRAY FROtl RHR SYSTEtl k D,QQ GPH IFI-331 0 5 CNTHT TEtlP PRZR COhP /9D 0 I DEGF ETR-126 iso 6 H2 COltC TR A HI O.DO PC H2-AH jQc 7 CNTttT PRESSURE AVG g.VD PSIG UP1001 8 CNTHT SUhP WIDE LEVEL d]D.a5 'T NLI-320 9 CNTtll SUHP WIDE LEVEL g5 FT ltLI-321 10 PZR RELIEF TANK PPESS PSIG HPA-351 gag ll PiR RELIEF TAHK TEhP i ]g gg DEGAS HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG I POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2-DEPRESS SELECT

LOG GROUP D C COOK UNIT g 20 SEP 89 l> 'Q 'OQ LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNITS TAG NO.

1 SOURCE RHG DETECTOR 1 Q. Q E+I LOGCPS HE-31 2 INTERN RHG DET 1

~g E // LOGNCANP HE-35 3 PCS MR PRESSURE AVG g g g P'. 3 F5 IG UP1004 0 PRZR LEVEL AVG A/5.5 PC UL1003 5 PZR LIOUID TEtfP QP5 Q Q DEGF HTA-251 6 PZR VAPOR TEMP /

QQQ. g DEGF NTA-252 7 PRZR HTR GP CPH STATUS OFF LS9000 8 CHARGING FLOM OF I-200 O.OO GP" 9 LET DOMH FLOM gQQ GPN OFI-301 10 SUSCOOLIHG / g q,3/ DEGF UT1004 11 12 CREATE LOG GROUP IN5TRUCTION5 PR. NT LOG DIE'ITAL TREND

i. POSITION CURSOR

2. DEPRE55 SELEC T ON DESIRED FUNCTION

l

D C COOK UNIT 20 SIP 89 i 0: i5 '.Oo LOG GROUP 57 = EP-PCS-2 POINT DESCRIPTION VALUE UNITS TAG NO 1 LOOP 1 HOT LEG TEliP /g DEGF NTR-ll0 2 LOOP 2 HOT LEG TEMP NTR-120 DEGF'gg NTR-130 3 LOOP 3 HOT LEG TEMP g7 DEGF 4 LOOP 4 HOT LEG TEMP ~gg,g g'EGF NTR-140 5 LOOP 1 COLD LEG TEtlP $ 75 g$ DEGF NTR-210 !Qo 6 LOOP 2 COLD LEG TEliP Q 75 (s/ DEGF NTP,-220 NTR-230 IOc 7 LOOP 3 COLD LEG TBP Q7Q g / DEGF :Q cn 8 LOOP 4 COLD LEG TEMP g75Pg DEGF NTR-240

~w 9 RCPl CURRENT AHP RCPlAli .Jw

~X 10 RCP2 CURRENT 0 OQ ANP RCP2All ~I-11 RCP3 CURPENT g gg AHP RCP3AN Cl 12 RCP4 CUPRENT d.oD

""" RCP4AH CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT OH DESIRED FUNCTION

D C COOK LOG CROUP UNIT g 20 SEP 89 (~ gg +Q

~ ~

LOG CROUP 58 = EP-HSSS S-G POINT DESCRIPTION VALUE UNITS TAG NO 1 STtl GEN OUTLET PRES LP 1 g 5p g/ P5IG tlPP-210 2 STll GEH OUTLET PRES LP 2 $ g/ ~ PSIG NPP-220 3 STll 0 STN GEN OUTLET PRES GEN OUTLET PRES LP 3 LP 0 QQO.II Q5g. 0 /

PSIG P5IG tlPP-230 tlPP-240 0

f o c(o 5 STtl GEH 1 HARROM LEVEL 8 PC BLP-110 pl-6 STil GEH 2 HARROM LEVEL gP ygPC BLP-120 7 STN GEN 3 HARROM LEVEL L/p ]7 PC BLP-130 Oocn 8 STtl GEN 0 HARROM LEVEL qg g'g PC BLP-1% QZ

~) w 9 STll MIDE LEVEL g() /+PC BLI-110 Qw GEH 1 Dw X 10 STll GEH 2 MIDE LEVEL Z~.9r PC BLI-120 ~I-11 STN GEH 3 MISE LEVEL M.79" BLI-130 CE 12 STtl GEH 4 MIIIE LEVEL PC BLI-140 CREATE LOG GROUP IN5TRUCTIONS PRINT LOG 1. POSITION CUR5OR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS 5ELECT

LOti QOIJP D C COOK UHIT Q 20 SEP 89 I 0: g5:00 LOti GROUP 59 = EP-NSSSMOM POINT DESCRIPTION VALUE UNITS TAG HO.

1 STEAN FLOM LOOP 1 gag KBH ltFC-110 2 STEAN FLOM LOOP 2 KBH IIFC-120 3 STEAN FLOM LOOP 3 g.gQ KBH NFC-130 0 STEAN FLQM LOOP '$ god KBH NFC-1%

5 FEEDMATER FLOM LOOP 1 (7. QQ KBH FFC-210 6 FEEDMATER FLOM LOOP 2 QQO KBH FFC-220 7 FEEDMATER FLOM LOOP 3 g.gQ KBH FFC-230 8-FEEDMATER FLOM LOOP 0 g QQ KBH FFC-200 9 AUX FEEDMATER FLOM LOOPl gag pg acese FFI-210 10 AUX FEEDkATER FLOk LOOP2 ) 5/2 KBH FFI-220 11 AUX FEEDMATER FLOM LOOP3 /Q Qg KBH FFI-230 12 AUX FEEDMATER FLOM LOOP4 iQ $ 8 KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2 DEPRESS SELECT OH DESIRED FUNCTION

LOG GROVP D C COOK UNIT Q 20 SEP 89 t o:"l5. 0O LOG GROUP 60 = EP-HSSS-PATHllAY POINT . DE5CR I PT I ON VALUE UNITS TA6 NO.

1 STEAN GEH STOP VALVE H01 c ~OSEO NR4-210 2 STEAN GEH STOP VALVE H02 ci osGQ NRV-220 3 STEAN GEH STOP VALVE HO3 <LOSE~ NRV-230 4 STEAN GEH STOP VALVE H04 C, l-OSED NRV-240 5 COHDEHSATE STORAGE TK LY 7Q.'7 / PC CLR-110 6 COND STN DUMP ACTUATIOH NT'c.7 LA1010 7 NS ATMOSPHERIC RELIEF ACTUATION Ac7 LA1011 8

S 10 11 12 CREATE LOG GROUP IN5TRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CUR5OR 2.DEPRESS SELECT ON DE5IRED FUNCTION

LOC CROtJP D C COOK UNIT Q 20 SEP 89 i(.OO:QQ LOt t'POUP 54 = EP-ESF-1 POINT DESCRIPTION VALUE UNITS TAG NO.

1 RUST LBEL Za.9 ( PC ILS-950 2 SI PHP N TO LP 1, 0 COLIj LEG Q 0 GPM IFI-2CO 3 SI PIP S TO Lf'> 3 COLD LEG Q gO GPH IFI-266 0 I'lT COLD LEG INJECT FLOW LPl f7. 7 Y GPH IFI-51 0

5 SIT COLD LEC INJECT FLOW LP2 77 7g GPN IFI-52 I-y 6 BIT COLD LEC'NJECT FLOH LP3 77. 7'g GPH IFI-53 (I IIIT COLD LEC INJECT FLOM LH 71.78'PN IFI-5'PA-110 8 ACCUMULATOR TK1 PRESSURE Q 17$ Q PSIG 9 ACCUHULATOR TK2 PRESSURE PS1G IPA-120 10 ACCUtNLATOR TK3 PRESSURE (( gg( PSIG IPA-130 1.1 ACCUHULATOR TKl PRESSURE / ~ 73/ PSIG IPO-lnO 12 CREATE LOG GROUP INSTRUCT I ONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR SELECT ON DESIRED FUNCTION 2.DEPRESS

LOC GROUP D C COOK UNIT Q 20 sEP 89 I'I: OO'O LOG GROUP 55 = EP-ESF-2 POINT ,DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTEtl E FLOH gag GPV IF1-310 2 RHR SYSTB k FLOk g0Q GrW IFI-320 3 CHTtlT SPRAY FROtl RHR SYSTEtl E gpss GPO IFI-330 0 CHTtlT SPRAY FROll RHR SYSTEtl k D.>Q GPV IFI-331 .0, 5 CHTHT TEtlP PRZR COtlP I 3 l.zi DEGF ETR-126 jgo 6 H2 CONC TR A Hl g0g PC H2-AH jQo

? CNTHT PRESSURE AVG PS1G UP1001 8 CtttTHT SUtlP kIDE LEVEL g ig pg FT HLI-320 9 CHTtlT SUHP kIDE LEVEL Q /Q.g$ FT HLI-321 10 PZR RELIEF TANK PRESS PSIG HPA-351 ll P2R RELIEF TANK TEtlP ~

i ig g'7 DEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG i.POSITION CURSOR ON DESIRED. FUNCTION DIGITAL TREND 2 DEPRESS SELECT

D C COOK UNIT 20 SEP 89 ( J:QQ '.QQ LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNITS TAG No.

1 SOURCE RHG DETECTOR 1 50 E+ ( LOGCPS HE-31 2 INTERN RHG SET 1 g,pi Q-// LOGHCANP HE-35 3 RCS IlR PRESSURE AVG /g gg.'P/ PSIG UP1004 O

0 PRZR LEVEL AYG JOS.S PC UL}003 .

o C{.o 5 PZR LIQUID TEMP Q ig Q/

. DEGF HTA-251 +I-6 PZR VAPOR TEMP 5'+5 JQ DEGF HTA-252

? PRZR HTR GP CPH STATUS OFF LS9040 O~cn Q

8 CHARGING FLOM gag GPN OFI-200

~us 9 LET DONH FLOH g~ GPH OFI-301

&Pa 10 SUKOOLIHG 11 g jg Q DEGF UT1004

~l-12 Cl CREATE LOG GROUP INSTRUCTIONS PR. NT LOG i.POSITION CURSOR ON DESIRED FUNCTION DI CITAL TREND 2. DEPRESS SELECT

tl O C COOV, LOG GROUP UNIT Q 20 SEP 89 t ] . QQ Q~

LOG GROUP 57 = EP-RCS-2 POINT DE5CRIPT ION VALUE UNITS TAG NO.

1 LOOP 1 HOT LEG TEhP 9'VO. /Q DEGF NTR-110 2 LOOP 2 HOT LEG TEhP /8"K4 I OEGF HTR-120 3 LOOP 3 HOT LEG TEhP DEGF ttTR-130 0 LOOP 0 HOT LEG TEhP /~/.BI OEGF HTR-100 5 LOOP 1 COLD LEG TEllP f 45.Q Q OEGF HTR-210 6 LOOP 2 COLD LEG TEhP /AS. I f DEGF NTR-220 7 LOOP 3 COLD LEG TEhP OEGF HTR-230 8 LOOP 0 COLD LEG TEhP ~69 ~g DEGF HTR-240 9 RCPi CURRENT Q.OO avr RCP1Ah 10 RCP2 CURRENT 0.0d avr RCP2Ah li PCP3 CURPEHT QDQ ANP RCP3AtI 12 RCPT CUPREHT y 0Q AMP PCPAAN CREATE LOG GROUP IN5TRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS 5ELECT ON DESIRED FUNCTION

LOG CROUP 0 C COOK UKIT +

20 sEP 89 II:00 OO LOG CROUP 58 = EP-HSSS S-G POINT DESCRIPTION VALUE UNITS TAG NO.

1 STh GEH OUTLET PRES LP 1 P5IG hPP-210 2 STh GEH OUTLET PRES LP 2 43 I. 9S P51G hPP-220 3 STh GEH OUTLET PRES LP 3 4 STh GEH OUTLET PRES LP 4

$ 81.9f PSIG

~ PS ID PSIG hpp-230 hPP-240 0

f o go pl-5 STh GEH 1 HARROM LEVEL gc/g / pc BLP-110 6 STh GEH 2 HARROM LEVEL 9S.CB Pc BLP-120 7 STh GEH 3 HARROM LEVEL g5/~ pc BLP-130 Oocn Pg.93 BLP-140

& STh GEH 4 HARROM LEVEL Pc

~)

BLI-110 ~UJ 9 STh GEH 1 NIDE LEVEL 59.3 I APu 10 STh GEH 2 MIDE LEVEI PC BLI-120 ~l-11 STh GEH 3 MIDE LEVEL g ping pc BLI-130 12 STh GEH 4 NIDE LEVEL gg cfg PC BLI-140 PRINT LOG

'NSTRUCTIONS CREATE LOG GROUP I PO51TIOH

. CURSOR OH DE5IREO FUNCTION DIGITAL TREND 2.DEPRESS SELECT

/

LOI GROUP D C COOK UNIT Q 20 sEP 89 I I: OD.'O LOti GROUP 59 = EP-NSSSMOM POINT DESCRIPTION VALUE UNITS TAG NO-1 STEAN FLOM lOOP 1 Q.QQ KBH NFC-110 2 STEAN FLOM LOOP 2 Q QQ KBH NFC-120 3 STEAN FLOM LOOP 3 .00 KBH llFC-130 4 STEAN FLOk LOOP 4 ~gQ KBH NFC-140

~8 5 FEEDMATER FLOM LOOP 1 0,0g KBH FFC-210 +IO 6 FEEDMATER FLOk LOOP 2 Q. QQ KBH FFC-220 '<a 7 FEEDMATER FLOM LOOP 3 Q.CQ KBH FFC-230 :iQ Q J C/l 8 FEEDMATER FLOM LOOP 4 O.QQ KBH FFC-240

~)w

S AUX FEEDMATER FLOM LOOPl ig.g3 KBH FFI-210 Qw 10 AUX FEEDMATER FLOM LOOP2 j5,+Q. KBH FFI-220

~ Vl 11 AUX FEEDMATER FLOM LOOP3 g5 /3 KBH FFI-230 12 AUX FEEDMATER FLOM LOOP4 KBH FFI-240 CRE4TE LOG GROUP iNSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

LOC GROUP 6 C COOK UNIT g 20 SEP 89 t t: QO:OO LOG GROUP 60 = EP-HSSS-PATHMBY POINT .OE5CRIPT ION VALUE i UNITS TAG NO.

1 STEAN GEH STOP VALVE H01 c- L0$ 64 NR4-210 2 STEAN GEH STOP VALVE H02 c.s OSEQ NRV-220 3 STEAN GEH STOP VALVE H03 cl-oGEQ NRV-230 4 STEAN GEH STOP VALVE H04 C LOS~0 NRV-240 5 CONDEHSATE STORAGE TK LV T/.8$ PC CLR-110

~

6 COND STM DUNP ACTUATIOH /V t AcT LA1010 7 NS ATNOSPHERIC RELIEF ACTUATIOH LA1011 8

9 10 11 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG I.POSITION CUR5OR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

D C COOK LOIi GP,OiJP UNIT g 20 sEP 89 I ( . t5:QO LOC GROUP 54 = EP-ESF-1 POINT DE5CRIPT ION VALUE UNITS TAG NO.

I 1 RUST LEVEL aa.3'/ PC ILS-S50 2 SI F'HP N TO LP 1,4 COLD LEG Q QQ GPH IFI-260 3 SI PIP S TO LP 2,3 COLE> LEG Q~ GPH IFI-266 4 FIT COLD LEG INJECT FLOW LP1 g.OO GPN IFI-51 0

5 BIT COLD LEC INJECT FLOM LF'2 Q.QQ GPN IFI-52 I-g 6 BIT CDLD LEG Ifi'JECT FLOH LP3 g.Qg GPN IFI-53

? IIIT COLD LEG INJECT FLOM LH QOO Gpa IFI-54 8 AtXUNULATOR-TK1 PRESSURE 4 l 7 Q$ PSIG

~

IPA-110 O~cn 3 ACCUHULATOR TK2 PRESSURE g I 7 gQ PSIG IPA-120 w

~w 10 ACCUHULATOR TK3 PRESSURE gag ~ P5IG IPA-130 11 ACCUHULATOR TK4 PRESSURE gi7+$ PSIG IPA-140 ~l-12 Cl CREATE LOG GROUP IN5TRUCTIONS PRINT LOG i ~ POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

I LOC t'ROtlP D C COOK UNIT @ 20 SEP 89 ll: t5 'DO LOC CROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTB E FLOH Q.QQ GP N IFI-310 2 RHR SYSTEH W FLOW DQO GPN IFI-320 3 CHTtlT SPRAY FROll RHR SYSTEM E GPM IFI-330 0 fHTNT SPRAY FROll RHR SYSTEll W ~.gO GPV IFI-331 0 5 CttTHT TEMP PRZR COtlP /S/. J DEGF ETR-126 o 6 H2 CONC TR A HI O.OO PC H2-AH jQo 7 CNTNT PRESSURE AVG g.76 PSIG UP1001 8 fNTHT SUMP WIDE LEVEL ( I0.g5 FT NLI-320 ~ ~ CA I

4I Ul 9 CNTHT SUHP WIDE LEVEL glQ ~5 FT NLI-321 CI; 10 PZR RELIEF TANK PRESS L/,Pg PSIG HPA-351 j.,i 11 PZR RELIEF TAHK TEMP ] 1 Q.~ DEGF HTA-351

~

~l C

12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2 DEPRESS SELECT

D C COOK LOG NOUP UNIT g 20 SEP 89 i t: 5.'OO I

LOG GROUP.56 = EP-RCS-1 POINT DESCR IPTIOH VALUE UNITS TAG NO.

1 SOURCE RHG DETECTOR 1 Q.Q Q 0 I LOGCPS HE-31 2 INTERN RHG DET 1 tI LOGHCANP HE-35 3 RCS MR PRESSURE 4 PRZR LEVEL AYG AVG /@76.9/

rf. S'9 PSIG PC UP1004 UL1003 0

t o Qo 5 PZR LIQUID TEMP 5 /Q, lg DEGF HTA-251 5oZ 6 PZR VAPOR TEliP ++5 . 4 5 DE GF'FF HTA-252 +

O~

? PRZR HTR GP CPH STATUS LS9040 Q cn 8 CHARGING FLOQ /Q'fg GPH OF I-200 IJJ 9 LET DOMH FLOH g.gg GPH OFI-301 ~M 10 SUKOOLIHG 11

/ O5,$ DEGF UT1004 ~l-e3 12 CREATE LOG GROUP INSTRUCTIONS PR. KT LOG i.POSITION CURSOR OH DESIRED FUNCTION DIf'ITAL TREND 2. DEPRESS SELECT

LOG GROlF D C COOK UNIT 20 sEP 89 [ ) '. f 5 .'Q LOG GROUP 57 = EP-RCS-2 POINT DESCRIPTION VALUE UNITS TAG NO.

1 LOOP 1 HOT LEG TNP fjP fQ DEGF NTR-110 2 LOOP 2 HOT LEG TBP Qfg.3/ DEGF NTR-120 3 LOOP 3 HOT LEG TEtlP QS'I l / oEar NTR-130 4 LOOP 4 HOT LEG TEtlP 97g 78'Ear NTR-140 5 LOOP 1 COLD LEG TENP QfF. l Q DEGr NTR-210 6 LOOP 2 COLD LEG TEtiP QQg,4Q DEGF NTR-220

? LOOP 3 COLD LEG TEttP ~p, l 9 DEar NTR-230 S LOOP 4 COLD LEG TEMP gr/g 3/ DEar NTR-240 9 RCP1 CURRENT g gg ANP RCPlAtl 10 RCP2 CURRENT g gg AVP RCP2Ati 11 PCP3 CURRENT ANP RCP3AN 12 RCP4 CUPRENT ANP RCP4AH g gg CREATE 'LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED. FUNCTION

lg 0

-t

LOG GROUP D C COOK UNIT g 20 SEP 89

( I

'. ) 5: 00 LOG GROUP 5$ = EP-HSSS S-G POINT DESCR IPT ION VALUE UNITS TAG KO 1 STh GEH OUTLET PRES LP 1 QQg'/ PSIG hPP-210 2 STh GEH OUTLET PRES LP 2 egg.gg PSIG hPP-220 3 STh GEH OUTLET PRES LP 3 4 STh GEH OUTLET PRES LP 4 bD'8. ~9

~>7. l4 PSIG PSIG hPP-230 hPP-240 0

f o go Ql-5 STh GEH 1 NARROM LEVEL if+ (MPC BLP-110 6 STh GEH 2 NARROM LEVEL gg,.l g PC BLP-120 Q ~

? STh GEH 3 NARROM LEVEL g5 /Q PC BLP-130 O~cn 8 STh GEH 4 NARROM LEVEL I-l5 53 PC BLP-140 UJ 9 STh GEH 1 MIDE LEVEL PC BLI-110 ~M 10 STh GEH 2 MIDE LEVEL ggj'C BLI-120 ~I-X ll STh GEH 3 MIDE LEVEL gp gg PC BLI-130 CE 12 STh GEN 4 MIDE LEVEL PC BLI-140 gg gg CREATE LOG GROUP INSTRUCTIONS PRINT LOG X. POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2 DEPRESS SELECT

LOt GROtJP 20'SEP 89 Il: l5: OO LOG GROUP 59 = EP-NSSSMOM POINT DESCRIPTION VALllE UNITS TAG NO 1 STEAN FLOM LOOP 1 O.QQ KBH tfFC-110 2 STEAN FLOM LOOP 2 ~.gQ KBH tlFC-120 3 STEAN FLOM LOOP 3 g.QQ KBH tiFC-130 0 STEAN FLOM LOOP 4 g.gQ KBH tlFC-1'N 5 FEEDMATER FLOM LOOP 1 g.gg KBH FFC-210 6 FEFDMATER FLOM LOOP 2 Q.QQ KBH FFC-220 7 FEEDMATER FLOM LOOP 3 g.gQ KBH FFC-230 S FEEDMATER FLOM LOOP 4 Q.QQ KBH FFC-2450 S BUX FEEDMATER FLOM LOOPi I5 gj KBH FFI-210 10 BUX FEEDMATER FLOM LOOP2 i+,gg KBH FFI-220 li BUX FEEDMATER FLOM LOOP3 ig,5$ KBH FFI-230 12 BUX FEEDMATER FLOM LOOP% Dl/ KBH FFI-2%

CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRES5 SELECT ON DESIRED FUNCTION

0

"'C

-LOG GROUP 0

UNIT COOK g

20 SEP 89 II .i5'.OO LOG GROUP 60 = EP-HSSS-PATHQAY POINT .DESCRIPTION VALUE UNI T5 TAG NO.

1 STEAN GEH STOP VALVE H01 C.LO 5EQ NR4-210 2 STEAN GEH STOP VALVE H02 CLOSED tlRV-220 3 STEAN GEH STOP VALVE HO3 ~mBEQ tlRV-230 4 STEAN GEH STOP VALVE H04 <LOS EQ NRU-240 5 COHDEHSATE STORAGE TK LV 7~. / PC CLR-110 6 COND STN DUNP ACTUATIOH Ig< AcT LA1010 7 NS ATNOSPHERIC RELIEF ACTUATION Ac-7 LA1011 8

10 11 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG I. POSITION SELECT CURSOR ON DE5IRED FUNCTION DIGITAL TREND 2.DEPRESS

0 C COOK 20 SEP 89 UNIT g LOG GROUP 54 = EP-ESF-1 POIHT DESCRIPT 10N VALUE UH I TS TAG HO.

1 RUST LE'VEL W~.g / PC ILS-950 2 SI F'HP N TO LP 1,0 COLD LEG Q.QQ GPH IFI-260 3 SI PIP S TO LP 2,3 COLD LEG QQQ GPH IFI-266 0 EIT COLD LEG INJECT FLOQ LP1 O.QO GPH IF 1-51 5 BIT COLD LEG INJECT FLOM LP2 O.OQ GrW IFI-52 6 BIT COLD LEG INJECT FLOH LP3 g.Og GPN IFI-53 7 IIIT COLD LEG INJECT FLOM LH O.QQ GPH IFI-54 8 ACCUNULATOR.TK1 PRESSURE 4 I ~,3$ PSIG IPA-110 9 ACCUHULATOR TK2 PRESSURE L $

'7 gg PSIG IPA-120 10 ACCUHULATOR TK3 PRESSURE gi .g 3g PS IG IPA-130 il ACCUHULATOR TKl PRESSURE g/7 'SIG IPA-100 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1. POSITION CUR5OR ON DESIRED FUNCTION DIGITAL TREND 2. QEPRE55 SELECT

LOG GROUP D C COOK UNIT @ 20 SEP 89 li: SO:OO LOG GROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNI TS TAG NO.

1 RHR SYSTEll E FLOH gg~ GPN IFI-310 2 RHR SYSTEH M FLOM HAPP GPN IFI-320 3 CHTtiT SPRAY FRON RHR SYSTEtt E O.OO GPN IFI-330 0 CHTtfT SPRAY FROll RHR SYSTEll M O.QO GPH IFI-331 0

~c.

/ZO.S I DEGF jc(o 5 CHTHT TEMP PRZR COIIP 6 H2 COHC TR A HI ETR-126 H2-AH t

gl-O.OP P<

? CNTNT PRESSURE AVG P5IG UP1001 8 CNTHT SUflP-MIDE LEVEL i/O.~S FT NLI-320 ~ ~ CA I

4I UI 9 CHTHT SUHP MIDE LFVEL /D.~ FT NLI-321 CIJ 10 PZR RELIEF TANK PRESS Q.fP PSIG HPA-351 j.,i ll PZP, RELIEF TAHK TEltP

/ /g 8'f DEGF HTA-351

~

~l 12 CREATE LOG GROUP IN5TRUCTION5 PRINT LOG DiGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DE5IRED FUNCTION I

0 C COOK LOG GROUP UNIT

= EP-RCS-1 g 20 SBP 89 LOG GROUP 5S POINT DE5CRIPTION VALUE UNI T5 TAG NO-1 SOURCE RNG DETECTOR 1

+. Q g ~ f LOGCP5 NE-31 2 INTERli RNG DET 1 ~.Di~ g/ LOGrCCANP NE-35 3 RCS MR PRESSURE AVG g g L/'ggg P5IG UP100'l 0 PRZR LEVEL AVG gg g3 PC UL1003 5 PZR LIQUID TEMP /g OEGF NTA-251 6 PZR VAPOR 7 PRZR HTR TEMP GP CPH STATUS 5'fQ, /f OEGF NTA-252 LS9040

& CHARGING FLOM OFF'D/ OFI-200 g/GPN 9 LET DOMN FLOH g gg GPN OFI-301 10 SUSCOOLING 11 pe / OEGF UT1004 12 CREATE LOG GROUP IN5TRUCTIONS PR. NT LOG DI CITAL TREND

i. POSITION CURSOR

2. DEPRESS 5ELECT ON DESIRED FUNCTION

D C COOK UHIT Q 20 SEP 89 I I: 30: QQ LOG GROUP 57 = EP-PCS-2 POIHT DESCRIPTIOH VALUE UNITS TAG HO.

1 LOOF 1 KOT LEG -TEtlP l/75 gg DEGF HTR-110 2 LOOP 2 KOT LEG TEtlP f75 PP DEGF HTR-120 3 LOOP 3 KOT LEG TEtlP f75 3/ DEGF HTR-130 ,0 4 LOOP 4 KOT LEG TEtlP +75, o25 DEGF HTR-140 I-y 5 LOOP 1 COLD LEG TEtlP QQQ g3 HTR-210 6 LOOP 2 COLD LEG TEtlP ~ DEGF'QQ.

OEGF HTR-220 7 LOOP 3 COLD LEG TEtlP Ql/Q. + DEGF HTR-230 8 LOOP 4 COLD LEG TEtlP g7 DEGF HTR-240 9 RCP1 CURREHT y gg AHP RCPlfltl 10 RCP2 CURREHT g ~ AHP RCP2Atl 11 PCP3 CURPEHT g~ AHP AHP RCP3fltl RCP4flH 12 RCP4 CURREHT ~ gD CREATE LOG GROUP INSTRUCTIONS PRIHT LOG i.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

l, D C COOK

'UNIT g 20 SEP 89 I I '. 30: OQ LOG GROUP 58 = EP-HSSS S-G POINT DESCRIPTION VALUE UNITS TAG KO.

1 STtl GEH OUTLET PRES LP 1

+7~ Q/ PSIG tlPP-210 2 STtl GEH OUTLET PRES LP 2 gg /+ PS IG tlpp-220 3 STtl GEH OUTLET PRES LP 3 +gP,g / PS IG tlPP-230 4 STtl GEH OUTLET PRES LP 4 Q7/. QQ PS IG tlPP-240 .

5 STtl GEH 1 HARROM LEVEL '/'/ ~/ BLP-110 6 STtl GEH 2 HARROM LEVEL L/5 7/ PC BLP-120 7 STtl GEH 3 HARROM LEVEL '/5 // PC BLP-130 8 STtl GEH 4 HARROM LEVEL qg gg PC BLP-140 I

9 STtl GEH 1 MIDE LEVEL dD. /9' BLI-110 10 STtl GEH 2 MIDE LEVEL PC BLI-120 ll STtl GEH 3 MISE LEVEL gd S"3C BLI-130 12 STtl GEH 4 MISE LEVEL BLI-140 CREATE LOG GROUP INSTRUCT ION5 PRINT LOG I. POSITION SELECT CUR5OR ON DESIRED PUNCTION DIGITAL TREND 2.DEPRESS

D C COOK UNIT Q 20 SEP 89 t(: so.oa LOC CROuP 5S = EP-SSSS-FLOM POINT OE5CRI PTI ON VALllE UN IT5 TAG NO 1 STEAN FLOM LOOP NFC-110 1

~ gg KBH 2 STEAN FLOM LOOP 2 KBH NFC-120 3 STEAN FLOM LOOP 3 tlFC-130 g yg KBH 4 STEAN FLOk LOOP 4 g~ KBH NFC-140 5 FEBMATER FLOk LOOP 1 gag KBH FFC-210 -So 6 FEEDMATER FLOM LOOP 2 KBH FFC-220 DQD 7 FEBMATER FLOM LOOP 3 KBH FFC-230 :Qa

~CD 8 FEEDMATER FLOk LOOP 4 KBH FFC-240 g.gg

~)w S AUX FEEDMATER FLOM LOOP1 FFI-210 Qw 10 AUX FEEDMBTER FLOM LOOP2 fg~i KBH ~XCD ig ~7 KBH FFI-220 11 flUX FEEDMATER FLOM LOOP3 KBH FFI-230 12 AUX FEEDMATER FLOM LOOP4 FFI-240

/5 dg CREATE LOG GROUP IN5'TRUCTIONS PRINT LOG I 6 ITAL TRENO I . POSITION CURSOR ON OESIREO I UNCTION 0 Z. OEPRESS SELECT

0 C COOK UNIT Q, 20 SEP 89 I I'. 30'Q LOG GROUP 60 = EP-HSSS-PATHMAY POINT .DE5CRIPTION VALUE UNI T5 TAG NO 1 STEAN GEH STOP VALVE H01 ~Lo5 EQ hR4-210 2 STEAh GEH STOP VALVE H02 cloSFE hRY-220 3 STEAh GEH STOP VALVE H03 c. ~osEZ hRV-230

'$ STEAN GEH STOP VALVE HOO

~ LDsEZ hRY-2'!0 O~

u 5 CONDEHSATE STORAGE TK LY 7g cy PC CLR-110

~8

~l-6 COND STh DUNP ACTUATIOH Wv Acr LA1010 7 hS AThOSPHERIC RELIEF ACTUATION A.c7 LA1011 8 O~

9 10 11 12 CREATE LOG GROUP IN5TRUC T IONS PRINT LOG 1.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

V LOG GROUP D C COOK UNIT g 20 sEP 89 ) )

5 '+

LOG GPOUP '54 = EP-ESF-1 POlNT DESCRIPTION VALUE UNI T5 TAG NO.

1 RHST LE%'EL gg,3 f PC ILS-950 2 SI PHP N TO LP 1, 4 COLD LEG (5.DQ GPH IFI-260 3 SI PIP S TO LP 2,3 COLS LEG GPH IFI-266 4 BIT COLD LEG INJECT FLOW LP1 ~QQ GPH IFI-51 0

5 SIT COLD LEG INJECT FLOM LP2 go(5 GPH IFI-52 I-y 6 BIT COLD LEG INJECT FLOH LP3 .06 GP IFI-53 7 BIT COLD LEC INJECT FLOM LH g.m GPH IFI-54 8 ACCUMULATOR TKl PRESSURE g/7.3g PSIG IPA-110 Qocn S AKUHULATOR TK2 PRESSURE /7. Qg PS IG IPA-120 Q

~w 10 ACCUHULATOR TK3 PRESSURE gl7.gg PSIG IPA-130 ~

~X CO 11 ACCUHULATOR TK4 PRESSURE $ 17.+g essa IPA-140 ~I-12 Ci CREATE LOG GROUP IN5TRUCTIONS PRINT LOG 1. POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2. DEPAE55 SELECT

'1 D C COOK LOI CROUP UNIT Q 20 sEP 89 f t q5 'QQ LOS GROUP 55 = EP-ESF-2 POiNT .DESCRIPTION VALUE UNI T5 TAG NO.

1 RHR SYSTEtt E FLOH +.~ GPN IFl-310 2 RHR SYSTEH N FLOQ gag GPV IFI-320 3'HTttT SPRAY FROM PHR SYSTEtt E Q QQ GPN IFI-330 0 CNTIIT SPRAY FROll RHR SYSTEtt k ~Qg GPV IFI-331 .0 IP.

5 CNTHT TEtIP PRZR COllP 1~P~/ DEGAS ETR-126 jc(o 6 H2 CONC TR A Hi ~,gg PC H2-AH I5o

? CNTttT PRESSURE AVG Q,g PS1G UP1001 8 CNTHT SUNUP MIDE LEVEL C/a.v5~T NLI-320 9 CNTHT SUHP RIDE LEVEL

-10 PZR RELIEF TANtl PRESS 4(o.~S " HLI-321 NPA-351 g Pg P51G 11 PZR RELIEF TANK TEtlP HTA-351 g gy py DEGF 12 CREATE LOG GROUP INSTRUCT ION5 PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

LOG GROUP D C COOK UNIT g 20 SEP 89 ~t ss:co LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNITS TAG NO.

1 SOURCE RHG DETECTOR 1 g. g E+l LoGcPs HE 31 2 IHTERtl RHG DET 1

+ 0/ ~ -// LQGMcAMP HE-35 3 PCS MR PRESSURE AVG jg~g.g g PslG UP1004 4 PRZR LEVEL AVG PC VL1003 5 PZR LIQUID TEMP gQ Q/ DEGF HTA-251 6 PZR VAPOR TEMP / Q fQ DEGF HTA-252 7 PRZR HTR GP CPH STATUS o F'F LS9040 8 CHARGIHG FLOM j~g g/GPM . OF I-200 9 LET DOMH FLOH OFI-301

~gg GPM 10 SUBCOOLIHG

/OO ~ i OEGF UT1004 11 12 CREATE LOG GROUP INSTRUCTIONS PR. NT LOG DIC ITAL TREND

i. POSITION CURSOR

2. DEPRESS SELEC T ON DESIRED FUNCTION

'I D C COOK UNIT Q 20 SEP 89 tl: HS:OO LOG GROUP 57 = EP-RCS-2 POINT DESCRIPTION VALUE UNITS TAG NO.

1 LOOP 1 HOT LEG TEtlP M$ . g / DEGF HTR-110 2 LOOP 2 HOT LEG TEtlP VC /. Dg DEGF HTR-120 3 LOOP 3 HOT LEG TEtlP /46 t /

~ DEGF HTR-130 ,O~

4 LOOP 4 HOT LEG TEtlP j99.43 DEGF HTR-140 I

g 5 LOOP 1 COLD LEG TEtlp. DEGF HTR-210 6 LOOP 2 COLD LEG TEtlP QQ /. $ 8'EGF HTR-220 7 LOOP 3 COLD LEG TEtlP Qg t.79 DEGF HTR-230 S LOOP 4 COLD LEG TEtlP DEGF HTR-240 9 RCPl CURREHT ANP RCP1Atl 10 RCP2 CURREHT g Qg AMP RCP2Atl 11 PCP3 CURPEHT AMP RCP3Atl g gQ 12 RCP4 CUPREHT g gg ANP PCP4AH CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

0 C COOK 20 SEP 89 t '. Q Q '.

QQ LOG GROUP UNIT g (

LOG GROUP 58 = EP-HSSS S-G POINT OE5CRIPT ION VALUE UNITS TAG NO.

1 STN GEN OUTLET PRES LP 1

~g~ yp PSIG 2 STtl GEH OUTLET PRES LP 2 ~5 q ~ P51G NPP-220 3 STN GEN OUTLET PRES LP 3 4 STll GEH OUTLET PRES LP 4 gp PSIG L// PS IG NPP-230 tiPP-240 0

5 STli GEN 1 HARROM LEVEL JE'PP-210 qg pg'C BLP-110 6 STN GEH 2 HARROM LEVEL PC BLP-120 7 STN GEH 3 HARROM LEVEL qg gyp PC BLP-130 O~ cn BLP-140 8 STN GEN 4 HARROM LEVEL gg PC

~) LJJ 9 STll GEN MIDE LEVEL PC BLI-110 ~w 1

Mw Z 10 STtl GEH 2 MIDE LEVEL PC BLI-120 ~I-ll STli GEH 3 MIDE LEVEL gd,gs " BLI-130 CE BLI-140 12 STN GEH 4 MIDE LEVEL

+.

CREATE LOG GROUP I N'STRUC T ION5 PRINT LOG I.PO51TION CURSOR ON OESIREO FUNCTION DIGITAL TREND 2.DEPRESS 5ELECT

D C COOK UNIT g 20 SEP 89 i I: 85:QC LOG GROUP '59 = EP-NSSSMOM POINT DESCRIPTION VALUE UNITS TAG NO.

I STEAll FLOM LOOP 1

~gp KBH NFC-110 2 STEAN FLOM LOOP 2 Q QQ KBH NFC-120 3 STEAN FLOM LOOP 3 QQQ KBH ttFC-130 4 STEfltt FLOM LOOP 4 Q.QQ KBH llFC-140 5 FEBMATER FLOM LOOP 1 Q.Q Q KBH FFC-210 6 FEEDMATER FLOM LOOP 2 Q.QQ KBH FFC-220 7 FEBMATER FLOM LOOP 3 QgQ KBH 'FC-230 8 FEEDMATER FLOM LODP 4 FFC-240 g ga KBH 9 AUX FEEDMATER FLON LOOP1 gg gg KSic FFI-210 10 AUX FEEDNATER FLOM LOOP2 gg.gP KBH FFI-220

'1 AUX FEEDMATER FLON LOOP3 gQ$ g KBH FFI-230 12 AUX FEEDNATER FLOM LOOP4 KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINT LOG D I 6 ITAL TREND

i. POSITION CURSOR 2 DEPRESS SELECT ON DESIRED FUNCTION

M 0 C COOK 20 sEP 89 '

LOG GROUP UNIT g J i 5 QQ LOG GROllP 60 = EP-HSSS-PATHQAY POINT . DESCRIPT ION VALUE UNI TS TAG HO 1 STEAN GEH STOP VALVE H01 ( Los ED NR4-210 2 STEAN GEH STOP VALVE H02 C LOS E> NRV-220 3 STEAN GEH STOP VALVE H03 c I oSED hRV-230 0 STEAN GEH STOP VALVE H04 c c.oS~O NRV-240 C)~

f 8 5 COHDEHSATE STORAGE TK LV 7Q f PC CLR-110

~8 6 COND STN DUNP ACTUATIOH 8< A<7 LA1010 7 NS ATNOSPHERIC RELIEF ACTOATIOH P-c7 LA1011 <oZ 8 Qo cn Q

9 (~ +UJ 10 ~(u ll l-12 ~

el CREATE LOG GROUP INSTRUCTIONS PRIHT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT OH DESIRED FUNCTION

D C COOK LOG GRam UNIT g 20 SEP 89 l O'OO:OQ LOG GROUP 54 = EP-ESF-1 PO1NT DESCRIPTION VALUE UN 1 T5 TAG NO.

1 RUST LE'VEL Pp SQ PC ILS-950 2 SI PHP N TO LP 1,4 COLD LEG ~ gg GPN IFI-260 3 SI PIP S TO LP 2, 3 COLD LEG GPH IFI-266 0 BIT COLD LEG INJECT FLOM LP1 ~.Qg GPH IFI-51 5 BIT COLD LEG INJECT FLOW LP2 Q.QQ GPN IFI-52 6 BIT COLD LEG INJECT FLOW LP3 ~gg GPN IF I-53

? BIT COLD LEC INJECT FLOW LH Q.OO GPN IF I-5I 8 ALClltlULATOR TK1 PRESSURE Q / 7. 5Q P51G IPA-110 9 ACCUHULATOR TK2 PRESSURE g i q.'-3g PSIG IPA-120 10 ACCUWLATOR TK3 PRESSURE 7. 3g P51 G IPA-130 11 ACCUHULATOR TKl PRESSURE 4 I . 3g 1

P51G IPA-140 12 CRKATK LOG GROUP, INSTRUCTIONS PRINT LOG DIGITAL TREND I. POSITION CURSOR ON DESlREO FUNCTION I

2.DEPRESS 5ELKCT

t I j 0

LOI CROtlP D C COOK UNiT + 20 SEP 89 1 a: oo.oo LOG GROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTflt E FLOH IF1-310 2 RHR SYSTEH k FLON GPH IFI-320 3 CHTHT SPRAY FROll RHR SYSTEtt E

~ g() GPH IFI-330 0 CNTHT SPRAY FROll RHR SYSTElt k GOO GPH IFI-331 5 CttTHT TEMP PR2R COllP ZMCB DE<< ETR-126 6 H2 CONC TR A HI ~gQ PC H2-AH 7 CNTHT PRESSURE AVG

~ 5~ PSIG UP1001 8 CNTHT SUtiP kIDE LEVEL FT NLI-320 CA 4I Ul 9 CNTHT SUHP kIDE LEVEL NLI-321 QiO.>5 "T 10 PZR REl IEF TANli PRESS j.,ij Ci 11 P2R RELIEF TANK TEttP g yg P51G HPA-351 HTA-351 igy py DEGF 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CUR5OR 2.DEPRESS 5ELECT ON DESIRED FUNCTION I

D C COOk LOG NOIlP UNIT 20 SEP 89 /~: OO. oo LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNITS TAG NO-1 SOURCE RNG IETECTOR 1 LQGcPs NE 31 2 INTERN RNG IIET 1 LoGNcANP NE-35 3 RCS MR PRESSURE AVG ~g~+.PD PsIG UP1004 4 PRZR LEVEL AVG PO.lO PC UL1003 5 PZR LIOUI9 TEMP +QQ. (Q DEGF NTA-251 O'ZR VAPOR TEMP +t Q.gg OEGF NTA-252 7 PRZR HTR GP CPH STATUS LS9040 8 CHARGING FLOM AD@ Q GPN OFI-200 9 LET 90MN FLOH ggQ GPN OFI-301 10 SUBCOOLING y~0 / DEGF UT1004 11 12 CREATE LOG GROUP INSTRUCTIONS PR. KT LOG i.POSITION CURSOR ON DESIRED FUNCTION DIC'ITAL TREND 2. OEPRE55 SELECT

D C COOK UNIT 20 SEP 89 I <:OO: OO LOG GPOUP '57 = EP-PCS-2 POINT DESCRIPT IOH VALUE UNI TS TAG HO.

1 LOOP 1 HOT LEG TBP gc/P,gg DEGF NTR-110 2 LOOP 2 HOT LEG TEtlP gg /,3$ DEGF HTR-120 3 LOOP 3 HOT l EG TEhP Qgg .gg DEGf NTR-130 0 LOOP 0 HOT LEG TEtlP +$8'. S'7 DEGAS NTR-140 5 LOOP 1 COLD LEG TEtlp Qi'Q, $4/ DEGF HTR-210 6 LOOP 2 COLD LEG TBP g~g gL/ NTR-220 DEGF'/+g 7 LOOP 3 COLD LEG TBP g5 DEGF'f HTR-230 8 LOOP 0 COLD LEG TEtlP /f Cjlg DEGF' HTR-240 9 RCP1 CURRENT gg AHP RCPiAh 10 RCP2 CURREHT AMP RCP2Atl 11 PCP3 CURRENT ANP RCP3Ah 12 RCPT CURRENT AHP PCPAAH CREATE LOG GROUP INSTRUCTIONS PRINT LOG POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

LOG GROI' C

UNIT COOK g

20 SEP 89 t2:OO'QO LOG GROUP 58 = EP-HSSS 5-G POINT DE5CRIPTION VALUE UNITS TAG KO.

1 STtl GEH OUTLET PRES LP 1

~~ t gc/ P5IG tlPP-210 2 STtl GEH OUTLET PRES LP 2 P5IG tlPP-220 3 STtl GEH OUTLET PRES LP 3 P5IG tlPP-230 4 STtl GEH OUTLET PRES LP 4 P5IG tlPP-240 5 STtl GEH 1 HARROM LEVEL BLP-110 6 STtl GEH 2 HARROM LEVEL BLP-120 7 STtl GEH 3 NARROM LEVEL BLP-130 8 STtl GEH 4 HARROM LEVEL BLP-140 9 STtl GEH 1 MIDE LEVEL /i/ PC BLI-110 10 STtl GEH 2 MIDE LEVEL BLI-120 11 STtl GEH 3 MIDE LEVEL 40/S " BLI-130 BLI-140 12 STtl GEH 4 MIDE LEVEL CREATE LOG GROUP IN5TRUCTIONS PRINT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2 DEPRE55 5ELECT

0 C COOK 20 SEP 89 I a.:OO:OC LOG GROUP UNIT Q LOG GROUP 59 = EP-NSSSMOM POINT DE5CRIPTION VALUE UNITS TAG NO 1 STEAN FLOW LOOP 1 KBH NFC-110 2 STEAN FLOW LOOP 2 g gg KBH NFC-120 STEN FLOW LOOP 3 KBH hFC-130 0 STEAN FLOM LOOP '1 Q.QQ KBH tlFC-140 5 FEEDMATER FLOW LOOP 1 KBH FFC-210 .SoK 6 FEEDMATER FLOM LOOP 2 g QQ KBH FFC-220 "Yo 7 FEEDWATER FLOM LOOP 3 KBH FFC-230 :iQ Q g ga ~CA 8 FEEDMATER FLOM LOOP 4 g QQ KBH FFC-240 WZ

)w LJJ 9 fiUX FEEDMATER FFI-210 Qw FLOW LOOP1 y5 gg KBH ~V) 10 AUX FEEDWATER FLOM LOOP2 Jg gp KBH FFI-220 ll AUX FEEDMATER FLOW LODP3 i5 gg KBH FFI-230 12 AUX FEEDMATER FLOM LOOPO 5 ~5 KBH FFI-24 CREATE LOG GROUP INSTRUCTION5 PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRE55 5ELECT ON DESIRED f"UNCTION

LOG GROUP D C COOK UNIT g 20 SEP 89 i a.'OO.Oo LOG GROUP 60 = EP-HSSS-PATHilAY POINT .DESCRIPTION VALUE UNITS TAG NO.

1 STEAN GEH STOP VALVE H01 cwoSE'Q NR4-210 2 STEAN GEH STOP VALVE H02 c gosED NRV-220 3 STEAN GEH STOP VALVE H03 ~ g.OSEJ5 hRV-230 4 STEAN GEH STOP VALVE H04 c. a.0SED NRV-240 5 CONDEHSATE STORAGE TK LV 7D. I PC CLR-110 6 COND STN DUNP ACTUATIOH hi< H~r LA1010

.7 NS ATNOSPHERIC RELIEF=ACTUATIOH acr LA1011 8

9 10 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

LOC CROUP D C COOK UNIT g 20 SEP 89 I 2: [5:OO L06 CROUP 54 = EP-ESF-1 POINT DESCRIPTION VALUE UNITS TAG NO.

1 RHST LB'EL aa.39 Pc ILS-S50 2 SI F'HP N TO LP 1, 0 COLD LEG O.OO GPM IFI-2CO 3 SI PIP S TO LP 2,3 COLD LEfi ~.QQ GPH IFI-266 0 IMMIT. COLD LEG INJECT FLOM LP) ~.QQ GPH IFI-51 5 BIT COLD LEC INJECT FLOM LP2 g.QQ GPN IFI-52 6 BIT COLD LEt INJECT FLOH LP3 Q,QQ GPH IFI-53

? IIIT COLD LEC INJECT FLOM LH Q.QQ GPN IF I-5'PA-110 8 ACCUl1ULATOR TK) PRESSURE /~7 3g P5IG 9 ACCUHULATOR TK2 PRESSURE Q t7 gg PSIG IPA-120 10 ACCUHULATOR -TK3 PRESSURE giq.3$ PSIG IPA-130 11 RCCUHULATOR TKl PRESSURE g ]7 3Q PSIG IPA-)00 12 CREATE LOG GROUP INSTRUCT ION5 PRlNT LOG DIGITAL TREND

i. P05lTION CURSOR 5ELECT ON DE5IRED FUNCTION 2.DEPRESS

0 A%

LOP t'ROUP D C COOK UNIT Q 20 sEP 89 /Q. /5 LOr GROUP '55 = EP-ESF-2 POINT .DE5CRIPTION LPALUE UNITS TAG NO.

1 RHR SYSTEtl E FLOM ~ gg GPN IFj-310 2 RHR SYSTEtl Q FLOQ a.OC) GPN IFI-320 3 CHTtlT SPRAY FROll RHR SYSTEtl E ~.OO GPV IFI-330 0 CHTtlT SPRAY FROtl RHR SYSTEtl k ~OO GPN IFI-331 0

~P.

5 CNTHT TEtIP PRZR COlfP /g 7. 'P / DEGF ETR-126 6 H2 CONC TR A HI o-Og pc H2-AH tQo

? CNTHT PRESSURE AVG g. gg P5IG UP1001 8 CNTHT SUMP MIIIE LEVEL gag,P5 fT NLI-320 9 CNTtlT SUHP QIIlE LEVEL gag ~g rT NLI-321 10 PZR RELIEF TANK PRESS Q fP PSIG HPB-351 11 PZR RELIEF TANK TEtlP Jg 'P, fP DEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG I. POSITION SELECT CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS

0 C COOK UNIT g 20 SEP 89 r~: i~:OO LOG GROUP 56 = EP-RCS-1 POINT OESCRIPT ION VALUE UNITS TAG NO-1 SOURCE RHG DETECTOR 1 LoGcPs NE-31 2 IHTERtl RHG DET 1 Q,gf g J J LoGHcAHP NE-35 3 RCS MR PRESSURE AUG PQQ, QQ PS IG UP1004 0 PRZR LEVEL AVG yg,OI PC 0L1003 5 PZR LIQUID TEMP l/fQ Qf DEGF HTA-251 6 PZR VAPOR NTA-252 TEMP gag gg DEGr 7 PRZR HTR GP CPH STATUS LS9040

& CHARGING FLOM y~g GPH OFI-200 9 LET DDMH FLOM Q, QQ GPH OFI-301 10 SUBCODLIHG f5 Q OEGF UT1000 11 12 CREATE LOG GROUP INSTRUCTIONS PR. NT LOG 01('ITAL TREND

i. POSITION CURSOR

2. DEPRESS SELEC T ON DESIRED FUNCTION

0 C COOK UNIT Q 20 sEP 89 ] g . ( 5 'O LOG GROUP 57 = EP-PCS-2 POINT DESCRIPTION VALUE UN I TS TAG NO.

1 LOOP 1 HOT LEG TENP 4/+5.+$ DEGF HTR-110 2 LOOP 2 HOT LEG TENP +95.Qg DEGF HTP,-120 3 LOOP 3 HOT LEG TENP NTR-130 DEGF

,O~

0 LOOP 0 HOT LEG TENP gg5.9g DEGF HTR-140 I-y 5 LOOP HTR-210

<+I 1 COLD LEG TENP 5 gs OEGF'Q5 HTR-220 .Ct.'~

6 LOOP 2 COLD LEG TENP g/ OEGF'QS IOocn 7 LOOP 3 COLD LEG TENP $Q OEGF HTR-230 :Q S LOOP 4 COLD LEG TENP L/g5 g5 DEGF HTR-2'l0 ,Qz 9 RCP1 CURRENT ANP RCP1AN 10 RCP2 CURRENT ~ QQ AMP RCP2AN

~ l-11 PCP3 CURPEHT Q QQ ANP RCP3AN e3 12 RCPT CUPREHT ~ gg AMP RCPAAH CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

' 4 LOG GROUP 0 C COOK UHIT g 20 SEP 89 /~ .'

g~

LOG GROUP 5$ .= EP-HSSS S-G POIHT OESCR IPT ION VALUE UNITS TAG NO.

1 STN GEH OUTLET PRES LP 1 PSIG tlPP-210 2 STtl GEH OUTLET PRES LP 2 't'7 /.4, 3 PSIG tlPP-220 3 STll GEH OUTLET PRES LP 3 4 STII GEH OUTLET PRES LP 4

/0/

RS 4 f S.~~

PSIG PSIG tlPP-230 NPP-240 0

5 STN GEH 1 HARROM LEVEL 9g gj PC BLP-110 6 STll GEH 2 HARROM LEVEL QS. Jg Pc BLP-120 7 STll GEH 3 HARROM LEVEL R5. l8 Pc BLP-130 Oo cn

<$ 83 BLP-140 QZ

& STN GEH 4 HARROM LEVEL Pc

~) w BLI-110 Qw 9 STN GEH 1 MIDE LEVEL PC

~wZ 10 STtl GEH 2 MIDE LEVEL QO.89 Pc BLI-120 ~I-11 STti GEH 3 MISE LEVEL D-.l g Pc BLI-130 CE 12 STN GEH 4 MIDE LEVEL gQ ~ PC BLI-140 CREATE LOG GROUP INSTRUCT ION5 PRINT LOG i.P05ITIOH CURSOR OH DESIRED FUNCTION DIGITAL TREND 2.DEPRESS 5ELECT

LOC GROUP 0 C COOK UNIT Q 20 SEP 89 ia:/S:gg LOC GROUP 59 = EP-NSSSMOM POINT DE5CRIPTION VALUE UNIT5 TAG NO.

1 STEAN FLOM LOOP 1 O.OC) KBH NFC-110 2 STERN FLOM LOOP 2 O.QQ KBH NFC-120 3 STEAN FLOM LOOP 3 Q QQ KBH NFC-130 4 STERN FLOk LOOP 4 Q.QQ KBH NFC-140 5 FEBMATER FLOM LOOP 1 GOO KBH FFC-210 6 FEEDMATER FLOM LOOP 2 Q 00 KBH FFC-220 7 FEBMATER FLOM LOOP 3 Q <0 KSH FFC-230

$ FEEDMATER FLOk LOOP 4 g.gg KBH FFC-240 9 flUX FEEDMATER FLOM LOOP1 KBH FFI-210 10 AUX FEEDMATER FLOM LOOP2 KBH FFI-220 ll AUX FEEDMATER FLOM LOOP3 KBH FFI-230 12 AUX FEEDMATER FLOM LOOP4 FFI-240 j5 gg KBH CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND I. POSITION CURSOR ON DESIRED FUNCTION

2. DEPRESS SELECT

LOG GROUP 0 C COOK UNIT Q 20 SEP 89 j 0:/5': QO LOG GROUP'60 = EP-HSSS-PATHMAY POINT . OE5CR IPTI ON VALUE UNIT5 TAG NO.

1 STERN GEH STOP VALVE H01 C.L.OS ED llR4-210 2 STEAll GEH STOP VALVE H02 cl. ds ED lfRV-220 3 STEAtl GEH STOP VALVE HO3 C LO SEG NRV-230

'$ STEAN GEH STOP VALVE HOI c c-oat'0 fiRV-240 5 CONDEHSATE STORAGE TK LY g9.K PC CLR-110 6 COND STM DUllP ACTUATION QT Ac~ LA1010 7 llS ATMOSPHERIC RELIEF ACTUATION ACT LA1011 8

10 11 12 CREATE LOG GROUP IN5TRUC TIONS PRINT LOG DIGITAL TREND I. POSITION 5ELECT CUR50R ON DE5IREO FUNCTION 2.0EPRE55

LOI GROUP 0 c coov, UNlT +

20 SEP 89 i~: ao: oo LOB GROUP 54 = EP-ESF-1 F OINT DESCRIPTION VALUE UNI TS TAG NO.

1 RUST LEVEL D2.3 I PC ILS-950 2 SI PHP N TO LP 1, 4 COLD LEG 0 CQ GPH IFI-2CO 3 SI PIP S TO LP 2, 3 COLD LEG Q OQ GPH IFI-266 4 SIT COLD LEt INJECT FLOQ LPI D.OO GPN IFI-51 5 BIT COLD LEG INJECT FLOM LP2 000 Gr N IFI-52 6 BIT CDLD LEG INJECT FLOH LP3 ~.DO GPV IF I-53

? IIIT COLD LEG INJECT FLOP LH Q.OO GPN IFI-54 8 ACCUNULATOR TKl PRESSURE gl7 S4 PslG IPA-110 S ACCUHULATOR TK2 PRESSURE <17.34 PslG IPA-120 10 ACCUHULATOR TK3 PRESSURE g I 7.34 PslG IPA-130 11 ACCWULATOR TK4 PRESSURE gl7.36 PslG IPA-iso 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG f . POSITION CURSOR ON OESIREO FUN' CON DIGITAL TREND 2.DEPRESS SELECT

D C COOK 20 SEP 89 I 2+:OQ LOG GROUP UNIT g LOG GROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO 1 RHR SYSTEli E FLOH Q.QQ GPN IF1-310 2 RHR SYSTEH k FLOW ~.QQ Gr N IFI-320 3 CNTltT SPRAY FROll RHR SYSTB E Q.QQ GPN IFI-330 0 CHTtIT SPRAY FRON RKR SYSTEll k g.00 Gr N IFI-331 5 CHTHT TElIP PR2R COlfP J Qg. 7 DEGF ETR-126 6 H2 CONC TR A HI ~,gg PC H2-AH

? CNTHT PRESSURE AVG ~.3g P5IG UP1001 8 CNTHT SUflP kIDE LEVEL g IQ. DQ FT HLI-320 9 CHTHT SUHP kIDE LEVEL FT HLI-321 10 PZR RELIEF TANK PRESS Q. 78 PSIG HPA-351 11 PZR RELIEF TAHK TBP ig P.+ DEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRIKT LOG DIGITAL TREKD

i. POSITION CURSOR 2 DEPRE55 SELECT ON DESIRED FUNCTION

D C COOK UNIT g 20 sEP 89 /P:9Q'Q LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNIT5 TAG NO.

1 SOURCE RHG DETECTOR 1 S;o E-I LOGcP NE-31 2 INTERN RHG DET 1 $ 0/E-II LOGxcavP HE-35 3 RCS MR PRESSURE 4 PRZR LEVEL AUG AUG s'do. Vk 4V. 1 P51G PC UP100'1 UL1003 0

5 PZR LIQUID TEMP '986 0 / DEGF HTA-251 6 PZR VAPOR TEtlP f QD s4 / OEGF HTA-252 7 PRZR HTR GP CPH STATUS oFF LS9040 O~cn Lj

& CHARGING FLOM OFI-200 jgD Q GPM

~)

9 LET DOMH FLOM g gg GPM OFI-301 ~

~

LJJ JJj CA 10 SUSCOOLIHG ll 9'Q, / OEGF UT1004 ~I-CE 12 CREATE LOG GROUP IN5TRUCTIONS PRINT LOG DICITAL TREND

i. PO5ITION CURSOR

2. DEPRESS 5ELEC 7 ON DESIRED FUNCTION

D C COOK UHIT Q 20 sEP 89 /P 30: QQ

~

LOG GROVP 57 = EP-RCS-2 POIKT DESCQ IPT IOH VALUE UHIT5 TAG HO.

l LOOP l HOT LEG TEhP Qg5 PI DEGF HTR-110 2 LOOP 2 HOT LEG TEhP g>5.0$ DEGF HTR-120 3 LOOP 3 NOT LEG TEhP QQ 5. Og DEGF HTR-130 4 LOOP 4 HOT LEG TEhP f85. SQ DEGF HTR-140 5 LOOP 1 COLD LEG TENP QQQ. ) )

DEGF' HTR-210 ',Qo 6 LOOP 2 COLD LEG TEhP QQ, fQ HTR-220

? LOOP 3 COLD LEG TEhp DEGF'QD.QQ DEGF HTR-230 IOocn 8 LOOP 4 COLD LEG TEhP +Qg, t DEGF HTR-240 a/Z 9 RCP1 CURREHT AHP RCP1Ah 10 RCP2 CllRREHT ~.QQ AHP RCP2Ah ~l-X 11 PCP3 IRREHT g gQ AHP RCP3Ah e3 12 RCP4 CURREHT AHP RCP4AtI D.OO CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1 POSITIOH CUR50R ON DESIRED -FUNCTION DIGITAL TREND 2.DEPRESS 5ELECT

0 C COOK UNIT +

20 sEP 89 I ~: 2 0: OQ LO< GROUP LOG GROUP 58 = EP-NSSS S-G POiKT OE5CR iPT iOH VALUE UKiT5 TAG KO.

1 STtl GEH OUTLET PRES LP 1 P5iG tlPP-210 2 STtl GEH OUTLET PRES LP 2 PsxG tlPP-220 Qgl l3 3 STtl GEN OUTI ET PRES LP 3 P5iG tlPP-230 tlPP-240 C) 4 STtl GEH OUTLET PRFS LP 4 PSiG 5 STtl GEH 1 NARROM LEVEL PC BLP-110 6 STtl GEN 2 NARROM LEVEL PC BLP-120

? STtl GEN 3 NARROM LEVEL 2 PC BLP-130 Qocn BLP-140 8 STtl GEN 4 HARROM LEVEL PC

~)

~W W

~w 9 STtl GEH 1 MIDE LEVEL M.i( BLI-110

~Z CD 10 STtl GEH 2 MIDE LEVEL

@o.89 BLI-120 ~I-11 STtl GEN 3 MIDE LEVEL BLI-130 do.~3 CE 12 STtl GEH 4 MIDE LEVEL BLI-140 gD. I 3 CREATE LOG GROUP iNSTRUCTiONS PRiNT LOG i.PPSiTiON CURSOR OK OESiREO FUKCTiOK OiGiTAL TREND 2-DEPRESS SELECT

0 LOf QmlJP D C CMK UNIT Q 20 SEP 89 i~: 3Q: QQ Lot; t;ROUP SS = EP-SSSS-FLON POINT DESCRIPTION VALUE UNITS TAG NO.

1 STEAN FLOM LOOP 1 NFC-110

~ pg KBH 2 STEAN FLOM LOOP 2 ~,gg KBH NFC-120 3 STEAN FLOk LOOP 3 g.gg KBH NFC-130 4 STEAN FLOk LOOP 4 gag KBH NFC-140 5 FEEDMATER FLOM LOOP 1 Q.OO KBH FFC-210 6 FEEDMATER FLOk LOOP 2 g,gg KBH FFC-220 7 FEBNATER FLOM LOOP 3 ~.gQ KBH FFC-230 8 FEBMATER FLOM LOOP 4 FFC-240

~ gQ KBH 9 AUX FEEDMATER FLON LODPi FFI-210 i5 gQ KBH 10 AUX FEEDNATER FLON LOOP2 KBH FFI-220 11 AUX FEEDMATER FLOM LOOP3 KBH FFI-230.

12:AUX FEEDMRTER FLOM LOOP4 KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

LOG GROUP 6 C COOK UNIT g 20 SEP 89 '~: ~O:oo LOG GROUP 60 = EP-HSSS-PANMAY POINT .DESCRIPTION VALUE UNITS TAG HO.

C'LOSER 1 STEAN GEH STOP VALVE HOl Q ltR4-210 2 STEAN GEH STOP VALVE H02 c adsE D NRV-220 3 STEAN GEH STOP VALVE H03 g c.bs ED NRV-230 0 STEAN GEH STOP VALVE H04 C.c +Sent NRV-240 5 CONDEHSATE STORAGE TK LV AS'0 PC CLR-110 6 COND STN DUNP ACTIJATIOH A~ Pcl- LA1010 7 NS ATNOSPHERIC RELIEF ACTUATION Pe.W LA1011 8

9 10 11 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

LOG NOtfP D C COOK UNIT g 20 sEP 89 /2 'S:QQ LOG GPOUP 54 = EP-ESF-1 f OINT DESCRIPTION VALUE UN I TS TAG NO.

1 RUST LEVEL pg.3 I PC ILS-950 2 Sl F'HP N TO LI', 4 COLIl LEG g.gg GPM IFI-2CO 3 SI PIP S TO LP 2, 3 COLE'EG GPH IFI-266 4 BIT COLD LEG INJECT FLOM LP1 gp~ GPH IF 1-51 0

5 BIT COLD LEC INJECT FLOM LP2 ~ OQ GPN IFI-52 I-y E BIT CtlLD LEG INJECT FLOH LP3 O.OO GPN IFI-53 gl-7 IIIT COLD LEG INJECT FLOM LH 0.00 GPN IFI-54 8 ACCUMULATOR TK1 PRESSURE f .p( PS IG IPA->>O Qocn 9 ACCUHULATOR TK2'PRESSURE PSIG IPA-120 10 ACCUHULATOR TK3 PRESSURE IPA-130

~43 PSIG 11 ACCUHULATOR TK4 PRESSURE PSIG IPA-140 ~l-12 Cl CREATE LOG GROUP I NSTRUC T I ONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

LOI CROUP D C COOK UNIT g 20 SEP 89 r~: V5: oo LOt t ROVP 55 = EP-ESF-2 POINT .DE5CRIPTION VALUE UNITS TAG NO.

1 RMR SYSTEtl E FLOM Q,QQ GPN IF1-310 2 RHR SYSTEH k FLOk D.QQ GPN IFI-320 3 CHTNT SPRAY FRON RHR SYSTEll E g.gQ GPN IFI-330 0 CHTHT SPRAY FROll RHR SYSTEM k g.DO IFI-331 5 CHTHT TEtlP PRZR COhP /P.g.d I DEGF ETR-126 6 H2 CONC TR A HI F00 PC H2-AH 7 CNTHT PRESSURE AVG P5IG UP1001 8 CNTHT SUliP klIIE LEVEL C)O.>5 FT NLI-320 4l LJ I 9 CHTHT SUHP kIIjE LEVEL gi0 g5 FT NLI-321 Cli 10 PZR RELIEF TAMIL PRES) ii PZR RELIEF TANK TEMP Q.Qg PSI G DEGF HPA-351 HTB-351 j

12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

D C COOK LOG GROUP UNIT g 20 SEP 89 /'P: /5:oo LOG GROUP 56 = EP-RCS-1 POINT DESCRIPTION VALUE UNITS TAG NO.

1 SOURCE RHG DETECTOR 1 Q. Q E+ ) LQGcPs HE-31 2 INTERN RNG DET 1 g.g i E'- li LQGNcANP HE 35 3 RCS MR PRESSURE AYG 0 PRZR LEVEL AYG ~'t t PsIG PC UP1004 UL1003 0

o go 5 PZR LIQUID TEMP ggQ.g ) DEGF NTA-251 5oZ 6 PZR VAPOR TENP Q'gg. Q DEGF HTA-252 Q 7 PRZR HTR GP CPH STATUS LS9040 Oocn 8 CHARGING FLOM )Dg.Q OFI-200 GPN

~)UJ

~UJC/l 9 LET DDMH FLOH 10 SUBCODLIHG

~.gQ GPN OFI-301

~

11

~ l OEGF UTI004 ~I-CE 12 CREATE LOG GROUP INSTRUCTIONS PR. NT LOG DIE ITAL TREND I POSITION CURSOR ON DESIRED FUNCTION

2. DEPRESS SELECT

D C COOK UNIT Q 20 SEP 89 I a:g5:go LOG GROUP 57 = EP-PCS-2 POINT DE5CRIPT ION VALUE UNI T5 TAG NO.

1 LOOP 1 HOT LEG TEtlP 435. I 3 DEGF HTR-110 2 LOOP 2 HOT LEG TEtlP QWS.Q1 DEGF HTR-120 3 LOOP 3 HOT LEG TEtlP DEGF HTR-130 ,0 4 LOOP 4 HOT LEG TEtlP fo5 ~ i 5 DEGF HTR-140 I-y 5 LOOP 1 COLD LEG TEtlp QQQ.Q ( DEGF HTR-210 6 LOOP 2 COLD LEG TEtlP ggQ- 6 I DEGF- HTR-220 7 LOOP 3 COLD LEG TEtlP 3 8'O. 43 OEGF HTR-230 8 LOOP 4 COLD LEG TEtlP 3'gQ. >Q DEGF HTR-240 9 RCPl CURRENT ~.~ AHP RCPlAtl 10 RCP2 CURRENT ~00 ANP RCP2Atl li PCP3 CURRENT Q QO ANP RCP3Atl 12 RCP4 CURRENT ANP RCP4AH CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS 5ELECT ON DESIRED FUNCTION

LOG GROUP 0 C COOK UNIT g 20 SEP 89 /a:4S: CG LOG GROUP 58 = EP-NSSS S-G POINT OESCRIPT ION VALUE UNI TS TAG NO.

1 STN GEH OUTLET PRES LP 1 c/g g, I g PS I G ttPP-210 2 STll GEN OUTLET PRES LP 2 gg/.DP PSIG NPP-220 3 STh 0 STtt GEH OUTLET PRES LP 3 GEH OUTLET PRES LP 0

't90 93 PSIG ttPP-230 llPP-200 0

5 STN GEH 1 HARROM LEVEL Qg. g3 PC BLP-110 6 STtl GEH 2 HARROM LEVEL t 5,gQ PC BLP-120 7 STH GEH 3 HARROM LEVEL Q5gg PC BLP-130 O~cn 8 STtl GEH 1 qggg BLP-1%

HARROM LEVEL PC

~)w S STN GEN MIDE LEVEL gg'af PC BLI-110 ~w 1

Mw X 10 STN GEN 2 MIDE LEVEL gg gq PC BLI-120 ~I-11 STN GEH 3 MIDE LEVEL gO,lg Pc BLI-130 CE 12 STN GEH 0 MISE LEVEL

~o i4 BLI-100 CREATE LOG GROUP INSTRUCTION5 PRINT LOG I.POSITION CURSOR ON bESIREO FUNCTION DIGITAL TREND 2.DEPRESS SELECT

0 C COOK UNIT Q 20 SEP 89 >>:<s'oo LOG GROUP 59 = EP-NSSS+LON POINT DESCRIPTION VALUE UNITS TAG NO l STEAlf FLOM LOOP 1

~,QQ KBH hFC-110 2 STEAN FLOk LOOP 2 ~.00 KBH NFC-120 3 STEAN FLOM LOOP 3 ~.QQ KBH NFC-130 4 STEAti FLON LODP 4 Q.Q 0 KBH tlFC-140 5 FEEDMATER FLON LODP 1 KBH FFC-210 .So 6 FEEDMATER FLOk LODP 2 ~,QQ KBH FFC-220 7 FEBMATER FLOM LOOP 3 g.gQ KBH FFC-230 :iso 8 FEBMATER FLOM LOOP 4 FFC-240

~ C/l

~ gQ KBH

~) W LJJ 9 AUX FEEDMATER FLON LODP1 KBH FFI-210 M Oq ~(D 10 AUX FEEDNATER FLON LODP2 KBH FFI-220 11 AUX FEEDNRTER FLDM LOOP3 KBH FFI-230 12 AUX FEEDNRTER FLDM LODP4 C5 l6 KBH FFI-240 ~

t(

CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

LOC CROUP D C COOK UNIT 20 SEP 89 /a: 'Xs'g LOG GROUP 60 = EP-NSSS-PATHMAY POINT . DESCR IPT ION VALUE UNITS TAG NO.

1 STEAN GER STOP VALVE H01 c L.OSSA NR4-210 2 STEAN GEH STOP VALVE H02 ~s.oS ES tlRV-220 3 STERN GEH STOP VALVE N03 ~l OSF4 NRV-230 0 STEAN GEH STOP VALVE MOO QLc6 tQ NRV-240 O~

}o 5 CONDEHSATE STORAGE TK LV PC CLR-110

~8

~i-6 COND STN DUNP ACTUATION plT'c.7 LA1010 7 NS ATNOSPHERIC RELIEF ACTUATIOH AcT LA1011 8 O~cn LL

+i@

10 ll ~X LLj 12

~I-CE CREATE LOG GROUP I HSTRUC T IONS PRINT LOG 1. POSITION CURSOR OH DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

<u I

T1

0 C COOK.

UNlT g 20 SEP 89 i3:OO: OC LOG GROUP'54 = EP-ESF-1 POINT OESCRIPT ION VALUE UN I TS TAG NO.

1 RUST LEVEL PC ILS-S50 2 SI F'HP N TO LP 1,4 COLD LEG Cr.gO GP IFI-2CO 3 SI PIP S TO LP 2,3 COLD LEG Q.QQ GPN IFI-266 4 BIT COLD LEG INJECT FLOQ LPl g.gQ GPtl IFI-51 5 BIT COLD LEG INJECT FLOM LP2 g go GPH IFI-52 E'IT eOLD LEG INJECT FLOH LP3 g,QQ GPH IFI-53

? IIIT COLD LEC INJECT FLOM LH g.OQ GPN IFI-54 8 ACCUMULATOR TK1 PRESSURE PSIG IPA-110 9 ACCUHULATOR TK2 PRESSURE PSIG IPA-120 10 ACCUHULATOP, TK3 PRESSURE PSIG IPA-130 11 RCCUNULATOR TK4 PRESSURE PSIG IPA-140 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.0EPRESS SELECT ON DESIRED FUNCTION

e l'

D C COOK LOB CROtJP UNIT @ 20 sBP 89 J 3: Q~ gg

~

LOS GROIJP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTB E FLOH Q,QQ GPN IF1-310 2 RHR SYSTEH k FLOk +QQ GPN IFI-320 3 CHTNT SPRAY FROll RHR SYSTElt E 0 CHTNT SPRAY FROll RHR SYSTElf k

~~ GPN IFI-330 IFI-331 GPH P.

5 CNTHT TBP PRZR COhP /~5.5 I DEGF ETR-126 jgo 6 H2 COHC TR A HI 0.QO PC H2-AH (Qo 7 CNTHT PRESSURE AVE g. g PSIG UP1001 l~

8 CNTHT SUlfP kIDE LEVEL FT NLI-320 9 CNTHT SUHP kIDE LEVEL 4to ~5 NLI-321 10 P2R RELIEF TANK PRESS PSIG NPA-351 g qg 11 P2R RELIEF TAHV, TEMP DEGF llTA-351 12

'--'REATE LOG GROUP INSTRUCTIONS PRINT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

D C COOk LOG GROtJP UNIT g 20 sEP 89 /3: QQ:QQ LOG GROUP 56 = EP-RCS-1 POINT DE5CRIPTION VALUE UNIT5 TAG NO.

1 SOURCE RHG DETECTOR 1 5'.6) E+I LOGCP5 HE-31 2 INTERN RHG DET 1 S.o i 2- /l LOGNCANP HE-35 3 PCS MR PRESSURE 0 PRZR LEVEL AVG AYG svH. 3 I P5IG UP1004 UL1003 0

C{ n 5 PZR LIQUID TEMP 7D. tQ DEGF HTA-251 +I-6 PZR VAPOR TEMP L"l '7S. R2. DEGF HTA-252 7 PRZR HTR GP CPH STATUS oFF LS9040 O~cn Q

& CHARGING FLOW )~g.Q OF I-200 GPN

~) LLJ 9 LET DOWH FLOW 10 SUKOOLIHG

~ 0g GPN OFI-301

~ Zl-V) 11 gQ. 9 DEGF UT1004

~

e3 12 CREATE LOG GROUP IN5TRUCTIONS PR. NT LOG DIr Irat TREND i. POSITION CUR5OR 2 DEPRESS SELECT ON DESIRED FUNCTION

LOG GROUP O C UNIT COOK 20 SEP 89 ia:oo: co LOG GROUP 57 = EP-PCS-2 POINT DESCRIPTION VALUE UNITS TAG NO.

1 LOOP 1 HOT LEG TBP DEGF HTR-110 2 LOOP 2 HOT LEG TBP g~5 fg DEGF HTP,-120 3 LOOP 3 HOT LEG TBP Lf fQ gQ OEGF HTR-130 0 LOOP 0 HOT LEG TEttP l-f i Q.g I DEGF HTR-100 5 LOOP 1 COLD LEG TEllP +7@ Q )

DEGF HTR-210 6 LOOP 2 COLD LEG TBP 3q ) .QQ OEGF HTR-220 7 LOOP 3 COLD LEG TENP P 7 /.Q 7 OEGF HTR-230 8 LOOP 4 COLD LEG TENP 7g fl DEGF HTR-200 9 RCP1 CURREHT Q.QQ ANP RCP1A1 10 RCP2 CURREHT g gg AMP RCP2AN 11 PCP3 CURPEHT g gg AMP RCP3AN 12 RCPT CUPREHT 0< acr RCPAAN CREATE LOG GROUP INSTRUCTION5 PRINT LOG I . P05ITION CUR5OR ON DESIRED f UNCTION DIGITAL TREND 2.DEPRESS SELECT

LOG GROUP 0 C COOK UNIT g 20 SEP 89 /8: 00: gg LOG GROUP SS = EP-SSSS m POINT OE5CRIPTIOH VALUE UNITS TAG KO.

1 STN GEH OUTLET PRES LP 1 Qgg. Q Q P5I G tlpp-210 2 STN GEH OUTLET PRES LP 2 Qg i.43 PSIG NPP-220 3 STN GEN OUTLET PRES LP'3 fQQ 2S PSIG tlPP-230 4 STN GEH OUTLET PRES LP 4 ~ r1.)9 PSIG tlPP-240 5 STtl GEH 1 NARROM LEVEL PC BLP-110 6 STtl GEH 2 NARROM LEVEL PC BLP-120

? STN GEH 3 NARROM LEVEL PC BLP-130 8 STH GEH 4 HARROM LEVEL PC BLP-140 9 STll GEH 1 MIDE LEVEL PC BLI-110 10 STfi GEH 2 MIDE LEVEL QI PC BLI-120 ll STlf GEN 3 MIDE LEVEL gg Qg PC BLI-130

. 12 STN GEH 4 MIDE LEVEL PC BLI-140 CREATE LOG GROUP IHSTRUCTIOHS PRINT LOG I.POSITION CUR50R ON DESIRED FUNCTION

~ -. DIGITAL TREND 2.DEPRESS 5ELECT

0 C COOK UNIT g 20 SEP 89 /3: OO.'O LOB CROUP 59 = EP-NSSSMOQ POINT DESCRIPTION VALUE UNITS TAG NO 1 STEAN FLOM LOOP 1 KBH NFC-110 2 STEAN FLOM LOOP 2 KBH llFC-120 3 STEAN FLOM LOOP 3 KBH NFC-130 4 STEAN FLOM LOOP 4 KBH NFC-140

~8 5 FEBMATER FLOM LOOP 1

~ gg KBH FFC-210 ~lO 6 FEEDMATER FLOM LOOP-2 g gQ KBH FFC-220 "Yo 7 FEBMATER FLOM LOOP 3 g g~ KBH FFC-230 :i+0 J CD 8 FEEDMATER FLOM LOOP 4 FFC-240 KZ.

g g~ KBH

~)w LLJ S flUX FEEDMATER FLOM LOOP1 KBH FFI-210 Qw 10 AUX FEEDMATER FLOM LOOP2 FFI-220 QwZ ig erg KBH

~l 11 AUX FEEDMATER FLOM LOOP3 KBH FFI-230 12 AUX FEEDMATER FLOM LOOP4 KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

LOI GROlJP-0 VN1T C COOK g

20 SEP 89 /3:00. gg LOG GROUP 60 = EP-HSSS-PATHNAY PO1NT .DESCR1PT1ON VALUE UNITS TAG NO 1 STEAN GEH STOP YALVE H01 C c.0 SEAL NR4-210 2 STEAN GEH STOP VALVE H02 c C.OBEAH NRV-220 3 STEAN GEH STOP VALVE H03 c- S.QS~D NRY-230

'$ STEAN GEH STOP VALVE HOO g QSEQ NRV-2'IO c

O~

67. l> t o 5 COHDEHSATE STORAGE TK LY PC CLR-110

~8 gl-6 COND STN DVNP ACTUATIOH NV AcT LA1010 7 NS ATNOSPHERIC RELIEF ACTUATION AcT LA1011 8 O~

Q cD 9 ~ ~) UJ 10 ~la 11

~l-12 C3 CREATE LOG GROUP 1NSTRUCT1ONS PR1NT LOG 1.PO51T10N CURSOR ON DE5IRED FUNCT10N D1G1TAL TREND 2.DEPRESS SELECT

14 D C UNlT g COOK 20 SFP 89 I3:>S:Oo LOG GROUP 54 = EP-ESF-1 POlNT DE5CRIPTlON VALUE UNl TS TAG NO.

1 RUST LEVEL PC ILS-S50 2 SI PHP N TO Lp 1, 0 COLII LEG O.QO Gr H IF I-260 3 SI PIP S TO LP 2, 3 COLD LEG g. QQ GPH IFI-266 0 SIT COLD LEG INJECT FLOM LP1 gQO GP IF I-51 J BIT COLD LEG INJECT FLOM LP2 g QQ GPH IFI-52 6 BIT CDLD LEG INECT FLOH LP3 QQQ GPH IFI-53 7 BIT COLD LEG INJECT FLOH LH ~.QO GPH IF1-51.

8 ACCUMULATOR TKl PRESSURE PSlG IPA-110 9 ACCUHULATOR TK2 PRESSURE PSTG IPA-120 10 ACCUHULATOR TK3 PRESSURE g i q.3g PSlG IPA-130 11 ACCUtIULATOR TKl PRESSURE PSIG IPA-100 12 CREATE LOG GROUP PRlNT LOG i. l NSTRUC T I ONS POSlTlON CURSOR OE5lREO QUNCTgON DIG l TAL TREND 2. DEPRE55 SELECT ON

D C COOK 20 sEP 89 /3'./O'OO LOG GROllP UNIT g LOti GROlJP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTEM/ E FLOH IFI-3)0 2 RHR SYSTEH N FLON Q 00 GPH IFI-320 3 CHTltT SPRAY FRON RHR SYSTB E Q.OO GPV IFI-330 0 CHTNT SPRAY FROll RHR SYSTElt k 0.00 Gf V IFI-331 5 CNTHT TENP PR2R CONP /~ / 0/ DEGF ETR-126 6 H2 CONC TR A HI Q,QQ PC H2-AH 7 CNTHT PRESSURE AVG g./g. PSIG ~

UP1001 8 CNTHT SUNUP NIDE LEVEL ~

4 /0 ~ 5 FT NLI-320 9 CHTHT SUHP NIDE LEVEL 6(O.~S FT NLI-321 10 PZR RELIEF TAHK PRESS PSIG HPA-351 11 PZR RELIEF TAHK TEMP //'V.SV DEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND I. POSITION CURSOR ON DESIRED FUNCTION 2.DEPRESS SELECT

D C COOK LOG GROUP UNIT g 20 sEP 89 I3 '.l5:Q&

LOG GROUP 56 =. EP-RCS-1 POI IjT DESCRIPTION VALUE UNITS TAG NO.

-1 SOURCE RNG DETECTOR 1

+g g+.) LOGCPS NE-31 2 INTERN RNG DET 1 E-II LOGNCANP NE-35 3 RCS MR PRESSURE AVG g5/. 0 4

. 4 PR2R LEVEL AYG g9.9 essa PC UP 1004 UL1003 0

o go

+I-5 P2R LIQUID TEtiP $ /5.0 / OEGF NTA-251 6 P2R VAPOR TEMP 97Q.20 OEGF NTA-252 <aD

7. PRZR HTR GP CPH STATUS OFF. LS9040 Qo CD 8 CHARGING FLOM /QQ.Q GPN OF I-200

~)

9 LET DOMN FLOH 10 SUSCOOLING 0 00 GPN OFI-301

~Z CD 11 73,3) OEGF UT1004 ~I-CE 12 CREATE LOG GROUP INSTRUCTIONS PR. NT LOG 1. POSITION CURSOR ON DESIRED FUNCTION Di t'ITAL TREND 2 DEPRESS SELECT

D C COOK NOtJP UNIT Q zo sar s9 I 3 ' 5 'OO LOG LOG GROUP '57 = EP-PCS-2 POINT DE5CRIPTION VALUE UNIT5 TAG NO.

1 LOOP 1 HOT LEG TENP $ 03 8 g DEGF HTR-110 2 LOOP 2 HOT LEG TENP L/Q g. I g DEGF HTR-120 3 LOOP 3 HOT LEG TEtlP 4/Q Q.S "I DEGF ttTR-130 ,0 I HTR-1'l0 4 LOOP 0 HOT LEG TEtlP QQg. l DEGF I-y 5 LOaP 1 COLD LEG TENP Q5 "f. )Q DEGF HTR-210 6 LOOP 2 COLD LEG TEtlP 35$ . gg DEGF NTR-220 7 LOOP 3 COLD LEG TEtlP DEGF'Q HTR-230 8 LOOP 0 COLD LEG TEtlP ) Q'EGF NTR-200 9 RCP1 CURRENT O-OO AVP RCP1AN 10 RCP2 CURRENT g gQ ANP RCP2AN ANP RCP3AN 11 PCP3 CURPEtIT

~ gg 12 RCPT CUPREtIT ANP RCP%H

~ gg CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1. POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

LOG GROUP O C COOK UNIT +

20 sEP 89 JS.(S LOG GROUP 58 = EP-HSSS S-G POINT OESCR IPTION VALUE UNITS TAG NO.

1 STh GEH OUTLET PRES LP 1 gag )g PSIG hpp-210 2 STh GEN OUTLET'RES LP 2 Q7Q 5g P51G hPP-220 3 STh GEH OUTLET PRES LP 3 4 STh GEH OUTLET PRES LP 4 7 J.6 f PSIG

~47 al PSIG hPP-230 hPP-240 0

C{ u 5 STh GEH 1 NARROM LEVEL gQ. gg PC SLP-110 6 STh GEH 2 NARROM LBEL gS @g PC SLP-120 7 STh GEH 3 NAPROM LEVEL ec SLP-130 Oo cn LBEL BLP-140 8 STh GEN 4 HARROM Rq. tD PC

~) LJJ 9 STh GEH 1 MIDE LBEL Lo.OG BLI-110 10 STh GEN 2 MIDE LEVEL &o ~l PC SLI-120 ~I-ll STh GEH 3 MISE LEVEL PC BLI-130 CE 12 STh GEH 4 MISE LEVEL BLI-140 4o Ib CREATE LOG GROUP IN5TRUCTIONS PRINT LOG 1. P05IT ION CURSOR ON OE5IREO FUNgI ION DIGITAL TREND 2.DEPRESS 5ELECT

LOC GROlJP D C CDOK UHlT Q 20 sEP 89 l3 '. I ~: OD LOC GROUP 59 = EP-NSSSMOM PO1HT DE5CR1PTlOH VALUE UN1TS TAG HO 1 STEAN FLOM LOOP 1 Q OQ KBH NFC-110 2 STEAN FLOM LOOP 2 ~.00 KeH NFC-120'FC-130 3 STEAN FLOM LOOP 3 DOG KBH 4 STEAN FLOM LOOP 4 Q.OO KBH NFC-140

~8 5 FEEDMATER FLOM LOOP 1 ~.QQ KeH FFC-210 ~i-O 6 FEEDMATER FLOM LOOP 2 0OQ KBH FFC-220 7 FEBMATER FLOM LOOP 3 Q.QO KeH FFC-230 :iQ cl CD 8 FEBMATER FLOM LOOP 4 g QQ KBH FFC-240 ILI w

S AUX FEEDMATER FLOM LOOP1 j5,Q I KBH FFI-210 Qw 10 AUX FEEDMATER FLOM LOOP2 5. 6$ KBH FFI-220

~w i

11 AUX FEEDMATER FLOM LOOP3 / Q.gg KBH FFI-230 12 AUX FEEDMATER FLOM LOOP4 lg )Q KBH FFI-240 CREATE LOG GROUP 1NSTRUCTIOHS PRlHT LOG DlGITAL TREND

i. POSlTlOH CURSOR

2. DEPRESS SELECT OH DE51RED FUNCTlON

LOG CROUP 0 C UNIT g COOK 20 SEP 89 ( s: i S: coco PLAINT LOG GROUP 60 = EP-HSSS-PANMAY

.DESCRIPTION VALUE UNITS TAG NO.

1 STEAN GEH STOP VALVE HOl c iQ tlR4-210 2 STEAN GEH STOP VALVE H02 ~ t OSEQ tlRV-220 3 STEAll GEH STOP VALVE H03 ~goS EQ tlRV-230 4 STEAN GEH STOP VALVE H04 ~ LbsEG NRV-240 5 CONDEHSATE STORAGE TK LV gg./ PC CLR-110 6 COND STN DUNP ACTUATIOH (de kc 7- LA1010 7 tlS ATMOSPHERIC RELIEF ACTUATION A.c 7 LA1011 8

9 10 ll 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG i.POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

LOI GROUP D C COOK UNIT Q 20 SEP 89 I9.3o:oo LOIROUP 54 = EP-ESF-1 POINT DESCRIPT ION VALUE UNITS TAG NO.

1 RHST LEVEL 4%.99 PC ILS-S50 2 SI PHP N TO LP 1, 0 COLD LEG O. OQ GPH IFI-260 3 SI PIP S TO LP 2,3 COLD LEti Q.QQ GPH IFI-266 0 IlIT COLD LEG INJECT FLOW LP1 OCO Gt V IFI-51 5 BIT COLD LEG INJECT FLOM LP2 Q CQ GPN IFI-52 f BIT COLD LEG INJECT FLOH LP3 Q QO GPH IFI-53

? IIIT COLD LEC INJECT FLOM LH OM Gt n IFI-54 8 ACCUMULATOR TKl PRESSURE g 1~.34 PSIG IPA-110 3 ACCUHULATOR TK2 PRESSURE $ 17. 3 g P51G IPA-120 10 ACCUHULATOR TK3 PRESSURE g lg.34 PSIG IPA-130 11 ACCUHULATOR TKl PRESSURE g$ Q 36 PSIG

~ IPA-140 12 CREATE LOG GROUP INSTRUCT ION5 PRINT LOG 1 . POSITION CURSOR ON DE51REO FUNCTION DIGITAL TREND 2.DEPRESS SELECT

LOB CROUP D C COOK UNIT Q 20 sHP 89 t3:QQ 'g~

LOr CROUP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTEM E FLOH Q OO GPH IFj-310 2 RHR SYSTEH M FLOM Q.QQ GPH IFI-320 3 CHTNT SPRAY FRON RHR SYSTEtl E ggQ GPH IFI-330 0 CHTIIT SPRAY FROll RHR SYSTEM k QQQ GPH IFI-331 0

~P.

5 CHTHT TEMP PR2R COllP j> J. dion ETR-126 iso 6 H2 CONC TR A HI DEGF',QQ PC H2-AH . jQo 7 CNTltT PRESSURE AVG g Q$ PSIG UP1001 l~ '-

8 CNTHT SUtfP MIDE LEVEL @ )0.25 HLI-320 CA

~ La I Lx I 9 CHTMT SUHP MIDE LEVEL 4 lo.~5 HLI-321 C/J j.,i 10 PZR RELIEF TANK PRESS Q,QP PSIG HPA-351 I

ll,P2R RELIEF TANK TEllP DEGF HTA-351 12

'CREATE LOG GROUP INSTRUCTIONS PRINT LOG i.POSITION CURSOR ON DESIRED. FUNCTION DIGITAL TREND 2 DEPRESS SELECT

D C COOK LOG NOtJP UHIT g  ! 20 sEP 89 l3'.3Q.'Qo LOG GROUP 56 = EP-RCS-1 POIHT DESCRIPTION VALUE UNITS TAG HO.

1 SOURCE RNG DETECTOR 1 ~. Q g+ ) LOGCPS 2 INTERN RNG DET 1 5 Ol G il LOGNCANP NE-35 3 RCS MR PRESSURE AVG 0 PRZR LEVEL AVG 975.QQ PSIG 6'7 1 fc UP1004 UL1003 0

5 PZR LIQUID TNP 860. 0 J DEGF NTA-251 +I-6 PZR VAPOR TEtlP 940.Vg DEGF'E-31 DEGF NTA-252 +

O~

Z 7 PRZR HTR GP CPH STATUS or-< LS9040 Q cn 8 CHARGING FLOM lOO 0 GPV OF I-200 LLJ 9 LET DOMN FLOH GPN GFI-301 ~us MLU 10 SUSCOOLING li g g, / UT 1000

~I-CE 12 CREATE LOG GROUP INSTRUCTIONS PR. NT LOG I.POSITION CURSOR ON DESIRED FUNCTION DIl'ITAL TREND 2. DEPRESS SELECT

0 S

LOG CROUP D C COOK UHIT Q 20 sEP 89 l 3 'O: OO LOG GROUP 57 = EP-PCS-2 POINT DESCRIPTION VALUE UNITS TAG NO.

1 LOOP 1 HOT LEG TBP ggc-f () ( DEGF HTR-110 2 LOOP 2 HOT LEG TEllP gQ +gal DEGF HTR-120 3 LOOP 3 HOT LEG TEltP ~ 5 gQ DEGF'Q</.g3 NTR-130 HTR-140 4 LOOP 4 HOT LEG TEttP DEGF HTR-210

<Ql 5 LOOP 1 COLD LEG TEltP ~Qg g I DEGF 6 LOOP 2 COLD LEG TEMP gpss. J) DEGF HTR-220 TBP HTR-230 IOocn

? LOOP 3 COLD LEG Q Q 5,'VQ DEGF'pss S LOOP 4 COLD LEG TEl1P Q/ DEGF HTR-240 9 RCP1 CURREHT AHP RCP1Alf .U X Pa 10 RCP2 CURRENT AHP RCP2Ati ~I-11 PCP3 CURRENT AHP RCP3AN CE

~ gg 12 RCP4 CURRENT AHP RCP4BH 00 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREHD

i. POSITION CURSOR 2.DEPRESS SELECT OH DESIRED FUNCTION

LOG GROUP D C COOK UNIT g 20 sEP 89 I p ~

p~ 'Q LOG CROUP 5& = EP-HSSS S-G POINT DESCRIPTION VALUE UNITS T4G NO.

1 STN GEN OUTLET PRES LP 1 PSIG lfPP-210 2 STll GEH OUTLET PRES LP 2 BGl.<b PSIG NPP-220

~5 l. ~~

3 STN GEH OUTLET PRES LP 3 4 STlt GEH OUTLET PRES LP 4 B"l I. tD PSIG PSIG I1PP-230 HAPP-240 0

f 8 go gl-5 STN GEH 1 NARROM LEVEL RQ.F7 Pc BLP-110 6 STN GEH 2 HARROM LBEL QS.QQ Pc BLP-120 7 STtl GEH 3 NARROM LEVEL H5.Q3 PC BLP-130 O~ Cn 8 STh GEH 4 NARROM LEVEL ggg/ pc BLP-140 QZ

~)

+td 9 STll GEH 1 NIDE LBEL PC BLI-110

~ CD 10 STh GEH 2 NIDE LEVEL'l 0 g) PC . BLI-120 ~l-STN GEH 3 MIDE LEVEL 3 PC BLI-130 Cl 12 STN GEH 4 MIDE LEVEL gO.lh PC BLI-140 CRE4TE LOG GROUP IN5TRUCTIONS PRINT LOG I.P05ITION CUR50R ON DE51RED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

D C COOK UNIT Q 20 sEP 89 J 3: '30 'Q+

LOt GROUP 59 = EP-NSSSMOM POINT DESCRIPTION VALUE UNITS raa NO 1 STEAN FLDN LOOP 1 ~,QQ KBH NFC-110 2 STERN FLON LODP 2 Q QQ KBH llFC-120 3 STEAN FLOM LODP 3 NFC-130

~ QQ KBH 0 STEAN FLOk LOOP 0 ~,gg KBH llFC-1'$0 5 FEBNATER FLON LOOP 1 gO g QQ KBH FFC-210 O X

6 FEEDNATER FLON LOOP 2 Q QCI KBH FFC-220 "Yo 7 FEBMATER FLON LODP 3 g,QQ KBH FFC-230 :iQ o J CA 8 FEBMATER FLOk LODP 4 KBH FFC-240 WZ 0 QQ

.~ )

UJ S AUX FEEDNATER FLOM LODP1 KBH FFI-210 10 AUX FEEDNATER FLOM LOOP2

,< ~> KBH FFI-220 Z ll AUX FEEDNATER FLOM LOOP3 i5 gg KBH FFI-230 12 AUX FEEDNATER FLOM LOOPO t5 j~ KBH FFI-2%

CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POS IT ION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

0 0 C COOK gQ.

UNIT g 20 SEP 89 i Q ~

P~ ~

LOG GROllP'0-= EP-HSSS-PATHQAY POINT .0E5CRIPT ION VALUE UNITS TAG NO.

1 STEAN GEH STOP VALVE H01 cmSEQ tlR4-210 2 STEAN GEH STOP VALVE H02 C I OSrQ tlRV-220 3 STEAtl GEH STOP VALVE H03 QLds E D tlRV-230

'l STEAN GEH STOP VALVE H04 ~I OSGQ NRV-240 0<

~B 5 CONDEHSATE STORAGE TK LV N~ AcP 4<.O PC CLR-110

~8 6 COND STtl DUliP ACTUATIOH LA1010 7 tlS ATNOSPHERIC RELIEF ACTUATION AC.T LA1011 <o 8 O~v)

Q 9 g~) LLI 10 ~ld 11

.12

~I-C3 CREATE LOG GROUP IN5TRUCTIONS PRINT LOG DIGITAL TRENO

i. POSITION CUR5OR 2.0EPRESS SELECT ON OE5IREO FUNCTION

LOI CROUP O C COOV, UNIT g 20 SEP 89 I 3:VS: oc LOG GPOUP 54 = EP-ESF-1 POINT DESCRIPT ION VALUE UN I TS TAG NO.

1 RUST LEVEL PQ.QQ PC ILS-950 2 Sl PHP N TO LP 1,0 COLD LEG O 00 GPH IFI-260 3 SI PIP S TO LI',3 COLD LEG O.OO GPH IFI-266 0 BIT COLD LEG IHJECT FLOM LP1 0 00 GPH IFI-51 5 BIT COLD LEG INJECT FLOW LP2 ~.OG GPH IFI-52 6 BIT CDLD LEC ItlJECT FLOH LP3 +,QQ GPH IFI-53

? BIT COLD LEG INJECT FLOM LH g.OO GPH IFI-54 8 ACCUMULATOR TK1 PRESSURE pic 34 PSIG IPA-110 9 ACCUHULATOR TK2 PRESSURE g i-7. 3g P5I G IPA-120 10 ACCUHULATOR TK3 PRESSURE P5IG IPA-130 11 RCCUHULATOR TKl PRESSURE ala 3(o P51G IPA-140 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR ON OESIREO FUNCTION

2. OEPRE55 SELECT

D C COOK UNIT Q. 20 SEP 89 /3: /5.'Do LOri GROVP 55 = EP-ESF-2 POINT .DESCRIPTION VALUE UNITS TAG NO.

1 RHR SYSTEtl E FLOH ~ g~ GPH IFl-310 2 RHR SYSTEH lt FLON Q.QO GPH IFI-320 3 CHTtlT SPRAY FROtl RHR SYSTEtl E C 00 GPH IFI-330 0 CHTtlT SPRAY FROtl RHR SYSTEtl M C>.QO IFI-331 5 CHTHT TEtlP PRZR COllP g> a.9/ OEGr ETR-126 6 H2 COHC TR A HI QQQ PC H2-AH 7 CNTtIT PRESSURE AVG O.gw PSIG UP1001 8 CNTHT SUtlP MIDE LEVEL @iO.aS FT HLI-320 9 CHTtlT SUHP RIDE LEVEL gio25 "T HLI-321 10 PZR RELIEF TANK PRESS Q.gg P5IG HPA-351 11 PZR RELIEF TANK TEtlP DEGF HTA-351 12 CREATE LOG GROUP INSTRUCTIONS PRINT LOG PO51TION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2-DEPRESS SELECT

LOG GROUP D C UNIT COOK g 20 SEP 89 l3: V3 'OO LOG GROUP 56 = EP-RCS-1, POIHT DESCRIPTION VALUE UNITS TAG HO.

1 SOURCE RNG DETECTOR 1 + Q P~ J LOGCPS NE-31 2 INTERti RNG DET 1 5~) t- -f J LOGNCAHP NE-35 3 PCS .MR PRESSURE AVG PSIG UP1004 4 PRZR LEVEL AVG PC UL1003 5 P2R LIQUID TENP QQ5. Q f DEGF NTA-251 6 P2R VAPOR TEMP QQ3 OEGF NTA-252 7 PRZR HTR GP CPH STATUS OF> LS9040 8 CHARGING FLOM

/OO 0 GPH OF I-200 9 LET DOMN FLOH 0.0g GPN GFI-301 10 SUBCOOLING DEGF UT1004 ll 12 CREATE LOG GROUP INSTRUCTIONS PR. HT LOG I.POSITION CURSOR OH DESIRED FUNCTION DI CITAL TREND 2.DEPRESS SELECT

D C COOK UNIT 20 SEP 89 iz:VS:oQ LOG GROUP 57 = EP-PCS-2 POINT DE5CRIPT ION VALUE UNIT5 TAG NO.

1 LOOP 1 HOT LEG TEtlP gag 9 DEGF HTR-110

(

2 LOOP 2 HOT LEG TEtlP DEGF HTR-120 3 LOOP 3 HOT LEG TEllP Q Q Q.5Q DEGF HTR-130 ,O 4 LOOP 4 HOT LEG TEMP ~S'Q.O I DEGF HTR-140 I-y 5 LOOP 1 COLD LEG TEllP 333 . l Q DEGF HTR-210 i+i 6 lOOP 2 COLD LEG TEtlP g HTR-220 .<o

? LOOP 3 COLD LEG TEtlP t DEGF'EGF HTR-230 IOocn 8 LOOP 4 COLD LEG TEtlP g~ DEGF HTR-240 RCP1 CURREHT Q. QQ AMP RCPlAN

~ LLI Lal 10 RCP2 CURREHT g QQ ANP'x<

RCP2AN ~l-11 PCP3 CURPEHT RCP3Atl C3 12 RCP4 CURREHT g gg ANP RCP4AH CREATE LOG GROUP INSTRUCTIONS PRINT LOG 1. POSITION CURSOR ON DESIRED. FUNCTION DIGITAL TREND 2.DEPRESS SELECT

LOG CROUP D C COOK UNIT g 20 SEP 89 i3:VS.OO LOG CROUP'58 = EP-HSSS S-G POINT OESCR IPTI OH VALUE UHI TS T4G NO.

1 STN GEN OUTLET PRES LP 1 PSIG tlPP-210 1

2 STll GEN OUTLET PRES LP 2 PSIG tlpp-220 3 STli GEN OUTLET PRES LP 3 >3Q. f'f PSIG NPP-230 4 STli GEH OUTLET PRES LP 0 3X l.~ I P51G NPP-240 O

~c) 5 STN GEH 1 NARROM LEVEL 9g.Q'g PC BLP-110 6 STll GEN 2 HARROM LEVEL PC BLP-120 7 STtl GEH 3 HARROM LEVEL PC BLP-130 Qo cn BLP-1%

8 STtl GEH 0 NARROM LEVEL QQ.PD PC

~) UJ S STll GEH 1 MIDE LEVEL PC BLI-110

~Z CO 10 STli GEH 2 MIDE LEVEL ll STN GEN 3 MIDE LEVEL

~ g'(

do~~"

PC BLI-120 BLI-130

~I-CE 12 STD[ GEH 0 MISE LEVEL PC BLI-100 CRE4TE LOG GROUP INSTRUCTIONS PRINT LOG I. POSITION 5ELECT CUR50R OH DESIRED FUNCTION DIGITAL TREND 2.DEPRESS

0 C COOK UNIT Q 20 SEP 89 iz:VS. CO LOti NOVP 59 = EP-NSSSMOM POINT DESCRIPTION VALUE UNITS TAG NO.

1 STEAN FLOM LOOP 1 D.QQ KBH NFC-ll0 2 STEAN FLOM LOOP 2 0 QO KBH NFC-120 3 STEAN FLOM LOOP 3 O. OQ KBH NFC-130 4 STEAN FLOM LOOP 4 Q.OQ KBH NFC-140 5 FEEDMATER FLOM LOOP 1 Q,Qg KBH FFC-2l0 6 FEEDMATER FLOM LOOP 2 Q.QQ KBH FFC-220

? FEEDMATER FLOM LOOP 3 Q,QQ KBH FFC-230 8 FEEDMATER FLOM LOOP 4 Q,QQ KBH FFC-240 9 AUX FEEDMATER FLOM LOOPi KBH FFI-210 10 AUX FEEDMATER FLOM LOOP2 ) 5. Qg KBH FFI-220 ll AUX FEEDMATER FLOM LOOP3 KBH FFI-230 12 AUX FEEDMATER FLOM LOOP4 i5 )L/ KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINT LOG OIGIT4L TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

- D C COOK 20 SEP 89 <3:95.QO LOG GROijP UNIT g I LOG GROUP 60 = EP-NSSS-PATHMAY POINT .DESCRIPTION VALUE UNIT5 TAG NO.

1 STEAN GEN STOP VALVE NOl c.<oSF Q liR4-210 2 STEAN'GEH STOP VALVE N02 c-t @SEE NRV-220 3 STEAN GEH STOP VALVE HO3 C,wo&E~ NRV-.230 4 STEAN GEH STOP VALVE HO4 +LOS ED IfRV-240 0<

5 CONDENSATE STORAGE Ttl LV 45. 3 PC CLR-110 6 COND STtl IIUtlP ACTUATIOH NT AcT LA1010 ~l-7 IlS ATtlOSPHERIC RELIEF ACTUATION AC.T LA1011 <o 8 Qocn LI I~)

10 ~ LLI I Lj ll ~l-12 C3 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

t. POSITION CUR5OR 2.DEPRESS 5ELECT ON DE5IRED FUNCTION

LOIROtJP 0 C COOK 20 SEP 89 /'7: DQ.'<

UNIT +

LOC GROUP 54 = EP-ESF:1 POlHT DESCR1PT1ON VALUE UN 1TS TAG NO.

1 RUST LEVEL DPB tPC ILS-S50 2 SI F'HP N TO LP 1, 0 COLD LEG C.O~ GPg IFI-260 3 S! PIP S TQ LI', 3 COLD LEG O OQ GPH IFI-266 0 BIT COLD LEI INJECT FLOM LP) Q.OQ GPH IFI-51 5 SIT COLD LEt INJECT FLOW LP2 QbO GPV IFI-52 6 BIT COLD LEG INJECT FLOH LP3 O-OO GPN IFI-53 7 BIT COLD LEG INJECT FLOM LH Q.OQ GPN IF I-51 8 ACCUtIULATOR TK) PRESSURE Q t7.>( i51G IPA->>0 9 ACCUHULATOR TK2 PRESSURE g /7.Q Q P51G IPA-120 10 ACCUHULATOR TK3 PRESSURE g Jg.94 SS1G IPA-130 11 ACCUHULATOR TKR PRESSURE

$ t 7.QQ P5IG IPA-)40 12 CREATE LOG GROUP 1NSTRUC T 1 ONS PR1NT LOG D1G1 TAL TREND

i. P051T1ON CURSOR SELECT ON OE51REO FUNCT1ON 2-DEPRESS

D C COOK LOG GROUP UNIT g 20 SEP 89 I /:OO.OC LOG GROUP 55 = EP-ESF-2 PO1NT .OESCRIPTIOH VALUE UN I.TS TAG NO.

1 RHR SYSTEh E FLOH +. QQ GPH IF1-310 2 RHR SYSTEH 1 FLOll ~.QQ GPN IFI-320 3 CHThT SPRAY FROtl RHR SYSTEh E GPV IFI-330 0 CHThT SPRAY FROh RHR SYSTEh M g.QO GPK IFI-331 .0 I

c.

5 CHTHT TEhP PRZR COllP j~g.. ~ DEGF ETR-126 jc(o 6 H2 COHC TR A HI Q~QQ PC H2-AH (5o 7 CtITHT PRESSURE AYG ~.OO PSIG UP1001 8 CtITHT SUtlP ltIDE LEVEL iO. >S FT NLI-320 ,'J V)

Wz4I UI 9 CHTtlT SUtlP RIDE LFVEL 4 >O.>S FT HLI-321 I~ l/lI:i 10 PZR RELIEF TANK PRESS Q. gg PSI G HPA-351 'ar j~,i 11 PiR RELIEF TAHV, TEhP // 'P, P Q OEGF HTA-351

~

~l a 12 CREATE LOG GROUP INSTRUCT ION5 PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED FUNCTION

D C COOK LOG GROUP UNIT g 20 SEP 89 (q gg,~~

~

LOG GROUP '56 = EP-RCS-1 POINT DESCRIPTION VALUE UNIT5 TAG NO.

1 SOURCE RNG DETECTOR 1 LoGcPs NE-31 2 INTER'NG DET 1 g,gi Q J i L0GNcANP NE-35 3 FCS MR PRESSURE 4 PRZR LEVEL AVG AVG PSIG Pc OP1000 OL1003 0

1 8

5 PZR LIQUID TEllP QQ. 0 X DEGF NTA-251 6 PZR VAPOR TEtlP gag, 0 Io OEGF NTA-252

? PRZR HTR GP CPH STATUS gFP LS9040 Oocn 8 CHARGING FLOM /O~.Q GPN OFI-200

~.~ ~UJV) 9 LET DOMN FLOH GPtl OFI-301

~

~Z 10 SOSCOOLING pg Q DEGF UT1004

~l-11 12 a

CREATE LOG GROUP IN5TRUC T I ONS PR. NT I.POSITION CURSOR ON DESIRED FUNCTION ITAL TREND LOG'IC

2. DEPRE55 5ELECT

0 C COOK UNIT Q 20 sEP 89 I 9.00 ~~

~

LOG GROUP 59 = EP-NSSSMOM POINT DESCRIPTION VALUE UNITS TAG NO 1 STEAN FLOM LOOP 1

~.ag KBH NFC-110 2 STEAN FLOM LOOP 2 ~ Qa KBH NFC-120 3 STEAN FLOM LOOP 3 g pg KBH IlFC-130 4 STEAN FLOM LOOP 4 Q,QQ KBH ttFC-140 5 FEEDMATER FLOM LOOP 1 FFC-210 g QQ KBH 6 FEEDMATER FLOM LOOP 2 FFC-220

~ QO KBH 7 FEEDMATER FLOM LODP 3 KBH FFC-230 8 FEEDMATER FLOM LOOP 4 KBH FFC-240 S AUX FEEDMATER FLOM LOOPl l5 O~ KBH FFI-210 10 AUX FEEDMATER FLOM LOOP2

>5<3 FFI-220 li AUX FEEDMATER FLOM LOOP3

)gg 7 KBH FFI-230 12 AUX FEEQMATER FLOM LOOP4

/5 Oq KBH FFI-240 CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR

2. DEPRESS SELECT ON DESIRED FUNCTION

D C COOK UNIT @ 20 SEP 89 I'I:00: og LOG GROUP 57 = EP-RCS-2 POINT DESCRIPTION VALUE UNITS TAG NO 1 LOOP 1 HOT LEG TEtlP ~

g 7P. I 0 DEGF HTR-110 2 LOOP 2 HOT LEG TEtlP G'F 2-lg DEGF HTR-120 3 LOOP 3 HOT LEG TEtlP Q 8'g. l "t DEGF HTR-130

,O~

+73". 5 I 4 LOOP 4 HOT LEG TEtlP DEGF HTR-140 I-y 5 LOOP 1 COLD LEG TEtlP p p p.g3 DEGf HTR-210

, 6 LOOP 2 COLD LEG TEtlP A>7. 43, DEGF'P NTR-220

? LOOP 3 COLD LEG TEtlp C. l9 OFGF HTR-230 8 LOOP 4 COLD LEG TEtlP QQ9 l Q DEGF HTR-240 9 RCP1 CURRENT ~.QQ AMP RCP1Atl 10 RCP2 CURREHT ~ Q() AHP RCP2Atl 11 PCP3 CURPENT ANP RCP3AN 12 RCP4 CURRENT ANP RCP4AH CREATE LOG GROUP INSTRUCTIONS PRINT LOG DIGITAL TREND

i. POSITION CURSOR 2.DEPRESS SELECT ON DESIRED. FUNCTION

'OG D C COOK 20 SEP 89 iV'OO. DO GROUP UNIT g LOG GROVP 60 = EP-HSSS-PATHMAY POINT .DESCRIPTION VALUE UNITS TAG NO.

1 STERN GEH STOP VALVE H01 c.woS E 5 tlR4-210 2 STEAtl GEH STOP VALVE H02 C. LOQEQ tlRV-220 3 STEArl GEH STOP VALVE HO3 c.~ ~$ 8& tlRV-230 0 STEBtl GEH STOP VALVE HOO ~ go SE'Q NRV-240 5 CONDEHSATE STORAGE TK LV ec CLR-110 6 COND STtl DVNP ACTllATION AT'ET'c7 LA1010 7 llS ATtlOSPHERIC RELIEF ACTllATIOH LA1011 8

9 i~)LLI 10

~wX 11 12

~l-CREATE LOG GROUP INSTRUCTIONS PRINT LOG I POSITION CURSOR ON DESIRED FUNCTION DIGITAL TREND 2.DEPRESS SELECT

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE VII. D. THERMOCOUPLE MAPS Since the sequence of events in this 'scenario do not result in elevated core temperatures only one (normal) thermocouple map is provided in the event of simulator failure.

Reactor coolant temperature during cooldown may be taken from OTSC log data.

ERE-09/20/89 7D-1

k

~

C k

DRILL DATA 1989 COOK PLANT GRADED EXERCISE DRILL DATA THERMOCOUPLE DATA Date 9/20/89 Ti~e 0800 Core Exit Ave. 592 OF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 594 587 B 570 587 587 570 594 587 570 587 599 599 587 598 598 599 598 587 598 599 598 598 587 594 599 596 596 599 594 594 599 596 596 599 594 594 596 599 587 598 598 587 587 587 587 599 599 598 587 598 598 598 587 570 570 594 594 570 587 594 587 587 594 587

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE VIII. A. IN PLANT RADIATION DATA The following dose rates are provided for use by the Radiation Protection Director in the OSA and by the Damage Control Teams working throughout the Plant.

Dose rates are provided for fifteen minute intervals from 0830 to 1115.

The dose rates indicated in the table will be provided only after players have requested such information.

ERE-09/20/89 8A-1

0'N El.

AREA 573 3

0845 0846-0900 0901>>

0915 PLANT DOSE RATES 0916-0930 0931-0945 1000 mR 0946-hr 1001-1015 TIME 1016-1030 1031-1045 1046-1100 1101-1115 Outside CTS Pump Rooms 61.2 33 18 10 utside RHR Pump Rooms 35.2 19 11 6 3 3 3 3 3 2 2 ump Rooms 1,270 700 379 208 113 107 102 97 92 87 &2

-S Corridor 24 13 7 4 2 El. 587 591 estzbule 13 Est Aux. Bld.

Sampling Room 2.0 Spray Additive Tank Room 13.2 Est of Charging Pump Room 19.3 Charging Pump Rooms 300 166 91 50 27 25 22 20 18 17 17

-W Corridor 45 25 14 7 3 3 3 3 2

-S End 90 50 27 15 8 7 7 6 5 5 5 Outside SI Pumps 68 37 20 El. 609 CTS Hx Rooms 542 294 163 89 49 44 40 '36 33 31 30 RHR Hx Rooms 399 216 119 65 36 33 30 27 24 23 22 Corridor between Hx's

-S Corridor 18 10 Sth End of Aux.

estibule 13

• As read dose rates.

ERE-09/20/89 8A-2

IN PLANT DOSE RATES mR r TIME 0830- 0846- 0901- 0916- 0931- 0946- 1001- 1016- 1031- 1046- 1101 0845 0900 091.5 0930 0945 1000 1015 1030 1045 1100 1115 El. 633 Area 1020 559 305 167 92 83 76 68 62 59 56 etween Ietdown Hx 216 118 65 35 19 18 16 15 13 12 round Control Rooms El. 650 ot Machine Shop 24 13 7 Refuel Floor 7 2 st End

• As read dose rates.

ERE-09/20/89 8A-3

IN-PLANT AIRSAMPLE RESUI TS Elev. 573 587 609 633 650 Tame 0845 1.2E-9 4.23E-ll 9.4E-10 6.00E-11 3.60E-9 4.30E-10 1.30E-10 4.31E-10 1.46E-lo 3.26E-11 0900 1.3E-9 4.30E-ll 9.7E-10 4.23E-ll 4.79E-9 4.41E-10 1.29E-10 3.12E-10 1.50E-10 4.10E-ll 0915 1.1E<<9 8.40E-ll 1.1E-9 8.40E-ll 5.50E-9 9.31E-10 2.41E-10 2.59E-10 2.25E-10 3.12E-ll 0930 2.0E-9 9.20E-11 1.3E-9 9.20E-ll 1.34E<<8 1.45E-9 1.21E-10 5.41E-10 3.10E-10 6.79E-11 0945 2.25E-9 5.62E-10 1.3E-9 1.00E-10 2.40E-7 2.61E-8 4.36E-9 9.26E-10 3.02E-10 3.09E-11 1000 3.00E-9 7.5E-10 1.3E-9 5.32E-10 4.12E-7 3.12E-7 3.14E-9 1.32E-9 1.07E-10 2.10E-11 1015 6.28E-9 1.31E-9 1.2E-9 6.29E-10 4.37E-7 5.92E-8 5.23E-9 1.43E-9 1.42E>>10 4.55E-ll 1030 9.30E-9 6.33E-9 1.4E-9 8.10E-10 5.65E-7 9.36E-8 7.49E-9 2.01E-9 2.3E-10 3.33E-11 1045 3.12E-9 9.12E-10 9.4E-10 7.10E-10 4.01E-7 4.31E-8 3.21E-9 8.73E-10 1.63E-10 1.21E-11 1100 2.41E-9 6.2E-10 9.7E-10 5.34E-10 4.6E-9 3.39E-10 2.41E-10 6.01E-10 1.51E-10 2.1E-11 1115 6.09E-10 4.40E-10 1.4E-9 4.41E-ll 3.42E-10 4.20E-10 5.67E-10 3.12E-10 1.04Elo 2.02E-11 1130 6.10E-lo 3.50E-10 1.0E-9 3.20E-11 3.45E-10 1.31E-10 3.23E-lo 3.00E-lo 2.21E-10 1.90E-ll (1) Highest air sample concentrations are at source (RHR pumps and associated Heat Exchangers).

Concentrations decrease the farther from the source the air sample is collected.

(2) 25% 1 MPC for Iodine = 2.25E-09 pCi/cc (9.0E-09)

(3) 25% 1 MPC for Particulates (unidentified)= 7.5E-10 pCi/cc (3.0E-09)

(4) All results in pCi/cc ERE-09/20/89 8A-4

DONALD C.. COOK NUCIEAR PLANT EMERGENCY RESPONSE EXERCISE VIII. B. ON SITE RADIATION DATA The on site, out-of-plant radiological conditions are attributed to the release from the Unit 2 containment (designed leakage}.

Maps will be provided for use by the On Site Survey Team Controllers. Maps are provided for fifteen minute intervals from 0845 to 1115.

The dose rates and contamination levels indicate in the tables will be provided to the survey teams only after the teams have demonstrated the correct procedure for obtaining dose rates.

ERE-09/20/89 8B-1 1

Dose, @ches ig mg /h

/PRAT PUUP SPRAY 0

PUUP If /tt gt 70- CI 0 QAT~HT

'SPRAT CQMTAPIVEVT SPRAY I ~SIP rIW

/4)O- 'LO Aft'IAL L IR AI IICMLVAL PI~

~ IL 9'8 35- b tO I t70 I<<fSCUAL tEAT Rf S/AIAI I%AT << ~

RTIICVAL PUUP

~ IW

/tw ~ '

\

I PPE T<<PAL PASS, Da<< ~

QQED - olbo ELCV CIIIW (mRJ h.) fRECHT K'tVAIOI

~00 acO "VLS

~ ALII /P IAIPIS IA) 8.5" I

8.5" 11U

1 t

,,,,1 0$ ho oR30 O. 0033

( a/h.)

O~. n" I

I iX -c2 P

.J l~

tj 300- So OO C=-~-3 OO 300'0

~ 0 OO 090

~ RO l5~

oo ao 000 r"

I

~ r ae 0000 0000; II I -=:

I I

L L

~ I

4 c $ 30 - o930 IP' CS 0O 0

0 T I 0

IQ pg 0 0 ~

O

~

J I

3'9-Q 0

0

( f~Jq J z

LI l

a 'vb=

A k

hi

~ r ae 0 l

\

O'll I I ~

~+ ~ ~e

000 g)30 - 0 830

( a/s) 02'11

<uCL st C

g Cl OO

' as read.

tlat' LL O'8-

/4 IIAT PUW>'E SILAT

,0 io 0 204- 2

'/ ~

// 0 Col TAIIICIIT

'/4/IAT

~ ~

C71 TA//Mf/IT TPIIAT a II/4 aa

//'

Zow-kfCE: '44 IP AI

~ // /' >fMf"/'4' 1/f MONAL PIT/M/

'/f

~ lf 9'8

// / DA-SQ Ilf/fIML &AT RfVXMI tlfAT Pf MOVA. PUMP IITIIfI/44 IIW

- I 1l5 sr'XI ~ ~00 Oqzo PPf TUB I/e!/ + I III

( a/h.)

I /Lll rr f;f. 0

'CS NVl .&

I/k//

If\

8.5"

A l~

1 l

I

.. 0)

~ I I

Z-as <co L

O~

2

'W'O,)

cLS ~

CC a-as~(

~g

.J

~ ~

~ ~ (

~c~

OO OO Cl aS rca II 3 Lj,,f D 5 OO 0~0

~IS-5~ 00 00

,l i e eon OOOO QQQ GOOD;;

I

~l 4 ~c I

L L l.

DI 0

0 II 0 0 K -b8 0

4

~ ~

44

~ 0 ~

4S ~

~ 4 ~

I

.I J

I ~

t I'

0QEO- II I5

(~ R/h~)

07

%PC1l <AL AT a,s reacL OO

)

ON-SITE, OUT OF PLANT DATA DOSE RATES (mR/hr) FROM CONTAINMENT AIR SAMPLE DATA (pCi/cc)

TIME 40 ft. 5 100 ft. Particulates Iodine 0830 0845 20.0 5.14 < 7.5 E-10 2.82 E-4 0846 0900 14.3 3.7 7.5 E-10 2.84 E-4 0901 0915 10.2 2.6 7.5 E-10 2.84 E-4 0916 0930 7.3 2.0 7.5 E-10 2.85 E-4 0931-- 0945 6.8 7.5 E-10 2.85 E-4 0946 1000 6.4 < 7.5 E-10 2.86 E-4 1001 1015 5.9 7.5 E-10 2.85 E-4 1016 1030 5.5 7.5 E-10 2.87 E-4 1031 1045 5.3 7.5 E-10 2.87 E-4 1046 1100 5.0 7.5 E-10 2.62 E-4 1101 1115 4.8 < 7.5 E-10 < 2.25 E-9 1116 1130 4.6 V-5 E-10 < 2.25 E-9

• As read value dpm/100 cm mRad/hr (5 cm. from surface)

TIME 40 ft. ~ 100 ft. 40 ft. 5 100 ft.

0830 0845 4.96 E-7 9.39 E-6 1.49 E-3 281 0846 0900 4.96 E-7 9.39 E-6 1.49 E-3 281 0901 0915 5.06 E-7 9.39 E-6 1.49 E-3 281 0916 0930 5.16 E-7 9.42 E-6 1.49 E-3 281

-0931 0945 5.86 E-7 9.43 E-6 1.49 E-3 281 0946 1000 6.96 E-7 9.55 E>>6 1.49 E-3 287 1001 1015 7.96 E-7 9.72 E-6 2.39 E-3 292 1016 1030 8.12 E-7 9.88 E-6 2.44 E-3 296 1031 1045 8.31 E-7 1.02 E-7 2.49 E-3 306 1046 1100 8.31 E-7 1.09 E-7 2.49 E-3 327 1101 1115 8.29 E-7 1.21 E-7 2.49 E-3 363 1116 1130 8.50 E-7 1.03 E-7 2.55 E-3 309 ERE-09/20/89 8B-2

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE VIII. C. DOSE PROJECTION DATA This section is intended to serve as a base reference for the environmental assessment controller to determine the validity of dose projections performed by the players. It is not anticipated that the players will obtain the exact results contained in this scenario due to variance in the assumptions used.

The assumptions applied in the scenario dose projections are as follows:

RELEASE DURATION: Started at 0827, ran with 8.0 hours0 days <br />0 hours <br />0 weeks <br />0 months <br /> and decreased at 0.25 hour2.893519e-4 days <br />0.00694 hours <br />4.133598e-5 weeks <br />9.5125e-6 months <br /> intervals thereafter.

2 ~ COOLANT ACTIVITY: Selected failed fuel (cladding failure) gap activity release.

3. TIME OF SHUTDOWN: Assumed 0833.

ERE-09/20/89 8C-1

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE VIII. C. DOSE PROJECTION DATA CONTINUED Scenario predictions of dose projection results are given in the following table. The definition and units associated with tabulated dose projection parameters are as follows:

DR b

- Whole body dose rate in mrem/h.

wb Whole body dose in mrem. This is the projected dose, not the integrated dose.

DRth- Thyroid dose rate in mrem/h.

thy Thyroid dose in mrem. This is the projected dose, not the integrated dose.

R - Average gamma energy in MeV.

qng Noble gas release rate in Ci/s.

q, Iodine 131 equivalent release rate in Ci/s.

EAL - Classification mandated by dose; In addition to the dose projection data, this section also provides meteorology data and forecast. This data should be provided only after the player has successfully demonstrated the ability to obtain it.

ERE-09/20/89 SC-2

DOSE PROJECTION RESULTS IME DISTANCE DRwb "- 'Dwb "" DRth Dth E n EAL 0845 SB 5.45E-02 3.95E"01 2.09E+02 1.52E+03 ALERT 2 Mile 6.51E-03 4.72E-02 1.14E+Ol 8.26E+Ol 2.08E-01 1.70E-02 2.37E-03 5 Mile 1.48E-03 1.07E-02 2.17K+00 1.57K+01 10 Mile 4.44E-04 3.22E-03 6.18E-Q1 4.48E+00 FGH 0900 SB 4.90E-02 3.68E-01 2.00E+02 1.50E+03 ALERT 2 Mile 5.87E-03 4.40E-02 1.09E+Ol 8.17E+01 1.99E-01 1.61E-02 2.27E-03 5 Mile 1.33E-03 9.97E-03 2 '8E+00 1.56E+Ol 10 Mile 4.00E-04 3.00E-03 5.91E-01 4.43E+00 FGH 0915 SB 4.45E-02 3.45E-01 1.92E+02 1.49E+03 2 Mile 5.32E-03 4.13E-02 1.05E+Ol 8.10E+Ol 1.90E-01 1.53E-02 2.17E-03 5 Mile 1.21E-03 9.35E-O 1.99E+00 1.54E+01 10 Mile 3.63E-04 2.81E-03 5.67E-01 4.39E+00 0930 SB 4.01E-01 2.40E-01 1.82E+02 1.09E+03 ALERT 2 Mile 4.79E-03 2.88E-02 9.93E+00 5.96E+Ol 1.82E-Ol 1.44E"02 2.07E-03 5 Mile 1 '9K-03 6.52E-03 1.89E+00 1.14E+Ol 10 Mile 3.27E-04 1.96E-03 5.38E-01 3.23E+00 DEF 0945 SB 3.74E-02 2.52E-01 1.79E+02 1.21E+03 2 Mile 4.47E-03 3.02E-02 9.75E+00 6.58E+Ol 1.74E-01 1.40E-02 2.03E-03 5 Mile 1.01E-03 6.84E-03 1.86E+00 1.25E+Ol 10 Mile 3.05E-04 2.06E-03 5.29E-01 3.57E+00 DEF 1000 SB 3.31E-02 2.15E-01 1.67K+02 1.08E+03 2 Mile 3.96E-03 2.58E-02 9.0&E+OQ 5.90K+01 1.67E-Ol 1.29E-02 1.89E-03 5 Mile 8.98E-04 5-84E-03 1.73E+00 1.13E+Ol 10 Mile 2.70E-04 1.76E-03 4.,93E-01 3.20E+00 DEF

>>" = Dose Rate in mR/hr., -- = Dose in mR, -':' Energy in Hev/Dis. 1/ = Release rate in Ci/sec.

~ II<

C

~ ~

DONALD C. COOK NUCZEAR PLANT EMERGENCY RESPONSE EXERCISE VIII. D. METEOROLOGICAI

SUMMARY

The meteroological conditions at initiation of the exercise will be standard for a September morning. Low 50's with winds varying from the west to northwest. Partly sunny with slow winds.

TIME 10m WIND 60m WIND DIFFERENTIAL STABILITY WIND PRECIP DIRECTION DIRECTION TEMPERATURE CLASS SPEED 0845 326 326 1.5 NONE 0900 326 326 1.4 NONE 0915 326 326 1.4 NONE 0930 268 268 1.5 NONE 0945 268 268 1.5 NONE 1000 268 268 1.4 NONE 1015 300 300 1.5 NONE 1030 300 300 1.5 NONE 1045 300 300 1.5 NONE 1100 300 300 1.4 NONE 1115 300 300 4 4 NONE 1130 300 300 NONE 1145 300 300 F 4 NONE 1200 300 300 1.4 NONE 1215 300 300 1.4 NONE 1230 300 300 1.4 ' NONE ERE-09/20/89 8D-2

DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE VIII. E. RMS DATA Radiation monitor data displayed by the Eberline RMS terminal will be driven by the simulator computer in accordance with simulated plant parameters during the exercise.

The attached sheets however, are reasonable facsimiles of the RMS radiation monitor channel displays at the times shown on each sheet. These are provided solely for use in the event of simulator or simulated RMS data display failure during the exercise.

ERE-09/20/89 8E-1

O83o STATUS RADIATION MONITORING SYSTEM OVERVIEW 20 Sep 89 UNIT 1 CONTAINMENT . UNIT 2 CONTAINMENT AREA 011 012 ARBN,.-

013 014 022'RBN AREA 021 023~

024 UNIT 1 VENT ARBN UNIT 2 VENT ARBN 015 025 UNIT 1 SEC SIDE UNIT 2 SEC SIDE PQRV-"1/4 016 PQRV-2/3 01'7 GSLQ 018 S JAE 019 ~ 026 '27>

PQRV-1/4 PQRV-2/'3 GSLQ 028 S JAE 029.-.

WDS BATCH LIQ DISCH 010 c UNINIT@ggg..NIGERIA~.ALERT..NAINT..STAND-BY..

<Qg 3o HISTORY OF'NIT 24-01 STATUS 20 Sep 89 BETA PARTICULATE uCi L3

<C K

LIJ 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE CALIBRATION CONST: 1.62E-005 ALERT ALARM: 1.51 uCi HIGH ALARM: 2.52 uCi 20 Sep 89

HISTORY OF'NIT 24-03 Os'so STATUS IODINE uCi 20 Sep 89 L3 CL LJ w.v'/ e'~ 4 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE:

CALIBRATION CONST: 2.45E-005 ALERT ALARM: 4.9 HIGH ALARM: 20.0 20 Sep 89

HISTORY OF UNIT 24-05 STATUS BETA GAS uCi/cc 20 Sep 89 IJJ L3

<C 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE CALIBRATION CONST: 8,00E-008 ALERT ALARM: 2.64E-003 HIGH ALARM 4.40E-003 20 Sep 89

HISTORY OF UNIT 24-07 0 FBQ STATUS GAMMA GAS uCl/cc 20 Sep 89 LD

<C CL LIJ cC 0.001 0.01 0.100 1.000 A'VERAGE FULL SCALE CALIBRATION CONST: 2.31E-003 ALERT-ALARM: 6,00E-001 HIGH ALARM 1,ppE-ppp 20 Sep 89

PP30 HISTORY OF UNIT 25-01 STATUS 20 Sep 89 BETA PART in uCi 8.5$ Q-oat 1,gQ E. cc5 1a 4'i E Tidal E...s R 1,95 W 7.q9 E rc5

< col c ."S

'7 1 ~

4% f;e 5 b4 E,-cr5

) T.N E;

E Oog

c. Qg5 co5 1 7o

-"-oo5'

&ro5'7@

7.7S E:roS 7 79 Frog 7i 0 b'o5 7.t 5 E.-coS 1, 4 Q g-rc'g 7,$ 0 E-ccrc 7,8) E- cog 7 30F-ao$

7.30 C-cog l.45 C. oeS 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 2.6E-001 CAL I BRA T ION CONS T: 1.55E -005 ALERT ALARM: 1.56E-001 HIGH ALARM: 2.6E-001 20 Sep 89

083o STATUS HISTORY OF UNIT 25-03 20 Sep 89 IODINE in uCl i 30 ="-'-"c%

I,V. I .-C:

t. z 5-~c I.Q II w < >5:.-c" Q l,gI

~ IS$ =-:;0 I,Q/ K-cog I gg,-~,.nq LJ

~ I.PC=="C9

~ I.ZO i~O le3 I Z I.SC =-'>

I'30 r;,-q

(.% =-cap 0 I,I$ r~x I,I 0 <-0Ii I, I 5'~i.'c'.IO g-ocg I IG'-OO~

I. I 0 C-COW I I 0 t-"0%

l.39c-u V I;3$ f-00$

0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 1.13E-001 CALIBRATION CONST: 2.64E-005 ALERT ALARM: 6.78E-002 HIGH AL'ARM: 1.13E-001 20 Sep 89

HISTORY OF UNIT 25-05 STATUS 20 Sep 89 BETA GAS in uCi/cc

'QQ C

( oX:-~01

~,g)

~

CQ C pg QC C~ iyq 1

I 'lO E-cog C

aoo= ~q l.iC> = CC>

/.5$ =-Co 1 I.? 0

(.,"C . - 'iD "(

~in

(

I.M O C-mg la 55 C-COg 1.90 =- "-

">.Sg= "-I I.'p~ i-cg-,.

I 0 i) gQ )

0.001 ~

0.01 0.100 1.000 AVERAGE FULL SCALE: 4.77E-004 CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.86E-004 'IGH ALARM: 4.77E-004 20 Sep 89

HISTORY OF UNIT 23-01 STATUS 20 Sep 89 BETA PARTICULATE uC1 LIJ L7

<C (Y

<C 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE CALIBRATION CONST: 1.62E-005 ALARM: 1.51 uCl HIGH ALARM: 2.52 uCI

'LERT 20 Sep 89

tp

-~4

'I%i IW II 'k ~ 't '4 I'tlhpg

ov~c HISTORY QF UNIT 23-05 STATUS BETA GAS uCl/cc 20 Sep 89 LIJ L3

<E CL

<C 5;e5 E -~

0.001 0.01 0.100 1.000 AVERAGE FULL SCALE CALIBRATIQN CONST: 8.00E-008 ALERT ALARM: 2.64E-003 HIGH ALARM 4.40E-003 20 Sep 89

Qy '2Q HISTORY OF UNIT 23-03 STATUS IODINE uCl 20 Sep 89 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE:

CALIBRATION CONST: 9.63E-002 ALERT ALARM: 4.9 HIGH ALARM: 20.0 20 Sep 89

HISTORY OF UNIT 23-07 STATUS GAMMA GAS uCi/cc 20 Sep 89 LLI L3

<<I

<C l 48 Eioo3 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE:

CALIBRATION CONST: 2.31E-003 ALERT ALARM: 6.00E-001 HIGH ALARM 1.00E-000 20 Sep 89

gad'0 STATUS: HISTORY OF UNIT 22-01 Sep 89 GAMMA AREA In mR/h L3 LJ

3. loK-mom 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 5.40E+001 CALIBRATION CONST: 6.21E-001 ALERT ALARM: 3,24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

0'83 0 HISTORY OF UNIT 2'l-01 STATUS: 20 Sep 89 GAMMA AREA tn mR/h z

X 3.I oE'+ S

'.001 0.01 0.100 AVERAGE: FULL SCALE: 5.40E+001 CALIBRATION CONST: 6.21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

083 0 HISTORY QF UNIT 23 - lO STATUS 20 Sep 89 AREA LOG IN R/h

>.2o @+~3 0.001 0.01 0.500 1.000 F'ULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E-003 20 Sep 89

083 0 HISTQRY QF UNIT 24-10 20 Sep 89 STATUS AREA LQG IN R/h LJ L3 LJ

<C I'jV Q, lg two'.001 0.01 0.100 1.000 FULL SCALE: 3.50E+003 'VERAGE ALERT ALARM: '2.10E+003 HIGH ALARM: 3.50E+003 20 Sep 89

STATUS RADIATIGN MONITORING SYSTEM OVERVIEW 20 Sep 89 UNIT 1 CONTAINMENT UNIT 2 CONTAINMENT AREA ARBN, AREA ARBN .

011 013 021, QiHH 012 014 022 ~

024'NIT 1 VENT ARBN UNIT 2 VENT ARBN 015 ~

025'NI>>

SEC SIDE UNIT 2 SEC SIDE PGRV-1/4 01&

PCIRV-2/3 017 <

GSLG 018 .

S JAE 019~

PORV-1/4 02'6 '27 PORV-2/3

(

GSLO 028, S JAE 0@9~

WDS BATCH LIQ DISCH

'010=~

UN lN I T.+jQ..NURSE~.ALE R T ..N* 1 N T ..S T A N D - B Y ..

OSHS HISTORY QF UNIT 2'1-01 20 Sep 89 STATUS:

GAMMA AREA tn mR/h 0.001 0.01 0,100 A VE'RAGE: FULL SCALE: 5.40E+001 CALIBRATION CONST: 6.21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: S.40E+001 20 Sep 89

HI S TOR Y OF UNIT 22-01 STATUS 20 Sep 89 GAMMA AREA ln nR/h LLI L3

<C K

<C 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 5.40E+001 CALIBRATION CONST: 6.21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

HISTORY OF UNIT 23-01 STATUS 20 Sep 89 BETA PARTICULATE uCi 0.001 0.01 0.100 1.000 AVERAGE ULL SCALE CALIBRATION CONST: 1.62E-005 ALERT ALARM: 1.51 uCi HIGH ALARM: 2.52 uCi 20 Sep 89

HISTQRY,QF UNIT 23-03 STATUS IODINE uCi 20 Sep 89 L3

<Z CL LJ

<C 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE:

CALIBRATION CONST: 9.63E-002 ALERT ALARM: 4.9 HIGH ALARM: 20.0 20 Sep 89

t ~Q HISTORY OF UNIT 23-05 STATUS BETA GAS uCi/cc 20 Sep 89 4J LD

<C K

~ <C CD 0.001 0.01 0.100 1,000 AVERAGE FULL SCALE CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.64E-003 HIGH ALARM 4.40E-003 20 Sep 89

> I' HISTORY OF UNIT 23-07 STATUS GAMMA GAS uCi/cc 20 Sep 89 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE CALIBRATION CONST: 2.31E-003 ALERT AI ARM: 6.00E-001 HIGH ALARM 1.00E-000 20 Sep 89

HISTORY QF'NIT R~ <~

20 Sep 89 STATUS AREA LOG IN R/h 3,ROE+0 o3>>

3,oo E+oo3 2.8 8 K+oo3 0.001 0.01 O.too 1.000 AVERAGE F'ULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E+003 20 Sep 89

a~ .~a oa;at Q'3 f5 HISTORY QF UNIT 24-01 20 Sep 89 STATUS BETA PARTICULATE uCi

/.87K' i.~i s s-o.ooa 0.01 0.100 1.000 AVERAGE FULL SCALE CAJ. IBRATIQN CONST: 1.62E-005 ALERT ALARM: 1.51 uCi HIGH ALARM: 2.52 uCi 20 Sep 89

HISTORY OF UNIT 24-03 STATUS IODINE uCi 20 Sep 89 LJ LD

<C 3.

l8'.001 AVERAGE '.

'.01 0.100 1.000 FULL SCALE:

CALIBRATION CONST: 2.45E-005 ALERT ALARM: 4.9 HIGH ALARM: 20.0 20 Sep 89

lt '

HISTORY OF'NIT 24-05 STATUS BETA GAS UCi/l:C 20 Sep 89 LIJ L3 K

LJ

<C s:9F z-5; A,z-Z 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE CALIBRATION CONST: 8.00F-008 ALERT ALARM: 2.64E-003 HIGH ALARM 4.40E-003 20 SCp 89

i'1L 1 g ~ ~+

0 ~~'"

HISTORY OF UNIT 24-07 STATUS: GAMMA GAS uCi/t:c 20 Sep 89 0.001 0,01 0.100 1.000 AVERAGE FULL SCALE CALIBRATION CONST: 2.31E-003 ALERT ALARM: 6.00E-001 HIGH ALARM 1.00E-000 20 Sep 89

'I Ops&

HISTORY QF UNIT 24-10 20 Sep 89 STATUS AREA LCIG IN R/h

3. t 9 <~do3 p.qe E~3 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 3.50E+003 g

ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E+003 20 Sep 89

Ati 0

STATUS: HISTORY OF UNIT 25-01 20 Sep 89 BETA PART in uCi t.S lE;oo'1 1 C9 E- oo5 N

l.g 1.'15 E -cog i-cod 7 99 ~-oos B.OI E'- oat c= ao5 7 b4 E.-ooS

~

7~ lo i E.- oo5 0 7.tol E-oo&

S.oi 6-oo5

7. 7O &oo5' 7p E~O5 7.lg 5'-o<5 7 7f g-oo5 a ~. &a e-ocr'.

( s c-oiiS 7 t SE-ooS 1.g o 8-cog

7. CR f.oog 7.89E-c S 7 3OE-os l 30K-oag 1.t 5 E oo5 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 2.6E-001 CALIBRATION CONST: 1.55E-005 ALERT ALARM: 1.56E-001 HIGH ALARM: 2.6E-001 20 Sep 89

48ss STATUS HISTORY OF UNIT 25-03 20 Sep 89 IODINE in uCi i='30 E-oo4 i z I 6ooq I.15'-oo g R 1.3th-CO Ll l.a5't:=o(>5LI.

LD l.l.< 6-oou 3'l E-00'4

~

~

I i.K( K-coM

(.3xE'-oo<

I.34 p-ops

~ I 30 f-oog

+ El

~ E-ooit I 4 E'-oo4 z iill 3o e-oog o l l( E'-ooq g.ooii.

I,lo 5 oy I4 I.<5'-oog Sate-cow I.IO g-oo0 1 l5 6-ooc I. I 0 6-oo4 1 lOt=oo4

)

l,34'-00$

0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 1~ 13E-001 CALIBRATION CONST: 2.64E-005 AI ERT ALARM: 6.78E-002 HIGH ALARM: .1.13E-001 20 Sep 89

08 25-05 RS'0 HISTORY QF UNIT STATUS Sep 89

,0

( BETA GAS in uCi/cc 1,1q 6-001 19K E.-ool l.tl E-001 1AO E-007 1.9$ e- ooq 1.90 E-oo7 1,SO E-oo 1 LJ 1,50 '-oo7 IKOC-oo 7 2 oo p-co 1 1.55 E-C07 y.5s Z-oo7 Z /f f c--oo7 I'V5 f-oo7 l 90 E.007 D 1.90 E'.007 I 40E-I.55 E- ooq 1.9C .:-oat

-8)f.-co I I'll e.el 1.10 E-mq 110 E-oo 7 O.OO1 ~

O.01 0.1OO 1.OOO AVERAGE FULL SCALE: 4.77E-004 CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.86E-004 HIGH ALARM: 4.77E-004 20 Sep 89

fc i STATUS RADIATION MONITORING SYSTEM OVERVIEV 20 S~P UNIT 1 CQNTAINMENT UNIT 2 CQNTAIWHENT AREA 011 012 ARBN, 013 014 022'RBN AREA 021) 023 )

024'NIT 1 VENT ARBN UNIT 2 VENT ARBN 015 025'NIT 1 SEC SIDE UNIT 2 SEC SIDE PQRV-1/4 016 >

PQRV-2/3 GSLQ 01'7='18 '19 S JAE

'28 PQRV-1/4 PQRV-2/3 Oa7 GSLQ ore'. 025.

S JAE VDS BATCH LIQ DISCH OU4 UNKNIT.IS+.ggg~ALERT..NAlNT..STAND-BY..

'>ra ~

Dqoo HISTORY OF UNIT 21-01 STATUS 20 Sep 89 GAMMA AREA tn mR/h E3

<C K

LJJ Z

X 0.001 0.01 0.100 1,000 AVERAGE F ULL SCALE: 5.40E+001 CALIBRATION CONST: 6.21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: 5,40E+001 20 Sep 89

Oooo HISTORY OF UNIT 22-01 STATUS 20 Sep 89 GAMMA ARE* In nR/h 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 5.40E+001

'ALIBRATION CONST: 6.21E-001 AI ERT ALARM: 3,24E+001 HIGH AI ARM: 5.40E+001 20 Sep 89

HISTORY OF UNIT 23-01 09 QO STATUS 20 Sep 89 BETA PARTICULATE uCl LLI L3

<C I. Fi'oE k I 1I"l E &

~

t, 'lSE b l.'RZ 6 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE:

CALIBRATION CONST: 1.62E-005" ALERT ALARM: 1.51 uCI HIGH ALARM: 2.52 uCi 20 Sep 89

ol HI S TOR Y OF UNI T 23-03 STATUS IODINE uCi 20 Sep 89 I

LLI L3 LIJ

';Yt $'4 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE:

CALIBRATION CONST: 9.63E-002 ALERT ALARM: 4.9 HIGH ALARM: 20.0 20 Sep 89

~A 1V '0

'll a e HAP VAt

HISTORY OF UNIT 23-05 STATUS BETA GAS uCi/cc 20 Sep 89 0.001 0.01 0.100 1.000 A VERAGE FULL SCALE CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.64E-003 HIGH ALARM 4.40E-003 20 Sep 89

HISTORY QF UNIT 23-07 STATUS GAMMA GAS uCi/cc 20 Sep 89

/.4 g s~oo3

/.7P E+OOZ I.40 E+003 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE CALIBRATION CC}NST: 2.31E-003 ALERT ALARM: 6.00E-001 HIGH ALARM 1.00E-000 20 Sep 89

~f (tl'ill QgoO HISTQRY QF UNIT 23-10 STATUS: 20 Sep 89 AREA LQG IN R/h 3.20 E+O03 B.OO Eioo~,

2,7( E+oo3 2.5B 6+003 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E 003 20 Sep 89

HISTORY OF UNIT 24-01 gfoO STATUS 20 Sep 89 BETA PARTICULATE uCi r,z rza

/,P/s o g.PATE 6 l,IVYC 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE:

CALIBRATION CONST: 1.62E-005 ALERT ALARM: 1.51 uCi HIGH ALARM: 2.52 uCi 20 Sep 89

HI S TOR Y OF UNI T 24-03 STATUS: IODINE uCi 20 Sep 89 LD

<C CL IJJ

<C 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE:

CALIBRATION CONST: 2.45E-005 ALERT ALARM: 4.9 HIGH ALARM: 20.0 20 Sep 89

HISTQRY QF UNIT 24-05 STATUS BETA GAS uCl/cc 20 Sep 89 L3

<C LJ

<C S.g'8 C-2 K'A'o E" 2-Q)g)1 6 -2" Q.S2oE-0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE

'CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.64E-003 HIGH ALARM 4.40E-003 20 Sep 89

1 I I I

~

- ~

re

'll

~0 pP pl s~

I II I I I II II I

~ S g

~ ~ ll Il 0 0 II I

II II 0

4 ',I 0 +Cy HISTORY OF UNIT 24-IO 20 Sep 89 STATUS AREA LOG IN R/h 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE '.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E+003 20 Sep 89

4 ed%

good HISTQRY QF UNIT 25-01 STATUS 20 Sep 89 BETA PART ln uCi t.SR E;oog 1 It9 =- oo5

- .coy N 1 9~ i-ooe 7.9 9 E.oo s

< a.oi j-os

~ 4<

~ c= CO5 b4 E.-ooS 7 0" C;005 7 IA 'E-oo5 0 0) 6-dog 7 70 E~o5

&ao5'.7g 7 7g Q-opS 7 15 E'-oo5

" &o C. oo5

7. 4 5 c.o05

$ .45 C.ocg 7.$ o C-coco

7. CR g cog 7 89 E-cx 5 7 )OF-aors 1 30K-'oay 1.t 5 E'-os 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 2.6E-001 CALI BRA T ION CONS T: 1.55E -005 ALERT ALARM: 1.56E-001 HIGH ALARM: 2.6E-001 20 Sep 89

Q900 STATUS HISTORY OF'NIT 25-03 20 Sep 89 IODINE (n uC(

i QQ c-OOQ Q ( ".004

(.t5 f,-004 R I. Let-cO(

W i.~<C=O0 f - 0 '4 I.ZI 00 0 ~

~

<c (. 3l i.li f K-CdM 0

~ (.~xE-oo<

0~ i.egg'-004 i So E-oOq Z

El ~-ooit I @'E'-oo4 I 30 g-oog i li1 E-ooq O '(

l5 f-ooLL l.io r-oou I-<5'-oK i.(O g-oog I L5 6-oow

). I 0 6-OCi4 1 (0 C-O04 1

'Z'( c-~

1,346-0ioi(.

0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 1.13E-001 CALIBRATION CONST: 2.64E-005 ALERT ALARM: 6.78E-002 HIGH ALARM: 1.13E-001 20 Sep 89

IP'4 HISTORY QF UNIT 25-05 20 Sep 89 BETA GAS in uCi/cc l,1'! E 00'7 I.'lZ 6-el I.tl E-oo l l.QO f-~q I.QS E- ooq I.'lp E-ooq I.SO E.oo'l LJ l,50 E-ooq

~ SDC-oo q 2 00'.oo 1

/.5h E-cog

/.5$ E.oo'7 Jf 0 c--oo7 I4'9 g-oo7 I 9o K-007 c) I.'lo E-Oo'7 I QoE-~

I. 55 C-OOQ l.QC '=--co~

.5k= Cb..l I AS E-aors la( e.cOt I.lo 6-mq

l. lOE-M~

0.001. 0.01 0.100 1.000 AVERAGE FULL SCALE: 4.77E-004 CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.86E-004 HIGH ALARM: 4.77E-004 20 Sep 89

STATUS UNIT AREA 011 012 UNIT 1

1 RADIATION MONITORING SYSTEM OVERVIEW CONTAINMENT VENT ARBN 015 ARBN~

013 014 AREA 021 i 022

'I CR)5 20 Sep 89 UNIT 2 CONTAINMENT UNIT 2 VENT ARBN 025 ARBN .

023

.'24 UNIT 1 SEC S I DE UNIT 2 SEC SIDE PQRV-1/4 PQRV-2/3 GSLQ S JAE PQRV-1/4 PQRV-2/3 GSLQ S JAE 016 017 c 018 019. 026! 027( OPS-, 029.

WDS BATCH LIQ DISCH 010 ~ ~

UNINIT..FAIL..NGRPQIIALERT..MAINT..STAND-BY..

99 l5'0 HISTORY QF UNIT 21-01 STATUS: Sep 89 GAMMA AREA In mR/h L3 IJJ

<<C 3.(o 6'+oaS S. <O E+OCx5 3 l6Z+ods Q.ld K+boS, 3 l6 EYES

8. )O E+ooS 0.001 0.01 0,100 1.000

\

AVERAGE: FULL SCALE ~ 5.40E+001 CAt IBRATION CONST: 6.21E-001 ALERT ALARM': 3.24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

'+s 0$ 15 HISTORY QF UNIT 22-01 STATUS 20 Sep 89 GAMMA AREA in nR/h 4J L3

<C B,(o E'roe s 3, I4> 5'+dOS

~,gy NeOOS

~.lo &-405

.3.rd EtdoS->

Z.IO +'+44S 0.00l 0.01 0.100 1.000 AVERAGE ': FULL SCALE: 5.40E+001 CALIBRATION CONST: 6,21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

4W~+

oq l5 HISTQRY QF UNIT 2.3-lO STATUS 20 Sep 89 AREA LQG IN R/h LJ L7

<C K

LJ cC 3.2,0E'+~3

3. oO Eioo3

2. V~ &~3 2.5t &oo3 2.411, K~3 2.3l Eicos.

0.001 0.01 0.100 1.000 AVERAGE: F ULL SCAL'E: 3.SOE+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E-003 20 Sep 89

4 I A\Ay~

0 tip HISTORY QF UNIT 24-10 20 Sep 89 STATUS AREA LOG IN R/h L3

<C CY LJ I F Eicos>

3 088'iao3 QI 'f / 5' 403 4 ~ SC E'roo 3

4. 5 I E+609i 2 ~ 358~3 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E+003 20 Sep 89

HISTORY QF UNIT 25-01 STATUS 20 Sep 89 BETA PART in uCi

'l.s lE;oo

'- t 7 '49 oc5 I.A'~ = ~

Cog 79~g eo6 7 99: oos 8>o E- ooS

+ "~ i I

< coo5 "j Su a-ooS 7 i~ c;oos 7.Ã E-ooS

~ oi 6-oog 7 70 &eo5 7.7P gwo5 X 7 75 E'-ou5 7 'iS &oo5 7 &o c. oa5 7.ss g.one

l. 45 E-oos "l.g o c-co5

7. cR 7 S9 f yos, E-os 7 JOE-os 1.30&oag l.bs E-cod 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 2.6E-001 CALIBRATIQN CONST: 1.55E-005 ALERT ALARM: 1.56E-001 HIGH ALARM: 2.6E-001 20 Sep 89

5 STATUS HI S TOR Y OF UNI T 25-03 20 Sep 89 IODINE ln uCi.

l.QO E-009 l Zl K.009

>.z 5g-oo Z l.tet-00 W l.a<C-OO l.gl f-00 U

<C I.SSZ-004 l.ll F-CO<

~ i'.gZE-OO<

)~ iZOC0OS

>.PkE'-004 l 31 2-0Olt

> l 3l, c-004 l 30 5-00$

l,'N E'.Ooq O l.l5 P 00ll, I io E'-OOQ I. l5'-OON l.tO g oo4 l 15 6-004 1.10 C-004 l l0 t-004 l ZR t-004 1.346-++4 0.001 0.01 0.100 1.000 .-

AVERAGE FULL SCALE: 1.13E-001 CALIBRATION CONST: 2.64E-005 ALERT ALARM: 6.78E-002 HIGH ALARM: 1.13E-001 20 Sep 89

OglS HISTORY OF UNIT 25-05 STATUS 20 Sep 89 BETA GAS in uCi/cc i,1q tAX K-ocl i.tl E'-oo 7 N tAo E'-os f.g.S E- ooq I 'lo E-ool I.SO E,.oo1 I.SO E'- oo1 i SOC-oo q

? 00 E'-oog l.55 p.ac1

/.5$ E oo1 Z if'-oo7 J.V5 E-oog So E Oo7 u I i.9o E.ooq I Woe-os I 55 E'-OOq

.1,0G'=--p....

~.tnt E-00 3 l.QQ P,~ l

). 10 5"-(5q

l. lOE-coo 0.001 ~

0.01 0.100 1.000 AVERAGE FULL SCALE: 4.77E-004 CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.86E-004 HIGH ALARM: 4.77E-004, . 20 Sep 89

o83o STATUS RADIATIQN MQNITQRINt SYSTEM QVERVIEW 20 Sep 89 UNIT 1 CQNTAINMENT UNIT 2 CONTAINMENT AREA ARBN,, AREA ARBN .

011 013 02$

012 014 022 024 UNlT 1 VENT ARBN UNIT 2 VENT ARBN, 015 025

'NIT 1 SEC SIDE UNIT 2 SEC SIDE PQRV-1/4 PQRV-2/3 GSLQ S JAE PQRV-1/4 PQRV-2/3 GSLO S JAE 016 ~ 01:7-'%I8 019'28 027'2@ 02/.

VDS BATCH LIQ DISCH UNINIT.)QNQNQRl4gALERT..MA INT..S TAND-BY..

0 /30 HISTORY OF UNIT 2'1-01 STATUS: 20 Sop 89 GAMMA AREA io mR/h IJJ L3 CC CL LJ CI

~ et

9. IO5 +OPS

p. io EsOOS z <6 aCpcc>

~.i~ coo>

y ly EMOS, 3.Io g+ao5 g.so <+ooS

/g 0.001 0.01 0.100 1.000

/

AVERAGE i FULL SCALE i 5.40E+001 CAL'IBRATION CONST: 6.21E-001-ALERT ALARM: 3.24E+001 HIGH ALARM: S.40E+001 20 Sep 89

oeSQ HISTORY QF UNIT 22-01 STATUS 20 Sep 89 GAMMA AREA ln mR/h IJJ L3

<C CL

<C C) g jo <+odS Z,go EtbOS p,(~ 8 idden

g. i0 %~6OS 3<lb P~~~

g (() g tOOS<<~~

g,(b 8'r 005 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 5.40E+001 CALIBRATION CQNST: 6.21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: 5.40E+001 20 S(.p 89

oq30 HISTORY OF UNIT Z3-lO 20 Sep 89 TATUS AREA 'LOG IN R/h IJJ L3 K

3.20 E'moo~

3.00 6+o>3

2. 11K g~oo3 2.58 <+>

2.4g E~oo3 7 Z.S E~oo3 f.~eo3, 0.001 0.01 0.100 1,000 r

AVERAGE: F ULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E+003 20 Sep 89

0 I30 HISTORY QF UNIT 24- 10 20 Sep 89 STATUS AREA LQG IN R/h

<C cC CD Z. I 88+803 3Ngf + 003 a ~ 1 I 6'+ooa z.54, Etoo3 P.m1 E+OoS Z.35'Ky~

X. Sg+003 1

0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E+003 20 Sep 89,

&935 HISTORY OF UNIT 25-01 STATUS: 20 Sep 89 BETA PART in uCi R sRE. +>'1

=- oc5 4,1I rPQQ M ~ 9- E-eon 4J q.q9 c.egg B,o I c- oQ5 7 b~ 6oo5 P ~

b4 E-oos

~ 7 (o~ C-ooS 7.t9 'E.oog

<C S.o> 6-eoS 7.10 E~OS

&oo5'.7P

~ 7,vg F-v~5

'7 ~ '7V E'.oo5

7. &o e oo5 7.t 5 c.005 li45 E NS 1.g o &cod

7. CR E'-oog 7.89 E-ac5 JOE-os l 30f-oay 1.l 5 E'.oo5 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 2.6E-001 CALIBRATION CONST: 1.55E-005 ALERT ALARM: 1.56E-001 HIGH ALARM: 2.6E-001 20 Sep 89

I h$

STATUS HISTORY OF UNIT 25-03 20 Sep 89 IODINE ln uCl I '30 E-OOQ I 2 I c,.oo+

I. Z5g-0O g R 1.3%5-00(

I. E5'g=OO M I.zl 6-000

<C t.zse-oog I.tl K-CO4

~ i.~aE-ooq

)~ I.3k-o04 I zo E-oo4

> I 3I 2-ool1 I 3I, 6'-OII4 g I 3o IZR E'-Oo(

r-Oog o I I5 I,IO f-oou f 0 0 lI.

>.Ig <-oow I.IO g-oOQ I IS 6-oog

1. I 0 5-Oag I O C-004 I'.

l.39 t,-ooN I.34 6-0+4 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 1.13E-001 CAL I BRA T ION CONS T: 2.64E -005 ALERT ALARM: 6.78E-002. HIGH ALARM: 1.13E-001 20 Sep 89

I W 0 93,0 HISTORY OF UNIT 25-05 STATUS 20 Sep 89 BETA GAS iA UCi/ct:

l,1Q K-06 t I. IZ C.-ool i.tl E-Oo 7 V) IAO E'-Oo'7 W I.QS E'- oo1 I.RO E-ool I,So E.ool I,gO E'- ool I SOC-oo 1 bloop-oo t

<C t.55 E-aol

/,5$ E.ool i.g q c--ool

/4$ f-oo7 I.SO K-007 o t.'Io E.boy I 4g 0 E-OGl

~ I. 55 E-OO I l.gf;:;.Co;I.,

I.bS E-oo I I.'EIo ~.

'io 6'-CO l E-<7l

~

l. 10 0.001. 0.01 0.100 1.000 AVERAGE F ULL SCALE: 4.77E-004 .

CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.86E-004 HIGH ALARM: 4.77E-004 20 Sep 89

ot+3 STATUS RADIATION MONITORING SYSTEM OVERVIEW 20 SeP 89

( UNIT 1 CONTAINMENT UNIT 2 CONTAINMENT AREA ARBN, . AREA ARBN 011 013: 021) 023'24<

012 014 0225 UNIT 1 VENT ARBN UNIT 2 VENT ARBN 015 i UNIT 1 SEC SID-" UNIT 2 SEC SIDE PORV-1/4 PORV-2/3 GSLO S JAE PORV-1/4 PORV-2/3 GSLO S JAE Ol& OTTER 01@ 019 i 02& 023 02/ OW.

WDS BATCH LIQ DISCH OI5 UNINIT I @gRS~ALERT..NAINT..STAND-BY..

r oe<s HISTORY OF UNIT 21'-01 STATUS: 20 Sep 89 GAMMA AREA (n mR/h IJJ L7 CC CL

<<C X

~ g,i~ EtOQ5

~S /0 E~OOS g.ly 6+005 g,ydg rdOZ d lo r od E~45'.

Ig E 9 3 ioE~S Zlo Erd>$

3. IO E+dGS I

0,0 01 0.01 0.100 1.000- =: ~

/

AVERAGE FULL SCALE ~ 5.40E+001 CALIBRATION CONST: 6.21E-001 ALERT ALARM' 3.24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

GRes HISTORY QF UNIT 22-01 STATUS 20 Sep 89 GAMMA AREA ln mR/h L3 LJ Z

X

~3ao Eioo5

~,>o F moo 5 old 6'+ oo5 3.io cpooS S,i0 K&o>

a,>O Srdd5 8 40 LtOC4

~

Z. ld 8+OOS

~ 3.IO g+dd 5..

0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 5.40E+001 CALIBRATION CONST: 6.21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

oem>

l-lISTQRY QF UNIT 2E - l o STATUS 20 Sep 89 AREA LQG IN R/h t

LJ L3

<C CY

<<C z

X n 3.20

3. OO Kt003 2.88 ftd03 2.58 E.~003 R. 44 ++003 2.2S gpao3 2.14 Er005 Z. 10 f.t 003

2. OIL grOb3 0.001 0.01 0.100 1.000 AVERAGE: FULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E 003 20 Sep 89

QR'LI,~

HISTORY QF UNIT 24-10 20 Sep 89 STATUS AREA LOG IN R/h LJ LD cC

<C z

X 3.I f: 003 0$ EH@03 K.Q I E~003 Z -I, E~Ce3 2,3~1 'E co3 Z 35<ioo 2; hB E~CO 2.0$ Eio03 2.o3 E'~3 0.001 0.01 0.100 1.000 AVERAGE F'ULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 ,HIGH ALARM: 3.50E+003 20 Sep 89

HISTORY OF UNIT 25-01 STATUS 20 Sep 89 BETA PART in uCi L3

<C EE LJ

],7E4000 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 2,6E-001 CALIBRATION CONST: 1.55E-005 ALERT ALARM: 1.56E-001 HIGH ALARM:, 2.6E-001 20 Sep 89

HISTORY OF UNIT 25-03 09H3 STATUS 20 Sep 89 IODINE in uCi LJ L3 CC LrJ 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 1.13E-001 CALIBRATION CONST: 2.64E-005 ALERT ALARM: 6.78E-002 HIGH ALARM: 1.13E-001 20 Sep 89

Ll h

090'0 HISTORY OF UNIT 25-05 STATUS Sep 89 BETA GAS in uCi/cc lAl.E os I Sl e.oo~

I.so e-~ l

i. V5 C cog IJJ '\.Ro E.co I LD

i. So<-~1 I. 50 E'~l IJJ 1.508=COT Z.oo F+01

<C I 55K~'7 l.'JJS i-01 I ~'i F-ml i 8h K-wl I '10 f-W1 I< toE..~l l,40@. W1

(, 55'-Ool

l. 1O S.-OO1 i.'94 E- OC<3 l.b5< ~i gi, K-oo1

( 1+ g-001

~

i.lb &OOQ l,90fwo l 0.001- 0.01 0.100 1.000 AVERAGE FULL SCALE: 4.77E-004 CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.86E-004 HIGH ALARM: 4.77E-004 20 Sep 89

(g0 0 STATUS RADIATIQN MONITORING SYSTEM QVERVIEV 20 Sep 89

e UNIT CONTAINMENT UNIT 2 CONTAINMENT

'RBN 1

AREA ARBN,, AREA .

011 013 021 i 023 (

012 014 022 02$

UNIT 1 VENT ARBN UNIT 2 VENT ARBN 015~

UNIT 1 SEC SIDE UNIT 2 SEC SIDE PQRV-1/4 PORV-2/3 GSLO S JAE PORV-1/4 PORV-2/3 GSLQ S JAE 016 017< 018'19'26< 023 02/ 029.

VDS BATCH LIQ DISCH 010'.

UNINIT.~II.NORDICALERT..MAINT..STAND-BY..

-~y I GGO HISTORY OF UNIT 2X-01 STATUS: 20 Sep 89 GAMMA AREA In mR/h X

3.(o Eicos' Z.IO5'rOOS

~ S.los~

3.lO E tC)0$

Z. (o &oo5 8-lo 6 mO5

3. IO beOb.g 3.lO c+005

~. lO F4605 <<

Z.lO 5'l gOQ 0.001 0.01 0.100 1.000 AVERAGE: FULL SCALE: 5.40E+001 CAt IBRATIQN CONST: 6.21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

'll It% 4 utkf

i ooc)

HISTQRY QF UNIT 22-01 STATUS 20 Sep 89 GAMMA AREA ln nR/h IJJ L3 K

<C Z

~ 3.sc S+~')

5efo Ctd05 8'elo E~s 3.16 SWOT 3, loAoo5 a.to C~DOS 3.1~C+oo 5 3, 1y8roOS'.P

&665 3-'<b N~'.001 001 0.100 1.000 AVERAGE FULL SCALE: 5.40'E+001 CALIBRATION CQNST: 6,21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

lOoo HISTORY OF'NIT 23-lO 20 Sep 89 STATUS AREA 'OG IN R/h L3 LJ

<<C

z. 3,QOK+oo3 3.croE+003 C) 2.QQ E+003 p.ss E+oog 2.4C Kioo3 g.28 <F003

g. 'tg l:+003 2.>0 E.~3 2.04 gpoo3 4'<<1'6= pioo3

l. 8t E+ooa 0.001 0.01 0.100 1.000 AVERAGE: FULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E.003 20 Sep 89

4@I' tf

OOOO HISTORY QF UNIT 24-10 20 Sep 89 STATUS AREA LOG IN R/h LJ L3

<C K

<C

~ ~; 8 K~OOQ Z S.OZ ':iooZ

~ 2.91 K+oo3 2.SI c~3 2.35 E ioo 3

2. 15 E'+oo~

Oq cioo3 R.O3 E'~5 I 91E~op

l. 8 5 g-+oo 3 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 3.50E+003 ALERT ALARM-: 2.10E+003 HIGH ALARM: 3.50E+003 20 Sep 89

lOOd HISTORY OF'NIT 25-01 20 Sep 89 STATUS BETA PART ln uCi f

C.fd E~aoo 1.ro E+OO l 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 2.6E-001 CALIBRATION CONST: 1.55E-005 ALERT ALARM: 1.56E-001 HIGH ALARM: 2.6E-001 20 Sep 89

lO O5 HISTORY OF UNIT 25-03 STATUS 20 Sep 89 IODINE in uCi I'9Q E-~q

<.~S K+oal J.O3 &oo 1 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 1.13E-001 CALIBRATION CONST: 2.64E-005 ALERT ALARM: 6.78E-002 HIGH ALARM: 1.13E-001 20 Sep 89

idled HISTORY, OF UNIT 25-05 STATUS 20 Sep 89 BETA GAS In uCI/cc I.9X K,-ool I.Cl F-Ool I.'iso f-ooq 1.95- ooq li'lo E-ool I.SO K.ool I,SO f-ooq l<Otwo 7

) 2<00 g'o7 l.55 E'. os

/.5s f-007 It f e--oo7

/'VQ g 007 I 9o a-OO7 I

190 90E-~

f oo7 I 55 E'-

~

os 1.9C'F-col i8kC-Ob 1

.I.loS'.K.oo.).

I.'E Io EiO01 l

l. 0 C-COi 1 '$8 E-~1 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 4.77E-004 CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.86E-004 HIGH ALARM: 4 77E-004 20 Sep 89

4lg

~

0 IG STATUS RADIATIQN MQNITCIRING SYSTEM QVERVIEW 20 SeP 89

( UNIT 1 CONTAINMENT UNIT 2 CONTAINMENT AREA ARBN, . AREA ARBN 011 013 FN 023 012 ~

014 02& 024

~ UNIT 1 VENT ARBN UNIT 2 VENT ARBN Q15t UNIT 1 SEC SIDE UNIT 2 SEC SIDE PQRV-1/4 016 g PQRV-2/3 OA GSLQ 018<

S JAE 019'- '26 '27 PQRV-1/4 PQRV-2/3 GSLQ

'0284 S JAE 088 j WDS BATCH LIQ DISCH UNINIT.~ggQK+~mALERT..MAINT..STAND-BY..

UNIT 22,-01 lo l5 HISTORY OF STATUS: 20 Sep 89 GAMMA AREA in mR I h IJJ

<C K

LJ Z g.gS.lo 8'+oOS

~ E+oos X y,(t)~~5 a loS~aS

~ W.td E~

3./O 6'&05

3. Io EW5

3. Ib Ftdb 5 3.IO Etbos

, g.lO g+00$

a ia LeoOg 0,0 01 0,0L 0.100 t.ooa AVERAGE: FULL SCALE: 5.40E+001 CALIBRATION CONST: 6.21E-001 ALERT ALARM: 3,24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

(0 15 HISTQRY QF UNIT 22-01 STATUS 20 Sep 89 GAMMA AREA In nR/h LJ L3

<C LJ Z'S,IO 0'+OQ+

+~.Io C~S c) 3.gb grd0$

3, gy EtdOS S,IO 6'+808 p.g ~~0ftOO B IO

~. IO E'~OPS',ioe~~

~,IQ gMOS

3. IO 6'F05 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 5.40E+001 CALIBRATIQN CQNST: 6.21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: 5.40E+001 20 Sep 89

h>

kt Rk cay~

• r. s py~a

)D 15 HISTORY QF UNIT 23 -1Q 20 Sep 89 STATUS AREA LOG IN R/h LJ L3

<C K

LJ

~ ~so '61 003 z 3.00 Qeoo3 Z.'EQ Qt'003

< z.ss f+003 o ~.<<

2. 2.%

Choo 3 g+003 3, 14 E.+00 3 P. 10 f.f003 P.OQ E,0003 f ioo3 l.~%4 K~003

1. 11 E+oo3

1. 72 Q+o03 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E-003 20 Sep 8'9

1> 15 HISTQRY QF UNIT 24-10 20 Sep 89 STATUS AREA LQG IN R/h 4J L3

<C LJ

+ 3.1$ <~~~3 3,oB= ccrc 2.91 c ooS 2.5l 'E+oo3

~ 2p,355L Kwoo3 E+co3 2.l 5&oo3 Z.Oq =+co3 2.03 &cap 1 l7c+ao3 I. 85 Eioo 3 l, 7(y g+403 f ~ ) ( 8+00$

0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E+003 20 Sep 89

jc Js HISTORY QF UNIT 25-01 20 Sep 89 STATUS BETA PART in uCl 4,.FOE'~ ooo l tO E+oo J 1 Sg gr F01 1, g$ '++00 I 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 2.6E-001 CALIBRATION CQNST: 1.55E-005 ALERT ALARM: 1.56E-001 HIGH ALARM: 2.6E-001 20 Sep 89

HISTORY QF UNIT 25-03 lo l5 STATUS 20 Sep 89 IQDINE in uCi

>.34 E~gq 3SE+aa1

. l 1

1

'3 E'too 1-biE4ool I lOE+oo1 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 1.13E-001 CAl IBRATIQN CONST: 2.64E-005 ALERT ALARM: 6.78E-002 HIGH ALARM: 1.13E-001 20 Sep 89

P lO IS STATUS HISTORY OF UNIT 25-05 20 Sep 89

'ETA GAS In uCI/cc INE- aors I.10 E-oo1 I,SO K.oo1 v) I,SO E- oo1 Inc'~ 1 z.oo Ebony e-aoq

<C l.5$ E.can g.Ss C-oo1

)

cC I.gf g=ob1 I VQ Coo I logo K.Oo7 l,go Z I 40K-~

l, 55 C- 00 l

),gpss-Co l I SS E-OOl l.'il Io PsCOI l.10 E'-CO I.10 f -Col l.gci E-ao'1 1 .vs i"gaol l,59 G.ool I.88 a-ool 0.00l, 0.01 0.100 1.000 AVERAGE FULL SCALE: 4.77E-004 CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.86E-004 HIGH ALARM: 4.77E-004 20 Sep 89

~r ewe

( 030 STATUS RADIATIQN MONITORING SYSTEM OVERVIEW 20 SeP 89 UNIT 1 CONTAINMENT UNIT 2 CONTAINMENT AREA 011 012 ARBN.

013 014 AREA 021 "

022

'RBN Gjigh 0'24 UNIT 1 VENT ARBN UNIT 2 VENT ARBN Q15 c Oleic UNIT 1 S'EC SIDE UNIT 2 SEC S1DE PQRV-1/4 PORV-2/3 GSLO S JAE PORV-I./4 PQRV-2/3 GSLQ S JAE 016 g 01 P 018 c 026 Q23 0281 OM.

MDS BATCH LIQ DISCH Oip' UNlNIT.~..NORM+II.ALERT..MAlNT..STAND-BY..

)o30 HISTORY OF UNIT 21-01 STATUS ~ 20 Sep 89 GAMMA AREA in mR/h LJ LD K

3e IO+iCOS

~ '3s.toe~a IOEMO&

E p.(08M'5"

~

8 a.ldz.lOE~Pas S~bo5 kg 6~~S g tb E&og a.i'oaS

a. io g~oo5

~~. l~v Oa~6 lOS 0.001 0.01 0.100 1.000 AVERAGE: FULL SCALE ~ 5.40E+001 CALIBRATION CONST: 6.21E-001 ALERT ALARM: 324E+001 HIGH ALARM: 5.40E+001 20 Sep 89

~, ~ ~ 'C

HISTORY OF UNIT 22-01 Io3o STATUS 20 Sep 89 GAMMA AREA ln mR/h L3 L3 LJ R.Q C'rd05

'5'y SrCO5 Z s.io g +CATS

~~.io awo6

~3.lo SWS

~NEO Sr00~

~.lb 8'~ 6 S.ib 8 rM>

~.1bmaS

3. )6 EtC+5

3. 10K~

H.e ~M

~, 10 FWGS 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 5.40E+001 CALIBRATION CONST: 6.21E-001 ALERT ALARM: 3.24E+001 HIGH ALARM: 5.40E+001 ~

20 Sep 89

l>3o HISTQRY QF UNIT 23-10 STATUS 20 Sep 89 AREA LQG IN R/h LJ L3'C 3,20 E'~3

9. Oo E+oo3

2. 98 Eroo3, P.. 58 f.pooh Z. %4 E.+oo3

< 2. a8 E.boob

$ 4 'E+oo3 H P. IO g~$

Z. ow gioop I.'ll fpooa I. )I Eeoo3 I. 1'1 g~oo3 I 1~ E+oo3 I. I 8 E~o3 I I OE~3 0.001 0.01 0.100 1.000 AVERAGE: FULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E-OQ3 20 Sep 89

~ fO to+0 HISTORY OF'NIT 25-01 STATUS 20 Sep 89 BETA PART in uCi 4.80 E+ool I, I O Et 001 I '1~ stool

[.QQ gazoo I l.-g I K+oo l 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 2.6E-001 CALIBRATION CONST: 1.55E-005 ALERT ALARM: 1.56E-001 HIGH ALARM: 2.6E-001 '0 Sep 89

• e 4 +~ 4'"

~r

fQ 90 HISTORY OF UNIT 25-03 STATUS 20 Sep 89 IODINE ln uCi I. tP]E ~@1 1 23&001 1.Q E~ob1 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 1,13E-001 CALIBRATIDN CONST: 2,64E-005 ALERT ALARM: 6.78E-002 HIGH ALARM: 1,13E-001 20 Sep 89

1' IO30 HISTORY OF UNIT 25-05 STATUS 20 Sep 89 BETA GAS in uCi/cc

<C 1.9OS 1

~q 4Ff-cog 1 888-on~

1egS K<oo1 0.001. 0.01 0.100 1.000 AVERAGE FULL SCALE: 4.77E-004 CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.86E-004 HIGH ALARM: 4.77E-004 20 Sep 89

N 103o STATUS HISTORY OF UNIT 24-jo 20 Sep 89 AREA LOG IN R/h Ld L3

<C CE 3,18 aioo3

~ s.'wc".

+ Z.el <+O43~

Z.~le E+O 3 Z.5> Ki~3

?4 5C+Do 3 Z. L 5 C'soo y H Z,,OQ C+4O 3

~,~3+ 003%

), g Q g'+ 003 I.8~<+'44~

/. 7a Cv'Ob y 7/ 6+003

/, 70 8+003 f iQgg+06$

0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E 003 20 Sep 89

V

~ t 1W

~no,+

I'a V kl4

STATUS RADIATIQN MQNITQRING SYSTEM QVERVIEW 20 Sep 89 C UNIT 1 CQNTAINMENT UNIT 2 CQNTAINMENT AREA ARBN- AREA ARBN .

011 013 021 )

023'2.4 012 014 022>

UNIT 1 VENT ARBN UNIT 2 V'ENT ARBN 015T UNIT 1 SEC SIDE UNIT 2 SEC SIDE PQRV-1/4 ""PQRV-2/3 GSLQ . S JAE PQRV-1/4 PQRV-2/3 GSLQ S JAE

'ai:6 01m. O18 019 O2S t 02.7' 028'.'c?9":

WDS BATCH LIQ DISGH

@id t UN[N[T..F'A[L..ygRN~ALERT..NATANT..ST*ND-BY..

Io95 STATUS HISTORY OF UNIT 25-01 20 Sep 89 BETA PART ln uCl I,.'iLO E~Oo i

).i 06'OO I I.RZEiOOI

~ 8'i E>oot

,I.'3 >,Ciao> ,.

QSI e-OOi l .bl R-OOI 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 2.6E-001 CALIBRATION CONST: 1.55E-005 ALERT ALARM: 1.56E-001 HIGH ALARM: 2.6E-001 20 Sep 89

A 4 ~

• lOQS HISTORY QF UNIT 25-03 STATUS 20 Sep 89 IODINE in uCi f

<C IJJ C) i,3$ E+00 I two f+oo I I ~ I'p> P-%01 l.50 /+001 I, &

1.)O &o0>

&COL 0.001 0.01 0.100 . 1.000 AVERAGE FULL SCALE: 1.13E-001 CALIBRATION CONST: 2.64E-005 ALERT ALARM: 6 78E-002 HIGH ALARM: 113E-001 20 Sep 89

tO%5 HISTORY QF UNIT 23-10 STATUS 20 Sep 89 AREA LQG IN R/h Ld LD

>3.06+003 w D.oo

)~ E+oo3 2.QR E+003 2.. Qf R+~

Z2.ua 6~O3 R,+'t1 f+003

+2,i& choo&

~2olo EM3

~2.04 6.~5 188 E+ooa i.O K+oo3 I 77E~3 1.7? R,<003 1.t'C e<oo3

) Gb E.ioo3

~

t. c,t K+oog 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E 003 20 Sep 89

10%$

HISTQRY QF UNIT 24-10 STATUS 20 Sep 89 AREA LQG IN R/h LJ

+ 3,<8 ++003 3.0894003

)~ j,546too LJ a'.SI et003 3

Z . 51 6+003 Z 2.36&oo3 t.. I 5 6+003

+ Z. el e~oo3

~ g.03&oh%

l. '!1K+M 1.8 5K+003 1.166'+003 I. 1I E+oo3 I. 1o Eioo3 1, 68 E.to@3 I, t,qCtoo I. c LE+003 0.001 0.01 0.100 1.000 AVERAGE F ULL SCALE: 3.50E+003 ALERT ALARM: 2.10E+003 HIGH ALARM: 3.50E+003 20 Sep 89

,4 ~I HISTORY OF UNIT 25-05 STATUS 20 Sep 89 BETA GAS in uCi/cc cC

<C la'10 E-601 i.9o e-oo')

I. cs5 K.o 0 1 l.SRE bo 1 l.$ 56-oo '2 l.soK 001 I agOK DOI 0.001 0.01 0.100 1.000 AVERAGE FULL SCALE: 4.77E-004 CALIBRATION CONST: 8.00E-008 ALERT ALARM: 2.86E-004 HIGH ALARM: 4.77E-004 20 Sep 89

0 DONALD C. COOK NUCLEAR PLANT EMERGENCY RESPONSE EXERCISE VIII. F. PLUME EXPOSURE DATA The tables included in this section provide the data for the off-site radiation monitoring teams. These tables present data for the time between 0845 - 1230.

A given data set is applicable for the fifteen minutes following the time listed.

A listing and explanation of less than obvious terms used in the table are as follows:

1. ROUTE; refers to the predesignated, color coded, survey routes.

2. Rl, Bl, Yl, R2, B2, Y2; refers to the specific color coded survey route where:

Rl=Red, closest to plant Bi=Blue, closest to plant Yl=Yellow, closest to plant R2=Red, farthest from plant B2=Blud, farthest from plant Y2=Yellow, Farthest from plant

3. PTS; refers go the predesignated lettered points.

Readings which follow indicate the distance traveled from the lettered point of origination, at which the listed dose rate was encountered.

4- AIR SAMPLE IODINE, PART; the iodine and particulate activity results at the centerline of the plume. These results are in units of pCi/cc and net counts per minute.

Dose rate data for a given time period should be provided as appropriate for the route, both color and traverse'points, being taken and the time. Open window readings (may be called beta readings or dose rates) are generally 1.5 times the closed window readings (may be called gamma readings or dose rates). The controller should provide open window readings only detector window.

if the player retracts the shield covering the Air sample data should be provided only if a centerline sample is obtained and following sample analysis at the counting vehicle. The player shall analyze the actual sample obtained and determine the activity of the actual sample. At that time the Controller shall interject and provide the concentration postulated by the scenario.

ERE-09/20/89 8F-1

~ m ~ ~ - I ~

PIUME EXPOSURE DATA TIME: 0845 RMT Data Air Sam le oute Dist. Dist. Part Iodine From Ci/cc Ci/cc

.6 ed 1 .7 1.0mR/hr 2.34E-06 6.18E+0

.8 lue 1 ellow 1 ed 2 lue 2 ellow 2

• = As read Note: Open window readings 1.5 x D (closed window)

MDA - 2.50 E-09 pCi/cc

VS%

PLUME EXPOSURE DATA TIME: 0900 RMT Data Air Sam le oute Dist. Dist. Part Iodine Ci cc Ci/cc c m ed 1 From 1

• Blue 1 A 2 1.0 6.18E-08 2.63E+0 2.5 Yellow 1 ed 2 lue 2 ellow 2

• = As read Note: Open window readings 1.5 x D (closed window)

MDA - 2.50 E-09 pCi/cc

' t.

PLUME EXPOSURE DATA TIME: 0915 RMT Data Air Sam le oute PTs Dist. Dist. Part Iodine Ci/cc Ci/cc ed 1 lue 1 ellow 1 From 2.3 3.20E-07 944 2.5 1.0 2.7

• ed 2 lue 2 ellow 2

• = As read Note: Open window readings 1.5 x D (closed window)

MDA - 2.50 E-09 pCi/cc I

PLUME EXPOSURE DATA TIME: 0930 RMT Data Air Sam le oute PTs Dist. Dist. Part Iodine Ci/cc Ci/cc ed 1 Blue 1 ellow 1 From .3 1.90E-07 6.01E+2 ed 2 F .4 1.0

.5

• lue 2 ellow 2

• = As read Note: Open window readings 1.5 x D (closed window)

NDA - 2.50 E-09 pCi/ec

PIUME EXPOSURE DATA TIME: 0945 RMT Data Air Sam le Route Dist. Dist. Part Iodine Ci/cc Ci/cc c m Red 1 Blue 1 Yellow 1 Prom .3 1.90E"07 6.01E+2 Red 2 .4 1.0 F

.5

• Blue 2 Yellow 2

• = As read Note: Open window readings 1.5 x D (closed window)

NDA - 2.50 E-09 pCi/cc

g>k4 A 41%

~

f ~

g

~

j II I RR

~ ~ 4 ~ ~ ~ ~ ~

PLUME EXPOSURE DATA TIME: 1015 RMT Data Air Sam le Route Dist. Dist. Part Iodine Ci/cc Ci/cc c m Red 1 Blue 1 Yellow 1 Red 2 From 1.5

• 6.86E-08 2.81E+02 Blue 2 F 1.6

• 1.7 1.0 1.8

• Yellow 2

• . = As read Note: Open window readings 1.5 x D (closed window)

MDA - 2.50 E-09 pCi/cc

PLUME EXPOSURE DATA TIME: 1030 RMT Data Air Sam le Route PTs Dist. Dist. Part Iodine Ci/cc c m Ci/cc Red 1 Blue 1 Yellow 1 Red 2 Blue 2 Prom .8

• Q9)A 4.93E"08 2.30E+02 ellow 2 E .9

• 1.0 1.0 1.1

• 1.2 *

• = As read Note: Open window readings 1.5 x D (closed window)

MDA - 2.50 E-09 pCi/cc

PLUME EXPOSURE DATA TIME: 1045 - 1230 RMT Data Air Sam le Route PTs Dist. Dist. D Part Iodine Ci/cc c m Ci/cc Red 1 Blue 1 Yellow 1 Red 2 Blue 2 From .8

.9 4.93E-OS 2.30E+2 Yellow 2 E 1.0 1.1 1.2

• = As read Note: Open window readings 1.5 x D (closed window)

MDA 2.50 E-09 pCi/cc

I I

n 4'

~ ~ ~ ~ ~ ~ Io I'

+ ~ 0 ~

~

~

a  % 0

~

Sea.

~55(,

~ AP' > 1 Hl@

<<g,'.. s~QfQ

~ qWdR'~RIRE9iCR~

~~if,,~j%%4EKE~~~

%A~:".a~~LWv~y<;.- W.~~gggg i ~k

~~"'%k<lk~HM+;-~~::SRh~~.-"

." ~~~Fi'~~KSK~iiRII5lSRR~Kh~~h-~P~~+

~', "i~I@IRIIHIK%lgg gglgglgggjjgiR

,~~~4eeaS@IRms

~~"@If% e~ m4eL&w~<g

~mmwmee.~

DONALD COOK 0930-1000

/ NUCLEARC.POWER l re)

S:rvuc

' bus)ass PLANT <<I ~

I I~

10 MILE EPZ I Ss SS BERRIEN COUNTY 'x +I! Ij C Ass I.s

'I ~

s's

~ lcc:

0 COOK NUCLEAR PLANT ~ 'I I lsss C ROUTES SI SAMPLINQ POINTS

~ <<rssr Is D L IDN eessse sees<< Issrs I

1

~

-1'!

~ -N. I

~

I Hs, A' I . s ~

~"

5 I

s

~

r 5

ww Nse~ sessvs'ove($

5 1

~I  !

~ NP

~ psre pp 350 IPA R I I

&see pWp ecsssn )psss .8 pN see

~ psee Iee IIINp P SIS' A

~ ))AIM surs<<es N

'1 lllVi N

~ I, SSID NISCS Cans

5) 5)505 I ~

srv*

~,

l<<S

)

ICS 5L scsss rs

5) r.l s

-"3, I IS 5)SRM s I t

)l P 1

~

~ ~I

) ~ I P 5

I~ '

I r / ~ r <<5 5 C(SSI ss ~

ss R Y II 'I

~

l

~ r sb '),'

3T0'N S D

~ ~

I PNI 1 ~

R,;

Ci)

$1~ 0 N 0 Qs r r

3

~ ~ L A $ DCXS s

h

<< s sse

'<< ~, 1 3

~

115 r Ivs'"5)<<

il r s~ r ~5

':3 Ns' 1 I 'C

~

3A N"I

~

I ~ H H I M <<!

~ I~

d"""'.G .3 I s,

<<5 r<<

tlc)VS r ~

1 ~

I

~ r ) ~ <<<< I ~ ~

'4nvs tsll

~ \

<< << 5 ~

J )

. gs

!"3

~ ~ ~

~

H R I

)CDOL CA(Is C ) C)s

I P ~

.SISS) 'iss ~ r

'(

5555

'visv

~ ~

scsess ~

ss I lVSCSI

)I N)W J A'I

~ I<<

I D 5 G 1

lC N

" W ysr ,.' ~N C v<< ~ 5- b R I N, 1 0,

b F F ~

A L rr) s ~ I ' I 58 ~ ~ '!" ll I

) r pss

DON'ALD C. COOK 1015-1230 515'r Vtgg dVggdgg

NUCLEAR PONER PLANT ~ gs 10 MILE EPZ BERRIEN COUNTY COOK NUCLEAR PLANT /',

ROUTES 3I SAMPLING POINTS

~ ts<<ssr sr>>, ~ . leer tstestse ~ esses HI A

~

~l ~

t RI ~

'RAT

",q ge I

1'. I r W W M Ie>>>>tv\I

, I,'r, Ctgstgt5 SAW>>ak J I I'Nds RI0

~

~

>>srv V>>

~its>> Q~

~ ss>>

s>>er>>

Iv>>

M see%4 slesst gll50 ~ 11llgg Istss ps ts ~

Ittti5 I ~

gist,.

Its tgi ilsit R

FQsCS W ll~

esit

~ 1 gsl SL Iggg ls SN551% Ss II ~ sg ~ ~

5 s

ts ., 0 s ~

t p ~ L I

~

I lg ~ r gr 5 Oit I tgt'

~ ~

I IR: Y } I. I 5 >>

s I ~ I '

I no'N ~

~ ~ I isi I I Xttsiss j [st ~

I I cl} R,,

Is s II 5%1 5JSSRS ':I Is Igl 0 N 0 I ~ A h t r >>

Iet

~ I ~ I'gr'r i} 5

}

r

~

l 555 getsgt5 i:. l

~~

I Sk. L tg I' 0>>

~ ~

VG i A N<<t

~ ~

I

<> >> t

~ 11 I

vS rk

.i .f t t t I

~

g 55 I

IAISVI >> ~>>

Illsot g set s>> ~

~ g.

~ 5 5 5 g

~ H R l C I F;,

~ I ~ I I

I tt

~ 'I >>

V Jf

~ r gelid I gsg>>sl

,,*:-. - 1' ~ ..gaQN

~ tegtg 'st ~, ll 55H5 I

1 r

r ~

5 I . 55 I

} ~

.l

~

C L I lc f D

t t:' A 5

I tr II s I C R R I ~

-Igb' F s

hl I.

~

I Jr ~

"I !} A'..I.

i I I ~ ~ 'i

.~ I

~

H

~ i