ML20126C626
| ML20126C626 | |
| Person / Time | |
|---|---|
| Site: | Yankee Rowe |
| Issue date: | 05/07/1985 |
| From: | Kay J YANKEE ATOMIC ELECTRIC CO. |
| To: | Murley T NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION I) |
| Shared Package | |
| ML20126C624 | List: |
| References | |
| FYR-85-52, NUDOCS 8506140482 | |
| Download: ML20126C626 (177) | |
Text
m 7 Te'ephone (* ") * ' '* '00 YANKEE ATOMIC ELECTRIC COMPANY TWX 710-380-7619
'~ ,- v,
~' 2.C.2.1
. 'X 1671 Worcester Road, Framingharn, Massachusetts 01701 f 2f _./ i ) FYR 85-52 I/ a J1'. lit ,
.~.' May 7, 1985 United States Nuclear Regulatory Cornmission Region I 631 Park Avenue King of Prussia, PA 19406 Attention: Dr. Thomas E. Murley Regional Administrator
References:
(a) License No. DPR-3 (Docket No. 50-29)
(b) YAEC Letter to USNRC, dated February 25, 1985, FYk 95-17 (c) YAEC Letter to USNRC, dated March 29, 1985, FYR 85-41
Subject:
The 1985 Yankee Emergency Exercise Plan
Dear Sir:
Enclosed are six (6) copies of the revised 1985 Yankee Nuclear Power j Station Emergency Response Exercise Plan. This revised version reflects 9 cornments received from C. Gordon (Region I). To avoid confusion, it is recottunended that copies previously submitted with Reference (c) be returned or destroyed.
As before, the success of the proposed exercise is highly dependent on the confidentiality of our exercise scenario. Therefore, we are requesting that this submittal be treated on a "need to know" basis and be withheld from public disclosure, in accordance with 10CFR Part 2.790, until the exercise has been completed. .
If you have any questions regarding this submittal, please contact us.
Very truly yours, YANKEE ATOMIC ELECTRIC COMPANY
.ci Kay
. A. Kay Senior Project Engineer - Licensing JAK/dps i
Enclosures 8506140482 850329 PDR ADOCK 05000029 F PDR
1985 YANKEE NUCLEAR POWER STATION EMERGENCY EXERCISE AND EVALUATION PLAN REVISED MAY, 1985
1985 YANKEE NUCLEAR POWER STATION EMERGENCY EXERCISE AND EVALUATION PLAN i
TABLE OF CONTENTS Section Title Page
- 1. PURP0SE................................................... . 1
- 11. REFERENCES.................................................. 1 III. BACKGROUND.................................................. 1 IV. EXERCISE OBJECTIVES......................................... 2 V. SIMULATION LIST............................................. 4 VI. EXERCISE C0NCEPT............................................ 6 VII. EXERCISE OPERAT10N.......................................... 6 Vill. EXERCISE TERMINATION........................................ 8 i
l
-ii-
i 1985 YANKEE NUCLEAR POWER STATION EMERGENCY EXERCISE AND EVALUATION PLAN LIST OF ATTACHMENTS Part A-1 ATTACHMENT A Abbreviations, Definitions, and Terminology...............
ATTACHMENT B Scenario Package B .1- 1 Section 1: Scenario 0utline....................................... B . 2- 1 Section 2: Radiolo5ical Development Section....................... B.3-1 Section 3: Operational Development Section........................
ATTACHMENT C Controller / Command Cards .,
C.1-1 Section 1: Control Room...........................................
C. 2- 1 Section 2: TSC.................................................... c.1 1 Section 3: 0SC.................................................... C.4 1 Section 4: E0F....................................................
ATTACHMENT D Observer Cue Cards D .1- 1 Section 1: Control Room...........................................
D. 2- 1 Section 2: TSC.................................................... D.3 1 Section 3: 0SC.................................................... D.4 1 Section 4: E0F.............. .....................................
e
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1985 YANKEE NUCLEAR POWER STATION EMERGENCY EXERCISE AND EVALUATION PLAN LIST OF ATTACHMENTS Eagg ATTACHMENT A Abbreviations, Definitions, and Terminology............... A-1 ATTACHMENT B Scenario Package Section 1: Scenario 0utline....................................... B.1-1 Section 2: Radiological Development Section....................... B.2-1 Section 3: Operational Development Section........................ B.3-1 ATTACHMENT C Controller / Command Cards Section 1: Control Room........................................... C.1-1 ,
Section 2: TSC.................................................... C.2-1 Section 3: 0SC.................................................... C.3-1 Section 4: E0F.................................................... C.4-1 ATTACHMENT D Observer Cuc Cards Section 1: Control Room........................................... D.1-1 Section 2: TSC.................................................... D.2-1 Section 3: 0SC.................................................... D.3-1 Section 4: E0F.................................................... D.4-1 e
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Page 1 THE YANKEE NUCLEAR POWER STATION EMERGENCY RESPONSE EXERCISE AND EVALUATION PLAN. 1985
- 1. PURPOSE The plan provides background information and guidance to those persons who have been designated to assist in evaluating one or more emergency response capabilities to be exercised. The exercise will test: the adequacy and content of emergency implementing procedures and methods; the emergency equipment and communications networks; and the emergency organization's personnel familiarity with their duties. This exercise ,
will test the efficiency of the plant response in controlling a staged nuclear accident.
- 11. REFERENCES
- 1. Yankee Nuclear Power Station Emergency Plan.
- 2. Yankee Nuclear Power Station Emergency Implementing Procedures.
- 3. Nuclear Services Division Emergency Response Plan (TAG 12).
- 5. The Commonwealth of Massachusetts Radiological Emergency Response Plan (CM RERP).
111. BACKGROUND Yankee Nuclear Power Station (YNPS), located in Rowe, Massachusetts, has adopted an emergency classification system which identifies four levels of emergency responses: Unusual Event, Alert, Site Area Emergency, and General Emergency. The Yankee staff has associated a range of potential emergency conditions representing each of these emergency classifications for the purpose of initiating emergency response
i Page 2 pursuant to the nature of that condition. The specific details of this classification system are defined in Appendix A of the Yankee Emergency Plan.
The initial response to any emergency condition originates in the Control Room, where the Shift Supervisor would assume the role of Plant Emergency Director (PED). As the Plant Emergency Director, he is responsible for (1) the categorization and declaration of the emergency condition, (2) the prompt notification of all appropriate off-site I
authorities of the event, and (3) the direction of the emergency response organization until relieved of that function.
Dependent upon the level of emergency declared, key plant and corporate personnel would be notifled in order to augment the basic shift complement. As centers are activated a transition of authority would occur such that the TSC Coordinator assumes control over in-plant emergency operations and the Emergency Coordinator directs off-site emergency operations. Overall direction to the Yankee emergency responso organization is provided by the Recovery Manager who is stationed at the EOF /RC under Site Area or General Emergencies.
IV. EXERCISE OBJECTIVES yankee Plant Obiectives for the May 15. 1985 Yankee Nuclear Power Station Emergency Plan Exercise
- 1. To exercise, to the extent practicable, under simulated conditions and imposed time constraints, the organizational control of all participating emergency response organizations.
- 2. To test and evaluate the ability of station personnel to recognize emergency initiating events and properly classify the condition in accordance with pre- established Emergency Action Levels.
I page 3
- 3. To test the adequacy of the plant emergency notification methods and
( procedures.
- 4. To test and evaluate the adequacy of methods established to maintain access control and personnel accountability.
- 5. To test the adequacy of the emergency response facilities in providing sufficient resources to manage the required emergency response.
- 6. To test the adequacy of plant communication systems in providing continued and timely information flow to all responding organizations.
- 7. To evaluate the adequacy of the plant's emergency implementing procedures and the effectiveness of the plant's training program in ensuring that appropriate emergency response actions are taken.
- 8. To evaluate the adequacy of the plant's dose assessment methodology.
- 9. To test the adequacy of the plant's radiation protection program in ensuring contamination and exposure control and to demonstrate appropriate radiation measurement and radiological assessment techniques.
- 10. To evaluate the plant's method of maintaining emergency documentation in the following areas: emergency communications, response actions, and exposure control.
- 11. To evaluate the protective action decision-making process and the coordination process associated with its final determinations.
- 12. To exercise, to the extent practicable, under simulated conditions and imposed time constraints, the implementation of recovery planning.
Page 4 i
V. SIMULATION LIST
- 1. Plant specific data will not be progranmed into the SPDS. Specific SPDS data will be issued in he Cue Card form.
- 2. The News Media Center will not be activated.
- 3. During the exercise, plant evacuation and center activation will occur. However, once the exercise participants have been selected, then those personnel unassigned will be allowed to return to normal duties (i.e., the plant can consider these personnel as scheduled emergency relief staff).
- 4. All in-plant operational corrective actions will be simulated. No VC entries will be allowed.
- 5. Post-accident sampling will be simulated. Results of all radiological surveys and samples will be provided on Cue Cards. d
- 6. Meteorological data will be simulated using a " test" file available to the Meteorological Computer System.
- 7. If plant areas should be considered as scenario contamination areas, players will be instructed to post the areas and coordinate clean-up activities in accordance with appropriate procedures. Use of
{?
protective clothing and respirators will be simulated. /
- 8. If exercise conditions warrant the issuance of potassium iodide (KI), then the decision will be recorded, but the action will be simulated.
- 9. The NSD Engineering Support Center will be staffed.
- 10. Charcoal cartridges will be used in silica gel cartridges during off-site monitoring activities.
Page 5
- 11. Plant recovery will be demonstrated in a table-top type of format.
- 12. The plant organization will be instructed to discuss procedural methods associated with personnel decontamination activities, if conditions warrant such action.
- 13. Re-entry / recovery surveys will be demonstrated on-site prior to the exercise termination.
- 14. No medical emergency response will be demonstrated during the exercise.
- 15. No fire protection capabilities will be demonstrated during the exercise.
- 16. No emergency center evacuation will be demonstrated during the exercise.
- 17. State response to the EOF will be limited to a minimal staff to test _,,,
communications capabilities.
- 18. For the purpose of the exercise, smoking and drinking will be -
allowed at all emergency centers. Drinking and eating will not be allowed in any portion of the Radiation Control Area.
- 19. Controllers / Observers and off-site agency representatives will not be issued dosimetry unless plant access is required.
- 20. Control Room participation will consist of the Emergency Director, two Reactor Operators, and a STA who will respond as the Exercise operation crew.
- 21. Security will be provided with a list of Exercise non-participants for accountability purposes.
Page 6 VI. EXERCISE CONCEPT The exercise will be fully controlled and observed by a licensee-related exercise team. Control of the player response will be coordinated through issuance of Cue Card information at each center location.
Exercise Controllers will be stationed at each center to ensure that the proposed accident sequence is not compromised by unexpected player action.
The Licensee response to the proposed accident sequence will require full activation of the EOF, TSC, and OSC organizations. The Media '
Center will not be activated, although arrangements have been nade to test the EOF /RC communication link to this center using an alternate location. The Engineering Support Center will be activated. Any site response team members dispatched to assist the plant will be pre-staged in the area and will report to the site upon notification. ,
State response to the proposed accident sequence will be limited to a test of the coordination interface of State representatives with EOF /RC personnel and a check of dedicated communication channels with State EOCs. No local community involvement is anticipated.
VII. EXERCISE OPERATION A. Organization for the Exercise
- 1. The Players, to include individuals and organizations of the company at all levels;
- 2. The controllers, a group of plant and corporate personnel who keep the action proceeding according to the time element established by the scenario outline, provide control messages, supervise the observer actions, and critique the effectiveness of emergency response; and
i Page 7
- 3. The Observers, who observe the players as they work in their emergency discipline, provide input data which stimulates player action, and critique the effectiveness of the organization response, its equipment and procedures.
Prior to the exercise, an Exercise Coordinator was appointed by plant management for tl e purpose of developing the exercise scenario and controlling the evaluation system. The Exercise Coordinator will be responsible for developing the objectives, the accident time sequence, and the emergency response exercise and evaluation plan.
He will be responsible for the selection and training of the ,
Controller / Observer required to evaluate the effectiveness of the Yankee emergency preparedness program.
Once the exercise is complete, the Exercise Coordinator will be responsible for conducting an exercise critique to review and discuss any recorded strengths / weaknesses observed during the exercise. The critique will also review any deficiencies with the exercise scenario. All comments will be submitted to the Plant Emergency Preparedness Coordinator who is responsible for summarizing these findings and submitting the results to the Plant Superintendent for action.
B. Selection of Controllers / Observers Where feasible, persons designated as controllers / Observers will be assigned to an area germane to their normal area of expertise.
Selected plant personnel were assigned to the Controller function as a result of their familiarity and tachnical insight as to plant operations.
C. Duties of Controllers /obse, vers Each Controller / Observer will be required to observe and judge the effectiveness of the emergency function assigned to him and then to
Page 8 record and report those judgements. In addition to this audit function, the Controllers / Observers are responsible for issuing the applicable information provided in cue cards and command cards. If the response action deviates from the expected response and/or time sequence, then the Center Controllers will be responsible for re-establishing the accident sequence.
Each Controller / Observer is responsible for cr.suring that the time sequence established for the scenario is adhered to. If Controllers / Observers note any actions taken by plant personnel which could cause deviation in the schedule, they should stop the action and restore the planned sequence. If anyone interferes with the response action of a player, the Observer should inform the Center Controller, who, in turn, is responsible for restoring the planned sequence. If the action is becoming stagnant at any center due to the scenario sequence, the Center Controller may introduce
" free play" items to the scenario, provided that he notifies all ,
controllers of this action. All Controllers will be linked by either radio or telephone communications for this exercise.
D. Identification of Participants controllers and observers will be provided with identification badges specifying their function.
A list of personnel participating in the exercise will be provided to the plant Security staff prior to the start of the exercise.
VIII. EXERCISE TERMINATION CRITERIA The exercise may be terminated under the following circumstances:
A. If all emergency response actions have been completed in accordance with the exercise time sequence;
Page 9 I
B. If an actual plant emergency condition develops coincident with the exercise; and C. If an actual off-site emergency impacts the response actions of Yankee exercise participants.
In the event that Item B should occur, the following actions will be taken:
- 1. The Shift Supervisor will inform the Control Room Controller of the plant status. The Control Room Controller will, in turn, contact the Exercise Controller and inform him of plant status;
- 2. The Exercise Controller will inform the Emergency Coordinator and/or the Recovery Manager;
- 3. Concurrent with the notification in Step 2, the Control Room will announce over the plant paging system the following statement:
"The emergency plan exercise has been terminated. I repeat.
The emergency plan exercise has been terminated."
This message may be immediately followed by the appropriate emergency class announcement (if appropriate).
- 4. The Exercise Controller would be responsible for directing the actions of the Controllers / Observers; and
- 5. The emergency plan / procedures and notifications applicable to the event would be implemented in accordance with the nature of the emergency (if appropriate).
In the event that Item C should occur, the following actions should be taken:
Page 10
- 1. The State Police, having been notified of the emergency, should open direct communications with the Yankee Control Room using the Nuclear Alert System;
- 2. The Shift Supervisor will notify the Control Room Controller who, in turn, will notify the Exercise Controller.
- 3. A coordinated decision would be made in conjunction with the Recovery Manager and/or the Emergency Coordinator concerning the completion of the exercise;
- 4. The Exercise Controller would be responsible for temporarily halting the exercise until such time a decision could be made;
- 5. If the final decision were to cancel the exercise, then the Exercise controller would be responsible for directing the activities of his audit crew as well as for the notification of NRC;
- 6. If the final decision were to continue the exercise, then the Exercise Controller would be responsible for informing all Controllers / Observers of the projected change to the expected response action; and
- 7. The Exercise Coordinator would direct his organization as to the appropriate action required to restore the exercise sequence.
Page A.1-1 ATTACKMENT A ABBREVIATIONS, DEFINITIONS. AND TERMINOLOGY
- 1. Abbreviations o A - Alert o ARM - Area Radiation Monitor o ASD - Atmospheric Steam Dump o CA - Communication Assistant o CRP - Control Room Panel o DC0 - Duty and Call Officer o DF - Dilution Factor o EAL - Emergency Action Level o EC - Emergency Coordinator o EOF - Emergency Operation Facility o EPZ - Emergency Planning Zone o ESC - Er.gineering Support Center o MC - Media Center o MCS - Main Coolant System o MCSLAPM - Main Coolant System Leak Air Particulate Monitor o MPA - Manpower and Planning A3aistant o NAS - Nucit ar Alert System ,
o NG - Noble Gises o NRC - Nuclear Regulatory Commission o NWS - National Weather Service o OART -
On-Site Assistance / Rescue Team o OP - Operating Procedure
Page A.1- 2 o OSC - Operations Support Center o OSCC - OSC Coordinator o PAB - Primary Auxiliary Building o PED - Plant Emergency Director o PEMT - Personnel and Equipment Monitoring Team o POD - Pocket Dosimeter o PVS - Primary Vent Stack o REA - Radiological Evaulation Assistant o RERP - Radiological Emergency Response Plan .
o SG - Steam Generator o S1 - Safety injection o SIAS - Safety Injection Actuation Signal o SRM - Site Recovery Manager o SRV - Safety Relief Valve o SS - Shift Supervisor o TAG -
Technical Administrative Guideline o TS - Technical Specification o TSC - Technical Support Center o TSCC - TSC Coordinator o VC - Vapor Container (Containment) o WS1 - Weather Service Information 1
! o YNPS - Yankee Nuclear Power Station f
o YNSD - Yankee Nuclear Services Division
n-Page A.1- 3
- 2. Definitions and Terminology o Alert - An Alert indicates a substantial degradation of plant safety margins which could affect on-site personnel safety, could require off-site impact assessment, but is not likely to require off-site
- public protective action.
o Controller - A member of an exercise control group. Each Controller may be assigned to one or more activities or functions for the purpose of keeping the action going according to a scenario, .
resolving differences (actint as an umpire), supervising and otherwise assisting as needed, o Critique - A meeting of key participants in an exercise, usually held shortly after its conclusion, at which exercise officials constructively criticize the operation and the performance of individuals or groups. It may or may not involve dialogue between players and exercise officials.
o Emergency Action Levels - Specific instrument readings, system or event observation and/or radiological levels which initiate event classification, notification procedures, protective actions, and/or the mobilization of the emergency response organization. These are specific threshold readings or observations indicating system failures or abnormalities.
P ge A.1-4 o Emergency Assistance - General term used to refer to the radiation monitoring Personnel teams, sample analysis team, and in-plant search, and rescue teams.
o Emergency Operation Centers - Areas designated by the state / local representatives as Emergency Plan assembly areas for their respective staffs.
o Emergency operations Facility - A center, located at the Furlon House, established to coordinate the deployment of emergency response personnel, to evaluate off-site accident conditions, and to maintain communications with off-site authorities, Emergency Planning Zones - The areas for which planning o
is recommended to assure that prompt and effective actions can be taken to protect the public in the event of an accident. The two zones are in the 10-mile radius plume exposure pathway zone and the 50-mile radius ingestion exposure pathway zone.
o Engineering Support Ce'ter n - An emergency center established at the Yankee Nuclear Services Division engineering offices to provide emergency support for plant assessment and recovery operations. Room 341_ has been designkted as the conference / communication area of this Center.
l l o General Emergency - A General Emergency involves substantial core degradation or melting with potential for l loss of containment integrity.
1-l t
, ,,- --- ~- ._, , -
Pcte A.1-5 News Media Center - A center, established at the o
Oxbow Motel in Charlemont, Massachusetts, is dedicated to the news media for the purpose of disserinating and coordinating information concerning accident conditions. Activities conducted within this center will be the responsibility of the Yankee Manager of Nuclear Information.
o Nuclear Services Division - The engineering support organization for the Yankee Nuclear Power Corporation.
o Observer - A member of an exercise control group. Hc or she t;*
also serve in a dual capacity as both a Controller and Observer. Each Observer may be assigned to one or more activities or functions for the purpose of evaluating, recording, and reporting the strengths and weaknesses, and making recommendations for improvement.
o Operations Support Center - An emergency center, located on the top floor of the Turbine Building, established for available skilled emergency personnel (i.e.,
additional operation and support personnel).
Activities within this center are directed by the ' Operations Support Center Coordinator, o Protective Action - Those emergency measures taken to effectively mitigate the consequences of an accident by minimizing the radiological exposure that would likely occur if such actions were not undertaken.
9
Pcgs A.1-6 o Protective Action Guides - Projected radiological dose values to the public which warrant protective actions following an uncontrolled release of radioactive material. Protective actions would be warranted provided the reduction in the individual dose is not offset by excessive risks to individual safety in implementing such action.
o Recovery Center - An area established within the Emergency Operations Facility for the purpose of planning recovery actions. The activities of this center are directed by the Recovery Manager.
o Scenario - The hypothetical situation, from start to finish in an exercise which is the theme or basis upon which the action or play of the exercise unfolds.
o Site - That property within the fenced boundary of YNPS which is owned by the Yankee Nuclear Power Corporation, o Site Area Emergency - A Site Area Emergency indicates an event which involves likely or actual major failures of plant functions needed for the protection of the public.
o Technical Support Center - An in-plant center, located in the Control Room complex that has the capability to acquire j
plant parameters for l post-accident evaluation by technical and recovery i
' assistance personnel.
Activities within this center are directed by the Technical Support Center Coordinator.
Pcgs A.1-7 o Unusual Event - An Unusual Event indicates a potential degradation of plant safety margins which is not likely to affect personnel on-site-or the public off-site or result in radioactive releases requiring off-site monitoring.
J
ATTACHMENT B YANKEE EMERGENCY PLAN EXERCISE SCENARIO PACKAGE Table of Contents ,
Section B.1: Yankec Emer5ency Plan Exercise: Scenario Outline Section B.2: ~ Yankee Emergency Plan Exercise: Radiolo5ical Development Packatt Section B.3: Yankee Emergency Plan Exercise: Operational Development Package w
e
. - , ,,y w , -, , , , _ -
e-
3.2-1 Section B.2 YANKEE ATOMIC 1985 EMERGENCY PLAN EXERCISE RADIOLOGICAL DEVELOPMENT PACKAGE I. INTRODUCTION l
The information contained in this package will be issued to the exercise players by the controllers / observers as critical elements of their responsec are being tested. The data contained herein represents simulated monitor !
responses and/or analyses defined by the sequence of accident events. The basis of these calculations was to produce a 1/2 mile off-site whole body dosc rate of approximately 180 mR/hr for several hours and an adult thyroid dose rate of 20 mR/hr. The contents of this section attempt to justify and explain '
a majority of the cue card information which will be presented to the exercise players. Some of the data has been extracted from various plant procedures so as to provide consistency between this data and the data developed (or interpreted) by the exercise players.
- 11. GENERAL INFORMATION AND ASSUMPTIONS A. Source Term Development and Release Mechanism The initial conditions in this scenario specify that the main coolant activity levels are above " normal" (i.e., 100 uCi/g noble gas) due to some degraded fuel cladding, and that a 140 gallon per day leak through the steam generator tubes exist. The scenario commences with an increase in the #1 steam generator (SG) tube leak causing an increase in the condenser air ejector monitor response to above Technical Specification limits. Prior to 0923, the leak steadily increases producing a steady increase in the air ejector monitor response. At 0915, the reactor scrams causing further degradation in the fuel clad integrity which produces a rapid increase in the primary coolant activity levels. From the time period 0915 to 0923, the activity levels in the #1 main steam line steadily increase due to the increasing main coolant levels. The closure of the #1 non-return valve at about this time prevents further activity buildup in the #1 steam line and
B.2-i*
isolates the condenser from the source of radioactivity. Therefore, from this point on, the secondary side activity levels, including the PVS, steadily decrease.
The major release event of-this scenario occurs at 1045 when the low pressure safety valve on the #1 steam line lifts at a pressure of 935 psig and fails to resent due to a broken spring. This results in main coolant flow through defective SG tubes into the #1 steam line, through the safety valve to the secondary stack, and out to atmosphere. This release persists at a constant rate until the safety valve is gagged two hours later, at 1245.
B. Source Term Calculational Basis The noble gas component of the main coolant is based on a whole body off-site dose rate at 1/2 mile of 180 mR/hr at 1.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> after reactor shutdown, a naximum flow rate out of the 935 psig safety valve, Pasquill etmospheric stability class C and a wind speed of 2 mph. Using the steam line concentration determined from the above assumptions, the process radiation
. monitor respon.tes nere determined during the release interval. From this information, data was derived for the periods prior to the release interval (i.e., 0815 to 1045) to reflect a gradual increase in the SG tube leak, the secondary coolant inventory, the air ejector monitor response and the PVS sas
. monitor response.
The halogen component of the source was assumed to contain I-131 only, for the purpose of this scenario. The source term strength was determined based on an adult thyroid dose rate at 1/2 mile of 20 mR/hr for the meteorological and flow rate conditions given. This source also assumed a DF cf 1,000 for activity crossing the defective SG tube such that the main coolant concentration of I-131 was 1000 times that of the secondary side and of the effluent contentration.
The noble gas isotopic mixture of the source represents a normal operational mixture in the main coolant at 1% failed fuel. The noble gas mixture' associated with the release corresponds to a 1-hour mixture in which radioactive decay of the mixture is not considered during the scenario.
B.2-3,
.111. REQUIRED SOURCE TERM AT 1045 TO 1245 A. Noble cas Component The off-site dose rate at 1/2 mile is given es:
,7 QT (uCi/sec) gamma (-) (see m~ )
D #
- OS -3 f(t) (" ",7) mR he where: D OS gam:na ( ) = Gama dif fusion f actor at 1/2 mile f(t) = The effective whole body dose conversion factor for a fission product mixture at time t after shutdown Q = Total noble gas release rate, uCi/sce T
~
for: u = 2 mph = .89 m/see, t = 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />, gama (" ) = 2.6 x 10~ m~ , stability class for C at 1/2 mile;
~
gamma ( ) = 2.9 x 10~ see m l
f(t) = 18.7 " ,
mR hr i
and i QT = 1.15 x 10 uCi/see The noble gas concentration in the #1 steam line CNG 3 (uci cm-3) is given as:
B.2-4 sec )
NT (u CNG 3
(uCi cm-3) =
3 F (em sec -1)
For the 935 psig safety valve, 5 3 -1 7 = 2.7 x 10 cm see Therefore:
NG 1.15 x 10 uCi sec~
5 3, -1 2.7 x 10 Or C = 430 uCi cm~
This concentration is assuncd to exi.t in both thc #1 steam line and the primary coolant once tne release is n 11 established at 1050 hours0.0122 days <br />0.292 hours <br />0.00174 weeks <br />3.99525e-4 months <br />.
B. 1-131 Comronent of the Source The 1/2 r ile adult thyreid dose is given as 20 frR/hr whic? corresponds to an air conce.itration of 2 x 10~ uCi/cc.
From stability class C, at 1/2 mile:
m' , and for a wind speed of 0.89 m/sec,
~
Concentration (" ) = 6.0 x 10
~
= 6.67 x 10~ see m For this, the I-131 release rate, Q , may 7 be determined as:
~ ~
Q = 3 x 10 Ci sec~ = 300 uci sec
B.2-5
~
For a flow rate of 2.7 x 10 cm sec , the 1-131 (11 steam line concentrationC{isdeterminedas:
C 3
= 1.1 x 10' uCi cm~
For a DF=1000 from the main coolant to the secondary coolant, the main coolant 1-131concentrationC{isgivenas:
C * * " ""
MC For the purpcsc c. .: :: scenario, the main coolant density is s:cu- d o be 1 cm3 /g, so the abeve value may be rc rtated as:
C * " E MC "
C. Isotopic Mixture of the Relearc .
The following table sh:vc the relative abundance of 'hc predominant noble gas fission products used for the scenario release interval. The nobic gas isotopic mixture is given below which corresponds to a coolant equilibrium mixture at 1% failed fuel with no decay applied.
Xe-133 93% Kr-85 2%
Xe-135 2% Kr-88 1%
Xe-133m 1%
IV. SOURCE TERM BUILDUP FROM PRIOR TO 0815 TO 1045 A. Prior to 0815 At this time, the initial conditions were chosen to reflect a main coolant concentration less than Technical Specifications but above normal.
This value was chosen to be 100 uCi/cc noble gas activity and 0.1 uCi/cc I-131.
B . 2- 6 The secondary coolant levels were chosen to reflect an air ejector monitor response of 35,000 cpm which corresponds to a condenser air concentration of 1.54 x 10~ uCi/cc. The secondary coolant nobic gas concentration is obtained by assuming a concentration reduction factor from condenser water phasa to air phase of 10.0 resulting in a noble gas
~
concentration in the secondary coolant of 1.54 x 10 uCi/cc.
The 1-131 component of the secondary coolant is a direct result of the SG tube rupture where a DF of 2,000 is assumed at this time due to the smaller leak relative to the leak magnitude at 1030. From this, the 1-131 ~
concentration in the secondary coolant is determined to be 5 x 10 uCi/cc.
- b. At 0815 At this time, the scenario commences with an increase in the air ejector monitor reading indicating an increase in the SG tube leak. (The identity of the faulty SG is not known by plant personnel at this time because of the failure of #1 and #3 SG blowdown monitors.) The condenser air concentration is 2.2 x 10' uCi/cc and the secondary coolant concentration is 2.2 x 10~
uCi/cc. The 1-131 concentrations in the secondary coolant are assumed unchanged at 5 x 10~ uCi/cc. The main coolant levels are assumed unchanged at this point in time. The isotopic mixture is also assumed unchanged.
C. At 0845 From 0815 to 0845, the SG leak is assumed to continue to increase at a rate such that the air ejector monitor response is 70,000 cpm at 0845. The PVS gas monitor response increases slightly. The condenser noble gas air concentration is 3.0 x 10 uCi/cc and the secon'dary coolant. noble gas
~
concentration is 3.0 x 10~ uCi/cc. Again, the secondary and main coolant 1-131 concentrations, and main coolant noble gas concentrations, are assumed unchanged. At this time, the isotopic rixture of the noble gas fission products is also assumed unchanged.
r B.2-7 D. At 0920 At 0915, the reactor scrams, which begins the increase in the main coolant activity concentration at a rate such that at 1045, this concentration is 430 uCi/cc (noble gas). At 0920, the main coolant concentration increases to 200 uCi/cc. The I-131 concentration in the main coolant system is assumed
- to increase to 0.4 uci/cc at 0920.
The secondary coolant system noble gas concentration in the #1 steam line is assumed to increase to 0.088 uCi/cc due to the increase in main coolant system concentration and an increase in the #1 SG tube leak. The condenser air concentration is 0.088 uCi/cc of noble gas. The air ejector monitor readr 200,000 cpr. The correcponding PVS gar concentration ir 8.3 y 10~ uCi/cc which causes the PVS gas monitor to increase to 500 cpm.
The noble gas isotopic mixture on the secondary side at this time is assumed to be the same as that of the primary side as given above. The 1-131 concentration in the #1 steam line, for the remainder of the scenario, is assumed to be 1/1000 that of the main coolant. Therefore, at 0920, the #1 steam line 1-131 concentration ir assumed to bc 4 x 10~ uCi/cc.
The rapid increase in the main coolant concentration which occurs at 0915 will cause an increase in the VC air concentration due to normal leakage out of the main coolant system into the VC air volume. This VC air concentration increase is assumed to result in the Main Coolant System Leck Air Particulate Monitors (MCSLAPM) reading 30,000 - 50,000 cpm.
It should be noted that for the time periods that follow, activity is f
prevented from entering the condenser, air ejector and the PVS due to the i closure of the non-return valve. Because of this, the air ejector monitor and l PVS gas monitor responses will be given as decreasing as the scenario progresses.
i I
l t
B . 2- 8 E. At 0935 The main coolant level has continued to increase to a concentration of 250 uCi/cc noble gas and an I-131 concentration of 0.64 uCi/cc due to bei.ldup in the Main Coolant System from the damaged fuel.
The secondary coolant concentration in the #1 steam line increases to 1.0 uCi/cc noble gas and 6.4 x 10" uCi/cc I-131. The noble gas isotopic mixture is assumed to be relatively the same as shown above. From this stean line concentration, the #1 steam line monitor reads 2.3 mR/hr.
The primary PVS gas monitor is assumed to increase further to 700 cpr due to a t rancfer delay time of activity 'from the con' denser to thc PVS f rc-the 0920 increase. The air ejector monitor reads off-scale high. The MCSLAPM responses are unchanged.
f F. At 0950 The primary coolant activity concentration at this time further increases to 325 uCi/ce noble gas and 0.83 uCi/cc I-131. The #1 steam line cetivity levels are 1.0 uCi/cc noble gas and 8.3 x 10 uCi/cc I-131. This
~
chows that the #1 steam line I-131 concentration increases, whereas the nobic gas remains unchanged. The steam line monitor response, therefore, remains unchanscd ct 2.3 mR/hr. The PVS gas monitor is reduced to 625 cpm due to the condenser activity decrease. The air ejector monitor decreases and the MCSLAPMs remain unchanged.
The relative isotopic noble gas mixture of both the main coolant and #1 steam line is assumed to reflect the core equilibrium mixture.
l i
l l
B.2-9 G. At 1015 The main coolant nobic gas concentration increases to 400 uCi/cc and the I-131 concentration increases to 1.0 uCi/ce. The #1 steam line concentrations are 1.0 uCi/cc noble gas and 0.001 uCi/cc I-131. The steam line monitor response remains at 2.3 mR/hr and the PVS gas monitor shows a further decrease to 550 epm. The air ejector monitor readings decrease and the MCSLAPMs remain unchanged.
H. At 1050 The #1 steam line lov setpoint safety valve has opened at 1045 which causes a rapid increase in the #1 steam line monitor at a rate which is
, impractical to obtain a value. However, at 1050, this monitor has stabilized and the following information will apply. The main coolant activity concentrations, at this time, have increased to 430 uCi/cc noble gas and 1.1 uCi/cc I-131. The #1 steam line concentrations are 430 uCi/cc noble gas and 0.0011 uCi/cc 1-131. This information indicated that the tube rupture is large enough such that the #1 steam line contains the main coolant with respect to noble gas, and that there is a DF of 1000 with respect to 1-131.
-This steam line activity causes the #1 steam line monitor to read 1000 mR/hr at 1035. .The air ejector monitor readings decrease and the MCSLAPMs, remain unchanged. The PVS gas monitor response shows a further decrease to 450 cpm.
~
The main coolant and #1 steam line activity concentrations are assumed to remain unchanged for the remainder of the scenario where radioactive decay
- j. is not considered. The PVS monitor and the air ejector monitor continue to i
decrease until the termination of the exercise. These values are given in later sections. Additionally, the MCSLAPMs are assumed to remain unchanged due to the elevated airborne levels in the VC resulting from normal leakage from valve packings.
B.2-10
- 1. Summary of Gross Radiological Trends
- This section provides a summary table of the gross radiological trends from the initial conditions until the exercise termination. This table does not include the noble gas isotopic breakdown of appropriate samples since this will be provided in later sections. It should be noted that the secondary coolant samples may be taken at three possible locations: 1) the steam generator blowdown lines; 2) the condenser condensate; and 3) the air ejector j discharge. The secondary samples presented in the above sections would represent the levels in the #1 steam line. However, since a total sample of this system is not possible, then an adjustment to those numbers is necessary which is described below.
The #1 blowdown line will only represent the I-131 concentration of the
- 1 steam line. The air ejector noble gas and I-131 concentrations will be as presented previously since an arbitrary dilution factor of 10 was applied in estimating this value from the #1 steam line concentration. Since dilution from the unaffected steam lines occurs in the condenser water volume, which recounts for a dilution factor of 4, then the actual dilution factor for the water phase in the condenser to the air phase is 2.5. For the purpose of thic scenario, this assumption will be assumed to be correct. The condenser condensate concentration will only show I-131 since the gas stripping is assumed to be 100%. This condensate concentration will only show 25% of the
- 1 steam line I-131 concentrationc.
~
From this information and the data developed in the previous sections, Table B.2.1 Gross Radiological Trends, is shown below.
t
& C O O C O O O O C C C- O O O O I Y. C. C. - O. l F
v
- . . r- -
e e
C.
O m
O O.
C O.
C C
m
. O.
O m
I r
e.
D E
i 8 8 8 8 8 8 8 8 8
,,' O. O. O. O. O. O. O. O.
,- f + + C C O C - O O h h h r i D + @ @
p -
E. C C l O O O + 0 O O g -. L # # O O C A e e O
- g. V' 6 O % e d e N b a
~
e h e
, ei t
e I ..
~
o e e e
e.e e
e
- e. e, e e
g til ' C W, .O * .O= O g *
>; u- .O= .O= .O = .O. .O* .O.
L N N
= .C= .%.=' t - N N N N N N 2V b - @
1, .
g
, J, l a
c: e
==
~.
e
. m.
e O.
E N.
h n.
e N. e.
to N h, 1 g, Ll '- C O O O e e e e O -
g C C O O O s: u 4" uZ UC O e E C.
p g u m: r at u .g s . O. - C. O. .- = O.
-.L1 b .
=
C o
- C C w= w.=
s
.- I b C
-C w w w w O a A C C C C e
.Li.
at v N 7
& C = N m E e e e
- C O
-P % 0 O O e
- e r A 2 e= C O O O' CUU * - O- . C. C. - O- O.
E :
i L & l s 6*
- f. @
, e e e e e
}4 V as l
$ O e e e.
.O * -- O e e e
- v -
= t* t == .O. .C .C. .O. -
C.
. .O.
=t : --'
t x N N N N N N N N
.-= *
- {TU p." C7
- e u
. O. . g. C.
~
es .%
-- . - - ~ ~. ~
t l
1
- l. A.
f
- c. #. e, e.
e- m m, m, v ? C C O 1 s a - .C= .= .= O.
. O. .= .O.. O.
=.=%. .
== 0:
L' N N N N N at N N N
.T. U ** I w .* -s
. e. - e. e. C. e. e. O. . .
. E e c # e - e e .= .e ==
i C s
j i
e G. -
O
< EE O
- a. % A. ev. h. e. m. m. m. O 4 t E C C C O- N N N -
4 '? si t-
! C. Ui3 i l~
"n l
=3 f ' '
- g. F= c ' r e e e e m a e
& C. 6 i e. s 'e e e e e 4 es et .*
O. O.
O O O i L1 R, m, .C. . . O.
. - . ,O. O.
- 64
,- 5 p'
.=
= c si ==l s N N N N N N N N N t-L e m O .* .e
' v e. e. C. e. .
c:
- e e m o e e e .
O O' I i e e
.t. en e N e
.{ -t * - N e C e #
T '.' : O C C. O- O. **
- 2 -
C* - - .= e e es .e c t mI e m
.ee .mUl
- {
l ==. .e. ce. e. e. e. O.
se C v v . O O O O O O .e .* .*
, .C? C O .%I
=
L? C' t *
, i ~ r C C O C et C e +
\ - v 2
- t- O O + s o e m i
e a CU - .= .O= N N .= < < e
'E .
{ E l
' , i 6
- l- .
,- .= c e .r.
e O
N e
O v.
o
+ #.
.= . . oc ac e EP (* e O O .*
- U s., t.'. O O O O O O .* - =
I
B.2-12 V. ISOTOPIC SAMPLE RESULTS A. Main Coolant Samples In the event that an isotopic analysis of the Main Coolant System is performed, the following results will be given at the appropriate time shown below on Table B.2.2, Main Coolant Isotopic Sample Results,
~
f TABLE B.2.2 Main Coolant Isotopic Sample Results, uCi/cc Scenario Clock Time prior Isotope 0915 0920 0935 0950 1015 1050 1145 Xe-133 93.0 186.0 232.5 302.3 372.0 400.0 400.0 Xe-135 2.0 4.0 5.0 6.5 8.0 8.6 8.6 Xe 133m 1.0 2.0 2.5 3.3 4.0 4.3 4.3 4.0 5.6 6.5 8.0 8.6 E.6 Kr- 85 2.0 Kr-88 1.0 2.0 2.5 3.3 4.0 4.3 4.3 1-131 0.1 0.4 0.64 '0.83 i 1.0 1.1 1.1 Total 100.0 200.0 250.0 325.0 400.0 430.0 430.0 Depending upon the volume of the main coolant sample taken, these samples could produce significant local dose rates. Since the sample volume cannot be predetermined, sample dose rates are given per 100 cc volume using the relationship, C (Ci) E (Mev)
D FT (R/hr) = 6
! where E (Mev) will be assumed to equal 0.5 Mev.
l I
l i
B . 2- 13 TABLE B.2.3 Main Coolant Sample Dose Rates Scenario Main Coolant Dose Rate at 1 Foot Time Cone. (uCi/ce) Per 100 ce Sample, mR/hr
.0815 100 30 0845 100 30 9
0970 200 60 0935 250 75 0950 325 98 1015 400 120 1045 430 130 1
1145 430 130 B. Air E3ector Discharge Isotopic Samples in the likely event that an isotopic sample analysis of the air ejector discharge is performed, the following results will be provided at the appropriate times as shown on Table B.2.4, Air Ejector Discharge isotopic Sample Results.
4 H.2.le TARIE R.2.4 Air Ejector Discharge Qatopic Sam.le Results, uCi/cc 9
Scenario Clock Time Prior 0815 On15 0s45 0970 0935 0950 1015 1045 1.145 15.pto e ye.133 1.4 x 10-3 2.0 x 10-3 2.9 x 10-3 R.3 x 10-3 5.9 x 10-2 7.4 x 10-2 6.0 x 10-2 5.3 x 10-2 1.6 x 10-2 Ne-135 3.0 x 10-5 4.4 x 10-5 6.0 x 10 5 1.8 x 10-4 1.3 x 10-3 1.6 x 10-3 1.3 x'10-3 1.1 x 10-3 3.6 x 10-3 Ne-13)m 1.5 x 10-5 2.2 x 10-5 2.9 x 10 5 g,g ,go-5 6.4 x 10-4 7.9 x 10-4 6.5 x 10-4 5.7 x 10-4 1.8 x 10-4 Er-85 3.0 x 10-5 4,4 x go-5 6.0 x 10-5 1.8 x 10-41 1.3 x 10-3 1.6 x 10-3 1.3 x 10-3 1.1 x 10-3' 3.6 x 10-3 Er-98 1.5 x 10-5 2.2 x 10-5 2.9 x 10-5 p,9 x 30-5 6.4 x 10-4 7.9 x 10-4 6.5 x 10-4 5.7 x 10-4 1.8 x 10-4 Total 1.5 x 10-3 2.2 x 10-3 2.9 x 10-3 8.89 x 10-3 6.4 x 10-2 7.94 x 10-2 6.5 x 10-2 5.7 x 10-2 '1.76 x 10-2
B.2-Is C .- PVS Gas Isotopic Samples The isotopic sample results for the PVS samples will show a factor of 1.3 x 10 times less than that of the air ejector discharge. These results cre shown below on Table B.2.5, PVS Isotopic Gas Sample Results.
O e
e e e e ' 00 e a e e 6 e e O O O O O e se em . ed en .O. sw e e, se == M M M M M M a ==
N. se. @. M. e. M. M.
e N '
- N e N N
@ A e- m a' @
e s e e e 4 O O O .O O O in om we ce ce ee - ss e
O. M M M M M M cm
' 9 9
- e. e. e. w.
e en h es m h e h e ** e @
e e t I e t O O O O O O es ce .= re ce ce t.o
=
0 - M. M M M M N re N
- e. . . en. A. in. em.
em es e se 'e -e to d em N h % l e I e e 1 O O O O O O ce C ** ed .= ** es to N
, e M M M' N N y O M
- O.
O ? ?
- e. N - N - -
E S
I in, O
C e
C e
O e%
O e- in.
O c, "g =p to es == == ** ce s-s e "
N. g Jd 9 M M M M M M e- vi O
,, C. em se
. gl , - C. N. - se. N. . .
- g. g. Q em N ** N ** me i &
Sh U C we -
si e m, so, ' h w a$ ' c- e e e. .
tl O O O C O
,Cn o O em .O= .= ee - -
" M N e M M M M M M M C y @
em. @. m. . m. M.
.= c a e en
@ e e e e W e e e e e e O - O O O O e e. - O.= - ee ==
e e M M M M M M O
O. N. . N. . .
em N ** N es ce h e e ac e a.
e e e s e e O O O- O O O iA se se ed ed ** re e ce e W M M M M N O
- e. m
- m. we. . se. m. s in se nn em to to h
A @ P @ P e i e e e e O b ' O O O O O re to ** re ce ed ed
.Oe se M ke W M M M M AO @
9
- e. O. O. O. O.
em 9 N e N - ce i, M M
.n M
R m e e e.e ei re - s= ce e e S O
- e e e s es a 9 % 9 b b C
- e. M M M M W H
B.2-17 D. Containment Air Sample In the event that the VC air is sampled prior to the containment entry, this will be done after 1045. This analysis should be given as having the following results shown in Table B.2.6, Containment Air Sample Results.
. TABLE B.2.6 gontainment Air Sample Results Isotope Concentration, uCi/cc Xe-133 1.8 x 10-2 Xe-135 4.0 x 10-4 Xe-133m 2.0 x 10-4 Kr-85 4.0 x 10-4 Kr-88 2.0 x 10-4 1-131 1.0 x 10-6 This air concentration should yield a whole body ganna dose rate of cpproximately 140 mR/hr in the VC air volume.
VI. SPECIFIC.~IN-PLANT RADIOLOGICAL CONDITIONS A. VC Entry conditions As given in Section V.D. the given air concentrations of noble gas will produce a dose rate (whole body) of approximately 140 mR/hr. The iodine cirborne concentration is of a level which should demand extensive respiratory protection of the supplied air type.
At the #1 loop, the general area dose rates will be reported as 30 R/hr with a dose rate at the loop isolation valve of 75 R/hr (see Figures B.2-18 cnd B.2-19). The loop isolation closure will require 15 minutes, and at this
4 B.2-18 dgse rate should require several individuals. Since it is difficult to
' predict the number of individuals chosen for this task, a specific pocket dssimeter result cannot be given; however, it can be determined that this task will require approximately 19 man-rem of exposure or 1.25 man-rem per minute of work. This value will be provided appropriately at that time.
B. Safety Valve Gaa Attempt Conditions This task cannot be predetermined with respect to number of individuals er length of time required. Therefore, the following results will apply for a 5-minute stay time per individual (see Figure B.2-20). The contamination levels will be provided whether the individual is wearing protective clothing ce not. Decontamination efforts or protective clothing protection will be censidered 100% effective.
Whole Body Dose (POD) = 100 mR per 5 Minutes Contamination = 10.000 dom /100 cm per 5 Minutes (this contamination is comprised of primarily I-131)
C. Sammle Sink (s) Radioloaical Conditions The request for a main coolant and/or blowdown sample may occur from 0815 to 1245. During the period 0915 to 1045, the dose rates during this campling effort would be expected to vary by at least a factor of 5. From the
- p2riod of 0815 to 0915, the local dose rates at the PAB sample sink will be
- ccrumed to be 500 mR/hr. Therefore, the dose rate at 1045 may be given as 1500 mR/hr general area at the PAB sample sink. In the event that the main l
i crolant samples are requested from the post-accident sample panel, dose rates will only be observed from the sample as given in Section V.A (Table B.2.3).
Dose rates at the PAB sample sink for various times are given below in i Table B.2.7.
-4 . - . . - . , - . . . - , . . , . . , _ - . . _ _ _ . . . . . . , . . . _ , - . , _ - . . _ . . - . . , , , _ _ , . . _ _ _ . . . , _ . . . _ _ _ _ _ . _ _ - - - - _ _
B.2-19 TABLE B.2.7 PAB Sample Sink Dose Rates Iing General Area Dose Rate. R/hr Hot Scots. R/hr Prior 0915 0.50 1.0 0915 1.0 2.0 0935 1.25 2.5 0950 1.60 3.0 1015 2.00 4.0 4 1045 2.50 5.0 D. Emergency Center Integrated Doses The only on-site emergency center which will be assumed to experience olevated radiation levels will be the OSC (located at the STA office area of
-the turbine building). As will be provided in later sections, the outside dase rates at this location will be approximately 200 mR/hr from the effluent out the secondary stack. A protection factor of approximately 4 will be ccsumed to apply when determining dose rates inside the OSC; therefore, the whole body dose rate will be assumed to be 50 mR/hr (see Figures B.2-21 and B.2-22). The accumulated doses as indicated by the OSC pocket dosimeter (POD) reading'is shown below on Table B.2.8 for various times.
TABLE B.2.8 OSC Intemrated Doses Whole Body Dose Rate. mR/hr InteReated Dose, mR Scenario Clock Time 0815-1045 As Read 0 1045-1115 50 50 1115-1145 50 100 1145-1215 50 150 1215-1245 50 200 1245-1315 As Read 250
B.2-40 E. On-Site Contamination Levels Under the Plume Trajectory It will be assumed that for areas under the plume trajectory, a significant amount of I-131 deposition will occur on the ground. This deposition will only be observed in on-site areas close to the release point (secondary stack). The magnitude of this deposition will be from 10,000 dpm/100 cm (I-131) close to the secondary stack, to 100 dpm/100 cm (I-131) at the inner fence boundary along the plume centerline.
These levels will be observed only after the release has been terminated at 1245.
VI. ON-SITE AND OFF-SITE PLUME RADIOLOGICAL CONDITIONS A-. On-Site Radiological Conditions The specified meteorological conditions indicate that the plume will travel in the direction of Monroe Bridge under stability class C with a wind speed of 2.0 mph. Under these conditions, it will be assumed that the plume touchdown will be beyond the site boundary but within a 1/2 mile radius. This release is considered a ground level release but, with this type of releacg of hot steam through the secondary stack, then some plume rise will assume to be present. The on-site whole body dose rates are shown on Figure B.2-1.
On-Site Plumc Exposure Isodose Map. This figure indicates that the 100 mR/hr region occurs at the turbine building location where the turbine hall AARM is positioned. Therefore, this monitor will indicate 100 mR/hr during the release interval as a result of plume exposure at this location. Figure B.2-1 also indicates the locations of the environmental TLDs. These results will be specified in a later section.
B. Off-Site Radiological Conditions Figures B.2-2 through B.2-16 show the plume location at 15 minute intervals subsequent to the release. Whole body dose rates and air sample data are provided on the table accompanying each map. These maps were y- ---e w-- - -
=ti 2
B.2-2' a
^$
generated using the METPAC dose assessment program and show plume centerline, i 15 minute plume segment, and a plume edge corresponding to 1% of centerline dose. The air sample results assume the following sampling conditions: M M
15-minute sample duration at 1 cfm. The RM-14/MP210 1-131 counting efficiency .
=
of .24%, the SAM 11 1-131 efficiency of 5% and the 1-131 retention of 100%. Me Air samples are assumed to be taken with silver loaded silica gel and the hun sample counts represent 1-131 enly. 4
-2
=
C. Radiolor.ical Conditions at the EOF M The EOF is located off plume centerline at 1/2 mile. It is assumed that this corresponds to a dose rate outside of approximately 2 mR/hr. A a protection f actor of 2 will be assumed to apply for the EOF structurc; therefore, Table B.2.9 below is given which shows the dose rates and integrated dose within the EOF structure.
TABLE B.2.9 _
l Whole Body EOF Dose Rates and Doses Accumulated 2 Whole Body Dose Rate Whole Body Dose Rate j_
Time Post-Release (inside EOF) (inside EOF) ,
w Prior to 1100 As Read 0 1 ,
1115 1 mR/hr <1 mR ;
s 1130 1 mR/hr <1 mR f
1145 1 mR/hr <1 mR 1200 1 mR/hr 1 mR 7 r 1215 1 mR/hr 1.2 mR _-
1230 1 mR/hr 1.5 mR 1245 1 mR/hr 1.8 mR j
=.
1300 1 mR/hr 2 mR j 1315 As Read 2 mR d
i 2
3
_t
_n-
.=.
B.2-22 -n y.
h?
+-
The air sample results at the EOF are shown below for several air sample q duration times on Table B.2.10. ,
TABLE B.2.10 ,
EOF Air Sample Results From 1100 to 1300 hb l-K I-131 mr 6
Sample Duration RM-14/HP210 SAM Il Concentration Adult Thyroid -
(minutes) CPM CPM uCi/cc Dose, mR/hr
==
-10 5 0 4 2.65 x 10 <1 26- .
15 0 12 2.65 x 10~ <1 .
E 30 1 25 2.65 x 10~ <1 - -
66 4 36 .
These results assume a flow rate of I cfm, a 100% retention for I-131 l an RM-14/HP210 counting efficiency for I-131 of .24%, a SAM II counting - :
efficiency for 1-131 of 5.0%, and the samples have been purged or taken with !, ~
o silica gel.
a D. On-Site and Off-Site Environmental TLD Results 5 The locations of the on-site environmental TLDs are shown on Figure B.2-1. Table B.2.11 gives the locations of environmental TLDs that may f; be impacted. 5-
-l
'm
^
\
B.2-23 TABLE B.2.11 Environmental TLD Locations TLD Designation Distance From Code Location VC (miles) Azinoth GM-1 Furlon House .5 2320 GM-2 Observation Stand .3 3130 GM-5 Monroe Bridge .7 2360 GM-8 Monroe Hill Barrier 1.1 1770 GM- 11 Adarr Hi-Line 1.3 2890 GM-13 Restricted Area Fence .05 2550 GM-14 Restricted Area Fence .07 3000 GM-15 Restricted Area Fence .05 3450 GM-16 Restricted Area Fence .08 300 Restricted Area Fence .087 700 GM-17
-GM-18 Restricted Area Fence .087 1150 GM-19 Restricted Area Fence .1 1400 GM-20 Restricted Area Fence .1 1600 GM-21 Restricted Area Fence .07 2250
B.2-24 If the TLDs are removed and analyzed prior to 1045, then "as read" results will be provided.
If the TLDs are removed after 1045, then the results on Table B.2.12 will be given.
TABLE B.2.12 Environmental TLD Results Time Interval TLD Removed Environmental 1045-1115 1115-1145 1145-1215 1215-1245 TLD Location 0.5 mr. 1.5 mR 2.5 mR 3.5 mR GM-1 5 mR 10 mR 1.5 mR 20 mR GM-2 10 mR 20 mR 30 mR 40 mR GM-5 0 mR 0 mR 1 mR 2 mR GM-8 0 mR 0 mR 12.5 mR 27.5 mR GM-11 0.1 mR 0.3 mR 0.5 mR 0.6 mR GM-13
'O mR 0.1 mR 0.2 mR 0.2 mR GM-14 0.2 mR 0.5 mR 0.8 mR 0.1 mR GM-15 0.3 mR 0.7 mR 1 mR 1 mR GM-16 10 mR 20 mR 30 mR 40 mR GM-17 750 mR 1500 mR 2250 mR 3000 mR GM-18 35 mR 70 mR 105 mR .140 mR GM-19 2.5 mR 5 mR 7.5 mR 10 mR GM-20 0.25 mR 0.5 mR 0.8 mR 1 mR GM-21
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B.3-1 - Section B.3 Yankee Emergency Plan Operational Development Package
- 1. INTRODUCTION The data contained in this section develops the conditions necessary for the operational development of the scenario. The conditions given at each time interval are assumed to remain the same or continue on the same trend until new information is issued. The major events created by this section are discussed in detail in Section B.2, Radiological Development Package. The discussion section which follows is a narrative on the observation and actionc of the operators as the scenario develops.
II. DISCUSSION ' During the first half hour of the scenario the operators observe the air ejector monitor rising and indications of inventory being lost fror the Main Coolant System. At 0845 an Unusual Event should be decided upon based on the chemistry leak rate report. The indications show the leak rate getting progressively worse. At 0915 the plant scrams on low main coolant pressure. by 0920 the air ejector monitor exceeds 100,000 cpm. At this time the operators have all the events necessary to initiate an Alert classification. The operators, using their emergency procedure for a Tube Rupture Event, will attempt to isolate the affected loop by closing the loop isolation valves, securing safety injection to the affected loop, closing the loop main steam isolation valve and discontinuing feed to the affected steam generator. Following the loop isolation attempt the indications will establish that the isolation effort was unsuccessful and a rapid cooldown of the Main coolant system will be initiated. The cooldown will not progress rapidly enough to prevent the ' low set safety valve, on the affected steam generator steam line, from lifting. This safety valve sticks open and produces off-site
B.t 2
-radiation levcis high enough to initiate a site area emergency. At 1230 the cffected main coolant loop is successfully isolated and shortly afterwards the steam line safety valve is gagged. These actions essentially stop the event.
The remainder of the operational efforts are directed toward cooling down the plant so that repairs can be made. The Control Room data which follows will be provided, along with cue cards from Section D.1, to the players in the Control Room at the times indicated. 4 0
B.3-3 Centrol Room Data 0815 Parameter Observed Values VC AARM <1 R/HR Turbine Hall AARM 0.01 MR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Hot Leg Injection Flow 0 Inches HPS1 Header Flow 0 GPM HPSI Header Pressure O PSI LPSI Header Pressure O PS1 LPST Level 35 Inches i LPST Pressurc 10 PSI l- MC Pressure 2,000 PSI MC Syr. Leck AP Moniter S 25,000 CPM MC Sys. Leak AP Monitor N 15,000 CPM PVS Cas Mon. 50 CPM PVS Iodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK 39 23 Feet Pzr. WR Level 120 inches Pze. Pressure 2,000 PSI Subcooled Martin Monitor (DEG) 85 DEG (F) Subcooled Margin Monitor (PSI) 954 PSI S/G Pressure 1 575 PSI S/G Pressurc 2- 525 PSI S/G Pressure 3 525 PSI S/G Prescurc 4 525 PSI S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G 4 Blowdown 1,100 CPh S/G WR Level 1 22 Fect S/G WR Level 2 22 Feet S/G WR Level 3 22 Feet S/G WR Level 4 22 Feet SI Tank Level 25.5 Feet Loop 1 TC WR 514 DEG (F) Loop 2 TC WR 514 DEG (F) Loop 3 TC WR 514 DEG (F) Loop 4 TC WR 514 DEG (F) Loop 1 TH NR 554 DEG (F) Loop 2 TH NR 55A DEC (F) Loop 3 TH NR 554 DEG (F) Loop 4 TH NR 554 DEG (F) 6 Test TK Discharge O CPM l VC Drain Tk. Level 10 inches Vapor Container Pressure 1.2 PS1 ' Steam Line Radiation 1 0.2 MR/hr Steam Line Radiation 2 0.2 MR/hr Steam Line Radiation 3 0.2 MR/hr Steam Line Radiation 4 0.2 MR/hr Air Ejection Monitor 50,000 CPM
B.3-4 Control Room Data 0830 l Parameter Observed Values VC AAFM <1 R/HR Turbine Hall AARM 0.01 MR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM ! Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM
.Demin. Water TK-1 32 Feet Hot Leg Injection Flow 0 Inches HPSI Header Flow 0 GPM HPSI Header Pressurc 0 PSI LPSI Header Pressure O PSI LPST Level 33 inches 1T Pressure 10 PSI . Prescurc 1,960 PSI Mc sys. Leak AP Monitor S 30,000 CPM MC Sys. Leak AP Monitor N 20,000 CPM PVG Gas Mon. 100 CPM PVS lodine Monitor 75 CPM PVS Part. Hon. 80 CPM Prim. Water TK-39 23 Feet Pze. WR Level 110 Inches Pzr. Pressure 1,960 PSI Subcooled Margin Monitor (DLO) 83 DEG (F)
Subcooled Margin Monitor (PSI) 914 PSI S/G Prescurc 1 575 PSI S/G Pressure 2 525 PSI S/G Pressure 3 525 PSI S/G Pressure 4 575 PSI S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G 4 Blowdown 1,100- CPM S/G WR Level 1 22 Fe c t ,. S/G WR Level 2 22 Feet S/G WR Level 3 22 Feet S/G WR Level 4 22 Feet S1 Tank Level 25.5 Feet Loop 1 TC WR 514 DEG (F) Loop 2 TC WR 514 DEG (F) Loop 3 TC WR 514 DEG (F) Loop 4 TC WR 514 DEG (F) Loop 1 TH NR 554 DEG (F) Loop 2 TH NR 554 DEG (F) Loop 3 TH NR 554 DEG (F) Loop 4 TH NR 554 DEG (F) Test TK Discharge O CPM VC Drain Tk. Level 10 Inches Vapor Container Prcscurc 1.2 PSI Steam Line Radiation 1 0.2 MR/hr Steam Line Radiation 2 0.2 MR/hr Steam Line Radiation 3 0.2 MR/hr Steam Line Radiation 4 0.2 MR/hr Air Ejection Monitor 60,000 CPM
E.3-5 Control Room Data 0845 Parameter Observed Values VC AARM <1 R/HR Turbine Hall AARM 0.01 MR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM Demin. Water TK-1 12 Feet Hot Leg Injection Flow 0 Inches HPSI Header Flow 0 GPM HPSI Header Pressurc 0 PSI LPSI Header Pressure O PSI LPST Level 26 Inches LPST Pressure 10 PSI MC Pressurc 1,930 PSI MC Sys. Leak AP Monitor S 40,000 C t'M MC Sys. Leak AP Monitor N 22,000 CPM PVG Gas Mon. 200 CPM PVS Iodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Feet Pzr. WR Level 100 Inches Pzr. Pressure 1,930 PSI Subcooled Margin Monitor (DEG) 81 DF:C (F) Subcooled Margin Monitor (PSI) 884 PSI S/G Pressure 1 525 PSI S/G Pressure 2 575 PSI S/G Pressure 3 575 PSI S/G Pressure 4 575 PSI S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G 4 Blowdown 1,100 CPh S/G WR Level 1 22 Feet S/G WR Level 2 22 Feet S/G WR Level 3 22 Feet S/G WR Level 4 22 Feet Si Tank Level 25.5 Feet Loop 1 TC WR 514 DEG (F) Loop 2 TC WR 514 DEG (F) Loop 3 TC WR 514 DEC (F) Loop 4 TC WR 514 DEG (F) Loop 1 TH NR 554 DEG (F) Loop 2 TH NR 554 DEG (F) Loop 3 TH NR 554 DEC (F) Loop 4 TH NR 554 DEG (F) Test TK Discharse O CPM VC Drain Tk, Level 10 Inches VLpor Container Pressure 1.2 PSI Steam Line Radiation 1 0.2 MR/hr Steam Line Radiation 2 0.2 MR/hr Steam Line Radiation 3 0.2 MR/hr Stean Line Radiation 4 0.2 MR/hr Air Ejection Monitor 70,000 CPM
B.3-6 0900 Co_ntr_o1 Room Data Para.neter Observed Values
<1 R/llR VC AARM 0.01 MR/HR Turbine Hall AARM GPM O
Aux FW Flow 1 GPM 0 Aux FW Flow 2 GPM 0 Aux. FW Flow 3 GPM 0 Aux. FW Flow 4 CPM 106 Diecd1ine Mon. Feet 12 Domin. Water TK-1 Inches Hot Leg Injection Flow 0 0 GPM MPS1 Header Flow PSI O MPSI Header Pressure PSI O LPSI Header Pressure Inches 16 LPST Level PSI LPST Pressure 10 1,900 PST MC Pressure Cn. MC Sys. Leak AP Monitor S 45,000 28,000 CPM MC Sys. Leak AP Monitor N 300 CPM PVG Gas Mon. CPM 75 PVS Iodine Monitor CPM PVS Part. Mon. 80 23 Feet Prim. Water TK-39 Inches Pzr. WR Level 90 1,900 PSI Pze. Pressurc Subcooled Margin Monitor (DEG) 79 DEG (F) Subcooled Margin Monitor (PSI) 854 PSI 575 PSI S/G Pressure 1 PSI S/G Pressure 2 575 575 PSI S/G Pressure 3 PSI S/G Pressurc 4 525 S/G 1 Blowdown Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdov-- Out of Service CPM 1.100 CPM S/G 4 Blowdown 22 Feet S/G WR Level 1 Feet 22 S/G WR Level 2 Feet 22 S/G WR Level 3 Feet 22 S/G WR Level 4 Feet SI Tank Level 25.5 514 DEG (F) Loop 1 TC WR 514 DEG (F) Loop 2 TC WR 514 DEG (F) Loop 3 TC WR 514 DEG (F) Loop 4 TC WR 554 DEG (F) Loop 1 TH NR 554 DEG (F) Loop 2 TH NR 554 DEG (F) Loop 3 TH NR 554 DEG (F) Loop 4 TH NR CPM Test TK Discharge O 10 Inches VC Drain Tk. Level PSI Vapor Container Pressure 1.2 0.7 MR/hr Steam Line Radiation 1 MR/hr 0.2 Steam Line Radiation 2 MR/hr Steam Line Radiation 3 0.2 0.2 MR/hr Steam Line Radiation 4 CPM Air Ejection Monitor 80,000
B.3-7 Control Room Date 0915 Parameter Observed Values VC AARM <1 R/HR Turbine Hall.AARM 0.01 MR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Hot Leg Injection Flow 0 Inches MPSI Header Flow 0 GPM HPSI Header Pressure 1,500 PSI LPSI Header Pressure 200 PSI LPST Level 22 Inches LPST Pressure 10 PSI MC Pressure 1,800 PSI MC Sys. Leak AP Monitor S 47,000 CP!: MC Sys. Leak AP Monitor N 29,000 CPM PVG Gas Mon. 400 CPM PVS Iodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Fcct Pze. WR Level 85 Inches Pzr. Pressure 1,800 PS1 Subcooled Margin Monitor (DEG) 90 DEG (F) Subcooled Margin Monitor (PSI) 925 PSI S/G Pressure 1 630 PS1 S/G Pressure 2 630 PS1 S/G Pressure 3 630 PSI S/G Pressure 4 630 PSI S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G 4 Blowdown 1,100 CPM S/G WR Level 1 17 Feet S/G WR Level 2 20 Feet S/G WR Level 3 20 Fcct S/G WR Level 4 17 Feet S1 Tank Level 25.5 Feet Loop 1 TC WR 510 DEG (F) Loop 2 TC WR 510 DEG (F) Loop 3 TC WR 510 DEG (F) Loop 4 TC WR 510 DEG (F) Loop 1 TH NR 530 DEG (F) Loop 2 TH NR 530 DEG (F) Loop 3 TH NR 530 DEG (F) Loop 4 TH NR 530 DEG (F) Test TK Discharge O CPM VC Drain Tk. Level 10 Inches Vapor Container Pressure 1.2 PSI Steam Line Radiation 1 O.2 MR/hr Steam Line Radiation 2 0.2 MR/hr Steam Line Radiation 3 0.2 MR/hr Steam Line Radiation 4 0.2 MR/hr Air Ejection Monitor 90,000 CPM
B . 3- 8 Control Room Data 0920 Parameter Observed Values I VC AARM <1 R/HE , I Turbine Mall AARM 0.01 MR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Mot Leg Injection Flow 0 Inches HPSI Header Flow 0 GPM HPSI Header Pressure 1,500 PSI LPSI Header Pressure 800 PSI LPST Level 30 Inches LPST Pressure 10 PSI MC Pressure 1,700 PSI MC Sys. Leak Al' Monitor S 50,000 CPM MC Sys. Leak AP Monitor N 30,000 CPM PVG Gas Mon. 500 CPM PVS Iodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Feet Pze. WR Level 80 Inches Pzr. Pressure 1,700 PSI Subcooled Margin Monitor (DECS 102 DEC (F) Subcooled Margin Monitor (PSI) 1,000 PS1 S/G Pressure 1 760 PSI S/G Pressure 2 760 PSI S/G Pressure 3 760 PSI S/G Pressurc 4 760 PSI S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service . CPM S/G 4 Blowdown 1,100 CPM S/G WR Level 1 12 Feet S/G WR Level 2 17 Feet S/G WR Level 3 17 Feet S/G WR Level 4 12 Feet SI Tank Level 25 Feet l Loop 1 TC WR 515 DEG (F) [ l Loop 2 TC WR 515 DEG (F) ! Loop 3 TC WR 515 DEG (F) Loop 4 TC WR 515 DEG (F) Loop 1 TH NR 515 DEG (F) l Loop 2 TH NR 515 DEG (F) l Loop 3 TH NR 515 DEG (F) Loop 4 TH NR 515 DEG (F) l Test TK Discharge O CPM l l VC Drain Tk. Level 10 Inches Vapor Container Pressure 1.2 PSI Steam Line Radiation 1 0.4 MR/hr l Steam Line Radiation 2 0.2 MR/hr Steam Line Radiation 3 0.2 MR/hr Steam Line Radiation 4 0.2 MR/hr Air Ejection Monitor 200,000 CPM i
B.3 4 Control Room Data 0930 Parameter Observed Values
<1 R/HR VC AARM 0.01 MR/HR Turbine Hall AARM 0 GPM Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 106 CPM Bleedline Mon.
12 Feet Domin. Water TK-1 Hot Leg Injection Flow 0 Inches 0 GPM HPSI Header Flow 1,500 PSI HPSI Header Pressure 800 PSI LPSI Header Pressure LPST Level 30 Inches 10 PSI LPST Pressure 1,600 PSI MC Pressure 50,000 CPM MC Sys. Leak AP Moniter S MC Sys. Leak AP Monitor N 30,000 CPM 500 CPM PVS Gas Mon. 75 CPM PVS Iodine Monitor CPM PVS Part. Mon. 80 23 Feet Prim. Water TK-39 60 Inches Pzr. WR Level 1,600 PSI P%r. Pressure Subcooled Margin Monitor (DEG) 102 DEG (F) Subcooled Margin Monitor (PSI) 1,000 PSI 780 PSI S/G Pressure 1 760 PSI S/G Pressure 2 760 PSI S/G Pressure 3 760 PSI S/G Pressure 4 S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM 1,100 CPM
, S/G 4 Blowdown 12 Feet l
S/G WR Level 1 S/G WR Level 2 17 Feet 17 Feet S/G WR Level 3 12 Feet S/G WR Level 4 7 S1 Tank Level 25 Feet l 515 DEG (F) i Loop 1 TC WR Loop 2 TC WR 515 DEG (F) Loop 3 TC WR 515 DEG (F) Loop 4 TC WR 515 DEG (F) Loop 1 TH NR 515 DEG (F) Loop 2 TH NR 515 DEG (F) Loop 3 TH NR 515 DEG (F) 1 Loop 4 TH NR 515 DEG (F) Test TK Discharge O CPM 10 Inches VC Drain Tk. Level PSI Vapor Container Pressure 1.2 2.3 MR/hr l Steam Line Radiation 1 MR/hr 0.2 l Steam Line Radiation 2 MR/hr 0.2 ! Steam Line Radiation 3 MR/hr Steam Line Radiation 4 0.2 Air Ejection Monitor 500,000 CPM
B.3-10 Control Room Data 0935 Parameter Observed Values
<1 R/HR VC AARM
~ Turbine Hall AARM 0.01 MR/RR O GPM Aux. FW Flow 1 GPM 0 Aux. FW Flow 2 GPM 0 Aux. FW Flow 3 GPM 0 Aux. FW Flow 4 CPM 106 Bleedline Mon. Feet 12 Domin. Water TK-1 Inches Hot Leg Injection Flow 0 0 GPM MPSI Header Flow PSI 1,500 MPSI Header Pressure PSI 800 LPSI Header Pressure Inches LPST Level 30 10 PSI LPST Pressure PSI 1,500 MC Prescurc CPM MC Sys. Leak Al ha.i t :. ; 50,000 30,000 CPM MC Sys. Leak AP Monitor N 700 CPM PVS Gas Mon. CPM 75 PVS lodine Monitor CPM 80 PVS Part. Mon. Feet 23 Prim. Water TK- 39 Inches 40 Pzr. WR Level PSI 1,500 Pze. Pressure Subcooled Margin Monitor (DEG) 102 DEG (F) Subcooled Margin Monitor (PSI) 1,000 PSI 800 PSI S/G Pressure 1 PSI 760 S/G Pressure 2 PSI S/G Pressure 3 760 760 PSI S/G Pressure 4 S/G 1 Blowdown Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdown Out of Service CPM 1,100 CPM S/G 4 Blowdown 12 Feet - S/G WR Level 1 S/G WR Level 2 17 Feet' l l 17 Feet S/G WR Level 3 12 Feet f S/G WR Level 4 Feet 25 , SI Tank Level DEG (F) l Loop 1 TC WR 515 515 DEG (F) Loop 2 TC WR 515 DEG (F) Loop 3 TC WR 515 DEG (F) Loop 4 TC WR 515 DEG (F) Loop 1 TM NR 515 DEG (F) Loop 2 TH NR 515 DEG (F) Loop 3 TH NR 515 DEG (F) Loop 4 TH NR O CPM Test TK Discharge 10 Inches VC Drain Tk. Level PSI Vapor Container Pressure 1.2 2.3 MR/hr Steam Line Radiation 1 0.2 MR/hr Steam Line Radiation 2 0.2 MR/hr Steam Line Radiation 3 MR/hr Steam Line Radiation 4 0.2 106 CPM Air Ejection Monitor l
B . 3- 11 Control Room Data 0945 Parameter Observed Values
<1 R/HR VC AARM 0.01 MR/lik Turbine Hall AARM GPM Aux. FW Flow 1 0 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 106 CPM Bleedline Hon. Feet Demin. Water TK-1 12 Hot Leg Injection Flow 0 Inches 25 GPM HPSI Header Flow 1,500 PSI HPSI Header Pressure 800 PSI LPSI Header Pressure 30 Inches LPST Level 10 PSI LPST Pressure 1,500 PSI MC Pressure 50,000 CPM MC Sys. Leak AP Monitor S MC Sys. Leak AP Monitor N 30,000 CPM 700 CPM PVS Cas Mon.
75 CPM PVS lodine Monitor CPM . PVS Part. Mon. 80 23 Feet Prim. Water TX-39 90 Inches Pze. WR Level 1,500 PSI Pzr. Pressure Subcooled Margin Monitor (DEC) 85 DEG (F) Subcooled Margin Monitor (PSI) 750 PS1 825 PSI S/G Pressure 1 760 PSI S/G Pressure 2 760 PSI S/G Pressure 3 760 PSI S/G Pressure 4 S/G 1 BlowdowT. Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdown Out of Service CPM 1,100 CPM S/G 4 Blowdown 24 Feet S/G WR Level 1 21 Feet S/G WR Level 2 21 Feet S/G WR Level 3 21 Feet S/G WR Level 4 24.9 Feet SI Tank Level DEG (F) Loop 1 TC WR 515 515 DEG (F) Loop 2 TC WR Loop 3 TC WR 515 DEG (F) 515 DEG (F) Loop 4 TC WR 515 DEG (F) Loop 1 TH NR 515 DEG (F) Loop 2 TH NR 515 DEG (F) Loop 3 TH NR 515 DEG (F) Loop 4 TH NR Test TK Discharge O CPM 10 Inches VC Drain Tk. Level Vapor Container Pressure 1.2 PS1 2.3 MR/hr Steam Line Radiation 1 MR/hr i Steam Line Radiation 2 0.2 0.2 MR/hr Steam Line Radiation 3 MR/hr Steam Line Radiation 4 0.2 106 CPM Air Ejection Monitor
B.3-12 Control Room Data 0950 Parameter Observed Values VC AARM <1 R/HR Turbine Hall AARM 0.01 MR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Hot Leg Injection Flaw 0 Inches HPSI Header Flow 25 GPM HPSI Header Pressure 1,500 PSI LPSI Header Pressure 800 PS1 LPST Level 30 Inches LPST Pressure 10 PSI MC Presourc 1,500 PSI MC Sys. Leak Al' har.ita C 50,000 CI't: MC Sys. Leak AP Monitor N 30,000 CPM PVS Gas Mon. 625 CPM PVS Iodine Monitor 75 CPM PVS Part Mon. 80 CPM Prim. Water TK-39 23 Feet Pze. WR Level 90 Inches Pze. Pressure 1,500 PSI Subcooled Margin Monitor (DEG) 85 DEG (F) Subcooled Margin Monitor (PSI) 750 PS1 S/G Pressure 1 82; PSI S/G Pressure 2 160 PS1 S/G Pressure 3 760 PSI S/G Pressurc 4 760 PS1 S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G 4 Blowdown 1,100 CPM S/G WR Level 1 24 Feet S/G WR Level 2 21 Feet S/G WR Level 3 21 Feet S/G WR Level 4 21 Feet SI Tank Level 24.9 Feet Loop 1 TC WR 515 DEG (F) Loop 2 TC WR 515 DEG (F) Loop 3 TC WR 515 DEG (F) Loop 4 TC WR 515 DEG (F) Loop 1 TH NR 515 DEG (F) Loop 2 TH NR 515 DEC (F) Loop 3 TH NR 515 DEG (F) Loop 4 TH NR 515 DEG (F) Test TK Discharge O CPN VC Drain Tk. Level 10 Inches Vapor Container Pressure 1.2 PSI Steam Line Radiation 1 2.3 MR/hr Steam Line Radiation 2 0.2 KR/hr Steam Line Radiation 3 0.2 KR/hr Steam Line Radiation 4 0.2 MR/hr Air Ejection Monitor 106 CPM
B.3-13 Control Room Data 1000 Parameter Observed Values VC AARM <1 R/HR Turbine Mall AARM 0.01 MR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Hot Les Injection Flow 0 Inches HPSI Header Flow 25 GPM HPSI Header Pressure 1,500 PSI LPSI Header Pressure 800 PS1 LPST Level 30 Inches LPST Pressure 10 PSI MC Pressure 1,500 PSI MC Sys. Leak AP Monitor S 50,000 CPM MC Sys. Leak AP Monitor N 30,000 CPM PVS Gas Mon. 625 CPM PVS Iodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Feet Pze. WR Level 90 Inches Pzr. Pressure 1,500 PSI Subcooled Margin Monitor (DEG) 85 DEG (F) Subcooled Margin Monitor (PSI) 750 PSI S/G Pressure 1 835 PSI S/G Pressure 2 760 PS1 S/G Pressure 3 760 PSI S/G Pressure 4 760 PSI S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G A Blowdown 1,100 CPM S/G WR Level 1 24 Feet S/G WR Level 2 21 Feet S/G WR Level 3 21 Feet S/G WR Level 4 21 Feet 31 Tank Level 24.9 Feet Loop 1 TC WR 500 DEG (F) Loop 2 TC WR 500 DEG (F) Loop 3 TC WR 500 DEG (F) Loop 4 TC WR 500 DEG (F) Loop 1 TH NR 500 DEG (F) Loop 2 TH NR 500 DEG (F) Loop 3 TH NR 500 DEC (F) Loop 4 TH WR 500 DEG (F) Test TK Discharge O CPM VC Drain Tk, Level 10 Inches Vapor Container Pressure 1.2 PSI Steam Line Radiation 1 2.3 MR/hr Steam Line Radiaticn 2 0.2 MR/hr Steam Line Radiation 3 0.2 MR/hr Steam Line Radiatten 4 0.2 MR/hr Air Ejection Monitor 106 CPM
r_ . , B.3-14 Control Room Data 1015 Parameter Observed Values VC AARM <1 R/HR Turbine Hall AARM 0.01 MR/HK Aux. FW Flow 1 0 GPM Atix. FW Flow 2 0 GPM Aux. FW Flow 3 0 CPM Aux. FW Flow 4 0 GPh Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Mot Leg Injection Flow 0 Inches MPSI Header Flow 25 GPM MPSI Header Pressure 1,500 PSI LPSI MEader Pressure 800 PSI LPST Level 30 Inches LPST Pressure 10 PSI f MC Pressure 1,500 PSI MC Sys. Leak AP Monitor S 50,000 CPM MC Sys. Leak AP Monitor N 30,000 CPM PVS Cas Mon. 550 CPM PVS Iodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Feet Pzr. WR Level 90 Inches Pzr. Pressure 1,500 PSI Subcooled Marsin Monitor (DEC) 106 DEG (F) Subcooled Margin Monitor (PSI) 880 PSI S/G Pressure 1 850 PS1 S/G Pressurc 2 680 PS1 S/G Pressure 3 680 PSI S/G Pressure 4 680 PSI S/G 1 Blowdovn Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G A Blowdown 1,100 CPM S/G WR Level 1 24 Feet S/G WR Level 2 21 Feet S/G WR Level 3 21 Feet S/G WR Level 4 21 Feet SI Tank Level 24.5 Feet Loop 1 TC WR 490 DEG (F) Loop 2 TC WR 490 DEG (F) Loop 3 TC WR 490 DEC (F) Loop 4 TC WR 490 DEC (F) Loop 1 TH WR 490 DEG (F) Loop 2 TH NR 490 DEC (F) Loop 3 TH tlk 490 DEC (I) Loop 4 TH NR 490 DEG (F) Test TK Discharge O CPM VC Drain Tk. Level 10 Inches Vapor Container Pressure 1.2 PSI Steam Line Radiation 1 2.3 MR/hr Steam Line Radiation 2 0.2 MR/hr Steam Line Radiation 3 0.2 MR/hr Steam Line Radiation 4 0.2 MR/hr Air Ejection Monitor 106 CPM
W 1 B.3115 Control Room Data 1030 Parameter Observed Values
<1 R/HR VC AARM Turbine Hall AARM 0.01 MR/HR Aux. FW Flow 1 0 GPM 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Hot Leg injection Flow 0 Inches HPSI Header Flow 25 GPM MPSI Header Pressure 1,400 PSI LPSI Header Pressurc 800 PSI LPST Level 30 Inches LPST Pressure 10 PSI MC Pressure 1,400 PSI MC Syr. Lcch A!' Monitor S 50,00C CI'M MC Sys. Leak AP Monitor N 30,000 CPM 500 CPM PVS Gas Mon.
75 CPM PVS lodine tiss.itor 80 CPM PVS Part. Mon. Prim. Water TK-39 23 Feet Pzr. WR Lovel 90 Inches Pze. Pressure 1,400 PSI Subcooled Margin Monitor (DEG) 106 DEG (F) Subcooled Margin Monitor (PSI) 850 PSI S/G Pressure 1 900 PSI S/G Pressure 2 485 PSI S/G Pressure 3 485 PSI S/G Pressurc 4 485 PSI S/G 1 Blowdown Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdown Out of Service CPM 1,100 CPH S/G 4 Blowdown S/G WR Level 1 24 Feet S/G WR Level 2 21 Feet S/G WR Level 3 21 Feet StG WR Level 4 21 Feet 81 Tank Level 24.5 Feet Loop 1 TC WR 465 DEG (F) Loop 2 TC WR 465 DEC (F) Loop 3 TC WR 465 DEC (F) Loop 4 TC WR 465 DEG (F) Loop 1 TH NR 465 DEG (F) Loop 2 TH NR 465 DEG (F) Loop 3 TH NR 405 DEC (F) Loop 4 TH WR 465 DEG (F) Test TK Discharge O CPM VC Drain Tk, Level 10 Inches Vapor Container Precture 1.2 PSI Steam Line Radiation 1 2.3 MR/hr Steam Line Radiation 2 0.2 MR/hr Steam Line Radiation 3 0.2 MR/hr 0.2 MR/hr Steam Line Radiation 4 Air Ejection Monitor 106 CPM
W 1 l B.3-16 l l Control Room Data 1045 ) Parameter Observed Values VC AARM <1 R/HR Turbine Hall AARM 100 MR/Hh Aux. FW Flow 1 O GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Hot Leg injection Flow C Inches MPSI Header Flow 150 GPM MPSI Meader Pressure 1,300 PSI LPSI Header Pressure 800 PSI LPST Level 30 Inches LPST Pressure 10 PSI MC Pressure 1,300 PSI MC Syr. Leak AP Monitor S 50,000 CPM MC Sys. Leak AP Monitor N 30,000 CPM PVS Cas Mon. 450 CPM PVS lodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Feet Pzr. WR Level 95 Inches Pzr. Pressure 1,300 PSI Subcooled MarBin Monitor (DEC) 112 DEC (F) Subcooled Mar 6in Monitor (PSI) 815 PSI S/G Pressure 1 935 PSI S/G Pressure 2 485 PSI S/G Pressure 3 485 PSI S/G Pressure 4 485 PSI S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G A Blowdown 1,100 CPM S/G WR Level 1 24 Feet S/G WR Level 2 21 Fe e t ." S/G WR Level 3 21 Feet S/G WR Level 4 21 Feet 51 Tank Level 24.3 Feet Loop 1 TC WR 465 DEC (F) Loop 2 TC WR 465 DEG (F) Loop 3 TC WR 465 DEC (F) Loop 4 TC WR 465 DEC (F) Loop 1 TH WR 465 DEG (F) Loop 2 TH NR 465 DEG (F) Loop 3 TH NR 465 DEG (F) Loop 4 TH NR 465 DEG (F) Test TK Discharge O CPM VC Drain Tk. Level 10 Inches Vapor Container Pressure 1.2 PSI Steam Line Radiation 1 1,000 KR/hr Steam Line Radiation 2 5 NR/hr Steam Line Radiation 3 5 MR/hr , Steam Line Radiation 4 5 MR/hr Air Ejection Monitor 106 CPM
_ y B.3-17 Control Room Data 1100 Parameter Observed Values VC AARM <1 R/HR Turbine Hall AARM 100 MR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Hot Leg Injection Flow 0 Inches HPSI Header Flow 150 GPM HPSI Header Pressure 1,300 PSI LPSI Header Pressure 800 PSI LPST Level 30 Inches LPST Pressure 10 PSI MC Pressure 1,300 PSI MC Sys. Leak Al Monitor 50,000 Cit MC Sys. Leak AP Monitor N 30,000 CPM PVS Gas Mon. 450 CPM PVS Iodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Feet Pzr. WR Level 100 Inches Par. Pressure 1,300 PS1 Subcooled Martin Monitor (DEG) 112 CEG (F) Subcooled Margin Monitor (PSI) 815 PS1 S/G Pressure 1 930 PSI S/G Pressure 2 485 PS1 S/G Pressure 3 485 PSI S/G Pressurc 4 485 PSI S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G 4 Blowdown 1,100 CPM S/G WR Level 1 24 Feet S/G WR Level 2 21 Feet S/G WR Level 3 21 Feet S/G WR Level 4 21 Feet SI Tank Level 24.3 Feet Loop 1 TC WR 460 DEG (F) Loop 2 TC WR 460 DEG (F) Loop 3 TC WR 460 DEG (F) Loop 4 TC WR 460 DEG (F) Loop 1 TH NR 460 DEG (F) Loop 2 TH NR 460 DEG (F) Loop 3 TH tlk 460 DEG (F) Loop 4 TH NR 460 DEG (F) Test TK Discharge O CPM VC Drain Tk. Level 10 Inches Vapor Container Pressure 1.2 PSI Steam Line Radiation 1 1,000 MR/hr Steam Line Radiation 2 7 MR/hr Steam Line Radiation 3 7 MR/hr Steam Line Radiation 4 7 MR/hr Air Rjection Monitor 106 CPM
7
. - ~ <
B.3-19 control Room Data 1130 Parameter Observed Values . VC AARM <1 R/HR Turbine Hall AARM 100 MR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon, 106 CPM Domin. Water TK-1 12 Feet Hot Les Injection Flow 0 Inches MPSI Header Flow 150 GPM HPSI Header Pressure 1,150 PSI LPSI Header Pressure 800 PSI LPST Level 30 Inches LPST Pressure 10 PSI MC Pressure 1,150 PSI MC Syr. Leak AP Monitor S 50,000 cit MC Sys. Leak AP Monitor N 30,000 CPM PVS Gas Mon. 300 CPM 75 CPM PVS ~1 dine Monitor PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Feet Pzr. WR Level 110 Inches Pzr. Pressure 1,150 PSI Subcooled Margin Monitor (DEG) 100 DEG (F) Subcooled Margin Monitor (PSI) 750 PSI S/G Pressure 1 910 PSI S/G Pressure 2 485 PSI S/G Pressure 3 485 PSI S/G Pressure 4 485 PSI S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G 4 Blowdown 1,100 CPM S/G WR Level 1 24 Feet S/G WR Level 2 21 Feet S/G WR Level 3 21 Feet S/G WR Level 4 21 Feet SI Tank Level 23.6 Feet Loop 1 TC WR 450 DEC (F) Loop 2 TC WR 450 DEC (F) Loop 3 TC WR 450 DEG (F) Loop 4 TC WR 450 DEG (t) Loop 1 TH NR 450 DEG (F) Loop 2 TH NR 450 DEG (F) Loop 3 TH NR 450 DEG (F) Loop 4 TH KR 450 DEG (F) Test TK Discharge O CPM VC Drain Tk. Level 10 Inches Vapor Container Prescurc 1.2 PSI Steam Line Radiation 1 1,000 MR/hr Steam Line Radiation 2 10 MR/hr steam Line Radiation 3 10 MR/hr 10 MR/hr Steam Line Radiation 4 Air Ejection Monitor 106 CPM
r B.3-20 Control Room Data 1145 Parameter Observed Values VC AARM <1 R/HR Turbine Hall AARM 10C MR/HR Aux. FW Flcw 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Mot Leg injection Flow 0 Inches HPSI Header Flow 150 GPM KPSI Header Pressure 1,000 FSI LPSI Header Pressure 800 FSI LPST Level 30 Inches LPST Pressure 10 PSI , MC Pressure 1,000 PSI MC Sys. Leak AP Moniter S 50,000 CPM MC Sys. Leak AP Monitor N 30,000 CPM PVS Cas Mon. 200 CPM PVS lodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Feet Pzr. WR Level 120 Inches Pzr. Pressure 1,000 PSI Subcooled Margin Monitor (DEC) 80 DEG (F) Subcooled Margin Monitor (PSI) 515 PSI S/G Pressure 1 900 PSI S/G Pressurc 2 485 PSI S/G Pressure 3 485 PSI S/G Pressure 4 485 PSI S/G 1 Blowdaw:. Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G 4 Blowdown 1,100 CPM S/G WR Level 1 24 Feet S/C WR Level 2 21 Feet S/G WR Level 3 21 Feet S/G WR Level 4 21 Feet SI Tank Level 22.8 Feet Loop 1 TC WR 450 DEC (F) Loop 2 TC WR 450 DEC (F) Loop 3 TC WR 450 DEC (F) Loop 4 TC WR 450 DEC (F) Loop 1 TH NR 450 DEC (F) Loop 2 TH NR 450 DEC (F) Loop 3 TH Nh 450 DEC (F) Loop 4 TH WR 450 DEG (F) Test TK Discharge O CPM VC Drain Tk. Level 10 Inches Vapor Container Pressure 1.2 PSI Steam Line Radiation 1 1,000 MR/hr Steam Line Radiation 2 10 MR/hr Steam Line Radiation 3 10 MR/hr Steam Line Radiation 4 10 MR/hr Air Ejection Monitor SE5 CPM
B.3321 j 1200 ) Control Room Data Parameter Observed Values
<1 R/HR VC AARM 100 MR/HR Turbine Hall AARM GPM 0
Aux. FW Flow 1 GPM 0 Aux. FW Flow 2 GPM 0 Aux. FW Flow 3 GPM 0 Aux. FW Flow 4 10 6 CPM Bleedline Hon. Feet 12 Domin. Water TK-1 Inches Mot Leg Injection Flow 0 150 GPM HPSI Header Flow PSI 1,000 HPSI Hender Pressure PSI 800 LPSI Header Pressure Inches 30 LPST Level PSI 10 LPST Pressure PSI 1,000 MC Pressure CP: MC Sys. Leak AP Monitor S 50,000 30,000 CPM MC Sys. Leak AP Monitor N 200 CPM PVS Gas Mon. CPM 75 PVS Iodine Monitor CPM 80 PVS Part. Mon. Feet 23 Prim. Water TK-39 Inches 120 Pzr. WR Level 1,000 PSI Pze. Pressure DEG (F) Subcooled Margin Monitor (DEG) 80 515 PSI Subcooled Martin Monitor (PSI) PSI 815 S/G Pressure 1 PSI 48f S/G Pressure 2 PSI 485 S/G Pressure 3 PSI 485 S/G Pressure 4 S/G 1 Blowdown Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdown Out of Service CPM 1,100 CPM S/G 4 Blowdown Feet 24 S/G WR Level 1 Feet 21 S/G WR Level 2 Feet 21 S/G WR Level 3 Feet 21 S/G WR Level 4 Feet 31 Tank Level 22.8 445 DEG (F) Loop 1 TC WR 445 DEG (F) Loop 2 TC WR DEG (F) 445 Loop 3 TC WR DEG (F) 445 Loop 4 TC WR DEC (F) 445 Loop 1 TH NR DEG (F) 445 Loop 2 TH NR DEC (F) 445 Loop 3 TH NR DEC (F) 445 Loop 4 TH WR CPM O Test TK Discharge 10 Inches VC Drain Tk. Levei 1.2 PSI Vapor Container Pressure MR/hr 1,000 Steam Line Radiation 1 10 MR/hr Steam Line Radiation 2 10 MR/hr Steam Line Radiation 3 10 MR/hr Steam Line Radiation 4 SE5 CPM Air Ejection Monitor
B.3-22 Control Room Data 1215 Parameter Observed Values
<1 R/HR VC AARM 100 MR/HR Turbine Hall AARM GPM 0
Aux. FW Flow 1 GPM 0 Aux. FW Flow 2 GPM 0 Aux. FW Flow 3 GPM 0 Aux. FW Flow 4 106 CPM Bleedline Hon. Feet Domin. Water TK-1 12 Mot Leg Injection Flow 0 Inches 150 GPM MPSI Header Flow PSI 1,000 HPSI Meader Pressure PSI LPSI Header Pressure 800 30 Inchec LPST Level 10 PSI LPST Pressure PSI 1,000 MC Pressure M0 Sys. Leak AP Monitor S 50,000 CPM MC Sys. Leak AP Monitor N 30,000 CPM 200 CPM PVS Gas Mon. CPM 75 PVS lodine Monitor CPM 80 PVS Part. Mon. Feet 23 Prim. Water TK-39 Inches 120 Pzr. WR Level PSI 1,000 Pze. Pressure DEG (F) Subcooled Margin Monitor (DEG) 80 Subcooled Margin Monitor (PSI) 515 PSI 850 PSI S/G Pressure 1 PSI S/G Pressure 2 485 485 PSI S/G Pressure 3 PSI S/G Pressure 4 485 S/C 1 Blowdown Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdovn out of Service CPM 1.100 CPM S/G 4 Blowdown 24 Feet S/G WR Level 1 Feet? 21 S/G WR Level 2 Feet 21 S/G WR Level 3 Feet 21 S/G WR Level 4 Feet 31 Tank Level 21.9 440 DEG (F) Loop 1 TC WR 440 DEG (F) Loop 2 TC WR 440 DEG (F) Loop 3 TC WR 440 DEG (F) Loop 4 TC WR 440 DEC (F) Loop 1 TH NR 440 DEG (F) Loop 2 TH NR 440 DEG (P) Loop 3 TH NR 440 DEG (F) Loop 4 TH NR Test TK Discharge O CPM VC Drain Tk, Level 10 Inches Vapor Container Pressure 1.2 PSI 1,000 MR/hr Steam Line Radiation 1 MR/hr 10 Steam Line Radiation 2 MR/hr 10 Steam Line Radiation 3 MR/hr 10 Steam Line Radiation 4 CPM Air Ejection Monitor 1ES
B . 3- 23 control Room Data 1230 Parameter Observed Values
<1 R/MR VC AARM 100 MR/MR Turbine Mall AARM GPM Aux. FW Flow 1 0 0 GPM =
Aux. FW Flow 2
- 0 GPM Aux. FW Flow 3 '
O GPM Aux. FW Flow 4 106 CPM Bleedline Mon. Feet Domin. Water TK-1 12 Mot Les Injection Flow 0 Inches 150 GPM MPSI Meader Flow 1,000 PSI MPS1 Header Pressure 800 PSI LPSI MEader Pressure 30 Inches LPST Level 10 PSI LPST Pressure 1.000 PSI MC Pressure CPt; M Syr. Led 1,1 P.- : ! ? * : 0 50,000 MC Sys. Leak AP Monitor N 30,000 CPM 300 CPM PVS Gas Mon. 75 CPM PVS lodine Monitor CPM PVS Part. Mon. 80 23 Feet Prim. Water TK-39 inches Pzr. WR Level 120 1,000 PSI Pzr. Pressure DEG (F) Subcooled Margin Monitor (DEC) 80 Subcooled Margin Monitor (PSI) 515 PSI 800 PSI S/G Pressure 1 PSI S/G Pressurc 2 485 485 PSI S/G Pressure 3 485 PSI S/G Pressurt 4 S/G 1 Blowdown Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowduwn Out of Service CPit S/G A Blowdown 1,100 CPM 24 Fcct S/G WR Level 1 21 Feet S/G WR Level 2 Feet S/G WR Level 3 21 21 Feet S/G WR Level 4 21.9 Feet SI Tank Level DEC (F) Loop 1 TC WR 435 435 DEG (F) Loop 2 TC WR 435 DEG (F) Loop 3 TC WR Loop 4 TC WR 435 DEG (F) 435 DEG (F) Loop 1 TH WR 435 DEC (F) Loop 2 TH WR 435 DEG (F) Loop 3 TH NH Loop 4 TH NR 435 DEG (F) O CPM Test TK Discharge VC Drain Tk, Level 10 Inches 1.2 PSI Vapor Container Pressure MR/hr 1,000 Steam Line Radiation 1 MR/hr Steam Line Radiation 2 10 10 NR/hr Steam Line Radiation 3 MR/hr Steam Line Radiation 4 10 IE5 CPM Air Ejection Monitor
B.3-24 Control Room Data 1245 Parameter Observed Values
<1 R/HR VC AARM 100 MR/HR Turbine Hall AARM 0 GPM Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 106 CPM Bleedline Mon.
Domin. Water TK-1 12 Feet Mot Leg Injection Flow 0 Inches 0 GPM MPSI Header Flow 1,000 PSI MPS1 Header Pressure 800 PSI LPSI Header Pressure LPST Level 30 Inches 10 PSI LPST Pressure 1,000 PSI MC Pressure 50,000 CPM F. Syr, Leak AP Monitor S MC Sys. Leak AP Monitor N 30,000 CPM 200 CPM PVS Cas Mon. 75 CPM PVS lodine Monitor 80 CPM PVS Part. Hon. 23 Feet Prim. Water TK-39 Pze. WR Level 120 Inches Pzr. Pressure 1,000 PSI Subcooled Margin Monitor (DEG) 80 DEG (F) 515 PSI Sub:ooled MarSin Monitor (PSI) PSI S/G Pressure 1 750 485 PSI S/G Pressure 2 485 PSI S/G Pressure 3 485 PSI S/G Pressure 4 S/G 1 Blowdown Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdown Out of Service CPM S/G A Blowdokm 1,100 CPM 24 Feet S/G WR Level 1 21 Feet S/G WR Level 2 21 Feet S/G WR Level 3 21 Feet S/G WR Level 4 21 Feet SI Tank Level DEG (F) Loop 1 TC WR 430 430 DEC (F) Loop 2 TC WR 430 DEG (F) Loop 3 TC WR 430 DEG (F) Loop 4 TC WR 430 DEC (F) Loop 1 TH NR Loop 2 TH WR 430 Dtc (F) 430 DEC (F) Loop 3 TH tlR 430 DEG (F) Loop 4 TH NR O CPM Test TK Discherse Inches 10 VC Drain Tk. Level PSI Vapor Container Pressure 1.2 1,000 MR/hr , Steam Line Radiation 1 MR/hr 5 Steam Line Radiation 2 MR/hr 5 Steam Line Radiation 3 MR/hr Steam Line Radiation 4 CPM Air Rjection Monitor SE4
B.3 23 Control Room Data 1300 Parameter Observed Values
<1 R/HR VC AARM Turbine Hall AARr. 0.01 MR/HR 0 GPM Aux. PW Flow 1 Aux. PW Flow 2 0 GPM 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 106 CPM Bleedline Mon.
Domin. Water TK-1 12 Feet Hot Les Injection Flow 0 Inches 0 GPM HPSI Header Flow O PSI KPSI Header Pressure LPSI Header Pressure O PSI LPST Level 30 Inches LPST Pressure 10 PSI 1,000 PSI MC Pressure MC Sys. Leak AP Monitor S 50.000 C P t' MC Sys. Leak AP Monitor N 30,000 CPM 50 CPM PVS Gas Mon. 75 CPM PVS Iodine Monitor 80 CPM PVS Part. Mon. Prim. Water TK-39 23 Feet Par. WR Level 120 Inches Par. Pressure 1,000 PSI Subcooled Margin Monitor (DEG) 120 DEG (F) Subcooled Margin Monitor (PSI) 700 PSI S/G Pressure 1 700 PSI 325 PSL S/G Pressure 2 S/G Pressure 3 325 PSI S/G Pressure 4 325 PSI S/G 1 Blowdown Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Biowdown Out of Service CPM S/G 4 Blowdown 1,100 CPM 24 feet S/G WR Level 1 S/G WR Level 2 21 Feet S/G WR Level 3 21 Feet S/G WR Level 4 21 Feet SI Tank Level 21 Feet Loop 1 TC WR 430 DEG (F) Loop 2 TC WR 430 DEG (F) Loop 3 TC WR 430 DEG (F) Loop 4 TC WR 430 DEG (F) Loop 1 TH NR 430 DEC (F) Loop 2 TH NR 430 DEC (F) Loop 3 TH NH 430 DEC (F) Loop 4 TH NR 430 DEG (F) O CPM Test TK Discharke VC Drain Tk. Level 10 Inches Vapor Container Pressure 1.2 PSI Steam Line Radiation 1 1.000 MR/hr Steam Line Radiation 2 1 MA/hr Steam Line Radiation 3 1 MR/hr Steam Line Radiation 4 1 MR/hr Air Ejection Monitor SE4 CPM u _____ _ __.
P B.3-26 Control Room Data 1315 Parameter Observed Values VC AARM <1 R/HR Turbine Mall AARM 0.01 MR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Mon. 106 CPM Domin. Water TK-1 12 Feet Mot Leg Injection Flow 0 Inches MPSI Header Flow 0 GPM MPSI Meader Pressure O PSI LPSI Header Pressure 0 PSI LPST Level 30 Inches 8 LPST Pressure 10 PSI MC Pressure 1,000 PS1
- t. Syc. Lech Al Mar.i t c . L 50,000 CPM MC Sys. Leak AP Monitor N 30,000 CPM PVS Gas Mon. 50 CPM PVS lodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Feet Par. WR Level 120 Inches Pzr. Pressure 1,000 PSI Subcooled Margin Monitor (DEG) 120 DEC (F)
Subcooled Margin Monitor (PSI) 550 PSI S/G Pressure 1 550 PSI S/G Pressure 2 325 PS1 S/G Pressure 3 325 PSI S/G Pressure 4 325 PS1 S/C 1 Blowdswn Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown out of service CPM S/G 4 Blowdown 1,100 CPM S/G WR Level 1 24 Feet 8/G WR Level 2 21 Feet S/C WR Level 3 21 Feet S/G WR Level 4 21 Feet 31 Tank Level 21 Feet Loop 1 TC WR 415 DEC (F) Loop 2 TC WR 415 DEG (F) Loop 3 TC WR 415 DEG (F) Loop 4 TC WR 415 DEG (F) Loop 1 TH WR 415 DEG (F) Loop 2 TH NR 415 DEG (F) Loop 3 TH NR 415 DLG (F) Loop 4 TH WR 415 DEC (F) Test TK Discharge O CPM VC Drain Tk. Level 10 Inches Vapor container Pressure 1.2 PCI Steam Line Radiation 1 990 KR/hr Steam Line Radiation 2 1 NR/hr Steam Line Radiation 3 1 NR/hr Steam Line Radiation 4 1 MR/hr Air Ejection Monitor St4 CPM
B.L 27 Control Room Data 1330 Parameter Observed Values
<1 R/HR VC AARM Turbine Hall AARM 0.01 MR/HH 0 GPM Aux. FW Flow 1 GPM 0
Aux. FW Flow 2 GPM Aux. FW Flow 3 0 0 GPM Aux. FW Flow 4 106 CPM Bleedlinc Mon. Feet Domin. Water TK-1 12 Mot Les Injection Flow 0 Inches 0 GPM HPSI Header Flow PSI 0 HPSI Header Pressurc PSI O LPSI Header Pressure Inches LPST Level 30 10 PSI LPST Pressure 825 PSI MC Pressure CPM MC Syc. Leak AP Monitor S 50.000 MC Sys. Leak AP Monitor N 30,000 CPM 50 CPM PVS Cas Mon. 75 CPM PVS lodine Monitor CPM 80 PVS Part. Mon. Feet 23 Prim. Water TK-39 Inches 120 Pzt. WR Level PSI 825 Pzt. Precsurc DEC (F) 110 Subcooled Marsi n Monitor (DEC) PSI Subcooled Margin Monitor (PSI) 400 600 PSI S/G Pressure 1 PSI S/G Pressurc 2 250 250 PS1 S/G Pressure 3 PSI 250 S/G Pressure 4 S/G 1 Blowdavn Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdown Out of Service CPM 1,100 CPM S/G 4 Blowdown 24 Fect S/G WR Level 1 Feet 21 8/G WR Level 2 Feet 21 S/G WR Level 3 Feet 21 8/G WR Level 4 Feet 21 31 Tank Level DEG (F) 400 Loop 1 TC WR 400 DEG (F) Loop 2 TC WR 400 DIG (F) Loop 3 TC WR 400 DEG (F) Loop 4 TC WR 400 DEG (F) Lo0P 1 TH WR 400 DEG (F) Loop 2 TH WR Dtc (F) 400 Loop 3 TH NR 400 DEG (F) Loop 4 TH WR CPM Test TK Discharge O 10 Inches VC Drain Tk. Level PSI Vapor Container pressure 1.2 915 NR/hr Steam Line Radiation 1 1 MR/hr Steam Line Radiation 2 MR/hr 1 Steam Line Radiation 3 MR/hr 1 Steam Line Radiation 4 CPM Air Ejection Monitor SE4
B.3-28 1345 Control Room Data Parameter Observed Values
<1 R/HR VC AARM 0.01 MR/Hh Turbine Hall AARM GPM 0
Aux. FW Flow 1 GPM 0 Aux. FW Flow 2 GPM 0 Aux. FW Flow 3 GPM 0 Aux. FW Flow 4 CPM 106 Bleedline Hon. 12 Feet Domin. Water TK-1 Inches Hot Leg Injection Flow 0 0 GPM HPS1 Header Flow PSI O HPSI Header Pressure FSI 0 LPSI Header Pressure Inches 30 LPST Level PSI 10 LPST Pressure PSI 750 MC Pressure 50,000 CPn MC Sys. Leak Al' hct.itor S MC Sys. Leak AP Monitor N 30,000 CPM 50 CPM PVS Gas Mon. CPM 75 PVS lodine Monitor 80 CPM PVS Part. Mon. Feet 23 Prim. Water TK-39 Inchec 120 Psr. WR Level PSI 750 Pzr. Pressure 105 DEC (F) subcooled MarSin Monitor (DEC) PSI Subcooled Margin Monitor (PSI) 350 5 75 PSI S/G Pressure 1 PSI 225 S/G Pressure 2 PSI 225 S/G Pressure 3 PSI 225 S/G Pressure 4 S/G 1 Blowdown Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdwn out of Service CPM 1,100 CPM S/G 4 Blowdown Fect . 24 S/G WR Level 1 Feet 21 S/G WR Level 2 Feet 21 S/G WR Level 3 Feet 21 S/G WR Level 4 Feet 21 31 Tank Level 390 DEG (F) Loop 1 TC WR DEC (F) 390 Loop 2 TC WR DEC (F) 390 Loop 3 TC WR DEC (F) 390 Loop 4 TC WR DEC (F) 390 Loop 1 TH NR DEC (F) 390 Loop 2 TH WR DEC (F) 390 Loor 3 TH NR 390 DEC (F) Loop 4 TH WR CPM Test TK Discharge 0 10 Inches VC Drain Tk. Level 1.2 PSI Vapor Container Pressure MR/hr 910 Steam Line Radiation 1 1 MR/hr Steam Line Radiation 2 1 MR/hr Steam Line Radiation 3 1 MR/hr Steam Line Radiation 4 CPM Air Ejection Monitor 1E4
B.3-29 Control Room Data 1415 Farameter Observed Values
<1 R/HR VC AARM Turbine Hall AARM 0.01 MR/HR 0 GPM Aux. FW Flow 1 GPM 0
Aux. FW Flow 2 0 CPM , Aux. FW Flow 3 CPM Aux. FW Flow 4 0 106 CPM Bleedline Mon. Feet 12 Domin. Water TK-1 Inches Mot Leg Injection Flow 0 0 GPM HPS1 Header Flow O PSI HPSI Header Pressure PSI O LPSI Header Pressure Inches LPST Level 30 10 PS1 LPST Pressure 500 PSI MC Pressure CPM MC Syr. Leak AP Maritor C 50,000 30,000 CPM MC Sys. Leak AP Monitor N 50 CPM PVS Gas Mon. 75 CPM PVS lodino Monitor 80 CPM PVS Part. Mon. Feet 23 Prim. Water TK-39 Inches Par. WR Level 120 500 PSI Par. Pressure DEC (t) Subcooled Martin Monitor (DEG) 100 Subcooled Margin Monitor (PSI) 320 PS1 500 PS1 S/G Pressure 1 PS1 S/G Precsurc 2 180 180 PS1 S/G Pressure 3 180 PSI S/G Pressurc 4 S/G 1 Blowdown Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdown Out of Service CPM S/G A Blowdown 1,100 CPM 24 Feet S/C WR Level 1 Feet 23 8/G WR Level 2 Feet 23 S/C WR Level 1 23 Feet S/G WR Level 4 Feet 21 SI fank Level DEC (F) Loop 1 TC WR 375 375 DEC (F) Loop 2 TC WR Loop 3 TC WA 375 D50 (F) 375 DEC (F) , Loop 4 TC WH 375 DEC (F) Loop 1 TM WR 375 DEG (F) Loop 2 TH WR 375 DEC (F) Loop 3 TH NR 375 DEC (F) Loop 4 TH WR O CPM Test TK Discharge 10 Inches VC Drain Tk. Level PSI Vapor Container Pressure 1.2 950 NR/hr Steam Line Radiation 1 MR/hr 1 Steam Line Radiation 2 MR/hr 1 Steam Line Radiation 3 NR/hr 1 Steam Line Radiation 4 CPM Air Ejection Monitor 124
B.3-30 1515 ; Control Room Data Parameter Observed Values
<1 R/HR VC AARM MR/Hk Turbine Mall AARM 0.01 0 GPM Aux. FW Flow 1 GPM 0
Aux. FW Flow 2 GPM 0 Aux. FW Flow 3 0 GPM
. Aux FW Flow 4 cyg 106 Bleedline Mon. 12 iset Domin. Water TK-1 0 Mot Les Injection Flow Jaches 0 GPM MPSI Meader Flow PS1 O
MPSI Moeder Pressure 0 PSI LPSI MSader Pressure Inchec 30 LPST Level PSI 10 LPST Pressure PS1 350 MC Pressure Ct t. MC Syc. Leak At Monitor S 50.000 30,000 CPM MC Sys. Leak AP Monitor N CPM 50 PVS Gas Mon. CPM 75 PVS lodine Monitor 80 CPM PVS Part. Mon. 23 Feet Prim. Water TK-39 120 Inches Par. WR Level PS1 350 Par. Pressure 105 DEG (t) Subcooled Margin Monitor (DEC) 250 PS1 Subcooled Margin Monitor (PSL) 350 PS1 3/G Pressure 1 PS1 100 S/G Pressure 2 100 PSI S/C Pressure 3 PSI 100 S/G Pressure 4 S/G 1 Slowdown Out of Service CPM 900 CPM S/G 2 310wdown S/G 3 Blowdovm Out of Service CPM 1,100 CPM S/G 4 Blowdown Feet 24 ! S/G WR Level 1 23 Feet S/G WR Level 2 23 Fcct S/G WR Level 3 Feet 23 S/G WR Level 4 20.8 Feet SI Tank Level 325 DEC (F) Loop 1 TC WR DEG (F) 325 Loop 2 TC WR DEC (F) 325 Loop 3 TC WR DEG (F) 325 Loop 4 TC WR DsG (F) 325 Loop 1 TH NR DEC (F) 325 Loop 2 TH NR DEG (F) 325 Loop 3 TH NN DEG (F) 325 Loop 4 TM NR CPM O Test TK Discharge Inches VC Drain Tk, Level 10 Vapor Container Pressure 1.2 PS1 900 MR/hr Steam Line Radiation 1 1 MR/hr Steam Line Radiation 2 1 MR/hr Steam Line Radiation 3 1 MR/hr Steam Line Radiation 4 154 CPM Air Ejection Monitor
B.3-31 Control Room Data 1615 Parameter Observed Values VC AARM <1 R/HR Turbine Hall AARM 0.01 KR/HR Aux. FW Flow 1 0 GPM Aux. FW Flow 2 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 0 GPM Bleedline Hon. 106 CPM Domin. Water TK-1 12 Feet Not Leg Injection Flow 0 Inches HPSI Header Flow 0 CPM HPSI Header Pressurc 0 PS1 LPSI Header Pressure O PSI - I LPST Level 30 Inchec LPST Pressure 10 PSI MC Pressure 250 PSI MC Syr. Leak A!' Meritor E 50.000 ret MC Sys. Leak AP Monitor N 30,000 CPM . PVS Gas Mon. 50 CPM PVS lodine Monitor 75 CPM PVS Part. Mon. 80 CPM Prim. Water TK-39 23 Feet Par. WR Level 120 Inches Par. Pressurc 250 PS1 Subcooled Margin Monitor (DLG) 125 DEC (t) Subcooled Margin Monitor (PSI) 200 PS1 S/G Pressure 1 200 PS1 S/G Pressurc 2 50 PS1 S/G Pressure 3 50 PS1 S/G Pressure 4 50 PS1 S/G 1 Blowdown Out of Service CPM S/G 2 Blowdown 900 CPM S/G 3 Blowdown Out of Service CPM S/G 4 Blowdown 1.100 CPM S/G WR Level 1 24 Fact 8/G WR Level 2 23 Feet 8/G WR Level 3 23 Fact 8/G WR Level 4 23 Feet 81 Tank Level 20.8 Feet Loop 1 TC WR 275 DEC (F) Loop 2 TC WR 275 DEG (F) Loop 3 TC WR 275 DEC (F) Loor 4 TC WR 275 DEC (F) Loop 1 TM WR 275 DSC (F) Loop 2 TM NR 275 DSC (F) Loor 3 TH WR 275 DEC (F) Loor 4 TH NR 275 DEG (F) Test TK Discharge O CPM VC Drain Th. Level 10 Inches Vapor Container Pressure 1.2 PSI Steam Line Radiation 1 860 MR/hr Steam Line Radiation 2 1 MR/hr Steam Line Radiation 3 1 MR/hr Steam Line Radiation 4 1 NR/hr Air Ejection Monitor 183 CPM
- ATTACHMENT C CONTROLLER COMMAND CARDS Table of Contents Section C.1: Control Room (CR) Section C.2: Technical Support Center (TSC) Section C.*1: Operations Support Center (OSC) Section C.4: Emergency Operations Facility (EOF)
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Y C.1-1 SECTION C.1 CONTROL ROOM CONTROLLER COMMAND CARDS Card Time Card No. Recipient Provided Message 1 Shift / Supervisory 0815 o Assure that the Shift Plant Emergency HP dispatched to obtain Director (PED) a sample at the air ejector obtains an OSC observer. 2 PED When HP is o Insure that the dispatched individual dispatched to take take a coolant sample, local sample obtains an OSC observer at air prior to doing so. ejector 3 PED 0900 o Classify this condition as an Unusual Event. 4 PED If coolant o Insure that the sample is individual dispatched requested to take a coolant sample, obtains an OSC observer prior to doing so. 5 PED 0935 o Classify this condition as a Alert Emergency. 6 PED 0935 o Notify the States of Vermont and Massachu-setts of the emergency condition or transfer this responsibility to the Emergency Director.
C.1-2 SECTION C.1 CONTROL ROOM CONTROLLER COMMAND CARDS Card Time Card No. Recipient Provided Messaxe 7 CR 0945 o The faulty steam Operators generator should be identified as #1 steam generator. 8 PED 0955 o Request that the OSC dispatch an electrician to investigate the #1 loop isolation problem. 9 CR 0955 o Assume that the #1 Loop Operator isolation Th valve has failed from the attempted operation of the motor on 2 phases instead of 3 phases. 10 PED 1030 o Initiate plant cool-down, full charging flow and depressuriza-tion. 11 PED 1050 o Contact the Emergency Coordinator and inform ; him that the 935 psig l safety valve on the #1 I steam line has lifted and that there is a release in progress. l _ , ._- - - -- -.- ,.-y,.---m, - - , - . , . - , - . # _ m, - .
C.1-3 SECTION C.1 CONTROL ROOM CONTROLLER COMMAND CARDS f Card Time Card No. Recipient Provided Messaae 12 PED 1105 o Classify this condition as a Site Area emergency. 13 PED 1245 o Contact the Emergency Coordinator and inform him that the #1 loop has been successfully isolated at 1015. 14 PED 1250 o Contact the Emergency Coot-dinator and inform him that the #1 steam generator valve has been gagged which has terminated the release. 15 PED 1530 o The emergency phase of this exercise has been terminated, l l
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i C.2-1 SECTION C.2 TECHNICAL SUPPORT CENTER CONTROLLER COMMAND CARDS Card Time Card No. Recipient Provided Messaae 1 TSC 0930 o Contact the PED and Coordinator direct him to declare an ALERT. 2 TSC Each time o The results of all the Habitability habitability control room complex Monitor is checked. habitability determi-nations are "as read". 3 TSC 0945 to o Request that main Coordinator 1005 coolant and secondary coolant samples be taken and analyzed by OSC personnel. 4 TSC 1015 to o Delay VC entry for Coordinator 1115 loop isolation until efter 1115. 5 TSC 1145 o Dispatch a second VC Coordinator repair and corrective action team to attempt to manually isolate the #1 Loop. 6 TSC 1205 o Dispatch OSC personnel Coordinator to make a second attempt to " gag" the
#1 steam generator safety valve.
l 1 i
I i C.2-2 SECTION C.2 TECHNICAL SUPPORT CENTER CONTROLLER COletAND CARDS Card Time Card No. Recipient Provided Messate 7 TSC 1530 o The Emergency phase of coordinator this exercise has been terminated, l l
.-s, _. , .-. -_- . - . ____y7 - _ -.. ._ . _ _ . . , , -- ,_, ,,_ . . . , , , . - . _ - - . . . . _ _ _ - . _ _ - - . - , .
C.3-1 SECTION C.3 OPERATIONS SUPPORT CENTER CONTROLLER COMMAND CARDS Card Time Card No. Recipient Provided Message 1 OSC 0915 to o Upon arrival at the Electrician 1015 bus room, you will discover that one lead to the Th valve motor has broken off. Simu-late the repair of this lead and provide the control room with this status. ,, 2 OSC 1045 to o Direct the VC team to Coordinator 1125 obtain a VC air sample and analyze this prior to the VC entry. 3 OSC 1235 o The #1 loop has been Coordinator successfully isolated. 4 OSC 1245 to o Insure that an OSC Coordinator 1345 observer is obtained prior to the contami-nation survey in the yard area. , ? L 9 (
C.4-1 SECTION C.4 EMERGENCY OPERATIONS FACILITY CONTROLLER COMMAND CARDS Card Time , Card No. Recipient Provided Messaae ! 1 Emergency 1105 o Contact the off-site coordinator authorities and inform them of present plant conditions and that a
" Site Area Emeraency" has been declared.
2 Emergency 1250 o The release was termi-Coordinator nated at 1245 by a successful " gag" of the #1 steam generator safety valve. 3 Recovery 1530 o The emergency phase of Manager this exercise has been terminated, I l l
ATTACHMENT D pBSERVER CUE CARDS Table of Contents SectionD.k: Control Room (CR) Section D.2: -Technical Support Center (TSC) Section D.3: Operations Support Center (OSC)
~
Section D.4: Emergency Operations Facility (EOF) l t i i
l l D.1-1 l SECTION D.1 l CONTROL ROOM OBSERVER CUE CARDS Card No. Messaae Time Given i 1 (1) The reactor has been operating at Prior to 0815 100% power for several months; (2) Partial fuel clad failure exists as determined by the most recent chemical analysis of the Main Coolant System; (3) The specific activity of the primary coolant has been determined to be: a) .1 uCi/ gram Dose Equivalent I-131, and b) 100 uci/ gram total non-iodine activity; (4) Main coolant leakage through a steam generator to the secondary system has been determined to be 140 gallons per day; (5) Main Coolant System pressure is reported as 2000 psig; (6) Pressurizer level is reported as 120 inches; (7) Tavs is reported as $340F; (8) #1 through 4 steam generator pressures are reported as 525 psig; (9) #1 and #3 steam generator blowdown monitors have been in a failure mode since 0800; (10) #2 steam generator blowdown monitor response is 900 cpm; l l (11) #4 steam generator blowdown monitor response is 1,100 cpm; (12) The specific activity of the secondary coolant has been determined to be: i a) 1.5 x 10-2 uCi/ gram total non-iodine l activity b) 5.0 x 10-5 uCi/ gram Dose Equivalent Iodine 131 l i
D.1-2 SECTION D.1 CONTROL ROOM OBSERVER CUE CARDS Card No. Message Time Given 1 (cont.) (13) The Main Coolant System leak air particulate monitor responses are 25,000 cpm South and 15,000 cpm North; (14) The air ejector monitor response is 35,000 cpm; with alarm setpoint of 100,000 cpm; (15) The normal range primary vent stack gas monitor response is 50 cpm; (16) Meteorological tower information is reported as follows: a) Upper Wind Speed Average (UPWSAV) = 3.5 mph b) Upper Wind Direction Average (UPWDAV) = 750 c) Delta Temperature (UPDTAV) = -1.40F d) Lower Wind Speed Average (LOWSAV) = 2 mph e) Lower Wind Direction Average (LOWDAV) = 750 (17) Bleedline monitor reads "off-scale high". (18) The turbine hall accident area radiation monitor reads 0.01 mR/hr. 2 o The charging flow indicator is reported as OP20 increasing. l l l l I I I l _ _ __ ~ _ . -
. D.1-3 SECTION D.1 CONTROL ROON OBSERVER CUE CARDS Card No. Messaae Time Given 3 o Charging pumps auto start and alarm. 0830 o Main Coolant System pressure is decreasing, o The air ejector monitor alarms.
4 o Pressurizer heater auto starts and alarms. 0835 5 o Low pressure surge tank low level 0840 alarm signals. 6 o Chemistry reports the primary to secondary 0845 leak rate has increased to 1.2 spm. 7 o A Main Coolant System pressure alarm signals. 0900 8 o Reactor trip alarm signals. 0915 o Turbine trip alarm signals. o 011 circuit breakers auto trip alarm signals, o Boiler feed pump trip alarm signals. o Steam generator low level alarm, the narrow range reads "off-scale low". o Steam dump controller indicates valve open. o A low Tavg alarm signals.
D.1-4 SECTION D.1 CONTROL ROOM OBSERVER CUE CARDS Card No. Message Time Given 9 o The boiler feed pumps are restarted and 0920 feeding the steam generators. o SIAS signal occurs. o Pressurizer wide range low level alarm signals. 10 o The air ejector monitor reads "off-scale high". 0935 , 11 o #1 steam generator level alarm signals. 0950 12 o The Th valve indicator indicates As soon as the incomplete closure. operator attempts Th closure. i 13 o #1 stuam generator safety valve lifts and 1045 fails to reseat. o Meteorological conditions are reported as: a) Upper Wind Speed Average (UPWSAV) = 3.0 mph b) Upper Wind Direction Avarage (UPWDAV) = 750 c) Delta Temperature (UPDTAV) = -1.40F. d) Lower Wind Speed Average (LOWSAV) = 2 mph. e) Lower Wind Direction Average (LOWDAV) = 750 (indicates the directions from which the wind is blowing.)
D.1-5 SECTION D.1 CONTROL ROOM OBSERVER CUE CARDS Card No. Messare Time Given 14 o The gatehouse area radiation monitor 1100 response is reported as 100 mR/hr. 15 o The gatehouse area radiation monitor 1145 response is reported as 100 mR/hr. 16 o The gatehouse area radiation monitor is. 1250 reported as 100 mR/hr. , m 4-17 o The gatehouse area radiation monitor is 1300 reported as 10 mR/hr and decreasing. 18 o Meteorological tower data is reported as: 1400 m) Upper Wind Speed Average (UPWSAV) = 15 mph b) Upper Wind Direction Average (UPWDAV) = 900 c) Delta Temperature (UPDTAV) = -1.40F d) Lower Wind Speed Average = 10 mph e) Lower Wind Direction Average (LOWDAV) = 900
D.2 1 SECTION D.2 TSC OBSERVER CUE CARDS Card Time Messar.o Given _E2A 1 1. Simulate the use of the Safety 0815 Parameter Display System (SPDS). Normally you would be viewing a CRT displcy of Critical Saftt; Parameter trends. For the purposes of this exercise, you will receive cue card information which indicates use of the SPDS Point Snapshots of MC1, SC1, and CHR Parameter printoutc.
- 2. Assume the values given here remain the same until the observer issucc another cue card. ,
l
.- _ .. - . _ = . --..
D. 2- 2 Control Room Observer Cue Cards C:rd Time No. Given 1 (Continued) 0815 I. MCI PARAMETERS Value Description Point Engin. Units Etatus Name 1 120 inches (2102) PZRL Pressurizer Level, Wide Range 2 2000 psig (2102) MCPRES1 Main Coolant Pressure, Loop 1 3 2000 psis (2102) MCPRES2 Main Coolant Pressure, Loop 2 4 2000 psig (2102) MCPRES3 Main Coolant Pressure, Loop 3 44 1.2 psis ( 8) VCPLR V.C. Pressure. Low Range 45 <2 psig (2102) VCPHR1 V.C. Pressure. High Range 1 ; 46 <2 psig ( 102) VCPHR2 V.C. Pressure High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level Channel 2 53 1.5E4 cpm (2102) VCAPM1 V.C. Air Particulate, N
$4 2.5E4 cp: ( 102) VCAPM2 V.C. Air Particulate, S 59 3.5E4 cpm ( 102) AEJRM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing)
Value Units Status Name- Description Point Engin. ,f 5 554 deg. F (2102) TH1 Hot Les Temperature, Loop 1 6 554 deg. F ( 102) TH2 Hot Les Temperature, Loop 2 7 554 deg. F ( 102) TH3 Hot Les Temperature, Loop 3 8 554 deg. F ( 102) TH4 Not Les Temperature, Loop 4 9 514 deg. F (2102) TC1 Cold Les Temperature Loop 1 10 514 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 11 514 deg. F ( 102) TC3 Cold Les Temperature Loop 3 12 514 deg. F ( 102) TC4 Cold Les Temperature, Loop 4
r D. 2- 3 TSC OBSERVER CUE CARDS Time Card Given A 0815 1 (Continued) III. SCI PARAMETERS Value Description Point Entin. Units Status Name (2102) SGWRL1 Steam Generator Levci, Loop 1 13 22 feet ( 102) SGWRL2 Steam Generator Level, Loop 2 14 22 feet (2102) SGWRL3 Steam Generator Levci, Loop 3 15 22 feet (2102) SGWRL4 Steam Generator Level, Loct 4 16 22 feet ( 102) SGpl SG Pressure, Loop 1 1/ 525 psis psis ( 102) SGP2 SG Pressure, Loop 2 18 525 SG Pressure, Loop 3 19 525 psis ( 102) SGP3 ( 102) SG Pressure Loop 4 20 525 psig SGP4 Steam Flow, Loop 1 28 1.5ES lbs/hr ( 102) SF1 SF2 Steam Flow Loop 2 29 1.5E5 lbs/hr (.102) Steam Flow Leop 3 1.5ES lbs/hr (2102) SF3 30 Steam Flow, Loop 4 31 1.5ES lbs/hr (2102) SFA (2102) FWF1 Feedwater Flow, Loop 1 32 1.5ES sp- Feedwater Flow, Loop 2 33 1.5ES spm ( 102) FWF2 ( 102) FWF3 Feedwater Flow, Loop 3 34 1.5ES spm (2102) FWF4 Feedwater Flow, Loop 4 35 1.5E5 spm (A10A) AFWF1 Ener. Feedwater Flow, Loop 1 36 0 spm (A10A) AFWF2 Emer. Fecdwater Flow, Loop 2 37 0 spm (A10A) AFWF3 Emer. Feedwater Flow, Loor 3 38 0 spm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 39 0 spm ( 102) SLRADI Steam Line Radiation, Loop 1 40 0.2 inR/hr 0.2 mR/hr (AllA) SLRAD2 Steam Line Radiation Leot 2 41 Steam Line Radiation, Loop 3 mR/hr (2102) SLRAD3 42 0.2 Steam Line Radiation, Loop 4 43 0.2 mR/hr (2102) SLRADA
, , , , , - w , > - - w - ,,- - ,_ -- --- , --,,-.y, - . - - - _ . , , . - - a - --w- .,-, ,
e
D.2-4 TSC OBSERVER CUE CARDS Time Card Given No. 0830 2 I. MCI PARAMETERS Value Description Engin. Units Status Name Eoint inches (2102) PZRL Pressurizer Level Wide Range 1 110 (2102) MCPRES1 Main Coolant Preccure. Loop 1 2 1960 prit (2102) MCPRES2 Main Coolant Pressure, Loop 2 3 1960 psig 4 1960 psis (2102) MCPRES3 Main Coolant Pressure, Loop 3 g 1.2 pcis ( 8) VCPLR V.C. Pressure Low Range 44 psis (2102) VCPHR1 V.C. Pressure. High Range 1 45 <2 46 <2 psig ( 102) VCPHR2 V.C. Pressure. High Range 2 (A10A) VCL1 V.C. Flood Level, Channel 1 51 0 feet (A10A) VCL2 V.C. Flood Levci, Channel 2 52 0 feet 53 2.0E4 cpm (2102) VCAPMI V.C. Air Particulatc N cpm ( 102) VCAPM2 V.C. Air Particulate, S 54 3.0E4 59 5.0L4 cpm ( 102) AEJRM Air Ejector Radiation Monitor T1. CHR PARAMETERS (Partial Screen Listing) Value Units Name Descriptio.n foini Engin. Status 5 554 deg. F (2102) TH1 Hot Les Temperature, Loop 1 6 554 deg. Y ( 102) TH2 Hot Leg Temperature, Loop 2 7 554 deg F ( 102) TH3 Hot Les Temperature, Loop 3 8 554 deg. F ( 102) TH4 Hot Les Temperature, Loop 4 9 514 deg. F (2102) TC1 Cold Les Temperature, Loop 1 10 514 deg. F ( 102) TC2 Cold Leg Temperature, Loop 2 11 514 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 12 514 deg. F ( 102) TC4 Cold Les Temperature Loop 4
D.2-5 TSC OBSERVER CUE CARDS Time Card - No, Given 0830 2 (Continued) III. SCI PARAMETERS Value Description goint Engin., Units Status Name 22 feet (2102) SGWHL1 Steam Generator Level Loop 1 13 Steam Generator Level, i.oop 2 14 22 feet ( 102) SGWHL2 (2102) SGWHL3 Steam Generator Levci, Lool. 3 15 22 fect 22 feet (2102) SGWRL4 Steam Generator Level, Loop 4 16 psis ( 102) SGP1 SC Pressure, Loop 1 17 525 ( 102) SGP2 SG Pressure, Loop 2 18 525 psis psig ( 102) SGP3 SG Pressure, Loop 3 19 525 ( 102) SGP4 SG Pressure, Loop 4 20 525 psis ( 102) SF1 Steam Flow, Loop 1 28 1.5E5 lbc/hr ( 102) SF2 Steam Flow, Loop 2 29 1.5ES lbs/hr (2102) SF3 Steam Flow, Loop 3 30 1.5E5 lbs/hr (2102) SF4 Steam Flow Loop 4 j 31 1.5E5 lbc/hr spm (2102) FWF1 Feedwater Flow, Loop 1 32 1.5ES spm ( 102) FWF2 Feedwater Flow, Loop 2 ! 33 1.5ES ( 102) FWF3 Fecdwater Flow, Loop 3 34 1.5ES sp, (2102) tecdwater Flow, Loop 4 35 1.5E: sp . FWF4 0 gpm (A10A) AFWF1 tmer. Feedwater Flow, Loop 1 36 Emer. Feedwater Flow, Loop 2 37 0 gpm (A10A) AFWF2 0 gpm (A10A) AFWF3 Emer. Feedwater Flow, Loor 3 38 Emer. Feedwater Flow, Loop 4 39 0 spn (A10A) AFWF4 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 40 0.2 Steam Line Radiation, Loop 2 41 0,2 mR/hr (AllA) SLRAD2 (2102) SLRAD3 Steam Line Radiation, Loop 3 42 0.2 mR/hr Steam Line Radiation, Loop 4 43 0.2 mR/hr (2102) SLRAD4
D.2 b" t TSC OBSERVER CUE CARDS Time Card Given _Not 0845 3 I. MCI PARAMETERS Value Eggg Description Point Engin Units Status d 1 100 inches (2102) PZRL Pressurizer Level, Wide Range (2102) MCPRES1 Main Coolant Prescure, Lori 1 2 1930 prig psig (2102) MCPRES2 Main Coolant Pressurc. Loop 2 3 1930 4 1930 psig (2102) MCPRES3 Main Coolant Pressure. Loop 3 l V.C. Pressure, Low Range f 44 1.2 psis ( 8) VCPLR 45 <2 psis (2102) VCPHR1 V.C. Pressure, High Range 1
<2 psig ( 102) VCPHR2 V.C. Pressure High Range 2 46 51 0 feet (A10A) VCL1 V.C. Flood Level Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level Channel 2 cp . (2102) VCAPM1 V.C. Air Particulate, N 53 2.2E4 l 4.0E4 cpm ( 102) VCAPM2 V.C. Air particulate, S $4 59 7.0E4 cpm ( 102) AEJRM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing) value Description folni Engin. Units Status Name 5 554 det. F (2102) TH1 Hot Les Temperature. Loop 1 6 554 deg. F ( 102) TH2 Hot Les Temperature, Loop 2 7 554 deg. F ( 102) TH3 Hot Leg Temperature, Loop 3 8 554 deg. F ( 102) TH4 Hot Les Temperature Loo; 4 9 514 deg. F (2102) TC1 Cold Les Temperature Loop 1 10 514 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 l 11 514 deg. F ( 102) TC3 Cold Les Temperature. Loop 3 12 514 der. F ( 102) TC4 Cold Les Temperature. Loop 4 i
D.2-7 TSC OBSERVER CUE CARDS Card Time Given _Mo2 0845 3 (Continued) III. SCI PARAMETERS Value Name Description goint Ensin. Units Status 22 feet (2102) SGWRL1 Steam Generator Level, Loop 1 i 13 22 fcct ( 102) S C'. 'u ' . 2 Steam Gencer. tor Level. 1. cop 2 14 22 feet (2102) SGWRL3 Steam Cenerator Level Loop 3 15 (2102) SGWRL4 Steam Generator Level, Loop 4 l 16 22 fect 525 psis ( 102) SGP1 SG Pressure, Loop 1 17 525 psig ( 102) SGP2 SG Pressure Loop 2 18 525 psis ( 102) SGP3 SG Pressure Loop 3 19 20 525 psig ( 102) SGP. SG Pressure, Loop 4 1.5ES lbs/hr ( 102) SFL Steam Flow, Loop 1 28 29 1.5ES lbs/hr ( 102) SF2 Steam Flow, Loop 2 l 30 1.5E5 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 1.5E5 lbs/hr (2102) SF4 Steam Flow, Loop 4 l spm (2102) FWF1 Fecdwater Flow, Loop 1 l 32 1.5ES 33 1.5E5 spm ( 102) FWF2 Feedwater Flow, Loop 2 l Feedwater Flow Loop 3 l 34 1.5ES gpm ( 102) FWF3 spm (2102) FWF4 Feedwater Flow, Loop 4 35 1 SE5 gpm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 36 0 l 0 gym (A10A) AFWF2 Emer. Feedwater Flow, Loop 2
- 37 0 spm (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 l 38 gpm (A10A) AFWF4 Emer. Feedwater Flow Loop 4 39 0
( 102) Steam Line Radiation Loop 1 40 0.2 mR/hr SLRAD1 (AllA) SLRAD2 Steam Line Radiation, Loop 2 41 0.2 mR/hr 0.2 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 i 42 (2102) SLRAD4 Steam Line Radiation. Loop 4 l 43 0.2 mR/hr
D.2-8 TSC OBSERVER CUE CARDS Card Time Given _ No2 4 0900
- 1. MC1 PARAMETERS Valuc Engin. Units Name Description
! Point Status 90 inches (2102) PZRL Pressurizer Level Wide Range 1 1900 prit (2102) MCPRES1 Main Coolant Prescure. Loop 1 2 l Main Coolant Pressure, Loop 2 l 3 1900 psig (2102) MCPRES2 4 1900 psis (2102) MCPRES3 Main Coolant Pressure, Loop 3 44 1.2 psis ( 8) VCPLR V.C. Pressure, Low Range 45 <2 psis (2102) VCPHR1 V.C. Pressure High Range 1
<2 pcis ( 102) VCPHR2 V.C. Pressure, High Rangc 2 46 0 feet (A10A) VCL1 V.C. Flood Level, Channel 1 51 0 feet ( A101.5 VCf.2 V.C. Flood Level, Channel 2 52 2.8E4 cpm (2102) VCAPM1 V.C. Air Particulate, N 53 4.5L4 cpm ( 102) VCAPM2 V.C. Air Particulate, S 54 59 8.0E4 cpm ( 102) AEJRM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing)
Value gnaint Units Status M Description Poin_t, 5 554 deg. F (2102) TH1 Hot Les Temperature, Loop 1 6 554 deg. F ( 102) TH2 Hot Les Temperature, Loop 2 7 554 deg. F ( 102) TH3 Hot Les Temperature, Loop 3 8 554 deg. F ( 102) THA Hot Les Temperature. Loor 4 9 514 deg. F (2102) TC1 Cold Les Temperature, Loop 1 10 514 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 11 514 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 12 514 deg. F ( 102) TC4 Cold Les Temperature, Loop 4 w_____.______
D. 2- 9 TSC OBSERVER CUE CARDS Time Card
.NOx W
0900 4 (Continued) III. SCI PARAMRTERS Value Description fojpt Entin. Units Status Name (2102) SGWRL1 Steam Generator Level, Loop 1 13 22 feet 27 feet ( 102) SGWRL2 Steam Generator Lesel, f.~t 2 14 fact (2102) SGWRL3 Steam Generator Levci, Loop 3 15 22 (2102) SGWRL4 Steam Generator Level, Loop 4 16 22 feet psis ( 102) SGP1 SG Pressure Loop 1 17 525 psig ( 102) SGP2 SG Pressure, Loop 2 18 525 psig ( 102) SGP3 SG Pressure, Loop'3 l 19 525 psis ( 102) SGP4 SG Pressure. Loop 4 20 525 ( 102) SF1 Steam Flow, Loop 1 28 1.5E5 lbs/hr ( 102) SF2 Steam Flow Loop 2 29 1.5E5 lbs/hr 1bs/hr (2102) SF3 Steam Flow, Loop 3 f 30 1. S E's (2102) SF4 Steam Flow, Loop 4 31 1.5E5 lbs/hr spm (2102) FWF1 Fcedwater Flow, Loop 1 32 1.5E5 spm ( 102) FWF2 Feedwater Flow, Loop 2 33 1.5E5 spm ( 102) FWF3 Feedwater Flow, Loop 3 l 34 1.5E5 (2102) FWF4 Feedwater Flow, Loot 4 35 1.5ES ep . l gpm (A10A) AFWF1 Emer. Feedwater Flow Loop 1 36 0 spm (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 37 0 38 0 gpm (A10A) AFWF3 Emer. Feedwatcr Flow Loor ? 39 0 spm (A10A) AFWF4 Emer. Feedwater Flow Loor 4 mR/hr ( 102) SLRAD1 Steam Line Radiation. Loop 1 40 0.2 Steam Line Radiation Loop 2 41 0.2 PH/hr (AllA) SLRAD2 mR/hr (2102) SLRAD3 Steam Line Radiation Loop 3 42 0.2 Steam Line Radiation Loop 4 0.2 mR/hr (2102) SLRAD4 43 l l I
D . 2- 10 TSC OBSERVER CUE CARDS Card Tinc Civen A 5 0915
}2_ MCI PARAMETERS Value Eolgt Engin. Units Status game Descrirtion 85 inches (2102) PZRL Pressurizer Level, Wide Range 1
2 1800 psig (2102) MCPHES1 Main Coolant Pressure Loop 1 1800 psig (2102) MCPRES2 Main Coolant Pressure, Loop 2 3 4 1800 psig (2102) MCPRES3 Main Coolant Pressure Loop 3 44 1.2 prig ( 8) VCPLR V.C. Pressurc , Low kante 45 <2 psis (2102) VCPHH1 V.C. Pressure. High Range 1 46 <2 psig ( 102) VCPHR2 V.C. Pressure. High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level. Channel 1 0 fect (A10A) VCL2 V.C. Flood Levci, Channci 2 52 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate, inside 53 5.0E4 cpm ( 102) VCAPM2 V.C. Air Particulate, W 54 59 9t/ cli. ( 102) AEJHM Air Ejector Radiation S 112 CHR PARAMETERS (Partial Screen Listing) Value Poin,t i Kat.n2 Units Status game DescrirtioD 5 530 det. F (2102) TH1 Hot Les Temperature, Loop 1 6 530 dec. F ( 102) TH2 Hot Les Temperature. Loor 2 1 530 deg. F ( 102) TH3 Hot Les Temperaturc, Loci 3 8 530 det. F ( 102) TH4 Hot Les Temperature, Loor 4 9 510 deg. F (2102) TC1 Cold Les Temperature, Loop 1 10 510 deg. F ( 102) TC2 Cold Les Temperaturc, Loor 2 11 510 det. F ( 102) Tc3 Cold Les Temperature, Loop 3 12 510 deg. F ( 102) TC4 Cold Les Temperature, Loop 4
D.2-11 TSC OBSERVER CUE CARDS Card Time _NA Given 5 (Continued) 0915 TTI. SCI PARAMETERS Value Point ED&i n., Units Status gamg Eggeristion 13 17 feet (2102) SGWRL1 Steam Generator Level, Loop 1 14 20 feet ( 102) SGWRL2 Steam Generator Level, Loop 2 15 20 feet (2102) SGWRL3 Steam Generater Level Loop 3 16 17 feet (2102) SGWRL4 Steam Generator Level, Loop 4
- 17 630 psic ( 102) SGP1 SG Pressure, Loop 1 18 630 pelt ( 102) Sui l SC Preccure. Loct 2 19 630 psig ( 102) SGP3 SG Pressure, Loop 3 20 630 psis ( 102) SGP4 SG Pressure. Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 29 0 lbs/hr ( 102) SF2 Steam Flow Loop 2 30 0 lbs/hr (2102) SF3 Steam Flow Loop 3 31 0 lbs/hr (2102) SF4 Steam Flow, Loop 4 32 0 gpm (2102) FWF1 Feedwater Flow Loop 1 33 0 gym ( 102) FWF2 Fcedwater Flow, Loop 2 34 0 spt ( 102) FWF3 Feedwater Flow, Loop 3 35 0 spm (2102) FWV4 Feedwater Flow Loop 4 36 0 gpm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 37 0 gpm (A10A) AFWF2 Emer. Feedwater Flow Loop 2 38 0 gpm (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 39 0 gpm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 40 0.2 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 41 0.2 PR/hr (AllA) SLRAD2 Steam Line Radiation Loop 2 42 0.2 rek/br (2102) SLRAD3 Steam Line Radiation, Loop 3 43 0.2 mR/hr (2102) SLRAD4 Steam Line Radiation. Loot 4
I D.2-12' TSC QBSERVER CUE CARDS Card Time
.10 - 9.Lan 6
0920
- 1. MCI PARAMFTERS Value Units Description FoJ_nt [pgin. Status game 1 80 inches (2102) PZRL Pressurizer Level, Wide Range 2 1700 psis (2102) MCPRES1 Main Coolant Pressure, Loop 1 3 1700 psig (2102) MCPRES2 Main Coolant Pressure. Loop 2 4 1700 psis (2102) MCPRES3 Main Coolant Pressure, Loor 3 l
44 1.7 pcic ( 8) VCPl.E V . C . Pressure , Lev' Na'.t' 45 <2 psis (2102) VCPHR1 V.C. Pressure High Range 1 46 <2 psis ( 102) VCPHR2 V.C. Pressure, High Range 2 0 feet (A10A) VCL1 V.C. Flood Level, Channel 1 51 0 feet (A10A) VCL2 V.C. Flood Levci, Channel 2 52 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate, W l 53
- 54 5.0E4 cpm ( 102) VCAPM2 V.C. Air Particulate S j 59 2.0h5 cp . ( 102) AEJRM Air Ejector Radiatior. Monitor IJ2 ._CHR PARAMETERS (Partial Screen Listing) l l
l Value Unite y,323 PeJer,1p_tlen I foint Kngi n ., Statup l l 5 515 deg. F (2102) TH1 Hot Les Temperature, Loop 1 6 515 deg. F ( 102) TH2 Hot Les Temperature Loop 2 7 515 dec. F ( 102) TH3 Hot Lcc Temperature, Loot 3 8 515 dec. F ( 102) TH4 Mot Let Temperature. Loop 4 9 515 deg. F (2102) TC1 Cold Les Temperature, Loop 1 10 515 dec. F ( 102) TC2 Cold Les Temperature, Loop 2 11 515 deg. F ( 102) TC3 Cold Les Temperature Loop 3 12 515 deg. F ( 102) TC4 Cold Les Temperature, Loop 4 l l l l
D . 2- 13 TSC OBSERVER CUE CARDS Card Time .No; Civen 6 (Continued) 0920 111. SCI PARAMETRRS Valuc l Engin z Units Status Name Description EolDt 13 12 feet (2102) SGWRL1 Steam Generator Level Loop 1 14 17 feet ( 102) SCWHL2 Steam Generator Level, Loop 2 15 17 feet (2102) SGWRL3 Steam Cencrator Level, Loop 3 16 12 feet (2102) SGWRL4 Steam Generator Level, Loop 4 17 760 psit ( 102) SGP1 SC Prescure, Loop 1 16 /c; icic ( 102) SGP2 SC Precourc. Loor 2 SG Pressure, Loop 3 19 760 psis ( 102) SGP3 20 760 psis ( 102) SGPA SC Pressure, Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 29 0 lbs/hr ( 102) SF2 Steam Flow. Loop 2 30 0 lbs/hr (2102) SF3 Steam Flow Loop 3 31 0 lbs/hr (2102) SFA Steam Flow Loop 4 32 0 r1 - (2102) FWV1 Fccdwater Flow, Loop 1 33 0 gpm ( 102) FWr 2 Feedwater Flow, Loop 2 i 34 0 gpm ( 102) FWF3 Feedwater Flow, Loor 3 ; 35 0 gpm (2102) FWF4 Feedwater Flow, Loop 4 30 0 gpm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 37 0 gpm (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 38 0 gpm (A10A) AFWF3 Emer. Feedwater Flow Loct 3 39 0 gpm (A10A) AFWF4 Emer. Feedwater Flow, Loci 4 40 0.4 mR/hr ( 102) SLRAD1 Steam Line Radiation Loop 1 41 0.2 mR/hr (AllA) SLRAD2 Steam Line Radiation Loop 2 42 0.7 mh/hr (2107) SLRAD3 Steam Line Radiation, Loot 3 43 0.2 mR/hr (2102) SLRADA Steam Line Radiation. Loor 4
D . 2- 14 TSC OBSERVER CUE CARDS C;rd Time 32.i. Eirin 7 0930
- 1. MCI PARAMETERS Value Egint antin. Status Description VD111 Ma*_e 1
1 60 inches (2102) PZRL Pressuriser Level, Wide Range 2 1600 psig (2102) MCPRES1 Main Coolant Pressure, Loop 1 3 1600 psig (2102) MCPRES2 Main Coolant Pressure. Loop 2 4 1600 psig (7102) MCPREC3 Main Coolant Pressure, Loor ? 44 1.2 psis ( 8) VCPLk V.C. Pressure. Low Rangt-45 <2 psis (2102) VCPHR1 V.C. Pressure High Range 1 46 <2 psig ( 102) VCPHR2 V.C. Pressure, High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level. Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level, Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate W 54 5.004 cpm ( 102) VCAPM2 V.C. Air Particulate, S
$9 SLS cp9 ( 102) AEJEM Air Ejector Radistict. Monitor
- 11. CHR PARAMETERS (Partial Screen Listing) l Value i Egini Entin, gnitt Status Mast DescriptioD l 5 515 deg. F (2102) TH1 Hot Les Temperature, Loop 1 6 515 deg. F ( 102) TH2 Hot Les Temperature, Loop 2 7 515 deg. F ( 102) TH3 Hot Les Temperature, Loop 3 8 515 deg. F ( 102) TH4 Hot Les Temperature Loop 4 9 515 deg. F (2102) TC1 Cold Les Temperature, Loop 1 10 515 deg. F ( 102) TC2 Cold Les Temperature. Loop 2 11 515 dog. F ( 102) TC3 Cold Les Temperature, Loop 3 12 515 deg. F ( 102) TC4 Cold Les Temperature, Loop 4
~
D.2-15 TSC OBSERVER CUE CARDS Time C rd Given No. 0930 7 (Continued) III. SCI PARAMETERS Value Description Engin. L' nit s Status Name Point (2102) SGWRL1 Steam Generator Level, Loop 1 13 12 feet ( 102) SGWBL2 Steam Generator Level, Loop 2 14 17 feet (2102) SGWRL3 Steam Generator Level, Loop 3 15 17 feet (2102) SGWFL4 Steam Generator Level. Loop I, 16 12 feet psig ( 102) SGP1 SG Pressure, Loop 1 17 780 ( 102) SGP2 SG Pressure Loop 2 18 760 psis psig ( 102) SGP3 SG Pressure, Loop 3 19 760 ( 102) SG Pressure, Loop 4 20 760 psig SGPA ( 102) SF1 s Steam Flow, Loop 1 28 0 lbs/hr ( 102) SF2 Steam Flow, Loop 2 29 1000 lbs/hr (2102) SF3 Steam Flow, Loop 3 30 1000 lbs/hr (2102) SFA Steam Flow, Loop 4 31 1000 lbs/hr (2102) FWF1 /Feedwater Flow, Loop 1 32 0 gpm spm ( 102) FWF2 Feedwater Flow, Loop 2 33 130 gpr ( 102) FWF3 Feedwater Flow, Loop 3
^
34 130 spr. (2102) FWF4 Feedwater Flow, Loop 4
^
35 130 spm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 36 " O Emer. Feedwater Flow, Loop 2 0 gpm (A10A) AFWF2 37 Emer. Feedwater Flow, Loop 3 38 0 gpm (A10A) AFWF3 spm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 39 0 r.E/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 40 2.3 Steam Line Radiation, Loop 2 41 0.2 mR/hr (AllA) SLRAD2 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 42 0.2 mR/hr (2102) SLRADA Steam Line Radiation, Loop 4 43 0.2 4 l
D . 2- 16 TSC OBSERVER CUE CARDS Card Time No _. Given ! 8 0935 I. MCI PARAMETERS Value Description Point Engin. Units Status Name 1 40 inches '(2102) PZRL Pressurizer Level, Wide Range 2 1500 psig (2102) MCPRES1 Main Coolant Pressure, Loop 1 3 1500 psig (2102) MCPRES2 Main Coolant Pressure, Loop 2 4 1500 psig (2102) MCPRES3 Main Coolant Prescure, Loop 3 44 1.2 psig ( 8) VCPLR V.C. Pressure, Low Rangt 45 <2 psis (2102) VCPHR1 V.C. Pressure, High Range 1 46 <2 psig ( 102) VCPHR2 V.C. Pressure, High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level, Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level, Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate, N 54 5.0E4 cpm ( 102) VCAPM2 V.C. Air Particulate, S 59 1E6 cpm ( 102) AEJRM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing) Value Point Engin. Units Status Nare Description 5 515 deg. F (2102) TH1 Hot Les Temperature, Loop 1 6 515 deg. F ( 102) TH2 Hot Leg Temperature, Loop 2 7 515 deg. F ( 102) TH3 Hot Leg Temperature, Loop 3 8 515 deg. F ( 102) TH4 Hot Les Temperature, Loop 4 9 515 deg. F (2102) TC1 Cold Leg Temperature, Loop 1 10 515 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 11 515 deg. F ( 102) TC3 Cold Leg Temperature, Loop 3 12 515 deg. F ( 102) TC4 Cold Leg Temperature, Loop 4 I
- i. - _ _ _ _ _ _
D.2-17 TSC OBSERVER CUE CARDS Time Card Given No. 0935 8 (Continued) III. SCI PARAMETERS Value Name Description Point Enain. Units Status (2102) SGWRL1 Steam Generator Level, Loop 1 13 12 feet ( 102) SGWRL2 Steam Generator Level, Loop 2 , 14 17 feet (2102) SGWRL3 Steam Generator Level, Loop 3 15 17 feet (2102) SGWRL4 Steam Generator Level, L :: / 1F 12 feet 800 psis ( 102) SGP1 SG Pressure Loop 1 17 760 psis ( 102) SGP2 SG Pressure, Loop 2 18 760 psis ( 102) SGP3 SG Pressure, Loop 3 19 760 psis ( 102) SGP4 SG Pressure, Loop 4 20 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 28 1050 lbs/hr ( 102) SF2 Steam Flow, Loop 2 29 1050 lbs/hr (2102) SF3 Steam Flow, Loop 3 30 1050 lbs/hr (2102) SF4 Steam Flow, Loop 4 31 0 gpm (2102) FWF1 Feedwater Flow, Loop 1 32 gpm ( 102) FWF2 Feedwater Flow, Loop 2 33 120 spm ( 102) FWF3 Feedwater Flow, Loop 3 34 120 120 spm (2102) FWF4 Feedwater Flow, Loop 4 35 spm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 36 0 spm (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 37 0 0 spm (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 38 spm (A10A) AFWF4 Emer. Feedwater Flow Loop 4 39 0 mR/hr ( 102) SLRAD1 Steam Line Radiation Loop 1 40 2.3 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 41 0.2 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 42 0.2 mR/hr (2102) SLRAD4 Steam Line Radiation, Loop 4 43 0.2
r D.2-18 TSC OBSERVER CUE CARDS Card Time No. Given 9 0945 I. NCI PARAMETERS Value Point Engin. Units Status Name D aeription 1 90 inches (2102) PZRL Pressurizer Level, Wide Rangt 2 1500 psig (2102) MCPRESI Main Coolant Pressure, Loop 1 , 3 1500 psig (2102) MCPRES2 Main Coolant 15 essure Loop 2 4 1500 prit (2102) MCPRES3 Main Coolant Pressurc, Loir ? 44 1.2 psig ( 8) VCPLR V.C. Pressure, Low Range 45 <2 psig (2102) VCPHR1 V.C. Pressure. High Range 1 46 <2 psig ( 102) VCPHR2 V.C. Pressure. High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level, Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level, Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate, N 54 5.0E4 cpm ( 102) VCAPM2 V.C. Air Particulate, S 59 IE6 cpn ( 102) AEJRM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing) value Point Engin. Units Statur Name Description 5 515 deg. F (2102) TH1 Hot Les Temperature. Loop 1 6 515 det. F ( 102) TH2 Hot Leg Temperature, Loop 2 7 515 deg. F ( 102) TH3 Hot Les Temperature, Loop 3 8 515 deg. F ( 102) TH4 Hot Les Temperature, Loop 4 9 515 deg. F (2102) Tcl Cold Les Temperature, Loop 1 10 515 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 11 515 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 12 515 deg. F ( 102) TC4 Cold Les Temperature Loop 4
D.2-19 TSC OBSERVER CUE CARDS Card Time No. Given 9 (Continued) 0945 III. SCI PARAMETERS Value Point Engin. Units Status Name Description 13 24 feet (2102) SGWRL1 Steam Generator Level, Loop 1 14 21 feet ( 102) SGWRL2 Steam Generator Level Loop 2 l 15 21 feet (2102) SGWRL3 Steam Generator Level, Loop 3 16 21 feet (2102) SGWRL4 Steam Generator Level, Loop 4 1/ 825 pcit ( 102) SGI' SG Pressure. Loop 1 18 760 psig ( 102) SGP2 SG Pressure, Loop 2 19 760 psig ( 102) SGP3 SG Pressure, Loop 3 20 760 psig ( 102) SGP4 SG Pressure, Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 29 1200 lbs/hr ( 102) SF2 Steam Flow, Loop 2 30 1200 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 1200 lbs/hr (2102) SF4 Steam Flow, Loop 4 32 0 spm (2102) FWF1 Feedwater Flow Loop 1 33 93 spm ( 102) FWF2 Feedwater Flow, Loop 2 34 93 gpm ( 102) FWF3 Feedwater Flow, Loop 3 35 93 spm (2102) FWF4 Feedwater Flow, Loop 4 36 0 spm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 37 0 g; a (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 38 0 spm (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 39 0 spm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 40 2.3 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 41 0.2 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 42 0.2 mR/hr (2102) SLRAD3 Steam Line Radiati.on, Loop 3 43 0.2 mR/hr (2102) SLRAD4 Steam Line Radiation, Loop 4 l l
D.2 20 TSC OBSERVER CUE CARDS Time Card Given A 1000 10 I. MCI PARAMETERS Value Ensin. Units Status ggseription Point Esme inches (2102) PZRL Pressurizer Level, Wide Range 1 90 1500 psis (2102) MCPRES1 Main Coolant Pressure Loop 1 2 psis (2102) MCPRES2 Main Coolant Pressure, Loop 2 3 1500 A 1500 psir, (2102) MCPRES3 Main Coolant Pressure, Leot 3
- 8) VCPLR V.C. Pressure, Low Range 44 1.2 psis (
V.C. Pressure, High Range 1 45 <2 psig (2102) VCPHR1
<2 psis ( 102) VCPHR2 V.C. Pressure, High Range 2 46 51 0 feet (A10A) VCL1 V.C. Flood Level. Channel 1 0 feet (A10A) VCL2 V.C. Flood Level, Channel 2 52 V.C. Air Particulate, N 53 3.0E4 cpm (2102) VCAPM1
( 102) VCAPM2 V.C. Air Particulate, S 54 5.0E4 cpm 59 IE6 c pt. ( 102) AEJRM Air Ejector Radiatiot. Monitor II. CHR PARAMETERS (Partial Screen Listing) Value Description Point gntin. Units Status Name 500 deg. F (2102) TH1 Hot Les Temperature, Loop 1 5 500 dcs. F ( 102) Til2 Hot Leg Temperaturc. Loor 2 6 7 500 deg. F ( 102) TH3 Hot Les Temperature. Loop 3 500 deg. F ( 102) TH4 Hot Les Temperature, Loop 4 8 500 deg. F (2102) TC1 Cold Les Temperature, Loop 1 9 500 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 10 500 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 11 500 deg. F ( 102) TC4 cold Leg Temperature, Loop 4 12
D.2-21 TSC OBSERVER CUE CARDS Card Tike No. Given 10 (Continued) 1000 l III. SCI PARAMETERS l l Value Ensin. Units Status Name Description E2 nt i 13 24 feet (2102) SGWRL1 Steam Generator Level, Loop 1 14 21 feet ( 102) SGWRL2 Steam Generator Level, Loop 2 15 21 feet (2102) SGWRI.3 Steam Generator Level, Loop 3 16 21 feet (2102) SGWRL4 Steam Generator Level, Loop 4 1/ 635 psit ( 102) SGP1 SG Pressurc, Loop 1 18 760 psig ( 102) SGP2 SG Pressure, Loop 2 19 760 psis ( 102) SGP3 SG Pressure Loop 3 20 760 psig ( 102) SGP4 SC Pressure Loop 4 28 0 lbs/hr ( 102) SFL Steam Flow Loop 1 29 1500 lbs/hr ( 102) SF2 Steam Flow, Loop 2 30 1500 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 1500 lbs/hr (2102) SF4 Steam Flow Loop 4 32 0 spm (2102) FWF1 Feedwater Flow, Loop 1 33 117 spe ( 102) FWF2 Feedwater Flow, Loop 2 34 117 gym ( 102) FWF3 Feedwater Flow, Loop 3 35 117 spt. (2102) FWF4 Feedwater Flow, Loop 4 36 0 gpm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 37 0 gpr (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 38 0 spm (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 39 0 spm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 40 2.3 mR/hr ( 102) SLRAD1 Steam Line Radiation. Loop 1 41 0.2 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loor 2 42 0.2 mR/hr (2102) SLRAD3 Steam Line Radiation Loop 3 43 0.2 mR/hr (2102) SLRAD4 Steam Line Radiation, Loor 4 } I I L - _ _ _ _ _ _ _ _ _ _
D.2-22 TSC OBSERVER CUE CARDS Card Time l No. giv,en 1015 11 I. MCI PARAMETERS l Value Units Egge Description Point Engin. Status inches (2102) PZRL Pressurizer Level, Wide Range 1 90 psis (2102) MCPRES) Main Coolant Pressure, Loop 1 2 1500 3 1500 psis (2102) MCPRES2 Main Coolant Pressure, Loop 2 l 4 1500 psic (2102) MCPRES3 Main Coolant Pressure, i.eer ? psig 8) VCPLR V.C. Pressure, Low Rangt 44 1.2 ( 45 <2 psig (2102) VCPHR1 V.C. Pressure. High Range 1 46 <2 psis ( 102) VCPHR2 V.C. Pressure, High Range 2 0 feet (A10A) VCL1 V.C. Flood Level, Channel 1 51 0 feet (A10A) VCL2 V.C. Flood Level, Channcl 2 52 (2102) VCAPM1 V.C. Air Particulate, N 53 3.0E4 epm ( 102) VCAPM2 V.C. Air Particulate, S 54 5.0E4 cpm 59 1E6 cpm ( 102) AEJRM Air Ejector Radiation Monitor l I II. CHR PARAMETERS (Partial Screen Listing) Value Description Point Engin. Units Status Name l 5 490 deg. F (2102) TH1 Hot Les Temperature, Loop 1 6 490 deg. F ( 102) TH2 Hot Les Temperature, Loop 2 7 490 dec. F ( 102) TII3 Hot Les Temperature. Loop 3 8 490 deg. F ( 102) TH4 Hot Les Temperature, Loop 4 9 490 deg. F (2102) TC1 Cold Leg Temperature Loop 1 10 490 dcs. F ( 102) TC2 Cold Les Temperature, Loop 2 11 490 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 12 490 deg. F ( 102) TC4 Cold Les Temperature, Loop 4 l
D.2-23 TSC OBSERVER CUE CARDS Card Time No. Given 11 (Continued) 1015 III. SCI PARAMETERS Value Egint Engin. Units Status Egme Description 13 24 feet (2102) SGWRL1 Steam Generator Level, Loop 1 14 21 feet ( 102) SGWRL2 Steam Generator Level. Loop 2 15 21 feet (2102) SGWRL3 Steam Generator Level Loop 3 16 21 feet (2102) SCWRL4 Steam Cencrator Level. Loop 4 11 850 psis ( 102) SGF1 SG Pressure, Loop 1 18 680 psig ( 102) SGP2 SC Pressure, Loop 2 19 680 psig ( 102) SGP3 SG Pressure, Loop 3 20 680 psig ( 102) SGP4 SG Pressure, Loop 4 28 0 lbs/hr ( 102) SF) Steam Flow Loop 1 29 1500 lbs/hr ( 102) SP2 Steam Flow, Loop 2
- 30. 1500 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 1500 lbs/hr (2102) SF4 Steam Flow Loop 4 32 0 spm (2102) FWt1 Feedwater Flow Loop 1 33 117 spm ( 102) FWF2 Feedwater Flow, Loop 2 34 117 cp , ( 102) FWr3 Feedwater Flow, Loop 3 35 117 spm (2102) FWF4 Feedwater Flow, Loop 4 36 0 gpm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 31 0 gpm (A10A) AFWF2 Emer. Feedwater Flev. Loop 2 38 0 spm (A10A) AFWy3 Emer. Feedwater Flow, Loop 3 39 0 spm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 40 2.3 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 41 0.2 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 42 0.2 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 43 0.2 mR/hr (2102) SLRAD4 Steam Line Radiation, Loop 4 i
t - - - - - - -
D 2 24' TSC OBSERVER CUE CARDS Time C:rd Given A 1030 12
- 1. MCI PARAMETERS Value Description Point Engin. Unite Status Name 90 inches (2102) PZRL Pressurizer Level. Wide Range 1
2 1400 pcit (2102) MCPRES1 Main Coolant Pressure. Loop 1
- 1400 psig (2102) MCPRES2 Main Coolant Pressure. Loop 2 3
4 1400 psig (2102) MCPREST Main Coolant Pressure. Loot 3 psig 6) VCPLR V.C. prescurc. Low Range 44 1.2 (
<2 psis (2102) VCPHR1 V.C. Pressure, High Range 1 45 46 <2 psis ( 102) VCPHR2 V.C. Pressure, High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level. Channel 1 0 feet (A10A) VCL2 V.C. Flood Level, Channel 2 52 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate. N 54 5.0E4 cpm ( 102) VCAPH2 V.C. Air Particulate. S 59 IE6 cpn ( 102) AEJRM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing)
Value Point Engin. Unite Status Ear.c DecerirtioD 5 465 deg. F (2102) TH1 Hot Les Temperature. Loop 1 6 465 deg. F ( 102) TH2 Hot Leg Temperature. Loop 2 7 465 deg. F ( 102) TH3 Hot Les Temperature. Loor 3 8 465 deg. F ( 102) TH4 Hot Les Temperature. Loop 4 9 465 deg. F (2102) TC1 Cold Les Temperature, Loop 1 10 465 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 11 465 deg. F ( 102) TC3 Cold Les Temperature Loop 3 12 465 deg. F ( 102) TC4 Cold Les Temperature, Loop 4
\ D.2-25 TSC OBSERVER CUE CARDS Card Time A Given 12 (Continued) 1030 III. SCI PARAMETERS Value Point Entin. Unite Status [gme Description 13 24 feet (2102) SGWRL1 Steam Generator Level Loop 1 14 21 feet ( 102) SGWRL2 Steam Generator Level. Loop 2 15 21 feet (2102) SCWRL3 Steam Generator Level. Loop 3 I f, 21 feet (210?) SGWRL4 Steam Generator Level. Loep 4 17 900 psis ( 102) SGP1 SG Pressure, Loop 1 18 485 psig ( 102) SGP2 SG Pressure, Loop 2 19 485 psig ( 102) SGP3 SG Pressure, Loop 3 20 485 pois ( 102) SCP4 SC Pressure, Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow Loop 1 29 1920 lbs/hr ( 102) SF2 Steam Flow, Loop 2 30 1920 lbs/hr (2102) SF3 Steam Flow, Loop 3 1 31 1920 lbs/hr (2102) St4 Steam Flow, Loop 4 32 0 spe (2102) FWF1 Feedwater Flow Loop 1 33 150 spm ( 102) FWF2 Feedwater Flow, Loop 2 34 150 gpm ( 102) FWF3 Feedwater Flow, Loop 3 35 150 spm (2102) FWY4 Feedwater Flow, Loop 4 36 0 spr. (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 37 0 gpm (A10A) AFWF2 Emer. Feedwatcr Flow, Loop 2 38 0 gym (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 39 0 spm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 40 2.3 mR/hr ( 102) SLRAD1 Steam Line hadiation, Loop 1 41 0.2 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 42 0.2 mR/hr (2102) SLRAD's Steam Line Radiation Loop 3 43 0.2 mR/hr (2102) SLRADA Steam Line Radiation, Loop 4
D.2 26 TSC OBSERVER CUE CARDS Time C:rd given A 1045 13
- 1. MCI PARAMETERS ,
I Value Description l Point Ensin, Units Status Esme inchee (2102) PZRL Pressurizer Level, Wide Range 1 95 psis (2102) MCPRESI Main Coolant Pressure, Loop 1 2 1300 Main Coolant Pressure Loop 2 2 3 1300 psis (2102) MCPRES2 4 1300 psig (2102) MCPRES3 Main Coolant Pressure Loor 3 V.C. Pressure, Low hu.Lt 44 1.2 psis ( B) VCPLR V.C. Pressure. High Range 1 45 <2 psig (2102) VCPHR1 V.C. Pressure, High Range 2 46 <2 psig ( 102) VCPHR2 (A10A) VCL1 V.C. Flood Level, Channel 1 51 0 feet 52 0 feet (A10A) VCL2 V.C. Flood Level Channci 2 53 3.0E4 cpm (2102) VCAPH1 V.C. Air Particulate W 54 5.0E4 cpm ( 102) VCAPN2 V.C. Air Particulate S 3E6 c pt. ( 102) AEJ RM Air Ejector Radiation Hor.itu 59
- 11. CHR_ PARAMETERS (Partini Screen Litting)
Value Unite Statuc H32s DecerirtioD EalDi EDaint deg. F (2102) TH1 Hot Les Temperature. Loop 1 5 465 deg. F ( 102) TU2 Hot Leg Temperaturc, Loop 2 6 465 deg. F ( 102) T!!3 Hot Les Temperature Loot 3 7 465 deg. F ( 102) Tile Hot Les Temperature, Loop 4 8 465 deg. F (2102) TC1 Cold Les Temperature, Loop 1 9 465 Cold Les Temperature. Loop 2 10 465 deg. F ( 102) TC2 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 11 465 deg. F ( 102) TC4 Cold Les Temperature, Loop 4 12 465 i
- . _ . _ _ _ _ - _~ ,_._ _ . .__ __ ,__ _ _ ___ .__ . _ , _ _ . ,__
D.2-27 TSC OBSERVER CUE CARDS Time C:rd Given A 1045 13 (Continued) 17I. SCI PARAMETERS Value Eg. int Entin. Units Status ggts, Descriotion 24 fect (2102) SGWRL1 Steam Generator Level. Loop 1 13 21 feet ( 102) SGWRL2 Steam Generator Level. Loop 2 14 21 feet (2102) SGWRL3 Steam Generator Levci, Loop 3 15 16 21 feet (2102) SCWRL4 Steam Generator Level, Loci e 17 935 pcic ( 102) SCI'1 SG Pressure, Loop 1 18 485 psis ( 102) SGP2 SG Pressure, Loop 2 19 485 psis ( 102) SGP3 SG Pressure, Loop 3 485 psis ( 102) SCP4 SC Pressure Loop 4 20 0 lbs/hr ( 102) SF1 Steam Flow Loop 1 28 29 1263 lbs/hr ( 102) SF2 Steam Flow, Loop 2 30 1263 lbs/hr (2102) SF3 Steam Flow, Loop 3 1263 lbs/hr (2102) SFA Steam Flow, Loor 4 31 32 0 spm (2102) FWF1 Feedwater Flow, Loop 1 gp . ( 102) FWF2 Feedwater Flow, Loor 2 33 150 34 150 gj - ( 102) FWF3 Feedwater Flow, Loor 3 35 150 spm (2102) FWF4 Feedwater Flow, Loop 4 0 spm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 36 0 5p- (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 31 38 0 spm (A10A) AFWF3 Emer. Feedwater Flow Loor 3 39 0 gpm (A10A) AFWF4 Emer. Feedwater Flow Loor 4 40 1000 nR/hr ( 102) SLRAD1 Steam Line Radiation. Loop 1 5 mR/hr (AllA) SLRADP Steam Line Radiation, Loct 2 41 mR/hr (2102) SLRAD3 Steam Line Radiation, Loor 3 42 5 mR/hr (2102) SLRADA Steam Line Radiation, Loop 4 43 5
D.2-28 TSC OBSERVER CUE CARDS Card Time Given A 14 1100
- 1. MCI PARAMETERS Value gagg Description Point Innin. Units Status 1 100 inches (2102) P2RL Pressuriser Level, Wide Range 2 1300 psig (2102) MCPRES1 Main Coolant Pressure Loop 1 3 1300 psis (2102) MCPRES2 Main Coolant Pressure, Loop 2 4 1300 psig (2102) MCPRLS3 Main Coolant Pressure. Loor 3 44 1.2 psit ( 8) VCPLk V.C. Pressure Low Range 45 <2 psig (2102) VCPHH1 V.C. Pressure, Migh Range 1 46 <2 psis ( 102) VCPHR2 V.C. Pressure, Migh Range 2 0 feet (A10A) VCL1 V.C. Flood Level, Channel 1 51 52 0 feet (A10A) VCL2 V.C. Flood Level Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate N l 5.0E4 cpm ( 102) VCAPH2 V.C. Air Particulate, S 54 59 1 Rt ep . ( 102) AEJRH Air Ejtetor Radiation Moniter
- 11. ClfR PARAMETERS (partici Screen Listing)
Value M 19t).g . URJ Status His Descrictler. 5 460 det. F (2102) Till Hot Les Temperature. Loop 1 6 460 deg. F ( 102) TH2 Hot Leg Temperature, Loop 2 7 460 deg. F ( 102) TH3 Hot Les Temperature, Loop 3 8 460 deg. F ( 107) Tile Hot Les Tre.perature Loor 4 9 460 deg. F (2102) TC1 Cold Les Temperature Loop 1 10 460 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 11 460 deg. F ( 102) TC3 Cold Les Temperature Loop 3 12 460 deg. F ( 102) TC4 Cold Les Temperature Loop 4
D.2-29 TSC Q) SERVER CUE CARDS Card Time
- 32. . 211tn 14 (Continued) 1100 III. SCI PARAMETERS Value Units Description Point Entin, Status Matt 13 24 feet (2102) SGWRI.1 Steam Generator Level, Loop 1 14 21 feet ( 102) SGWRL2 Steam Generator Level Loop 2 ,
feet (2102) SGWRt.3 Steam Generator Level, Loor 3 15 21 16 21 feet (2102) SGh'R L/. Steam Generator Levt1, Loor 4 Il 930 psig ( 102) SGP1 SG Pressure, Loop 1 18 485 psit ( 102) SGP2 SG Pressure, Loop 2 19 485 psig ( 102) SGP3 SG Pressure. Loop 3 20 485 psig ( 102) SGP4 SG Pressure Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow Loop 1 [ Steam Flow, Loop 2 1 29 1263 lbs/hr ( 102) SF2 30 1263 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 1X63 lbs/hr (2102) SFA Steam Fluw, Loop 4 32 0 spm (2102) FWV1 Feedwater Flow Loop 1 l t 33 150 spm ( 102) FWF2 Feedwater Flow Loop 2 34 150 g;- ( 102) FWF3 Feedwater Flov, Loor 3 35 150 spm (2102) FWF4 Feedwater Flow, Loop 4 36 0 st" (A10A) AFWF1 Emer. Feedwater Flow, Loep 1 37 0 gym (A10A) AFWF2 Emer. Feedwatcr Flow, Loop 2 38 0 gpm (A10A) AFWF3 Emer. Fecdwater Flow, Loop 3 39 0 spn (AICA) AFWF4 Emer. Feedwater Flow, Loop 4 40 1000 mR/hr ( 102) SLRADI Steam Line Radiation, Loep 1 41 7 nR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 42 7 rR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 43 7 mR/hr (2102) SLRAD4 Steam Line Radiation, Loop 4 i 1
D.2-30 TSC OBSERVER CUE CARDO Time Card 9.1.Y1!1 A 1115 15
- 1. MCI PARAMETERS Value Description EgigLt, Entin, inil.g Status EsEt 1 100 inches (2102) PZRL Pressurizer Levci, Wide kangc' 2 1300 psis (2102) MCPRES1 Main Coolant Pressure, Loop 1 ,
3 1300 prit (2102) MCPRES2 Main Coolant Pressure Loop 2 4 1300 psis (2102) MCPRES3 Main Coolant Pressurc Loor 3 psig 8) VCPLR V.C. Pressure. Low Rangt 44 1.2 ( 45 <2 psig (2102) VCPHR1 V.C. Pressure, High Range 1 46 <2 psis ( 102) VCPHR2 V.C. Pressure, High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level. Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate N ( 102) VCAPM2 V.C. Air Particulate, S 54 5.0E4 crm 59 IE6 crm ( 102) AEJRM Air Ejector Radiation. hot.itut
- 11. CHR PARAMETER 0 (Partial screen Listin6)
Value Point InLin, Units almius Egng Descrirtion 5 455 det. F (2102) TH1 Hot Les Temperature Loop 1 6 AS; dcs. F ( 102) TH2 Hot Lc6 Terrerature Lect 2 l' 7 455 deg. F ( 102) TH3 Hot Leg Temperaturc, Loor 3 S 455 deg. F ( 102) TH4 Hot Leg Temperature, Loor 4 9 455 det. F (2102) TC) Cold Les Temperature. Leer 1 10 455 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 11 455 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 12 455 deg. F ( 102) TC4 Cold Les Temperature, Loor 4 e .. .
D.2-31 TSC OBSERVEk CUE CARDS Card Time En.r. E118!1 15 (Continued) 1115 III. SCI PARAMETERS Value g Entin. V.D.1.1.1 Status gamg Descristion 13 24 fect (2102) SGWRt.1 Steam Generator Level. Loog 1 14 21 feet ( 102) SGWRL2 Stean Generator Level Loop 2 15 21 fcct (2102) 3GWRI.3 steam Generator Level. Loor 3 It 21 feet (2102) SGWRL4 Steam Generator Level, Loot 4 Il 920 pstL ( 102) SGF1 SG Pressure, Loop 1 le 485 psis ( 102) SGP2 SG Pressure Loop 2 19 485 psis ( 102) SGP3 sc Pressure. Loop 3 20 485 psis ( 102) CGP4 SG Pressure Loop 4 28 0 lbs/hr ( 102) SF1 steam Flow, Loop 1 29 1263 lbs/hr ( 102) 8F2 steam Flow, Loop 2 30 1263 lbs/hr (2102) SF3 Steam Flow Loop 3 31 12t3 lbs/hr (2102) CFA Stcan. Flow Loor 4 32 0 spm (2102) FWF1 Feedwater Flow Loop 1 33 150 spm ( 102) FWF2 Feedwater Flow, Loop 2 34 150 spm ( 10.9) FWF3 Feedwater Flow Loop 3 35 150 5pm (2102) FWF4 Feedwater Flow, Loop 4 36 0 g: - (A10A) AFWF1 Emer. Feedwater Flow Loop 1 31 0 spm (A10A) AFWF2 Emer. Feedwater Flow Loop 2 38 0 sps (A10A) AFWF3 Ener. Feedwater Flow, Loop 3 39 0 spm (A10A) AFWre Emer. Feedwater Flow Loop 4 40 1000 mR/hr ( 102) SLRAD1 Steam Lino Radiatten, Loep 1 41 10 PR/hr (AllA) St. RAD 2 steam 1.ine Radiation Loop 2 42 10 e.h/hr (2102) SLRAD3 Steam Line Radiation. Loop 3 43 10 mR/hr (2102) SLRADA steam Line Radiation. Loop 4
D.2-32 TSC OBSERVER CUE CARDS C:rd Time GlV_tn A 16 1130
- 1. NCI PARAMETERS Value 221R1 Engin. Vn111 Status Ramt kg31pintion 1 110 inches (2102) PZRL Pressuriser Levci, Wide Rangt 2 1150 psig (2102) MCPRES1 Main Coolant Pressure, Loop 1 1 3 1150 psig (2102) MCPRE.92 Main Coolant Pressure Loop 2 4 1150 psig (2102) MCthtS) Main Coolant Pressure. Lect 2 44 1.2 pais ( g) VCPLR V.C. Pressure Low Range 45 <2 psis (2102) VCPHR1 V.C. Pressure, High Range 1 46 <2 psis ( 102) VCPHR2 V.C. Pressure, High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate, W S4 S.0E4 cpm ( 102) VCAPM2 V.C. Air Particulate, S
$9 1E6 cpm ( 102) ALJHM Air Ejector Radiation Monitus
- 11. CHR FAPAMEIKR (partial Screen Listing)
Valuc l Point Ln'in. En11 Status Eiri Description S 450 det. F (2102) TH1 Hot Les Temperature Loop 1 6 450 det. I ( 102) TH2 Hot Leg temperature, Loor 2 7 450 deg. F ( 102) TH3 Hot Les Temperature Loop 3 8 450 det. F ( 102) TH4 Hot Les Temperature', Loor 4 9 4!0 dec. F (2102) TC) Cold Les Temperature Loop 1 10 450 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 11 450 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 12 450 det. F ( 102) TC4 Cold Les Temperature Loop 4
D.2-33 TSC ObstRVER CUE CARDS Time Card Max Eirin 1130 16 (Continued) 111. SCI PARAMETERS Value Point Rnnin ._ Vnits 11atus gamg Descrirtion 13 24 feet (2102) 3GWRI.1 steam Generator Level. Loor 1 21 feet ( 102) SGWRL2 Steam Generator Level. Loop 2 14 21 feet (2102) SGWRL3 steam Generator Level. Loop 3 15 16 2) fect (2107) SCWHLA Steam Generator Level f.oct 4 91L pais ( 102) 5G01 SG pressure. Loop 1 11 18 485 psis ( 102) SGP2 SG Pressure. Loop 2 19 485 psig ( 102) SGP3 SG Pressure. Loop 3 20 485 psis ( 102) SGP4 SG Pressure. Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow. Loop 1 29 1263 lbs/hr ( 102) SF2 Steam Flow. Loop 2 30 1261 lbs/hr (2102) SF3 Steam Flow. Loop 3 31 1263 lbs/hr (2102) CL4 Ctoam Flow. Loor 4 0 spm (2102) FWrl Feedwater Flow. Loop 1 32 150 spm ( 102) FWF2 Feedwater Flow. Loop 2 33 34 lb0 gpm ( 102) FWr3 Feedwater Flow. Loor 3 35 150 spm (2102) FWre Feedwater Flow. Loop 4 36 0 spm (A10A) AFWF1 Eter. Feedwater Flow. Leer 1 31 0 gra (A10A) AFWF2 Emer. Feedwater Flow. Loor 2 38 0 gpm (A10A) AFWF3 Emer. Feedwatcr Flow. Leot 3 0 spm (A10A) AFWre toer. Feedwater Flow. Loop 4 39 40 1000 rR/hr ( 102) SLRAD1 Stea?. Line Radiation. Loop 1 41 10 mR/hr (AllA) SLRAD? Steam Line Radiation. Loct 2 42 10 mR/hr (2102) SLRAD3 Steen Line Radiation. Loop 3 43 10 PR/hr (2102) St.RADA tteam Line Radiation. Loor 4
D.2 34 TSC QBSERVER CUE CARDS Card Time GiVen A 17 1145
- 1. MCI PARAMETERS Value Egig Eng h ynlig Status Egtt Descristion 1 120 inchcc (2102) PZRL Pressuriser Level Wide Rangc 2 1000 psig (2102) NCFRES1 Main Coolant Pressure Loop 1 3 1000 psig (2102) MCPRES2 Main Coolant Pressure. Loop 2 4 1000 psis (2102) MCPRECi Main Coolant Pressure. Loor 3 44 1.2 pcic t 8) VCPLk V.C. Pressure. Low Rangt 45 <2 psig (2102) VCPHP1 V.C. Pressure, High Range 1 46 <2 psig ( 102) VCPHP2 V.C. Pressure, High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level, Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level Channci 2 53 3.0E4 cpm (2102) VC APH1 V.C. Air Particulate, W 54 5.0E4 cpm ( 102) VCAPM2 V.C. Air Particulate, 5 59 SEL t!' ( 102) AEJRK Air kjector Radiation Monitor ff. CHR_PARAMETEPD (Partial Screen List. int)
Value meg Description l'91El IMik h EdB 5 450 dcc. F (2102) TH1 Hot Les Temperature, Loop 1 6 4!0 deg. F ( 102) TH2 Hot Leg Temperature. Loop 2 1 450 deg. F ( 102) TH3 Hot Les Temperature, Loop 3 3 450 deg. F ( 102) TH4 Hot Les Temperature Loop 4 9 450 deg. F (2102) TC1 Colo Las Temperature Loop 1 10 450 deg. F ( 102) TC2 Cold Les Temperature Loop 2 11 450 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 12 450 der. F ( 102) TC4 Cold Les Temperature Loop 4
i D.2-35 l TSC l OBSERVER Cut CARDS Card Time A D i 1145 17 (Continued) III. SCI PARAMPTRRS Value Entin- 3_t atug M De=crietion h MDill. 13 24 feet (2102) 3GWRL1 Steam Generator Level Loop 1 14 21 feet ( 102) SGWRL2 steam Generator Level, Loop 2 , l 15 21 feet (2102) SGWRL3 Steam Generator Level, Loor 3 16 21 feet (2102) SGWRL4 Steam Generator Levci, Loot < l 17 900 psig ( 102) SGi l se l'reccurc, Loo: 1 18 485 pois ( 102) SGP2 sc Pressure Loop 2 485 psig ( 102) SGP3 sc Pressure, Loop 3 19 l 20 485 psig ( 102) SGr4 SG Pressure, Loop 4 i 2H 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 l 29 1263 lbs/hr ( 102) 892 Steam Flow, Loop 2 ! 30 1263 lbs/br (2102) SF3 Steam Flow, Loop 3 l 31 1263 lbs/hr (2102) Cl 4 Steum Flow, Loop 4 32 0 sp9 (2102) FWF1 Feedwater Flow, Loop 1 ! 33 150 spm ( 102) FWF2 Feedwater Flow, Loop 2 150 gps ( 102) FWF3 teedwater Flow, Loor 3 , 34 35 150 gim (2102) FWte Feedwater Flow, Loop 4 ( 36 0 gym (A10A) AFWF1 Emer. Feedwater Flow Loor 1 31 0 sp- (A10A) AFKF2 kmer. Feedwater Flow, Loor 2 , 38 0 gpm (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 l gpm (A10A) AFWF4 Emer. Feedwater Flow, Loor 4 l 39 0 40 1000 ER/hr ( 102) SLRADI Steam Line Radiation Loop 1 41 10 mR/hr (AllA) SLRAD7 Steam Line Radiation Lner ? 42 10 ER/hr (2102) SLRAD3 Steam Line Radiation Lool 3 to nR/hr (2102) SLRADA steam Line Radiation Loop 4 43 t i l i i i
)
I i - l l l
m D.2 36 TSC 9BSERVER. cut CARDS Time C:rd S1Y.tB
. IRA 1200 18
- 1. MCI PA*AMETERS Value Enmin, ypus, Status MAEt Descrimtion RAID 1 120 inches (2102) FZRL Pressurizer Level, Wide Rangc 1
1000 psig (2102) MCPRgS1 Main Coolant Pressure Loop 1 , 2 1000 psig (2102) MCPRES2 Main Coolant Pressure Loop 2 3 Main Coolant Pressure, Loor 3 4 1000 rett (2102) MCPRES3 V.C. Pressure, Low Rangt 4 /. 1.2 prit ( t) VCPLR
<2 psig (2102) VCPHR1 V.C. Pressure, High Range 1
! 45 ( 102) VCPHR2 V.C. Pressure. High Range 2 46 <2 Psis V.C. Flood Level, Channel 1 31 0 feet (A10A) VCL1 0 feet (A10A) VCL2 V.C. Flood Level, Channel 2 1 32 S3 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate W ( 102) VCAPM2 V.C. Air Particulate, C S4 5.0E4 crm l 59 SLL cr- ( 102) AtJHM Air tjector Radiation Honitor
- 11. CHR_PARAMFT_fBS l (Partial Cercen Listlnc)
Value l E21Id ID&ib EDht Ilti1M M.Es DeeeriribD l S 445 deg. F (2102) TH1 Hot Les Temperature, Loor 1 6 445 deg. F ( 107) Til2 Hot Let Teercrature Loor 2 7 445 det. F ( 102) TH3 Hot Let Temperaturc, 1,e*! 3 8 445 deg. F ( 102) TH4 Hot Les Temperature Loop 4 9 445 deg. F (2102) TC1 Cold Les Temperature Loor 1 445 deg. F ( 102) TC2 Cold Les Temperature, Loor 2 10 445 deg. F ( 102) TC3 Cold Les TeePerature, Loor 3 11 455 deg. F ( 102) TC4 Cold Leg Temperature, Loor 4 12 l l l l l i l
D.2 37 - T8L OBSERVER cut CARDE C:rd Time Ma.i. 9.h.to i le (Continued) 1230 111.. 801 PAR <tTERS Value taint Ensin i. Units Statun gagg Descristion l 13 24 feet (2102) SCWR!.1 Steam Generator Level, Loop 1 14 21 fact ( 102) SGWRL2 Steam Generator Level Loop 2 15 21 feet (2102) 80WRL3 Steam Generator Level, Loor 3 < 16 21 feet (2102) SCWRLA steam Generator Level. Loep 4 i 11 875 prit ( 102) 8 Cpl 80 pressure, Loop 1 18 405 psis ( 102) SGr2 80 Pressure, Loop 2 19 405 pois ( 102) SCp3 SG Pressure, Loop 3 20 445 psis ( 102) SGr4 SC Fressure Loop 4 , 2N 0 lbs/br ( 102) Srl steam Flow, Loop 1 I 29 1263 lbs/hr ( 102) 3r2 Steam Flow, Loop 2 l 30 1263 lbs/hr (2102) Sr3 Steam Flow Loop 3
.11 1263 lbs/br (2102) 8F4 Steam Flow Loop 4 32 0 Spm (2102) FWF1 Feedwater Flow. Loop 1 ,
33 150 spm ( 102) FWr2 Feedwater Flow, Loop 2 34 150 gpm ( 102) FWr3 Foodwater Flow, Loor 3 35 150 gim (2102) FWF4 Feedwater Flow, Loop 4 36 0 gpm (A10A) AFWF1 Smer. Feedwater Flow, Loop 1 31 0 gpm (A10A) AFWr2 Emer. Feedwater Flew. Loor 2 30 0 spn (A10A) AFWF3 Kmer. Feedwater Flow. Loor 3 39 0 Erm (A10A) ArWre kmer. Feedwater Flow, Loop 4 40 1000 mR/hr ( 102) SLRAD1 Steam Line Radiation. Loop 1 41 10 FR/hr (AllA) CLRAD2 Steam Line Radiation, Loop 2 42 10 mR/hr (2102) SLRAD3 steam Line Radiation Loor 3 ; 43 10 mR/hr (2102) SLRAD4 Steam Line Radiation, Loor 4 I l l l l I f
D.2-38 l l i TSC Q3 SERVER cut CAPDS Time C:rd Riltn
- 50. :
1215 19
- 1. RCI Pan'METrut Value peacrintion 18131 anmin < Uniin 11a191 Matt 1 120 inches (2102) PZRL Pressuriser Level. Wide Mante (2107) MCPRgS1 Main Coolant Pressure. Loop 1 ,
2 1000 Psis Main Coolant Pressure. Loop 2 !
.) 1000 psig (2102) MCPRhS2 Main Conlant Pressure. Loci ; l 4 1000 psig (7102) MCPRLS1 prig ( 8) VCPLH V.C. Pressure. Low Range i 44 12 V.C. Pressure. High Range 1 45 42 Psig (2102) VCPHR1
( 102) VCPHR2 V.C. Pressure. High Range 2 l 44 <2 Psis 51 0 feet (A10A) VCL1 V.C. Flood Level. Channel 1 32 0 feet (A10A) VCL2 V.C. Flood Level. Channel 2 53 3.0E4 cpm (2102) VCAPM1 v.C. Air Particulate. N : V.C. Air Particulate, s 54 S.0E4 el m ( 102) VCAPM2 cpn ( 102) AtJ kN Air Ejector hadiation Monitor 1 59 It$ 1 l lla__gifR PARAMETERS (l'artial tercen Listing) l l Value Dorerirlign NLUli KDith Uni.it 11.41MI ECC ) deg. F (2102) TH1 Hot Leg Temperature. Loop 1 S 440 deg. F ( 107) TH2 Hst Let Temperature. Loop 2 6 440 deg. F ( 102) Tit 3 Hot Les Temperature. Loop 3 ( 7 440 deg. F ( 102) TH4 Hot Les Temperature. Loop 4 8 440 deg. F (2102) TC1 Cold Les Temperature. Loor 1 : 9 440 deg. F ( 102) TC2 Cold Les TomPerature. Loop 2 [ 10 440 deg. F ( 102) TC3 Cold Les Temperature. Loor 3 i 11 440 Cold Les Temperature. Loor 4 ! 12 440 deg. F ( 102) TC4 l l I i i I I I l l
D.2-39 l TSC ! OBSERVER cut CARDS t i Time CCrd ELVAD E2.s. , 1215 , 19 (Continued) III. SCI PA*A4tfene Value Engin. Status gang DescrLetton P_cint En111 I feet (2102) 30Wpt.1 Steam Cenerator Level, Loop 1 13 24 feet ( 102) 3GWRL2 steam Generator Level. Loop 2 l 14 21 feet (2102) 30WRL3 Steam Generator Level, Loop 3 l 15 21 ' feet (2102) SCWRL4 Steam Generator Level, Loop 4 16 21 ( 102) SCP1 SG Pressure. Loop 1 17 8bt pett 445 psis ( 102) scr2 sc Pressure Loop 2 [ 10 485 psis ( 102) SGP3 80 Pressure. Loop 3 19 80 Pressure, Loop 4 20 485 psis ( 102) SGP4 0 lbs/hr ( 102) SF1 Steam Flow Loop 1 20 lbs/hr ( 102) 8F2 Steam Flow, Loop 2 29 117A lbs/hr (2102) SF3 steam Flow Loop 3 ! 30 117A lbs/hr (2102) 8F4 Steam Flow, Loop 4 . i 31 1178 spm (2102) FWF1 Feedwater Flow, Loop 1 l 32 0 gpm ( 102) FWP2 Feedwater Flow, Loop 2 33 140 ( 102) FWr3 Feedwater Flow Loop 3 i 34 140 t) - Feedwater Flow Loop 4 F 35 140 5pm (2102) FWF4 spm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 36 0 31 0 gpm (A10A) AFWP2 Emer. Feedwater Flow Loor 2 spm (A10A) AFWF3 Emer. Feedwater Flow, Loo) ) 38 0 39 0 spa (A10A) AFWF4 keer. Feedwater Flow Loor 4 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 40 1000 Steam Line Radittion, Loop 2 41 10 FR/hr (AllA) SLRAD2 l mR/hr (2102) SLRAD3 steam Line Radiation. Loop 3 ! l 42 10 43 10 mR/hr (2102) SLRA04 Steam Line Radiation Loor 4 1 ! i 1 I 1
D.2 40 TSC 9tagRVgk CVE_C&RDS Card Time 322 911t!1 20 1230
- 1. MCI PARAMgTgkS Value EA1Di IKlBA Unita 1Laint Magg baserirtion 1 120 inches (2102) PZRL Pressuriser Level, Wide Rangt 2 1000 psig (2102) NCPRg51 Main Coolant Pressure, Loor 1 3 1000 psis (2102) MCPRgS2 Main Coolant Pressure Loo; 2 4 1000 pric (2107) MCrRtsi Main Coolant Pressure Lect )
44 1.2 psis ( 8) VCPLk V.C. Pressure, Low Rangt 45 <2 psig (2102) VCPHR1 V.C. Pressure, High Range 1 46 <2 Psig ( 102) VCPHR2 V.C. Pressure. High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level Channel 1
$2 0 feet (A10A) VCL2 V.C. Flood Level Channel 2 53 3.0g4 cpm (2102) VCAPM1 V.C. Air Particulate, W
$4 S.0g4 cpm ( 102) VCAPM2 V.C. Air Particulate, s 59 1g5 con ( 102) AgJRH Air gjector Radiation Monitcr II. OIIL IA?A'iE U; (Partial screen ListinL)
Value 21LD1 EMillA Vallt Itatu8 Matt DfLtE1I110D S 435 deg. F (2102) TH1 Hot Les Temperature, Loop 1 6 435 det. F ( 102) Til2 Hot Les Temperature Loor 2 7 435 deg. F ( 102) Til3 Hot Leg Temperature. Loo; 3 g 435 deg. F ( 102) TH4 Hot Les Temperature, Loop 4 9 435 deg. F (2102) T01 Cold Les Temperature. Loop 1 10 43b deg. F ( 102) TC2 Cold Les Temperature Loop 2 11 435 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 12 435 deg. F ( 102) TC4 Cold Les Temperature, Loop 4
D.2-41 TSL OBSERVFR CUE CARDS Card Time A Civen 20 (Continued) 1230 111. Sc1 PARAMETERS Value taint Entin, Units Status Ming Description 13 24 feet (2102) SCWRI,1 Steam Generator Level. Loop 1 14 21 feet ( 102) SGWRL2 Steam Generator Level. Loop 2 15 21 feet (2102) SGWRL3 Steam Generator Level. Loop 3 ' 16 21 fact (2107) SCWRL4 Steam Generator Level. Loor 4 17 800 prit ( 10;i Scri SG pressure. Loor 1 18 485 psis ( 102) SGP2 SG pressure. Loop 2 19 485 psis ( 102) SCP3 SG Pressure. Loor 3 20 485 psig ( 102) SGP4 SG pressure. Loop 4 28 0 lbs/br ( 102) SF1 Steam Flow. Loop 1 29 1178 lbs/hr ( 102) SF2 Steam Flow. Loop 2 30 1118 lbs/hr (2102) SF3 Steam Flow. Loop 3
.11 117h lbe/hr (2102) Sie Steam Flow. Loop 4 32 0 gpm (2102) FWF1 Feedwater Flow. Loop 1 33 140 gl m ( 102) FWt2 Feedwater Flow. Loop 2 34 140 gpn ( 102) FWr3 Feodwater Flow. Loor 3 JS 140 gle. (2102) IW64 Feedwater Flow. Loop 4 36 0 gpm (A10A) AFWF1 Emer. Feedwater Flow. Loop 1 31 0 r,pn (A10A1 ArWV2 Emer. Feedvater Flow. Loor 2 38 0 gpm (A10A) AFWF.1 kmtr. teedwater Flow. Loor 3 39 0 gpn (A10A) ArWr4 Emer. Feedwater Flow. Loop 4 40 1000 rR/hr ( 102) SLRAD1 Steam Line Radiation. Loop 1 41 10 rR/hr (AllA) St. RAD 2 Steam Line Radiation. Le:p ?
42 10 mR/hr (2102) SLRAD3 Steam Line kadiation. Loop 3 43 10 PR/hr (2102) SLRAD4 Steam Line Radiation. Loop 4
D.2-42 TSC 9tSERVER cut CARDS Card Time Given A 21 1245
- 1. MCI PARAMETERS Value F,gid Engini Ught 11stVI 1881 Descriotion 1 120 inches (2102) FZRL Pressuriser Level Wide Nanti.
2 1000 psis (2102) MCPRES1 Main Coolant Pressure, Loop 1 , 3 1000 psis (2102) MCPRES2 Main Coolant Pressure. Loop 2 4 1000 prit (2102) MCpAEG1 Main Coolant Pressure Lot; 3 44 1.2 poic ( 0) VCpLR V.C. Pressure, Low Rantt j 45 <2 psig (2102) VCPHR1 V.C. Pressure High Range 1 46 <2 peig ( 102) VCPHR2 V.C. Pressure. High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate N ( 102) VCApM2 V.C. Air Particulate, s
$4 5.084 cpm 59 SE4 cpm ( 102) ALJkH Air Ejector Radiation Monitor IL._CMLfARAMEIFJ.2 (partin! Scrcen 1.isting) l Value EDilh VDlif Rutt RA g Descriotion fald S 430 det. F (2102) TH1 Hot Les Temperature. Loop 1 6 430 det. F ( 102) TH2 Hot Les Temperature. Loop 2 7 430 det. F ( 102) TH3 Hot Les Temperaturc. Loop 3 3 430 deg. F ( 102) TH4 Hot Les Temperature. Loop 4 9 430 deg. F (2102) TC1 Cold Les Temperature, Loop 1 10 430 deg. F ( 102) TC2 Cold Les Temperature, Loop 2 11 430 deg. r ( 102) TC3 Cold Les Temperature, Loof 3 12 430 deg. F ( 102) TC4 Cold Les Temperature, Loop 4
D.2-43 TSC OBSERVER CUE CARDS Card Time No. Given al (Continued) 1245 III. SCI PARAMETERS Value Description Point Engin. Units Status Name 13 24 feet (2102) SGWRL1 Steam Generator Level, Loop 1 14 21 feet ( 102) SGWRL2 Steam Generator Level, Loop 2 15 21 feet (2102) SGWRL3 Steam Generator Level, Loop 3 16 21 feet (2102) SGWRL4 Steam Generator Level Loct 4 11 750 psig ( 102) SGP1 SG Pressure, Loop 1 18 485 psig ( 102) SGP2 SG Pressure, Loop 2 19 485 psig ( 102) SGP3 SG Pressure, Loop 3 20 485 psig ( 102) SGP4 SG Pressure, Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 29 1178 lbs/hr ( 102) SF2 Steam Flow, Loop 2 30 1178 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 1178 lbs/hr (2102) SF4 Steam Flow, Loop 4 32 0 gpm (2102) FWF1 Feedwater Flow, Loop 1 33 140 gpm ( 102) FWF2 Feedwater Flow, Loop 2 34 140 gpt. ( 102) FWF3 Feedwater Flow, Loor 3 35 140 gpm (2102) FWF4 Feedwater Flow, Loop 4 36 0 gpm (A10A) !.FWF1 Emer. Feedwater Flow Loop 1 37 0 rp- (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 38 0 gpn (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 39 0 gpm (A10A) AFUF4 Emer. Feedwater Flow, Loop 4 40 1000 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 i 1 41 5 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 42 5 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 43 5 mR/hr (2102) SLRADA Steam Line Radiation Loop 4 I l
D.2-44 TSC OBSERVER CUE CARDS Time Card Given No. 1300 22
- 1. MCI PARAMETERS Value Description Point Entin. Units Status Name inches (2102) PZRL Pressurizer Level, Wide Range 1 120 psig (2102) MCPRESI Main Coolant Pressure, Loop 1 2 1000 1000 psis (2102) MCPRES2 Main Coolant Pressure, Loop 2 3
psis (2102) MCPRES3 Main Coolant Pressure, Loor 3 4 1000
- 8) VCPLR V.C. Pressure, Low Rance 44 1.2 psig (
V.C. Pressure, High Range 1 45 <2 psig (2102) VCPHR1 psig ( 102) VCPHR2 V.C. Pressure, High Range 2 46 <2 feet (A10A) VCL1 V.C. Flood Level, Channel 1 51 0 52 0 feet (A10A) VCL2 V.C. Flood Level Channel 2 V.C. Air Particulate, N 53 3.0E4 cpm (2102) VCAPM1 ( 102) VCAPM2 V.C. Air Particulate, S 54 5.0E4 cpm 59 SEA cpn ( 102) AEJRM Air Ejector Radiction Monitor II. CHR PARAMETERS (Partial Screen Listing) value Descriptior. Point En gin ., Units Status Name 430 deg. F (2102) TH1 Hot Leg Temperature, Loop 1 5 430 deg. F ( 102) TH2 Hot Leg Temperature, Loop 2 6 430 deg. F ( 102) TH3 Hot Leg Temperature, Loop 3 7 430 deg. F ( 102) TH4' Hot Leg Temperature, Loop 4 8 430 deg. F (2102) TC1 Cold Leg Temperature, Loop 1 9 430 deg. F ( 102) TC2 Cold Leg Temperature, Loop 2 10 430 deg. F ( 102) TC3 Cold Leg Temperature, Loop 3 11 430 deg. F ( 102) TC4 Cold Leg Temperature, Loop 4 12
~ . _ , . . _ _ _ _ . . . . . _ , _ . . . . , , .,_ ,, , . .. . .
5
=
D.2-45 [] TSL - OBSERVER CUE CARDS -] Card Time yo, Given i 22 (Continued) 1300 III. SCI PARAMETERS SO m Value -- Point Engin. Units Status Name Description T 13 24 feet (2102) SGWRL1 Steam Generator Level Loop 1 3 14 21 feet ( 102) SGWRL2 Steam Generator Level, Loop 2 1 15 21 feet (2102) SGWRL3 Steam Generator Level, Loop 3 1 10 21 feet (2102) SGWRL4 Steam Generator Level, Lovi 4 - Z 17 700 psig ( 102) SGP1 SG Pressure, Loop 1 18 325 psig ( 102) SGP2 SG Pressure Loop 2 - 19 325 psig ( 102) SGP3 SG Pressure, Loop 3 [~ 20 325 psig ( 102) SGP4 SG Pressure, Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 29 800 lbs/hr ( 102) SF2 Steam Flow, Loop 2 *
=
30 800 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 800 lbs/hr (2102) SF4 Steam Flow, Loop 4 - 32 0 spm (2102) FWF1 Feedwater Flow, Loop 1 d 33 140 gpm ( 102) FWF2 Feedwater Flow, Loop 2 7 2 34 140 gr- ( 102) FWF3 Feedwater Flow, Loop 3 35 140 gpm (2102) FWF4 Feedwater Flow, Loop 4 36 0 gpm (A10A) AFWF1 Emcr. Feedwater Flow, Loop 1 3 37 0 sp- (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 _ 38 0 gpm ( A101.) AFWF3 Emer. Feedwater Flow, Loop 3 39 0 gpm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 - 40 1000 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 ; 41 1.0 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 42 1.0 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 43 1.0 mR/hr (2102) SLRADA Steam Line Radiation, Loop 4 . 9 M
=
R 3
-i-mensem
D.2-46 TSC OBSERVER CUE CARDS Card Time No. Given 23 1315
- 1. MCI PARAMETERS Value Description Point 2ntin. Units Status Name 1 120 inches (2102) PZRL Pressurizer Level, Wide Range 2 1000 psig (2102) MCPRES1 Main Coolant Pressure, Loop 1 3 1000 psig (2102) MCPRES2 Main Coolant Pressure, Loop 2 4 1000 psig (2102) MCPRES3 Main Coolant Pressure, Loop 3 44 12 pcit ( 8) VCPLH V.C. Pressure, Low Range 45 <2 psig (2102) VCPHR1 V.C. Pressure, High Range 1 46 <2 psig ( 102) VCPHR2 V.C. Pressure. High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level, Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate, N 54 5.0E4 cpm ( 102) VCAPM2 V.C. Air Particulate, S 59 SE4 cpm ( 102) AEJRM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing)
Value Point En gin _., Units Status Name Description 5 415 deg. F (2102) TH1 Hot Leg Temperaturc, Loop 1 6 415 deg. F ( 102) TH2 Hot Les Temperature, Loop 2 7 415 deg. F ( 102) TH3 Hot Leg Temperature, Loop 3 8 415 deg. F ( 102) TH4 Hot Les Temperature, Loop 4 9 415 deg. F (2102) TC1 Cold Leg Temperature, Loop 1 10 4 '. S deg. F ( 102) TC2 Cold Leg Temperaturc, Loop 2 11 415 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 12 415 deg. F ( 102) TC4 Cold Les Temperature, Loop 4 l l
D.2-47 TSC OBSERVER CUE CARDS Card Time No. Given 23 (Continued) 1315 III. SCI PARAMETERS Value Point Engin. Units Status Name Description 13 24 feet (2102) SGWRL1 Steam Generator Level, Loop 1 14 21 feet ( 102) SGWRL2 Steam Generator Level, Loop 2 , 15 21 feet (2102) SGWRL3 Steam Generator Level, Loop 3 16 21 feet (2102) SGWRL/- Steam Generator Level Loop 4 11 550 psis ( 102) SGP1 SG Pressure, Loop 1 18 325 psis ( 102) SGP2 SG Pressure, Loop 2 19 325 psig ( 102) SGP3 SG Pressure, Loop 3 20 325 psig ( 102) SGP4 SG Pressure, Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 29 697 lbs/hr ( 102) SF2 Steam Flow, Loop 2 30 697 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 697 lbs/hr (2102) SF4 Steam Flow, Loor 4 32 0 gpm (2102) FWF1 Feedwater Flow Loop 1 33 130 gpm ( 102) FWF2 Feedwater Flow, Loop 2 34 130 gp- ( 102) FWF3 Feedwater Flow, Loop 3 35 130 gpm (2102) FWF4 Feedwater Flow, Loop 4 36 0 gpm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 37 0 gpm (A10A) AFWF2 Emer. Fecdwater Flow, Loop 2 38 0 spm (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 39 0 gpm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 l 40 990 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 l 41 1.0 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 42 1.0 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 43 1.0 mR/hr (2102) SLRAD4 Steam Line Radiation, Loop 4 l
D.2-4E-TSC OBSERVER CUE CARDS Card Time No. Given 24 1330 I. MCI PARAMETERS Value Description Point Engin. Units Status Name 1 120 inches (2102) PZRL Pressurizer Level, Wide Range 2 825 psig (2102) MCPRES1 Main Coolant Pressure, Loop 1 3 825 psis (2102) MCPRES2 Main Coolant Pressure, Loop 2
- 4 825 psig (2102) MCPRES3 Main Coolant Pressure, Loop 3 44 1.2 psis ( 8) VCPLR V.C. Pressure Low Range 45 <2 psis (2102) VCPHR1 V.C. Pressure, High Range 1 46 <2 psis ( 102) VCPHR2 V.C. Pressure, High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level, Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level, Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate, N 54 5.0E4 epm ( 102) VCAPH2 V.C. Air Particulate, S 59 SE4 cpm ( 102) AEJRM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing)
Value Point Engin. Unite Status Narc Description 5 400 dcs. F (2102) TH1 Hot Leg Temperature, Loop 1 6 400 deg. F ( 102) TH2 Hot Leg Temperature, Loop 2 7 400 deg. F ( 102) TH3 Hot Leg Temperature, Loop 3 8 400 deg. F ( 102) TH4 Hot Leg Temperature, Loop 4 9 400 deg. F (2102) TCl Cold Leg Temperature Loop 1 10 400 dcs. F ( 102) TC2 Cold Les Temperaturc, Loor 2 11 400 deg. F ( 102) TC3 Cold Leg Temperature, Loop 3 12 400 deg. F ( 102) TC4 Cold Leg Temperature, Loop 4 1
l D.2-49 l TSL OBSERVER CUE CARDS Card Time No. Given 24 (Continued) 1330 III. SCI PARAMETERS Value Point Engin. Units Status Name Description 13 24 feet (2102) SGWRL1 Steam Generator Level, Loop 1 14 21 feet ( 102) SGWRL2 Steam Generator Level Loop 2 15 21 feet (2102) SGWRL3 Steam Generator Level, Loop 3 16 21 feet (2102) SGWRL4 Steam Generator Level, Loop 4 17 600 psig ( 102) SGpl SG Pressure. Loop 1 18 250 psig ( 102) SGP2 SG Pressure, Loop 2 19 250 psig ( 102) SGP3 SG Pressure, Loop 3 20 250 psig ( 102) SGP4 SG Pressure, Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 29 537 lbs/hr ( 102) SF2 Steam Flow, Loop 2 30 537 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 537 lbs/hr (2102) SF4 Steam Flow Loop 4 32 0 gpm (2102) FWF1 Feedwater Flow, Loop 1 33 125 spm ( 102) FWF2 Feedwater Flow, Loop 2 34 125 gp- ( 102) FWF3 Feedwater Flow, Loop 3 35 125 spm (2102) FWF4 Feedwater Flow, Loop 4 36 0 spm (A10A) AFWF1 Emer. Feedwater Flow Loop 1 37 0 spm (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 38 0 gp- (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 39 0 spm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 40 975 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 41 1.0 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 42 1.0 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 43 1.0 mR/hr (2102) SLRAD4 Steam Line Radiation, Loop 4 i l l
D.2-50 TSC OBSERVER CUE CARDS Time Card Given No. 1345 25
- 1. MCI PARAMETERS Value Description Point Engin. Units Status Name 120 inches (2102) PZRL Pressurizer Level, Wide Range 1
750 psig (2102) MCPRES1 Main Coolant Pressure, Loop 1 2 750 psig (2102) MCPRES2 Main Coolant Pressure, Loop 2 3 4 750 psig (2102) MCPRES3 Main Coolant Pressure, Loop 3 B) VCPLR V.C. Pressure, Low Range 44 1.2 pcit ( psig (2102) VCPHR1 V.C. Pressure. High Range 1 45 <2 psig ( 102) VCPHR2 V.C. Pressure, High Range 2 46 <2 51 0 feet (A10A) VCL1 V.C. Flood Level Channel 1 (A10A) VCL2 V.C. Flood Level, Channel 2 52 0 feet cpm (2102) VCAPM1 V.C. Air Particulate, N 53 3.0E4 cpm ( 102) VCAPM2 V.C. Air Particulate, S 54 5.0E4 59 IE4 cpm ( 102) AEJRM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing) Value Description l Point Engin. Unitt Statut Narc 5 390 deg. F (2102) TH1 Hot Les Temperature, Loop 1 6 390 deg. F ( 102) TH2 Hot Leg Temperature, Loop 2 7 390 deg. F ( 10i) TH3 Hot Leg Temperature, Loop 3 8 390 deg. F ( 102) TH4 Hot Leg Temperature, Loop 4 9 390 deg. F (2102) TC1 Cold Leg Temperature, Loop 1 10 390 deg. F ( 102) TC2 Cold Leg Temperature, Loop 2 11 390 deg. F ( 102) TC3 Cold Les Temperature, Loop 3 12 390 deg. F ( 102) TC4 Cold Leg Temperature, Loop 4 I (
D.2-51 o TSL OBSERVER CUE CARDS Time Card Given No. 1345 25 (Continued) III. SCI PARAMETERS Value Description Status Name Point Entin. Units (2102) SGWRL1 Steam Generator Level, Loop 1 13 24 feet ( 102) SGWRL2 Steam Generator Level, Loop 2 14 21 feet feet (2102) SGWRL3 Steam Generator Level. Loop 3 15 21 feet (2102) SGWRL4 Steam Generator Level, Loor 4 16 21 peig ( 102) SGP1 SG Pressure, Loop 1 17 575 psig ( 102) SGP2 SG Pressure, Loop 2 18 225 psig ( 102) SGP3 SG Pressure. Loop 3 19 225 SG Pressure, Loop 4 20 225 psig ( 102) SGP4 ( 102) SF1 Steam Flow, Loop 1 28 0 lbs/hr ( 102) SF2 Steam Flow, Loop 2 29 358 lbs/hr (2102) SF3 Steam Flow, Loop 3 30 358 lbs/hr (2102) SF4 Steam Flow, Loop 4 31 358 lbs/hr gpm (2102) FWF1 Feedwater Flow, Loop 1 32 0 spm ( 102) FWF2 Feedwater Flow, Loop 2 33 100 Feedwater Flow, Loop 3 34 100 gpr ( 102) FWF3 spm (2102) FWF4 Feedvater Flow, Loop 4 35 100 Emer. Feedwater Flow, Loop 1 36 0 spm (A10A) AFWF1 gpm (A10A) AFWF2 Emcr. Feedwater Flow, Loop 2 37 0 spm (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 38 0 spm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 39 0 mR/hr ( 102) SLRAD1 Steam Line Radiation Loop 1 40 970 Steam Line Radiation, Loop 2 41 1.0 mR/hr (AllA) SLRAD2 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 42 1.0 Steam Line Radiation, Loop 4 4? 1.0 mR/hr (2102) SLRADA
D. 2- 52 f TSC OBSERVER CUE CARDS Card Time No. Given 26 1415
- 1. MCI PARAMETERS Value Point Entin. Units Status Name Description 1 120 inchec (2102) PZRL Pressurizer Level, Wide Rangc 2 500 psig (2102) MCPRES1 Main Coolant Pressure, Loop 1 3 500 psig (2102) MCPRES2 Main Coolant Pressure, Loop 2 4 500 pcis (2102) MCPRES3 Main Coolant Pressure, Loop 3 44 1.2 psis ( 8) VCPLR V.C. Pressure, Low Raner 45 <2 psig (2102) VCPHR1 V.C. Pressure, High Range 1 46 <2 psig ( 102) VCPHR2 V.C. Pressure. High Range 2 51 0 feet (A10A) VCL1 V.C. Flood Level, Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level, Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate, N 54 5.0E4 cpm ( 102) VCAPM2 V.C. Air Particulate, S 59 1E4 cpr ( 102) AEJHM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing)
Value Point Engin. Unite Status Name Description 5 375 deg. F (2102) TH1 Hot Leg Temperature Loop 1 6 375 deg. F ( 102) TH2 Hot Leg Temperature, Loop 2 7 375 deg. F ( 102) TH3 Hot Leg Temperature, Loop 3 8 375 deg. F ( 102) TH4 Hot Les Temperature, Loop 4 9 375 deg. F (2102) TC1 Cold Leg Temperature, Loop 1 10 375 deg. F ( 102) TC2 Cold Leg Temperature, Loop 2 11 375 deg. F ( 102) TC3 Cold Leg Temperature, Loop 3 12 375 deg. F ( 102) TC4 Cold Les Temperature, Loop 4
D . 2- 5 3 TSL OBSERVER CUE CARDS Card Time No. Given 26 (Continued) 1415 III. SCI PARAMETERS Value Point Engin. Units Status Name Description 13 24 feet (2102) SGWRL1 Steam Generator Level, Loop 1 14 23 feet ( 102) SGWRL2 Steam Generator Level. Leor 2 ' 15 23 feet (2102) SGWRL3 Steam Generator Level, Loop 3 16 23 fect (2102) SGWRL4 Steam Generator Level, Loor 4 17 500 prig ( 102) SGpl SG Pressure, Loop 1 18 180 psig ( 102) SGP2 SG Pressure, Loop 2 19 180 psig ( 102) SGP3 SG Pressure, Loop 3 20 180 psig ( 102) SGP4 SG Pressure, Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 ! ( 102)
~
29 320 lbs/hr SF2 Steam Flow, Loop 2 30 320 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 320 lbs/hr (2102) SF4 Steam Flow, Loop 4 32 0 gpm (2102) FWF1 Feedwater Flow, Loop 1 33 100 gp- ( 102) FWF2 Feedwater Flow, Loop 2 , 34 100 gpr ( 102) FWF3 Fecdwater Flow Loop 3 35 100 gpm (2102) FWF4 Feedwater Flow, Loop 4 36 0 gpm (A10A) AFWF1 Emer. Feedwater Flow, Loop 1 37 0 gpm (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 38 0 spra (A10A) AFWF3 Emcr. Feedwater Flow, Loop 3 39 0 gpm (A10A) AFWF4 Emcr. Feedwater Flow, Loop 4 40 950 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 41 1.0 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 1 42 1.0 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 l 43 1.0 mR/hr (2102) SLRAD4 Steam Line Radiation, Loop 4 s I, 1
D.2-54 TSC OBSERVER CUE CARDS Card Time No. Given 1515 27 I. MCI PARAMETERS Value Name Description Point Entin. Units Status 1 120 inches (2102) PZRL Pressurizer Level, Wide Rantc 2 350 psig (2102) MCPRES1 Main Coolant Pressure, Loop 1 ' 3 350 psig (2102) MCPRES2 Main Coolant Pressure, Loop 2 4 350 psig (2102) MCPRES3 Main Coolant Pressure, Loop 3 4' 1.2 psig ( 8) VCPLR V.C. Pressure, Low Range 45 <2 psig (2102) VCPHR1 V.C. Pressure, High Range 1 46 <2 psig ( 102) VCPHR2 V.C. Pressure, High Range 2 51 0 fcet (A10A) VCL1 V.C. Flood Level, Channel 1 52 0 feet (A10A) VCL2 V.C. Flood Level, Channel 2 53 3.0E4 cpm (2102) VCAPM1 V.C. Air Particulate, N 54 5.0E4 cpm ( 102) VCAPM2 V.C. Air Particulate, S 59 1E4 cpm ( 102) AEJRM Air Ejector Radiation Monitor II. CHR PARAMETERS (Partial Screen Listing) Value Engin. Units Status Name Description Point 5 325 deg. F (2102) TH1 Hot Les Temperature, Loop 1 6 325 deg. F ( 102) TH2 Hot Leg Temperature, Loop 2 7 325 deg. F ( 102) TH3 Hot Leg Temperature, Loop 3 8 325 deg. F ( 102) TH4 Hot Leg Temperature, Loop 4 9 323 deg. F (2102) TC1 Cold Les Temperature, Loop 1 10 325 deg. F ( 102) TC2 Cold Leg Temperature, Loop 2 11 325 deg. F ( 102) TC3 Cold Les Temperature. Loop 3 12 325 deg. F ( 102) TC4 Cold Leg Temperature, Loop 4
D.2-55 TSL OBSERVER CUE CARDS Card Time No. Given 27 (Continued) 1515 III. SCI PARAMETERS Value Point Engin. Units Status Name Description 13 24 feet (2102) SGWRL1 Steam Generator Level, Loop 1 14 23 feet ( 102) SGWRL2 Steam Generator Level, Loop 2 15 23 feet (2102) SGWRL3 Steam Generator Level, Loop 3 16 23 feet (2102) SCWRL4 Steam Generator Level, Loop 4 17 350 psig ( 102) SGP1 SG Pressure, Loop 1 18 100 psig ( 102) SGP2 SG Pressure, Loop 2 19 100 psis ( 102) SGP3 SG Pressure, Loop 3 20 100 psig ( 102) SGP4 SG Pressure, Loop 4 28 0 lbs/hr ( 102) SF1 Steam Flow, Loop 1 29 145 lbs/hr ( 102) SF2 Steam Flow, Loop 2 30 145 lbs/hr (2102) SF3 Steam Flow, Loop 3 31 145 lbc/hr (2102) SF4 Steam Flow, Loop 4 32 0 gpm (2102) FWF1 Feedwater Flow, Loop 1 33 80 gpm ( 102) FWF2 Feedwater Flow, Loop 2 34 80 gpm ( 102) FWF3 Feedwater Flow Loop 3 35 80 gpm (2102) FWF4 Feedwater Flow, Loop 4 36 0 gpm (A10A) AFWF) Emer. Feedwater Flow, Loop 1 37 0 gpm (A10A) AFWF2 Emer. Feedwater Flow, Loop 2 38 0 gpm (A10A) AFWF3 Emer. Feedwater Flow, Loop 3 39 0 spm (A10A) AFWF4 Emer. Feedwater Flow, Loop 4 40 900 mR/hr ( 102) SLRAD1 Steam Line Radiation, Loop 1 41 1.0 mR/hr (AllA) SLRAD2 Steam Line Radiation, Loop 2 42 1.0 mR/hr (2102) SLRAD3 Steam Line Radiation, Loop 3 43 1.0 mR/hr (2102) SLRADA Steam Line Radiation, Loop 4
D.3-1 l SECTION D.3 l l OSC ! OBSERVER CUE CARDS l Csed No. Messar,e Time Given 1 o The Air Ejector Discharge sample Prior to analysis indicates the following 0835 results in uCi/ce: Xe - 133 : 2.0 x 10-3 Ze - 135 : 4.4 x 10-5 Ze - 133m : 2.2 x 10-5 Kr 85 : 4.4 x 10-5 Kr 88 : 2.2 x 10-5 2 o The #2, 3, and A Blowdown sample 0835 analysis will be "as read." The to
#1 Blowdown sample results will be 0915 as follows:
1-131 : 5.4 x 10-5 uCi/cc 3 o Air samples and dose rate surveys 0845 will indicate "as read." to 1045
- 4. o The following information is to be 0915 verbally supplied to the OSC to personnel at the appropriate time 1015 for the indicated samples.
D.3-2 Cerd No. Message Time Given
- 4. A. The Main Coolant sample analysis (cont'd) will indicate the following, at the appropriate time in uCi/cc for each isotope:
! Scenario Clock l Isotope Time i 0845 0920 0935 0950 1015 Xe133 93.0 186.0 232.5 302.3 372.0 Xe135 2.0 4.0 5.0 6.5 8.0 Xe133m 1.0 2.0 2.5 3.3 4.0 Kr 85 2.0 4.0 5.0 6.5 8.0 Kr 88 1.0 2.0 2.5 3.3 4.0 I-131 0.1 0.4 0.64 0.83 1.0 Total 100.0 200.0 250.0 325.0 400.0 B. The air ejector discharge sample 0915 analysis will indicate the to following results in uCi/cc at 1015 the appropriate time. Scenario Clock Time Isotope 0920 0935 Xe133 8.3 x 10-3 5.9 x 10-2 Ke135 1.8 x 10-4 1.3 x 10-3 Xe133m 8.9 x 10-5 6.4 x 10-4 Kr85 1.8 x 10-4 1.3 x 10-3 Kr88 8.9 x 10-5 6.4 x 10-4 Total 8.89 x 10-3 6.4 x 10-2 Isotope 0950 1015 Xe133 7.4 x 10-2 6.0 x 10-2 Xe135 1.6 x 10-3 1.3 x 10-3 l Xe133m 7.9 x 10-4 6.5 x 10-4 l Kr85 1.6 x 10-3 1.3 x 10-3 Kr88 7.9 x 10-4 6.5 x 10-4 Total 7.94 x 10-2 6.5 x 10-2 l l t
D.3-3 Card No. Message Time Civen
- 4. C. The PVS gas sample will show the (cont'd) following results at the appropriate time in uCi/cc:
Scenario Clock Time Isotope 0920 0935 Ke133 7.7 x 10-6 1,o x 10-5 Ie135 1.6 x 10-7 2.2 x 10-7 Ie133m 8.3 x 10-8 1.1 x 10-7 Kr85 1.6 x 10-7 2.2 x 10-7 Kr88 8.3 x 10-8 1,1 x 10-7 Total 8.3 x 10-6 1,1 x 10-5 Isotope 0950 1015 Xe133 9.6 x 10-6 7.9 x 10-6 1e135 2.0 x 10-7 1.7 x 10-7 Xe133m 1.0 x 10-7 8.5 x 10-8 Kr85 2.0 x 10-7 1.7 x 10-7 Kr88 1.0 x 10-7 8.5 x 10-8 Total 1.03 x 10-5 8.5 x 10-6 D. The following table shows the results 0915 of the #1 Blowdown sample analysis and to the condenser condensate sample 1015 analysis in uCi/ce: 1-131 Concentration Scenario Clock Time 0920 0935 0950 1015
#1 Blowdown 4 x 10-4 6.4 x 10-4 8.3 x 10-4 1.0 x 10-3 Sample Condenser 1.0 x 10-4 1.6 x 10-4 2.0 x 10-4 2.5 x 10-4 l Condensate
D.3-4 Card No. Message Time Given
- 4. E. The following shows dose rates at the PAB (cont'd) sample sink for Primary Coolant Samples and Blowdown samples:
General Hot Spots i Time Area Dose Rate. R/h R/hr ! Prior l 0915 0.5 1.0 1.0 0915 2.0 0935 1.25 2.5 0950 1.6 3.0 1015 2.0 4.0 1045 2.5 5.0 F. Dose rates from 100cc Main Coolant 0915 ' samples at 1 foot: to 1015 Time Dose Rate, mR/hr 0815 30 0845 30 0920 60 0935 75 0950 100 1015 120 1045 130 1145 130
- 5. o The gamma survey indicates that 1045 the OSC is in a 50 mR/hr field, to Air sample results are "as read." 1245
- 6. o The OSC POD results will be (See below) l as follows:
Time Dose Rate, mR/hr 1 0815-1045 0 1045-1115 50 1115-1145 100 1145-1215 150 1215-1245 200 1245-1315 250 1315-Termination 250
D.3-5 Card No. Message Time Given
- 7. A. The VC air concentration analysis 1115 will show the following results: to 1215 Isotope Concentration, uCi/cc Xe-133 1.8 x 10-2 Xe-135 4.0 x 10-4 Xe133m 2.0 x 10-4 Kr-85 4.0 x 10-4 Kr-88 2.0 x 10-4 I-131 1.0 x 10-6 B. Upon entry into the VC, the charging floor dose rates will be 140 mR/hr. ,
C. Once in the loop the survey results will indicate: 30 R/hr general area 75 R/hr at the loop isolation valve (work area)
- 8. A. The air ejector discharge sample 1045 analysis will indicate the following to results in uCi/ce: 1245 Scenario Clock Time Isotope 1045 1145 Xe133 5.3 x 10-2 1.6 x 10-2 Xe-135 1.1 x 10-3 3.6 x 10-3 Xe-133m 5.7 x 10-4 1.8 x 10-4 l Kr-85 1.1 x 10-3 3.6 x 10-3 Kr-88 5.7 x 10-4 1.8 x 10-4 Total 5.7 x 10-2 1.76 x 10-2 B. The PVS gas sample analysis will indicate the following results in uci/ce:
Isotope 1045 1145 Xe-133 6.9 x 10-6 2.1 x 10-6 Xe-135 1.4 x 10-7 4.6 x 10-8 Xe-133m 7.4 x 10-8 2.3 x 10-8 Kr-85 1.4 x 10-7 4.6 x 10-8 Kr-88 7.4 x 10-8 2.3 x 10-8 Total 7.4 x 10-6 2.3 x 10-6
D.3-6 Card No. f.essage Time Given
- 8. C. The #1 Blowdown sample and the Condenser 1045 (cont'd) Condensate sample will indicate the to following results in uCi/ce: 1245 I-131 Concentration (uci/ce)
Scenario Clock Time 1050 1145
#1 Blowdown Sample 1.1 x 10-3 1.1 x 10-3 Condenser Condensate 2.7 x 10-4 2.7 x 10-4 D. The Main Coolant Sample Analysis will indicate the following results in uCi/ce:
~
Scenario Clock Time Isotope 1045 1145 Xe133 400.0 400.0 Xe-135 8.6 8.6 Xe-133m 4.3 4.3 Kr-85 8.6 8.6 Kr-88 4.3 4.3 1-131 1.1 1.1 Total 430.0 430.0
- 9. o Each VC team member should estimate their Data is stay time in the VC, then calculate their issued upon POD result using the conversion 1.25 Rem / the return of minute in the VC area. VC or safety valve repair teams to the OSC.
o Each safety valve team member should estimate their stay time in the valve - area then calculate their POD result using the conversion 20 mrem / minute in the valve area. o Each safety valve team should estimate their stay time in the valve, and then calculate their contamination level using the conversion 2,000 dpm/100 cm2 per minute in the valve area.
D.3-7 Message Time Given C_ard No.
- 10. o All habitability checks of the OSC Issue after made after 1300 should be reported 1300.
"as read".
Issue to any
- 11. o General Area contamination levels observed in the yard area in the down- off-site wind direction are observed to be monitoring between 100 dpm/100cm 2 to team 10,000 dpm/100cm2 dispatched to survey the yard area after 1245.
l i
D.4-1 SECTION D.4 EOF OBSERVER CUE CARDS Cred No. MesseRe Time Given
- 1. o All EOF habitability monitors are Before 1045 "as read."
- 2. o SPDS data from Section D.2 will be provided. When SPDS activated
- 3. o Meteorological conditions are: 1045 A. Upper wind speed average (UPWSAV) = 3.0 mph B. Upper wind direction average (UPWDAV) - 750 C. Delta Temperature (UPDTAV) = -1.40F D. Lower wind speed average (LOWSAV) = 2 mph E. Lower wind direction average (LOWDAV) = 750
- 4. o EOF habitability monitors indicate the 1100 following: to 1300 A. Whole body dose rate inside EOF - 1 mR/hr.
(Plume front reaches EOF by 1100, accumu-lated WB dose should be based on this dose rate and total exposure time to plume.) B. Air sampling results: Sample Duration RM-14/HP210 SAMII _ (minutes) CPM CPM 5 <1 4 15 <1 12 30 1 25
- 5. o SAM II results from field iodine samples will indicate epm 20 times the epm above background as measured with the HP-210/RM-14.
D.4-2 SECTION D.4 EOF OBSERVER CUE CARDS Cerd No. Message Time Given
- 6. o I-131 deposition only observed on-site in After 1245 areas close to release point. Deposition range from:
A. 10,000 dpm/100 cm 2 near secondary stack to: B. 100 dpm/100 cm2 at inner fence boundary along plume centerline.
- 7. o Environmental TLD results as a function (See Table of time of removal (if TLD's read prior Below) to 1045, then all TLD's indicate "as read").
I l
D.4-3 1045-1115 1115-1145 1145-1215 1215-1245 Location (mR) (mR) (mR) (mR) GM-1 0.5 1.5 2.5 3.5 GM-3 5 10 15 20 GM-5 10 20 30 40 GM-8 0 0 1 2 GM-11 0 0 12.5 27.5 GM-13 0.1 0.3 0.5 0.6 GM-14 0 0.1 0.2 0.2 GM-15 0.2 0.5 0.8 1 GM-16 0.3 0.7 1 1 GM-17 10 20 30 40 GM-18 750 1500 2250 3000 GM-19 35 70 105 140 GM-20 2.5 5 7.5 10 GM-21 0.25 0.5 0.8 1 I
B.3-18 Control Room Data 1115 Parameter Observed Values
<1 R/HR VC AARM 100 MR/Hk Turbine Hall AARM 0 GPM Aux. FW Flow 1 CPM Aux. FW Flow 2 0 0 GPM Aux. FW Flow 3 0 GPM Aux. FW Flow 4 106 CPM Bleedline Mon. Feet Dcmin. Water TK-1 12 Hot Les Injection Flow 0 Inches 150 GPM HPSI Header Flow 1.300 PSI HPSI Header Pressure 800 PSI LPSI Header Pressure LPST Level 30 Inches 10 PSI LPST Pressure 1,300 PSI MC Pressure MC Syc. Leak AP Monitor S 50,000 CPM MC Sys. Leak AP Monitor N 30,000 CPM 450 CPM PVS Gas Mon.
75 CPM PVS Iodine Monitor 80 CPM PVS Part. Mon. Prim. Water TK-39 23 Feet Pze. WR Level 100 Inchec 1,300 PSI Pzr. Pressure Subcooled Margin Monitor (DEC) 112 DEC (F) Subcooled Margin Monitor (PSI) 815 PSI 920 PSI S/G Pressure 1 485 PS1 S/G Pressure 2 S/G Pressure 3 485 PSI S/G Pressure 4 485 PSI S/G 1 Blowd:wn Out of Service CPM 900 CPM S/G 2 Blowdown S/G 3 Blowdown Out of Service CPM 1,100 CPM S/G A Blowdown S/G WR Level 1 24 Feet S/G WR Level 2 21 Feet S/G WR Level 3 21 Feet S/G WR Level 4 21 Feet SI Tank Level 23.6 Feet Loop 1 TC WR 455 DEG (F) Loop 2 TC WR 455 DEG (F) Loop 3 TC WR 455 DEG (F) Loop 4 TC WR 455 DEG (F) Loop 1 TH NR 455 DEG (F) Loop 2 TH NR 455 DEG (F) Loop 3 TH NR 455 DEC (F) Loop 4 TH NR 455 DEG (F) Tcst TK Discharge O CPM 10 Inches VC Drain Tk Level PSI Vapor Container Pressure 1.2 1,000 MR/hr Steam Line Radiation 1 MR/hr Steam Line Radiation 2 10 10 MR/hr Steam Line Radiation 3 MR/hr Steam Line Radiation 4 10 Air Ejection Monitor 106 CPM _ - _ - _ - _ _ - _ _ _ _ _ _ _ _ _ _ _}}