ML20069N606
| ML20069N606 | |
| Person / Time | |
|---|---|
| Site: | River Bend  |
| Issue date: | 01/30/1991 |
| From: | GULF STATES UTILITIES CO. |
| To: | |
| Shared Package | |
| ML20069N604 | List: |
| References | |
| NUDOCS 9101020108 | |
| Download: ML20069N606 (538) | |
Text
._ -.. _ _ _ .._ . - . . . .
i l
?
QULF STATES UTluTIES ..
RIVER BEND STATION 1991 EMEROENCY PPEPAREDNESS PRACTICE EXERCISE. >
JANUARY 30,1991 i
4 1
_m S10[01olbT .Qqp 910102010s 901220 ?"
f ADOCK 0500 5g j.
-,n,-.-----,--~~,-,.----. . - - - - , - ~ ~ . - . . - ~ . - - . -..---.- - - , . . . . , , ..~---
r.
~
l RIVER BEND STATION 1991 EMEROENCY PREPAREDNESS PRACTICE EXERCISE l
I
. TABLE OF CONTENTS EAER PARTI GENERAL INFORMATION 1.0 it&CDUCTION 11 2.0 S.RQPJ AND OBJECTIVES 21 2.1 Scope 21 !
2.2 - Objectkos 21 P.l:.1 . Gulf States Utilities dbjectives 21 2.2.2 Local and State Government Objecties 23 2.3 Simulations -
3.0 EXERCISE INFORMATION 31.
3.1 Conduct of the Exercise 31 !
3.2 Precautions and Umitations 32 i
4.0 CONTROL i FR INFORMATION 41 4.1 General Information 41 4.2 ~ Controller instructions 41 4.3 Evaluation Instructions 42 4.4 Personnel Assignments 43 5.0 PLAYER INFORMATION 51 5.1 General information 51 5.2 Player Guidelines 51 6.0 SCHEDULE OF EVENTS 61 l
t- >
RIVER BENJ STATIDN 1991 EMERGENCY PREh'9E" NESS PRACTICE EXERCISE I.6HLE OF CONTENTS (Cont.)
PJtat PART11 SCENARIO INFORMATION 7.0 EXERCISE 4CENARIO 71 7.1 Scena.5 Timeline .
7.2 Master I! vents Summa y 7.3 Data Trexis 7.4 Assumptions 8.0 MESSAGES AND PLANT DATA St%gIS 8-1 8.1 Messages 8.2 Supplemental Scenarios 9.0 BADIOCHEMISTRY SAMPLE.,68.Q,Qtt$1E RADI ATION DATA 9-1 9.1 Radiochemistry Sampie Data 9.2 Area Radiation Data 9.3 Process Monitor Trend Cats 10.0 METEOROLOGICAL AND RAQlOACTNE RELEASE DATA 10 1 10.1 Radioactive Releasa Information 10.2 Meteorological Data 10.3 Offsite Fiold Data 10.4 Deposition Data 10.5 Plume Position Maps 10.6 EDP Doso Projection and Protective Action Recommendation 11.0 JOINT INFORMATION CENTER MATERI AL 11 1
.~- J 4 _ A . -- , e _ e A_ a t
l l
i t #
SECTION
1.0 INTRODUCTION
I 1
l
RIVER BEND STATION 1991 EMEROENCY PREPAREDNESS PRACTICE EXERCISE
1.0 INTRODUCTION
The River Bend Station (RBS), owned and operat'A by Gulf States Utilities (GEU), conducts a practico exercise in preparation for the an; ual joint Emergency Plan Evaluated Exercise with the State of Louisiana and the Panshes of East and West Feliciana, East and West Baton Rouge, and Pointe Coupee. These exercises are conducted for the purpose of demonstrating that the health and safety of the residents of the five parishes can be protected in the event of a radiological emergency at the plant.
The practice exercise will be conducted as outiined in Section 6 and will include
- full mobilization of GSU, State, and Parish agencies and resources, in order to demonstrate the capabilities to joint!y respond to an accident at the plant. The exercise will demonstrate that emergency response organizations are adequately trained to respond according to current plans and procedures. Exercise participants will not have prior knowledge of the scenario, i
The exercise will be observed and critiqued by evaluators assigned by GSU. A critique will be conducted following the exercise to discuss exe*cise findings iderrufied. The time schedule for the critique is identified in Section 6 and will be attended by exercise Controllers, Evaluators and key exercise participants. All exercise findings will be charac'irized and documented and aubsequent resolution of emstgency preparedncss deficiencies shall be assured by management.
l This manual has been prepared to assist exercise Controllers, Evaluators and Observers in the conduct and evaluation of the exercise. This manual contains all information and data i
necessary to properly conduct the exercise in an efficient and coordinated manner.
l 11 a
l SECTION 2.0 SCOPE AND OBJECTIVES 4
M l
l RIVER SEND STATION 1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE 2.0 S.fiQP.f&Q_QRJECI1VES 2.1 SCOPE The 1991 River Bend Station Emergency Preparedness Practice Exercise, to be conducted on January 30,1991, WWI test and provide the opportunity.to evaluate Gulf States Utilities' emergency plan and procedures as well as those of the State and local parishes. It will also test the emergency response organizations' ability to assess and respond to emergency conditions and coordinate efforts with other agencies for protection of the health and safety of the 'public.
The scenario will depict a simulated sequence of events, resulting in sufficiently degraded conditions to warrant the mobilzation of GSU, State and local agencies to respond to the emergency. Whenever practical, the exercise will incorporate provisions for ' free play" on the part of the participants.
2.2 OBJECTIVES The River Bend Station 1991 Practice Exercise objectkes are based on the Nuclear Regulatory Commission (NRC) requirements delineated in 10 CFR 50.47 and 10 CFR 50, Appendix E. Additional guiduece is provided in NUREG 0654, FEMA-REP 1, Revision 1.
The major oolective of the exercise is to evaluate the integrated capability of a major portion of the basic elements identified in the emergency plans and procedures. The specific obbetNes of the exercise to be demonstrated are listed below.
2.2.1 Oulf States Utilities Oblectives -
, A. Demonstrate the ability to assess initial values of plant system and effluent parameters and provide continuing assessment of those pararneters throughout the course of the accident.
l l
21 J
a
RIVER BEND STATION 1991 EMERGENCY PREPAREDNESS PRACTICE E..tERCISE B. Demonstrate the ability to determine which emergency action level has been reached and property classify tFe emergency using the emergency cction levels identified in emergancy procedures.
C. Demor strate the ability to alert, notify and roob'lize emergency response pert,onnel, and facilaies, sord out hittal emergency messages, and wam or advise indMduals who r,say be in areas within the owner controlled area as necessary, D. Demonstrate the reliability ano effective use of onsite and offsite emergency communications equipment and procedures E. Demonstrcte the ability to control radiological exposures, determine doses, control contamination, perform dose assessment, and monitor individuals.
F. Demonstrate the ability to make the appropriate protective action recommendations to State and local authorities utillzing all relevant factors.
G. Demonstrate the line of succession for the Emergency Director /
Recovery Manager at the required emergency classification.
H. Demonstrate the ability to activate Security / Fire Brigade in response to plant condalons.
- l. Demonstrate the capability of the first responders and search and rescue teams.
J. Demonstrate the ability to handle a contaminated injured Individual and transport to a medical support facility.
2-2
p i
RIVER BEND STATION !
1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE i
K. Demonstrate the ab8My of Sectxtty personnel to provide ptompt access for emergency equipment and support.
L Demonstrate the ab8ky to determine and issue potassium iodide (Kl).
1 M. Demonstrate the abuity to perform accountabilty of gnshe personnel .
4 within 30 minutes of the start of the emergency and account for aN onsite personnel continuously thereafter.
N. Demonstrate the abuity t4 perform recovery operations.
O. Demonstrate the abuRy to fully activate the Joint information ;
Center (JIC).
P. Demonstrate the abuity to control rumors.
2.2.2 Local.and State.Dovemmerd Objectives The RNor Bond Station 1991 Emergency Preparedness Exercise objectives for the Parishes and State of' Louisiana are based on the Federal i Emergsney Management Agency (FEMA) requirements delineated in NUREG 0654, FEMA-reb 1, Flev.1 and Guioance Memorandum Ex 3, .
March 1988. The specific objectives of the exercise to be demonstrated -
are listed below.=
Obiectives for Parish EOC, a l A. Demonstrate the abHity to monitor, understand and use emergency
- classification levels (ECL) through the appropriate implementation
- of emergency functions and actkities corresponding to ECL's as
- required b'y the scenario. The four ECL's are: Notification of Unusual Event, Alert, Site Area Emergency and General Emergency.
23 J
PlVER BEND STATION 1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE D. Demonsttate the abilty to fully alert, mobillze and actWte personnel for both facility and fold-based emergency functions.
C. Demonstrate tN ablity to direct, coordinate and contrd emergency activittes.
D. D~nonstrate the abilty to communk.ste wth al appropriate locations, organizations and field personnel.
E. Demonstrate the adequacy of facIRies, equipment, displays and other materl.2 to support emergency operations.
F. Demonstrate the abilty to continuody monitor and control emergency worker exposure.
G. Demonstrate the abuity to initially alert the public within the 10 mle EPZ and begin dissoninstion of an instructional most. age within 15 minutes of a decision by appropriate State and/or local official (s). -
H. Demonstrate the abuity to coordinate the formulation and dissemination of accurate information and instructions to the public in a timely fashion after the initial alert and notmcation has occurred.
- l. Demonstrate the abRity to brief throdia in an accurate, coordinated and timely manner.
J. Demonstrate the abaity to establish and operate rumor control in a coordinated and timely fashion (Media briefings and interface are conducted at the Joint Information Center (JIC) at River Bend Station (RBS). Rumor control is also conducted at the JIC through coordination between the Spokesperson and the EOC.).
24
- _ . _ . . _ . _ . . _ . _ _ _ _ _ _ . . . - -.. ---~ _ - - - - - - - ~ - J
RIVER BEND STATION 1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE K. Demonstrate the ability to rnake the decision to recommend the use of Kl to emergency workers and institutionallzed persons, based 9 predetermined enteria, as well as to distribute and administer it once the decision is made, if necessitated by radiciodine releases.
L Demonstrate the ability and resources necessary to Implement appropriate protective actior.s for the impacted permanent and transient plume EPZ population (inciu: ling transit <!ependent persons, special needs popdations, handicapped persons and institutionaltzed persons).
M. Demonstrate the ability and resources necessary to impioment appropriate protective actions for school children within the plume EPZ ,This objective will be demonstrated within the EOC only (not outside of it).).
N. Demonstrate the organizational ability and resources necessary to control evacuation traffic 6ow and to control access to evacuated and sheltered areas (EOC staff discussions will Include overall traffic control / access control prchlems r.nd establishment. But, only one traffic control point / access control point will be established in each parish.).
O. Demonstrate the ability to ident#y the need for and call upon Federal and other outside support agencies' assistance.
P. Demonstrate the ability to determine appropriate measures for controlled reentry and recovery based on estimated total population exposure, available EPA PAG's and other relevant factors.
O. Demonstrate the ability to implement appropriate measures for controlled reentry and recovery.
I 2-S a
RIVER BEND STATION 1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE i
Oblectives for Mon /Decon Centers A. Demonstrate the ability to fully alert, mobuize and activate personnel for both facuity arxl field-based einergency functions. .
B. Der mstrate the abRy to communicate with an appropriate locations, organizations and field personnel.
C. Demonstrate the ability to continuously monitor and control-emergency worker expos'ure.
D. Demonstrate the adequacy of facuities, equipment, supplies,:
procedurm and personnel for decontamination of emergency workers, equipment and vehicles and for waste disposal.
QbJtetives for Centroolex _R.gceotion/Cere Centers A. Demonstrate the ablity to fully alert, mobilize and activate personnel 1 for both facaity and field based emergency functions.
B. Demonstrate the ablity to communicate with au appropriate locations, organtrations and field personnel.
C. ' Demonstrate the abHity to continuously monitor and control energency worker exposure.
D. Demonstrate the adequacy of procedures, facilities, equipment and personnel for the registration, radiological monitoring and decontamination of evacuees.
l L 2-6 L
s_ ,
RIVER BEND STATION 1991 EMERQENCY PREPAREDNESS PRACTICE EXERCISE E. Demonstrate the adequacy d facIlties, equipment and personnel for congregate are of evecuees (This objectke is to be demonstrated <
by walk throughs and discussions at the RNorside Cen.roplex and h ter) -School, by the Red Cross and Scho i staff that would e operate the center,).
F. Demonstrate- the adequacy of faculties, equipment, supplies, =
procedures and personnel for decontamination of emergency workers, equipment and vehicles and for waste disposal. .
OblectNes for West Feliciana Honoital & Ambgence Service A. Demonstrate the ability to fully alert, mobHize and actkate personnel for both facility and field-based emergency functions.
B. Demonstrate the ab8ity '.o communicate with at appropriate locations, organizations and field personnel.
C, Demonstrate the abGity to continuously monitor and control emergw worker exposure.
D. Demonstrate the adequacy of vehicies, vouipment, procedures and personnel for - transporting contaminated, -. Injured or exposed individuals.
r E. Demonstrate the adequacy of medical facilities equipnwnt, procedures and personnel for handling contaminated, injured or -
exposed individuals.
1 Objectives for State.fQQ A. Demonstrate the ability to monitor, understand and use emergency-classification levels (FOL) through the appropriate implementation 27 l
aa...as. m .e.- - .v.2--- a.- + . -. --A -..--,. ,,a 4- as_ a_ a ...u . - ._ .i - ag l
RIVER BEND STATION-1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE of emergency functions and actMties conesponding to ECL's as required by the scenario. The four ECL's are: Notification of Unusual Event, Alert, Site Area Emergency and General Emergency.
B. Demonstrate the abuity to fully alert,' mobilize and activate personnel for both facDity and f eid based emergency furwtions. - .
C. Demonstrate the abi!Ry to direct, coordits a and control emergency activities.
D. Demonstrate the ablity to communicate with all appropriate locations, organizations and field personnel.
E. Demonstrate the adequacy of factities, equipment, displays and other -
materials to support emer0ency operations.
F. Dernonstrate- the abalty to make appropriate protective action decisions, based on projected or actual dosage, EPA PAG's, availability of adequtte shelter, evacuation time estimates and other relevant factors.
G. Demonstrate the ability to initially alert the public within the 10 mile EPZ and begin dissemination of an instructional message within 15 minutes of a decision by appropriate State and/or local official (s).
H. Demonstrate the ability to coordinate the formulation and dissemination of accurate information and instructions to the public in a timely fashion afterine initial alert and notification has occurred.
- l. Demonstrate the ability to brief the media in an accurate, coordinated =
and timely manner (EOC staff discussions willinclude overall traffic 2-8
-m ,i% --%.++ -g -* _ _ _ J se'*_ -- _ __ ___+ _
RIVER BEND STATION 1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE control / access control problems and establishment. But, only one traffic control point / access control point will be established in each parish.).
J. Demonstrate the ability to establish and operate rumor control in a coordinated and timely fashion (Media briefings and interface are conducted at the Joint information Center (JIC) at River Bend Station (RBS). Rumor control is also conducted at the JIC through coordination between the Spokesperson and the EOC.),
K. Demonstrate the ability to make the decision to recommend the use of Kl to emergency workers and institutionalized persons, based on predetermined criteria, as well as to distribute and administer it once the decision is made, if necessitated by radiolodine releases.
L Demonstrate the ability to identify the need for and call upon Federal and other outside support agencies' assistance.
1 M. Demonstrate the ability to determine appropriate measures for controlled reentry and recovery based on estimated total population expostr9, available EPA PAG's and other relevant factors.
N. Demonstrate the ability to implement appropriate measures for controlled reontry and recovery.
Objectives for LRPD. OPNS-RBNS EOF A. Demonstrate the ability to monitor, understand and use emergency classification level.s (ECL) through the appropriate implementation of emergency functions and activities corresponding to ECL's as required by the scenario, The four ECL'sare: Notification of Unusual Event, Alert, Site Area Emergency and General Emergency.
2-9
RIVER BEND STATION 1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE B. Demonstrate the ability to fully alert, mobilize and activate personns' for both facility and field based emergency functions.
C. Demonstrate the abalty to direct, coordinate and control emergency 9ctivities.
D. Demunstrate the oblity to communicate with all appropriate locations, organizations and field personnel.
E. Demonstrate the adequacy of faclities, equipment, displays and o[her materials to support emergency operations.
F. Demonstrate the ability to continuously monitor and control emergency worker exposure.
G. Demonst.7to the ab0ity, within the pluma exposure pathway, to project dosage to the public via plume exposure, based on plant and field data.
H. Demonstrate the ability to make appropriate protectke action decisions, based on projected or actual dosage, EPA PAG's, availability of adequate shelter, evacuation time estimates and other relevant factors.
- 1. Demonstrate the ability to initially alert the public within the 10 mile EPZ and begin dissemination of an instructional message within 15 minutes of a decision by appropriate State and/or local official (s).
J. Demonstrate the ability to coordinate the formulation and dissemination of accurate information and instructions to the public in a timely fashion after the initial alert and notification has occurred.
2 - 10
RNEA BEND STATION 1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE K. Demonstrate the ability to make the decision to recommend the use of Kl to emergency workers and institutionaltzed persons, based on predetermined criteria, as wet! as to distribute and administer it once the decision is made, if necessitated by radiolodine releases.
L Demonstrate the ability to identify the need for and call upon Federal and other outside support agencies' assistance, M. Demonstrate the ability to determine appropriate measures for controlled reentry and recovery based on estimated total poputa0on exposure, available EPA PAG's and other relevant factors.
N. Demonstrate the ability to implement appropriate measures for controlled reentry and recovery.
Obiectives for t.RPD Field Teams A. Demonstrate the ability to funy alert, mobilize aad activate personnel for both facility and field-based emergency functions.
B. Demonstrute the ab0ty to communicate with all appropriate locations, organizations and field personnel.
C. Demonstrate the ability to continuously monitor and control emergency worker exposure.
D. Demonstrate the appropria'.e equipment and procedures for determining field radiation measurements.
E. De nonstrate the appropriate equipment and procedures for the measurement of airborne radiciodine concentrations as low as 10~' microcurie per cc in the presence of noble gases.
2 11
RIVER BEND STATION 1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE F. Demonstrate the ability to obtain samples of particulate activity in the airborne plume and promptly perform laboratory analyses.
G. Demonstrate the appropriate use of equipment and procedures for collection and transport of samples of vegetation, food crops, rrdik, meat, poultry, water and animal feeds (indigenous.to the area ard stored).
Objectives for LRPD Lab Operatiens A. Demonstrate the abHity to fully alert, mobVize and activate personnel for both facility and field-based emergency functions.
B. Demonstrate tho abaity to communcate with all appropriate locations, organizations and field personnel.
C. Demonstrate the appropriate lab operations and procedures for measuring and analyzing samples of vegetation, food crops, milk, meat, poultry, water and animal feeds (indigenous to the area and stored).
Objectives for JIC A. Demonstrate the ability to fully alert, mobilize and activate personnel for both facility and field-based emergency functions.
B. Demonstrate the ablity to communicate with all appropriato locations, organizations and field personnel.
C. Demonstrate the adequacy of factities, equipment, displays and other materials to support emergency operations.
2 - 12
RIVER DEND STATION 19e' EMERGENCY PREPAREDNESS PRACTICE EXERCISE D. Demonstrate the ability to coordinate the formulation and dissemination of accurate information and instructions to the public in a timely fashion after the initial alert and notification has occurred.
E. Demonstrate the ability to brief the media in an accurate, coordinated and timely manner.
F. Demonstrate the ability to establish and operate rumor control in a coordinated and timely fashion (Media briefings and interface are conducted at the Joint Information Center (JIC) at River Bend Sta0on (RBS). Rumor control is also conducted at the JIC through coordination between the Spokesperson and the EOC.).
G. Demonstrate the ability to maintain staffing on a continuous 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> basis by an actual shift change.
2.3 SIMULATIONS o Decontamination of onsite emergency workers and equipment will be simulated, o Anti contamination clothing will be worn, as deemed necessary by players, in response to simulated scenario conditions; however SCBAs will be worn and Dat activated.
o Repair activities veill be simulated.
o Recovery actions will be limited to planning discussions.
o Actual plant coolant and containment atmosphere samples will rot be drawn.
2 13
o e
e SECTION 3.0 EXERCISE INFORMATION i
l l
l l
l
l.
I RIVER BEND STATION
~
1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE i
3.0 EXERCISE INFORMATION
'3.1 CONDUCT OF THE EXERCISE The exercise will simulate an abnormal radiological incident at the River Bend Station.
The effectiveness of selected organizations, pe.7onnel and functions of the appropriate Emergency Plans and implementing Procedures will be demonstrated.
The simulated emergency wWI then be terminated. The Racovery Phase will be initiated, and the Exercise wW1 then be concluded.
Emergency response ' actions during the simulated emergency WWI include:
recognition and classification of emergency conditions; personnel accountabuity; search and rescue; Protected Area evacuation; assessment of onsite/o8fsite radiological consequences; alert / notification and mobuization of emergency response organ!zations; implementation of in-plant corrective actions, activation / operation of emergency response facuities and equipment; preparation of reports, messages, and record keeping; recommendation of protective actions (if necessary), termination of the emergency condition and limited recovery /rsentry discussions.-
The Simulator will be the central point for distribution of exercise me'ssages and the
. key- to ensuring that the Exercise progresses on schedule. Simulated plant
. parameters and annunciators wGI be provided to the Control Room operators using message forms and plant data sheets. A wide variety of plant information is provided so that at no time will the messages prompt the players or provide undue assistance in recognition of events. Information available on SPDS WHI also be provided in the TSC and the EOF where output consoles are located. Contingency messages (denoted by an 'x' after the message number) are delivered only when conditions described in the controller notos have been met.
Radiological and meteorological data (presented in Sections 9.0 and 10.0) and information included in the supplemental scenarios (Section 8.2) will be disseminated by controllers when players demonstrate the capability to obtain the informa'*. irom appropriate sources. At no time, unless noted specifically as an exception, will 3-1
RIVER BEND STATION 1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE information be interjected at a point where it would not be available in a real emergency. .The Lead Controllers may interject other information or change a message to ensure that the Exercise progresses as planned.
The Exercise Players are expected to ' free play" the scenario to the extent practical.
If correctke s;tions are postulated that wou;d terminate the emergency, they should .
be identified to the Lead Controller in the affected facility, so that the scenario wul progress as designed. Notifications of, and contact with, supervisors, plant management, and offsite agencies will be made in accordance with the Emergency Plan Implementing Procedures. No simulations are to be allowed unless specifically noted in the Exercise Manual or directed by a Controller for scenario purposes.
3.2 PRECAUTIONS AND LIMITATIONS This rection provides information for all exercise Controllers and Observers related to the rules and guidelines to be followed throughout the conduct of this Exercise.
Prior to initiation of the Exercise, a pre-exercise briefing will be held to review the entire exercise process with all the Exercise Controllers and Observers.
o Should at any time during the course of the conduct of this Exercise, an actual emergency situation arise, all activities and communications related to tho Exercise will be suspended. It will be the responsibility of any Exercise Controller or Observer that becomes aware of an actual emergency to suspend exercise response in his/her immediate stea und to inform the Lead Exercise Controller of the situation. Upon notification of an actual emergency, the Lead Exercise Controller may notify all other Controllers to suspend all exercise
, activities.
o Should, at any time during the course of the conduct of this Exerciso an exercise Controller or Observer witness an exercise participant undertai(e any L action which would, in the opinion of the Controller, place either an individual 1
3-2
i RIVER BEND STATION 1991 EMERGENCY PREPAREDNESS PRAC11CE E*.1.801SE or component in an unsafe condition, the Controller is responsible for intervening in the Individual's actions and terminating the unsafe activity immediately.
o All repair activities associated with the scenario will be simu!ated with extreme caution emphasi:ed around operating equipment. Manipulation of any plant operating systems, valves, breakers, or controh in response to this Exercise is to be simulated. There is to be no alteration of any plant operating equipment, systems, or circuits during the response of this Exercise. No pressurization of fire hoses, discharging of fire extinguishers, orinitiation of'any fire suppression systems will be allowed for the Exercise.
o All telephone communications, radio transmissions, and public address announcements related to the Exercise must begin and end with the statement, 7his is a drilP. Should a Controller witness a drill participant not observing this practice, it is the Controller's responsibility to remind the individual of the need to follow this procedure.
o Any motor vehicle response to this Exercise, whether it be an ambulance, fire figliting equipment, police / security vehicles or field monitoring teams, should observe all normal motor vehicle operating laws including posted speed limits, stop lights / signs, one way streets, etc.
o Care must be taken to assure that any non-participating individuals who may observe exercise activities or overhear exercise communications are not misled into believing that an actual emergency exists. Any Exercise Controller who is aware of an individual or group of individuals in the immediate vicinity who may have become alarmed or confused about tne situation, should approach that individual or group and explain the nature of the Exercise and its intent.
3-3
SECTION 4.0 CONTROLLER INFORMATION
i i
RIVER BEND STATION 1991 EMEROENCY PREPAREDNESS PRACTICE EXERCISE 4.0 CONTRQLLER INFORMATION 4.1 OENERAL INFORMATION Eac'1 Controller should be familiar with the folicrwing:
o The objectives of the exercise (Section 2.0).
o The assumptions and precautions being taken (Section 3.0).
o The exercise scenario, including the initiating events and the expected course of action to be taken (Sections 7.0 and 8.0).
o The various locationa that will be involved and the specific items to be observed at those locations.
o The evaluation checidists provided.
4.2 CONTROLLER INSTRUCTIONS o Controllers will position themselves at their assigned locations 30 minutes prior to the activation of the facility for which they have responsibility, o Controller communications equipment will be tested prior to exercise commencement. All watches and clocks will be synchronized with the Lead Exercise Controller as part of the communications testing.
l o All Controllers will comply with instructions from the Lead Exercise Controller.
o Each Controller will have copies of the messages controlling the progress of the exercise scenario. No message shall be delivered out of sequence or other l than as wrrtten unless specifically authorized by the Lead Exercise Controller.
l l
I l
41
RIVER BEND STA110N 1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE o Controllers will n21 Provide information to the Players regarding scenaric progression or resolution of problems encountered in the course of the simulated emergency. The exercise participants are expected to obtain information through their own organizations and exercise their own judgement in determining response actions and resolving problems.
o in the event any player insists that certain parts of the scenario are unrealistic, the Controllers have the sole authority to clarify any questions regarding scenario content. ,
4.3- EVALUATION INSTRUCTIONS Each Controller will take detailed notes regarding the progre-ss of the exercise and response of the exercise participants at their assigned locations. Each Controller should carefully note the arrival and departure times of participants, the times when ;
major activities or milestones occur, and problem aroas encountered. Oontrollers' comments will be used for the purpose of reconstructing the Exercise chronology and preparing a written evaluation of the Exercise.
Controller evaluation forms for each facility / team will be distributed at the pro Exercise controller briefing.-
i 42
O t
4.4 PERSONNEL ASSIONMENTS o
l l
l l
6 5 0 SECTION 5.0 PLAYER INFORMATION t
l l
l l
l
RIVER BEND STATION
~^
1991 EMERGENCY PREPAREDNESS PRACTICE EXERCISE S.0 PLAYER INFORMATIOff -
5.1 GENERAL INFORMATION This section provides information for all exercise Players. These guidelines should be followed throughout the conduct of the Exercise. A pre exercise briefing will be held for key players to review the entire exercise process, including " Precautions and Limitations" in Section 3.2, and the following information.
The success of the exercise is largely dependent on player performance. Appropriate reaction to simulated emergency conditions and demonstrated competence in the Emergency Plan and implementing Procedures are the key criteria by which the players are evaluated. It is imperative, therefore, that all player actions and activities -
are witnessed by a Controller. Any actions that are to be simulated must be brought to the attention of the Controller to ensure that credit is awarded The success of the exercise is based on the demonstration of the predetermined exercise objectives.
5.2 PLAYER GUIDELINES l
o- - Maintain a serious attitude throughout the exercise,
- l. o Maintain courtesy and professionalism at all times, o Teamwork is essentiall Do your job and then help other people do theirs.
l For example, if you know certain information should be available, ask for it.
This makes you look good and may reduce a deficiency for someone else.
o Think! Brainstorm and look for all possible solutions or consequences of events. Maintain the " big picture" of what is happaning.
o -Identify yourself by name and function to the Controller in your area. Always wear your identification badge.
l S1 l
. . . - . . . . - . . -- .-. _ .. . - - - . ~. _ - ~ . .
1 RIVER BEND STATION
~-
1991 EMER0ENCY PREPAREDNESS PRACTICE EXERCISE s
o if you are entering normal nuclear station radiation areas, observe all rules and procedures. No one fincludino Controllers)is exemot from t,ormal statl0D radioloolcal Dractices and procedureg.
NOTE: DO NOT ENTER HlOH RADIATION AREAS IN THE PLANT; FOLLOW ALARA PRINCIPLES. . .
o Observe all normal security procedures. All normal security procedures are in effect without exceotion. If a secunty condition arises, obey immediately the direc* ions of Security Officers.
o Elements of exercise play will be introduced through use of controlled exercise messages and by information generated by Players as a result of a particular emergency activity performed Therefore, be responsible for initiating actions in accordance with Instructions and respt,nsibilities.
o Communications should be concise and formal with use of abbreviations minimized. Always include "This is a drilr.
o Use and demonstrate knowledge of the Emergency Plan and implementing-Procedures.
l o No response to an exercise situation will be simulated without Controller L approval. No action will be taken that reduces the margin of safety in the plant.
o Keep a list of items which you believe will improve the plan and/or procedures.
Provide this to your Controller / Evaluator at the end of the Exercise o Remember, one of the main purposes of an exercise is for you to assure yourself that you are adequately prepared. Areas for improvement orlessons leamed, when identified, will improve your overall emergency preparedness.
5-2 l .
e SECTION 6.0 SCHEDULE OF EVENTS l'
I l
l
e' SCHEDULE OF EVENTS '
January 28,1991 EVENT TIME PARTICIPANTS LOCATION Player Briefing ' 1:00 p.m. All Players TC Auditorium January 29,1991 EVENT TIME PARTICIPANTS LOCATION Controller Briefing 1:00 p.m. All ControIIers TC Auditorium January 30.1991 EVENT TIME PARTICIPANTS LOCATION Practice Exercise 7:30 a. n. All All Facilities Facility Critiques 2:00 p.m. All Alt Facilities Controller Critique 4:30 p.m. Lead Controllers EOF January 31.1991 EVENT TIME PARTICIPANTS LOCATION
~
Characterize Findings 8:00 a.m. Lead Controllers EOF Management Critique 1:00 p.m. Management & Players TC Auditorium
.a
Q g-. -
e e
SECTION 7.0 EXERCISE SCENARIO
9 a
9)
ORP/DRS AND DRSS ROUTE SLIP DRP DRS DRSS CC COLLINS LTR ONLY CC CALLAN LTR ONLY CC BEACH 1Tp nm y GWYNN JAUDON YANDELL CC RATFt LTR ONLY CHIEF, DRP/A CHIEF, ORP/B CHIEF, PSS CHIEF, NMIS CPIEF, DRP/C CHIEF, M&QPS CHIEF, NHLS CHIEF, ORP/D CHIEF, TPS CHIEF, OPS CHIEF, TECH SPT CHIEF, OLS CHIEF, FRPS CC BAIRD I TR nm y CHIEF, SEPS RIV FILE RIV FILE RIV FILE DISCARD DISCARD DISCARD RETURN TO RETURN TO RETURN TO
. COMENTS:
l l
l xxxxINSTRUCTIONS FOR OFFICE SERVICES CLERKxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx l M M E Copies to those indicated above by cc g N [ Original to DE - ENTIRE PXG - HELD BY STACEY UNTIL AFTER EXERCISE E x h
hCOPYTO: N 1
- i / . State (s) / /f ' ENTIRE PXG'- HELD BY STACEY UNTIL AFTER EXERCISE IN RDMartinM Montgomery n l x R- GGBenoit fx E
_ REHALL~(URFO) g x NTERC - ENTIRE PXG h l . . ,:
l l / . E g V RIV File (LAST) ENTIRE PKG - HELD BY STACEY UNTIL AFTER EXERCISE lx Return this form with document to DRP/DRS/DRSS ( }
T. dateactioncompletedh" t; ;s-w;-wndivwxNNvx x q--w*x-x w xwywwwwwwwwwwwwww ww<vver
- + .
- 3. . .
i s A
- e 1
e I
+
no 1
((
h '
pc i .
Q.b e - . . -, . - - .- , , , .-s
GULF STATES UTILITIES COMPANY
--, , , .,r ., . , 1, .m ud . 6a t1 ' o4 .4 i s t Nf November 21, 1990 RBG- 34045 File Nos. G9.5, G12.2.4 1 . s . , nn-,., . ,
Mr. Robert Martin, Regional Administrator E '
[. .]) M E' *i U W !i' U. S. Nuclear Regulatory Commission l Region IV 611 Ryan Plaza, Suite 1000 i"4'i s t:
t W27m Arlington, TX 76011 J! k,_ ..
i
~
~~~
Dear Mr. Martin:
River Bend Station - Unit 1 Docket No. 50-458 Gulf States Utilities Company (GSU) is submitting the enclosed objectives to be fulfilled during the River Bend Station (RBS) f.mo,gency Planning Exercise in order to support the February 27, 1991 RBS exercise date. The scenario package will be provided 60 days prior to 'le RBS exercise date.
Sincerely, f -
. . dell Manager, River Bend Oversight River Bend Nuclear Group WH0/LAE/DNL/JWC/JCM/WMS/ks cc: Mr. Frank J. Conjel, Director Division of Radiation Protection and Emergency Preparedness Office of Nuclear Reactor RegLletion Washington, D.C. 20555 Ro es ~
Y
RIVER BEND STATION EMERGENCY PLANNING EXERCISE OBJECTIVES The River Bend Station 1991 Emergency Preparedness Exercise objectives are based on the Nuclear Regulatory Commission (NRC) requirements delineated in 10CFR50.47 and 10CFR50, Appendix E. Additional guidance is provided in NUREG 0654, FEMA-REP-1, Revision 1.
The primary objective of the exercise is to evaluate the integrated capability of a major portion of the basic elements existing within the onsite emergency plan and emergency response organization, The specific objectives of the the exercise are listed below.
A. Demonstrate the ability to assess initial values of plant system and effluent parameters and provide continuing assessment of those parameters throughout the course of the accident.
B. Demonstrate the ability to determine which emergency action level has been reached and properly classify the emergency using the emergency action levels identified in emergency procedures.
C. Demonstrate the ability to alert, notify and mobilize emergency response personnel, and facilities, send out initial emergency messages, and warn or advise individuals who may be in areas within the owner contt :lled area as necessary.
D. Demonstrate the reliability and effective use of onsite and offsite emergency communications equipment and procedures.
E. Demonstrate the ability to control radiological exposures, determine doses, control contamination, perform dose assessment, and monitor individuals.
F. Demonstrate the ability to make the appropriate protect.ive action recommendations to State and local authori ties utilizir g all relevant factors.
G. Demonstrate the line of succession for the Errergency Director / Recovery Manager at the required emergency classification.
H. Demonstrate the ability to activate Security / Fire Brigade in response to plant conditions.
I. Demonstrate the capability of the first responders and search and rescue teams.
J. Demonstrate the ability to handle a contam nated injured individual and transport to a medical suppart facility.
K. Demonstrate the ability of Security personnel to provide prompt access for emergency equipment and support.
E _ ___ _ _ _ _ _ ___ _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ ______
_ . _ . _ . . _ _ , . _ . ~ _ _ _ - . ~ _ _ _ . _ _ . _ . . . . _ . . _ _ . _ _ _ _ _ . _ _ . . . _
- ,: w- I l
)
1 L. Demonstrate the ability to determine and issue potassium iodide (KI). ,
M. Demonstrate the ability to perform accountability of onsite personnel within 30 minutes of the start of the emergency and account for all onsite personnel continuously thereafter.
N. Demonstrate the ability to perform recovery operations.
0.- -Demonstrate the ability to fully activate the Joint Information
,. Center. .
P. Demonstrate the ability to control rumors.
6 a
h l.
l
9 e
l 9
SECTION 7,1 SCENARIO TIMEUNE .
O i
i l
I
River Bend Station
. 1991 Practice Exercise Sequence of Events Clock Event Event Time Time Description 0730 00/30 Control Room briefing and Exercise initial Conditions.
SRV F0$10 has been weeping for approximately one week and, as of yesterday, appears to be intermittently chattering:
Suppression Pool temperature is currently 94*F and slowly >
decreasing. 'O' RHR is in Suppression Pool cooling mode.
Fuel leakers are causing high gasecut oc!!vity in the Turtlne i Building and the Auxiliary Building. Chemistry samples indicate that Reactor Coolant Dose Equivalent lodine (DEI) and Suppression Pool Chemistry are elevated.
Condenser air inleakage (suspected to be through the turbine seals) has resulted in difficulty in maintaining main condenser vacuum.
Gtand sealing steam pressure has been raised to 7.0 psig as directed from the night orders, and condenser vacuum is stable at 27.3* Hg. Offgas flow has increased due to the inleakage.
Standby Liquid Control System pump 'A' is out of service for a cylinder sleeve replacement due to severe scoring. Repairs have been underway since late yesterday morning. The pump la presently dismantled and it is expected that repairs will be completed by 1600 tomorrow.
The plant is currently operating at 100% power. The core has 143
- days equivalent full power exposure and has been operating at i 100% power for the last 84 days.
Meteorological Conditions: Cicer today with a slight breeze from the Northwest, expected to increase to about 5 to 10 mph late this afternoon. Temperature is presently 42*F, with an expected high today of 58*F, and no precipitation likely for the next two days.
0800 00/00 While reactor power 10 being reduced to 90% in on attempt to close SRV F051G per procedure AOP 0035, air inicakage through the condenser seals increases, causing condenser vacuum to decrease.
Annunciators in the Control Room alcrt operators to the increased 71 1 - ,_---- p----,,-yy,--.-, err,r-,,,,,rvrm--w
i i
l 4.
River Bend Station
. 1991 Practice Exercise Sequence of Events 3
Clock Event Event j Time Time Description flow through the offgas syst6m. An NEO is dispatched to investigate the loss cf vacuum. Refer to Supplemental Scenario
- 1 for additionalinformation regarding the loss of vacuum.
0805 00/05 The ' Loop Seal Blown Water Levtl Low" alarm on Panel 845 annunciates. Position indication lights on the panel show the Profilter inlet Drain Valve, N64 F054, in mid positbn, and the Profilter Loop Seal Drain Wlve, N64.F048, open. Control Room Operators are unable to temotely close etther valve from Control i' Rocm Panei 845. Refer to Supplemental Scenario #2 for additionalli. formation regarding the loss of the loop seal and the resultina high airborne activity.
Turbine Building and Offgas Area Radiation Monitors alarm on DRMS. Shift Supervisor orders an evacuation of the Turbine Building in accordance with the Alarm Response Procedure 1H13 P845 B/F06.
0815 00/15 Operations and health physics personnel are sent to the Offges
! Building and the Turbine Building to assess the radiological I
condhions and attempt to isolaf a and refill the loop seal. Health physics conducts a survey of th( Offgas area and proceeds to take air samples.
l l 0830 00/30 The Control Room verifies that the radiological release from the -
Turbine Building ventilation system is below Technical Speelfication i limits.
0845 00/45 - Health physics reports altbome radiation levels in excess of 1000 times normal in the area near dirty waste drain sump 1CND TK12 to the Control Room.
An ALERT should be declared in accordance with EIP 2 001. ALERT VL No. 4, initiating Condition 2, ' Alarm of DRMS Airborne ventuation Monitors and Confirmation of Readings Greater Than 1.000 Times Normal Levels'.
72 h
. _ . ~ . . _ _ _ _ _ . _ . - _ _ . _ _ . _ _ _ . _ _ _ _ - - - -
~ . _ . _
i 4
4
- River Bend Station
. 1991 Practice Exercise q Sequence of Events .
Clock Event Event
. Time Time Description The Shift Supervisor directs implementation of the following
, emergency procedures:
1 EIP 2 003, ' Alert' . +
EIP 2406.
- Notifications
- E1P 2412,
- Radiation Exposure Controts*
~
3 EIP 2 013, 'OnsNe Radiological Monttoring*
'~
EIP 2 016, ' Operations Support Center Actkation' ,
, EIP 2 017,
- Operations Support Center . Support Functions
- EIP 2418, " Technical Support Center . Activation
- EIP 2 019,
- Technical Support Center . Support Functions *
[ EIP 2 026,
- Evacuation
- EIP 2 027,
- Personnel Accountabi! tty
- EIP 2 023, ' Joint information Center Staff Activation and l Support
- 1 . .
0915 01/16 .An NEO is able to locally isolate the loop seal and terminate the release of radioactive gases into the Turbine Building. Condenser vacuum appears to have stabilized at approximately 26* Hg.
0930 - 01/30 - The loop seal is refilled and unisolated per SOP 0092. Health Physics continues to monitor the affected areas.
_0945 01/45 Condenser vacuum decreases below 25' Hg. Per AOP 005,
- Loss of Condenser Vacuum *, the Control Room begins to rapidly reduce power in an attempt to maintain condenser vacuum at or above 25' Hg.
1015 02/15 At approximately 40% power, condenser vacuum suddenly drops below 22.3* Hg causing a turbine trip and reactor scram signal,
!. but the reactor falls to fully scram, remaining at ~30% power. The e tsultant reactor love! transient causes = the MSIVs to close,
- containment isolations to take place, and ECCS to initiate and.
l begin injecting into the vessel. SRVs cycle in an attempt to c:ontrol pressure.
i 73 l
,-,,.--,n
, ,n .. .~nn,-_--_- .,.,n., ~,--,.-n-,,n. -----,----a
)
i River Bend Station
. 1991 Practice Exercise Sequence of Events I
l Clock Evont Event
- Time - Time Description i -
j.
- RCIC initiates, but the flow contrdler is unable to stabilize turbine speed. Oscillations cause the RCIC turbine to trip on overspeed.
1, Refer to Supplemental Scenario #3 for additional informstlen.
Suppression Pool tempo sture increases rapidly as do Suppression 4' Pod level, drywell pressure and drywell temperature. ECCS' injection is manually overridden and ADS is manually inhibited. After 10 minutes, 'A' and !B' loops of RHR are placed !.ito.,the Suppression Pool cooling mode.
Per EOP 1 A, ' Anticipated Transient Without Scram *, operators initiate Standby Liquid Control. SLC 'B' pump trips on overcurrent within 2 minutes of initiation, and is unable to inject the required minimum amount of Boron into the reactor ve: set. Subsequent investigatbn reveals that the SLC pump power supply breaker on
. 1EHS-MCC2A has failed. ('B' SLC is OOS as s' initial condition.)
i Refer to Supplemental Scenario #4 for additicaal Information regarding the ATWS and the subsequent recovery actions.
With reactor pressure above 700 psig and Suppression Pod ,
temperature rising past 160*F, the heat capacity temperature limit for the Suppression Pod (Figure 1, EOP 1 A) is exceeded. An emergency deprossurization of the reactor should be accomplished in accordance with EOP 1 A.
A SITE AREA EMERGENCY should be declared in accordance with l EIP 2 001, SAE EAL No. 7, " Transient Requiring Operation of Shutdown Systems with Failuro to SCRAM (ATWS)*,
The Emergency Director directs the implementation of the following procedures:
l EIP 2 004, ' Site Area Emergency" EIP 2 006, " Notifications" L
ElP 2 020,
- Emergency Operations Facility Activation" 7-4
l l
l River Bend Station
. 1991 Practice Exercise Sequence of Events Clock Event Event Time Time Description EIP-2 023,
- Emergency Operations Facility Support Functions
- ElP-2 020,
- Evacuation' EIP-2427,
- Personnel Accountability" .
1030 02/30 With Control Room operators drMng rods individually, rt octor power has decreased to approximately 28%. Suppression Pool temperatere is greater than 200*F, and primary corainntent temperature and pressure are still rising. With the SLC b;estem inoperable and no Doron injection taking place, reactor level n.*ist be lowered to control reactor power in accordance with EOP 1 A, Level / Power Control Section.
1045 02/45 Reactor level is being maintained between 100' and 193* by feedwater per EOP 1 A, Level / Power Control Section. Controf rods are being inserted into the reactor core individually; reactor power is about 25% and slowly decreasing.
SRVs are being used to maintain pressure below the minimum tequired for RPV flooding per EOP 1 A, Table 2, and are providing the pathway for venting the steam being produced in the reactor to the Suppression Pool.
1135 03/35 A local loss of instrument air presst>:e results in the repositioning of air operated valves in the cond6nsate Sjstem, causing a low suction pressure for the feedwater pumps. Feedwater pumps are now unavailable to provide makeup water to the RPV Refer to Supplemental Scenario #6 for details.
1145 03/45 With vessel level at -193*, and power at approxin,ately 20%,
operators must initiate makeup flow to the RPV to restore level to 100*. Since feedwater pumps are still un vailable, HPCS is initiated and relatively cold (~200*F) water is injected directly inside the shroud. Valve E22*F004 falls to the completely open position, resulting in a rapid rate of injection, and producing a significant power spike (~120%) and causing substantial additional damage to the fuel cladding.
75
River Bend Station
. 1991 Practico Exercise Sequence of Events Clock Event Event Time Time Description The vibration and shock cawd by this transient results in a pipe rupture and bellows seal failure of LPCI injection line 'C',
danstream of LPClinjection valve E12*F0420. Steam, along with fission products released from the damaged fuel, is blowing directly into the primary containment. Refer to Supplemental Scenarlo
- 7 for additional information regarding this thermal / hydraulic transient and the cladding damage and LPCS piping break that result. -
1200 04/00 Containment pressure increases rapidly to approximately 19 psig, I since the RPV is now be!ng vented directly to the containment by way of the ruptured LPClline. Containment temperature increases to 187*F, and Suppression Pool temperature inclusses slightly.
Emergency Director may consider these conditions as a chat!enge to containment integrity, since the two fission product barriers have already been breached. Loss of containment would result in a path for the release of radioactive materla! from the damaged fuel, into containment, through containment penetrations, and out to the environment through the Standby Gas Treatment System. A General Emergency may be declared at this time.
Refer to Supplemental Scenario #8 for additional information regarding this breach of containment.
1215 04/15 The O-Ring seals on several containment electrical penetrations i have failed, and fission product gases pass through the O Ring i seal aret., out the protective cover for the cables, and into the annulus. The radioactive products are picked up by Standby Gas Treatment and released to the environment.
A GENERAL EMERGENCY should be declared in accordance with EIP 2 001, General Emergency EAL No. 2, initiating Condition 5
- Loss of two of three fission product barriers with potential for loss of the third *,
i 7-6 l~
l
.)
Hlver Bond Station
. 1991 Practice Exercise Sequence of Events Clock Event Event Time Time Description The Emergency Director and Recovery Manager should direct the implementation of the loflowing procedures:
EIP 2 005, ' General Emergency * .
EIP 2 006, ' Notifications
- EIP 2-007, ' Protective Action Recommendation Guidelines
- EIP 2 012,
- Radiation Exposure Controls
- EIP 2 013, *Onsite Fiadiological Monitoring * ,
EIP 2 014, 'Offsite Radiological Monitoring
- EIP 2 024, 'Offsite Dose Calculations
1315 05/15 With the minimum amount of boron injected into the vessel, reactor level restoration begins. Boron injection continues per EOP 1 A.
Containment pressure has decreased to less than 1 psig, reactor pressure is negligible, and steam blowdown into containment has ceased. The release of airborne activity through the electrical penetrations has ended.
1325 05/25 The Reactor is suberitical with til lbs. of Boron injected into the reactor. Preparations are under way to establish a method of long term Shutdown Cooling, 1330 05/30 Shutdown Cooling has been established, all control rods are inserted, and operation of SLC is termhated.
1400 06/00 Recovery plans are formulated as the trailing edge of the plume disperses.
1430 06/30 The exercise is terminated.
77
. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - m- --- - - - - - - - - - - - . - - - - , - - - -
]
l
- I SECTION 7.2 MASTER EVENTG
SUMMARY
I l
r
i i
i i R0werHand h 1991 Practice Exercise RAasser Events !_ - --_y I'
l Clock Drill Besg. Rang. BAeomoge FW j Tune Tune peo. To: ?_--_, AeMens i
0730 -00/30 f.C. CR initial Conditions for itse exercise oro as follows: ShiR Supervisor should inform the Iced dispatcher of the impending reduction in power and then
- . RBS is currently operating at 100% power and direct the reactor operator to begin power
, has maintained 100% power for 84 conoccutfwe reduction to 905 days. The core is near the noiddle of core INe with are exposure of 143 e-;-J.J:- fuit power j
- days.
i
! St C pump *A* is out-of-service for mechanical i repairs to the pump due to a scored .,"" f1- -
1 sleeve. Pump repairs started ,_J A 4
morning.The pumple _ _ _ m, diamenteed and repairs are expoeted to be eu f J__ f by 1900
- tomorreur.
- SRVF051G hasbeen _ m' ., for_- m. _
- j. one week. Last night erraele indications on the .
acoustic monMor along with tellpipe I temperature war.stions indicated that sles SRV
! ; was chatte 'ng. These hedications happened twice moe., during the noldnight shiit. R has
] been decided to fonow the _; _ .:, . semans
- outlined in procedure AOP-OO35, Safety Relief Vahre Stuck Open, and reduce Reactor Power to l 90% in an etonopt to resset the SRV and j prevent further chattering.
j- .
Condenser air ".f _ f _ ;- is suspected to be i through the turbine gland seals. Glend seeIIng i steem pressure was raised from 5.0 pelg to 7.0 1 pelg. Condenser vacuesm has boon stable at i 27.3* Hg. for See poet two days. Increened L f _ f v has remuned in Incrossed oRges Now.
Fuel leekers are -: - . f.; high airborne t conditions in the Turtsino and . ? ,
- Buildings. Chemistry semples Imficate that i.
3 '-Wg v',. --
__ _rp, ,_ __ 2 _ . _ _ _ , _ _ _ _ _ _ , _ _ _ _ _ _
i 6
I
! River Bond Station 1991 Practice Esercise f asessor Events f _ __ - -_ y Clock Drill RAsg. ;EAsg. R$osenge E ,_inf
! Time Tune No. To: ?_-_._y Acelens 4
i reactor coolant Dose Equivalent lodine (DEI) is now 0.8 uCilgm and !=---e::':-. Pool l chemistry is elevated. Technical Specification l 3/4.4.5 1.10 - will be entered at 0800 on l
January 31.
Meteorological conditions are: Clear today with a slight breeze from the Northwest, expected to increase to about 5 to 10. mph late this
' afternoon. Te..+e. Ce is peesently 42*F with an expected high today of 58 F, with no
! precipitation likely for the next two days.'
l Because of the potential for SRV F051G to open and then stick open, operators are propering to i decrease reactor power to 90% per AOP-0035, Safety Relief Valve Stock Open. to attempt to reseat ttw SRV.
I i
j Air inleakage into the main condenser
! (suspected to be through the main turbine shan
! sosis), results in -f+: : J_g condenser vacuum.
Even though gland seeling steem pressure was i raised to about 7.G poig, and condenservacuum
! Is stable at 27.3* Hg., R has not returned to its
! normal value of 28.5* Hg. Additional Information ce..c nk.g the air inleakage problem is found in
! Soy ma:al Scenario No.1. ,
l Due to microcracks in some of the fuel cladding, j radioactive gases produced during the fission 1 process are lealdng out through the cracks into -
the roactor coolant system. Some of those games then co ry over into the Turtnrae and AnadIlary Buildings through other systems that interface with the reactor coopent system and reactor vessel. Suppression Pool activity incrosses because or it _: n esseey/resset va ve.
t 5
$ - _ . . - . . ~ _
, , ,. , ~- - - . . _ - - ,
V ,
!. River Bend Station
, 1991 Pracace Exercise
, Master Events Sernemary
- l. Clock Drill Msg. Msg. Me===ga Expected
- Time Tiene No. To
- E__ ..- y Actions i
, 0800 00/00 1 CR Air inleakage has caused Offges System flow to The Shift Supervisor should dispatch an operator Io j increase to the alarm point. Condenser vacuum inspect for signs of additional inleakage or
! Is slowly decreasing. malfunction of equipment used to maintain vacuum
! (air ejectors, vacuum pump seals, water and loop
! See Supplemental Scenario No.1, and provide seals), per AOP-005, t.oss of Main Condenser
- condenser vacuum data from the attached graph Vacuum.
as requested by the operators.
I Control Room operators should carefully check the j Offges System to ensure the recombiner is l
functioning properly.
i 0805 00/05 1.1 CR Control room operators are unable to close valve Evacuate all unnecessary p iw.r 3 f one the N64-F054 from control panel P-845. The loop Turbine Bulidmg per Alarm Responso Procedure seat must be isolated locally. 1H13-P845-B/F06, Loop Seal Dlown Water Levei Low.
Main condenser vacuum continues to slowly decrease. The Oagas System pararwtons should continue to be checked, and condenser vacuum to be etfor to Supplemental Scenerlo P8o. 2 for system anoottored.
valve arrsngeo+ents and rad'ological informat6cn.
Radiation Protection is notified, and should begin to DMs Indicate that monitors RE-118P and RE- take sampses of the Turbine Building atmosphere, 118G (Turtine B!dg. ventilation) t. ave increesed and Offges areas. Sarnple results are shown on by a factor of more than 10'. Tables 9.2.15 and 9.2.16.
Once it is determined that the loop seal is imL--Zi unisolated and still L:r.g through, an NEO should be notified to go to the Offgas Buikreg to check the condition of the loop seal, and isolate it if possible.
s _ m._ _ _ m _ _ . . . . -
_p
' !i :!ji[tlt[iti![l!l . A[l}kI[lJr[; j ; t![
, I!I: :
aey g ef st o ekers sde g m ehr n r ot l bohen e nh n e ss su n rt e u hotho
- gat age i i v t s t s f d t s
ne eer f
gn sr ot sn f O s, in l
y nid i
x e et ara oier tl bt o n e o nh i
u S is B du l a e, nr f o
oR s
anf vi ets e et ooi t iw s s
a tlcad t i t
ict t a g s e.t e i
' n iso, et ,
g d
e e o em sdi u eer emn n
ie p e td nn es f g f f
f O
srS, ue i
f i
nD e( di el t
n r o aon a s r oo scroa O. t e
c sn iam a 3
o eM y t
o r e t ee h a1 s cx o n o odte r ucu i
rhRa t n ea l hs t r c r t
at Dv i e w1 2. e ai t dt ie aio rp r o
ven etc b a1 toic l udcuJ i
e a gf eo t eiha d r f on ri on v l o s t
nlo i
n hmt t
t e
l u d3ni c hoi t a ow el nio on e e o kect st r
eh o o nepe scdn orl ndi oh m.
e edr h
s t
dias or re cog oait y
srd t t de to u m
J^e s h dnto mtbd n r
.su es pa n t
et u
_= co t a,in n
o ea ic)sa l uen dan ,i o hl a co e uac
- e
_=
dstyo i
t c
Ni t tMnic u c el g a oc tais nv r
l u oviom ri e ocen a v cu noin/ ce s ssyg .
po i
EA ot t o
ne pl uh c cs ar n st tre as Ohdn i t yoel nid
- hitnct i s oas r sSf f
.siu: yb l
cne smde P s.
i yl ETe. r ed ht i dJ s srd iute ed esersBr a s r
ot e u t nn oo i i t rs ac s d nrotoeom P ghh sE i-O" on taus ei r
n n t t ei anoae diaish t n hinis t
dbe l
E ;.
ta o rc e a em d rhece ag N l l n n rbnic ed o o er r ecsi ail pxhc0 Oei 1 n d r.
ao Rc headc CTGI ne CmoTsw x puigh eusftf HbeO nnd Aa Oa pn gte y, tyt t o4te olnee g. g.
n l u h n1 t i s n0nibt 6 eti n i Jevtsiwla wite p e.
rs d rR pi as s n i
a s s ao e 1 A yac sne .
t aa orrdoI l
e eN ni s- -
l t r
i ss ceee d d r ep^
a .
c r crerol o c wisdm e no aot rroordt n r
odu ea 1 i
tase ot ei ef i de n ne eahid scc ec ., e.
t
_ sa de t
S E! ehsvt r t ae s n ah es reeci or r odf r a2 nc des a nrn- aS rgh gle tuc t
o r nn ct ni n o- , ce i o cI do s ,
. l ga otc e g 1 euis p en ooind: nN t Ba v s sohyds,mr dib msia uo t I l e
r o in s
- e r rE ePr e
s nrTar eh d gt erkat el a l ye wt u t l
e da m.we ot t r i
- 2. m nv a e e ro sg o
v1 e _ n oe wn 6e i
R9s s ME o; rnla en ea l
sht l s o ra oe 2l p taon sRom sp 9e c! ew l m hc 1M n" el o ot el i a t
sS i u
2theI t s sa eicond tsla mS i%)1 a
m un f i ep t r t rdpnmr oi ar or t o ot ue eKher w. o e o. on ue enTitho ,m he cS a
4e PaeCs t .
t i ;
hi t bDwon rh eee sm v
- muN r t o ets sn e h gt r
aint t
t t ry os ae l ry oTCdem r eu ce g f e o n neS dp t
ap el sw no
_ f e (1 ndt s mt n f sdioa u sh et st - nsu l a
u ui i
r Ose0sds et l e SS dny els sonmehv x ca h eia0el cc4vef g
Re Me r atn scl ao ee af f oe GI Vo T lr o P leuO l f DS Cv g
s :o R R MT C C g
s o. 2 MN 1 2 e 0 5 l 1 1 im l
ri
/
0
/
0 DT 0 0 kc 'e 0 5 om l i 8 1 1 8
_ CT 0 0 Ila!;t <i,<il ! ' il!!ljil]' !{ljljjl((ijji!!! i* ,I' I :!ii
- e
! River Bend Station 1991 Practice Exercise Master Events Summary l
, i Clock Diill Msg. Msg. m--- ;-_ Espected Time Time No. To- L . _ _ __. y Actierts [
0830 00/30 3 CR Condenser vacuum has stabilized at 25.8" Hg., Operators continue to monitor the Offgas System.
which is quite low and should continue to be of DRMS trends, and condenser vacuum. j concern to the operators. l The Shift Supervisor, or someone he has 1 DRMS trends continue to show Increasing designated, should be determining that the activity !
airborne activity. associated with the gases being released through the main plant exhaust are below Technical .
Shift Superviror confirms the radiological release Specification limits. l from the Turbine Building is below EAL initiating Conditions.
0845 00/45 4 CR Condenser vacuum is holding steady at 25.8* Hg. Operators continue to monitor the Offges System, i and continue to investigate the low condenser ,
DRMS trends of the Turbine Building Exhaust vacuum situation. !
- and Condensate Domin/ Offges Building Vent are j still increasing, but at a slower rate. When the Shift Supervisor is notified that airborne '
. radioactivity levels in the vicinity of the dirty weste j Health Physics analysis indicates that altborne sump exceed 1000 times normal, he should declare i
radioactivity in the vicinity of dirty waste sump an ALERT in accordance with EIP-2-001, j
. 1CND-TK12 is 5.0E-08 uCl/cc. " Classification of Emergencies *, EAL 4. Initiating ;
Condition 2," Alarm of DRMS Airborne Ventilation i NOTE: Through discussions with Health Physics, Monitors and Confirmation of Readings Greater the Shift Super.h should be able to confirm Than 1,000 Times Normal Levels
- i that this airborne activity level is 1000 times ,
- normat. The Shift Supervisor should direct the j implementation of the following emergency !
i procedures: '
I E1P-2-003,
- Alert" i j EIP-2-006,
- Notifications * .
EIP-2412," Radiation Exposure Controis" 1
I EIP-2413,"Onsite Radiological Monitoring" 1 4
EIP-2-016," Operations Support Center- Activation
- t
. EIP-2417, W Support Center - Support !
j Functions-EIP-2-018," Technical Support Center - Activation
- l
i 4
i j
! River Bend Station i
1991 Practice Exercise i Master Events Samenary
) Clock Drin Msg. IJsg. Meanage E _ 2--I
~
Time Time No. To- L -.___--, Actions EF-2-019, ." Technical Support Center - Support Functions
- EF-2-023,* Joint information Center Staff Activation and Supp#
EF-2-026, " Evacuation
- EF-2-027," Personnel Accountability"
- 0900 01/00 5 CR Use Contingency Message 5.1x N Health Physics Operators continue their efforts to restore the loop
. has not provided the analysis results to the seal.
Control Room in order for them to determine if airborne radioactivity lov als have exceeded 1000 Health Physics continue to monitor the affected times normal. sroes of the Turbine Building and Offges areas.
Deliver Contingency Mesonge 5.2x N the Shift Continue to monitor condenser vacuum.
Supervisor does not recognize that airborne i activity levels are atxrve 1000 times normat.
~0900 -01/00 5.1x SS Deliver this enessage to Health F'.,is N they The Shift Supervisor should declare an ALERT.
have not notified the Shift Supervisor that sirborne radioactivity levels in the vicinity of the dirty waste sump indicates 5.0E-08 uCI/cc.
l
~0905 ~01/05 5.2x SS Deliver this message N the Shift Supervisor has The Shift Supervisor should declare an ALERT.
not recognized that airborr.e radioactivity levels in the vicinity of the dirty waste sump exceed 1000 times normel.
~
f ~0910 ~01/10 5.3x SS Deliver this mesaage only N an ALERT has not The Shift Supervisor should declare an ALERT.
( been dec!ared, and the Shift Supervisor has not recognized that events have occurred which require the declaration of an ALERT, and no actions are being taken which would result in l- the declaration of an ALERT.
l i
I
_ _ -_ D
q River Bend Station 1991 Practice Exercise Master Events Summary Clock Drill Msg. Msg. Message Expected Time Time No. To: Summary Actions t
0915 01/15 6 CR Plant Str.tus Uposte. Operators continue their efforts to restore the loop seal. Deliver Contingency Message 6.tx when operator has isolated the Soop seal, and blowdown to the dirty waste sump has stopped. l Health Physics should continue to monitor the affected areas of the Turbine Building and Offgas areas.
Continue to monitor condenser vacuum.
~0915 ~01/15 6.1x CR This message provides Control Room Indication Operators continue their efforts to restore the loop that the N64-F048 t. cop Seal valve is closed. seal per Offgas System procedure SOP-0092.
Deliver when NEO has closed valve NG4-F048, and Informed the Control Room that the loop neal Health Physics continues to monitor the affected is Isolated. The rad!ological release to the areas of the Offgas Building and Turbine Building.
Turbine Building has ceased.
Operators monitor the Offgas System, condenser Condenser vacuum is holding at 25.8* Hg. vacuum, and continue in their attempts to discover the source of inleakage to the main condenser.
l 0930 01/30 7 CR Plant Status Update. Operators continue their efforts to fili and restore j the loop seal per procedure SOP-0092.
l
- Health Physics continues to monitor the affected areas of the Turbine Building and Oftgas areas.
^
Continue to monitor condenser vacuum.
~0935 ~01/35 7.1x CR Deliver when the NEO refills the loop seal and Continue to monitor condenser vacuum and report to the Control Room that the loop seat is attempt to restore to its normal level.
refilled and the valve lineup Is returned to normat. The isolated loop eest is now filled and reopened per procedure SOP-0092.
Condenser vacuum is holdog steady. Radiation levels are decreasing.
i l
+ !
I River Bond StaHon 1991 Practice Esercise teanter Events * -
p l l I Clock DriN Msg. R4ag. 30essage Empacted f 'Ume Time No. To: , AcGons l 0945 01/45 8 CR Turbine seals have further deteriorated, and ' Operators repkNy reduce power by decreasing i i- condenser vacuum is -f _= _ _ l.,,. Since the roector recirculation nour and driving control rods j
! main condenser is the pdmary heat sink, actions in order to attempt to maintain condenser vacuum i will center around stabillring and restoring at er above 25" Hg. i vacuum. See "h--;-/_ i.f4 Scenerlo No.1.
Operators continue to determine ar.d isolate the {
Dets indicates reduced power as a result of source of M I::"_===_ !
operator action per AOP-005. I
- Operators may consider pascing the standby SJAE f in service.
1000 02/00 9 CR At the operators request, inform them that C ilie continue to reduce power and monitor condenser vacuum has leveled out at condenser vacuum, wh".e attempting to locate the appromknotely 24" Hg. and, se power is reduced source of inieekage.
furtter, starts to increase. See 51;;';_n;-^4 Scenerlo No.1 for a graph of vacuum.
If the standby SJAE is placed in service, condenser vacuum wlII increese at a slightly faster rate as power le reduced, inst stNI not reach 25" Hg. See f-_ ; / - c.74 Scenario No.1 for a vacuum graph.
1015 02/15 10 CR With the reactor approaching 40% power, main Enter EOP-1, "RPV Controt* ar-d carry out scram condenser vacuum suddenly drops below Mr procedure.
- Hg. InMisting a turbine trip. A main generator trip I wlII follow, causing a transfer of the electrical Enter EOP-2," Primary Containment Control". [
tn.ses to their alternate sources of power. !
Prepare to enter EOP-1A, " Anticipated Transient l Since reactor power is stIII above 40% power, a without Scram" i reactor scram signal will take piece, and the [
control rods will start to automatically insert into A SITE AREA ERAERGENCY should be decia-ed ire i the reactor core. The reactor falls to fully scram, accordance with EIP-2-001, SAE EAL# 7."Transumt l and romains at -f-f--a ____ ;", 30% power.
^
Requiring Operation of Shutdown Systems with ;
Failure to Scram (ATWS)".
i
? l i
. 6 i l River Bond Station !
! 1991 Practice Esercise j RRester Events ? - _ cc, i I I 1
i Clock DriN REsg. RSeg. RSeenage F=parend j Time Time No. Tot ?- , Acelens ,
i
- i. r t
Reactor steam production is beyond the capacity The - Emergency Director should direct the of the bypass valves, which causes the SRYs to implementation of the foHowing procedures:
1 open in an attempt to control preneure. The
! sudden pressure increew, coupled with the EF-2-004," Site Aree Emergency" i partial insertion of the control rods, causes level EF-2-006. "NotNications"
, to drop dramaticaNy to about-180", then recover EF-24320,
- Emergency Operations Facility -
to approximately -120". Activation' EF-2-021," Emergency Operations Facility-Support The MSIV's close (I.ovel I) causing a loss of the Functions" primary heat sink. SRYs are open and blowing EF-2-026. " Evacuation * ,
directly into the E+-;- L ' -. Pool, which is now EF-2-027 "Persor. net Accountability
- i the main heat sink; poet temperature starts to 7 increase rapidly. f i
RCIC initiates, but is unable to stabilize and trips -
I on overspeed. See er; Ac.._.: : Scenario No.
i 3 for RCIC cwa.c":: maNunction.
i HPCS Initiates and begins to inject water into the !
reactor vessel; Diviolon I and N ECCS pumps [
i automatically start and seign for injection, but the !
Injection valves stay closed since reactor !
pressure remains at greater than 1000 psig.
Both 'A' and 'B' reactor recirculation pumps trip, -
i and Division I and M containment isolations !
initiate. .
t
- Refer to Supplemental Scenario No. 4 for j l additional information regarding the resw. )
from the ATWS. l
. . m , ._.I
t r , ,
Sr t e- *
- o. isV e e e ueCle owLv Ceh nh P etO =
P h t
h t
h t
hose Ct m E R e e o
i t
iPe l
Ee nrf .w t t t a
W r me i ateo o n i r g ett o h8 ob t n eo nn
.wtay er z c i
r u
s it t t n r e
Rt n ac f r
d o c it l
ain r r
,aue e s a
s e
e ie i
e nl c t
a r v sdor ou yo e rpsgsr p n itc hos e w e r t i nnt aueo r
l e
a m dn s
wtnree oepm f o
d t o
Ts rr j n se i
r ei o o O pd n ut prt pmeE d n t E
e i
aa n o s N dtesceo co dcr r o piz ri a r , i e v
nu it rer ot t c n ao c noA1 t l aerd nps u t e a a ph p n ,s d
o s aot c- n j
n v h d
d i
it t
c e a e et re m er e recyeOt aPo i i
S D t c
a es tn uh , r.
t it n d bp r r c e A p*.
t cn ot s e ba e l u e r a Ee t a sB eo "A yoowf d ihwv n e o Dd om in S n )
7 i*
pit rr r o r r h d e i t
rern i
( dp xc EA Acol
,an p i
ej op snVr api n o ph e io m
r n .
r om 1 iod bar s
- Ruq m d w pta e el ve su vp d mo t t i P dc trn e sye n z e r s.
sr aene du r r r eC i
rd t a rcr Oasnen oea eve l
uee o E
- ,l cr htoha t renn ete e e ori esr s t h r pL uS o u p t umie nl t rmr s soin o m rgh a r sr ee o Sf o
eraew eat e s e se e e ur vs nt t r nv ncoie S dm prete qp es ec pa t
f p
ESCdp Aat r r Dn er hamA T pE 1 O pd r D Pv r e Or e i
hi St r s . t eoo e0 . dFyg yrr deVf .
sene md a A btuhtnr i h 8 nin t l l ee ezP o )e i heh ro1 - i a t 6 0ci a, 6 a dr 2- . ahd i n r R :. r u t h t, c rP d c ). ne
,t oP utr r eu iWA er y st oO e es jbc t
nl i g1 pop sgc acO nu o.
af nl ps el es o ea st a s
t i l t
,n 1 sa rrE totnr t
r nl S ie pn mtl v i e ber deraOu .P ir nim o c c o e*. tai 8l nn ea 0dt i cE af nnee l yrnTp pr l
a em sto7a vp eesl laeeht t
xu actnm eI (t n i r
0eas 7een o ev esdn u d *t t in I xecE wit r t
S ES rI e a m r se n e i l dmo ncho1 be r v a n a o awe u ore i des at dc 'B bo an roe m do ax r e epr t spep s
b ct nin et e er ga y t al S htahu otu puBlp nR a he t eferu r ehag hotcw a
v ore m1 me e0 uc! m ns n e rduC pnsL Bac v r 6 m a a-l td ho rt si a mscp u te u f t do r e a S r rE sam en sh u
i et at a , u nF g ndrp e o aPnd i
e i dle de ePr sm z a yt pd n S i t ce n er e d eer sl ir eemoc eta eso n i
eu i
adeW o v ni I
nu e l
v1 e r vn cc I
i MS h g prtiha o ph o seiai o ao e eC t t e e l
R9s opt a%il l
v t, t t
c l a ae t n 9a 1
M r i sede n t rsmS nte a sm em r nA c et oo t a vph l ni r c ei eo ueoi1 st t s- ro sn er t i
n roio r a oet r sn Cnoumle .
brf sl o
iP i rf Sm Do w e +o t ot mt c n t r o gi O t
a re a ny e t
cdeo p rns r dmms iu s al l nmE rnt Aolort
)Re spus ao ec em ee nT ca pPi oaalo peI iu2nv ie s u rn ul i
f o
f wr 7l bs r s be obl de - q i d d n er1 d , t ( or r r2 e5 i t
in Limo r to oi enf n eya n *a ov se o o nt op1 i
e s lut t u c!snt hrcs haf h tap yi t h
dc t ri d a s oa er ee r u udnc ent vo cg(
a nA t a sr o r
bwrea l
t na oic l
e on Rr p c e sdo i n seCei1 sot a pi g d i rI pirti en ni nsur5 t n e mreeg ca em rdoP - e et r hgen t
apqe. o oo r
h i
t pdmF un uvj ho e oO cn ceacep e WirA Poitno t i sa" St r rt eh N Cc WSateo t Tf rh! tfE Onr o g
s :o R R MT C C g
. x 1 1 s o. 0 0 MN 1 1 7
_ I o /
1 0 2
im r
2 0
/
2 DE ~ 0
_ k e 7 c 1 0 om
- 0 2 l i 1 0 CT ~ 1
! l
River Bond Stu6en 1991 PracNee Exercise Reaster Events f ___ ___- ,
Clock DriN RAsg. RAsg. RAesenge FW Time Tsme No. To: ?. y Acmens pump starts, comes up to pressure, then trips due to an electrical fault at the pump supply breaker. See i--;:;- ;..:." Scenerlo No.5 for further details.
1025 02/25 10.2 CR Suppression Pool temperatere is e- g - =J .._^;?, Continue to foNour steps of EOP-1A and EOP-2.
200*F and incroselsg; reactor preneure is around 220 poig and h _*..g and roector power is toonitor reactor pressure while depressurizing between 28% to 30% with the reactor operster belour the minknese siteenste RPV floooing inserting control rods individually. prosauro (EOP-1 A, Table 2).
The reactor is being -f:;. ::- d with the Continue to Investigste the trip of St.C pump 15*.
Intention of maintaining reactor level in a specified band and aNowing boIIing to continue per EOP-1 A. This action will provide continued cooling for the roector untN oither enough baron is injected, or sII control rode lieve been Inserted so that the reactor can be nesintained in a shutdown condit6on.
The operators should be propering to place two soops of RHR into the E;; : _ ';; Pool cooling mode in -;- =-
- _^_ _", 5 noore t-*sestoe when the automatic open signet on tne RHR hose exchanger bypeos volves (E12M wlII be esmoved. These varm are maintain d open see 10 m'm utes after the LPCI inW7 signals are .
receive) (rtx tour level-level 1. higi. drywelf pressure).
Data indicate that SGTS B has been pieced in Secured status by operswes.
!: iIt 1 >!{; [ctt;j1;'jl;!ji!iij*f!{t j:!1[ [}j' I!L f e b i!i!
.t dd l r Ae 1 s ne oh oi t e k
_ -n al l Pw a Pi Oo
- . or n e e
r Et 3t 9n o c b
. in nuae
_ 1 o sa
- c sd i
d e T d *^ nd an r m pc p e-n . "a pc ua m .
Y i-l i t
ud 0w 0
1 o Sn I u
p C
_ on a l
s in r. N E
s n . C
_ p n, ea L G eo e W"-,1 ..S R t i st c t win d;3 e E
s ee e s ne0 t a hs bn ah0 t -
s g E e '
A n
t l r o lelo v es AeP t a O i
t e E e u tr WI FA I
c l l
fC on o o l
l ere ep eo
'spe oper oou rS i
e w
n R
E T
A o ;. ds n l l
dd o I t el Rn e t S
va e
u ar o n
Hacro e u
a .
arm e r. R g, p e i
n 7, l o in e.
r on n a il r t et t
nfr n eN c o R t r n
o eo vn l Ae e e a oH nu oi l
l c
e CLc R pm l PcR Cf a D rmsf*o0er .e t egen Aesaen o r r.
e sad h pcneo t r o tc uo emtaon1 a 0t k het s i
eieI cposs I e wi s Ehnfoai R
t e t a
w a .o .
Advnsr r ncover y
e s oirinet r
ipc oc e oe nt b e9l r
2c 65o .
e e ol sp. Eatasic neona i t ol hemo s wj ni Cd o cr N hco eps T rt ce
=
l ee ss t
eeloti n
TCnM A a o t
soeer e r P pS e I
Serdc dt,ho t ade
%hhrtbt eo p*tS l r cdo g SeE -
8 t t
,nl p mSsO e n ns ay.be ir- ha n aizdntee ooh nlc 2u reoe uHei e seJ th Nen ci n e, rCvm pE er _c _nmc d ghe d t i
tolou dp oAc g 2 ee rl eup C 1 e^.S ;o ,_ o reox ot nlu Y.
- deM Ba r r eP n
o s 5 dpe bn e r r .
r wo ed otct e Ll Seb n yt a l
e u ht, 'g,.cue f
krt lyncea neei r oer uYrN sC e v1 e ta a tolne n t "
u aoe bt qCd E i A 2e z g/P ea watc hp t eSb! h I t l e e em gne et oeNl uG
_ R9hRL 9
1 ainerdr rude-,.
r i v een oL" f s eeid t
t l l sabele car p or t p p r i s n i gh e ceH vit a s ntiR l
t r tR go nrEoR sanshacGwSE ssh iR hR w elo e s a orf ptco e u hniode o r ea h pp h "^- gl ne e rl enrS simhoh tet a et tt mherwAEcE RhAi r eVt r es a e ui t Bh s YledEwEvr er odPn" _s i
.is oo o n
i se n ti s n yd / g iC. rana R
t cs R e r ,3 *u v t
a r odnS a i
mI iSnA aau hN t uEe aieb e
ri sd 11h t
A9e e pd m cr e ei. r 0 CR 4 or rGucAtEpcRaTkE enl t otedtk i
1PH LRe"0h .rt eR v SoeEn gS I hsr t
iel seoPt u- do hOnt n e aecor hclieo h
t i
aeo12o d l o nEwvTia R
eRhaI ef t
._ WvasEai Tl oalfEb WfhmEP ot DEShSbo g
0e :o R D 3T C E g
1 x
So o. 1 1 RN 1 1 e 0 5 Nn i
3
/ /
3 r w 2 2 DT 0 0 k
ce 0 5 lo un 3 3 0 0 CT 1 1
,ili i ii 1Ji ]}:;! i:1', I ' l i+
t !! I 'iilji . ,j il:I ki4I. 2 ii1!
4_ _
d r d n t o n a c a A a A 1 e r 1 P e r P O h e O E k E e
t a r.
i n o er i n e t
b k d n d a e i e e n s T n r i
l d p i
l . b t
u o t u s o r m o d W _
s u o p
l o p s r p r p l e t e o m t
s n C. t s t r
p u
d o t S n ee h e c e o C t
cn t t e h t c L eo ple w r
e h
t w
t r S xc o s o o e o EA l
l n t l l s t f
o i sr o i n s o f r t
o t i
a o t o i a
._ p t p -
e s
e e e e e u r u. u r i-t n2 nP i
t n.
ner t
c e
i n2 t -
nP i
t n
n t
c e
oO oo f f oO o f f
oTloo n slry Tne i',ly de 'V o co l ek 3 i
sdP nR ot w pa l 9w e1 o aS Palo pot i .
se nae n) ;res y
e .
r e t
l l vls e
s p' s we l ni 2 i a sed o dd e rc-de pu 'A d m [Tnd hn t a m Mi p se .
rl t
rn a oa n ax _ _
Seh-s C^ _i a p t
c t
S EE tT eve ;o% t L- pm a *0 4 des a + bes ;- -
i n5 S ":
eo e r02 s Rc h . ;- 2 ct y t g ;, 1 y ni n e oh=dSey o otc e g a _ snS t ti t l ei.t r
sl e e BarEv eis r e hed e a enta t
r s t a a n. we eta t e s r ePr v1 e s
e .
c re h t o se *3 thsnm t aol mcu r ao c
iem .
i t ME
_ i dc i u 9 ogo i i x h 4 ph dwix R9s 9a n ent i a r n1 t ee) ient ro i d e i
t t nr bp 1M esep o n d g,ie p nr2 tr ra e( t e p ti r a ea o cnnbp a otbo ada dr f ai t e nr s pl e ootyw des pni puR o l
- rt rt uir _
utah e e0eci a s
r u peRo d
l v0v e1 sr d e g.
nel sove ncat sn t uiwgao e.
t m down asha t a m pins t smf se o g r o e n nr oi al s i 'r l m c eix l t o pa i
i s r a t
t si n t e cwntr;r e trk wor t gt oe r nlo a oo plo a t eepooe en er c ca eedp nnc aia c o l r np e e e PPl oc l l RboCcd Ebaa Pbrd g
s co R R MT C C g
s o. 2 3 MN 1 1 e 5 0 f
f n /
4 0 i
rw 2
/
3 DT 0 0 k
ce 5 0 om l i 4
0 0
1 CT 1 1 l 4 ,! i lr I ; ,
e River Bend Station 1991 Practics Exercise ,
Master Events Summary Clock Drill Msg. Msg. Message Expected Time Time No. To: Summary Actione 1115 03/15 14 CR Plant status upt- 1 Indicates reactor level is Continue to follow the steps outlined in EOP-1 A and being maintair between -100" and -193"; EOP-2.
reactor power is . . proximately 23% and slowly decreasing. Continue to insert contros rods.
Affect repairs to SLC pump *B* breaker.
With alternate electrical power sources available and loads stable, the operators can shutdown the Diesel Generators at their discretion.
Data Indicate that Diesels are in Secured Status by 1130. If operators choose to continue to run Diesel, modify data accordingly.
1130 03/30 15 CR Pisnt Status Update.
1135 03/35 15.1 CR Due to an air line break in the vicinity of the Equipment operators should be directed to condensate domineralizer bypass valve investigate the problem associated with the controIIer, instrument air pressure Is lost to the Condensate System, and recover condensate flow Condensate System air operated valves. The to the suction of the feedwater pumps per AOP-valves go to their failed position,which causes all 0008, Loss of Instrument Air.
condensate flow to be directed back to the condenser he*well. See Supplemental Scenario No. 6 for the major valves affected by the loss of air and the subsequent flowpath setup by that loss. .
This results in a low suction pressure trip of the feedwater pumps. The feedwater pumps are now unavailable to be used for reactor level control.
WWs= A& -+,-.E'Wud- 4.4Esah Ama ##an. 4mm, a4 ag _g. &.,4MM$4d.--.me.4cv W skup p4 AA-ar,& seed.1_-.am.4+44.4,.A49,,MJ_43.AWw .ed & , M A344m45.4,,a44 u,3 4,9_W Mf -ess.4 & M .,a Mk.W 4%s.h 4. 24m4 _g,3%',,=y4dAgaja 4
- e io,i;o ,
s p,
a a i t1 li .
t N fh l! N in11uui til ji l 4jL- !,;Iol;III"'Ijfll! h a8 1 i:
bi,{l l
4{
!11 igl1l Ni p p a!;!! ittet
!!IO li p}l1 ji s, , ,
8:1 e ii lh b 15 i ! L . -
!; ilt !E[ ;fth;i > [ li! t;,!' eI[lI[' f! tk! > ,lt t : -: !I e l e d h v n t
e a o l , . t r s2 r - _ w o eP o . t c t eO . l f a B e e W e r mE ad 'p t a p . rna s m l o1 A a p m n u r A u e p t n P- t p d . oO n1 - n C s cE eP CL - o L d mO . c S o r t ore i nE S e r e r i r p af e v tn o r o o e *3 o d t s t s ' u u t a9 os cp t s es e e w1 e t r r c o d- r e r cn o. o ed ots o eo t s t t r en t i t pit sp s e nd s xc EA t r m t r s n f a e* oe t t r f ou f o i s0 u01 mia f o f p e r f e t o t o co f e ee e e s-r ess e uta u u o e n ua u i nw i n i n t ae i n w i n r t nd t n t n ew t nlo t a o ee o o pt e ol c Cf C C Ob Cfo C eys s ied . io n ar se. t t un cltV r e t hap s be i n ce 'R dun e0t
- sm ,m er y s rS n sia st s0lu eu gn.
sa l d gth i yd e a rien u1 alvp nig an f ar sa nz i nim o cr i pn %pa 0rm f r oir ve t i i t em ai. fo e ama t e oil ta xu
! i ro 3og gt ew r cb S ES des gg n s . wl eebcn yai e t
eae ye6 nnt sd . i c ndt ns a bermse o i ct ni n eyr a si ; . e n; t r a d l u f eN l l ae etc e ga mh na ahrte i s ff, ob crwn t BarEv as ssne t l l t t a n s st gho r oa . i i xwd i s ots ePr ene i nd thl o o win et nors i v1 et R9s MS i swro oeP rge pnr3 l I eeda no i en a gr 9a el rb h po e9 n vhncc rie 1M u t ao n al v1 ao- i al gro.c el eTofS i uep svp sea l smri s igecd s nr n atAdda s e at s el o r e n t ss e ri c1 nin r s aa v pels pts e mp er e ai* ieP oe ba t nenp wele00 rO drm ep t n ore - ehiua or pc v1 r gEt n t aol p e et u mt tS ele- eirl m t _ nfoo ne rdr n to yt o e e aipseopp t e t a uu n sr ar i a t t cht wt* dn3nd i S i a ae t ep ns oo cl awat cw eia9oee npm o otnn CmiI t eoee RsRb l Fm1e bloneSi ope Cat g s :o R MT C
- g. 2 so 6 MN 1 e 5 l 5 im l
ri
/
3 DT 0 k ce 5 om l i 5 1 CT 1
, i hi ;l ;I!j1li ,;ii)i) )llj
[ e 4 River Bond Station 1991 Practice Exercise Master Events ? _ __.- y i Clock Drin Msg. Msg. Message Expected Time Time No. To: C_ - - , Actions i 1200 04/00 17 CR Radiation monitors 1RMS*RE16A/B have Continue to follow steps of EOP-1 A and EOP-2. increased to the Alert setpoint due to the pipe break in containment mNowing fission products to Trend containment radiation levels. Monitor blow directly into primary containment. contale ment pressure and temperature closely. Containment pressure has leveled off at about 19 At this time, a GENERAL EMERGENCY may be psig, and blowdown into containment has declared in accordance with EF-2401, GE EAL 2 decreased in volume since reactor power and initiating Candition 5,"Other Indications of Loss of ; pressure levels have decreased to approximately Two of the Fostowing vrdh Potential Loss of the ! the same values when the power transient Third: Fuel Cladding. RCS Pressure Boundary, ! occurred. Cont.a. ..; a Integrity". j The Emergen.:y Director may choose to declare if a General E.- a f,.. cy is declared,the Em= uwy a General Eraergency at this time. Director should direct the Is pha.-.dation of ti.s ! following pioceda-s: 1
- EF-2-005, "Genersi Emergency" EF-2-006, "Notf5 cations" EF-2407, "Protecttwo Action Recommendation Guidefines*
[ EF-2412," Radiation Exposure Controls
- EF-2-013, "Onslto Radiological Monitoring
- 1 EF-2414,"OWsite Radiological Monitoring"
- EF-2-024,"Offsate Dose Calculations" i
f i l
= @ m . v- w --_r-- - _ _ _ _ _ _ _ _ _ _ _ .
i l-I i ! t i t l' i l i River Bond Station i l' 1991 Practice Exercise ; j amasser Events -_ _ -_, , i ! i Clock Drill Resg. Resg. RAmesage Expected ! l Tome ' Time No. To: - 1 Actions ; I i 4 1 ! 1215 04/15 18 CR O-ring scais on several electrical containment Enter 50P-3, " Secondary Containment and ! penetrations hows failed w.--/ _: _ !,, containment Radiological Release Controt*, l pressure 's being released through the O-ring g l seal ares, past the profictive cover for the Continue to monitor primary containment radiation [
- cables, and into the annulus area. Iowete, and trend radiation levels for the annulus 5 l exhaust (1RRAS*RE11 Ait. }
j Radioactive material from - the primary k , containment is now being rolessed to the Perform dose projections using effluent monitors [ environment through the Standby Gas Treet.nont and -- :::1._::;*:# conditions and compare to System, which is presently taidng a suction on results beood on containment enonitors. } [
- the annulus area. Som Supplemental Scenario !
1 No.8. A General Emergency should be' declared in i accordance with EIP-2-001 GE EAL-2, Initiating [ Condition 5,"Other Indications of Loos of Two of ! the Follousing WIth Potential Loos of the Third: Fuel l j Clodding, ROS Preneure Boundary, Containment ; j - IM- ! i i l The Emergency Director should direct the { i L.g:-._ .:2:a of the _r:. :q procedures-l f EIP-2-005,
- General Ernergency" EIP-2-006,"Nottfications* !
i - EF-2-007, " Protective Action Recommendation i i Guidernes* . EF-2412." Radiation Exposure Controis* l EF-2-013,"Onsite Radiological Monitoring" j !- EIP-2-014,"Offsite Radiological R4ortitoring* ! 1 EF-2-024,"Offsite Dose Calculations
- i i
l 4 ; l t 4 s k~
_, _n t I River Bend Station ! 1991 Practice Exercise i Master Events Summary i ! I Clock Drill Msg. Msg. Message Espected j l { Time Time No. To: Summary Actions j 1 1220 04/20 18.1 CR Radiation monitors 1RMS*RE11 A/B have Trend annulus exhaust radiation levels, and I Increased to the Alert setpoint due to leakage continue to monitor containment radiation levels. l rsst the containment electrical penetrations into . ' the annulus area. Continue to follow the steps of EOP-1 A, EOP-2, and i i EOP-3. j 1 I Continue to mon! tor containment pressure and i l temperature. 1 '
; Review protective actions to ensure that previously 4
recommended actions are conservative. ! ! l 1230 04/30 19 CR The radioactive release to the environment Corppare results of computer dose projections and ', continues via the Standby Gas Treatment System. fi,Id team readings. ; i With reactor pressure below 50 psig all SRV*a Continue to maintain reactor level between -100" l close. and -193*. t l Dose project: ens based on the effluent monitors Continue efforts to restore SLC pump T. l 3 and actual meteorological data indicate that the protective action recommendae lons based on containment conditions are conservative. 1235 04/35 19.1x ED Deliver this message only if a GENERAL Emergency Director decieres a GENERAL l EMERGENCY has not been declared, and the EMERGENCY. ! ! Emergency Director has not recognized that i events have occurred which require the . I declaration of a GENERAL EMERGENCY, and no actions are being taken which would result In : i the declaration of a GENERAL EMERGENCY. ! J
)
River Hend Station 1991 Practice Exe cise Master Event:t S::mmary Clock Drill Msg. Msg. Message Expected Time Time No. To: Sumr , Actions 1245 04/45 2D CR Reactor power is rtout 51 # - pressure Continue f a e=intain reactor level betweer. -100* is approximately 11 psig. and -193". Monitor containment radiation levels. Continue to monitor the release and trar*- the ylue:<5, Continue efforts to restore SLC pump *B'. 1250 04/50 20.1 x CR SLC pump 'B' has twen restored, and is not* Monitor SLC tank level *o determine the amount of ' pumping the Borons solution into the reactor Boron being injected into the reactor vessel. vessel. When the minimum amount of Boron l' >s bet a injected (78 lbs.), reactor level will begir. w be raised. See Supplemental Scenario No. 5. Deliver this message when SLC pump *B' is restored. 1300 05/00 21 CR SLC continues to inject Boron into the vessel. Continue to monitor the release and track the plume. Containment pressure and temperature are decreasing slowly. Reactor power is 0%, with Continue to maintain reactor level between -100" reactor pressure approximately 2 psig. and 103". The radioactive release through SBGTcontinues. Continue to monitor SLC tank level to determine the amount of Scron Injection.
\
. ___ a
t~ River Bend Station 1991 Practice Exercise Master Events Samraary Clock Drill Msg. Meg. Message Expected Time Time No. To: . S_ -y Actions 1315 05/15 22 ~ CR - The minimum amount of Boron has been injected Monitor reactor power, and restore level to
, (78 Itxt ). Reactor level restoration should begin approximately 40*.
! In order to bring level back into its normal operating band. Boron injection continus See Monitor containment radiation levels, and verify that Supplemental Scenario No. 5 for table of the release has been terminated. 2 injection requirements. Continue in EOP-1 A. As level is restored, reactor power remains below 1%, and there is no sustaincil increase Continue to track the plume. that is detected.
; Reactor pressure is negilgible, and steam tdowdown into . containment has consed.
Containment pressure has decayed off to about 1 psig. The relemme of floelon products through ' tt= electrical penetrations has ended. See Supplemental Scenario No. 8. .
; 1320 05/20 22.1x CR. . Deliver this message to the Emergency Director:
Recent inforraation from General Electric shows that containment electrical penetratbne associated with the BWR Mark Ill containment are
- prone to 0-ring seat folksres on the containment side when subjected to temperatures and/or pressures which exceed design parameters for I the containtnent structure. This may lead to .
. unacceptable leekage rates exceeding Technical Specification vaives, and. potentisi ions of primary containment integrity.
1325 05/25 22.1 CR 111 lbs. of Boron has been injected into the Operators should determine that 111 lbs. of Goron reactor vessel. See tatdo of inloction have boon injected into tt= reactor vessel, mui requirements in Supplemental Scenario No. 5. prepare to go into the Shutdown Cooling mode of RHR in accordance with EOP-1 A. Operators should make preparations to establish long term shutdown cooling. _--_-w
River Bend Station 1991 Practice Exercise Master Events Summary l Clock Drill Msg. Msg. Message Expected Time Time No. To- Summary Actions t 1330 05/30 23 CR Plant is in a ec'_ shutdown condition. Boron Continue to monitor plant and environmental injection has been terminated, all control rods conditions. Inserted, reactor level restored, and shutdown coofing established. Formulate recovery plans. 1345 05/45 24 CR Plant is in a cold shutdown condition. Monitor plant and environmental conditions. Consolidate recovery plans. ) 1400 06/00 25 CR Plume is dispersed within the 10 mile EPZ. ; 1415 06/15 26 CR Plant Status Update. 1430 06/30 27 CR Deliver this message after all objectives have been evaluated: The Exercise may be tennineted with concurrence from the Lead Exercise Controller. ; i
. I
?
. .= . - _ - - - _ -
/ 1 I
e SECTION 7.3 DATA TRENDS . l 4 l l
b If 1991 RIVER BEND STATION PRACTICE EXERCISE DRMs MONITOR TREWD DATA ..t critt Time: 00/00 00/05 00/30" 01/00 01/15 01/30 01/45 02/00 02/15 02/30 02/45 C3/00 . Clock Ilme: '0800 0805 0830 0900 0915 0930 0o45 1000 1015 1030 1045 1100 [ 10 N:.rber Location (Units) RE'16 A,B Containment PAM R.B. 186'(R/hr) 0.8 0.8 0.8 0.8 0.8 0.8 0.5 0.8 500 500 500 500 l RE-20 AB Drywt1 PAst D.W.114*(R/hr) 3.0 3.0 3.0 3.0 3.0 3.0 3.0 3.0 10.0 10.0 10.0 10.0- ! RE-21 A,8 Cont. Purge Monitor R.B. 141(se/hr) 9.0 9.0 9.0 9.0 9.0 9.0 9.0 9.0 5.0E5 5.0E5 5.0E5 5.0E5 RE-139 inside Annutus 114'(mR/hr) 0.2 0.2 0.2 0.2 3.2 0.2 0.2 02 Osa Osn Osn OSm RE-141 Refuel Floer South R.B.186*(se/hr) 0.2 0.2 0.2 0.2 0.2 0.2 0.2 C.2 osn oss oss Osn ; RE-146 Containment Airtock F.B. 914'(aft /hr) 0.3 0.3 0.3 0.3 0.3 C.3 0.3 0.3 csit Osn OsM Osw RE-151 Sanpte station Area R.B. 52'(aft /hr) 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 Osn Os= Osn ' Osn RE-162 0.G. Bldg.Reged Area 0.G. 67' (sit /hr) 0.4 5.0 5.0 5.0 5.0 0.4 0.4 0.4 0.4 0.4 0.4 0.4 - RE-16r. 0.G.Btdg.Snpt. Area 0.c.123*(adtihr) 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.0 RE-165 cond.Demin Rgn. Aren 0.G. 67'(est/hr) 9.2 35 35 35 35 9.2 9.2 9.2 9.2 9.2 9.2 9.2 ; RE-166 Cond.Demin Str. Area 0.G. 95'(ed/hr) 0.3 20 20 20 20 0.3 0.3 0.3 0.3 0.3 0.3 'O.3- l RE-167 0.G. Btdg.Vtv. Area 0.G.137'(se/hr) 28 28 25 28 23 23 28 28 28 28 23 26 ' i RE-182 Recovery sagte Tank R.u. 65'(sst/hr) 0.4 0.4 ' O.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 RE-185 Storage Tank Area R.W. 90'(edt/hr) 0.2 0.2 ' O.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 RE-156 Floor Drain Supp R.W. 65'(edt/hr) 0.5- 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 RE-187 High cond. Surr, Area R.W. 6"'(aft /hr) 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 RE-192 Refuel Floor '4outh F.B. . 3'(set /hr) 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 20 20 20 20 RE-193 Refuel Floor North F.B.113'(aft /hr) 0.5 0.5 0.5 0.5 6.. 0.5 0.5 0.5 5.0 5.0 5.0 5.0 RE-194 Supt Re irrns. Tube F.B.123'(set /hr) 0.2 0.2' O.2 0.2 0.2 0.2 0.2 0.2 20 20 20 20 - RE-195 sanple SirA Area F.3. 95'(adt/hr) 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 20 20 20 20 RE-196 Equip. Drain Su!p F.B. 70'(set /hr) 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 20 20 20 20 RE-200 North Holst Area T.B.123'(set /hr) 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.5 0.5 0.5 0.5
.:E-201 Air Removat Pung T.B. 95=(aft /hr) 0.2 0.2 0.2 . 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 RE-202 Rx Feed Ptrp Area T.B. 67'(sdt/hr) . 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 RE-203 Turb. Bldg Sasp Rm T.B. 67'(aft /hr) 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 RE-204 Cond Demin Sasp Rack T.B. 95'(adt/hr) 0.1 0.1 0.1 ' O.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 RE-210 PASS Panet A.B.114'(adt/hr) 0.2 0.2- 0.2 0.2 0.2 0.2 0.2 0.2 20 20 20 20 KE-211 Control Rod Drive A.B. 95'(sst/hr) 0.1 0.1 0.1 0.1. 0.1 0.1 0.1 0.1 5.0 5.0 5.0 5.0 RE-212 hPCS Area East A.B. 70*(set /hr) 0.09 0.09 0.09 0.09 0.09 0.09 0.09 0.09 5.0 5.0 5.0 5.0 RE-213 RHR A Ares West A.B. 70'(edt/hr) 2.0- 2.0 2.0 2.0 2.0 2.0 2.0 2.0 5.0 5.0 5.0 5.0 RE-214 RHR B Area East A.B. 70*(sdt/hr) 2.0 2.0 2.0 ~ 2.0 2.0 2.0 2.0 2.0 5.0 5.0 5.0 5.0 RE-215 RNR C Area A.B. 70*(ma/hr) 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 5.0 5.0 5.0 5.0 RE-216 LPCS Area West A.B.10*(adt/hr) 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 5.0 5.0 5.0 5.0 RE-217 hPCS Penetration East A.B.70'(sit /hr) 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 20 20 20 20 RE-218 LPCS Penetration West A.B.70'(sit /hr) 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 20 20 20 20 KE-219 RCic Area West A.B. 70'(sdt/hr) 0.5 - 0.5 0.5 0.5 0.5 0.5 0.5 0.5 5.0 5.0 5.0 5.0 Note: OSM - Off Scale High
1991 RIVER BEND STATION PRACTICE EXERC!SE ORMS MONITOR TREND DAtt Dri't Time: 03/15 03/30 03/45 04/00 04/15 04/30 04/45 05/00 05/15 05/30 05/45 Clock Time: 1115 1130 1145 1200 1215 1230 1245 1300 1315 1350 1345
!D Ntrber Location (Units) 500 500 7.5E3 7.5E3 4.5E3 3.9E3 3.3E3 2.4E3 5.0E2 1.9E2 1.9E2 RE-16 A.B Contairrnent PAM R.S.186'(R/hr)
RE-20 A,B Drvwett PAM D.W. 114'(R/hr) 10.0 10.0 100 100 60.0 52.0 44.0 32.0 10.0 4.0 4.0 RE-21 AB Cont. Purge Monitor R.B.141(mR/hr) 5.0E5 5.0E5 7.5E6 7.5E6 4.5E6 3.9E6 3.3E6 2.4E6 5.0E5 1.9E5 1.9ES RE-139 Inside Annulus 114'(mR/hr) OCH OSH OSH OSM OSM OSH OSM OSN OSH OSM OSM RE-141 Refuel Floor South R.B. 186'(ndt/hr) OSH OSH OSH OSH OSM OSH OSM OSN OSM OSM 01.. RE-146 Contairunent Airlock LB.114'(edt/hr) OSM OSH OSH OSM OSH OSM OSH OSH 054 OSM OSM RE-151 Sample Station Area R.B.162'(est/hr) OSH OSH OSH OSM OSM OSM OSH OSH OSM OSH OSH RE-162 0.G.ntdg. Regen Ares 0.G. 67' (est/hr) 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 0.4 RE-164 0.G.8tdg. Sept. Area 0.G.123'(adt/hr) 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.0 2.0 RE-165 Cond.Demin Ron. Ares 0.C. 67'(est/hr) 9.2 9.2 9.2 9.2 9.2 9.2 9.2 9.2 9.2 9.2 9.2 RE-166 Cond.0emin Str. Area 0.G. 95'(est/hr) 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 RE-167 0.G. Btdg.Vtv. Ares 0.G.137'(edt/hr) 28 28 28 28 28 28 28 28 28 28 28 RE-182 Recovery Sample Tank R.W. 65'(est/hr) 0.4 0.4 0.4 04 0.4 0.4 0.4 0.4 0.4 0.4 0.4 RE-185 Storage Tank Area R.U. 90*(mR/hr) 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 RE-106 Floor Drain Sarp R.W. 65'(mR/hr) 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 RE-107 High Cond. Surp Area R.W. 65'(edt/hr) 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 RE-192 Refuel Floor South F.B.113'(eit/hr) 20 20 300 300 180 150 125 90 20 8.0 8.0 RE-193 Refuel Floor North F.B.113'(edt/hr) 5.0 5.0 75 75 45 38 30 23 5.0 2.0 2.0 CE-194 Supt Rm Trans. f tbe F.B.123'(edt/hr) 20 20 300 300 180 150 125 90 20 8.0 8.0 RE-195 Sanple Sink Area F.8. 95'(est/hr) 20 20 300 300 180 150 125 90 20 8.0 8.0 RE-196 Equip. Drain Strp F.B. 70'(cit /hr) 20 20 300 300 180 150 125 90 20 8.0 8.0 0.5 0.5 12 12 12 12 12 12 12 12 12 EE-200 North Holst Area T.B.123'(edt/hr) , RE-201 Air Removat Ptep T.8. 95'(mR/hr) 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 0.2 RE-202 Rm Feed Ptrp Area T.8. 67'(ndt/hr) 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 R8E-203 Turb. Bldg Saep Rra T.8. 67'(edt/hr) 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 RE-204 Cond Demin Sanp Rack T.8. 958(mR/hr) 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 l RE-210 PASS Panet A.B.114*(wit /hr) 20 20 300 300 180 150 125 90 20 8.0 8.0 RE-211 Controt Rod Drive A.B. 95'(mR/hr) 5.0 5.0 75 75 45 40 33 24 5.0 2.0 2.0 l RE-212 HPCS Area East A.B. 70'(est/hr) 5.0 5.0 75 75 45 40 30 25 5.0 2.0 2.0 RE-213 RHR A Area West A.B. 70'(edt/hr) 5.0 5.0 75 75 45 to 30 25 5.0 2.0 2.0 RE-214 RHR B Area Eest A.B. 70*(ast/hr) 5.0 5.0 75 75 45 40 30 25 5.0 2.0 2.0 RE-215 RHR C Area A.B. 70'tadt/hr) 5.0 5.0 75 75 45 40 30 25 5.0 2.0 2.0 RE-216 LPCS Area West A.B. 70'(rdt/hr) 5.0 5.0 75 75 6 40 30 25 5.0 2.0 2.0 ( 300 too 150 125 90 20 7.5 7.5 RE-217 HPCS Penetration East A.B.70'(mR/hr) 20 20 300 I RE-210 LPCS Penetration West A.8.70'(sit /hr) 20 20 300 300 180 150 125 90 20 7.5 7.5 l RE-219 RCIC Area West A.B. 70*(est/hr) 5.0 5.0 75 75 45 45 30 25 5.0 2.0 2.0 r tote: OSM Off Scale High
j .. 1 1991 R1VER BEND STATION PRACTICE EXERCISE DRMS MONITOR TREND DATA. 1 Dritt Time- 06/00' 06/15 06/30 . Clock Time: 1400 1415 '1430 1 10 Ntsnber Location (Units) RE-16 A,8 Contairment PAM R.S.196'(R/hr) 1.9E2 Lt.9E2 1.9E2 i CE-20 A,8 Drwel1 PAM D.W. '114*(R/hr) 4.0 - 4.0 4.0 CE-21 A,8. Cont. Purge Monitor R.8.141(nft/hr) 1.9ES 1.9E5 1.9ES ! RE-139 Inside Annutus 114'(edt/hr) 'OSM' OSH OSN Cc-141 Refuel Floor South R.S.' 186*(aft /hr) OSH OSM OSH RE-146 Contalrnent Airlock F.B.114'(aft /h?) OSH OSM OSH RE-151 Sa gte Station Area R.B. 162'(sit /hr) OSN OSH OSH RE-162 0.G.8tdg Regen Area 0.G. 67 (udt/hr) 0.4 0.4 0.4 02-164 0.G.Stdg.Sgt. Area 0.G.123'(aft /hr) 2.0 2.0 2.0 RE-165 cond.Demin Ron. Area 0 G. 67'(sit /hr) 9.2 9.2 9.2 RE-166 Cond.0emin Str. Area 0.G. 95'(aft /hr) 0.3 0.3 0.3 RC-167 0.G. 8tdg.Vtv. Area 0.G.137*(rit/hr7 28 28 28 RE-192 Recovery Sample Tank R.W. 65'(aft /hr) 0.4 0.4 0.4 l CE-1G5 Storage Tank Area R.W. 90*(aft /hr) 0.2 0.2 0.2 RE-186 Floor Drain Stmp R.W. 65'( w /hr) 0.5- 0.5 0.5 RE-107 High Cond. Stmp Area R.W. 65'(sit /hr) 0.3 0.3 'O.3 R2-192 Refuel Floor South F.S.1138(aft /hr) 8.0 8.0 8.0 RE-103 Refuel Floor North F.8.113*(sit /hr) - 2.0. 2.0 2.0 RE-194 Stot Rm Trans. Tube F.B.123'(aft /hr) 8.0 8.0 8.0 - RE-195 Samle Sink Area F.8. 95'(udt/hr) 8.0 8.0 8.0 ' RE-196 Equip. Drain Stmp F.B. 70*(adt/hr) 8.0 8.0 8.0 QE-200 North Holst Area T.B.123'(ast/hr) 12 12 12 RE-201 Air Removal Ptap T.9. 95'(sit /hr) 0.2 0.2 0.2 i RE-202 Rn Feed Ptmp Area T.B. 67'(adt/hr) 1.5 1.5 1.5 RE-203 Turb. 8tdg Sanp Rm T.B. 67'tadt/hr) 0.1 0.1 0.1 RE-204 Cond Demin Sanp Rock T.8. 95'tadt/hr) 0.1 0.1 0.1 RE-210 PASS Panet A.B.114'(adt/hr) 8.0 8.0 8.0 RE-211 Control Rod Drive A.B. 95'<sst/hr) 2.0 2.0 2.0 RE-212 MPCS Area East A.S. 708(ast/hr) 2.0 2.0 2.0 RE-213 RHR A Area West A.B. 70'(udt/hr) 2.0 2.0 2.0 CE-214 RHR 8 Area East A.S. 70'(edt/hr) -2.0 2.0 2.0 ' DE-215 RHR C Area A.B. 70'(edt/hr) 2.0 2.0 2.0 CE-216 LPCS Aree West A.B. 70'(sdt/hr) 2.0 2.0 2.0 RE-217 HPCS Penetration East A.8.70'(ndt/hr) 7.5 7.5 7.5 RE-213 LPCS Penetration West A.B.70*(nst/hr) 7.5 7.5 7.5 RE-219 RCIC Aree West A.S. 70'(edt/hr) 2.0- 2.0 2.0 i Note: OSH - Off Scale Nigh 4
-- . - . - .n'. ,- .,. , , _ ,. , , _ _ _ _ _ _ _ , _ , . _
_ ,, ,l___ , _ , , _ , _ __ _
6 1991 RIVER BEND STATION PRACTICE EXERCISE PROCESS MONITOR TREND 04TA 01/15 01/30 01/45 02/00 02/15 02/30 00/05 00/30 00/45 01/00 Orill Tine: - 00/30 00/00 0830 0845 0900 0915 0930 0945 1000 1015 1030 Clock Time: 090 0800 0805
._==- _._
ID Ntrber Location (Units) 1.3E+00 1.3E+00 1.3E+00 1.3E+00 f.3E+00 1.3E+00 1.3E+00 1.3E+00 1.3E+00 1.3E+00 1.3E+00 fuel Bldg. Ver:t Lxhaust (gCi/sec) 1.3E+00 5.70 01 3.7E-01 5.7E-01 5.7E-01 5.7E-01 RE-5A,B 5.7E-01 5.7E-01 5.7E-C1 5.7E-01 Radwest 8tdg. Vent Exh. (pCi/sec) 5.7E-01 5.7E-01 5.7E-01 7.4007 7.4E-07 7.4E-07 7.4E-07 7.4E-07 RE-6A.8 7.4E-07 5.0E-06 5.0E-06 5.0E-06 5.0E-06 5.0E-06 Main Plant Exhaust Duct (pCi/cc) 7. iE-07 1.2E-04 1.2E-04 1.2E-04 j.2E-04 1.2E-04 1GE-125 1.2E-04 1.2E-04 1.2E-04 1.2E-04 Maia Plant Exhaust Duct (gCi/ce) 1.2E-04 1.2E-04 1.2E-04 4.3E-02 4.3E-02 4.3E-02 4.3E-02 4.3E-02 2GE-125 4.3E-02 4.3E-02 4.3E-02 4.3E-02 Main Plant Exhaust Duct (sci /cc) 4.3E-02 4.3E-02 4.3E-02 3.3E+01 3.3E+01 3.3E+01 3.3E+01 3GE-125 3.3E+01 2.3E+02 2.3E+02 2.M +02 2.3E+02 2.37 02 3.3E+01 4GE-125 Main Plant EGaust Du-t (gCI/sec) 3.3E+01 2.0E-12 2.0E-12 2.0E-12 2.0E-12 2.0E-12 2.0E-12 7.CC-12 2.0E-12 2.0E-12 2.CE-12 2.0E-12 Aux. 8tdg. Vent (pCi/cc) 2.0E-12 3.0E-08 3.0E-08 3.0E-08 3.0E-08 3.0E-08 3.00 08 RE-110P 3.0E-08 3.0E-08 3.0E-08 3.0E-08 3.CE-08 3.0E-08 3.0E-10 Aux. 8tdg. vent (sci /cc) 3.0E-08 8.0E-10 3.0E-11 3.0E-11 3.0E-11 SE-110G 3.0E-11 3.0E-11 3.0E-08 3.0E-08 3.fE-08 3.0E-08 1.0E-09 RE-118P Turbin Bldg. Vent (gCi/cc) 6.0E-07 6.0E-07 6.0E-07 2.0E-08 1.0E-10 1.0E-10 1.0E-10 1.CE-10 f.0E-10 6.0E-07 6.0E-07 2.0E-10 RE-118G Turbin Bldg. Vent (sci /cc) 2.0E-09 2.0E-09 2.00 09 2.0E-09 2.0E-09 2.0E-09 5.0E-10 2.0E-09 2.06-09 2.0E-09 2.0E-09 6.0E-08 2.0E-08 RE-12?P C.D./0.G. 8tda. Vent (sci /cc) 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 2.0E-07 C.O./0.G. 8tdg. Vent (gCi/ce) 2.0E-07 2.0E-07 2.0E-07 6.0E-10 6.0E-10 6.0E-10 5.3E-10 5.0E-10 RE-124G 6.0E-10 6.5E-10 6.5E-10 6.5E-10 6.5E-10 6.5E-10 Main Plant Exhaust Duct (sti/cc) 6.0E-10 7.4E-07 7.4E-07 7.M-07 7.4E-07 7.4E-07 SE-1269 7.4E-07 5.0E-06 5.0E-06 5.0E-06 5.0E-06 5.0E-06 Main Plant Exhaust Duct (pCl/cc) 7.4E-07 1.0E-07 1.0E-07 1.k.-07 2.CE-03 2.3E-03 RE-126G 1.0E-07 1.0E-07 1.0E-07 1.0E-07 Cont Atmosphere (gCi/cc) 1.0E-07 1.0E-07 1.OE-07 5.0E-06 5.0E-06 3.0E+00 3.5E+00 RE-111P 5.0E-06 5.0E-06 5.0E-06 5.0E-06 5.0E-06 Cont. Atmosphere (gCi/cc) 5.0E-06 5.0E-06 5.0E-06 6.7E-07 6.7E-07 6.7E-07 6.7E-07 6.7E-07 RE-111G 6.7E-07 6.7E-07 6.7E-07 6.7E-07 6.7E-97 6.7E-07 D.W. Atmosphere (gCi/cc) 6.7E-07 3.3E-05 3.3E-05 3.3E-05 3.3E-05 3.3E-05 SE-112P 3.3E-05 3.3E-05 3.3E-05 3.3E-05 0.W. Atmos @ere (gCi/cc) 3.3E-05 3.3E-05 3.3E-05 2.0E-06 2.0E-06 2.0E-06 2.0E-06 2.0E-06 RE-112G 2.0E-06 2.0E-06 2.0E-06 2.0E-06 SGTS Effluent (pCl/ce) 2.0E-06 2.0E-06 2.0E-06 3.0E-06 3.0E-06 3.0E-06 3.0E-06 3.0E-06 RE-103 3.0E-06 3.0E-06 3.0E-06 3.0E-06 Cont. Purge (ACl/cc) 3.0E-06 3.0E-06 3.0E 06 2.5E-08 2.5E-08 2.5E-08 2.5E-08 2.5E-08 RE-116 2.5E-08 2.5E-08 2.5E-08 2.5E-08 AnrTJtUs Exhaust (pCi/cc) 2.5E-08 2.5E-08 2.5E-08 RE-11A,8 200 200 200 50 0 1 200 200 200 200 200 200 200 80 20 0 Off Cas Pretreatment Monitor (nR/hr) 80 80 80 80 80 f Of f Ces Postreatment Monitor (cpn) 80 80 80 80 800 800 800 1000 1000 800 800 800 800 800 800 750 1000 1000 Main Steam Line Rsd. Monitor A (mR/hr) 800 750 750 750 750 750 750 750 750 1000 1000 Main Steam Line Red. Moniter 8 (eR/hr) 750 750 750 750 750 50 750 750 750 750 1000 1000 Nain Steem Line Red. Monitor C (re/hr) 750 825 825 825 825 825 825 825 825 825 Main Steam tine Rad. Monitor 0 (e*/hr) 825 , l i __
i!I i!r rIi , - , LI I [![ [( .)l! i { }if?[i(jtI;! r i!; f; i!hI 31 C000001 3335281 008631 175362 0 30 o - - - 01 - o1 Cf- 00C00000- - - - - - + - - - - -
/ 3 EEEEEE22222EEEEEEEEGE 777 1 7447311 000030 3350 -
53 6600 01 3. 1 L Q Q.7 Q42331 4. E. 22E.E. 5 6 0.Q Q G Q 6 3 2 3 08 1 1 1 1 01 27262810084201 75361 5 0000001 01 1 1 0000000000
+ - - - - + - - - - - - - - + + - - - - -
1 5
/1 EEEEEEEEEEEEEEEEEEEEE 000000 372221 C.000001 26373402 0000 53 0000 01 1 52221 2331 22221 263532 1 1 1 1 01 1 1 1 0000001 6' 281 00041 0275260 0 * - - - 01 - +1 0000000000
- - - - - - + + - - - - +
00
/0 EEEEEEEEEEEEEEEEEEEEE 000000 53 370003000000702173601 0000 0000 01 1 51 1 1 523312291 81 63231 1 1 1 1 .
01 1 1 1 6261 008311 275260 0000001 01 1 1 0000000000 5 + - - - - + - - - - - - - - + + - - - - + 45 EEEEEEEEEEEEEEEEEEEEE 000000
/4 42 .
374442000000343573405 0000 0000 01 151 1172331221 1 1 163331 1 1 1 1 01 1 11 6261 00831 1 275260 0000001 01 1 1 0000000000 0 + - - - - + - - - - - - - - + + - - - - + 30 EEEEEEEEEEEEEEEEEEEEE 010000
/3 42 01 3 7 7 7 7 5 0 0 0 0 0 0 6 7 6 8./. 3 2 0 8 151 1 1 82331 2211 1 1 63431 0000 0000 1 1 1 1 01 1 1 1 7281 00S31 127526 5
1 5 0000001 01 1 1
+ - - - - + - - - - -
EEEEEEEEEEEEEECEEEEEE C00000000W
- - - e + - - - -
000000
/1 42 3700000000009071 73002 0000 0000 01 1 52221 2331221 21 263532 1 1 1 1 01 7421 281 008071 275666 0 0000001
+ - - - 011 - + 1- 01 - -00000000
- - - - - + + - - - - -
00 EEEEEEE EEEEEEEEEEEEE 00000i )
/0 42 3 7 4 2 3 3 0. M. 0 0 0 0 0 4 0 5 7 3 0 0 5 000C 0000 01 157143233122473363232 1 1 1 1 O1 7421 281 o08071 275668 5
45 G000001- - - - + -01t EEEEEEEEEEEEEEEEEEEEE
- - -1 - -01 - - 00000000
+ + - - - - -
000000
/4 374233000000044973005 0000 31 0000 01 1571 432331 22472263232 1 1 1 1 01 7421 2S1308073075668 0000001 01 1 1 01 000G0000 0 + - - - - * - - - - - - - - - + - - - - -
30 EEEEEEEEEEEEEEEEEEEEE 000000
/3 374233000000249173005 0000 31 0000 01 157143233122473563232 11 1 1 01 7421 251 008073075668 0000001 01 1 1 01 00000000 5 + - - - - + - - - - - - - - - + - - - - -
1 5 EEEEEEEEEEEEE5EEEEEEE 000000 0000
/1 31 3 7 4 2 3 3 0 0 0. O. 0 0 3 4 3 7 7 3 0 0 5 0000 01 157143233122473463232 '
1 11 1 01 7421 281 008073075668 0000001 01 1 1 01 00000000 0 + - - - - + - - - - - - - - - + - - - - - 00 EEEEEEEEEEEEEEEE1EEEE 00o000
/0 31 01 374233000.O.0064927300.!.
1571432331 22472463232 r000 0000 1 1 1 1 01 7421 281o08073075668 0000001 01t 1 01 00000000 5 + - - - - + - - - - - - - - - + - - - - - - 45 EEEEEEEEEEEEEEEEEEEEE 000000 . /4 374233000000747873005 0000 20 0000 - 01 1571432331 22472363232 1 1 1 1 _ ) ) ) ) rrrr
- : ) hhhh ee r /I//
mm t f f t t f g(: (ma ee i i TT
) )
cc) ) ) c
)
) )
h t/)a. f Rf ( eeccce sacccs ec cc e e i k ( ( A8CD t c ////// ) ) // i o i iiil i ccii rrrr.r rl OC tctccc' ssssss ) ) / / sp cccC' oooooo t t t t t t ( ( ( ( ( ( ecI i ( ( ) ) iiiiii E ) ) ccCc cc) ) ) nnnnnn S t .t t t t cc//gst t cccc c nooooo I C sh ce cccciI ( ( cc//cc) c MMMMhM R uxuuuu//CC uuil / / c / E h aEDDDDiisFt cc( tDDCCl ( nn gpCC/cC l c)i t t . . . . nndddd X E xt t t t t ss eet t( ( ggi cg eea aaa E nsss s( ( t tVV ss ( ( t/( mmRaaa E
)
s euuuu t V aaaat t ee . . aar ree( Ct nn uuee si t t aaeeee C I it n e .hhhh xxx xee nnVV g2hhd *c eerrx gs ( u eennnn rriiii T n V gEEEEVV . . t t EE p hn a t t LLLL C A U ( .l d t t t t . .dd ggBS x hss@ t t oossugx
@e p eeeht es r ommmm R A gB nnnnggt t . . nnmmool rE PP a aaa PT n eeee ND A o d
a a a a o d 8 8 G. l tl l l l l i G.aet l t mmf u l AAt t f P s sst t t t 0 B sPPPPBE e nn00PP AAE u aaSS5S CC 1 1 N D it a c l wnnnn . ediiii x xr
. be i i /. /. n n t . t. . . St u
.t nnnn AE o ueaaa auuuu r D. 0.aaoo i i n.n.W G onW T nn f f fi f ae i ias i
T R ST t F R MMM MA AT T CCM MCCD0SCA OoMMMM DR N O E T SI N RO E M r V e 8, I S RS br B,9,52222008844661 5 5 5 P G P1G2236A PGPGPGPG E u A A1 1 1 1 1 1 1 1 222211 1 1 01 1 1 C N 56 - - - 1 1 1 1 1 11 1 1 11 1 1 1 1 9O - EEEE - - - - - - - - - - - - - - - 9R 0 EEGGGGEEEE EEEEEEEEEEE 1 P 1 R R1 234R R R R R R R R R R R R R RR
+ ;I !' ' ,ll 4 ' 4
t 4 9 1991 RIVER BEND STAtl0N PRACTICE ErERCISE PRCCESS MONITOR 1 REND DATA . Dritt Time: 05/45 06/00 06/15 06/30 Clock Time: 1345 1400 1415 1430 s 10 N W r Location (Units) RE-5A,8 Fuel Stdg. Vent Exhaust (sciisec) 1.3E+00 1.3E+00 .1.3E+00 1.3E+00 l RE-6A.B Radwest 8tdg. Vent Exh. (sci /sec) 5.7E-01 5.7E-01 5.7E-01' 5.7E-01 I i 1GE-125 Main Plant Exhaust Duct (pCf/cc) 4.3E-05 5.6E-07. 5.6E-07 5.6E-07 t 2CE-125 Main Plant Exhaust Duct (FCI/cc) 1.2E-04 1.2E-04 1.2E-04 1.2E-04 :y 3GE-125 Main P1 ant Exhaust Duct (pC!/cc)~ 4.3E-02 4.3E-02 4.3E-02 4.3E-02 4CE-125 Main Plant Exhaust Duct (sci /sec) 2.2E+03 3.4E+01 3.4E+01 3.4E+01 RE-110p Aux. Bldg. Vent (pCf/cc) 2.0E-12 2.0E-12 _2.0E-12 2.0E-12 RE-110G Aux. 8tdg. Vent (sti/cc) 3.0E-08 3.0E-08 3.0E-08 3.0E-06 . RE-11GF Turbin Bldg. Vent (pCf/cc) 3.0E-11 3.0E-11 3.0E-11 3.0E-11 , ! RE-118G Turbin 8tdg. Vent (sci /cc) 1.0E-10 1.0E-10 1.0E-10 1.0E-10 j KE-124P C.D./G.G. Btdg. Vent (pCI/cc) 2.0E-10 2.0E-10 2.0E-10 2.0E-10 RE-124G C.D./O.G. Btdg. Vent (pCl/cc) 2.0E-08 2.0E-06 2.0E-08 2.0E-06 ! ! RE-126P Main Plant Exhaust Duct (pCl/cc) 4.0E-07 3.5E-10 6.0E-10 6.0E-10 7 Main Plant Exhaust Duct (pCI/cc) 4.3E-05 5.6E-07 7.4E-07 7.4E-07 t , RE-126G l RE-111P Cont. Atmosphere (pCf/cc1 6.4E-01 6.4E-01 6.4E-01 6.4E-01 ( RE-111G Cont. Atmosphere (pCl/cc) 8.4E+00- 8.4E+00 S.dE+00 8.4E+00 ; RE-112P D.W. Atmosphere (pCf/ce) 6.7E-07 6.7E-07 6.7E-07 6.7E-07 . 5 i RE-112G 0.W. Atmos # tere (pCI/cc) 3.3E-05 3.3E-05 3.3E-05 3.3E-05 r RE-103 SGTS Effluent (pCf/cc) 1.1E-05 2.0E-06 2.0E-06 2.0E-06 i RE-116 Cont. Purge (pCf/cc) 3.0E-06 3.0E-06 3.0E-06 3.0E-06 -! RE-11A,8 Annutus Exhaust (pCf/ce) 4.4E-04 '6.8E-06 3.5E-06 1.9E-07 r Of f Gas Pretreatment Monitor (udt/hr) 0 0 0 0 > Off Gas Postreatment Monitor (cpm) 0 0 0 0 -! i Main Steam Line Red. Monitor A (udt/hr) .1000 1000 1000 1000 ? , Main Steam Line Rad. Monitor 3 (aft /hr) 1000 1000 1000 1000 l Main Steam Line Rad. Monitor C (sst/hr) 1000 1000 1000 1000 ! Main Steam Line Rad. Monitor D (Wt/hr) 1000 1000 1000 1000 5
.-.c
~ ^ ^ ~ ~ _~'%-~
*r-w , , , .
6 N ( O O o O o O O O O O o
- O o O O O O o O
- " @ D N M g " O O
' l I ( I ,
" . >v9 j 3 4 y I g I I -
o (I
- o . k7 54 *O
( .* 9 v ~ h5 at
~
a -
- E 8 * --
8 p , O o c ~ *
= gm O n
S UM '
' O2 -, N U $
M 8 'M -- k 0 O m Oe -, E d x$ w a u e *, WmMe > o_
* / ,? o 0
o <3 -- ~O
@$ r .
p
,_ y $ ~
y
'** C Uo a
Y w f) -- g 0g
- -4 --
.w u
t -- O -o
- n. a. 21
= O *
, - , 0 cn o.5 ~ o o u
=
~
CD o e o y -- 2 M O o s CD N -- O W O o c- -.- O O o -- O. o O o
-I 5: --
-- O O
O o
* ~
2 O o -- O o o o . O o
-- O n ; f , i 1 I J, o. -
v ; i I g ( I ' N O o D o O O O C O o a W og o o
=
0 N o N O M g ( j ( i
~1 e > s ,
' - ~ - - - _ _ _ _ _ ' ' ----. _
1 I e
-*En*'o-a'*
O O O N N N O N - e b l 1 1 A 9 (') J> -
*. /
~
-s e
X Z . / V, a -
~
.. : aN Ow _
b
- u. N -
OE x c
-O d
O g o n g
.2i - < o -
~
.e m
O* to L o-AE ~OO w k GE <> o-f6 " OE
" .5 0
<> i -
W c I a <> < - CD o - O gu g () , ,_ O r j m l o g
<> i -
l n - () 1 = l i i i i i i i i i Wi~ N O co @ M N O co e v N O N - - - - - Q. 6 eMM 36 @
i-i RBS 1991' Practice Exercise Suppression Pool Temperature and Level I i 30 ! t
+
Level A v Temperature -
- 225 '(
28 -- l P W 26 --- k O T e
-- 175 m 1 L == = P,
?. 24 -- [ === r i /
u r
~
22 --
-- 125 20 ---
. , , , ; - = = = = = -
' ' ' ' r i i , i i e i i i , i i-, i i ~3 a t i i i 1 i 6 i e' i i i i i 1 a a i i i e i i i i i 4 7:00 8:00 9:00 10:00 11:00 12:00 13:00 14:00 Clock Time u
i RBS 1991 Practice Exercise Drywell Temperature and Pressure i
~
i 15 350
-- 330
+ Pressure O Temperature 12.5 -- -- 310 I
^^
vv !
-- 290 10 --
s -- 270 250 7.5 -- b)7 230 1 m D e e s 5-- -- 210 u _, , / '
-- 190 t r "
e 2.6 -- \ -- 170 e N1 150
/f 0-' =,= = = = = = = = = = #
-- 130 l bx vA AvvA vvvvvv A A A A A A vv A A
-- 110
-2.5--
-- 90 I I I I 1 I I ? I i l i l i I I ! I I~f I 1
-5 1 1
,I i i , i i , , i i i i i , , ,i , , I, , , i i , , 70 i i 14:0 0 I
! 7:00 8:00 9:00 10:00 11:0 0 12:0 0 13:0 0 l Clock Time
- _ . . , _ m. . - . . _ . . _ . _ _ _ . , ,
4 SECTION 7.4 ASSUMPEONS
CHEMISTRY AND RADIOLOGICAL SCENARIO ASSUMPTIONS A. Radioloaical~-Parameters
- 1. _ Radioactive material released (simulated) will consist primarily of noble gases and iodine.
- 2. .The dispersion factors used-to calculate off aite data are those derived for- use with the EDP Class A Atmospheric Dispersion Model centerline values.
- 3. No filtering credit is allowed 'for noble gases.-SBGT-filter efficiency is assumed to be 99%. for iodine and particulate removal. ,
B. In-Plant Radiation Da_ta
- 1. Dose rates due to airborne concentrations following the release 'were developed by calculating a centerpoint immersion dose in a semi-infinite cloud of noble gases utilizing the formula:
..D = X,
- DF, (B-1) where:
D, -= gamma air dose- of nuclide -. (i) Xi = concentration of nuclide (i)
~
DF, = - dose factor for exposure . to a semi-infinite cloud of nuclide (i) Dose factors were obtained from REG Guide 1.109 Table B-
- 1. The isotopic ratios for the various nuclides are those listed in the: dose assessment model for a. LOCA.
- 2. The dose rates dre to contributions from various in-plant systems (! .e. piping, vent ducting, etc. ) are calculated based on the Point -Source /Line Source equations and-
"Radlological Health Handbook" thumbrules given as:
R/hr 0 l' =6*C*E*n (B-2) DR, = DR,
- _ ( r,) '/ ( r,) ' (B-3)
DR, = DR, * ( r3) / ( r,) (B-4)
. where:
C = number of curies E = gamma ray energy (MeV) n = gamma quanta / dis DR, = dose rate at point 1 DR, _ = dose rate at point 2 r, = distance from source at point i r, = distance from source at point 2 consideration is given in areas of the plant where dose rates are due to a combination of airborne radioactivity and shine.
- 3. All area radiction monitors within an affected range reflect contributions from airborne radioactivity and/or shine.
C. Chemistry Data
- 1. Post accident activity transportation assumptions are derived using the two methodologies given in NUREG-0737.
Containment and Suppression pool activities increase slightly at 1015 due to minor cladding failures (<1.0%) caused be the ATWS and cycling of the SRVs. At 1145, cladding failure increases to approximately 6.0% due to the injection _of relatively cold (~200*F) water. At this time, fission products are vented. directly- _ into Containment through the ruptured LPCI line, thereby bypassing the drywell and the Suppression Pool, t Drywell 0% Noble Gas t 0% Iodine
; ; g 0% Particulate
* * * * * * ~~~- Sunnression Pool i t ; g g 1% Noble Gas-Rx* *
- 10% Iodine
'4 t SBGT Stack 10% Particulate DW 4
-*t Containment l' :lj 99%-Noble Gas
;Supp.
90% Iodine Pool 90% Particulate l l'
-~ _ - . . - . . _,
_ 2. PASS samples at each location are. isotopically decayed from time of reactor shutdown. Isotopic mix and ration are derived from NEDO-22215 for a particular damage type and are corrected for plant specific power and volume. In addition, sample result activities account for system effects (i.e. dilution, leakage, etc.).
- 3. Postulated core damage is approximately 5% Fuel melt based on NEDO-22215 and corrected for plant specific power and volume.
- 4. Dose rates for PASS samples were calculated'using the
" Radiological Health Handbook" rule of thumb:
R/hr 0 l' = 5.64 *C* E (C-1) where: C = number of vuries E = gamma energy in MeV Gamma energy was conservatively chosen as 0.5 for iodine and 0.7 for noble gases. D. Field Survey Data
- 1. The downwind gamma doses were determined using the class A atmospheric dispersion model centerline values. Open window meter readings are the summation of plume gamma dose, plume beta dose, and iodine deposition gamma dose.
Iodine deposition beta dose is considered to be negligible at 3'.
- 2. Air sample results (CPM on silver zeolite cartridge) are back-calculated from airborne activity concentrations using plant and meter specific procedures.
- 3. The iodine deposition values were calculated as follows:
! a. Total number of curies released for each iodine isotope was calculated using the stack sample analysis results and release flowrates.
- b. Gross iodine deposition was determined by using the i summation of each decay corrected isotope from the l formula:
l
~
D, = ( (C, *e )
- DF) / (X * .3927) (D-1)
. where: D, = depoffition of isotope (i) in Ci/m' C, = curies released of isotope (i) DF = deposition factor: REG Guido 1.111 Fig. 6-9 X = distance from source in meters
= .693/ isotope half-life (hours)
A t = time since release occurred (hours) '
.3917 = arc length in radians of a 22.5* section
- c. The soil concentration was deterrined using a depth of 1" and a density of 2100 kg/m'.
- d. The water concentration assumes the sampl'e is drawn at a 1" depth,
- e. The grass and vegetation samples were calculated using average deposition fractions and densities from NUREG/CR-3332 ORNL-5968 " Radiological Assessment" Table 5.1:" Fraction of Total Deposition Retained on Vegetation" pg. 5-15.
- 4. The concentration of radioiodine in milk was calculated based on the assumption that all downwind dairy herds were removed from the pasture prior to plume arrival and kept on stored feed. One herd was placed on pasture one day after plume passage for four hours.
- a. The I-131 activity in the milk sample was determined using the formula from NUREG/CR-3332 ORNL-5968
" Radiological Assessment" pg. 5-89,90:
.114t -e C(t) = I
- D.
- 1. 8 6E-2 * (e .9t) (D-2) where:
C = concentration in milk I = daily forage consumption by the cow (kg/ day) D. = initial activity on the forage (pCi/kg) t = time (days)
- b. The PAG preventive and emergency levels are '.agged when the concentration is above the target level given in U.S. Dept. of Health and Human Services
" Preparedness and Response in Radiation Accidents",
HHS Publication FDA 83-8211.
s O 4 SECTION 8.0 MESSAGF.S AND PLANT DATA SHEETS l l i l l
1 9 SECTION 8.1 MESSAGES
e , 1991 PRACTICE EXERCISE ClockTime . = '0730 Message Number = I.C. Scenario Time = .-00/30 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE
*** THIS IS A DRKL ***
Message To: Control Room initial Conditions for the exercise are as follows: ,
- 1. RBS is currently operating at 100% power and taas maintained 100% power for 84 consecutive days.The core is near the middle of core life with an exposure of 143 equivalent full power days.
- 2. SLC pump 'A' is out-of-service for mechanical repairs to the pump due to a scored cylinder s'leeve. Pump repairs started yesterday .
morning. The pump is presently dismantled and repairs are expected to be completed by 1600 tomorrow.
- 3. SRV F051G has been weeping for approximately one week. Last night erratic indications on the scoustic monitor along with tailpipe temperature variations Indicated that the SRV was chattering. These Indications happened twica more during the midnight shifL lt has been decided to follow the operator actions outlined in procedure AOP-0035, Safety Relief Valve Stuck Open, and reduce Reactor Power to 90% in an attempt to resent the SRV and prevent further chattering. , !
- 4. Condenser air Inleakage is suspected to be through the turbine gland seats. Gland sealing steam preneure was raised from 5.0 psig to
. 0 psig. Condenser vacuum has been stable at 27.3" Hg. for the past two days. Increased inleakage has mited in increased offgas flow.
- 5. Fuel leakers are causing high airborne conditions in the Turbine and Auxiliary Buildings. Chemistry samples indicais that reactor coolant Dose Equ! valent Iodine (DEI) is now 0.8 uCl/gm and Suppression Pool chemistry is elevated. Technical Specification 3/4.4.5 LCO will be entered at 0800 on January 31.
- 6. Meteorological conditions are: Clear today with a slight breeze from the Northwest, expected to increase to about 5 to 10 mph late this afternoon. Temperature is presently 42 F, with an expected high today of 58 F, with no precipitation likely for the next two days.
r - _ _ _ . t Clock Time = 0730 1991 PRACTICE EXERCISE Scenario Time = -00/30 Messago Niember = 1.C RfVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORMATION
*** THIS IS A DRILL *** 1 Expected Actions:
i Controffer Information: Aftsr the Control Room briefing is complete, the Shift Supervisor Conduct Pre-Exercise briefing per sections 3.2 and 5.5 of the Exer-should inform the load dispatcher of the impending reduction in cise Manual. Deliver and discuss initial conditions. power and then direct the reactor operator to begin power reduction Because of the potential for SRV F051G to open and then stick open, to 90%. i creating a loss-of-coolant accident, operators are preparing to decrease reactor power to 90% per AOP-0035, Safety Relief Valve Stuck Open, to attempt to ressat the SRV. Air inleal- go into the main condenser (suspected to be through the main turbine shaft seals), results in decreasing condenser vacuum. Even though gland sealing steam pressura was raised to about 7.0 psig, and condenser vacuum is stable at 27.3* Hg., it has not returned to its normal value of 28.5" Hg. Additional!nformation conceraing the air inteakage problem is found in Supp8ementa! Scenario No.1. Due to microcracks in some of the fuel cladding, radinactive gases produced during the fission process are leaking out thrcugh the cracks into the reactor coolant system. Some of these gases then carry over into the Turbine and Auxiliary Buildings through other systems that interface with the reactor coolant system and re ctor l vessel. Suppression Pool activity increases because of the weeping safety / relief valve. f
t 1991 PRACTICE EXERCISE Clock Time - 0730 ; Message Number - I.C. Scenario Time - -00/30 '! RIVER BEND STATION EMERCENCY PREPAREDNESS EXERCISE CONTROL ROOM DATA I 4 PANEL 601/877 PANEL 601 PANEL 680 [ Status Press Flow SRV RED CRN AC.MN RilR A SR 0 POWER 100% APRM LEVEL 40" NR { F041A OFF ON OFF RilR B SPC 5200 F041B OFF ON 'OFF CNS PIA OP WS PIA OP I RilR C SR O F041C OFF ON OFF CNS PIB OP WSPIB OP ! F041D OFF ON OFF I LPCS SR 0 CNS PIC OP WSPIC OP F041F OFF ON OFF F041C OFF ON OFF RCIC SR 0 0 F041L OFF Total Feedwater Flow 12.4 H1bs./hr ON OFF IIPCS SR O O F047A' OFF .ON OFF F047B OFF ON OFF PANEL 808 CRD A OP 1900 75 F047C OFF ON OFF CRD B AV O O F047D OFF ON OFF - Press Tema level - F047F OFF ON OFF Squib Press Imvel F051B OFF ON OFF DR M 0.1 E ; SLC A CIMT O.1 84* OOS O 2000 W51C OFF ON OFF SIL B LT ON O SPR PL 94* 19'6" poSID OFF ON OFF F051C OFF ON ON . Press Level Ranr_e PANEL 870/601 t RPV 1020 40" WR MSIV _ RED CRN F022A 'ON OFF SWP P2A SR SWP P2C SR l F022B SWP P2B SR SVP P2D SR DIV I DIESEL SR ON OFF ] DIV II DIESEL SR F022C Ori OFF DIV III DIESEL SR. F022D ON OFF PANEL 863 1 F028A ON .OFF or-oPERAU NG SR=57ANDBY READY F028B ON- OFF SGTS A SR SGTS B SR
,$[,[ [
^* F028C ON OFF D/W COOLERS OPERATING BCDE .j F028D ON OFF CIMT COOLERS OPERATING AB l l
t
. _ m _ - _ . _-____m ________________
5:.:: { Reu _7autto"iCR :: ~ I : AL _ P _fb VI: RIA3LES IcninicAurigg . CONilIlihENT Dgp g n \ 4 DE5I (SRV LIFT 1103 D PRESSf [ ,,, PRESS E 1020 E PSIG U l OPE (b l (~5PER HI 1 78} ( 100% BPU 1025 ) ] PRESSE 0.1EPSIG >4 ?O ( OPEIHi~ 90 ) 4 TRIP HI 52 D TEMP [~ M F LEVELI 40IIN IYOL Q ER HI 135& 4 SCRAM LO 9D l TEMP I 122 l 'F l l P 0lJ E R R 1 0 0 E % (OPER][Il0-3 , LVL[t1l FT 6 IN \_A_.> u>AUWV 4 _0PER((0 l 19-- 6 ) C AM 4 OPER HI,l 95 ) l TEMPI 94E(F 1 . l SUPPRESSION SUPPRESSION POOL __ POOL Z __ RIVER BEND 4 4 8 30-JAN-1991 7:30 :
0 :. 3 R?U CO4~~ROL--WR/ 3 WR ' c"'"' I""" o" 8 L 2ii2]IN >TAF i PATER RPU P0WERl PUMP RPU LEVEL ci4DS/F("- AVAIL fRESS AVAIL RUN 60 , IMATER RPU 30WER: PUMP 1 TRIP HIi 52l CRD 0-
$1 AIL.PRESSAVAIL.. RUN I \
L WATER RFU TOWER PUMP I NOT PER
\(SCRAM LOj- 9]
RCIC L AVAIL PRESS /Nm L 0 JF F 20-HPCc.* TATERI RPU POWER PUMP ] TAF l-1621
@ FAIL l PRESS AVAIL 3
.0 JFF -180-10 (MIN) 0 P
LPCS hfflphy gj{ DFF SRU RPU PRESS I1020lPSIG OPEN N LPCI iWATER RPbOWER PUMP l NPOOL LD !1353l i AUATL_PR HI_ A' AIL RUN s 800- hHEATCAP.4379l g 1HTDN C00LIl10 CLG 3lAVA_IL_ RPO PR NI POWER' PUMP I AVAIL RUN 5 l OPEN 400-
\
1 SRU LIFT!1103] pSCD [ 3.'ING P0BER PUMP l E GROUP I 100% BPV 1025 lL__ _ AVAIL AUAIla RUN 3 l
'^
ISOL I 0 g . 'N'I'ti ( )'O TURBI!1E CLG ' VRG IljsR VALUEI CONTROL AVAIL! RUAlt AVAIL OPEN g RX POWER I 1001% (RESCALE) l TIJRBINE h CLG- VAC H.PWR VADUE l EYPRES (AVAIL.AUA.il AVAIL SHUT 80-n5L I C00I lliG .PWR VALUE SCRAM CRAIDS j AVAILABLE_ Bym L IUT l NONE 40-APRM DNSCL 151 et C LIQUID FOUER PUMP AVAIt.ABLE AVAIL OFF 0-
-10 ('MI N) 0 RIVER BEND 0 0 8 30-JAN-1991 7:3 0
027 EEE*o" ' CO H" AI C ENT C01 TROL--UPSETv R POOL LEVEL 19 FT 6 IN (RESCALE)
.-- 20 Cif0LI16 _dAL A R lNOT PER DRYWELL : COEING POWER FAN l 19-COOLING AVAILABLE AVAIL RUN I SRU l OPER LO 19- 61 CNTMT COIL'ING POWER FAN l O P E JH HEAT CAP 0- O R COOLING l AVAILABLE AVAIL Run a 18-
~ -10 @0 '
PRESS UALVE POWER AVAIL FAN l x 0L g lGP0P CONTROL i _ SHUT OFF E CNTMT PRESS I 0.1lPSIG SBGi " "" " V8 YT , l $f0 E l - 12-DESIGN L14.91 8-4- PR SUPPR) 9.81
-1$ ' '(hnII ^ 0 CNTMT TENF l~ 3 F _ ,
DW TEMP R 122 E 'F P0OL TEMP R 941 F
-- ~
545l M RPU SAT 5455 M HEAT CAPl1573
] V SAT- :
155- \ 2 135-1 DESIGN 185l 75- DESIGN 3303 (SCRM TEMPI 1101 120- 200- 120-4 OPER HI 90l A OPER HI 1353 J CPER HI i 951 8 D.
-10 ' '(hlfii ' O -id ' '(MINI ' O -18(hnli'O RIVER BEND 8 8 8 30-JAN-1991 7:30
e 1991 PRACTICC EXERCISE Clock Time = 0800 Message Number = 1 Scenario Tome = 00/00 RIVER BFND STAM EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE
*** N IS A DRILt. ***
Message To: Control Room Annunciators in Control Room include: Ind6cstions in Control Room include: ADSORBER TRAIN "A" FLOW Hl/ LOW - P845-B/G03 Condenser vacuum is 27.3* Hg, and slA decreasing. OFF GAS SYS AFTER FILTER DISCH FLOW Hl/LO - P845-B/D02 PREFILTER DIFF PRESS HIGH - P845-B/C04 Adsorber flow meter N64-R61".". {'A' Train) Indicates 28 scfm. ADS /SRV VALVE LEAKING - P601-19A/B09 After Filter discharge flow recorder (N64-R620) Is indicating 62 scfm with the blue pen. Prefilter difforential pressure meter (N64-R611) Indicates 8" water. -
'6
Clock Time = 0730 1991 PDACTICE EXERCISE Scenario Time = -00/30 Message Number-E RIVER BEND STATION PROCESS MONITORS LOCATION (TYPE) READING READING ID NUMBER ID NUMBER LOCATION (TYPE).. RE-11 tP Cont. Atmosphere (PART) 1.cE-07 sci /cc RE-5A Ft e Bldg. Vent Exh. (WRGM) 1.3E+00 aC1/sec RE-111G Cont. Atmosphere (GAS) 5.0E-06 sci /cc RE-5B FtAi Bldg. Vent Exh. (WRGM) 1.3E+00 aCl/sec RE-112P Dywell Atmosphere (PART) 6.7E-07 sci /cc RE-6A Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 aC1/sec / 3.3E45 ,Ci/cc SCI /sec RE-112G Drywe!! Atmosphere (GAS) l RE-62 Radwaste Bidg. Vent Exh. (WRGM) 5.7E-01 RE-103 SGTS Effluent (GAS) 2.0E-06 sC1/cc 1GE-125 Main Plant Exh. Duct (WRGM) 7.4E-07 SCI /cc RE-116 Containment Purge (GAS) 3.0E-06 SCI /cc 2Gt.125 Main Plant Exh. Duct (WRG',A) 1.2E-04 aCl/cc RE-11A Annu!us rxhaust (GAS) 2.5E-08 sCt/cc 3GE-125 Main Plant E + Duct (WRGM) 4.3E-02 aCI/cc 2.5E-08 ,CI/cc 3.3E+01 SCI /sec RE-11B Annulus Exhaust (GAS) 4GE-125 Main Plant Exn. Duct (WRGM) RE-11GP Aux. Bldg. Vent (PART) 2.0E-12 sCt/cc l RE-110G Aux. Bldg. Vent (GAS) 3.DE-06 aC1/cc l 200 mR/hr RE-118P Turbine C'dg. Vent (PART) 3.0E-11 sC1/cc Off Gas Pre-treatment Monitor 80 cpm RE-118G Turbine B!dg. Vent (GAS) 1.0E-10 SCI /cc Off Gas Post-treatment Monitor Main Steam Une Radiation Monitor 800 mR/hr RE-124P C.DJO.G. Birig. VeOt (PART) 2.0E-09 aC1/cc l Main Steam Une Rad!ation Monitor 750 mR/hr I RE-124G C.DJO.G. Bldg. Verrt (GAS) 2.0E-07 aC1/cc Main Steam Une Radiation Monitor 750 mR!hr RE-126P Main Plant Exh. Duct (PART) 6.0E-10 SCI /cc Main Steam Une Radiation Monitor 825 mR/hr RE-126G Main Plant Exis Duct (GAS) 7.4E-07 SCI /cc m
} -Indicates Alarming .
OSH -Indicates Offscale High AII other Process Monitors are ~as read"
Clock Time = 0730 1991 PRACTICE EXERCISE ScenarioTime =-00/30 Message Number-I.C. RIVER BEND STATION DRMS MONfTORS ID NUMBER LOCATION (TYPE 1 READfNG __ ID NUMBER LOCATION (TYPE) READING - RE-194 Supt. Rm. Trans. Tube F.B.123* (ARM) 0.2 mR.hr ! RE-16 A.B Ctmt. PAM R.B.186* (DHRRM) 0.8 R/hr R/hr RE-195 Sample Sink Area F.B. 95* (ARM) 0.2 mR/hr R E-20A.B Drywell PAM D.W.114'(DHRRM) 3.0 9.0 RE-196 Equip. Drain Sump F.B. 70* (ARM) 0.5 mR/hr RE-21 A.B Ctmt. Purge Isol. R.B.141' (ARM) mR/hr RE-200 North Holst Area TR.123'(ARM) 0.4 mR/hr RE-139 Annul. Near Trans. Tube 114' (ARM) 0.2 mR/hr 0.2 mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 02 mR/hr RE-141 Refuel. Floor South R.B.186* (ARM) RE-202 Rx Feedwater Pump Area T.B. 67* (ARM) 1.5 mR/hr RE-146 Containment Airlock F.B.114'(ARM) 0.3 mR/hr RE-203 Turb. Oldg. Sample Rm. T.B. 6T (ARM) 0.1 mRihr RE-151 Sample Station Area R.B.162* (ARM) 5.0 mR/hr RE-204 Cond. Demin. Sample Rack T.B. 95* (ARM) C.1 mRhr R E-162 O.G. Bldg. Regen. Area O.G. 67* (ARM) 0.4 mR/hr RE-210 PASS Panel A.B.114' (ARM) 0.2 mR/br RE-164 0.G. Bldg Sample Area O.G.123* (ARM) 2.0 mR/hr 0.1 mR,hr Cond Demin Regen Area O.G. 67 (ARM) 9.2 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) RE-165 mR/hr RE-212 HPCS Area East AE. 70* (ARM) 0.09 mR/hr RE-166 Cond Demin Strnr. Area O.G. 95* (ARM) 0.3 2.0 mR,hr 0.G. Bldg. Valve Area 0,G.137* (ARM) 28 mR/hr RE-213 RHR A Aret West A.B. 70* (ARM) RE-167 RE-214 RHR B Ares East A.B. 70* (ARM) 2.0 mRfhr R E-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-215 RHR C Area A.B. 70* (ARM) 1.0 mR/hr R E-185 Storage Tank Area R.W. 90* (ARM) 0.2 mR/hr RE-216 LPCS Area West A.B. 70* (ARM) 0.3 mR/hr HE-186 Floor Drain Sump Area R.W. 65* @M) 0.5 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) 0.7 mR/hr R E-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-218 LPCS P6netration Area West A.B. 70* (ARM) 0.3 mRihr RE-192 Refuel Floor South FB.113' (ARM) 0.5 mR/hr RE-219 RCIC Area West A.B. 70* (ARM) 0.5 mR/hr RE-193 Refuel Floor North FB.113' (ARM) 0.5 mR/hr
' -Indicates Afarming OSH - Indicates Offscale High All other ARMS are "as read"
s nienr t o 0 0 gtap m 0 /0 si)n i , e 9 0 r a s t s 0 0 f oml ae S y tct os
. == ed s e
pe po s e g m i n slo u d f f O U h'e k c ri t otn n rea omre h t k e y. e a t a pt
$ n C ec r i a euw. c. rf g pqe s,m
-. e dp S n o u yr o o a ecu l
$ n a o f l l p c nsa fu g A hcipV o en r i d a cmre t t a n t
e pnus co i c supn dt c e if e l un D e dla md durmun hf ou I l oo cC uo s s si h a r r E s +vn oen SI r ; s, ia t ai C o-s" r o M r e b R E i v nt co f pm - X r e'.js e ooc E p* es me Ef ul r oa o r Cf I o St o( , nil a oe Rh t 4 ' T 1
- f i 5 MC T *
- Shid m0 it u0 l
oe r r M AA E nsu TRR L ea d uP t APR L I hf cOa on T SO S S F R D T ova C e N DEI NI A ED R BEu E S I S r _ R Ru I H m r m u e n EPAo WE R T l a a u c i b T
- a RRw P o
- h e v m o
r c ers t Y C C t o s o e r N e nt a E s er n a d e e G e np g R o cooe r E c r : A R n d s y e 4 E i . ogn eh dt y h u 0 e t i v l a wsa i t - r e ob uv og n i t p l f o er r ped bai n i o mec t m d st w F- a r r o ed ne no 8i gt dr t sy a u ol 3 pesn
.q i l
o 5 3 S w yl 1 e r t af c r me 3 n e sl o os. r h e1 oc I I o ag s N a ot r u - r f s oph f nht t en E t n f i I a r r e S o Om i r r a a t i w e ug pso I d u ng s sr C 1 C_ eu e em ue med R s c ua cd qh e r y E X = a v S e h et t ph E r c r l a tac r e r r r e ee e s e t d n nn a s nt E b Cm I h n e e ea me t mi a v o r iii bbb mmm T u gd eh r p ooo CN A an l p t e , c c c R k o p m pn e ee aC e u or oo RRR P it 1 9 % l i nt r io n Sf et a h na e r e ooo 9 "- e a p 1 " i A p Sd Wo
< } f I ' , { l l ,i
_ _ _ - _ _ - - - _ _ _ - - _ . - - - - - - _ __ . . - . . --- . - --- ~.. --- --.-- - - -- -- - --. -- I s 1991 PRACTICE EXERCISE Clock Time - 0800 Message Number - 1 Scenario Time - 00/00 RIVER BEND STATION EMERCENCY PREPAREDNESS EXERCISE CONT 1tOL ROOM DATA PANEL 601/877 PANEL 601 PANEL 680 1
- Status Press Flow SRV RED CRN AC.MN SR O POWER 100t AFRM IEVEL 40" !G l RIIR A FU41A OFF. ON OFF
- j. RIIR B SPC 5200 F041B OFF' ON _OFF RIIR C O CNS PIA OP WS PIA OP l SR F041C OFF ON OFF
{ CNS PIB OP WS PIB OP
.F041D OFF ON OFF LPCS SR 0 CNS Plc OF FUS Plc OF F041F OFF' ON OFF ,
I IV41C OFF ON OFF RCIC SR O O F041L Total Feedvater Flow _12.4 Mlbs./hr OFF ON- _OFF llPCS SR O O F047A 0FF ON- OFF j' F0478 OFF O' . OFF PANEL 808 i CRD A. OP 1900 75 F047C OFF ON OFF l CRD B Av 0 0 ED47D OFF ON OFF Press Temp level ! F047F .OFF ON OFF ! Squib Press level DKYWEIl. 0.1 122' F051B OFF ON OFF SIE A OOS O 2000 N 0.1 84* yg51C OFF ON OFF 3pg pg 94 19'6' SIE B LT ON O IV51D OFF ON OFF i L FUSIC OFF ON ON j PANEL 870/601 Press Ievel Ranze i MSIV RED RPV 1020 40* UR _CR_N__ Fv22A ON OFF SWP P2A SR SWP P2C SR F0225 ON SUF P2B SR SWP P2D SR DIV 1 DIESEL SR _O FF__ DIV II,, DIESEL SR- F022C ON tg_ t F022D ON OFF PANEL 863 DIV III DIESEL' SR ' F028A ON OFF CP=OFERAUIC $R*SIANDBY RIACY F028B ON OFF SCTS A SR SCTS B SR D/W COOLERS OPERATING BCDE-a t, [^"5 F028C ON _OFF_ CTMT COOLERS OPERATING AB F028D ON OFF
i 01 :. [ RPU C;1UTIONECRIT:: CAL PLANT URRI ABL ES ECNTMT CAUTIONE CONTAItihENT ppu l HOTPER t 4lDESIliIl'14.9) 4SRU LIFT._1103 D DRYWELL ggy PRESS [~0 ] PSIG PRESS E 1020 E PSIG _ lOPEN OPEN 4 OPER HI 1.68) ( 100% BPU 1025 ) [p g PRESSE 0.1EPSIG I '" ( OPETill 90_) 4 TRIP HI 52 D GROUP TEMP { 3 'F LEVELE 40IIN ISOL l GER HI l___135& 4 SCRAM LO 9D TEMP R 122 l 'F ' POWER E too ]% . 410PERH_120-0k LUL[13 FT 6 IN \_A_) M>hV (10PER__L_Ol19-6) CRAM 4 OPER HIi 95 D l TEMPI 945*F l 2 1 SUPPRESSIGH SUPPRESSION , POOL __ POOL _ _ RIVER BEND 4 0 8 30-JAN-1991 8:00 ; J
i 0 :.3 RPU CONTRJL--WR/PWR "'"""""' E 202E IN >TAF (JAftT RPU POWER RPU LEVEL CilDS/FW 405 IN
, AVAIL, PRESS AVAIL PUMP RUN l 60 WATER RPU POWER PUi1P E TRIP HIl 52E CRD 0-AVAIL PRESS AVAIL
~
RUN g N WATER RPU POWER PUMP NOT PER N SCRAM LO- d RCIf - J AVAIL PRESS MvArt OFF
-120-HPCc ' DATER ~ RPU POWER PUMP TAF l-162E hAVAILPRESSAVAIL OFF -180-10 (MIH) 0
'rn- " RPU PRESS I1020IPSIG
!!Effei"HIMif"0r"s"l sw N OPEH l POOL LD 1353E LPCI ; WATER RPU POWER EJ 7MP AVAIL _PR HI AVAIL RUN B
[ 80 ~ HEAT CAP 4379E 4 E MSIU E SHTD11 ! CLG RPU P0HER PUMP l OPEH E E C00LI!1G l AVAIL PR HI AVAIL RUN E 400- SRU LIFTil1035 RWCU , COO tg gER PigP p l GPgP l 0-1007. BPU 1025
; = -10 (MItD 0 TURBIl4E CLG UAC H.MiR UALUE E C0t1 TROL , AVAIL AVAIL AVAIL OPEN I RX POWER I sa 17. (RESCALE) 120 i
- TURBIllE i CLG - . UAC H.PWR URLUE I l BYPASS i AVAIL , AVAIL AVAIL SliUT 80-
- MSL CRAIhS
, C00L'ING AVAIIABLE U.PWR VALUE Wa/L SHUT l{Cy;A" 0E APRM DHSCL 15E l i 40-SLC LIQUID POWER PUMPI AVAILABLE AURIL OFF I e~
-1 0 (MIN) 0 P.IVER EEND 8 8 0 30-JAH-1991 8:00 l 4 l i
i
! 027 DztEo" ' CONTAI 1M ENT C0'1 TROL--UPSET /MR f POOL LEVEL 19 FT 6 IN (RESCALE) 2 20 , POOL COOLING F0WER PUMP l - C00LIl1G AVAIL GUAIL RUH m
- lH0TbPER -
OPER HI l20- OE DRYWELL i COOLING POWER FAH l gg_ C00LIl1G AVAILABLE AVAIL RUN E lm SRU OPEN l E OPER LO (19- 6B CNTMT C00LiHG POWER FAN HEAT CAP- 0- O E RElu l C00LIll6 AVAILABLE AVAIL GROUP 18
-1 0 (NIH) 0 l PRESS CONTROL VALUE SHUT POWER AVAIL FAN -
OFF l ISOL CHTMT PRESS 5 0.1 E PSIG l SBGT i, UAYT gH b0 l l{CgAM M MAXIMUM 55.9l DESIGN 14.95
~
PR SUPPR- 9. 8 B
-18^~('NI'HI'O l CHTNT TENF [ _ 84] F DU TEMP E_122E F POOL TEMP E 9il F
-~
! -[1 RPU $9T 545 l '1 RPU SAT 5455 M HEAT CAPl157E 4 155-
\4 DESIGHl185l-275-
~
4 DESIGH l330E 135-(SCRM TEMPil10E 120- 200- 120- _ -4 0PER HI 90l 4 0PER HI 135 E -A OPER HIl 955 i
$ 10 (f1IH) 0 - 10 ' '('NI'HI ' O -18 ' '('MI'NI ' O RIVER , BEND 8 4 8 30-JAH-1991 Broo 1
--_ _h
4 l e ; I ; J 1991 PRACTICE EXERCISE ClockTisuse = em i Message Number: 1 ScesensioTissue = ge/00 , l l RNER BE983 STATION ! $ DREES GRONITORS -! ID NUMBER LOCAT10N (TYPE) READtNG 10 NUndeER LOCATION fTYPE) READING R E-16A.B Ctmt. PAM R.B.186* (DHRRM) 0.8 R/hr- RE-194 Sept. Rm. Trane. Tub a FE.123* (!JW8) 0.2 mR/hr [ R E-20A.B Drywell PAM D.W.114* (DHRRM) 3.0 R/hr RE-195 Sample Sink Aree F.B 95* (ARM) 0.2 mR/hr I RE-21 A.B Ctmt. Purge Isol. R.B.141' (ARM) 9.0 ' mR/hr RE-196 Eqesip. Drain Sump FE. 70* (ARM) 0.5 mR/hr f j RE-139 Annul. Near Trans. Tube 114' (ARM) 0.2 mR/hr RE-2OO North Holst Aree T.B.123* (ARM) 0.4 mR/hr ; I RE-141 Refuel. Floor South RR.186* (ARM) 0.2 mR/hr RE-201 . Cond. Air Removal Pmp. Aree T.d. 95* (ARM) 0.2 mR/hr [ RE-146 Containment Airlocx F.B.114'(ARM) 0.3 mR/hr RE-202 Rx Foodwater Pump Area T.B. 6T (A9M) 1.5 mR/hr ! j RE-151 Sample Station Area R.B.162* (ARM) 5.0 mR/hr RE-203 Turb. Bldg. Sample Rm. TE. Sir * (sRM} O.1 mR/hr [ $ RE-162 0.G. Bldg. Regm Area O.G. 67* (ARM) 0.4 mR/hr RE-204 Cond. Domin. Sarnple Rack T.B. 9'/ (ARIC) 0.1 mR/hr ; 3 i j RE-164 O.G. Bldg Sample Area O.G.123'(ARM) 2.0 mR/hr RE-210 PASS Panet A.B.114'(ARM) 0.7 mR/hr [ RE-165 Cond Demin Regen Area O.G. 67* (ARM) 9.2 mR/hr RE-211 Control Rod Defve A.B. 95* (ARM) Oct ers/hr f ! RE-166 Cond Demin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr RE-212 HPCS Ares East A.B. 70* (ARM) 0.09 mR/hr ! i 4 RE-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RHR A Aree West A.B. 70* (ARM) 2.0 mR/hr RE-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 ' RHR B hes East AB. 70* (ARaf) 2.0 mR/hr { RE-185 Storage Tank Area R.W. 90* (ARM) 0.2 mR/hr RE-215 RHR C Aree AE. 70* (ARM) 1.0 mR/hr RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr HE-216 LPCS Aree West A.B. 79* (ARM) 0.3 mR/hr RE-187 High Cond. Sump Area R.W. 65* (ARM) ' O.3 mR/hr RE-217 HPCS Penetration Area East AB. 70* (ARM) 0.7 mR/hr RE-192 Refuel Floor South F.B.113' (ARM) 0.5 mH/hr RE-218 LPCS Penetration Ares West A.B. 70* (ARGA) 0.3 mR/hr RE-193 Refuel Floor North F.B.113' (ARM) 0.5 mR/hr RE-219 RCIC Area West A.B. 70* (ARef) 0.5 mR/hr [ ])-Indicates Alarming OSH -Indicates Offscale High AII other ARMS are *as read" a
- - - - - . - = . . .-- -
I i 1991 PRACTICE EXERCISE _ Clock Tissie = 0000 : Message Number- 1 Scenario Tesne = 09/00 RfWER BOS STATION j PROCESS MDuroRS
' ID NUMBER LOCATION (TYPE) READfNG ID NUMBER LOCATION (TYPE) READfNG ;
RE-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 sCl/sec RE-111P Corrt. Atmosphere (PART) 1.0E-07 aCI/cc i RE-5B Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 ' aC1/sec RE-111G Cont. Atmosphere (GAS) 5.0E-06 aC1/cc R E-6A Radweste Bldg. Vent Exh. (WRGM) 5.7E-01 sci /sec RE-112P Drywell ^ ^_ __ _ _,- L e (PART) 6.7E-07 SCI /cc RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 aCI/sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 aCI/cc j 1GE-125 Main Plant Exh. Duct (WRGM) 7.4E-07 SCI /cc - RE-103 SGTS Effluent (GAS) 2.0E-06 aC3/cc 2GE-125 Main Plant Exh. Duct (WRGM) 1.2E-04 aC1/cc RE-116 Containenent Purge (GAS) 3.0E-06 aCI/cc 3GE-125 Main Plant Exh. Duct (WRGM) 4.3E-02 aCI/cc RE-11 A Annulus Exhavet (GAS) 2.5E-08 pCI/cc OGE-125 Main Plant Exh. Duct (WRGM) 3.3E+01 sC1/sec RE-11B Annulus Exheast (GAS) 2.5E-08 SCI /cc RE-110P Aux. Bidg. Vent (PART) 2.0E-12 aCl/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 SCI /cc RE-118P Turbine Bldg. Vent (PART) 3.0E-11 sci /cc OM Gas Pre-treatment Monitor 200 mRA
' RE-118G Turbine Bldg. Vent (GAS) 1.0E-10 SCI /cc ' Off Gas Post-treatment Monitor 80 cpm RE-124P C.DJO.G. Bldg. Vent (PART) 2.0E-09 pCI/cc Main Stoom Une Radiation Monitor 800 mR/hr RE-124G C.DJO.G. Bldg. Vent (GAS) 2.0E-07 aC1/cc Main Stoom Une Radiation Monitor 750 mR/hr RE-126P Main Plant Exh. Duct (PART) 6.0E-10 aCl/cc Main Steam Une Radiation Monitor 750 mR/hr RE-126G Main Plant Exh. Duct (GAS) ' 7.4E-07 aCI/cc Main Steem Une Radiation Monitor 825 mR!hr
((3 - Indicates Alarmmg . OSH - Indicates Offscale High All other Process Monitors are *as reao' _ m_... - - - _ _ s-- _. _ _ - - --a
. 4 1991 PRACTICE EXERCISE N Time = 0805 Message Number = 1.1 Scenerlo Tsme = _00/05 RIVER BEND STATION ERSERGENCY PREPAREDfESS PRACI1CE EXERCISE RESSAGE i
*** THIS IS A DRILL *** I i
Message To: Control Room i Annunciators in Control Roor., include: W in Control Room irarbd=: LOOP SEAL BLOWN WATER LEVEL LOW - P845-B/F06 Profilter inlet drain valve (N64-F054) red / green lights off. r Prefitter loop seal drain valve (N64-F048) red light lit.
+
O r a _ _ _ . __m
Clock Time = 0805 1991 PRACTICE EXERCISE Scenario Time = 00:'05 Message Number = 1.1 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROt1ER INFORMATION
*** THIS IS A DRifl ***
Expected Actions-ControIIer Information: Evacuate all unnecessarf personnel from the Turbine Building 1:er Control room oper dors are unable to close valve NS4-F054 from Alarm Response Procedure 1H13-P845-B/F06 Loop Seal olown Water control panel P-845. The loop seal must be isolated locally. La mi Low. Main condenser vacuum continues to slowly decrease. The Offgas System parameters should continue to be checked, and Refer to Supplemental Scenario No. 2 for system valve steengements condenser vacuum to be monitored. and radiological information. Radiation Protection is notified, and should begin to take samples of the Turbine Building atmosphere, and Offgas areas. Sample results Data indicate that monitors RE-118P and RE-118G (Turbine Bidg. ventilation) have increased by a factor of more than 10'. are shown on Tables 9.2.15 and 9.2.16. Once it is determined that the loop seal is potentlaffy unisetated and still blowirs through, an NEO should be notified to go to the Offgas Building to check the condition of the loop seal, and isolate it if possible. The Control Room crew should recognize that the Turbine B!dg. ventilation monitors have Increased by more than 1000 times the previous
- normal' level, and declars an ALERT, prir EIP-2-001, EAL 4 In3tiating Condition 4:
- Alarm of DRMS airbome ventilation monitors and confirmation of readings greater than 1000 times normal levels".
1991 PRACTICE EXERCISE Clock Time - 0805 Message Number - 1,1 Scenario Time - 00/05 RIVER BEND STATION EMERCENCY PREPAREm mSC SIERCISE CONTPOL RPOM DATA PANEL 601/877 PANEL 601 PANEL 680 Status Press Flow SRV RED CRN AC.MN RIIR A SR O POWER 90% APRM IIVEL 40" NR F041A OFF ON OFF RIIR B SPC 5200 F041B ON OFF __QEE_ RIIR C SR O CNS PIA OP WSPIA OP F041C OFF .. ON OFF CNS PIB OP WSPIB OP M41D OFF. ON OF LPCS SR 0 CNS Plc OP fvS Plc OP F041F ,_ OFF ON OFF FF ON OF RCIC SR 0 0 F041L ON Total Feedvater Flow 11.2 Mlbs./hr OFF OFF IIPCS SR 0 0 W47A OFF ON OFF F047B OFF ON OFF CRD A OP 1900 75 PANEL 808 F047C OFF ON OFF CRD B AV 0 0 W47D OFF ON OFF Fress Temo level F047F OFF ON OFF g Soulb Press Level W51B OFF ON OFF CTMT 0'1' 84, SIL A OOS 0 2000 F051C OFF ON OFF SLC B LT ON O SFR PL 94' 19'6" F051D OFF ON OFF Press Level Rance PAN E 870/601 RPV 1020 40" UR MSIV RED CRN W22A ON OFF SVP P2A SR S*JP P2C SR DIV I DIESEL SR F022B ON OFF SVP P2B SR SVP P2D SR DIV II DIESEL SR W220 ON OFF DIV III DIESEL SR F022D ON ~ OFF EANEL 863 W28A ON OFF or-orrmanac sa-stampsy mzer F028B ON OFF SCTS A _EE_ SCTS B SR 8 BCDE (( 3 [**' F028C N28D ON ON OFF. OFF D/W COOLERS OPERATING CTMI COOIIRS OPERATING AB ___ _. __ J
0:. :. I: RPU_____CAUTIONE C R I T I C A P LLANT UARIABLES ECNTMT CAUTIONE CONTAIHMENT ppu lNOT PER i
~
() DESIGjl 14.9& DRYlJELL g 0 SRU MSIU PRESS L O J PSIG PRESS E 1020 E PSIG l OPEN l l OPEH l 4 OPER HI 1. 68 y ( 100% BPU 1025 ) g i PRESSI 0.1IPSIG I '"
; 4 OPEI UI 90 ) 4 TRIP HI Sj TEMP f M 'F LEVELE 40 t IN l
3 GROUP l ISOL E ! ( 0PER HI 135& 4 SCRAM LO 9D TEMPI 122 E 'F ) PO!JER E 901% -
~
l 4OPER((120-3 , u/h, A_/V LUL kT FT IN,(.A._/ (10PER L_0 :19- 6D SCRAM 4 OPER HIl 95 D g TEMPE 94E(F 1 a SUPPRESSIGH SUPPRESSION !' POOL POOL I I__ i RIVER BEND 0 0 0 30-JAN-1991 6:05
b 0 :.3 RPl) CONTROL--WR/PWR ' c"'"' c a"" o" ' I 202E IN >TAF RPU N CilDS/FU l0[f phES { PMPl p E 40IIH i 60 WATER RPU POWER PUMP I TRIP HIl 52E : CRD 0-AVAIL PRESS AVAIL RUN I _ 4 j NSCRAMLOj 95 RCIC ' WATER RPU POWER PUMP AVAIL PRESS av4 L 0FF l HOTPER
-120-i RPU POWER PUMP E TAF l-1621 HPCc-l WATER AVAIL PRESS AVAIL OFF l -180-
_10 ' (MIH) 0 LPCS
]
l0[y[ p'p'P I {gy{ PDFF"P l gp RPV PRESS E1020IPSIG , OPEH l POOL LD l1353E JC. WA?dR RPU POWER P;' AIL PR HI AVAIL PUMP l N i RUN ' 800- HEAT CAPj43791 SHTDH C00LIl4G , CLG RPU AVAIL PR HI AVAIL POWER PUMP E RUN I l OPEH 400- SRU LIFTil103I RWCU , 000 tg g{ PUMP l GPgP l 0- -
-10 (MIH) 0 C L AAL AAL AOR .
OPEHl RX POWEE I seI% (RESCALE) 120 . TURBINE CLG UAC IH.PWR i i BYPAES AVAIL AVAILIAUAIL VALUEg SHUT 80- i MSL PRAINS COOLING AVAILABLE U.PWR URLUE Avait. SHUT l SCRAM HONE l 40- / j( APRM DHSCL 51 SLC l LIQUID POWER PUMP l / AVAILABLE AVAIL OFF E 0-
-10 (MIN) 0 ;
RIVER E!END 8 8 8 30-JAH-1991 8:05
027 ERPV CAUTION ] C0 iT A I!M ET C0 iTROL ----U ?.ET/ v R , POOL LEVEL 19 FT 6 IN (RESCALE) I C00LbiG _ UA L I RUN l HOT PER - l DRYUELL COOLING POWERi FAN 20- d i 19-C00LIliG AVAILABLE AVAIL RUN f0PER LO 119- 61 j SRU l - i
~
OPEN I
- CNTMT ( C00' LING POWER AVAIL FAN l HEAT CAPI 0- 01 C00LIllG AVAILABLE RUN E ig_
~
-10 ' M 0 1 PRESS CONTROL VALUE SHUT POWER AVAIL FAN l OFF E lGP0P
{ 0L CNTMT PRESS I 0.1EPSIG { ; M MAXIt10MI55.91 SBGi VALyE SH l SC AM _ I~ DESIGN 114.91 8- ' 4-(PR SUPPRI 9.81
-1s ' idDi)' ' 0 lCMTMTTEtiF l_84]F ,
DU TEMP R 122 5 'F POOL TEMP R 9 +1 F
~~
N(RPU SATl545l M RPU SAT 545E M HEAT CAPl1575 1 \ t
- 155- 275- 135-
) ' DESIGN 185l DESIGN 13303 (SCRM TEMPil10 5 120- 200- 120- . ; A OPER HI: 90 l @' ' Hill 35] ',,4 OPER HI I 951 [
-1 $ ' 'A11 N)' ' O -1 ' VNI'N)' ' O -18^TMI'N)O RIVER BEND 4 8 8 30-JAN-1991 8:05 i I
t i l
1991 PRACTICE EXERCISE ClockTeme = 0805 Message Number- 1.1 Scenario Twne = 00/05 RIVER BEND STATION DRMS MONITORS ID NUMBER LOCATION (TYPE) READING ID NUMBER t.OCATION (TYPE) READING R E-16A.B Ctmt. PAM R.B.186* (DHRRM) 0.8 R/hr RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 02 mR/hr RE-20A.B Drywe!I PAM D.W.114' (DHRRM) 3.0 R/hr RE-195 Sample Sink Area FR. 95* (ARM) 0.2 mR/hr R E-21 A.B Ctmt. Purge Isol. R.B.141' (ARM) 9.0 mR/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) 0.5 mR/hr RE-139 Annul. Near Trans. Tube 114* (ARM) 02 mR/hr RE-200 North Holst Area T.B.123' (ARM) 0.4 mRihr RE-141 Refuel. Floor South R.B.186* (ARM) 02 mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 02 mR/hr RE-146 Containmsnt Airlock F.B.114'(ARM) 0.3 mR/hr RE-202 Rx Feedwater Pump Area T.B. 67* (ARM) 1.5 mR/hr RE-151 Sample Station Area R.B.162* (ARM) o.O mR/hr RE-203 Turb. Bldg. Sample Rm. T.B. 67* (ARM) 0.1 mR/hr RE-162 0.G. Oldg. Regen. Area O.G. 67* (ARM) 5.C mR/hr RE-204 Cond. Demin. Sample Rack TR. 95* (ARM) 0.1 mR/hr RE-164 0.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-210 PASS Panet AB.114'(ARM) 0.2 m R,h r RE-165 Cond Demin Regen Area O.G. GT (ARM) 35 mR/hr RE-211 Control Rod Drive AB. 95* (ARM) 0.1 mR/tr RE-166 Cond Demin Strnr. Area O.G. 95* (ARM) 20 mR/hr RE-212 HPCS Area East AB. 70* (ARM) 0.09 mR/he RE-167 O.G. Bldg. Valve Area O.G.13T (ARM) 28 mR/hr RE-213 RHR A Area West AB. 70* (ARM) 2.0 r.,R, br RE-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 RHR B Area East A.B. 70* (ARM) 2.0 mRihr R E-185 Storage Tank Area R.W. 90* (ARM) 02 mR/hr RE-215 RHR C Area AE. 70* (ARM) 1.0 rnh: RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr RE-216 t.PCS Area West AB. 70* (ARM) 0.3 mR/l:r RE-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) 0.7 mR;hr RE-192 Refuel Floor South F.B.113' (ARM) 0.5 mR/hr RE-218 LPCS Penetration Ares West A.B. 70* (ARM) 0.3 mR/hr RE-193 Refuel Floor North F.B.113* (ARM) 0.5 mR/hr RE-219 RCIC Area West A.B. 70* (ARM) 0.5 mRihr j -Indicales Alarming OSH - Indicates Offscale High All other ARMS are *as road' C
1991 PRACTICE EXERCISE C8eck Twne = 0805 Message " .../.,er 1.1
. Scenario Twne = OC/05 RfVER BEND STATION PROCESS MONITORS ID NUMBER LOCATION (TYPE) READtNG ID NUMBER LOCATION (TYPE) READfNG RE-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 aC1/sec RE-111P Cont. Atmosphere (PART) 1.0E-07 ,C3/cc HE-58 Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 pCi/sec RE-111G Cont.Er4 e (GAS) 5.0E-06 aC3/cc RE-6A Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 SCI /sec RE-112P Drywell Atmosphere (PART) 6.7E-07 ,CI/cc -
RE-6B Redwaste Bldg. Vent Exh. (WRGM) 5.7E-01 SCI /sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 ,C1/cc 1GE-125 Main Plant Exh. Duct (WRGM) 5.0E-06 ,CI/cc RE-103 SGTS EfHuont (GAS) 2.0E-06 aCI/cc 2GE-125 Main Plant Exh. Duct (WRGM) 12E-04 SCI /cc RE-116 Containment Purge (GAS) 3.0E-06 aCI/cc 3GE-125 Main Plant Exh. Duct (WRGM) 4.3E-02 pCI/cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 .C1/cc OGE-125 Main Plant Exh. Duet (WRGM) 2.3E+02 . aCI/sec RE-11B Annulus Exhaust (GAS) 2.5E-08 ,CI/cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 ,CI/cc RE-110G Aux. Bldg. Va.nt (GAS) 3.0E-08 aCI/cc RE-118P Turbine Bldg. Vent (PART) 3.0E-08 aCI/cc Off Gas Pre-treatment Monitor 200 mR/hr RE-118G Turbine Bldg. Vent (GAS) 6.0E-07 aCI/cc Off Gas Post-treatment Monitor 80 cpm RE-124P C.DJO.G. Bldg. Vent (PART) 2.0E-09 SCI /cc Main Steam Une Radiation Monitor 800 mR/hr RE-124G C.D./O.G. Bldg. Vent (GAS) 2.0E-07 ,C1/cc ~ Main Steam Une Radiation Monitor 750 mR/hr RE-126P Main Plant Exh. Duct (PART) 6.5E-10 aCI/cc Main Steam Une Radiation Monitor 750 mR/hr RE-126G Main Plant Exh. Duct (GAS) 5.0E-06 aCI/cc Main Steam Une Radiation Monitor 825 mR/hr h .[2 -Indicates Alarming
~
OSH - Indicates Offscale High All other Process Monitors are "as read" k m...._.m __c.m... m__ _ . . _ _ . . ._. _ _ _
( 4. ! 1991 PRACTICE EXERCISE Clock Twne = 0810 l Message Number = 1.2 Scenario Twne = 00/10 ! RIVER BEND STATION l EMERGENCY PREPAREDNESS PRACPLE EXERCISE
- MESSAGE i
*** THIS IS A DR81.L ***
1
- Message To
- Control Room i
l Annunciators in Control Room include- Indications In Control Room include-
- MAIN PLANT EXH RADN ALARM - P863-71 A/E07 As shown on attached DRMS data sheets.
CHANNEL ALERT Al. ARM - DRMS I i n i a 6 e d i f T
+ e e _ __ .m- ___ . _ _ _ _ _ _ _ _ . _ _
1991 PRACTICE EXERCISE Clock Time = 0810 Message Number = 1.2 Scenario Time = 00/10 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORMATION
'** THIS IS A DRitt *"
Controller Information: Eroected Actions-Gases from the main condenser are now blowing into the Turbine Operators shculd check the various buildingfarsa exhaust monitors ' Building through the dirty waste sump (1CND-TK12) vent. This to determine the area causing the Increased activity, and set the DRMS gaseous activity, combined with the already elevated activity levels to trend every 10 minutes to monitor ths activity levels. due to the fuel leakers, puts the main plant exhaust monitor into an alarm condition. Radiation Protection should be notified of existing conditions. Vacuum continues to slowly decrease as a result of air inteakage past Chemistry is notified to draw samples to ensure Technical the turbine shaft seats. Specification 3.11.2.1 (Dose Rates of Gaseous Effluents) are not exceeded. Results indicate Technical Specification limits are not The NEO sent to check the loop seal should be notified by H.P. not to exceeded. enter any Offgas areas prior to tiealth Physics conducting a survey. Condenser vacuum should continue to be monitored. Once entry The Offgas Pretreatment monitors record no increase in radiation conditions are established, operatc-rs should be directed to re-entar levels on recorder R604 located on the process radiation recorder the Turbine Building and continue to inspect for other signs of panel P-600 in the Control Room. Increased radiation levels on these infeakage or equipment malfunctions which may be causing low monitors would indicate possible fuel damage, or damage to vacuum conditions. equipment in the Offgas System.
4 1.-2, . - _ - _saA ,,- M .--,,_.A_,:- W a - . o o d o o b o o ~ is sa2 - - ua , o j uuu -
. g 22 m
$ $$$ g b h $$ h
- u. 9 c 9 9 8 8e e m m e 9 e im oo 08 t z - - t b d a d d b b b a , y gg 55S " d 4a p ~~m - g e ~e <
$ 088 $ $b5 $$ $Eb G
d 5tt it it it it b o it o o o o o o o it it ititit itititit o o o o o o o o o gd< II $ i o g b E E F Z
, o o yo F. P. M M Z P. P. Z o o o o o o e c e o Z Z **
s. P. e ft ! kt kt kU kt ft kt d o o e c o o o o 0$ l
,b 0 0 0 0 0 0 0 0 0 0 t
0 0 0 0 b 0 0 .
?. P. Z 0 0 0 g 5,,
- 7. 9". Z 0 0 2, g@
m 5 3~.oomma<.oom.ooo
~~3333"~~~2ma 3.oo<.oo B~NNMEnnn ME$$$2222$$$$2222
>4 MEEEEEEEE s : s e i
_l o g o o c e g o > g c 4g pg m 3 ,j g N W i O s
$" o o t o o o "
o-g 8
~
t
~ 3 S M $ 5 I.II .-
l 5 a d' " 5 ""d 5 em1 m E
$ 5 E M 5 E E m
$ fa ~!! !!E ooo E
.n.
<.o <. <. N n
- m wuu a ce
==
56 ss mm 5 eee
. . z.s.: .
l 1
01:. E RPU CAUTIONICRITICAL PLANT UA RI A3L'ES sc" Tnt cauno"s RPU NOT PER i
~
41 DESIGfi $ 14.9) (SRU LIFT u 1103 D DRYW LL g l PRESS [_0J PSIG PRESSI1820IPSIG swer OPEN C OP5R HI 1.6% ( 100*/. BPU 1025 ) g
- PRESS E 0.1IPSIG II ' ' '
( OPEIHi 1 90 ) 4 TRIP HI 52 D TEMP l 841'F fbROUP I LEUELI 405 IH E ISOL I (OPERHI 1355 4 SCRAM L0l 9> TEMP I 122 l 'F P0lJER E 98 B '/. - 4]OPEPdl120-0) , LUL @ FT b IN \_A_/ udAUWU (10PER LD 19- 6D SCRAM '4 OPER HI 95 D TEMPR 945'F i SUPPRESSION SUFPRESSION POOL POOL
~
i i -- [_T_ RIVER BEND 8 8 6 30-JAN-1991 B:10 1
~
l ! 0 :. 3 RPU CONTROL--WR/PWR ' c"'"' ca"" o" ' E 202]IH >TAF ' CilDS/FW ; lhqf phE S g{ PMPl pH g 40 E IN WATER RPU POWER PUMP I TRIP HIi 528 0-CRD ' AVAIL PRESS AVAIL RUN I N i WATER RPU POWER PUMP HOThPERl M SCRAM L0l 95 RCIC l AVAIL PRESS AvmL OFF
-120-I WATER RPU POWER PUMP E TAF l-1621 HPCc.
l!AVAIL PRESS AVAIL
; OFF l -180-
_10 ' (MIN) 0 P"MP LPC5 f lh[{hphP gggy{ PFU PRESS E1020lPSIG - 0FF gp 5" i WATER RPU POWER POOL LD l1353] LPC.1 PUMP l i , AVAIL PR HI AVAIL RUH ' 800- HEAT CAP!4379l SHTDil COOLING c CLG ' RPU POWER PUMP l AVAIL PR HI AVAIL RUN E l hkk l 400- SRU LIFTil1033 COOLING POWER PUMP l E GROUP I 100% BPU 1025
'RWCU
< AURIL AURIL RUN E l ISOL E 0- ~
_10 (MDO O L C R , AAL A L OA OPEH l RX POWER I 90 1% (RESCALE) 120 TURBINE CLG UAC H.PWR URLUE E I - BYPASS AVAIL AVAIL AVAIL SHUT 5 80-l MSL COOLING ~ U.PWR APRM DHSCL l51 DRAINS AVAILABLE #4f t- VALUEg SHUT SCRAM HONE l 40- . j SLC 1 LIQUID i PUMP l ! AVAILABLEAUAIL l POWER OFF E ~ 0 10 (MIfi) 0 RIVER BEND 8 8 8 30-JAH-1991 F:/0 : t u_ . . . . . __
027 ERPV CAUTION ' C0FTF I H'1 J 1T N1 ROL---U 3ET/l'1R POOL LEVEL 19 FT 6 IN (RESCALE) bIL
~
Df0LI 4G kOR RJH lHOTbPER - - DP,YWELL COOLING POWER 20- H FRN l 19-C00LIl16 AVAILABLE AVAIL RUN n SRU OPER LO 19- 65 CNTMT COOLING POWER FAN E 5"# l ~ HEAT CAP l 0- 05 COOLING .l AVAILABLE AVAIL RUN R GROUP ig_
-1 0 (NIH) 0 j
PRESS CONIROL i 1 URLUE SHUT POWER AVAIL FAN E OFF l l ISOL CNTNT PRESS I 0.1EPSIG SBGT ! VAL E SH [0gff hl SCgAM l _
~
M MAXIMUM :55.91 DESIGN 14.91
- 8-
'1PR SUPPRl 9.8l 4 -18('N'I'N)0
- CNTNT TEMP l__d F , DU TEMP I 122] F POOL TEMP I 9 45 'F 1 RPV_ SAT 545 l M RPU SAT 5451 M HEAT CAPl157l 155-
\4 DES _IGH _275- 135- t l 185l DESIGN 3301 SCRM TEMPil10 5 l 120- 200- 120- ,
[ 1
~
A 0PER HI 90l A 0PER HI 135E J OPER HI I 955 l
-1 7 d1IN')0 -1$('NI'H")0 -1$('NI'N)0 RIVER BEND 8 8 s 30-JAH-1991 8:/0 l
t
1991 PRACTICE EXERCISE Clock'Umc. = 0810 IJ.essage Number- 1.2 Scenario Time = 00/10 RIVER BEND STATION DRMS MONfrORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING R E-16A.B Ctmt. PAM R.B.186* (DHRRM) 0.8 R/hr RE-194 Supt. Hm. Trans. Tube F.B.123' (ARM) 02 mR/hr R E-20A.B Drywell PAM D.W.114' (DHRRM) 3.0 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) 02 mR/hr R E-21 A,8 Ctmt. Purge Isol. R.B.141' (ARM) 9.0 mR/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) 0.5 mR;"hr RE-139 kmut. Near Trans. Tube 114' (ARM) 02 mR/hr RE-200 North Holst Arer, T.B.123* ".RM) 0.4 mR/hr RE-141 Refuel. Floor South R.B.186* (ARM) 02 mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 02 mR/hr RE-146 Containment Airlock F.B.114' (ARM) 0.3 mR/hr RE-202 Rx Feedwater Pump Area T.B. 6T (ARM) 1.5 mR/hr RE-151 Sample Station Area R.B.162* (ARM) 5.0 mR/hr RE-203 Turb. Bldg. Sample Rm. T.B. 6T (ARM) 01 mR/hr RE-162 0.G. Bldg. Regen. Area O.G. 6T (ARM) 5.d mR/hr RE-204 Cond. Domin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr RE-164 0.G. Didg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-210 PASS Panel A.B.114' (A.RM) 02 mR/hr RE-165 Cond Domin Regen Area O.G. 67* (ARM) 35 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) 0.1 mR/hr RE-166 Cond Demin Strnr. Area O.G. 95* (ARM) {56 mR/hr RE-212 HPCS Area East A.B. 70* (ARM) 0.09 mR/hr RE-167 O.G. Bldg. Valve Area O.G.13T (ARM) 28 mR/hr RE-213 RHR A Area West A.B. 70* (ARM) 2.0 mR/hr RE-18? Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 RHR B Area East A.B. 70* (ARM) 2.0 mR/hr RE-185 Storage Tank Area R.W. 90* (ARM) 0.2 mR/hr RE-215 RHR C Area A.B. 70* (ARM) 1.0 mR/hr RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr RE-216 LPCS Area West A.B. 70* (ARM) 0.3 mR/hr RE-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-217 HoCS Penetration Area East A.B. 70* (ARM) 0.7 mR/hr RE-192 Refuel Floor South F.B.113* (ARM) 0.5 mR/hr RE-218 LPCS Penetration Area West A.B. 70* (ARM) 0.3 mR/hr RE-193 Refuel Floor North F.B.113' (ARM) 0.5 mR/hr RE-219 RCIC Area Wast A.B. 70* (ARM) 0.5 mR!hr g lj -Indicates Alarming OSH -Indicates Offscale High All other ARMS are "as read" w .- - - a
e Clock Time = 0810 1991 PRACTICE EXERCISE Scenario Time = 00/10 Msssage Number- 1.2 RIVER BEND STATION PROCESS MONITORS READING READING ID NUMBER LOCATION (TYPE) 10 NUMBER (_OCATION TTYPE) Cont. Atmosphete (PART) 1.0E-07 ,Ci/cc 1.3E400 SCI /sec RE-111P RE-SA Funt Bfdg. Vent Exh. (WRGM) ,CJ/cc RE-111G Cont. Atmosphers (GAS) 5.0E-06 Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 ,Ci/see R E-58 6.7E-07 ,C1/cc aCI/see RE-112P Drywell Atmosphere (PART) RE-6A Radwaste Oldg. Vent Exh. (WRGM) 5.7E-01 ,Ci/cc RE-112G Drywell Atmosphere (GAS) 3.3E-05 Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 ,C1/sec RE-6B 2.0E-06 ,Ci/cc 5.0E-06 ,Ci/cc RE-103 SGTS Effluent (GAS) 1GE-125 Main Plant Exh. Duct (WRGM) Containment Purge (GAS) 3.0E-06 ,Ci/cc 1.2E-04 ,Ci/cc RE-116 2GE-125 Main Plant Exh. Duct (WRGM) 2.5E-08 ,Ci/cc 4.3E-02 ,C1/cc RE-11 A Annulus ENust (GAS) 3GE-125 Main Plant Exh. Duct (VeRGM) 2.5E-08 ,CI/cc 2.3E+02 ,CI/sec RE-118 Annulus Exhaust (GAS) 4GE-125 Main Plant Exh. Duct (WRGM) RE-110P Aux. Bldg. Vent (PART) 2.0E-12 SCI /cc RE-110G Auv. Bldg. Vent (GAS) 3.0E-08 ,CI/cc 200 mR/hr 3.0E-08 ,Ci/cc Off Gas Pre-treatment Monitor RE-11BP Turbine Bldg. Vent (PART) 80 cpm 6.0E-07 aCI/cc Off Gas Post-treatment Monitor RE-110G Tuabine Oldg. Vent (GAS) 800 mR/hr 2.0E-09 ,Cl/cc Main Steam Une Radiation Mon!!or HE-124P C.DJO.G. Oldg. Vent (PART) 750 mR/hr 2.0E-07 ,CI/cc Main Steam Une Radiatton Monitor RE-124G C.DJO.G. B!dg. Vent (GAS) 750 mR/hr 6.5E-10 riCi/cc Main Steam Une Radiation Monitor RE-126P Main Plant Exh. Duct (PACT) S25 mR/hr 5.0E-06 aC1/cc Main Steam Una Radiation Moniter RE-126G Main Plant Exh. Duct (GAS) E 4 -Indicates Alarming . OSH - Indientes Offscale, High
#X other Process Monitors are "as read
- i-4 i
? ,, . i ) t 1991 PMAC"DCE EXERCGE Clock Tsme = 0815 .i Message Nesmber = 1 Scenerlo Time e C0/15 t
- j. fWWER BEND STATION i EMERGENCY PREPAREDNESS PRACf1CE EXERCISE ;
N i l c
*** TMS S A DRE.L *** i 4
Message To- Control Room i < s Plant Stza us Update i . I I i 4 f
\
1 i ' t i. ) l i i f i l i b
- t I
L I 4
- y g - , , . . , . .e y... ny.=*--- - , - , ,y,v4 .- ,,y
i i !
- 1991 PRACTecE EXERCISE Clock Twne = 0615 j Mossage Number = 2 Scenario'Ihne = 00/15 R*"ER BEND STATION I EFERGENCY PREPAREDNESS PRACTICC N l CONTM3t1ER INFORGGATitM4 4
*** THid IS A DRM1 -
l i 92ntroNer 1:2h Doested Actions: l DRMS data sheetc show trendn"ci-increasing. See SuporomerCO HoltN Physics persotu4 att sent to Offgas building to assess
- j. Scenario No. 2. ra6@J"4ecadith 4 a.% Mablish entry conditions for areas within i the(. m.,_ X - mg.
l Condenser vacuum is 2(U". Hg., and decreasing vem de! . See Supplemental Scen*cNo.1. An NEO ' . dispatched to enter the Offges PuHding and attempt to
- Isolate the loop sent.
Operators continue to monitor the Offges System and condenser i vacuum. T f i 3 0 t ,i . t b
+-v, r ,, - . . , - , __c, - _ _ _ _ . _ _ _ _ . _ _
+
Clock Time - 0815 1991 PRACTICE EXERCISE Scenario Time - 00/15 l Message Number - 2 RIVER BEND STATION EMERGENCY PREPAREDNESS EXERCISE CONTROL ROOM DATA PANEL 601 PANEL 680 PANEL 601/877 Status Press Fl <>v SRV ?tED CRN_ AC MN POWER 905 AP?M IIVEL 40" P O F041A 0FF ON OFF RHR A SR 5200 F041B 0FF ON OFF CNS PIA 0F WSPIA OP RIIR B SPC SR 0 F041C OFF ON OFF CNS P1B 0F WS P1B 0? R11R C F041D OFF ON 05T CNS PIC OP WS PIC OF SR 0 W41F OFF ON OFF LPCS M41G OF5_ ON QFF Total Feedvater Flow 11.2 Mlbs./h 0 0 F041L OFF_ ON OFF RCIC SR llPCS SR 0 0 F047A 0FF ON OFF FO478 0FF ON OFF PASTL 808 CRD A OF 1900 75 W47C OFF ON OFF AV O O F047D OFF ON OFF Fress Ter:> Ievci CRD B M47F OFF ON OFF DRYWELL 0.1 12f Souib Level F051B 0FF ON OFF 0.. I %' l Press CTMT SIL A OOS 0 2000 pg51C OFF ON OFF SPR PL 9a* 19*6" LT ON_ O FD51D OFF ON OFF SLC E FD51G OFF ON OFF PANEL 870/601 Press Level Range MSIV RED CRN RPV 1020 40' UR S'=T P2A SR SVP P2C SE M22A ON OFF SVP P2D S? SEP P2B SR F022B ON OFF_ DIV I DIESEL SR FD22C ON OFF DIV II DIESEL SR PANEL S63 FV22D ON OFF DIV III DIESEL SR ~ F028A ON . 0FF.. SGTS A SR SCTS B SR F028B ON OFF cr-crrunm; sa-stas::sv arrr D/W COOLERS OPERATINC BCDE cose
- srn:ct ss-stee m stan s FD28C ON OFF
- so:-Iso:.am CTMT COOLERS OPERATING AB av-n _t OFF_
FTt? 8D CN t ___ .
i l
'CHTnTCRu1103 B1:. CRPV _CAUTIONICRITI:AL 3LANT UA RIf BL ES CONTAIt1 MENT
[ RPU . I DG ENOT OPERE I J (I DESI5f' li.9J PRESS [,0] PSIG 4SRU LIFT 1103 D PRESS I l020 E PSIG 0
~~
l ygv j l gyg l 4 OPER HI 1.60 ) ( 100% BPU 1025) g PRESSI 0.1EPSIG
'( OPEE_f-~ s 90 ) ! 4 TRIP HI 52 D 40IIN I OL TEMP [ 3 'F LEVELE
( 0PER HI 135F (SCRAM LO 9D l TEMPI 122I *F l PO!JER % ( OPER ((1 20-3 , 6 IN LU u1h _.A.J V l LUL[1I_j FT
~
SCRAM 4 OPER HI 95 ) (10PER L0: 19- 6D "" l TEMP E_ 94 E (F SUPPRESSION SUPPRESSION _,_ POOL POOL RIVER BEND 8 8 8 30-JAN-1991 ft/5___
,= .
e-we
.E. ;
1 .
' c"'"' ca"" o" '
0 :. 3 RPV CO C ROL--li.I R/Pli.I R E 2021IN >TAF N gh[ p$g h0l(( PlQ{P I 40lIN CllDS/FW p l TRIP HIi 52 1 PUMP l 0- N
- RPU POWER LRD '
UATERl AVAILI AVAIL RUN I PRESS
~
\(SCRAM LOl 91 UATER RPU POWER PUMP NOT PER RCIC AVAIL PRESS Melt 0FF -120-TAF i-162l ;
WATER RPU POWER PUMP I HPCc-AVAIL _ PRESS AVAIL OFF l -180_1 0 (M'IN) 0 RPU PRESS l10201PSIG LPCS ((ffphP HI A P'hP O g T" " " l POOL LD l13531 WATER RPU POWER PUMP l LPC'2 AVAIL PR HI AVAIL RUN E 800- HEAT CAPl43791 g SHTDH CLG RPU POWER PUMP l lOPEN \4 SRU LIFii11031 AVAIL RUN E 400-C O O L I N G g. A V A I L _ P R H I 100% BPU 1025 RWCU C00{Igi{ {0gER pgMP l Pl 6PgP j O g gg g TURBIllE CLG UAC H.PWR VALUE I RX POWER I W 1% (RESCALE) CONTROL AVAIL AVAIL AVAIL OPEN I I UAC H.PWR VALUE l TURBINE CLG BYPASS . AVAIL AVAIL AVAIL SHUT 80-SCRAM 4 APRM DNSCL $5] l MSL DRAINS COOLING AVAIL,4BLE U.PWR VALUE av4/L SHUT l NONE 40-TIQUID POWER PUMP l 0-SLC AVAILABLE AVAIL 0FF I -10 (MIN) 0 RIVER BEND 8 8 8 30-JAN-1991 8 /E
i 027Mu:5"o" 8 C0 f A I '1' ENT C0 '1T ROL--U ~'S E~~/ ' R 6 IN (RESCALE) POOL LEVEL @ FT f C00LI!1G ._ ibAL R lH0T P_E" N l20- 01 ! COOLING POWER FAN l 19 DRYWELL C00LIlfG AVAILABLE AVAIL RUN s T0FER LO l19- 6l SRU g ~
/HEATCAP- fi- 0 l FAN I CNTMT COOLING POWER AVAILABLE__ AVAIL C00LIl1G _
'juti gg 10 (111N) O
~~ GROUP PRES 3 VALUE SHUT POWER AVAIL FAN I OFF B, l ISOL CNTMT E MESS I 0.11PSIG CONTROL ,
MAXIMUMl55.91 S8GT -_ yg@ [${[ OIF l}j9];E] CA 6-12- DESIGN 114.9 l 8-4- (PR SUPPRI 9.81
' -10('Nn6'O DW TEMP I 1225 F POOL TEMP I 9 45 'F CNTMT TEHF l~3 F _ ,
M RPV SAT 5455 M HEAT CAPl157] ['1RPVSAT545l _275- 135-155- DESIGN l330E SCRM TEMP l110l _ DESIGN l 185_l 200- 120- . 120-l
^
85 -1 $ ' '('M'IN')' ' 0
..g... ) 0 -15('MI'N')0 8el5 RIVER, BEND 8 8 8 30-JAH-1991 c __-
6. ClockTime = 0815 1991 PRACTICE EXERCISE ScernarioTime = 00/15 Message Number- 2 RIVER BEND STATION DRMS MONITORS READING ID NUMBER LOCATION (TYPE) READING !D NUMBE8 LOCATION (TYPE) 0.8 RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 0.2 mR/hr RE-16A,B Ctmt. PAM R.B.186* (DHRRM) R/hr 3.0 R/hr HE-195 Sample Sink Area F.B. 95* (ARM) 02 mR/hr R E-20A.B Drywell PAM D.W.114' (DHRRM) RE-196 Equip. Drain Sump FM. 70* (ARM) 0.5 mR/hr RE-21 A,B Ctmt. Purge isol. R.B.141' (ARM) 9.0 mR/hr RE-200 North Holst Area T.B.123'(ARM) 0.4 mR/hr RE-139 Annul. Near Trans. Tube 114' (ARM) 0.2 mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr R E-141 Refuel. Flocr South R.B.186* (ARM) 0.2 mR/hr 0.3 mR/hr RE-202 Rx Feedwater Pump Area T.B. 67* (ARM) 1.3 mR/hr RE-146 Containment Airlock F.B.114* (ARM) RE-203 Turb. Bldg. Sample Rm. T.B. 67* (ARM) 0.1 mR/hr RE-151 Sample Strilon Area R.B.162* (AP.M) 5.0 mR/hr RE-204 Cond. Demin. Sampfe Rack T.B. 95* (ARM) 0.1 mR/hr RE-162 0.G. Bldg. Regen. Area O.G. 67* (ARM) 55 mR/hr RE-210 PASS Panel A.B.114' (ARM) 0.2 mR/hr RE-164 O.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) 0.1 mR/hr R E-165 Cond Demin Regen Area O.G. 67' (ARM) 35 mR/hr RE-212 HFCS Area East A.B. 70' (ARM) 0.09 mR/hr RE-166 Cond Domin Strnr. Area O.G. 95* (ARM) [2d mR/hr RHR A Arein West A.B. 70' (ARM) 2.0 mR/hr RE-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RE-214 RHR B Area East A.B. 70* (ARM) 2.0 mR/hr RE-182 Recovery Sample Tank R.W. 65' (AFsM) 0.4 mR/hr RE-215 RH',i C Area A.B. 70' (ARM) 1.0 mR/hr R E-185 Storage Tank Area R.W. 90' (ARM) 0.2 mR/hr RE-216 LPCS Area West A.B. 70' (ARM) 0.3 mR/hr RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) 0.7 mR/hr RE-187 High Cond. Sump Area R.W. 65' (ARM) 0.3 mR/hr RE-218 LPCS Penetration Area West A.B. 70' (ARM) 0.3 mR/hr RE-192 Refuel Floor South F.B.113' (ARM) 0.5 mR/hr RE-219 RCIC Area West A.B. 70' (ARM) 0.5 mR/hr RE-193 Refuel Floor North F.B.113' (ARM) 0.5 mR/hr j , j -Indicates Alarming OSH - Indicates Offscalo High l
- All other ARMS are "as read"
e 1991 PRACTICE EXERCISE ClockTime = 0815 Message Numbec 2 Scenario Time = 00/15 - RIVER BEND STATION PROCESS MONfTDRS , 10 NUMBER LOCATION (TYPE) AEADING ID NUMBER LOCATION (TYPE) READING RE-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 eCI/sec RE-111P Cont. Atmosphere (PART) 1.0E-07 aCI/cc R E-58 Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 aCl/sec RE-111G Cont. Atmosphere (GAS) 5.0E-06 SCI /cc RE-6A Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 SCl/sec RE-112P Drywell Atmosphere (PART) 6.7E-07 aCi/cc ; RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 SCI /sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 sCl/cc I 1GE-125 Main Plant Exh. Duct (WRGM). 5.0E-06 aCl/cc RE-103 SGTS Effluent (GAS) ' 2.0E-06 sC1/cc 2GE-125 Main Plant Exh. Duct (WRGM) 1.2E-04 aCl/cc RE-116 Containment Purge (GAS) 3.0E-06 sci /cc , 3GE-125 Main Plant Exh. Duct (WRGM) 4.3E-02 sCl/cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 sci /cc 4GE-125 Main Plant Exh. Duct (WRGM) 2.3E+02 aCI/sec RE-11B Annulus Exhaust (GAS) 2.5E-08 aCl/cc R E-110P Aux. Bldg. Vent (PART) 2.0E-12 . SCI /cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 pCI/cc RE-118P Turbine Bldg. Vent (PART) 3.0E-08 SCI /cc Off Gas Pre-treatment Monitor 200 mR/hr < RE-118G Turbine Bldg. Vent (GAS) 6.0E-07 pCl/cc Off Gas Post-treatment Monitor 80 cpm RE-124P C.D./O.G. Bldg. Vent (PART) 2.0E-09 sci /cc Main Steam Une Radiation Monitor 800 mRjhr , RE-124G C.DJO.G. Bldg. Vent (GAS) 2.0E-07 pCI/cc Main Steam Une Radiation Monitor 750 mR/hr RE-126P Main Plant Exh. Duct (PART)' 6.5E-10 act/cc Main Steam Une Radiation M<,nitor 750 mR!br RE-126G Main Plant Exh. Duct (GAS) 5.0E-06 SCI /cc Main Steam Une Radiation Monitor 825 mR/hr
$dj -Indicates Alarming OSH -Indicates Offscale High All other Process Monitm are "as read"
- i t
Clock Time = 0830 1991 PRACTICE EXERCISE Scenario Time = 00/30 Message Number = 3 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE
*** THIS IS A DRILL *"
Message To: Control Room Annunciators in Control Room include; Indications in Control Room Include: \ I j As shown e attached DRMs data sheets. MAIN PLANT EXH RADN ALARM - PB63-71 A/E07 { CHANNEL HIGH ALARM - DRMS l i I
Clock Time = 0830 1991 PRACTICE EXERCISE Scenario Time = 00/30 Message Number = 3 RIVER BEND STATIOM EMERGENCY PREPAREDNESS PRACYICE EXERCISE CONTROLLER INFORMATION l 1
*** THIS IS A Ditill *** l Expected Actions- l
. Controtter Information:
Condanser vacuum has stabilized at 25.8" Hg., which is quite low and Operators continue to monitor the Offgas System. DRMS trends, and should continue to be of concern to the operators. condenser vacuum. DRMS trends continue to show Increasing airborne acti'tity. The Shift Supervisor, or someone he has designated, should be determining that the activity associated with the gases being re'essed Shift Supervisor confirms the radiological release from the Turbine through it.7 main plant exhaust are below Technical Specification Building is below EAL Initiating Conditions. Ilmits. i l I l
r h
/.s E_
0 l " D R b e 6 B 0 3 N P F F 1 ' R R C
/
3 8 0 " O O O M W 9 S E S A 0 0 0 1 B e 4 2 A BI IC 1 1 C
] 2 B ee 0 L E
P P P 1 8 0 6 P N 3 mm 8 V 0 '3 / 6 S C c i i TT 6 L I I S S S WWW w o 8 L T m "2 '4 2 1 8 9 0 7 P W S M 8 T G S N r I I TT E 8 L A A ko l E E ci N F N L N R R or A M r A E A E E P P N P P P l a C n R e s A OO P t 1 1 e A P P P a e P R c R S S S % O O O w P r 0 0 S E S R R d E E 0 e L L 9 e OO AB C F L A O O I I I T L 2 A C C R E P P P l a T k T P P N W S S S S T t Y M R P T W M O N N N o R T P V C / T P C C C T D C S S M S D C
~
_ E S I N C F F F F F F F F F F F F F F R M. F F F F F F F F F F F F F F f_ F F E C O O O O O O O O O O O O O O QO X A _ N EA O T _ I T SDSA AE 1 T NM S DO 0 6 N R N N N N N N N N N N N N N N N N N F F F F F F F R F F F F F F F F C O O O O O O O O O O O O O O O O C O O O O O O O O D EO N RR L EA E PL B EO N A R RR P E PT N D F F F F F F F F F F F F F F F F D V I YO E R O 0 F F F O F F F F F F F F F F O O O O O O O O O O F F F O O O E N N N N N N N N R O O O O O O O O R NCC E G R E M A8 C D F G L A B C D F B C D C 1 1 1 I 1 1 1 7 7 7 7 7 1 1 1 1 A B C D A B C D E V 2 2 2 2 8 8 8 8 V 4 4 4 4 4 4 4 4 4 4 5 5 5 5 I 2 2 2 2 2 2 2 2 R 0 0 0 S F F F N4F F F F F F F F F F p F 0 0 0 0 0 0 D0 V0 g 0 S F0 F 0F 0F F0 F0F 0 M 0 V I 0 l 0 e w 0 e 0 c o 0 2 0 0 0 0 5 O v 0 n R Y 5 l 5 7 e 2 a U D F L R A* I R Y 7 3 7 D o 8 s 0 s , l N s E / s 0 s e " A T - S 1 e 0 0 9 O e 0 O v 0 R R R S o I3 C 0 6 P r 1 P r I r 4 S S S R S
=
s R E L X - E E N s L L L r A u b N s 0 E E E E e P t R C R R R R P V i S O s 2 S S S Cb a S P S S S S O A u O e 0 E E E I n t S o O T. r 1 I I I Tu CN t S S 1 P D D D G A N t. R e I I T a P g I I A t a A B C A B A B I I I R E 1 s S C S P 9 s R R R C I C D D LL V V VI V I W a 9 e I I l i H P C P R R I I P I P 1 M R R R L R l l C C S S R D D D O
O .
?
m s g)5 0 F 1 II 9 C N O 1 O S u R I I I A C i n GO D E P T UN IE SP MO O I W I I H 3 1 I SL S0 E0 R P P F 1 9 i 0 R P 9 P U n N E M S 1 - h4 C EI P - O E N I T _ A J S / 0 3 E Ur R Sus I I u 8 8 B . 8 A D N I E B R R A - E V U O - I R
&G ) I D N D
T 3 0 S P 5 2 2 5 I 9 % N 1 1 E 0 1 I 0 0 A U l T 0 2 l U l I 4 l O 9 M A E L P R I F 0 l P B H I L E R C N O P L I P L M A R E " S H U S 0 I E R W R S 0 R V C O E T E L S 1 S P A TP R ( (L 4 C ['C )G ) I T I [(I l 8 6 1 I S P E 1 5 3 I 1 R I H 0 I C L L E R E I H R U P B S E W P S P M /. N Y O E O E 0 R R I T V D (P _{ T A_
\
)G )
j I_H ) l i C 9 I 0 F I 6 S P 9 4 I - 6 - H U T 1 1 9 P 4 D N 1 I [0 1 R ~ 8 l 1 I E l 1 T T l SL E N l N l- ] U. [l F i- L- SO E I A U- I S [ EE {P R~
- O R P P
S 1 1 T N O E D S E P O 1 f E T
]R@
E P 0 L E P O P U R U S C j L B 1 (- P ([ 4 L (
'c"T"T CAUn0NE 0 :. 3 R3V C04 TROL--WR/PWR E 202]IN >TAF l 40lIN CHDS/FU gh[ff ph$g hhlff, Pg)P p 60 - --- -
TRIP HIl 521 WATER RPU POWER PUMP R RUN g 0-CRD AVAIL PRESS AVAIL
\(SCRAM L0l 95 A ER RPV POWER PUMP HOT PER RCIC i AVAIL PRESS Matt 0FF -120-TAF l-162j WATER RPV i
POWER PUMP l HPCc -
, AVAIL PRESS AVAIL O jFF -180 10 (MIID 0 P P RPU PRESS I10201PSIG LPCE '
l0[ff phPHI A09 0 F gp N P0OL LD l1353 5 WATER RPU POWER PUMP LPC'1 AVAIL _ PR HI AVAIL RUN - 800- HEAT CAP :43795 g SHTDM CLG RPV AVAIL PR HI AVAIL POWER PUMP R RUN E l OPEH 400- SRULIFTl11035 C00LIliG , ER p p 100% BPU 1025 RWCU C00 gG PigP p 010 ' (MIt0 0 RX POWER F90 5% (RESCALE) C 1R AhAL AAL OA OP H l TURBINE CfG ~ UAC H.PWR VALVE BYPAES [ AVAIL __ AVAIL AVAIL SHUT 80-DPAINS l AhfA E /4 SIUT 40- ~ LIQUID POWER PUMP R SLC AVAILABLE AVAIL 0FF I 00
-1 (MIH) 0 RIVER BEND 8 8 8 30-JAN-1991 9:.30
O'27 MEmTIO" 8 CONT A:: F Eb T 00 IT R 3_--U 'S ~~/F R 6 IN (RESCALE) POOL LEVEL @ FT og _. ~ Cif0LI4G f h4 L 09 R lIl0ThPER POWER FAN I 19-DRYWELL H COOLING AVAILABLE RURIL RUN I SRU OPER LO 19- 6l COOLING ~ FAN I 5" " HEAT CAP 0- 0 l ' CNTMT FOTLINs' POWER l COOLING l AVAILABLE AVAIL auN l 18-
~
OR0 PRESS CONTROL VALVE _ SHUT POWER AVAIL-FAN l 0FF 5 l y0 CNTMT PRESS I 0.1lPSIG M MAXIMUM 155.91 SBGi $UE T ggR 0 lhCAM l 12- DESIGN l14.9 l 8-4- PR SUPPR :
- 9. 8 l
.0_ g > . gip) .' O
( DU TEMP I 1225 F POOL TEMP I 93] F CNTMT TEMF l_ d F ,
-~ ~
M RPU SAT 5455 M HEAT CAPil5Tl
-(@V SAT 545l 135-l 155- SCRM TEMP!1101 DESIGN 185 l 275- DESIGN 330l 200- 120-120-A OPER HI 1351 , A O P E R H.I i 9 5 l 4 OPER HI' 90 l
-id(MIN)^"0 -18 ' '(NIN)" ' O
-18 ' 'd1I N')' ' O RIVER, BEND 8 0 0 30-JAN-1991 8:R
Clock Time = 0830 1991 PRACTICE EXERCISE Scenario"Hme = 00/30 Message Number- 3 RIVER BEND STATION DRMS MONfTORS __ READING ID NUMBER LOCATION (TYPE). READING ._ ID_ NUMBER l_OCATION (TYPD RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 0.2 n2R/hr RE-16A.B Ctmt. PAM R.B.186* (DHRRM) 0.8 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) 0.2 mR/hr R E-20A.B Drywell PAM D.W.114' (DHRRM) 3.0 R/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) 0.5 mR/hr RE-21 A,8 Ctmt. Purge isol R.B.141' (ARM) 9.0 mR/hr RE-200 North Holst Area T.B.123'(ARM) 0.4 mR/hr R E-139 Annul. Near Trans. Tube 114' (ARM) 0.2 mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95' (ARM) 0.2 mR/hr RE-141 Refuel. Floor South R.B.186* (ARM) 0.2 mRihr RE-202 Rx Feedwater Pump Area T.B. 67' (ARM) 1.5 mR/hr R E-146 Containment Africek F.B.114' (ARM) 0.3 mR/hr RE-203 Turb. Bldg. Sample Rm. T.B. 67* (ARM) 0.1 mR/hr RE-151 Sample Station Area R.B.162* (ARM) 5.0 mR/hr RE-204 Cond. Demin Sample Rack T.B. 95* (ARM) 0.1 mR/hr R E-162 O.G. Bldg. Regen. Area O.G. 67* (ARM) 53 mR/hr RE-210 PASS Panel Alt.114' (ARM) 0.2 mR/hr RE-164 0.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-211 Control Rod Drive A.B. 95' (ARM) 0.1 mR/hr R E-165 Cond Demin Regen Area O.G. 67* (ARM) 33 mR/hr RE-212 HPCS Arer. Ed .tfL 70* (ARM) 0.09 mR/hr RE-166 Cond Demin Strnr. Area O.G. 9'5' (ARM) j2d mR/hr RE-213 RHR f. Ama Wost A.B. 70* (ARM) 2.0 mR/hr RE-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-214 RHF+ B Ain riatt A.B. 70* (ARM) 2.0 mR/hr ! RE-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-215 R H R C /.a aa '4.0. 70* (ARM) 1.0 mR/hr RE-185 Storage Tank Area R.W. 90' (ARM) 0.2 mR/hr RE-216 LPCS M9. E ra .s B. 70* (ARM) 0.3 mR/hr RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr RE-217 HPCS Penet.a > Area East A.B. 70* (ARM) 0.7 mR/hr RE-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-218 LPCS Penetration Area West A.B. 70* (ARM) 0.3 mR/hr RE-192 Refuel Floor South F.B.113' (ARM) 0.5 mR/hr HE-219 RCIC Area West A.B. 70* (ARM) 0.5 mR/hr RE-193 Refuel Floor North F.B.113' (ARM) 0.5 mR/hr I l 3 -Indicates Alarming OSH -Indicates Offscale High . A!! other ARMS are "as read
- e ClockTime = 0830 1991 PRACTICE EXERCISE ScenarioTime = 00/30 Message Number-1 RIVER BEND STATION PROCESS MONITORS l_OCATION (TYPE) READING READ:NG ID NUMBER ID NUMBER LOCATION (TYPE)
Cont. Atmosphere (PART) 1.OE-07 pCi/cc 1.3E+00 pCl/sec RE-111P RE-SA Fuel Bldg. Vent Exh. (WRGM) 5.0E-06 aCl/cc pCi/sec RE-111G Cont. Atmosphere (GAS) RE-58 Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 6.7E-07 pCi/cc RE-112P Drywell Atmosphere (PART) Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 sci /sec RE-6A DryweII Atmosphere (GAS) 3.3E-05 ,Ci/cc SCl/see RE-112G RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 aCi/cc j SGTS Effluent (GAS) 2.0E-06 5.0E-06 pCl/cc RE-103 1GE-125 Main Plant Exh. Duct (WRGM) Containment Purge (GAS) 3.0E-06 aCl/cc 1.2E-04 aCI/cc RE-116 2GE-125 Main Plant Exh. Duct (WRGM) 2.5E-08 sci /cc 4.3E-02 pCi/cc RE-11 A Annulus Exhaust (GAS) 3GE-125 Main Plant Exh. Duct (WRGM) 2.5E-08 sCl/cc 2.3E+02 pCl/sec RE-11B Annulus Exhaust (GAS) 4GE-125 Main Plant Exh. Duct (WRGM) RE-110P Aux. Bldg. Vent (PART) 2.0E-12 aCl/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 pCi/cc 200 mR/hr 3.0E-08 pCl/cc Off Gas Pre-treatment Monitor RE-118P Turbine Oldg. Vent (PART) 80 cpm 6.0E-07 sci /cc Off Gas Post-treatriient Monitor RE-118G Turbine Bldg. Vent (GAS) 800 mR/hr 2.0E-09 pCi/cc Main Steam Une Radiation Monitor RE-124P C.D./O.G. Bldg. Vent (PART) 750 mR/hr 2.0E-07 aCl/cc Main Steam Une Radiation Monitor RE-124G C.D./O.G. Bldg. Vent (GAS) 750 mR/hr 6.5E-10 aCI/cc Main Steam Une Radiation Monitor RE-126P Main Plant Exh. Duct ' ART) 825 mR/hr 5.0E-06 pCl/cc Main Steam Une Radiation Monitor RE-126G Main Plant Exh. Duct ' GAS)
< -Indicates Alarming OSH -Indicates Offscale High All other Process Monitors are "as read'
.I.
1991 PRACTICE EXERCISE Clock Tome = 0845 Message Number = 4 Scenario Teme =- 00/45 RfVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE
*** THIS IS A DRKL ***
Message To: Control Room Plant Status Update l e i r h v i.
4 j. k 1991 PRACTICE EXERCISE - Clock Tune = '0845 Message Number = 4 Scenario Twne = 00/45 RIVER DEND STATION 4 EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROU.ER INFORMATION ^
*** THIS *S A DRILL ***
Controller Information; Expected Actions-(Continued) Condenser vacuum is holding steady at 25.8" Hg. If he has not already done so, when the Shift Supervisor is' notified that airborne radioactivity levels in the vicinity of the dirty waste sun p DRMS trends of the Turbine Building Exhaust and Condensate Domin/ exceed 1000 times normal, he should declare an ALERT in accordance -. Offgas Building Vent are still increasing, but at a slower rate. with EIP-2-001, " Classification of Emergencies", EAL 4, Initiatingj l Condition' 2. " Alarm of DRMS Airborne Ventilation Monitors and Health Physics analysis indicates that airborne radioactivity in the Confirmation of Readings Greater Than 1,000 Times Normal Levels." vicinity of dirty waste sump 1CND-TK12 is 5.0E-8,CI/cc. The Shift Supervisor should direct the implementation of the following l NOTE: Through discussions with Health Physics, the Shift Supervisor emergency procedures: should be able to confirm that this airborne activity level is 1000 times . normal. EF-2-003, " Alert"
- - EF-2-006, " Notifications" Use Contingency Message 5.3x if the Shift Supervisor has not EF-2-012," Radiation Exposure Controls"-
l declared an ALERT by 0900. EF-2-013,"Onsite Radiological Monitoring
- EF-2-016, *Operaticw Suppoet Center - Activation" l Expected Actions: EF-2-017, " Operations Support Center - Support Functions *
! EF-2-018, " Technical Support Center - Activation
- Operators continue to monitor the Offgas System, and continue to EF-2-019,"Tecimical Support Center 'irpport Functions" l-investigata the low condenser vacuum situation. EF-2-023," Joint Information Center Staff Activation and Support" EF-2-026, " Evacuation" EF-2-027," Personnel Accountability"
l1 i1i)jl l r h
/.s E l " D R b e 6 B 5 N P P F 1 v
- R R C 4 O O O M e 9 S S E A 8 " L 1 B
. 0 0 4 2 AB C 1 C D
-~ L I I I P P P 1
1 0 2 2 P P B e 0 E 8 6 3 GG m 8 6 V S S S 0 8 m r '2 '6 '2 / 0 TT 6 8 N i T L E E L WWW l w o L E e 2 E 9 T 1 7 8 L L S S L E NNTA TA I I k N F N L N R R c A A E A E E o P M r P N P P P l " R e s A O O C" P _ t s 1 1 P
- A P P F a e . .
R R S S
- O O O w r 0 0 S S E R R
% d P E E 0 e L L 9 e OO A B C F L A B OO l I I L L 2 2 A C C R P P P l E P P P E a U T T k
O S S S i N N t o Y R 1 NR P P P V V GV / T N P QC C T D CS S S S D C E S N I C F F F F F F F F F F F F F F F F M. F F F F F F F F F F F F F F F F R C O O O O O O O O O O O O O O O O E A N X O EAT I T SA SD AE 1 N N F F F F F F F F T S DO NM 0 6 R N N N N N N N N N N N N N N N N R F F F F F F F F G O O O O O O O O O O O O O O O O C O O O O O O O O D EO N RRA L E EB EOPL N A R RR P E PT N D F F F F F F F F F F F F F F F F D V ) E F F F F F F F F F F F F F F F F E N N N N N N N N R O O O O O O O O O O O O O O O R O O O O O O O O R J X_ I _O N G R E M AB C D F C L A B C D F B C D G 1 1 1 1 1 1 1 7 7 7 7 7 1 1 I I A B C D A B C D V 2 2 2 2 8 8 8 8 E V 4 4 )4 4 4 4 4 4 4 4 4 4 5 5 S S I 2 2 )2 2 2 2 2 2 R 0 T 0 0 0 T) 0 0 T )T 0) 0 0 0 T T S F F F F F F F F F F F F F F F F
) )
S ) M F0 FT F0E TF 0F 0 T F F
) 1 0 l 0 e w 0 e 0 c s o 0 2 0 0 0 0 5 O v 0 n R Y t l 5 7 e 2 a U D r F L R A A erd RsE T Y
7 3 DM I O F O 7 8 s 0 s l N A c" I s E / s 0 s e " T r = S 1 e 0 0 9 O e 0 O v 0 R R R S sL
= - O I 4 0 r 1 r e 4 S S S D sS C 6 P P L S sI R
E L X - E E N s L LL r A u b N s 0 E E E E e P t R C R R R R P V i S O s 2 S S S r c Cb a S P S S S S O A u O e 0 E E E I I m t S q O T r 1 I I I v Tu S S L P D D D s r CN GsE A N I rB L R e I P g I I T A eM _ a A B C A B A B I I I P rI E eA 1 s S C S F cV 9 s R R R C I C D D LCL V V V V O - A
= s
- 9 e I I
I I H P C P R R I P I I I F oV 1 M R R R L R I I C C S S R D D D O oA ll l , l l
8:.1 I: RPU _CAUTIONICRITI:AL PLANT VA RI ABL ES scH1nT Cnuri m C0HTAIIINEllT l HOTPER 1MD 4 DESj JIi 14.9 ) ( LET DRYWELL g SRU MSIV PRESS [I13 PSlg
~
PRESS E 1020 E PSIG l. sur l lOPEN l , ( TfER HI 1. 68 y ( 100% BPU 1025) g - PRESSI 0.15PSIG -
-AI ""
( OPE IHI~~ 90 ) ( TRIP HI 52 & TEMP { M *F LEVEll 40 E IN l 3 GROUP ISOL I E (TfERHI 135& 4 SCRAM LO 9D TEMPI 122l 'F P0lJER E 48ll% . 4'0PER][Il0-3 , LVL[1I' FT 6 IN u_> u_/hWU (10PER_LII 19- 6 D SCRAM 4 OPER HIi 95 ) TEMPI 92] (F SUPPRESSIGH SUPPRESSION POOL . POOL RIVER BEND 8 8 8 30-JAN-1991 F:45 r
a.. . vT R' PU' CD c'ROL-W R/3W R E 202]IN >TAF RPV LEVEL W E E RPU --POWER PUMP I 401IN C' IDS /FU AVAIL _, PRESS AVAIL RUN 60 N TRIP HIj 52 1 CRD WER RPU POWER AVAIL PUMP RUN 0- N 3 A TAIL PRESS DG N SCRAM LO- 95 TATER RPU POWER PUMP HOT OPER RCIC : AVAIL PRESS Avnlt 0FF -120-TAF l-1621
~
lhgff
~
HPCS phESS AA 0FF -10 ( M'ItD' O P P""P RPV PRESS [J0MPSIG LPCE ghAffPR I gggj{ 0FF g 6"d# POOL LD l13531 WATER RPU POWER PUMP l LPCI AVAIL PR HI _ AVAIL RUN a 800- HEAT CAP 43791 g SHTDil CLG RPU POWER PUMP lOPEN 400- SRU LIFTl1103] AVAIL PR HI AVAIL RUN _ COOLING p p 100% BPU 1025 RUCD C00ggfL gggj{ PlPUNHP l 0 10 (MI)O O RX POWER I Vo I% (RESCALE) C RI AhAL AAL A09 OPEN . TURBINE CLG UAC H.PWR VALUE g ' BYPASS AVAIL AVAIL AVAIL SilVT 80-0 DRAINS , AU0 A E /v4 <- SHUT 40- ' LIQUID POWER PUMP SLC AVAIL OFF 0 .......... AVAILABLE ,10 (NIH) 0 RIVER B,END 6 8 8 30-JAN-1991 S:45
0 27 MMotto" ' C0 iT A I E 4T CONT ROL-U :'SE r R P0OL LEVEL 19 FT IN (RESCALE)
~3:0 LING '
P0OL AVAIL FOUER f, VAIL PUMP RUN DG POOL LD 26- 51 COOLING , . hTOPER 0 l DRYWELL < COEING POWER FAN l 19-l COOLING AVAILABLE AVAIL RUN a SRU COPER LO l19- 61
~
l CNTMT . COOLING POWER FAN I HEAT CAP 0- 81 COOLING ) AVAILABLE AVAIL RUN I
' VALVE ig_M Mb l
PRESS CONTROL SHUT POWER AVAIL FAN l OFF E lGR0VP I 0L l CNTMT PRESS E 0.11PSIG SBGT ALVE fSHg g 0 l l6 CAM H0 M MAXIt1Ut1 55.95
~
l DESIGN 114.9 5 i 8-
'(PR SUPPR 9.8]
-1$(^NNA '8 CNTMT TEMF l__ 84] F ,
DW TEMP I 1225 F POOL TEMP R 9tl 'F RPV SAT 545l M RPU SAT; 5455 T ERT CAPl15TI 155- _275- 135-DESIGN 185l DESIGN 3301 SCRM TEMPil10l 120- 200- 120-s 4 0PER HI! 90 l 4 0PER HI 1351 gGPERHIl 951
-1$d1'IN')0 -18('NI'N')0 -1$('NI'N')0 RIVER BEND 8 0 0 30 ,IAN-1991 S:45
r 1991 PRACTICE EXERCISE Clock Time = 0845 ScenarioTime = 09/45 Message Number: 4 [
! RIVER BEND STA'I1ON .l DRMS MOMTORS l t
[ j ID NUMBE_R LOCATION (TYPE) READING ' . ID NUMBER LOCATION (TYPE) READfNG 't I j R E-16A,8 Ctmt. PAM R.B.186* (DHRRM) 0.8 'R/hr. RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 0.2 mR/hr l R E-20A,B Drywell PAM D.W.114' (DHRRM) 3.0 R/nr RE-195 Sample Sink Area F.B. 95* (ARM) 0.2 mR/hr . jh RE-21 A.B Ctmt. Purge isol. R.B.141' (ARM) . 9.0' mR/hr RE-196 Equip. Drain Sump FE. 70* (ARM) 0.5 mR/hr .h i RE-139 Annul. Near Trans. Tube 114' (ARM) 0.2 mR/hr RE-200 North Holst Area T.B.123' (ARM) 0.4 ' mR/hr .I RE-141 Refuel. Floor South RR.186* (ARM) 0.2 mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95' (ARM) 0.2 mR/hr i
- RE-146 Containment Airlock F.B; 114' (ARM) 0.3 - mR/hr RE-202 Rx Feedwater Pump Area T.B. 67' (ARM) 1.5 mR/hr RE-151 Sample Station Area R.B.162' (ARM) 5.0 mR/hr RE-203 Turb. Bldg.~ Sample Rm. T.B. 67' (ARM) 0.1 mR/hr - l l RE-162 O.G. Bldg. Regen. Area O.G. 67' (ARM) 53 n
- R/hr RE-204 Cond. Domin. Sample Rock T.B. 95* (ARM) 0.1 mR/hr RE-164 O.G. Bldg Sample Area O.G.123' (ARM)' 2.0' mR/hr : RE-210 PASS Panet A.B.114'(ARM) 0.2 mR/hr 1
.i RE-165 Cond Domin Regen Area O.G. 67'.(ARM) 35 - mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) 0.1 mR/hr l RE-166 Cond Domin Strnr. Area O.G. 95* (ARM) [55 mR/hr RE-212 HPCS Area E ast A.B. 70* (ARM)- 0.09 mR/hr !
l RE-167 0.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RHR A Area West AB.70'(ARM) 2.0 mR/hr ! I RE-182 Recovery Sample Tank R.W. 65' (ARM) ' O.4 ' mR/hr RE-214 RHR B Area East AA. 70' (ARM) 2.0 mR/hr i R E-185 Storage Tank Area R.W. 90' (ARM) 0.2 mR/hr RE-215 RHR C Area A.B. 70' (ARM) 1.0 mR/hr RE-186 Floor Drain Sump Area R.W. 65' (ARM) 0.5 mR/hr RE-216 LPCS Araa West A.B. 70'(ARM) 0.3 mR!hr - l RE-187 High Cond. Sump Area R.W. 65' (ARM) 0.3 mR/hr RE-217 HPCS Penetration Area East A.B. 70'(ARM) 0.7 mR/hr l RE-192 Refuel Floor e,suth F.B.113' (Ai'M) 0.5 ~ mR/hr RE-218 LPCS Penetration Area West A.B. 70* (ARM) 0.3 mR/hr RE-193 Refuel Floor North F.B.113' (ARM) 0.5 ' :nR/hr RE-219 RCIC Area West AB. 70'(ARM)
~
0.5 mH/hr ( , i ! Q$-Indicates Alarming i OSH -Indicates Offscale High All other ARMS are "as road' } t i 1 l ' _ _ _ _ _ _ _ _ ~ -
l Clock Time = 0845 1991 PRACTICE EXERCISE Scenario Time = 00/45 Message Number 4 RIVER BEND STATION PROCESS MONTTORS READING l READING ID NUMBER LOCATION (TYPE) ID NUMBER LOCATION fTYPE) Cont. Atmosphere (PART) 1.0E-07 aC3/cc 1.3E+00 pCl/sec RE-111P RE-5A Fuel Bldg. Vent Exh. (WRGM) RE-111G Cont. Atmosphere (GAS) 5.0E-06 aCI/cc l Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 pCI/sec RE-58 6.7E-07 ,CI/cc
,CI/sec RE-112P Drywell Atmosphere (PART)
R E-6A Radwaste Bldg. Va t Exh. (WRGM) 5.7E-01 RE-112G Drywell Atmosphers (GAS) 3.3E-05 aci/cc
.it Exh. (WRGM) 5.7E-01 pCi/see RE-6B Radwaste Bidt 2.CE-06 aCI/cc l RE-103 SGTS Effluent (GAS) i 1GE-125 Main Plant Exh. Duct (WRGM) 5.0E-06 aCi/cc RE-116 Containment Purge (GAS) 3.0E-06 aCi/cc 1.2E-04 pCi/cc 2GE-125 Main Plant Exh. Duct (WRGflit) 2.St.-08 aCl/cc 4.3E-02 aCi/cc RE-11 A Annulus Exhaust (GAS) 3GE-125 Main Plant Exh. Duct (WRGM) 2.5E-08 sci /cc 2.3E+02 SCI /sec RE-11B Annulus Exhaust (GAS) 6GE-125 Main Plant Exh. Dt.at (WRGM)
RE-110P Aux. B!dg. Vent (PART) 2.0E-12 pCl/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 aCI/cc 200 mR/hr RE-118P Turbine Bldg. Vent (PART) 3.0E-08 pCI/cc Off Gas Pre-treatment Monitor l 80 cpm RE-118G Turbine Bldg. Vent (GAS) 6.0E-07 aCI/cc Off Gas Post-treatment Monitor 800 mR/hr 2.0E-09 aCi/cc Main Steam Une Radiation Monitor RE-124P C.D./O.G. Bldg. Vent (PART) Main Steam Une Radiat!on Monitor 750 mR/hr RE-124G C.D./O.G. Bldg. Vent (GAS) 2.0E-07 pCI/cc 750 mR/hr 6.5E-10 SCl/cc Main Staam Une Radiation Monitor RE-126P Main Plant Exh. Duct (PART) 825 mR/hr 5.0E-06 aCI/cc Main Steam Une Radiation Monitor RE-126G Main Plant Exh. Duct (GAS) j i-Indicates Alarming OSH -Indicates Offscale High All other Process Monitors are "as read"
1991 PRAC11CE EXECISE Csock Time = 0900 Message Number = 5 Scenario Tune = 01/00 RIVER BEND STATION EMERGENCY PREPAREDNESS PRALTICE EXERCISE i MESSAGE
*** THIS IS A DRILL ***
Message To: Control Room r Plant Status Upr'ste I i I
" W pe :%1
I l 1991 PRACTICE EXERCISE ClockTime = 0900 Message Number = 5 Scenario Time = 01/00 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXEHCtSE CONTROt.LER INFORMATION
*** THIS IS A DRILL ***
Controller Information: Expected Actions: Use Contingsney Message 5.1x if Health Physics has not provided the Operators continue their efforts to restore the loop seal. analysis results to the Control Room in order for them to determine if airborne radioactivity levels have exceeded 1000 times normal. Health Physics continue to monitor the affected areas of the Turbine i Building and Offgas areas. Deliver Contingency Message 5.2x if the Shift Supervisor does not recognize that airborne activity levels are above 1000 times normal. Continue to monitor condenser vacuum. 1 s a w -
-- - -- - -- ---!,--aw&
l
'1991 PRACTICE EXERCISE Clock Time - 0900 Message Number - 5 Scenario Ti:se - 01/00
-RIVER BEND STATION >
EMERCENCY PREPAREDNESS EXERCISE CONIROL ROOM PATA PANEL 601/877 PANEL 601 PANEL 680 Status Press Flow SRV RED CRN AC.MN POWER 90% APRM LEVEL 40" NR RIIR A SR O F041A OFF ON OFF ' RIIR B SPC 5200 F0418 OFF ON OFF CNS PIA OP WSPIA OP RIIR C SR O M41C OFF ON OFF CNS PIB OP WS PIB OP ! F041D OFF ON OFF CNS PIC OP WSPIC OP LPCS SR O FO41F OFF ON OFF i
'F041G OFF ON OFF Total Feedwater Flow .11,2_ M1bs./hr RCIC SR O O F041L OFF ON OFF :
IIPCS SR O O F047A OFF ON OFF FB478 OFF ON OFF PANEL 808 l. CRD A OP 1903 75 F047C OFF ON _ 0FF ; CRD B _ AV O O' F047D OFF ON OFF Press Temp level FD47F OFF ON OFF DRWELL O.1 122' f S.fPtih Press Ievel F0518 OFF ON OFF CT O.1 84* . SLC A OOS O 2000 F051C OFF ON OFF SPR PL 91* 19*6" l SIL B LT ON O F051D OFF ON OFF F051C OFF ON OFF PANEL 870/601 'I { Press Level Ranste ! RPV 1020 40" UR MSIV RED CRN l F022A ON OFr SUF P2A SR 'SWP P2C SR F0225 ON OFF SWP P2B SR SWP P2D SR f DIV I DIESEL SR DIV II DIESEL SR F022C ON OFF F022D ON OFF PANEL 863 t l DIV III ' DIESEL SR , i F02SA ON OFF : OP=CPERATI!8G SR= STANDBY REAny 'F0288 ON OFF SCTS A' SR SCTS B SR l cos=our or sravicE ss-sEccRrn sTA M F028C- ON OFF D/U COOLEP" OPERATING BCDE AV=AVAILASLE Is0L=Is0 LATED F028D ON OFF CTMT COOLERS OPERATING AB l l l _ . . . ~ - -
f Reu- c;iuTions l_ RIT::C AL PL U T V A RI ABL ES seninTcouTim ; 0_ :. :. : CONTelIllMENT [ RPU
] \
E DG INOT OPERI E [ ) I DESIGN 14.9) 4SRU LIFT 1103D 4 PRESS (0]PSIG PRESS E 1020 E PSIG U lhl l $fh l ( 100% BPU 1025 ) ] COPER HI (1.68) PRESSI 0.13PSIG @I 74) (
~
OPETHi 90 ) 4 TRIP HI 52 D I lg GROUP ISOL j TEMP [~3 F , LEVELE 40 I IN 4_0P_ER HI 135_F 4JCRAM LO 9D TEMP I 122 l *F 905% PO!JER R 4 OPER][1]~0-3 u/h_A.JV LUL[11lFT@IN LA_ { 0PER HII 95 ) CRAM i OPER L_ll19- D ' l TEMPI 911 *F
~
' SUPPRESSIGH SUPPRESSIGH POOL POOL i
i- !
~ -
RIVER BEND 9 .8 8 30-JAN-1991 900 l
. __ - ' J L m LJ
0:.3 RPV CONTROL--WVPWR IFwa4 "I CNDSFW YAYEE RPV POWER PUMP = _ AVAIL,PRESSAVAILiRUN! RPU LEVEL 60 0]IN bl 202]IN >TAF WATER RPU POWER' PUMP I TRIP HIi 5_2 R 0; l CRD AVAIL PRESS . AVAIL RUN g N WATER RPU POWER PUMP I NOT OPER MSCRAMLOl 95 RCIC AVAIL PRESS W4f L
- 1 OFF B -120-RFU POWER PUMP 1 TAF l-162]
i
*HPCc-
[ WATER AVAIL AUAIL PRESS OFF 3 -180 ..g.3..g-PU"P LPCE 'hyflphP HI {g { OFF g RPV PRESS R1020lPSIG LpC,* UATER RPU POWER PUMP R 0 i POOL LD i13531 AVAIL PR HI AVAIL RUN I 800- \( HEAT CAPj43791 SHTDH COOLING CLG l. g; AVAIL RPV PP HI AVAIL POWER PU _RUN_ l hh 400- \(SRU LIFil113] RUCU C001ING SROUP (100%BPUll025 i .AUAIL - l POWER AUAIL PUNP] RUN 0 ISOL_ -M " M'ti) O C i AhNL A _ L d0AL OPEN RX POWER I 96 1% (CESCALE) 120 TUREINE CLG VAC H.PWR VALUEl lI EYPAES AVAIL AVAIL AVAIL SHUT I - - - 80-MSL j" C00L'ING IV.'PWRIVALUE 4 APRM DNSCL 15l DRAINS p AVAI_LABLE l W4/L SHUT lSCRA l!ONE 40-
^LC LIQUID POWER PUMPI AVAILQBLE AVAIL OFF I e,0 (MIN) . 0 1
RIVER f}EMD 3 0 3 Sc-JAH-1991 9100 m T m - -- - - . _ _ _ _ . . _ - . _ _ _ _ _ _ - - - - -
I i G27 MEcElwa CD'r TA:: P E iT CONTROL--UPS E~~/MR POOL LEVEL 19 FT @ IN (RESCALE) 90 f .-: - ~ P001. C.:10 LING F0WER: PL' flip E DG l
" POK LD l26- 51 GURill RUN I
~
COOLING , gl RUAIL < l HOT _0PERJ -~ - FAN f Ic-DRVlJELL . C00LI;iG
.I COOLING 90WER LQAILABLE !RUn'!LlL RUN-#SRV l
~
D ER LM(r 19- 5 1 ( I h' EAT CAN " 0- O f CNTNT Il~ 333.ING FAN R,Ub{ C00LIliG l[j;UAILABLE AURILlEDUER _ ig
-W, ,W 0 OR0 P g PRESS iOJALVE 3 0Uei ~FAE~
AVAIL OFF g 0L CNTMT PRESS I_ 0.1J PSIG CONTROL l _ SHUT _ SC A T ((idil55.91 SBGi hf7 E
% l 12- \gp0ESIGN l14.91
- 8. :i PR SUPPRl 9.8I
......... (
e10 (MIN) 0 POOL TEMP I93 #F LNTNT TENF [d T , DU TEMP k 122l #F ~ MHEAT CUT 157 8 190 -- F'dPil 1 T545[ $ PU SAT 5451 , 275- 135-DESIGE\3303 SCR:. TEMPI 1M )155- ('4_DE MGH 6185i 128-200-d0EifHI135J 10a,10 (MIN) 0 ,A OPER HI ] 120-g -4 OPER HI 9 0 l 125 .. . . ., . . . . . 85 ..... ...
-10 (MIN) 9
-10 (MIN) 0 RIVER BEND e 8 0 30-JAN-1991 7:00 b
^
.?' + &: I. V. .
- i L ef '. .2 .
)
i j Clock Time = 0900 1r]1 PRAtT1Cti EXERCISE Scenario Time = 01/00 Message Number- 5 DIVC "2ND ST*\ TION l DRMS EAOP*RORS - READING ID NUMBER LOJATION UYPE) PEA'11NG fC NUMUM L.OCAilOP! E % ] Supt. Rm. Trans. Tube F.B.123' (ARM) 0.2 R/hr RE-16A,B Ctmt. PAM R.d.186* (DHRRM) 0.8 R/.r PE-194 P/hr M 195 - .spla Ans ."r.sa F.B. 95* (ARM) 0.2 tNi-R E-2GA,8 Drywell PAM D.W.114' (DHRRM) 3.0 Er;uip. Drew
- snp F.B. 70* (ARM) 0.5 mR, .c RE-21 A,8 Ctmt. Purge Isof. R.D.141' (ARM) 9.F ra.</hr PF-L96 et M 99 North hoist Aron il 423'(ARM) PM nP/hr RE-139 Annul. Near Trans. Tube 114' (ARM) 0.2 mR/hr 0.2 mR/hr W _J1 Nd. Air Rerr w=3 Pmp. Area T.B. 90 gARM) 0.2 m"/hr HE-141 Refuel. Floor Sov.h R.B.186* (ARM)
RE-202 A A.%df Mer Pump Arbs T.B. 67* (ARM) 1.5 mR/hr RE-1 ;6 Containment r 'xk F;B.114' (ARM) 0.3 mR/hr RE-203 Th* tidg. Sample Rm. T ^. (P* (ARM) 0.1 mR/hr RE-151 Sample Station Arer R.B.162* (ARM) 5.0 mR/hr Car < 9emin. Sample Fack T.B. 95* ' ARM) 0.1 mR/hr RE-162 0.G. Bldg. Regen. Area O.G. 67* (ARM) 53 mR/lv RE-21e RE-210 PASS Patsi A.B.114' (ARM) 0.2 mR/ttr R E-164 0.G. Oldg Sample Area O.G.123* (ARM) 2.0 mF./hr RE-211 Control Rod Othre A.B. 95* (ARM) 0.1 mR/hr RE-165 Cond Demin Regen Area O.G. 67* (ARM) 35 rrR/hr RE-212 W E Area East A.B. 70* (ARM) 0.09 mR/hr R E-166 Cond Domin Strnr. Area O.G. 95* (ARM) [sd snR/hr mR/*;r
."*.'.vR A Area West A.B. 70* (ARM) 2.0 PE-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/ur R T.'3 R L " .'. RHR B Area East A.B. 7C* (ARM) 2.0 mR/hr Rr_.182 Gecovery Sample Tank R.W. 65* (ARM) 0.4 mPfr RHR C Area A.B. 70* (ARM) 1.0 mR/hr RE-185 Storage Tank A aa llW. 90* (ARM) 0.2 r $ nr Gf Mi T.Fr
- 9 ! PCS Area West A.B. 70* (ARM) 0.3 mR/hr R E-186 Floor Drs.in Sump Area R.W. 65* (ARM) 1.5 r M /hr W ;1 HPCS Penetration Area East A.B. 70* (ARM) 0.7 mR/hr High Cend. Sump Ares R.W. 65* (ARM) ' 4.~4 i-c T!*
- RE-187
'd 8 LPCS Fenetration Area West A.B. 70* (ARM) 0.3 mR/hr RE-192 Refuel FlocrSouth F.B. t -
- ARM) 0.5 n Mr -
5 i ci-219 RCIC Area West A.B. 70* (ARM) 0.5 mR/hr RE-193 Refuel Floor North F.B.113* a 2RM) (5.5 mi P ! -: m = m.v. _ . , i 3
-Indicates AlarWng OSH -Indicates Offscale High .
All o*her ARMS are "as rewr l l
l t 1991 PRACTICE EXERCISE - Clock Tome = 0900 l l Message Numbec 5 ScenarioTnne = 0t/00 RIVER BEND STATION PROCESS MONITORS l' l ID NUMBE9 LOCATION HYPE) READING ID NUMqlER LOCATION (TYPE) READING ! L l Cont. Atmosphere (PART) 1.0E-C7 j RE-SA Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 sci /sec RE-111P ,Ci/cc l RE-58 Fuel Bldg. Vent Exh. (WhGM) 1.3E+00 pCI/sec - RE-111G Cont. Atmosphere 4 GAS) 5.0E-06 ,CI/cc RE-6A Radweste Bldg. Vent Exh. (WRGM) 5.7E41 aCI/sec - RE-112P Drywell A".cC.ne (PART) 6.7E-07 aCI/cc RE-6B Radweste Bldg. Vent Exh. (WRGM) 5.7E-C1 ,CI/soe RE-112G Drywell Atmosphere (GAS) 3.3E-05 ,CI/cc ! i 1GE-125 Main Plant Exh. Duct (WRGM) 5.0E-06 sci /cc RE-103 SGTS Effluent (GAS) 2.0E-06 aC"J cc I 2GE-125 Main Plant Exh. Duct (WRGM) 1.2E-04 aCI/cc RE-116 Containment Purge (GAS) 3.0E-06 aCI/cc l _ 3GE-125 Main Plant Exh. Duct (WRGM) 4.3E-02 aCi/cc RE-11A Annulus Exhaust (GAS) 2.5E-08 ,Ci'cc j i 4GE-125 Main Plant Exh. Duct (WGGM) 2.3E+02 aCi/sec RE-118 Annulus Exhaust (GAS) 2.5E-08 aCI/tcc t RE-110P Aux. Bldg. Vent (PART) 2.0E-12 aCl/cc i l RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 ,CI/cc j RE-118P Turbine Bldg. Vent (PART) 3.0E-08 ,CI/cc Off Gas Pre-treatment Monitor 200 mR/hr RE-118G Turbine Bldg. Vent (GAS)
- M-07 ,CI/cc Off Gas Post-trestrhent Monitor 80 cpm
{ 3 RE-124P C.D/O.G. Bldg. Vent (PART) 2.0E-tJ9 aCl/cc Main Steem Line Radiation Monitor 800 mR/hr
) RE-124G C.DJO.G. Bidg. Vent (GAS) 2.0E-0 7 aCI/cc Main Steam Line Radiation Monitor 750 mRfhr
, RE-126P Main Plant Exh. Duct (PART) 6.5E-10 ,Ci/cc Main Steem Line Radiation Monitor 750 mR/hr a j RE-12GG Main Plant Exh. Duct (GAS 1 5.0E-06 aCI/cc Mein Steem Line Radiation Monitor 825 mithr }
$C-Indicates Alarmlag l OSH -Indicates Offscale High
! All other Process Monitors are "as read
- i E
o a 4 T a .-- _.
( 4 4 i'j i 4 i 1991 PRACTICE EXERC8SE Clock Timee = m l-
- RAessage Number = 5.1 x Scenario Timee = 01/00
} RIVER BEND STATIDN I ERAERGENCY PREPARETNESS PRACTICE EXERCISE i i N i i i' + a
- *** THIS IS A DREL ***
l l-l RAessage To: Health Physics l
- Health Physics analysis shows that s4676 radioactivity in the vicinity of the dirty v este sump 1CND-TK12 is 5.0E-8 C3/cc.
f i l i 1 l l }. l i } 4 1 4 l I
. - . .~ = . . . , - . .. . - _, .. ___ --,. _ -. _ _ . ;
. - _ . _ . -- . _ _ . =. = - -. . . ... -
L i r
- i l
i 1991 PRACDCE EXERCISE N Tweee = 4)900 i f Message Number = }.'1 x Scenario Tavie = 01/00 RfvER BE3E) STATION EMERGENCY PREPAREDNESS PRACDCE EXERCISE [ C'JNTROS I FR INFORGAATION i
- i. " THIS IS A drill" I
i ! Qontrollee % Emocted h ! i' r Delivor.this message to Health Physkes if they have not notified the - The Shift Sep .!w declares an ALERT. ; i Shift Supervisor that airborne radioactirvity levels in ttee vicinity of the j {' dirty waste sump indicates 5.0E*3 SCI /cc. i I i s t i
- [
r
- I f I a !
1 I 4
- i I
i r - - . . . .- . .
i i 1991 PRACTICE EXERCISE Clock Twne = =0905 Message Number = 5.2x Scenario T%see = 01/05 ! RfvER BEND STATION l EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE I f a " THIS IS A DRILL " I Message To- Shift SWw i Health Physics analysis shows that airborne radioactivW in the vicinity of the dirty waste sump 1CND-TK12 exceeds 1,000 times normal levels. I e i i i
i i . i 1991 PRACTICE EXERCISE Clock Tiene = =0905 Message Number = 5.2x Scenario Tesne = 01/05 4 RfWER BEND STATION EMERGENCY P.nEPAREDfESS PRACf1CE EXERCISE CONF' rot 1ER INFORMATION i
*** 1NIS IS A DRit.L ***
i ' r.--re-,e Aegions- _ControNer :..:s.i.#.e.1 Deliver this message if the Shift Supervisor has not recognizmi that The Shift Supervisor declares an ALERT. airborne radioactivity levels in the vicinity of the dirty waste sump exceed 1000 times normal i l l t
E I
! e 1991 PRACTICE EXERCISE Clock Tmee = 81910 Message Nurnber = 5.3x Scenario Twne = 01/10 RfWER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISr.
MESSAGE i ~ THIS IS A DRKL" Message To: E. "$t Supervisor i Declare an ALERT in accordance with EIP-2-001 " Classification of Emergencies *, EAL4, Initiating Conditfors 2,* Alarm of DRMS Airborne Ventilation Monitors and Confirmation of Read %gs Greater Than 1,000 Times Normal Levels
- i I
i I i Y i . 5 ? a 1
-0910 I Clock Time =
1991 PiiACTICE EXERCISE Scenario Time = 01/10 Message Number = - 5.3 x ... RIVER BEND STATION EWIERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLER INFORMATION
*** THIS IS A DRILL ***
Expected Actions: Controller informatiorc Shift Supervisor declares an AERT. Deliver this message only if an At.ERT has not been caelared, and the Shift Supervisor has not recognized that events have occurred which require the *Jeclaration of an ALERT, and no act!ons are being taken l which woulo result in the declaration of an ALERT. 1 - l
e
]
. 1991 PRACTICE EXERCISE Qock Time = 0915 Message Number = 6 Scenerlo Tome = 01/15 RIVER BEND STATION EMERGENCY PREPAREDIESS PRACTICE EXERCfSE MESSAGE .I
- TMS IS A DREL * ~
Message To- Control Room Plant Status Update 1 1 4 1 P i i ! i i - i i L - ~ --
e Clock Teme = 0915. 1991 PRACTICE EXERCISE Scenario Time = 01/15 Message Number = 6-RTVER BEND STATION EMERGENCY PREPAREDNESS PRACTM;E EXERCISE CohTROt1ER INFORMATION
*** TiftS IS A Drill ***
Emected Actions: Controller Information: Operators continue their efforts to restore the loop seat. Deliver Contingency Message 6.1 x when operator has isolated the loop seal, and blowdown to the dirty waste sump has stopped. Health Physics continue to monitor the affected areas of the Turbine Building and Offges areas. Continue to monitor condenser vacuum. f
! l ! e J
r h
/ .
E 5 s l D R b e 3 5 1 1
/
N P P P l v R R R C O O O M e S S S 9 1 " L B 0 0 0 4 2
-- AB C I I I 1 C D L 2 2 B 0 P P P 1 P P ee 8 E 8 p ' 3 S G mm 6 V S S S 0 8 m '2 '4 P P 6 T N i i TT I VVW I E E w
T e 2 8 VW S S 8 G I S T L I o L 1 L k o E l E E A ci N F N N R A A E or P M r P A P P l a R e s O Cn P t s 1 1 e A P P P a e . . 7 R R S c O O O w r O O 5 S S R S % d F E 0 e L 9 e O AB c F L AB O I I l L 2 2 A C R P P P l E P P E a WF S W S S S t Y N TP T V O N N N o R I 'w V C / F C C C T D C S S S D E S N I C F F F F F F F F F y F F_ F R M. F F F F F F F F F F p F F F F E C O O O O O O O O O O o O O O O X A N EA O T I T SA A SD T E 1 N N F F F F F F F S NM DO 0 6 R N N N N N N N N N N g N N N N C O O O O O O O O O O o O O O O R F F F F F F F _ EO C O O O O O O O D ARR N L E E B EOPL N A R RR P E PT N D_F F F F F F F F F p F F f_ D_ V F F F F p F F F f E_ N N N N N N N I YO E F F F F F CC R O O O O O O O O O o O O O 7 O O O O O O O RN O_ 1-E C R E L A B C p M A B C D F P. C D A B C D A B C E 1 1 1 1 1 1 7 7 7 7 1 1 1 V 2 2 2 2 8 8 8 V 4 4 4 4 4 4 4 4 )4 4 5 5 5 I 2 2 2 2 2 2 2 0F WT 0 9
) )
R 0 0 0 0 T T E F0F 0 S 0 0 0 0 0 0 0 S F F F F F I F p MF F F F F F F 0 - l 0 e w 0 - e 0 c S o O 2 O O M 5 O v 0 n R Y U l 5 7 e 2 a U D T AA F -
. L R E T o R st r
Y Da 7 s E :. 7 eR o 8 s 0 s l m L' s A CI E / s 0 s e " T t - S 1 e O O 9 O e O 9 v 0 R R R sst
- - o I 6 0 r 1 r e 4 S S S ass C 6 P P L ssI R
E L X-E C s L L L r N u N s O_ E E E E e A t R C R R R R P V b.r S O s 2 S S S r Cb P a P u O e 0 E E E c S S S S S O A I v I m t S o O T r 1 I I I a Tu S S L P D D D t CN css n A I I rs t R e I I T oA P g A t a A B C A B A B I I I R Yr E ua 1 s S C S P ov 9 s R R R C I C D D LL V V VI IV oa
- s -
9 e i I I II P C P R R I I P I rov 1 M R R R L R I I C C S S R D D D ooa r
01:. _ Rev cautioniCRITICAL PLANT UARI AB _ES scntnT cAuT10ni CONTAIHNEHT "' RPU NOTdPER I ( DESIGli 14.9I DRYWELL 4SRU LIFT 1103 ) SRU MSIU FRESS {0 ] PSIG PRESS l1820IPSIG l zus l l OPEN l ( OPER HI 1. 68 p ( 100% BPU 1025 ) j PRESSE 0.1EPSIG I " ' '
,( OPETET 90 ) 4 TRIP HI 52 D TEMP f M 'F LEVELE 40 E IN l
I GROUF ISOL l E Q ER HI 135) (SCRAM LO 9D TEMP R 122 l 'F POWERE 90E% - 40PERH[20-3 , LULLIl FT 6 IN \_A_/ u/hWV (10PER_LOl19- 6)' SCRAM 4 OPER HIl 95 ) t
" l TEMPR 9oj (F SUPPRESSIGH SUPPRESSION POOL __ POOL RIVER BEND 8 0 0 30-JAN-1991 9~/5 i
1
' c " ' " "*" ' o " '
0 :.3 RPV C0iTROL--hR/PWR l E 2021IN >TAF MN CHDS/FU $[3ffp$gg $gf{ Pl{MP p l I 40 3 IN WATER RPU POWER PUMP RIP HIi 52] CRD AVAIL PRESS AVAIL RUN 0- 4
- WATER RPU POWER PUMP HOT PERl N SCRAM LOI 95 RCIf l AVAIL PRESS /N4!L OFF
-120-l '
WATER RPU POWER PUMP 1 -- M TAF l-1621 HPCc-AVAIL PRESS AUAll 0FF I -180 g _ i g i g P""P LPCE
] lh[yfphP HI A0 0FF g RPU PRESS I1020IPSIG 5#
LPC'1 ' WATER RPU P09ER PUMPg I [M POOL LD l13531 i AVAIL PR HI AVAIL RUN 800- NHEATCAPl43795 SHTDH C00LIl4G CLG RPU POWER PUMP l AVAIL PR HI AVAIL RUN E l OPEH 400- SRU LIFT!1103] RUCU fC00Itjy , {0gER PVHP pUH GPgP x100% BPU 1025 l 0-10 ' (MI!D 0 TURBIllE ' CLG UAC H.PWR UALUEE CONTROL , AVAIL AVAIL AVAIL OPEN l RX POWER R 90 ]% (RESCALE) TURBINE : CLG UAC H.PWP, URLUE l BYPAES <
- AUAIL AUAIL AVAIL SHUTg 80-DPAINS A E 5/4 SHUT 40-SLC LIQUID POWER PUMP I AVAILABLE AVAIL OFF I 0-
-10 (MIlO O RIVER BEND 8 8 9 30 JAN-1991 95/5
027 E RPU CAUTION l (([. T A " .
# E 1T C0 !1T ROL--LI ~'.s'E c /t' R 19 FT 6 IN (RESC;1LE)
POOL LEVEL I COOLING F0WER PUMP DG
-' POOL LD 126- 51 POOL -
COOLIHS , AVAIL GUAIL RUN fHOTOPER COOLING POWER FAN I 19-DRYWELL I OPER LO l19- 61 COOLINGf:AVAILABLE AVAIL RUN I SRU ~
"# 4 HEAT CAPl 0- 0I CNTMT COOLING POWER FAN I COOLING AVAILABLE AVAIL RUN I i
1810 (NIH) 'O PRESS
~
URLUE POWER FAN l lbPOUP g g i SHUT AURIL OFF E CNTMT PRESS E 0.11PSIG CONTROL M MAXIMUMi55.91 SBGT ; LUE g Ag 0 0E 9H - 12- DESIGN 114.91 E 8-l 4- PR SUPPR! 9.81 0_lg. .gINi (
'O Dbl TEMP I 1221'F FOOL TEMP I 901 'F CNTMT TEf!F [ d 'F ,
M HEAT CAPil53
~~
RPU SATl545l M RPU SATl5451 135- - 155- .275- 4SCRM TEMPI 110]
\( DESIGF_..f j DESIGN 1330]
200- 120-120-M OPER HI 1351 ' 4 OPER HI I 951 AOPER HIl 90l 8'3 -10C'M'I'N'i'0 -18 ' 'dini)' ' 0
-10 ' '('hiN')' ' 0 RIVEP BEND 8 f, 8 30-JAH-1991 VIIS
l e l 1991 PRACTIC1' EXERCISE Clock Tome = 0915 , Message Number- 6 Scenario Teme = 01/15 l RIVER BEND STATION DRMS MONITORS j ID NUMBER t.OCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING t RE-16A.B 0.8 Supt. Rm. Trans. Tube F.B.123* (ARM) Ctmt. PAM RB.186* (DHRRM) R/hr RE-194 02 mR/hr R E-20A,B Drywell PAM D.W.114' (DHRRM) 3.0 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) 02 mR/hr > R E-21 A,8 Ctmt. Purge isol. R.B.141' (ARM) 9.0 mR/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) 0.5 mR/hr RE-139 Annul. Near Trans. Tube 114' (ARM) 02 mR/hr RE-200 North Holst Area T.B.123* (ARM) 0.4 mR/hr RE-141 Refuel. Floor South RE.186* (ARM) 0.2 mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 02 mR/hr RE-146 Containment Airlock F.B.114' (ARM) 03 mR/hr RE-202 Rx Feedwater Pump Area T.B. 67* (ARM) 1.5 mR/hr [ RE-151 Sample Station Area RB.162* (ARM) 5.0 mR/hr RE-203 Turb. BIdg. Sample Rm. T.B. 67* (ARM) 0.1 mR/hr RE-162 0.G. Bldg. Regen. Area O.G. 67* (ARM) SM mR/hr RE-204 Cond. Domin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr RE-164 0.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-210 PASS Panet A.B.114'(ARM) 0.2 mR/hr RE-165 Cond Domin Regen Area O.G. 67* (ARM) 35 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) 0.1 mR/hr RE-166 Cond Demin Strnr. Area O.G. 95* (ARM) [2d mR/hr RE-212 HPCS Area East A.B. 70* (ARM) 0.09 mR/hr RE-1 G7 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RHR A Area West A.B. 70* (ARM) 2.0 rnR/hr RE-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 RHR B Area East A.B. 70* (ARM) 2.0 mR/hr RE-185 Storage Tank Area R.W. 90* (ARM) 0.2 mR/hr RE-215 RHR C Area A.B. 70* (ARM) 1.0 mR/hr RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr RE-216 LPCS Area West A.B. 70* (ARM) 03 mR/hr RE-187 High Cond. Sump Area R.W. 65* (ARM) 03 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) 0.7 mR/hr i RE-192 Refuel Floor South F.B.113' (ARM) 0.5 mR/hr RE-218 LPCS Penetration Area West AB. 70* (ARM) 03 mR/u RE-193 Refuel Floor North F.B.113' (ARM) 0.5 mR/hr RE-219 RCIC Area West A.B. 70* (ARM) 0.5 mR/hr l w, j -Indicates Alarming , OSH -Indicates Offscale High I All other ARMS are "as read' i f h
.-. - .t_.-, , . , _ . _ -. _ . . .- __. . _ _ - ,
)
1991 PRACTICE EXERCISE Clock Time = 0915 Message Number: 6 Scenario Time = 01/15 RfVER BENO STATION PROCESS MONITORS
=
ID NUMBER LOCATION (TYPE) READING ID NUMbtR LOCATION (TYDE) READING RE-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 sCl/sec RE-111P Cont. Atmosphere (PART) 1.0E-07 aCi/cc RE-5B Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 SCI /sec RE-111G Cont. Atmosphere (GAS) 5.0E-06 aCi/cc RE-6A Radwsste Bldg. Vent Exh. (WRGTA) 5.7E-01 sC1/sec RE-t 12P Drywell Atmosphere (PART) 6.7E-07 sCl/cc RE-68 Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 aCI/sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 aCi/cc 1GE-125 Main Plant Exh. Duct (WRGM) 5.0E-06 pCl/c: RE-103 SGTS Effluent (GAS) 2.0E-06 sC1/cc 2GE-125 Main Plant Exh. Duct (WRGM) 1.2E-04 aCI/cc RE-116 Containment Purge (GAS) 3.0E-06 aC1/cc 3GE-125 Main Plant Exh. Duct (WRGM) 4.3E-02 pCI/cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 sCl/cc 4GE-125 Main Plant Exh. Duct (WRGM) 2.3E+02 aCI/sec RE-11B Annulus Exhaust (GAS) 2.5E-08 aC1/cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 SCI /cc , RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 sCl/cc RE-118P Turbine Bldg. Vent ? WT) 3.0E-08 aCI/cc Off Gac Pre-treatment Monitor 200 mR/hr RE-118G Turbine Bldg. Vent (GAS) 6.0E-07 pct /cc Off Gas Post-trestruent Monitor 80 cpm RE-124P C.DJO.G. Bldg. Vent (PART) 2.0E-09 pCI/cc Main Steam Une Radiation Monitor 800 mR/hr RE-124G C.DJO.G. Bldg. Vent (GAS) 2.0E-07 pCI/cc Main Steam Une Radiation Monitor 750 mR/hr RE-926P Main Plant Exh. Duct (PART) 6.5E-10 pC1/cc Main Steam Une Radiation Monitor 750 mR/hr RE-126G Main Plant Exh. Duct (GAS) 5.0E-06 aC1/cc Main Steam Une Radianon Monitor 825 mR/hr i []-Indicates Alarming . l OSH - Indicates Offscale High All other Process Monitors are "as read" i i
-- _______________._______._....__.._._j
1991 PRACTICE EXERCISE Clocat Tome = $915 Message Number = 6.1x Scenariolame = -01/15 i RIVER BEND STATION l EMERGENCY PREPAREDNESS PRACTICE EXERCISE l MESSAGE i
*" THIS IS A DRKL "*
Message To: Control Room Annunciators in Control Room include: 1- T: -t"_-_ in Control Room inclede:
- Prefitter loop seal drain valve (N64-FO48) green fight lit.
3 __ :--___ s
l' i + I i 1991 PRACTICE EXERCISE Clock Tsme = 4 915 Message Number = 6.1x Sc9nario Twne = -01/15 l j RfVER BEND STATION
- r.MERGENCY PREPAREDEM PRACDCE EXERCISE l
- COnmmu a rR asFOResAnon i
t
*** THIS IS A DRILL ***
i . l ! ControIIer information: E _ ^ f Actions: The radiological re. lease to the Turbine Building has ceased. Operators continue their efforts to restore the loop seal per Offgas . System procedure SOP-0092. Condet.ser vacuum is holding at 25.8* Hg. Health Physics continues to monitor the effected areas of the Offgas Deliver when NEO has closed valve N64-F048, and informed the Building and Turbine Building. Control Room that the loop seat is Isolated. ; i Operators monitor the Offgas System, condenser vacuum, and continue in thule attempts to discover the source of inteakage to the i main condenser. i i t l t k
- 4. . ..
S 8 5 11 It i! sF W 8 1 B d E $ 9 w e B 3 $ 5
$!b
=g f:
0 b 5 W I e 9s 1 8t ; 88 31 5i si
;j B
!s e= ie
1991 PRACTICE EXERC:SE - Clock Twne = 0930 1 Message Number = 7- Scenario Tome = 0t/30 RfVER BEND STATION 90ERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROt1ER INFORGAATION
*** THIS IS A DRILL ***
, C te-1": information: VActed Actions: i Deliver Contingency Message 7.1x when operator has refilled the bop Operators continue to dr efforts to fill and restore the loop seal per seal and returned the valve lineup to normal. procedure SOP-0092. Health Physics continue to monitor the affected areas of the Turbine Building and Offgas areas. Continue to monitor condenser vacuum. k i e 1 3 i 4 4 c' - - - ----_-__.4
, :! ,i!I [ r i ;'f* ' , l i.
r h
/.s E l " D 0 R b e 6 B 0 3 U P P P l v ~
- R R C 3 / O O O M 9 S S A 9 1 " l e 1 B 0 0 0 4 2 A B CL C
-- L I I P P P 1
1 1 0 2 P B ee 0 E 8 6 3 S G G 3 0 / mm 6 V S S S 8 m r '2 '4 '9 0 P 6 8 T N N i i TT L E E L WWW l w o L E e 28 T 1 8 7 8 U S # L E G S I I T T A A k o N F N L N R R ci A A E A E E or P M r P N P P P l a E e s _ A OO C n P t s 1 1 P e A f_ P P a e . . R R S S S c O w r O O S E S R R
% O_ O ( P E E 0 e L L 9 e OO AB C F L OO L L R
E I I I P P F l a E WT P AD 2 P A C C d T W S S S t Y M R P a WM O N N N o R I P W P C C C T D C S S # h/I D C E S N I C F F F F F F F F F F F M. F F F F F F F F F F F F F F F F R F F F F E C O O O O O O O O O O O O O O O O A N X O EA I T T SA A ESD 1 N F F LF T N F S NM DO 0 6 R N N N N N N N N N N N N N N N N R F F F F F F F F C O O O O O O O O O O O O O O O O C O O O O O O O O D N EO RR L A E E B EOPL N A R RR P E PT N D F F F r F F F F F F F F F F F F D V E F F F F F F F F F F F F F F F F N N N N N N N N I YO E R O O O O O O O O O O O O O O O O R O O O O O O O O R NCC E G R E M A 8 C D F G L A 8 C D F B C D C A B C D A B C D E 1 1 1 1 1 1 1 7 7 7 7 7 I 1 I I V2 2 2 2 8 8 8 8 V 4 4 4 4 4 4 4 4 4 4 4 4 S 5 S S I 2 2 2 2 2 2 2 2 R 0 0 0 VO O 0 B0 0 O VO O oO S F F F F F F F F F F F F F F p F S O O O M F F F WO O O O F F F F 0 l 0 e w 0 e 0 c o O 2 O O O O O v 0 n R l F 5 5 7 l e 2 R a W Y* D A
- E
- R
- f 7 B 7 D 8 s 0 s l N A
E / s 0 s e T *, S 1 e O O 9 O e O O v 0" R R R S I 7 0 r 1 r e 4 S S S R
=
C 6 P P l S 3 E L X - E E N s _ L LL r A u b ! I s 0 E E E _ E e P t R C R R R n P V. l 5 O s 2 S S S
- Cb a S P S S S O ; u 0 e 0 E E E
_ I m T u t S S S_ _ S o 0 T L P r 1 I I I D D D
- CN A C[
I R e I T P g 1 I A a A B C A B A B 1 1 I R E 1 s S C S P 9 s R R R C I C D D rC V V V V O 9 e t i I I 1 1 E C P R R i L P I I I P
=
1 M R R R I R I I C C S S R D D D O
b 111 :. i. RPV CAUTIONECRITICAL PLANT URR:: ABLES EcninT cnu110ni CONTAIMMENT ' . gpy lNOThPER i 41DESIGli'14.N ( SRU LIFT: 1103D l DRYWELL g gg PRESS L;0 J PSIG PRESS E 1020IPSIG s er OPEN
- 4 OPER HI 1.68 g ( 100% BPU l 1025 ) g -
PRESSE 0.1RPSIG UI ' ' ( OPETEl~ 90 ) 4 TRIP HI 52 D ( TEMP L._! d T LEVELE 40 E IN [ 3 GROUP l ISOL I I 4_0PER HI 135) (SCRAM L0i 9D i TEMPI 122 5 T I P0lJER I 90E% - (f0PER]l20-0) , LUL[13 FT IN \_A_/ , Us/hWsd ([0PIR LO j 19- 6 ) i SCRAM 4 OPER HIl 95 )
" g TEMPE 81 I (F SUPPRESSION SUPPRESSION POOL __ POOL ,
RIVER BEND 8 8 8 30-JAN-1991 'f ;30 '
- _ . _ _ __ _____ ____ ___ 4
' c"'"' ca"" o" '
8 :.3 RPl) C0iTROL--WR/PhR I 202]IN >TAF "N I 401 IN CHDS/FW lh[fh phhg h0lff, PigMPp TRIP HIi 52] CRD WATER AVAIL RPU PRESS POWER AVAIL PUMP RUH 0- N N S? RAM LO 9j W9TER RPU POWER HOT PER RCIC PUMP l AURIL PRESS AVAIL OFF s -120-TAF l-162] WATER RFU POWER PUMPI HPCS AUA_IL PRESS AVAIL OFF I -180 10 (MIN) 0 PgP RPU PRESS X1020IPSIG l lh[ffphP HI LPCS 0 gp I
.h POOL LD 1353I WATER RPU P0WER PUMP LPCI AVAIL PR HI AU4IL 800-RUN .
HEAT CAP!43791 l SHTDN CLG RPU P06 R PUMP l lOPEH SRU LIFTil103] i AVAIL PR HI AVAll RUN E 400-COOLING 100% SPV 1025 C00 {0gER PigP 6PgP l RWCU tjy p 0 4,0" (MIH) ' O VN POWER I 905% (RESCALE) Ci i . AhAL AAL OA OPENl TURBINE I CLG UAC H.PWR UALUE BVPRES {AUAIL AVAIL AVAIL SHUT WM DNM bl E 4, DPAIiS AUA E dAIL SHUT ~ 1 LIQUID POWER PUMP 8 SLC AUAILABLE AVAIL OFF l 0 10 (tilN) 0 RIVER , BEND 8 8 8 30-JAN-1991 1:30 t
- 027 ERPU CAUTION l {Q[.TFIl'ENT CONTROL--U
- 'SE /vR 4
P0OL LEVEL 19 FT 6 IN (RESCALE) POOL TOOLING F0WER PUMP " ' GUAIL RUH DG POOL LD l26- 51 COOLING ___ AVAIL lHOTOPER ' OR
- DRYWELL ! COOLING POWER FAH l 19-COOLING AVAILABLE AVAIL RUN I SRU GPER L0119 61
~
CNTMT ,' I'OTfLING POWER FAH ' /HEATCAP- 0- O R COOLING AVAILABLE AVAIL RUN ig ,,,,.,,,,,
-10 W H) 0 PRESS CONTROL ,
I VALUE SHUT POWER AVAI!. FAH OFFEl lGP0P] { 0L CNTMT PRESS E 9.1EPSIG SBGT l AL S3H(lJE hk [ SCgAM _
~
M MAXIMUM E5. 9 5 NSIGH l14.9 5 6-4-
^
l (PR SUPPRI 9.81
~-18'~d1'I'N)'O CNTMT TEMF l~3 F DU TEMP E 122 E 'F POOL TEMP l 29 1F
~~
545l M RPU SAT 545l M HEAT CAP l1571 {'4RPU_ SAT 155- _275- 135-
% 330E SCRM TEMPl1101 4 DESIGH 185l DESIGN 120- 200- 120- ,
4 0PER HI 90l A 0PER HI1135E ,4 OPER HI 1 951 8D_166 jig)0
-15('NI'N')0 -16^'('M'I'N)0 RIVER BEND 8 0 0 30-JAN-1991 930 i
1991 PRACTICE EXERCISE ClockTimee = 0930 ; Message Numter:_7_ Scenarie Due = 01/30 , RNER BEND STATIOf6 i DRMS MODBTORS 10 NUMBER LOCATION (TYPE)_' READING ID NUMBER LOCATION (TYPE) READING l R E-16A,B Ctmt. PAM R.B.186* (DHRRM) 0.8 R/hr RE-194 Supt. Rm. Trans. Tube FE.123' (ARM) 0.2 mR/hr ! RE-20A,8 Drywell PAM D.W.114* (DHRRM) 3.0 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) 0.2 mR/hr i RE-21 A,B Ctmt. Purge leol RE.141' (ARM) 9.0 mR/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) 0.5 mR/hr i RE-139 Annul. Near Trans. Tube 114' (ARM) - 0.2 mR/hr RE-200 North Holst Area T.B.123* (ARM) 0.4 mR/hr
- RE-141 Refuel. Floor South R.B.186* (ARM) - 02 mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-146 Containment Airlock FE.114'(ARM) 0.3 . mR/hr RE-202 Rx Feedwater Pump Area TE. 6T (ARM) 1.5 mR/hr RE-151 Sample Station Area R.B.162* (ARM) 5.0 ' mR/hr RE-203 Turb. Bfdg. Sample Rm. T.B. 6T (ARM) 0.1 mR/hr
- RE-162 0.G. Bldg. Regen. Area O.G. 67* (ARM) 0.4 mR/hr RE-204 Cond. Domin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr
!: RE-164 0.G. Bldg Sample Area 0.G.123' (ARM) 2.0 mR/hr RE-210 PASS Panet AE.1f 4'(ARM) 0.2 mR/hr RE-165 Cond Domin Regen Area O.G. 6T (ARM) 9.2 mR/hr RE-211 Control Rod Drive A.t]. 95* (ARM) 0.1 mR/hr
- RE-166 Cond Domin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr RE-212 HPCS Area East AB. 70* (ARM) 0.09 mR/hr 1
RE-167 0.G. Bldg. Valve Area O.G.13T (ARM) 28 mR/hr RE-213 RHR A Aret West A.B. 70* (ARM) 2.0 mR/hr RE-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 RHR B Area East AE. 70* (ARM) 2.0 mR/hr RE-185 Storage Tank Area R.W. 90* (ARM) 0.2 mR/hr . RE-215 RHR C Area AE. 70* (ARM) 1.0 mR/hr RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr R3 216 LPCS Area West A.B. 70* (ARM) 0.3 mR/hr l. ] RE-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) 0.7 mR/hr
- l. RE-192 Refuel Floor South F.B.113* (ARM) 0.5 mR/hr RE-218 LPCS Penetration Ares West A.B. 70* (ARM) 0.3 mR/hr l' RE-193 Refuel Floor North F.B.113'(ARM) 0.5 . mR/hr RE-219 RCIC Area West AB. 70* (ARM) 0.5 mR/hr i
M3-Indicates Alarming OS!!-Indicates Offscale High ! All other ARMS are "as road"
- i-
,. ,, . w.
a 1991 PRACTICE EXERCISE Clock Time = 0930 Message Number: 7 Scenario Time = 01/30 RIVER BEND STATION PROCESS MONITORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING RE-SA Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 aCl/sec RE-111P Cont. Atmosphere (PART) 1.0E-07 aCi/cc RE-58 Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 sci /sec RE-111G Cont. Atmosphere (GAS) 5.0E-06 sci /cc RE-6A Radwasta Bldg. Vent Exh. (WRGM) 5.7E-01 SCI /sec RE-112P Drywell Atmosphere (PART) 6.7E-07 SCI /cc RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 aCI/sec RE-112G Drywell AtmosF.<re (GAS) 3.3E-05 sci /cc 1GE-125 Main Plant Exh. Duct (WRGM) 7.4E-07 aCI/cc RE-103 SGTS Effluent (GAS) 2 OE-06 SCI /cc 2GE-125 Main Plant Exh. Duct (WRGM) 1.2E-04 sCl/cc RE-116 Containment Purge (GAS) 3.0E-0G sci /cc 3GE-125 Main Plant Exh. Doct (WRGM) 4.3E-02 aCI/cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 sci /cc OGE-125 Main Plant E4 h. Duct (WRGM) 3.3E+01 sC'/sec RE-11B Annulus Exhaust (GAS) 2.5E-08 sCl/cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 e.C1/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 aC1/cc RE-118P Turbine Bldg. Vent (PART) 8.0E-10 sci /cc Off Gas Pre-treatment Monitor 200 mR/hr ) RE-118G Turb!ne Bldg. Vent (GAS) 2.0E-08 sC1/cc Ott Gas Post-treatinent Monitor 8t, cpm RE-124P C.D./O.G. Bldg. Vent (PART) 2.0E-09 SCI /cc Main Steam Une Radiation Monitor 800 mR/hr RE-124G C.DJO.G. Bldg. Vent (GAS) 2.0E-07 SCI /cc Main Steam Une Radiation Monitor 750 mR/hr RE-126P Main Plant Exh. Duct (PART) 6.0E-10 aCI/cc Main Steam Une Radiation Monitor 750 mR/hr R E-12SG Main Plant Exh. Duct (GAS) 7.4E-07 SCI /cc Main Steam Une Radiation Monitor 825 mR/hr
- n. 5 - Indicates Alarm 3ng OSH -Indicates Offscale High All other Process Monitors are 'ar ;ad" v
4 < t 4 b 1 i 1991 PRACTM:E EXERCISE Clock Time = 0935 . Message Number = 7.1x Scenario Tome = -01/35 i 2 RIVER BENO STAT 10E - EMERGENCY PREPAREDfESS PRACTICE EXERCISE - MESSAGE ' i r
*** THIS IS A DREL ***
j Message To: Control Room i l Annunciators in Control Room include: Indicat5ons Irv Corstref Room include: [ , r i s. Prefilter in8et drain va!ve (N64-FC54) red i'gM a tt", l t i i - i h t s f f I - I i , 1
, e r e c
+ . , . __ ._ - - _ -_- __- - _ - -. ,
1991 PRACTICE SXERCtSE Ciock Time = =0935 Message Number = 7.tx_ Scenario Time = -O ffM RIVER BEND STATION EMERGENCY PREPAREDP-ISS P'/,ACTICE EXERC*SE l CONTROULER INFORMATION
*** THIS iS A DRILL ***
Controller Infeemation: E M .J Adtions: This isolated loop scal ls now filled and reopened per procedure SOP- Refill the loop seal and place back in service in s:cordance with 0092. procedure SOP-OO92. Deliver when the NEO refills the loop seal and report to the Control Continue to monitor condenser vacuum and attempt te restore to its Room that the toep seal is refil!ad and the valve lineup is returned to normal level. normat. r Condenser vacuum holding steady. Radiation levels are decreasing. __w __ A 9
. v o .. - .. . -. .
Clock Time = 0945 1991 PRACTICE EXERCISE Scenario Time = 0t/45 Message Number = 8 RIVER BEND STATION j EMEHGENCY PREPAREDNESS PRACTICE EXERCISE SSESSAGE 1 l
** THtS IS A DRit.L ***
Message To: Controt Room Indications & Control Room include: Annunciators in Control Room include-Condenser vacuum is 25" Hg. ad slowly decreasing. CONDENSER VACUUM LOW - P680-02A/B01 l i 1 u . .- i i ri a i - t m .%._.., g--g a rg - - -
6 1991 PRACTICE EXERCISE Clock Time = - 0945 Message Number = 8' Scenario'Ume = 01/45 , RfVER BEND STATION EMEHGENCY PREPAREDNESS PRACDCE EXERCSE CONTROLLER INFORMATION r
*** THIS IS A DRIt_f. ***
C-:- , ":r information: Expected Actiers Turbine semis have further deteriorated, and condenser vacuum is Op trators rapidly reduce power by decreas!ng reactor recirculation decreasing. Since the main condenser is the primary heat sink, flow and driving control rods in order to attempt to maintain actions will center around stabilizing and restoring vacuum. See condenser veceum at or above 25' Hg. l Supplemental Scenario No.1. Operators continue to determine and isolate the source of in-leakage. The Alarm Response Procedure for condenser low vacuum (ARP 1H13-P680-02A/B01) immediately refers the operator to procedure Operators may consider placing 113 standby SJAE in service. > AOP-005, Loss of Main Condenser Vacuum. Operator actions should be implemented from the latter procedure. ; { i Data indicates reduced power as a result of operator action per AOP-005. i
._. - _._-.t_.. .._m
b f 1991 PRACTICE EXERSISE Clock Time - 0945 - Message Number - 8 Scenario Time - 01/45' RIVER BEND STATION t ! EMERCENCY PREPAREDNESS EXERCISE l CONI 1tDL ROOK DATA i -, l
't
- PANEL 601/877 -PANEL FJ1 PANEL 680 ;
Status Press Flow SRV RED CRN , AC.MN 0 POWER 78% APKru LEVEL 40" NF 4 RIIR A SR F041A OFF ON OFF ! RIIR B SPC _}10,0 F041B 0FF_ ON OFF CNS PIA OP FWS PIA OF , RilR C SR O FB41C _0EF_ ON . _,, OFF I CNS PIB OP FWS PIB OP F041D OFF . ON OFF CNS Plc OP FWS PIC OP LPCS SR 0 F041F OFF ON OFF
- F041C OFF ON OFF Total Feedsater Flov 9.6 M1bs./hr-RCIC SR 0 0 F041L OFF ON OFF ,
IIPCS SR 0 0 F047A 0FF ON OFF ,
-F0478 0FF ON OFF PANEL 808 !
CRD A _ OP 1900 75 F047C- OFF ON OFF
, CRD B AV 9 0 F047D OFF ON OFF '
Press Temp Level F047F OFF ON OFF South Press I# vel DRYWELL 0,1 12f F051B OFF ON _9EE_ c737 o.1 sco . SIE A OOS 0 2000 F051C OFF ON OFF SPR PL 88' 19'6* i SIL B LT ON O F051D OFF ON OFF ! F051C OFF ON OFF PANEL 870/601 Press Level Range ' RPV 987 40" VR MSIV' RED Cl$i . F022A ON OFJ SWE P2A SR SWP P2C SR .f
,F022B ON SVP P2B SR_ SWP P2D SR DIV I DIESEL SR OFF_
DIV II DIESEL SR . F022C ON OFF
.F022D __ON OFF PANEL 863 DIV III DIESEL -SR
- F028A CN OFF
'F028B ON OFF SGTS A SR SGTS B SR OP=CPrRATING SR=$TANUSY. READY +j oos-ot:T or senvier ss-sece ra sTA vs F028C ON D/W COOLERS OPERATING BCDE ;
OFF FV28D ON OFF CTMT COOLERS OPERATINC AB
01:. _ j RFU ALARM ECRITICAL 3 LAIT VARI ABLES geninTcAuTIDs CONTAIHtENT ppu lNOT PER j (l DESIGH 1_4. 9 h DRYWELL 4SRU LIFT 1103Dh gggy PRESS ~ ] PSIG 1 PRESSE 987EPSIG l o..v - OPEN f~$hR HI 1. 68 g ( 100% BPU 1025 ) j PRESSI 0.11PSIG - N '" 41 O P E _[ _H I _ _ h ( TRIP HI 52 D I GROUP R TEMP l[ d F LEVELE 40lIN l ISOL E 4_0PER HIl 135& 4 SCRAM LO 9> TEMPI 122l F POWERE 78 E % (10PER H,I 20_ _0)
" ~
LUL[t1 FT@IH UV L ^s>hWV (10PER))I 19- 6 ) CRAM 4 OPER HI 95 D TEMPI 8 8 ] *F
~
SUP?RESSION SUPPRESSION POOL _ POOL RIVER BEND 8 8 9 30-JAN-1991 9: 45
3 ' c"'"' c a"" o" ' 8 :.3 RPU CD'1Tku_--WR/ WR I 203]IN >TAF
# g pg g IN
^
-HDS/FW kh[fflphhg khl(( Pu p Pl 60
- - - - TRIP HIl 52 l 0-WATER RPV POWER PUMP R CRD .; AVAIL PRESS AVAIL RUH I (SCRAM 1.0l 91 TER RPV POWER PUMP HOT PER RCIC AVAIL PRESS AVAIL. OFF -120-TAF l-162) i WATER RPU POWER PUMP l HPCS AVAIL PRESS AVAIL OFF E -180 10 (MItD 0 RPU PRESS F VP?lPSIG LPCE , hhjff phPHI A0A 0Fl P P S# -
POOL LD i1353l i WATER RPU POWER PUMP l LPCI PR HI AVAIL RUN E 800-
\(_HEATCAP!4390l i
l AVAI_L l g SHTDll i CLG RPV POWER AVAll PR HI AVAIL PUMP R RUN I l OPEN 400- SRU LIFTl.11035 C00LIl1G L RU l [g[ l 0 10 (MI)D 0 l RX POWER I '/8]% (RESCALE) P Ah L _AbAfLOA OP N l TURBIllE CLG UAC H.PWR VALVE EYPASS AVAIL AVAIL AVAIL SHUT lg 80-APRM DNSCL '5] MSL DRAIhS COOLING AVAILABLE V.PWR
#wL VALVEg SHUT { SCRAM NONE l 40- ~
LIQUID POWER PUMPI SLC AVAILABLE AVAIL OFF E 0 10 (MItD 0 9:45 RIVER. BEND 8 8 6 30-JAN-1991 . ._- k
0:2 7 l RPV ALARM I {Qf,"AIF.M8T CONTROL--U 3 SET /MR P0OL LEVEL 19 FT 6 IN (RESCALE) . 20 l POOL COOLING ~ F0WER POOL LD 27 C00LIl1G , fl0T AVAIL GUAIL PUMPI RUN DG - 21 NOT OPER
~
DRYWELL IOOLING POWER FAN I 19-C00LIl1G '_A1AILABLE__ AVAIL RUN E SRV 4 OPER LO 19- 61 CNTMT COOLING POWER N ~ FAN l HEAT CAP 0- O R COOLIl1G !_AU,AILABLE AVAIL 80N u
~
-10 M0 18 PRESS VALVE POWER FAN CONTROL l SHUT AVAIL OFFl lGP0P x 0L CNTMT PRESS I 0.2EPSIG A
SBGT 3 HUT I M M MAXIl1UM 55.95 ( SCN0 lE 6-DESIGN 14.95
~
PR SUPPR' 9.83
-1$('NI'N)0 l CNTMT TEMF l[8Il F DW TEMP E 122E F POOL TEMP I ssE F ma (1RPV _ Sail 541 l M RPU SATl541E N HEAT CAPl157B
' 155-- 135-DESIGN 185 l 275- DESIGN 1330E SCRM TEMP l110 5 120- 200- 120-85 g g. g -O
~
- 18 ' '('NI'N')' ' 0 -10 (MIH) 0 l RIVER , BEND 8 0 0 30-JAN-1991 '7: 45 i
l l
l' 1 I: e 1991 PRACTICE EXERCISE Clock Time = 0945 Message Numt er: 8 Scenario'Ume = 01/45 . j RIVER BEND STATION l DRMS MONITORS , I ; ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING RE-16A,8 Ctmt. PAM R.B.186* (DHRRM) 0.8 R/hr RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 0.2 mR/he RE-20A,8 Drywell PAM D.W.114* (DHRRM) 3.0 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) 0.2 mR/hr R E-21 A,B Ctmt. Purge isol. R.B.141' (AR.'d) 9.0 mR/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) 0.5 mR/hr RE-139 Annul. Near Trans. Tube 114* (ARM) 0.2 mR/hr RE-200 North Holst Area T.B.123' (ARM) 0.4 mR/hr RE-141 Refuel. Floor South R.B.'186* (ARM) 0.2 mR/hr RE-201 ~ Cond. Als Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-146 Containment Airlock F.B.114' (ARM) 0.3 mR/hr RE-202 Rx Feedwate Pump Area T.B. 67* (ARM) 1.5 mR/hr RE-151 Sample Station Area R.B.162* (ARM) 5.0 mR/hr RE-203 Turb. Bldg. Sampie Um. T.B. 67* (ARM) 0.1 mR/hr RE-162 0.G. Bldg. Regen. Area O.G. 67* (ARM) 0.4 mR/hr RE-204 Cond. Demir:. Sample Rack T.B. 95* (ARM) 0.1 mR/hr R E-164 O.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr . RE-210 PASS Panel A.B.114'(ARM) 0.2 mR/hr RE-165 Cond Domin Regen Area O.G. 67* (ARM) 9.2 ' mR/hr RE-211 Control Rod Drive A E 95* (sM) 0.1 mR/hr RE-166 Cond Demin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr RE-212 HPCS Area East A.B. 70* (ARM) 0.09 mR/hr R E-167 0.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RHR A Ares West A.B. 70* (ARM) 2.0 mR/hr RE-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 RHR B Area East A.B. 70* (ARM) 2.0 mR/hr RE-185 Storage Tank Area R.W. 90* (ARM) 0.2 mR/hr RE-215 RHR C Area A.B. 70* (ARM) 1.0 mR/hr RE-186 Floor Drain Semp Area R.W. 65* (ARM) 0.5 mR/hr - RE-216 LPCS Area West A.B. 70* (ARM) 0.3 mR/hr RE-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 . mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) 0.7 mR/hr RE-192 Refuel Floor South F.B.113' (ARM) 0.5 mR/hr RE-218 LPCS Penetration Area West A.B. 70* (ARM) 0.3 mR/hr RE-193 Refuel Floor North F.B.113' (ARM) 0.5 mR/hr RE-219 RCIC Area West A.B. 70* (ARM) 0.5 mR/hr
$,w]-Indicates Alarming OSH - Indicates Offscale High
~
All other ARMS are "as read" ,
A t ClockTime = 0945 l 1991 PRt.C11CE EXERCISE Scenario Time = 01/45 Message Number-_ 8. RIVER BEND STATION PROCESS MONTTORS LOCATION (TYPE) READING READ!NG ID NUMBER ID NUMBER LOCATION (TYPE) Cont. Atmosphere (PART) 1.0E-07 aci/cc 1.3E+00 aCI/see RE-111P RE-5A Fuel Bldg. Vent Exh. (WRGM) 5.0E-06 ,Ci/cc pCl/sec RE-111G Cont. Atmosphere (GAS) RE-5B Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 ,Ci/cc Drywell Atmosphere (PART) 6.7E-07 aCi/sec RE-112P RE-6A Radwaste Bldg Vent Exh. (WRGM) 5.7E-01 aCl/cc Drywell Atmosphere (GAS) 3.3E-05 pCI/sec RE-112G RE-6B Radwaste Bidg. Vent Exh. (WRGM) 5.7E-01 2.0E-06 pC1/cc 7.4E-07 pCi/cc RE-103 SGTS Effluent (GAS) 1GE-125 Main Plant Exh. Duct (WRGM) Containment Purge (GAS) 3.0E-06 ,Ci/cc 1.2E-04 aCl/cc RE-116 2GE-125 Main Plant Exh. Duct (WRGM) 2.5E-08 ,Cl/cc 4.3E-02 SCI /cc RE-11 A An .h Exhaust (GAS) 3GE-125 Main Plant Exh. Duct (WRGM) 2.5E-08 pCI/cc 3.3E+01 ,C1/sec RE-11B Annulus Exhaust (GAS) 4GE-125 Main Plant Exh. Duct (WRGM) RE-110P Aux. Bldg. Vent (PART) 2.0E-12 pCi/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 aCl/cc 200 mR/hr 3.0E-11 sCl/cc Off Gas Pre-treatment Monitor R E-118P Turbine Bldg. Vent (PART) 80 cpm 1.0E-10 SCI /cc Off Gas Post-treatment Monitor RE-118G Turbine Bldg. Vent (GAS) 800 mR/hr l ,Ci/cc Main Steam Une Radiation Monitor RE-124P C.DJO.G. Bldg. Vent (PART) 2.0E-09 750 mR/hr 2.0E-07 pCl/cc Main Steam Une Radiation Monitor RE-124G C.D./O.G. Bldg. Vent (GAS) 750 mR/hr 6.0E-10 ,CI/cc Main Steam Une Radiation Monitor RE-126P Main Plant Exh. Cuct (PART) 825 mR/hr 7.4E-07 aCl/cc Main Steam Une Radiation Monitor RE-126G Main Plant Exh. Duct (GAS) i ' - Indicates Alarming OSH -Indicates Offscale High All other Process Monitors are "as read" 4
Clock Time = 1000 199i PRACTICE EXERCISE Scenario Time = 02/00 Message Number = 9 RIVER BEND STATIOfi EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE
*** THIS IS A DRILL ***
Message To: Control Room Plant Status Updato i
s Cicek Time = 1000 ' 1991 PRAC11CE EXERCISE Scenario Time = 02/00 Messago Number = 9 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCl3E CONTROt1ER INFORMATION
"* THIS IS A DRILL "*
_ Expected Actionx Controller Information; 1 Operators continue to reduce power and monitor condenser vacuum, ' At the operators request, inform them that condenser vacuum has while attempting to locate the source of infeakage. leveled out at approximately 24" Hg. and, as power is reduced further, starts to increase. See Supplemental Scenario No.1 for a graph of vacuum. If the standby SJAE is placed in service, condenser vacuum will increase at a slightly faster rate as power is reduced, but still not reach 25" Hg. See Supplemental Scenario No.1 for a vacuum graph. l l l
l r h
/ E s D 0 R _ b B 0 0 N f. F P l R R R C 0 / O M S S S A 0 2 " O_ 0 B 1 0 0
. 4 9 AB C C D
- - I I I 7 2 2 B 0 L P P P 8 P P 3 ee 8 E 0 6 S G G mm 6 V S S S 8 P P 8 T N N ii TT L E
E L WWW l w o L E V U S S L E C S I I T T A A ko N F N N R R ci A A A E E or P f U r P P P P l a i e OO C n P _ t e A P P P a ' R R R S S c O O O w S S S R R S % d E E 4 e L L 6 e OO A B C F AB O O I I I 2 2 AC C R P P P l P P E a S T W O S S S N N N t o P P W W T W M G /T P C C C T S S S D C
^
E S N I C F F F F F F F F F F F F F F F F M. F F F F F F F F F F F F F F F F R C O O O O O O O O O O O O O O O O E A X N O EA T I T SA SD AE 1. N N F F F F F F F F T S NM DO 0 6 R N N N N N N N N N N N N N N N N R F F F F F F F F C O O O O O O O O O O O O O O O O C O O O O O O O O D EO N RRA L E EB EOPL N A RR R PT P _ E N D F F F F F F F F F F F F F F F F D V YO E F F F F F F F F F F F F F F F F E N N N N N N N N I CC R O O O O O O O 0 O O O O 0 O O O R O O O O O O O O RN E G R E A3 C D A B C D M AB C D F G L A B C D F B C D G 1 1 1 1 1 1 1 7 7 7 7 7 1 1 1 1 V 2 2 2 2 8 8 8 8 E V 4 4 4 4 4 4 4 4 4 4 4 4 5 5 5 5 I 2 2 2 2 2 2 2 2 R 0 0 0 0 0 S F F F F F 0 0 0 0 0 MW0 FW0F F F F F F MM0F W0F F M0F F0 S 0 0 l 0 e w 0 e 0 n o 0 O v 0 n R l F 0 2 5 0 0 0 5 7 I e 2 R a U Y* D A ^ E{ R 7 Y 7 7 s 0 s l S O N
$c E
S 8
/ s e 0 0 0
9 O s e 0 O e v 0 R R R T A I 9 C R E 1 0 6 P r 1 P r l e 4 S S S R S
=
[ X - L E s L L L E N r A u b N s E E E E e P t R C R R R R P V i S O s 1 S S S Cb a P S S S O A u 0 e 7 E E E I m T u S t S S S S q 0 T L r 9 P I I D D D I
- CN A G [,
N I Re P g I T [ I I A 1 s a A B C S C S A B A B I I I R E P h 9 s 9 e R H R H R H C P I C P C D R D R C L if V P V V V I I I C= 7. 1 M R R R L R I I C C S S R D D D O$ P
' , l \lI t
l e lTC' RPU ALARM 8CRI~:: CAL PLANT VARI ABLES scH1n1 cAurions CONTllilMENT [ RPV DG , [ f NOT OPER I DESIGH 14.9 ) DR,/lJELL ISRU LIFT 1103 ) ' 0 E SRV E E MSIV E ! PRESS [,jid] PSIG PRESS E 971 E PSIG E snur I E OPEN I ( OPER HI 1R ( 100% BPV 1025) ] PRESS E 0.1 E PSIG ?I > %) ilOPL[_UI 90 ) 4 TRIP HI 52 &
~
l TEMP (, B #F LEVELI 40 I IN l ISO Q ER HI 135& 4 SCRAM LO 9D TEMPI 122l F 6+E% POWER E (0,PJR][120-0) LUL[11 FTl]IH L'V u/hWV (10PER][019-6) SCPAM 4 OPER HI 95 D O l TEMPE 87E *F SUP?RESSION SUPPRESSION POOL POOL I i__
. RIVER BEND 0 8 8 30-JAN-1991 10:00
'c" int CAun0s:
0 :. 3 RPV CDiTROL--WR/3WR 1 2021IN >TAF PPV LEVEL phP{ 30gR PgP I 40j IN CNDS/FW f TRIP HIi 52l WATER' RPU F0WER PUMP E 0-CRD AVAIL PRESS fiUAIL RUN j SCRAM LO 95 ITER RPU POWER PUMP NOThPER _ RCIC : AVAIL PRESS W 4:L OFF -120- ,
-- 3 TAF l-1621 WATER RPU F0WER PUMP I -180-HPCc- AVAIL PRESS AVAIL OFF I 10 (MIN) e RPU PRESS I 9711PSIG LPCE hjR pgPHI P""P 0FF l SWT POOL LD l13531 LPCI 31TER RPU POVSR PUNPg HEAT CAPj43985
@ $1L PR_HI AVAIL RUH 800-SHTDN COOLING CLG ! RPU POWER PUMP I AVAIL PR HI AVAIL RUM E f hfh l 400- SRU LIFT l1103l p p 100% BPU 1025 PU RWCU COOL,I E{ p 0-0 RX POWER I 641% (RESCALE)
C R l AhAL AbAL 09 h TURBINE CLG UAC H.PWR UN 7LUE BYPASS AVAIL AVAIL AVAIL SHUT B 80-~ DPAINS AVOfLA E ak S lYf 40- ' SLC IIQUID POWER PUMP { AVAILABLE AVAIL OFF 0 10 (MIH) 0 RIVER BEHD 8 8 8 30-JAN-1991 /o:00/ ca 1
mummum i 0'27 L g { ALARM ] {Q[. T A '.:ls 'Bs T CO 1TR0i---WE~~/ 7 R POOL LEVEL 19 FT 6 IN (RESCALE) POOL COOLING. F0WER PU DG POOL LD l27- 6I C00LIl1G jic,LAVAIL AVAIL RUN lNOTOPER DRYUELL In0 LING POWER FAN l 19-C00LIl4G AVAILABLE AVAIL RUN a SRU R OPER LO l19- 61
~
SHUT I HEAT CAP 0- 01 CNTMT 'I COOLING POWER FAN I C00LIl1G j AVAILABLE AVAIL R_UN, J 18 ..........
-M M 0 PRESS ~ 7 iiIL V E POWER FiIII lGP0P
{ 0L CONTROL SHUT AVAIL OFF CNTMT PRESS 3 8. IIPSIG M MAXIMUMI55.95 SBGT AL E ggUT {g 0 l l hC AM
~
DESIGN 14.91 8-4- PR SUPPR 9.81
-18('M'Ill)$
DW TEMP I 122R F POOL TEMP I 871 'F CNTNT TEMF l~ff] F
~~
M RPV SATj539J M HEAT CAP 1585 7 Q{3AT 539l 275- .35-155- SCRM TEMP l 1101 DESIGN 330 R DE_S[IGN 185 l 200- 120-120-90 l A OPER HI- 1351 J OPER HI l 951
-1 N IIfEO~. Q R HI -15('Nni)O -18 ' ~('Nni)' ' O
~
RIVER , BEND 0 8 30-JAN-1991 10:00 t _ _ _ -
Clock Time = 1000 1991 PRACTICE EXERCISE Scenario Time = 02/00 Message Number- 9 RIVER BEND STATION DRMS MONETORS READING READING ID NUMBER LOCATION (TYPE) 1D NUMBER LOCATION (TYPE) RE-194 Supt. Am. Trans. Tube F.B.123' (ARM) 0.2 mR/hr RE-16A B Ctmt. PAM R.B.186* (DHRRM) 0.8 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) 0.2 mR/hr RE-20A,8 Drywell PAM D.W.114' (DHRRM) 3.0 R/hr RE-196 Equip. Drain Sump F.B. 70' (ARM) 0.5 mR/hr R E-21 A,B Ctmt. Purge Isol. R.B.141' (ARM) 9.0 mR/hr RE-200 North Holst Area T.B.123' (ARM) 0.4 m R/hr RE-139 Annul. Near Trans. Tube 114' (ARM) 0.2 mR/hr Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr Refuel. Floor South R.B.186* (ARM) 0.2 mR/hr RE-201 RE-141 mR/hr Rx Feedwater Pump Area T.B. 67' (ARM) 1.5 Conta!nment Airlock F.B.114' (ARM) 0.3 mR/hr RE-202 RE-146 0.1 mR/hr 5.0 mR/hr RE-203 Turb. Bldg. !nample Rm. T.B. 67* (ARM) RE-151 Sample Station Area R.B.162* (ARM) Cond. Demir 3 ample Rack T.B. 95' (ARM) 0.1 mR/hr 0.G. Bldg. Regen. Area O.G. 67* (ARM) 0.4 mR/hr RE-204 RE-162 02 mR/hr mR/hr RE-210 PASS Panel A.B.114' (ARM) R E-164 O.G. Bldg Sample Area O.G.123' (ARM) 2.0 RE-211 Control Rod Drive A.B. 95' (ARM) 0.1 mR/hr RE-165 Cond Domin Regen Area O.G. 67* (ARM) 9.2 mR/hr RE-212 HPCS Area East A.B. 70* (ARM) 0.09 mR/hr RE-166 Cond Demin Strnr. Area O.G. 95' (ARM) 0.3 mR/hr RHR A Ared West A.B. 70* (ARM) 2.0 mR/hr RE-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RHR B Area East A.B. 70' (ARM) 2.0 mR/hr Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 RE-182 1.0 mR/hr 0.2 mR/hr RE-215 RHR C Area A.B. 70* (ARM) R*i-185 Storage Tank Area R.W. 90' (ARM) RE-216 1.PCS Area West A.B. 70* (ARM) 0.3 mR/hr ele-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr j RE-217 HPCS Penetration Area East A.B. 70' (ARM) 0.7 mR/hr RE-187 High Cond. Sump Area R.W. 65' (ARM) 0.3 mR/hr LPCS Penetration Area West A.B. 70' (ARM) 0.3 mR/hr 0.5 mR/hr RE-218 RE-192 Refuel Floor South F.B.113' (ARM) RCIC Area West A.B. 70' (ARM) 0.5 mR/hr 0.5 mR/hr RE-219 RE-193 Refuel Floor North F.B.113' (ARM) u j -Indicates Alarming OSH -indicates Offscale High . All other ARMS are "as read"
1991 PRACTICE EXERCISE ClockTime = 1000 Message Number- 9 Scenario Time = 02/00 RIVER BEND STATION PROCESS CONTTORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING l RE-SA Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 SCI /sec RE-111P Cont. Atmosphere (PART) 1.0E-07 sci /cc RE-5B Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 pCi/sec RE-111G Cont. Atmosphere (GAS) 5.0E-06 aCi/cc RE-6A Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 aCJ/sec RE-112P Drywell Atmosphere (PART) 6.7E-07 aCl/cc RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 SCI /see RE-112G Drywell Atmosphere (GAS) 3.3E-05 sCl/cc 1GE-125 Main Plant Exh. Duct (WRGM) 7.4E-07 pCI/cc RE-103 SGTS Effluent (GAS) 2.0E-06 aCl/cc 2GE-125 Main Plant Exh. Duct (WRGM) 1.2E-04 pCi/cc RE-116 Containment Purge (GAS) 3.0E-06 aCl/cc 3GE-125 Main Plant E h. Duct (WRGM) 4.3E-02 SCI /cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 sci /cc 4GE-125 Main Plant Exh. Duct (WRGM) 3.3E+01 aCi/sec RE-11B Annulus Exhaust (GAS) 2.5E-08 aC3/cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 SCI /cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 SCI /cc RE-118P Turbine Bldg. Vent (PART) 3.0E-11 pCi/cc Off Gas Pre-treatment Monitor 200 mR/hr RE-118G Turbine Bldg. Vent (GAS) 1.0E-10 SCI /cc Off Gas Post-treattnent Monitor 80 cpm RE-124P C.D./O.G. Bldg. Vent (PART) 2.0E-09 SCI /cc Main Steam Une Radiation Monitor 800 mR/hr RE-124G C.DJO.G. Bldg. Vent (GAS) 2.0E-07 SCI /cc Main Steam Une Radiation Monitor 750 mR/hr RE-126P Main Plant Exh. Duct (PART) 6.0E-10 SCI /cc Main Steam Une Radiation Monitor 750 mR/hr RE-126G Main Plant Exh. Duct (GAS) 7.4E-07 sci /cc Main Steam Une Radiation Monitor 825 mR/hr n :.]- Indicates Alarming OSH - Indicates Offscale High All other Process Monitors are "as read" 5, - _ _ .
e-1991 PRACTICE EXERCISE Clock Time = 1015 Message Number = _10 Scenario Time = 02/15 RIVER BEND STKnON EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE
*** THIS IS A DRILL ***
Message To: Control Room Annunciators in Control Room include: Annunciators in Control Room include: (Continued) TURBINE CONTROL VALVE FAST CLOSURE - P680-06A/B07 DIV I LPCS INIT LOW RX WATER LEVEL 1 - P601-21 A/E08 TURBINE STOP VALVE CLOSURE - P660-06A/A07 LPCI AND DIV ll DG INITIATION LOW RX WTH LVL 1 - P601-17NE02 GENERATOR TRIP - P680-09A/D01 MAIN STEAM ISOLATION VLVS CLCSURE - P680-06A/B06 1NPS-SWG1 A SPLY BRKR AUTO TRIP - F808-86A/A09 RECIRC PUMP A ATWS TRIP INITIATED - P680-04A/A02 1NPS-SWG1B SPLY BRKR AUTO TRIP - P808-86A/AD', RECIRC PUMP B ATWS TRIP INITIATED - P680-04A/A08 RPS TRIP LOGIC A OR C ACTIVATED - P680-05A/A'J9 j RPS TRIP LOGIC B OR D ACTIVATED - P680-OFA/A10 NEUTRON MONITORING SYSTEM - P680-06A/A02 REACTOR HIGH PRESSURE - P680-03A/A09 MAIN STEAM SAFETY RELIEF VALVE OPEN P601-19A/A09 SUPPRESSION POOL HIGH HIGH TEMPERATURE UMIT P808-83A/E03 DIV I NSSSS INIT LOW RX WATER LEVEL 2 - P601-19A/A04 RCIC SYSTEM INOPERATIVE - P601-21 A/G03 HPCS !NITIATION LOW RX WATER LEVEL 2 - P601-16A/A04 DIV fil D/G ENGINE RUNNING - P601-16A/CO2 I l
f I Clock Time = 1015 1991 PRACTICE EXERCISE Scenario Time = 02/15 Message Number = 10- l RIVER BEND STATION l EMERGENCY PREPAREDNESS PRACTICE EXERCISE l MESSAGE ) l l
' " THIS IS A DRILL ***
Message To: Control Room Indications in Control Room include; Transfer of plant loads to alternate power sources is successful. Division 1/11 containment isolations are successful. HPCS injection valve (E22*F004) red light lit. LPCS pump and RHR pumps 'A',*B','C' red lights lit. l Division I,11, and Ill diesel generators are running with their output breakers open. l l i I
~ ,. ..
l l l Clock Time = 1015 1991 PRACTICE EXERCISE Scenario Time = 02/15 r Message Number = 10 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORMATION l *** THIS IS A DRII.1. *** ControIIer Information; (Continued) Controffer Information: RCfC initiates, but is unable to stabilize and trips on overspeed. See With the reactor approaching 40% power, main condenser vacuum Supplemental Scenario No. 3 for RCIC controller malfunction. l suddenly drops below 22.3" Hg. Initiating a turbine trip. A main I generator trip will follow, causing a transfer of the 71ectrical buses to HPCS Initiates and benins to inject water into the reactor vessel; their alternata sources of power. Division i and 11 ECCS pumps automatically start and align for injection, but the injection valves stay closed since reactor pressure remains at Since reactor power is still above 40% power, a reactor scram signal greater than 1000 psig. will take place, and the control rods will start to automatically insert into the reactor core. The reactor fails to fully scram, and remains at Both 'A' and 'B' reactor recirculation pumps trip, and Division I and 11 approximately 30% power. containment isolations initiate. Reactor steam production is beyond the capacity of the bypass valves, Deliver message 10.1x when operators enter EOP-1 A, "Anticipcted which causes the SRV's to open in an attempt to control pressure. Transient Without Scram", and carry out the steps in the Power Control The sudden pressure increase, coupled with the partial insertion of the control rods, causes level to drop dramatically to about -180*, thern Section. recover to approximately -120". l I The MSIV's close (Level 1) causing a loss of the primary heat sink. f SRV's are open and blowing directly into the Suppression Pool, which , is now the main heat sink; pool temperature s+ arts to increase rapidly.
Clock Time = 1015 1991 PRACDCE EXERCISE Scenario linee = 02/15 Message Number = 10 __ f RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORMATION
*** THIS IS A Drill ***
_ Expected Actions: (Continued) Controller Information; (Continued) If the Emergency Director fails to classify these events as a SITE AREA A SITE AREA EMERGENCY should be declared in accordance with EIP-2-001, SAE EAL# 7, 7ransient Requiring Operation of Shutdown EMERGENCY, deliver message 11.1x as directed. Systems with Failure to Scram (ATWS)". Refer to Supplemental Scenario No. 4 for additional information The Emergency Director should direct the implementation of the regarding the recovery from the A'BVS. following procedures: Expected Actions-EIP-2-004," Site Area Emergency" EIP-2-006, " Notifications
- Enter EOP-1, "RPV Control" and carry out scram procedure.
EIP-2-020," Emergency Operations Facility - Activation" EIP-2-021,
- Emergency Operations Facility - Support Functions" Enter EOP-2," Primary Containment Contret*.
EiP-2-026, " Evacuation" EIP-2-027, *Personne! Accountability" Prepare to enter EOP-1A," Anticipated Transient Without Scram".
, l l l
_ r _ h
/
s l 0 5 b e 1 L 5 1 4" P P F l v ' P P P O A 1 0
/
2 3 1 O O O M I r 9 1 O O O S I 1 0 - 9
-- AB C I I I 7 1 C 2
D 2 B L P P P 0 P P ee 0 E 8 p
- 6 3 S G G 8 0 / 6 s2 m 6 V S S S 8 m '6 1 1 0 P P 8 T N N 1 i TT L E
E L WWW l w o L E T e 4 1 9 1 1 7 8 VW S S L C S I I T T A A i c ci o N F N L E N R R E E or A r A E A P M P N P P P l a R e s A O O C n P t s 9 4 P e A P P P a e . . P P P S S c O O O u r 0 0 O O O R R S % d P E E 4 e L L 3 e O O AB C F L A B OO I I I L L 2 2 AC C R P P P l E P P P E a S T W O S S S N N N t o WT R T P MR P P WV T W M G /I P C C C T D C S S S S D C E S N I C F F F r F F F F F F M. N F F F F F F F F F F N N N N N R C O O O O O O O O O O O O O O O O E A X N O EA T I T SDSA AE 1 __ _ T S NM DO 0 6 N F R F N N N N N N N N N N F F F F F F F F F F N _ R N N N N N N N N C O O O O O O O O O O O O O O C O O O O O O O O D N RR EO L O_ O A E E B PL N EO A RR R PT P E N D F F F F F F F F F F D F F F F F F F F V I YO E R N F F O O O F F F F F F F N N O F. O O O O O O O O N O N N O O E F F F F F F F F R O O O O O O O O R NCC 0_ E G R E M A B C D F G L A B C D F B C D G A B C D A B C D E 1 1 1 1 1 1 1 7 7 7 7 7 1 I 1 1 V2 2 2 2 8 d 8 8 V 4 4 4 4 4 4 4 4 4 4 4 4 5 S 5 5 I 2 2 2 2 2 2 2 R 0 0 0 S F F F M0F F 0F p0 F0F 0F F0 F0p 0F FU o0 0 MN0F F0F 0F F0 F C0 S F 0 0 l 0 e wN N N 5 e 0 n R S o I I I O 0 7 5 O v 0 n Z Y l F M M M 2 7 I r 2 a F R D A E R Y 7 1, 7 i. 8 s 0 s l " f f E / s 5 0 s e 4 A T S0 1 e 0 4 9 O e 0 O v 3 P P P S I 1 0 r 9 1 r e 1 O O O R
=
C 6 P P l - S S I R E L X - E E N s L L L r A u I I I s b N s E E E E e P t C C C P O P P V i S O s 6 S S S . Cb a P P P O O O O A u O e 1 E E E I m t L L L q O T r 9 I I I Tu S S L P D D D CN A R e P r, I I I G I N T [ A a A B C A B A B I I I R E 1 s S C S P 9 s R R R C I C D D C C V V V V O ^ 9 e I I I I I I P C P R R L L P I I I =) . P _ m 1 M R R R L R I I C C S S R D D D O A li ll l l' il l l l lj ;I
4
$LARM l D1:.:;RPU ALARM ' CRITICAL 3LANT UARI ABLES ECHTMT CONTlIllt ENT DG gg p il DEdTGli 14.9) , f4SRV LIFT 1103) bRU U
i PRESSf_lbPSIG PRESSI 9/6 IPSIG l opp l 4 OPER HI 1.68 y ( 100% BPU 1025) j
?I ? C) i PRESSI 0.95PSIG ilOPER HI 90 ) 4 TRIP HI 52 )
N0L l TEMP [ B F t EVEL E -I3+ 1 IN (5PERHI ,@ NCR9MLO 9J TEMP @ ] F l 1. P0lJER E 345% f (10PER]i)20-0) L ^~.A_/ sLA_JLAJ LUL[13 FT 10 IN \_A_/ 95 )
~
4 OPER HI (10PER LIll19-j
-~ -
l SCRAM HONE R-I I TEMP l lil I*F SUPPRESSION SUPPREESIGH -- POOL POOL ' RIVER BEND 8 8 0 30 JAH-1991 10:15 l
E m m mu -
\
l
' CHTMT ALARM l 0 :. 3 RPV C0'1 TROL--hR/PWR I 261IN >TAF PV l-/5v]IN CNDS/FW hh[ff ph$g, h0gff pU TRIP HI 521
}
CRD TATER RPV POWER AVAIL PRESS AVAIL PUMP I RUN I 0- N _ 9l 1 N SCRAM LO RCIC WATER RPV POWER PUMP oke 1 PRESS Avast 0FF -120-lJ AIL WATER RPU POWER PUMP E -180 Ed TAF -1621 HPCc' AVAIL PRESS AVAIL RO N I -10 (MIN) H gP RPV PRESS I 9/& 5PSIG LPCS l0[ff phP g OPEN 1200 - POOL LD 11343l WATER RPU POWER PUMP l tPCI AVAIL PR HI AVAIL RUN I 800~ (HEAT CAPj38621 g SHTDN CLG RPU POWER PU 7MP lggorl 400- SRU LIFTl1103] COOLING 1 AVAIL PR HI AVAIL RUN B 100 BPV 1025 Pu op GPgP O-RWCU OhAfL A0A . A _ g RX POWER I S# 5% (RESCALE) C RI) AhAL AVA L AA S UT 120 TURBINE CLG VAC H.PWR VALUE l BYPASS AVAIL AVAIL AVAIL OPEN g 80-N DRAI S AhA BE /v4 U 40- . SLC [10VID POWER PUMP l AVAILABLE AVAIL OFF E 00
~1 (' MIN) 0 1 0:15 RIVER BEND 8 0 t 30-JAN-1991 l
9 027 ERPIT ALARM _' % s T A I F t< 8T O 1T RR - U ~'M/ v R POOL LEVEL 19 FT 10 IN (RESCALE) , COOLI4G ji, E b R l OhPER I DRYWELL COOLING POWER 19- g COOLING A f/ AIL ABLE AVAIL FANG off SRu g ~ 1 OPER LO 19- 6l OPEN E HEAT CAPI 0- Ol CNTMT COOLING POWER FAN RLWI l COOLING - AVAILABLE AVAIL ig.
-M M 0 PRESS CONTROL >
VALVE SHUT POWER AVAIL FAN B OFF E lG0PI 0L CNTMT PRESS I 0.4EPSIG SBGT NAfVE up {gj{ FAH og l' CRAM , N MAXIMUMl55.81 12-DESIGN l14.81 8-
~
PR SUPPRI 9.8l
-1$ ' ^('NI'N)' ' O CNTMT TEMP l_M F ,
DW TEMP R l+6 B F P0OL TEMP I lif I F P1 RPV SAT 546l M RPU SAT 5465 N HEAT CAPl156l 155- 275- 135-DESIGN l185l DESIGN 330 E SCRM TEMPil10] 120- 200- 120-M " .. d 85 . . r, -M 10 10 (MIN) 0
-10 (MIN) 0 125 10 (MIN) 0 RIVER BEND 0 0 0 30-JAN-1991 10:t5
. _ _ __ __ ___.---_-__-_-____J
Clock Time = 1015 1991 PRACTICE EXERCISE Scenario Time = 02/15 Message Number- 10 _ RIVER BEND STATION DRMS MONITORS READING READING ._ ID NUMBER LOCATICH fiYPE) ID NUMBER LOCATION (TYPE) RE-194 Supt. Rm. Trar s. Tube F.B.123' (ARM) 20 mR/hr RE-16A,B Ctmt. PAM R.B.186' (DHRRM) 500 R/hr 10.0 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) [2dl mR/hr RE-20A,8 Drywell PAM D.W.114' (DHRRM) RE-196 Equip. Drain Su np F.B. 70* (ARM) '20 mR/hr RE-21 A,B Ctmt. Purge Isol. R.B.141' (ARM) [5.[oE$ mR/hr RE-200 North Holst Area T.B.123' (ARM) 0.5 mR/hr RE-139 Annul. Near Trans. Tube 114' (ARM) 0$N mR/hr ' R E-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-141 Refuel. Floor South R.B.186* (ARM) O$M mR/hr RE-202 Rx Feedwater Pump Area T.B. 67* (ARM) 1.5 mR/hr RE-146 Containment Airlock F.B.114' (ARM) OSH mR/hr RE-203 Turb. Bldg. Sampic Rm. T.B. 67* (ARM) 0.1 mR/hr RE-151 Sample Station Area R.B.162* (ARM) USN mR/hr R E-204 Cond. Domin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr RE-162 0.G. B!dg. Regen. Area O.G. 67* (ARM) 0.4 mR/hr mR/I'r RE-210 PASS Panel A.B.114' (ARM) 20 mR/hr RE-164 0.G. Bldg Sample Area O.G.123' (ARM) 2.0 RE-211 Control Rod Drive A.B. 95* (ARM) 5.0 mR/hr RE-165 Cond Domin Regen Area O.G. 67* (ARM) 9.2 mR/hr RE-212 HPCS Area East A.B. 70* (ARM) 5.d mR/hr RE-166 Cond Demin Strnr. Area O.G. 95' (ARM) 0.3 mR/hr RHR A Area West A.B. 70* (ARM) 5.0 mR/hr RE-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RE-214 RHR B Area East A.B. 70* (ARM) 5.0 mR/hr RE-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-215 RHR C Area A.D. 70* (ARM) 5.0 mR/hr RE-185 Storage Tank Area R.W. 90* (ARM) 0.2 mR/hr 0.5 mR/hr RE-216 LPCS Area West A.B. 70* (ARM) 55 mR/hr RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) [20 mR/hr RE-187 High Cond. Sump Area R.W. 65* (ARM) [26 mR/hr RE-218 LPCS Penetration Area West A.B. 70' (ARM) (20 mR/hr RE-192 Refuel Floor South F.B.113' (ARM) RE-219 RCIC Area West A.B. 7,0* (ARM) 5.4 mR/hr RE-193 Refuel Floor North F.B.113' (ARM) 6[0 mR/hr ja-Indicates Alarming OSH -Indicates Offseale High . All other ARMS are "as read"
1 i l j i 1991 PRACTICE EXERCISE Clock Time =- 1015 ' ! Message Number: 10 Scenario Time = 02/15 > RIVER BEND STATION ! 1 PROCESS MONITORS ID NUMBER LOCATION (TYPE) READING IC' NUMBER LOCATION (TYPE) READING ; f RE-SA Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 SCI /sec . RE-111P Cont. Atmosphere (PART) 2. GEM sci /cc i RE-5B - Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 pCI/sec ' RE-111G Cont. Atmosphere (GAS) 5;5E406 _ aCI/cc l RE-6A Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 sci /sec RE-112P ' Drywell Atmosphere (PART) 6.7E-07 pCI/cc ; [ f l R E-6B Radweste Bldg. Vent Exh. (WRGM) 5.7E-01 pCl/sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 aCl/cc [
- 1 GE-125 Main Plant Exh. Duct (WRGM). ~ 7.4E-07 'sCl/cc RE-103 SGTS Effluent (GAS) 2.0E-06 aCl/cc .f i
2GE-125 Main Plant Exh. Duct (WRGM) 1.2E-04 . sCl/cc . RE-116 Containment Purge (GAS) 3.0E46 aCi/cc j 3GE-125 Main Plant Exh. Duct (WRGM) 4.3E-02 sCl/cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 . sci /cc I 4GE-125. Main Plant Exh. Duct (WRGM)~ 3.3E+01 pCl/sec RE-11B Annulus Exhaust (GAS) 2.5E-08 aCl/cc
- RE-110P Aux. Bldg. Vent (PART) . 2.0E-12 sCl/cc
, RE-110G Aux. Bldg. Vent (GAS) 3.CE-08 pCl/cc j
; RE-118P Turbine Bldg. Vent (PART) 3.0E-11 SCI /cc Off Gas Pre-treatment Monitor 50 mR/hr : f l RE-1186 Turbine Bldg. Vent (GAS) 1.0E-10 . aCl/cc Off Gas Post-treatment Monitor 20- cpm '
i RE-124P C.DJO.G. Bldg. Vent (PART) 5.0E-10 sCl/cc Main Steam Une Radiation Monitor 1000 mn/hr .l RE-124G C.DJO.G. Bldg. Vent (GAS) 6.0E-08 Main Steam Une Radiation Monitor 1000 mR/hr SCI /cc f RE-126P Main Plant Exh. Duct (PART) 5.3E-10 sci /cc Main Steam Une Radiation Monitor 1000 mR/hr t RE-126G Main Plant Exh. Duct (GAS) 7.4E-07 pCl/cc Main Steam Une Radistion Monitor 1000 mR/hr l
; 23dj -Indicates Alarming .
j OSH - Indica *es Offscala High ; All other Process Monitors are "as read" l ! f
Clock Tin *e c =101 Z_ 1991 PRACTICE EXERCISE ScenarioTims = =p2/17 Message Number = 10.1 x . RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EERCISE MESSAGE
*** THIS IS A DRil.1 ***
Message To: Control Room Indications in Control Room include: Annunciators in Control Room incf: fee; ADS mar:ual Inhibit switches S34A/B in INH! BIT position; white ARI IMITIATED - P680-07A/D03 lights on. SLC pwnp *B* control switch in RUN; red light on SLC ' squib valve C41-F301B wisite continuity IIght off SLC suction va?ve C41-F0018 red light fit l
d. 1991 PRACTICE EXERCISE Clock Time = -1017 Message Number = 10.1 x Scenario Time = =02/17 RfVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORNIATION
- THIS IS A DREL ***
Controller Information: Expected Actions ; When the Operators realize that a reactor scram signai has been Enter EOP-1A," Anticipated Transient Without Scram
- and carry out received and that all control rods are not fully inserted, they should the steps under the Power Control section of the proceoure to initiate enter EOP-1 A, " Anticipated Tran d9nt Without Scrani". SLC, sitive controt rods, and controi reactor lovel, pressure and power. ,
P Standby Liquid Control pump 'B' is started, but trips within 2 minutes ADS should be inhibited, and injection from ECCS and other ma,ior and is unable to inject the required minimum amount of Boron (78 water sources should be either terminated or prevented. ! lbs.) into the reactor vessel. See Supplemental Scenario No. S.
- 1 The opersters should monitor primary containment parameters snd be '
Control rods can be selected and driven into the core. Individually prepared to enter the Emergency RPV Depressurization section of - from Control Room panel P680. EOP-1 A when required.
+
Deliver this message to the control room operators after they enter EOP-1A and as they are carrying out the appropriate steps in the ; Power Control sechon. In order to drive control rods individually, the operators may start the second CRD pump (CRD *a').. Change. data j sheets as appropriate. i ! = b
?
. .- u _- _ _ _ _ . . ______s____________.___________m__
# ** ~ -
1991 PRACTICE EXERCISE Scenado Time - @ 2/17 Message Number _ 10.1L RIVER BEND STATION
- EMERGENCY PREPAREDNESS EFlRCISE '
CONTROL ROOM DATA PANEL 601 PANEL 680 PANEL, 601/877 Flow RED CRN ._ AC,MN LEVEL -134* Status Press SRV POWER 344 APRM - MIN F041A ON OFF C" RHR A _LPCI
~ MIN - F041B 0FF ON OFF CNS PIA OP WS PIA OP RiiR B _LPCI RIIR C ,J.PCI MIN F041C OFF ON OFF. CNS PIB _0f._ FUS PIB 0F .
F041D OFF ON _Qff CNS PIC OP WSPIC OP p OFF . r! 11CS OF _ 0_ _ F041p OFF ON , ' F041C OFF ON OFF Total Feedwater Flow 7.9 M1bs./hr OOS 0 0 F041L OFF ON OFF RCIC OP 945 _2750 F047A OFF ON OFF llPCS F047B _OFF ON OFF PANEL 808 7 CRD A OP 1900 75 F047C OFF_ _ON OFF. p CRD B AV O O F047D OFF ON _0.JI- Press Temp P vel OFF ON 166' F047I' JN DRYWFil _0.9 s South Press 1syel F0513 ON OFF ON cneT 0.4 91* . SLC A OOS O 2000 F051C ON OFF O!? SPR PL 11M 19*10" SLC B LT OFF 945 F051D ON OFF ON ( F051c ON _0FF ON - PANEL 870/601 Pre s s ._ I2 vel Range MSIV RED CRN RPV 916 -134" FZR SVP P2A OP- SVP I'2C _OP_ F022A OFF ON SVP P2B JE_ SVP P2D JP_ e F022B OFF ON DIV I DIESEL OP . F022C _OFF- ON , DIV II DIESEL J P_ PANEL 863 ED22D 0FF_ ON - DIV III DIESEL OP ~ F028A 0FF ON ON SCTS A OP SCTS B X SR=STJUEDBY READY F0288 0FF ISOL. OP=CPERATING D/V COCLERS OPERATI'2C F028C OFF ON
$$ $ h
$j][^** OFF ON C1'MT C00IERS OPER n M A EV28D f
1
-= -- . _
f l D I
. i . : i m V )5 F
( N 7 I lt 9 O : p I I 0 e SL t n g o p VT Iv S# M5 P L U OO RS G I W lIH R I l i t S E O R P P P O 1~ 1 9 9 t P U n E M 1 S h(P c II O E M s T _ A J i --
~
0 S , d
^
3 E UN L 8 E L R P S O I I 8 B - 8 A l D N I E i B R } R A E V U O i I R GI
)
5
)2 N D
9 %
" S 2 5 I
1 P N A I 6 l 0 1 U i I dQ3 $ l 4 5 M A - L W P B H E
$ E
" R C
P I S % P I L E M A R E " S 0 R V R W 0 T E C O L p E R 1 L S P A . P ( ( 4 C ] [ yG I I 8 S 5 F 6 3 ' P 1 E 1 1 I i 4 i 4 R I H 0 I H 1 C L L E E R I R E I P i S M /_ W P S P E n /, p O E 3' T t a a p (RP ( V t
)
l a )_G I }0 )H j S 9 T 0 _i _j J-LU 4 P I - o - H T 1 _1 0 - l 9 G e N 4 2lM I l E a E r l i MW E ,- _ l
}-
i T F . l. , SL EO _ l h j ][ , i:i E C _ IJ, 5 [F.-l RP I l P I:l'.{ ) __ 1 T E S P f E[E P I
; D E O E P P U 1 0 T 0 L 0 S 0 l R l 1 U 1 0 i P i 4 L 4 ll1 1 )
' ll l i
8 :.3 RPl) CONTROL--WR/PWR ' c"'" ' a'
- I E 26]IN >TAF WE CNDS/FW lh plhg hah f HP RH g g _jg] Ig 52 l WATER RPU POWER PUMP I 0-
~
} TRIP HII CRD AVAIL PRESS AVAIL RUN I N WA':R RPU POWER oha l N SCRAt1 L01 91 RCIC AVAIL PRESS AV4rt PUMP 0FF l -120-WATER RPU POWER PUMP I M TAF l-162l HPCc:
-180 g.ig g . j AVAIL PRESS AURIL RO N I LPCS lk plPg gPl gp N
RPU PRESS I W e lPSIG OPEN - POOL LD 11343l WATER RPU POWER PUMP E LPCI AVAIL PR HI AURIL RUN I 800- HEAT CAPf3862l MSIU i SHTDM COOLING CLG RPU AVAIL PR HI AVAIL POWER PUi1P l RUN E I SHOT' El 400- SRU LIFTil103l l i C
"WCU CI30 LING PCWER PUMP l B GRDUP 5 100% EPU' 1025 NOT AVAIL AVAIL '
j
, off E l ~
ISOL E 0 0 ' '( M I N')' ' O t l TURBINE CLG UAC H.PWRlVALUEE CONTROL- i AVAIL AVAIL AVAILi SHUT j RX POWER R 5# 1% (RESCALE) 120 E PA S IL A L 0 0 80-MSL COOLING U.PWR APRM DNSCL 15] l DRRIhS AVAILABLE W4/L VALUEl LN-UP a l3 CRAM NONE l 40-SLC L100ID POWER PUMP l / i AVAILABLE AVAIL R UN E ....>. . ! 0 10 (MIN) 0 RIVER BEND 8 8 8 30-JAN-1991 ~I0:17
l '
] ] 1 ] 1 [ 1 l
) 0 6 0 8 8 8 6 0 E . . 5 1 L
4 1 7 4 ~ - - 5 9 1 1 9 0 5 1 l 1 P P 0 C E N 1 1 I P I M U l N I R P A C E M 1
~
R I O A 1 G P T ( H L C t I I U T 1 1 X S S A t R 9 R G E T I A R E C 9 N E A
- D H 1 I M P S r P F S E P
( # - R 1' l o l s 0 { O H A/ 1 4 M I I I M( H A J
/ i 0 0 I
T l F ,O I ') I O)00. 8 3 E N
,) S P .H 9 'I iI 8 S M M S 'N 1 ,H 1 I E '( E i( 8 R
T P
.M P ' i L ,( 0 L i0 D U E V
T , 2g f,f
- ~'
l O O 5E
.1N 0 M 5 0 B
- E - - - _1 T I P 3 2 9 L 0 9 g- H 1 1 1 R
- t 2 1 J C E 5 E L 6 4
0 3 V I O G- 5 l l 3 R R i A N G
" S I 1 lE U S t- E R P D 0 E P U N P U
M A F R C b D R S E P O P C I M O 6 G S
+
T l l i H x I ) H P I E' M E T M ( l-t
^
W 0 I D - - 1 EI lI 5 0 5-A HN 7 2 0 2 2 Hf NF H * ' T Rf AU AF Ay 1 1 I-t F Fo FR F0 Fo 6 5 4 8 0 lI RL Il Rl li RL ]y
, l 5
1 1 C EI EI EI WA OV PA WA OV PA lI WA OV PA g T A S U P N G I S E
' E E E F R D M\{
GL GL p R' a k NB IA NB IA E T U U E U v l l i A L OI L LL OI L H A 'r A 9 V e f i, OA CV A OA CV A U S S t l 0
)
R lI ll li P MN E I t M G LG N LN TN SO G L i E T m( I EI 1I SR G 7 L 0 YO HO RN l bL t TL ET B T1 f - - 0 1 2 f RO CO PO i C S T N 5 0 5-C DC C 5 2 8 0 ' l C l 1 lJ 1 llf
i t i i 1991 PRACTICE EXERCISE C8eck Time = 1970 [ Reessage Number = 10.1 Scenarie Time = 02,% ! RWER BEfe STATION [ E ERGe=Cv -rARs=Ess PRAcnce ExEReise l N [ I
- TlWS IS A DRE1" Message To: Control Room ,
i A. _ -*-
. In CenergI Room IM IndicsWome In Comeral Room incIede:
i SUPPRESSION POOL LEVEL H'GH - P808-84NG02 The ADS NB instantaneous logic manual Initiation collars on switches [ NSSS INIT DRYWELL HIGH PREGSURE - P680-06NB05 S30NB and S31A/IB in the armed position. CONTAINMENT PRESSURE HIGH - P808-84A.T01 -[ RHR PUMP 'A' IN MANUAL OVERRfDE - P601-20NH03 Manual Override HPCS Pump Control white indicating fight on panel [ RHR PUMP E12-C0028 IN MAN OV*RRIDE - P601-17NC04 P-601-16C is lit. [ RHR PUMP E12-C002C IN MAN OVERRIDE- P901-17ND04 I LPCS PUMP E21-C001 IN MANUAL CVERRIDE - P601-21 A/1907 SLC T pump d6scharge pressure decreases rapidly to 0. Red light } DIV 1 ADS LOGIC MANUAL INITIATION SWITCM ARMED - goes out. - i i i P601-19ND08 DIV 2 ADS LOGIC MANUAL INITIATION SWITCH ARMED - P601-19A/D11 i f f i i t i r i
I ! , y n p r on . ai l m 0 u 0 2 2 / mta o izi r i t e s p 0 2 pr c s 1 0 ue e C d sS v L n s r S 9 == aen r o o f t c o ee epi t a p r ea l e e i mm i ud z s r r i s r t r set os u i T T s e e o e h h r v pa ce s t t r e e e e Nlec n sn d r p nn a eDe e r h t t o i r r u s t i t a g S h V n s s o l e e ewP i i t v r r v c eeR e p n A l ny t a e i d o da r, er imnc w o O t t c o we eg ot f o t s E N pd ee r n e , m i o l v n r m a a O ot oE t t c e v h c s r A
, j n S c E a D t a
S ete1 r - i e A p I C r eP t ) s o mO a 7 i R t aE n ( d E ir i n r X ne ope r m r e o s E e v mtn p t e i v E C N sr ede r o s r e 8 DIO
- o mr nu i t h e p u
0ACTAA 0
- t n t S
- r a q ai e n 1
TRI L et nr e v e t f po e p i APR L I R Oci s P r O h '. S'B T SOF D S SI E mEI W A eD BE R E S I R L. S l - f d n mteg d sps t I H oa op o ni oa i n mia onp a t l RAO EP T *
- a1 ale a r a ut V E R I
T
- n c e ns
,s R tre5 l
e t s pe RRP N ** ot r ee 2 v ped r s e u a l l e O i g d v o r a (1 l mh t e YC C shi F e d eo t nmA :
.v ut h pat r e o i. c
- t ou1 - t r N ph C mP a, e uf u
- e. a l
t E pt ,g e i h u en - i nO u l t fa r G cr -.
-, E coc a o R S si id y e omf o ,l A a f E d r r l
l h f i t i t 1- ic5 E noo at e yi r R . dh 2 a P tr o sbc uol r E at c nt e et e n g i gngac ainve mrl nwlb e, loa s u es OcN Eleei o si e r p u nn nt ed oeT, r i t a o cd ee ena e a n b h n n pan m r 0t 0 n i z e wa bf oe r l l y a ri ow t si a C o ec o 7 o e i L t eS n cas f e uc e t t v nw f n t n S nac a ena i, i edt a ul I ad n aio op d a 8 r e h n u t a r . h tcr geo mredr em z e t i t a pe sn 8 e2 eh i r i i 9r teF ht - P njtnc a eco r t c )e. ub i n tr me E t n a0 e6 nO i l or i a seiz a urs sn se ac o nl ep S1 I Q o r 1 iE g oer e ch r n s r t t h p C01 g sf f v ui e pr pt u e tr o l a eo R E r ir. i ti o e r ul v s er rp s t m e, S e r uee 1 X = udeie s m of o r S r st eu d c s ae t s ct nt D ps n t a ssS E r e el ce ru rove no i r r E b e r pxe r g e c Aee d r em t o e s r re r. C me ui F f r
)
7 togi pn ch ope r d pi n I t T CeN oea rd e ( 1 nt a at ei l t a o ake A = t c ru en at pa suto a g n0 d no i r t e n r t epr R ;- e ar mA d o e6 o c v h ur pub o sy P - R ee1 s et p pr eP o e t 1 h pt - mpe st f e l v ee nel emp p cn wo 9 mtyP u todr henV aP ob t h ou WteicE O Wcs i 9 ? Op 1 ? P s o T pR a W
-~n-~....- . . - . ~ - , . - - . . _ - ~ . - - . . . _ - . . . -.. - . - -- _ - . ...~.- --.,~ .~. ._ -.~ ,.-
W y
- o h-
$ $ E $
f h $ $ $ # l l N
- 2 O b b b e k m II
- sp : g o Ebb ME*y s : DWW s E ,B j ~ ;; II 8Ps 23 b N
f
~
e a b Oo t a n j j :
- 8 8 agg l$$$I:888 5 fd sEN RR
$$E -
-0 % e x z e e z e e e t: h: e e z h go O b =o O O O O O O O C gC O O O hm<
N O O b b b b b b O b b b b b b i l : lpl ,a e _ _ _ _ e e . e . e e e m e . O O O O O O O O O O O O O O O O s eO m e m e e e e O O O O O O O I g-., 8 8 8 8 8 g 8 8 8 8 8 a ^ ^ ^ mOE E 4N 4 E 4 W E E 4 kkkk
>h
" " "k'O
$k "OO h
" " "k Ok "."
i T S j$ j R 3 0 Ela u
~
asg us "
- 8 El e Oh-SS O 2 -t~E E
~
a o
$0 8 8 8 Yd a.-i I d sj y,
E! m
= = =
9, s = e s 1m 9 9 is
~
aO = dLg <mo "* # " 583-hyE Es8 g uE SS BER I 1 R
- - x: - swa G
== $$ en b amo 89.
ALARM j 01:. F ReV a'aaniCRITICAL 3LANT URRIABLES ECNTMT CONTlIlihENT
,/
RPU l0 R l 4 DESIrji l13,g g 4SRU LIFTi1103D DRYldELL b PRESSI 1,2(IPSIG U FRESS[Jd PSIG = lSTKUPEN hhh l 4 OPER HI i1.68) ( 100% BPU 1925) ] & ms r PRESS E 1.9E PSI 6 52 ) 4 OPER_EIl 90 D 4 TRIP HIi TEMP l, W j*F LEVEL I- 120E IN 'k N l C OPER HI 135& 4 SCRAM LO 9& TEMPE 1805 F POWERE Si E% (OPER }{I :20- 0 ) LUL[;t1FT@IN L/V L ^s/hV SCRAM ( OPER HI1 95 ) (OPER LO 19- 6 D NONE TEMPI 161 5'F SUPPRESSION SUP)RESSIGH __ POOL POOL RIVER BEND 9 9 9 30-JAN-1991 10:20
ECNTMT ALARM l h 1.3 RPl) CONTROL--WR/PWR t/2-] IH }T AF l WATER RPU F0WER RPU LEVEL l ; ! CHDS/FU PUMP l I-izp]IH i i , AVAIL PR HI #vAc RUN I 60 i WATER" RPU POWER PUMP l M TRIP HIl 521 CRD AVAIL PRESS AURIL RUH E 0- l
\
}
N SCRAM L0j l RCIC WATER RPU POWER AURIL PRESS N# PUMP I oTS E l 00ER 93 i
-120- ,
t l-1
-4 l-1625 TAF
! HPCc' j WATER RPU IPOWER AURIL PRESSIAURIL offl PUMP
-180- !
PU LPCS lhpff phlg 909(( FF SRU STK OPE N WATER RPU POWER PUMP POOL LD l12195 ! LPCI AVAIL PRESS AVAIL OFF 800- HEAT CAP! 135] SHTDH E CLG COOLING R AURIL RPU PRESS POWER AURIL PUMP l OF# E l SHUT 400- SRU LIFT l1103] PU 100 BPU 1025 RWCU lN0 fL gg { O UP 0 0 A L AOR[ SHUT RX POWER E ,3/ ]% (RESCALE) 120 , i TURBINE E CLG UAC H.PWR URLUE ! AVAIL SHUT g BYPASS R_ AVAIL AVAIL 80-MSL COOLING U.PWR APRM DNSCL l55 DRAINS AURILABLE /N#/L UALUEg SHUT lSCPAM HONE l i 40-__ SLC i LIQUID AVAILABLE POWER
#4 PUMP l 0FF E 0-
-10 (MIH) H
] ;
RIVER BEND 8 8 8 30-JAN-1991 10: 20 t 4 : i ! i
l I RPU ALARM E {Q[.1T A L' f'1 HT Ni ROL- --U ~'E"/ ' i' 027 POOL LEVEL 70 FT @ IN (RESCALE) COOLIl1G Abb NE OA l0 R N HI l20- O f POWER FA'4 19 DRYWELL I COOLING sgy OPER LO l19- 61 000LI!4G ! HOT AVAIL AVAIL OFF g g - mSTK OPENE HEAT CAP!19- 61 CNTMT COOLING POWER FPM C00LIllG HOT AVAIL AVAIL OFFEl 18-4 6 0 PRESS i UALUE POWE R FAN I l Ggp{ SHUT AVAI. OFF E CNTMT PRESS I 0.6BPSIG CONTROL l 20 M MAXIMUM 54.75 SBGi j tyh[hp E $,g lSCRN OE 16-
~ DESIGH l13.71 4- R SUPPRI 8.61
-18 ' 'OilN)' ' O DU TEMP 's 180 l F POOL TEMP I 161 1 'F CNTMT TEHF l V6 I F HEAT CAPI 1T61 M RPU SAT _402l RPV SAT- 4023 ~_/
275- 135-155- SCRM TEMP l1101 4 DESIGH 1851 k DESIGN 13305 200- 120-120- ~
,4 OPER HI l 951
- g t 40PER HIl 901 4 0PER Hill 355
-18 ' 'OilM)' ' $
-1$ ' '(hINTO -10 (MIH) 0 RIVER BEND 8 8 8 30-JAN-1991 10: 20
c
!l I
E i a i iH 8's gEs i e ssi
!e
- i 1
5 5 E.2 - l k 8I o 1 ei e
.f !, ! .f
s l 1991 PRACTICE EXERCISC M Time = 1025 Message Number = 10.2 Scenario Time - = 02f25 RIVER BEfm STAT 1oM EMERGENCY PREPAREDNESS PRACTICE EXERCISE l CowmouER iNFoRannT10w t
" THIS IS A DREL =
Controller Information: Emoceed Acdone: i I i Suppression Pool temperature is approximately 200 F and increasing; Continue to follow steps of EOP-1 A and EOP ' reactor pressure is around 220 psig smd decreasing; and reactor [ power is between 28% to 30%, with tih : Jactor operator inserting Monitor reactor pressure while -f+i-;;u'a-@ below the mir imum f control rods individually. alternate RPV flooding pressure (EOP-1A, Table 2). l 4 The reactor is being depressurized with the intention of maintaining Continue to investigate the trip of SLC pump 13. ; reactor level in a specified band and allowing boiling to continue per EOP-1A. This action will provide continued cooling for the reactor ! until either enough boron is injected, or all control rods have been inserted so that the reactor can be maintained in a shutdown . ! condition. ; i The operators should be preparing to place two loops of RHR into , the Suppression Pool cooling modo in approximately 5 more minutes { when the automatic open signal on the RHR heat exchanger bypass valves (E12*F048A/B) will be removed. These valves are maintained ; open for to minutes after the LPCIInjection signals are received (Rx Iow level-level 1, high drywell pressure). , i Data indicate that SGTS B has been placed in Secured Status by operators. l i
?
I L< -- - _ - . a - - - --
, S4 y . m u-os~ m sa ,a JA..
t
~
3 4 m . I 5 a CR Z e a n E 3 L 8 8 n R 28 - " - [ is des - oo , o uww s CU , $5- 3 (([ > I jhIk .a ~ - - gR
- lg E '
4O 3 k 3)
" _ h fann j t = oo 3 .
i:: e s e EE -
~~~ - e et (
! $$$ $ II b U b z e z b w b b b I:: o o z s s zo w o o o o o o o o o 0 5 "g i i g i hesssssssssssssayessssses Ia yl e lgw.,,.ww.w o o c o o o c e o o o c o e e w w w s g e w e w w w w e o 0 0 0 0 0 0 0 l sesseseeeeeeeses nexe ae , assinissantaisese sesesssse L i-l- - m o o o e o c p o 3 g m
> g -
j@ lgq e E : 8 : :* =lg S-52 g & E t 3 O, e 8 8 Y jj y . u u n.I_ a m m ddd n - e$n n a a s n e a,o e g o o s" aa e i g =!I e a 2: EEE E 3 m l- I" -
<mo <m <m O at
-=
see aaa o b c2 u= 0$ ss mm f2 eee o-o o v :
-e s t- ,
sc"T"1 a'aan s 6:. :.1: RPU ALARM CRITICAL PLANT UA ?.I ABLES CONT 11HMENT I DG E RPU R OPER I 4SRU LIFT 1103) 4 DESIdIl PRESS I5 3 0 3 PSIG PRESSE m iPSIG U l bhup gg I 4 OPER HI l1.68) G00%BPU 1025) } PRESSI 2.7EPSIG ?4 lC ( OPLdl ' 90 ) 4 TRIP HI 52 ) TEMP l,_t 0 + f T LEVEL E -127I IN l SENl l 4 OPER HI 135& 4 SCRAM LO 9D TEMPI 213l T POWERI 2fl% ( APRM DNSCL SD 4 0PTR f 20- 0)
\_, ^~>J' W h LUL[2]FT 4 IN \_A_)
AM 4 OPER HI 95 ) (l0PER LOl19- 6J TEMPI 177 I T SUPPRESSION SUP?RESSION ,
. POOL POOL I l
RIVER BEND 8 8 8 30-JAN-1991 10: 25
i - 013 RPU CONTROL--WR/PWR RPU LEVEL I sf ]IH >T9F CHDS/FW WATER RPU POWER l-/27 J IN AVAIL PR HI AM/L PUMP RUN l 60 WATER RPU POWER PUMP M TRIP HIi 525 CRD , AVAIL PRESS AVAIL RUN 0-DG l WkTER RPU POW R OPER SCRAM LO 95 RCIC 1 AVAIL PRESS 11 PUMPI 0FF -120- N I '* TAF l-162] HPCE q kh[ff phhg g0kff PUMPgpp l -180- g LPCS lh[ff ph$g (Ogy{ P 0FFMP l RPU PRESS Izzo IPSIG ONH N WATER RPU POWER PUMP , N POOL LD i1204l LPCI , iAUAIL PRESS AVAIL OFF 800-g HEAT CAP L 135E I SHTDil COOLING l CLG RPU POWER AVAIL PRESS AVAIL PUMP OFF l SH"T 400-- SRU LIFTil1035 RWCL f NO ER GPOUP 100 BPU 1925 , L PUMP Opp l 0 0 t iR AbAL 1A OA SHUT l RX POWER I 2B ]% (RESCALE) TURBIllE i CLG UAC H.PWR URLUE BYPASS : AVAIL AVAIL AVAIL SHUTg 80-DRAIhS AhA AB E i1A SHh 40- . . SLC lI0 ' gyqILABLE OFF 00
-1 (MIH) 0 i
RIVER BEND 8 8 8 30 AH-1991 10: 15 j . __ __ w
027 l RPU ALARM ' CONT AI i v M-~ CO 1 TROL----U 3%~~/ v R POOL LEVEL il FT + IN (RESCALE) 20-Cif0LI4G i AU BE A0 0F l0 R
~
l20- M POWER FAH 19-DRYMELL COOLING OFFE l OPER L0 l19- 61 COOLING i HOT AVAIL AVAIL SRU - CNTMT l COOLING POWER FAN l lR----. 0E PEN l HEAT CAPI 19- 61 AVAIL OFF s ig , COOLING l NOT AVAIL GR -10 ,,,,,,,,O (MIH) PRESS ; UALUE POWER FAN I l CNTMT PRESS I 0.8]PSIG CONTROL ( SHUT AVAIL OFF E M MAXIMUMI54.6I i 6-SBGT Lfk-i P lhCPAM ~ DESIGN $ 13.61 g__ PR SUPPRI 8.51 Ow:m . . .
-10 (MIN) O DB TEMP I 2/3 5 #F POOL TEMP I 197 I F CNTMT TEt1F l /04] *F , -
RPU SAT' 3645 HEAT CAPf1811 M RPU SAT 364l 275- 135-155- SCRM TEMPil101 4 DESIGN 11851 4 DESIGN 1330] l 200- 120-120- OPER HI i 951 OPER HI !1355 3 4 0PER HIl 90l125 g >(gig) ig 2 . M 10 YMIN) 0 l 85 _1 g ig1 Hy.g _l RIVER, BEND 8 0 8 30-JAH-1991 10: 25 l
\
u - _ - -
4 e 1991 PRACTICE EXERCSE Clock Tkne = 1030 Message Number = X, Scenario Tesne = 02/30 RfvER DE3m STATMNG EMERGENCY PREPAREDfESS PRACDCE EXERCISE MESSAGE
*** i TWS IS A DRILL ***
Message To: Control Room Annunciators in Control Roose include: % in Contree Roosn includy; , i DRYWELL TEMPERATURE HIGH - P80E-84A/B04 RHR heat exchanger bypass valves E12*F048A/B red and green RHR TEST RETURN VLV E12-F0248 IN MANUAL OVERRIDE - lights lit. P608-17A/F03 RHR TEST RETURN VLV E12-F024A IN MANUAL OVERRIDE - P608-20A/D06 e v.sm .,.m-z w.. ._. ._ - . - + - _,s - ., A
h I e 1991 PRACTICE EXEROSSE ' Clock Tome = 1030 Message Number = 11 Scenario Time = 02/30 RIVER BEND STATION EMERGENCY PREPAREDfESS PRACTICE EXERCISE CONTROt1ER INFORMATION ,
" T}RS IS A DRILI. * ;
Controller information: Espected Actions: i With reactor power at 25% to 28% the reactor vessel is depressurized Continue to follctv the steps outlined in EOP-1 A. LevsI/ Power Control t below the minimum alternate RPV flooding pressure, ttm operators section, and continue to inset control rods. should be in the Level / Power Control section of EOP-1A, maintaining reactor level between -100* and -193* using a feedwater pump to . Maintain vessel level between -100* and -193*, and perform all injset water into the vessel as directed. operations in a slow and controlled manner. {; The operator reports that SLC pump *B' breaker located on electri- Place RHR loops 'A' and *B* in Suppression Pool cooling, and operate cal panel 1EHS*MCC28, has failed and is not able to be reset and the system In accordance with RHR procedure SOP-0031. , closed. Electricians are presently troubleshooting the breaker. See Supplemental Scenario No. 5. Continue to investigate SLC pump *B' breaker failure. F With 10 minutes having elapsed since the receipt of a LPCI initiation signal, the operators can place the RHR System in the Suppression , Pool cooling mode, and throttle back on bypass valves E12*F048A/B to direct flow from the Suppression Pool through the RHR heat exchangers. Deliver message 11.1x if a SITE AREA EMERGENCY has not been . declared by this time. t i
- u. .__ _ .- -- __
,!t!*[l ,t. ) j5 l( :!fhf
! f }>r If!![ f )f[!k1 ;
3 r _ h
/.
s l " 0 b e 1 L 0 3 5" P S S 1 v ' F F S O A 3 / 3 O S S M e 2 O O S S 0 2 1 l 2 I 1 0 - 4 9 _ AB C C D 1 I I I 7 0 2 2 B 0 L P P P 8 P P 1 ee E p 6 3 S G C mm 8 6 V S S S 0 8 m *O '2 '4 / 0 P P 6 8 T N N ii TT L E E L WWW l w o L E e TM 1 1 1 2 7 8 W S S W L E CI I S TT A A ko N F N L N R R ci A E E E or r A A l a P 3 F e P s N P P P OO _ Cn P t s 3 1 A e A P S S a e P F P P c r 3 S S O S S w 1 O O O R R S % d P E E _ 7 e L I 2 e OO AB C F L A B O O R I I I P P P l P 2 2 P P AC C E a T S T W S S S t M R P P T VM O P N N N o T P W W C / T C C C T C S S S S D C E S I N C F F F F F F F F F M. F N N N F F N F F F F F F F R F C O O O O O O O O O O O O O O M A _ N O IFA I T T SD SA AE 1 N F F T S NM DO 0 6 R N F F F F F F N N F N F N N N N N F N R N N N N N N N N C O O O O O O O O O O O O O O O C O O O O O O O O D N AEORR L E E B EO PL N A R RR P . E PT N D F F F F F F F F F D F F F F F F F F - V I YO CC E F R O O O N N N F F O O O N F N F F F F F O O O O O O E F F F F F F F F R O O O O O O O O RN O_ O _. E _ C R E I AB C F CLA 5 C D F 8 C D A B C D A' 8 C D _ D V4 4 4 1 1 1 1 1 1 7 7 7 7 7 1 1 1 4 4 4 4 4 4 4 4 5 5 5 V2 2 2 2 8 8 8 8 I 2 2 2 2 2 2 2 2 _ R 0 U0 S F F F 0 F F0 F0 F0 F0 F0F DD0 F F 0 F 0 F S 0 0 V0 00 0 0 M F F F F F F F F 0 0 l 0 e w 0 0 e 3 c R s o 2 2 O O O O 5 0 v 9 n Z l 5 5 7 s 1 a F nU
- T F I R A A zrD asE r
7 7 roJ ar7 p m 8 s 0 s l " seS E / s 0 s e 5 A eI rt - S1 1 e O O 9 0 e O 0 v 3 S S ssL I1 0 r 1 r e S S S - O C R 6 P P l J- ass ssI E L X - E E N s L L L r A u b s E E E E e P t C C S S S S P V l S F s 5 S S S s c Cb a P P S S O S O A u C F e 2 E E E i I m t S S O o O O r 1 I I I v T u S S P D D D a CN csE t A n L R e I I rB roA P g a I I a L
'1 s AB C A B A B I I I arI ruA S C S rov 9 s R RR C I C D D EE V V V VI oA 9 e !
l I I I I P C P R R I I P I I - s - rov 1 M R R R L R II C C S S R D D D ooA
t 0 :.1 [ RPU ALARM ECRITICAL PLANT VARI ABLES ECHTMT ALARM E C0HT11tlNENT . [ DG [ RPU lW7 08 l
- ( DESIdIl 13.5& pgyggtt 4SRU LIFT 1103D SRU MSIU PRESET ~i M PSIG PRESS E 125 E PSIG l OPEN l SHUT _
( GPER HI !1.68y ( 100% BPU 1025) g PRESSE 3.3EPSIG I " ( OPE][h ~ ( TRIP HI l 52 D GROUP ! TEMP l_ M 'F LEVEL E-!35E IN ISlH l ( OPER HI 1355 4 SCRAM LO 9D TEMPE 240l F i POWERE 27 i% (IOPEQIl 20- 0) ( LUL[2TNFTl DIN Ut> u/vWWV ,
~
(OPER Ui 19- 6 ) ( SCRAM ( OPER HI 95 D TEMPE 214I (F
~
SUP3RESSIGH SUPPRESSION POOL __ POOL , RIVER BEND 0 0 0 30-JAN-1991 10:30 ; e
'c"'"' "'**" '
, O' 3 R 3V CONTRO _--W R/Pii.R I 2FjIN >TAF LE E POWER g ,,35 g Ig CilDS/FW 4 lh[ffphP Put P l RIP HI$ 52] CRD I WAT$R RPU POWER PUMP 0- N RUAIL PRESS AVAIL RUN N SCRAM L0i 95 WATER RPU POWER PUMP NOT OPER RCIC AVAIL PRESS NA 0FF -120- N HPCS ph[ffphhgg hhgy{ P 0
-180-0 RPU PRESS I 125EPSIG LPCS lh[ff ph[gg (0lff PUf Op l g 1200 OPEN .
POOL LD (11811 WATER RPU POWER PUMP LPCI AVAIL PRESS AVAIL RUN 800- HEAT CAPI 135] SHTDH . CLG RPU POWER PUMP hkdf 400- NSRULIFTil103] C00LIl4G AVAIL PRESS AVAIL RUN I I RUCU OA PUM Opp .... I H0 L GRONbHl 0 10 (MIN) O RX POWER I 27 5 % (RESCALE) C R AhAL SIA AOAf SH T ' UAC H.PUR URLUE TURBIl1E CLG SHUTg BYPR5S . AVAIL AVAIL AVAIL 80-N DPAINS ___AU L E "NA SHUT 40-
~
SLC l LIQUID POWER PU lMP , , E- i AVAILABLE NA 0FF E 00
-1 (MIH) 0 l RIVER BEHD 8 0 0 30-JAN-1991 10:30
9 1 v ;' 027 l RPU ALARM l {Q{~{ { . Y { .1T CO T ML--- U 3MT/l POOL LEVEL 21 FT IN (RESCALE) 20-C00LIiG Ah E AOA R / l1407 OPER DRYWELL COOLING POWER FAN l 19-AVAIL OFF 3 g OPER LO l19- 6I C00LIl1G [ HOT AVAIL SRU - OPEN I HEAT CAP: 19- 61 CNTMT COOLING l1 HOT COOLING AVAIL POWER AVAIL FAN l OFF E 18J GR -10 (MIN) 0 PRESS ll UALUE SHUT POWER AVAIL FAN l OFF E l CNTMT PRESS I t.l IPSIG CONTROL ll M MA IMUnl54.41 SBGT L UP AO (b lhCPAH OE I
\ DESIGN (13.41 8
4- PR SUPPR 8.31 18 ' '01'I)6 ' O ISs TEMP I 2405 F POOL TEMP l 214I F l CNTMT TErlP l t/2J *F N1 RPU SAT 34 I [ RPU SAT l3475 M HEAT CAPI 184l 155- \_
'4 DESIGN _8 18 ]
275-DESIGN 13301 135-4SCRM TEMPI 1101 200- 120-120- , OPER HI i 951 OPER HI '1355 Xg_-4 0PER 911 9dl ~
-10 '(MIN) 0
~
-I8 ' 'dil't[0 -10 (MIN') 0 RIVER BEND 8 8 8 30-JAN-1991 10:30
J t 1991 PRACTICE EXERCISE Clock Time = _1030 , Message Number:___11_ Scenario Time = 02/30 , RIVER BEfe STATION i ! DRMS B00NITORS F ID NUMBER LOCATION (TYPE) READING ID NUMBER L.OCATION (TYPE) READING - i flE-16A,B Ctmt. PAM RR.186* (DHRRM) 500 R/hr RE-194 ' Sept. Rm. Trtas. Tube F.B.123' (ARM) 20 mR/hr RE-20A.B Drywell PAM D.W.114' (OHRRM) 10.0 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) lIO mR/hr RE-21 A,B Ctmt. Purge isot. RR.141' (ARM) ' [5".0Es mR/hr RE-196 ' Equip. Drain Sump F.B. 70* (ARM) [25 mR/hr RE-139 Annul. Near Trans. Tube 114' (ARM) % mR/hr - RE-200 North ifo!st Area TE.123' (ARM) 0.C mR/hr RE-141 Refuel. Floor South RE.186* (ARM) tiGl mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-146 Containment Airlock F.B.114'(ARM) DWj mR/hr RE-202 ' Rx Fs;; AC; Pump Area T.B. 67* (ARM) 1.5 mR/hr RE-151 Sample Station Area R.B.162* (AR3A) N55] mR/hr RE-203 Turb. Bldg. Sample Hm. T.B. 67* (ARM) 0.1 mR/hr RE-162 0.G. Bldg. Regen. Ares O.G. 67* (ARM) 0.4 mR/hr RE-204 Cond. Domin. Sample Rack T.B. 95* (ARM} O.1 mR/hr RE-164 O.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-210 PASS Panet A.B.114* (ARM) (20 mR/hr RE-165 Cond Domin Regen Area O.G. 67* (ARM) 9.2 mR/hr RE-211 Control Rod Drive AE. 95* (ARM) 5.0 mR/hr RE-166 C.ond Domin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr RE-212 HPCS Area East A.B. 70* (ARM) 5.0 mR/hr RE-167 0.G. Bldg. Valve Ares O.G.137' (ARM) 28 mR/hr RE-213 . RHR A Area West AE. 70* (ARM) 5.0 mR/hr RE-182 Recovery Semple Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 RHR B Area East A.B. 70* (ARM) 5.0 mR/hr RE-185 Storage Tank Area R.W. 90* (ARM) 0.2 mR/hr RE-215 RHR C Area A.B. 70* (ARM) 5.0 mR/hr RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr RE-216 f.PCS Area West AE. 70* (ARM) 5.0 mR/hr RE-187 . High Cond. Sump Area R.W. 65* (ARM) ' O.3 mR/hr RE-217 HPCS Penetration Area East AE. 70* (ARM) [2d mR/hr RE-192. Refuel Floor South F.B.113' (ARM) [25 mR/hr RE-218 LPCS Penetration Area West A.B. 70* (ARM) [20 mR!hr RE-193 - Refuel Floor North F.B.113' (ARM) 5~d mR/hr RE-219 - RCIC Ares West A.B. 70* (ARM) 5.0 mR/hr
@-Indicates Alarming OSH - Indicates Offscale High All other ARMS are "as road" w -
......m: _ . . . _ _ . . -
n, p
,-- ._ ,_y --
4 1991 PRACTICE EXERCISE ClockTeme = 1030 Message Number: 11 ScenarioTwne = C2/30 RfWER BEND STATION j PROCESS MONITORS ' ID NUMBER LOCATION (TYPE) READING IDNUMBER LOCATION (TYPE) READING l RE-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 aCl/sec RE-111P Cont. Atmosphere (PART) 2.3E43 aci/cc RE-5B Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 SCI /sec RE-111G Cont. Atmosphere (GAS) 6.5600 .Ci/cc RE-6A Radweste Bldg. Vent Exh. (WRGM) 5.7E-01
,Cl/sec RE-112P Drywell Atmosphere (PART) 6.7E-07 aCi/cc
! RE Radweste Bldg. Vent Exh. (WRGM) 5.7E-01 SCI /sec . RE-1120 Drywell Atmosphere (GAS) 3.3E-05 ,CI/cc r 1GE-125 Main Plant Exh. Duct (WRGM) - 7.4E-07 SCI'cc RE-103 SGTS Efiluent (GAS) 2.0E-06 aC3/cc 4 2GE-125 Main Plant Exh. Duct (WRGM) 1.2C-04 ,CI/cc RE-116 Containment Purgo (GAS) 3.0E46 sC1/cc j 3GE-125 Main Plant Exh. Duct (WRGM) . 4.3E-02 aCI/cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 ,Cl/cc , 4GE-125. Main Plant Exh. Duct (WRGM) 3.3E+01 aC1/sec RE-11B Annulus Exhaust (GAS) 2.5E-08 .C1/cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 SCI /cc RE-110G Aux. Bldg. Vent (GAS) . 3.0E-08 aCl/cc RE-118P Turbine Bldg. Vent (PART) 3.0E-11 aCI/cc - Off Gas Pre-treatment Monitor o mR/hr - RE-118G Turbine Bldg. Vent (GAS) 1.OE-10 ,C1/cc Off Gas Post-treatinent Monitor o epm RE-124P C.DJO.G. Bldg. Vent (PART) 2.0E-10 aCI/cc Main Steam Une Rediation Monitor 1000 mR/hr RE-124G . C.DJO.G. Bldg. Vent (GAS) 2.0E-08 ,CI/cc Main Steam Une Radiation Monitor 1000 mR/h 'i RE-126P Main Plant Exh. Duct (PART) 5.0E-10 sCl/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-126G M a Plant Exh. Duct (GAS) 7.4E-07 sC1/cc Main Steam Une Radiation Monitor 1000 mR/hr C.3 -Indicates Alarming . t i OSH - Indicates Offscale High All other Process Monitors are "as road' l 1 !- l I
I I 1 1991 PRACTICE EXERCISE Clock Tinee = .19E Message Number = 11.1x Scenario Time = 02/35 RfvER BEND STATION EMERGENCY PHEPAREDfESS PRACTICE EXERCISE .; N i
" THIS IS A DREL
- Message To: Emergency Director i
Declare a SITE AREA EMERGENCY In accordance with EIP-2-001," Classification of Emergencies *, SAE EAL 7, Transient Requiring Operation of ; Shutdown Systems with Failure to Scram". ! t t ( i l l i I f i I t a i . I l ! [ t l i l-1 l i 4 M N
- i 1
, e t 1991 PRACTICE EXERCISC Clock Twne = 1035 ' Message Number = 11.1x Scenario Tune = 02/35 RfVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORMA110N l
*** THIS IS A DRKL ***
C- _"; Irdormation: Emocted Actions: Deliver this message only if a SITE AREA EMERGENCY has not noen Declare a SITE AREA EMERGENCY. ,- declared, a id the Shift Superviser has not recognized that esds have occurred which require the declaration of a SITE AREA ; EMERGENCY and no actions are being taken which would result in the i declaration of a SITE AREA EMERGENCY. ! L O b - - - - 3 -
e Clock Time = 1045 1991 PR#.CTICE EXERCISE = Scenamio Time _02/45 Message Number = 12 RNER BEND STATION EMERGENCY PREPAREDNE% PRACTU - EXERCISE MESSAGE
*** THIS IS A DRitL***
Feessage Tcc Control Room Plant Status Update 1
e 1991 PRACTICE EXERCISE Clock Tune = 1045 "c4 Number = J_
, Scen:sio Tune = 02/45 RfvER HE3m STATMIN <
EMERGENCY PREPAREDIES3 PRACDCE CXERCISE CONTROUER INFORGAATION ! 1
- THIS IS A DRKL =
ControIIer Information: Emoceed Actions-Plant status update Indicates that Suppression Pool temperature is Continue to fo!!ow the steps outlined in EOP-1A and EOP-2. decreasing. The 'A' and 'B' loops of RHR are in the Suppressicn Pool , cooling mode of operation. Continue te insert control rods into the reactor core. Reactor level continues to be maintained between -100* and -193* with Affect repats to the SLC pump V breaker. seven (7) SRV's open and venting to the Suppression Poci. Control , rods are being inserted into the reactor core; powet is approximately 3 25% and slowly decreasing. ! Electricians report that the SLC pump 'B' breaker's control trans- ! former is electrically open and will have to be replaced. Pepairs will - take apprcximately two (2) hours to comple*e. l
. i r
O j
lll I'
' ji1 r
h
/.s l 0" _
" b e 1 L_
3 P S S 1 v ' F P S O A M 2 7 O S S M e 2 O O S S 1 l 2 I 0 -
' 9 A B C C D
~- L I I I P P P 7
1 0 2 2 P P B
- e 0 E 8 p 6 3 "m 8 V 0 '7 '2 '0 / 6 S O G 6 S S S 8 m 0 P P 8 T N N I i E e 7 V V G I I T L L WWV E l
w o L T 2 1 1 1 2 7 8 S S L S T T A A E F E E i N N L RR E E r A 1. r A E A N_ P P a P R e P s N ? n P t s 7 A O O 3 P e c A P O S_ S S S a w e r 3 1 P O P O f_ S N S % d P O_ I2R E' 5 e I 2 e OO A3 C F i A B OO I 1 I t L 2 2 A C C R P P P P P P E W S S S l t a #T TM R P P S T W M T O N N N o R TP V V C /T P C C C T D G S S S S D C E S N I - C " 1, N- F F F F F F F F R N N i* F F N F N F F F F F N E C O O O O O O O O O O O O O A O_ O _O N K OI EA T T SD SA , AE 1 _ F F F F F E F T S NM DO 0 6 T _ U N F F F F n N F N ET - N N N N F N R N N N N N N N N C O O O O O O O O O O O O O O C O O O O O O O O D N EO RR L P_ O E APL E N B EO A P R E PT RR _ N D F F F F F F F F F D F F F F F F F F V I YO E F N N N N F F N F N F F F F F N R O O O O O O O O O O O O O O O O E F F F F F F F F R O O O O O O O O R NCC E G R E M A B C D F C L A B C D F B C D G A B C D A B C D E 1 1 1 1 1 1 1 7 7 7 7 7 1 I 1 I V 2 2 2 2 8 8 8 8 V 4 4 4 4 4 4 4 4 4 4 4 4 5 S 5 S I 2 2 2 2 2 2 2 2 R0 S F B0 F F 0F FV0 F FVVV0 F F F 0F 0 F F0 FV0F FV S M F0 F0F 0F F 0 F0 FV0E V 0 0 _ l 0 e w0 0 e 3 c R o 2 2 O O O O 5 O v 9 n Z y l F 5 5 7 I r 1 a F R e"^ r p y 7 3 7 D 8 s 0 s l " N A [, E / s 0 s e 3 _ T , S2 1 e O O 9 O e O 0 v 7 S S S I1 0 r 1 r e 1 S S S $. R C 6 P P L - $ R E L X - E E _- N s _ L L L r A u b s E E E E e Cb I m T u _. P t t S a C P S_ C P S S S S S S O S O S P O V A l S u O F c O O S F P s 7 e 1 r 1 S S S E E E I I I D D D
- CN A G j N
R P g e I I T I I A a A B C A B A B I I I R , 1 s S E C S P 9 s R R R C I C C V L L D D V V V C 9 e I I I I I I P C P R R I P I I I P
= .
1 M R R R L R I I C C S S R D D D O) i 1I, !ll' lf l(lili lil l}
0 :. :. IE RFU_ ALARM ICRI~ICf L Fj ANT UARI ABLES lCHN ALARM E CONillilMENT f [~ RPU I DG E NOT OPER R l ; 2 ( DESIGH 13.1) 4 SRU LIFTi 1103D DRYWELL G PRESSE i17 EPSIG 0 I SRU l l MSIU SHUT lE E OPENE E PRESS { I ] PS19 ( OVER HI 1.68) Q00% BPU 1025) ] PRESSI 3.7EPSIG
?I lC
~
(OPE [$1 90 ) Q IP HI 52 D 'I GROUP TEM? [t M 'F LEUEL E -173 I IN ISLN 4 OP_ER HI 135) 4 SCRAM LO 9D TEMP l_ __277 l *F l POWERE 255% l (10PE f ] h 3 I FTl3IN VA ) u>MA\ / LUL[2_} ~ C AM ( OPER HI 95 ) fl0PER_$iU1E[6) TEMPI 2101 'F
~
SUPPRESSION SUP?RESSION P0OL PGOL I -_ l RIVER BEND t t t 30-1 9!-1991 10:45 E- _ _ _ _ . _ _ . , _f"'"'
ICHTMT ALARM l 0.'.3 R3V CDiTRC L--WR/PWR E -/I IIN >TAF RPV LEVEL TER P WER CilDS/FW Wh4g pgP PUgP M TRIP HIi 52] CRD WAT8ER RPV POWER PUMP R RUN g 0-AVAIL PRESS AVAIL SCRAM L0i 91 l WATER RPU POWER Nor OPER ECIC AVAIL PRESS NA PUMP} 0FF -120-- E -4 TAF :-1621 RPU POWER PUMP I -180 HPCc-t WATER AVAILJ AVAIL OFF l l PRESS -10 (MIH) 6 RPU PRESS l 117]PSIG LPCS jlhgff ph[g,[0g(( P""P 0FF l gg 1200 WATER RPU POWER _EU OPEN N _ POOL LD 1139l LPCI j' m: AIL PRESS AVAIL Ru 800-s MSIU E JHEATCAfl 1355 3HTDl1 CLG RPV POWER .EUMP_ l AUAIL PRESS AVAIL GUN a l SHUT l 400- SRU LIFT 1103I C00LIl16 , 00% BW M 25 RWCl; ! NO b') L { PU"P OFF
-_gg 00-1
.. (NIH)
..... T0 RX POWER I 25]"./(RESCALE) t R1 AbAL 4 UA S (JT TURBIl1E CLG UAC H.PUR UA 7LUE BYPAES AVAIL NA AVAIL SHUT E 80-N DFAIbS A_V_Of_LA E 'NA S1 T 40-SLC 0
gyN7LBLE A 0FF 0
~ ~ ~ -10 (MIH) 0 RIVER BEND 8 8 8 30.-JAN-1991 10: 45
~ v 027 l~RPU ALARM
]{Q s,
~ Q { -] i{ si T C D ' T R O L -- - U ~) E '~ / R POOL LEVEL 22 FT 10 IN (RESCALE) 20-POOL LD I46- 0I Abb kh E b0 l 3,bT OM -
RU1 COOLI4G 20- H , DRYUELL COOLING POWER FAN l 19-i AVAIL OFF g _ OPER LO 19- 61 COOLING . NOT AVAIL la SRU g OPENE
~
HEAT CAP 19- 61 CNTMT COOLING POWER FAN COOLING AVAIL OFF Jg ,,,,,,,,,,
- c. _ N_0_T A V A I L SR -10 (MIN)~0 PRESS CONTROL VALUE SH_UT FOUER GUAIL FRN I O jFF l CNTMT PRESS I L3 JPSIG MAXIMUMI54.01 SBGi L bP b[ Rb lSCgAM N l 6-
~
N DESIGN 13. 0 E (PR SUPPRI 8.01
-18('NI'N)O 112j F DU TEMP I 2775 *F POOL TEMP I 210E 'F CNTMT TENF l '
RPU SAT 2375 HEAT CAP u2205 I'1 RPU S AT l 237 l t 275- 135-155- SCRM TEMP l1101 DESIGN 185l DESIGN 330 ] 200- 120-120-4OPER HIl 90l OPER HI 1351 g 1051T(NIN) 0 RIVER BEND 4 8 8 30-JAN-1991 10:45
4 Clock Time = 1045 1991 PRACTICE EXERCISE ScenarioTime = 02/45 Message Number- 12 RIVER BEND STATION DRMS MONITORS READING ID NUMETER LOCATION (TYP_El READING _ ID NUMBER LOCATION (TYPE) 500 R/hr RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 20 mR/hr RE-16A,8 Ctmt. PAM R.B.186' (DHRRM) 10.0 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) 20 mR/hr R E-20A.B Drywell PAM D.W.114' (DHRRM) RE-21 A,8 Ctmt. Purge isol. R.B.141' (ARM) {S5.E 5 mR/hr RE-196 Equip. Drain Sump F.B. 70' (ARM) [20 mR/hr DSN mR/hr RE-200 North Holst Area T.B.123'(ARM) 0.5 mR/hr RE-139 Annul. Near Trans. Tube 114' (ARM) Cond. Air Hemoval Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-141 Refuel Floor South R.B.186* (ARM) esH mR/hr RE-201 D5N mR/hr RE-202 Rx Feedwater Pump Area T.B. 67' (ARM) 1.5 mR/hr RE-146 Containment Airlock F.B.114' (ARM) RE-203 Turb. Bldg. Sample Rm. T.B. 67* (ARM) 0.1 mR/hr RE-151 Sample Station Area R.B.162' (ARM) U5N mR/hr mR/hr RE-204 Cond. Demin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr R E-162 0.G. Oldg. Regen. Ares O.G. 67' (ARM) 0.4 R E-164 O.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-210 PASS Panet A.B.114' (ARM) [23 mR/hr RE-211 Control Rod Drive A.B. 95' (ARIV) 5.0 mR/hr RE-165 Cond Demin Rege.: Area O.G. 67' (ARM) 92 mR/hr RE-212 "S Area East A.B. 70' (ARM) 5.d mR/hr Cond Demin Strnr. Area O.G. 95' (ARM) 0.3 mR/hr l R E-166 P' R A Area West A.B. 70* (ARM) 5.0 mR/hr R E-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-21: RE-214 uHR B Ar3a East A.B. 70* (ARM) 5.0 mR/hr RE-182 Recovery Sample Tank R.W. 65' (ARM) 0.4 mR/hr 02 mR/hr RE-215 RHR C Area A.B. 70'(ARM) 5.0 mR/hr l RE-185 Storage Tank Area R.W. 90' (ARM) RE-216 LPCS Area West A.B. 70* (ARM) 5.0 mR/hr RE-186 Floor Drain Sump Area R.W. 65' { ARM) 0.5 mR/hr High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) [2d mR/hr R E-187 RE-218 LPCS Penetration Area West A.B. 70' (ARM) [2O mR/hr RE-192 Refuel Floor South F.B.113' (ARM) [20] mR/hr RE-219 RCIC Area West A.B. 70* (ARM) 5.0 mR/hr HE-193 Refuel Floor North F.B.113' (ARM) 5.] mR/hr ,
'-Indicates Alarming OSH - Indicates Offscale High
- l All other ARMS are "as read
- I
i l 1991 PRACTICE EXERCISE Clock Time = 1045 Message Number: 12 Scenario Time = 02/45 RIVER BEND STATION PROCESS MONITORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION : "YPE) READING l RE-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 - pCi/sec RE-111P Cont. Atmosphere (PART) 2.7EM3, sci /cc RE-5B Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 - aCI/sec RE-111G Cont. Atmo:phere l GAS) 33EiD0 pCi/cc RE-6A Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 pCI/see RE-112P Dryweil Atmosphere (PART) 6.7E-07 ' pCi/cc l RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 sCl/sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 sci /cc 1GE-125 Main Plant Exh. Duct (WRGM) 7.4 E-07 aCi/cc RE-103 SGTS Effluent (GAS) 2.0E-06 aCi/cc l 2GE-125 Main Plant Exh. Duct (WRGM) 1.2E-04 sci /cc RE-116 Containment Purge (GAS) 3.0E-06 aCi/cc 3GE-125 Main Plant Exh. Duct (WRGM) 4.3E-02 SCI /cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 ,Ci/cc
- 4GE-125 Main Plant Exh. Duct (WRGM) 3.3E+01 sci /sec RE-11B Annulus Exhaust (GAS) 2i.E-C8 aCi/cc
! RE-110P Aux. Bldg. Vent (PART) 2.0E-12 aCi/cc , RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 ,Cl/cc RE-118P Turbine Bldg. Vent (PART) 3.0E-11 aCI/cc Off Gas Pre-treatment Monitor O mR/hr RE-118G Turbine B!dg. Vent (GAS) 1.0E-10 aCI/cc Off Gas Post-treattnent Monitor 0 cpm RE-124P C.D./O.G. Bldg. Vent (PART) 2.0E-10 sCl/cc Main Steam Une Racilation Monitor 1000 mR/hr RE-124G C.DJO.G. Bldg. Vent (GAS) 2.0E-08 aCI/cc Main Steam Une Radiation Monitor 1000 mR/lhr RE-126P Main Plant Exh. Duct (PART) 4.7E-10 pCi/cc Main Steam Une Radiation Monitor 1000 mP/hr RE-126G Main Plant Exh. Duct (GAS) 7.4E-07 aCI/cc Main Steam Une Radiation Monitor 1000 mR'hr
$ w} -Indicates Alarming ,
OSH -Indicates Offscale H!gh All other Proct,ss Monitors are "as read"
- ~
4 1991 PRACTICE EXERCISE - Clock Time = 1100 Message Number = 13 Scenario Time = 03/00 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EERCCE MESSAGE
- THIS IS A DRILL ***
Message To: Control Room Plant Status Update r h e
~
t w
MN m e i i Clock Time = 1100 1991 PRACTICE EXERCISE Scenario Time = 03/00 Message Number = 13 l RIVER BEMD STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTHOLLER INFORMATION
"* THtS IS A DRILL ***
I Expected Actions-Controffer Information: Continue to fo!!ow the steps outlined in EOP-1A and EOP-2. Plant status update Indicates reactor level is being maintained between -100* and -193"; reactor power is approximately 24% and Continue to insert control rods. slowly decreasing. Affect repairs to SLC pump 'B' brea ker. l l
i Clock Time - 1100 1991 PRACTICE EXERCISE Scenario Time - 03/00 Message Number - 13 RIVER BEND STATION EMERGENCY PREPABEDNESS EXERCISE CONTROL ROOM DATA PANET, 680 PANEL 601/877 PANEL 603 Status Press Flow SRV RED EJJ_ AC.MN POWER 24% APRM LEVEL -138" RIIR A SPC 5200 F041A OFF ON OFF RitR B SPC 5200 FV41B ON OFF ON CNS PIA OP WSPlA OP RIIR C SS O EV41C ON E ON CNS PIB SS WS PIB SS EV41D ON OFF ON CNS PIC SS WS PIC SS LPCS SS O F041F ON OFF ON OFF ON OFF M1bs./hr F041G Total Feedwater Flew 7.9 RCIC OOS 0 0 pg41L OFF ON OFF IIPCS SS 0 0 F047A ON OFF ._ ON F047B OFF ON OFF PANEL 808 CRD A OP 1900 75 F047C ON OFF_ ON CRD B AV O O F047D OFF ON OFF , Press Term level EV47F OFF_ ON _QFF DRYWELL 3.7 2_81' Soulb Press level IVSIB OFF ON OFF - 1,3 110' CIMT Sif A OOS 0 1930 FUSIC OFF ON OFF SPR PL 207' 23'4" SIE B OFF 0 EV51D OFF ON OFF F051C ON OFF ON PANEL 870/601 Press level Rance MSIV RED GRN RPV 115 -!38" FZR SWP P2A OP __ SU? P2C OP EV22A OFF ON SWP P2B OP SWP PED OP FV22B OFF ON DIV I DIESEL SS F022C OFF ON DIV II DIESEL SS PANEL 8o3 F022D OFF ON DIV III DIESEL SS
- F028A OFF ON SGTS A OP SGTS B SS F028B OFF ON OP= OPERATING SR= STANDBY READY D/W COOIERS OPERATING ISOL F028C OFF ON ls . {^"5 OFF ON CDtT COOLERS OPERATING A FV28D
a'aan sCRITICAL PLANT VAR::f BLES s c"= a'aen i 8 :.:. [ eeu CONTlIl1NENT I DG I RPU l WOT OPERE ( DESI($1 53.0 ) f4SRVLIFT1103D DRYWELL g PRESS [t ] PSIG PRESSE IIS IPSIG l OPEN SHUT 4 OPER HI l1.68 g ( 100'/. BPU 1025) g xs PRESS E 3.7lPSIG r, (OPEl~Hi- 90) 4 TRIP HI 52 ) GROUP TEMP L M F LEVEL E -IS FX IN ISLN ( OPER HI 135& 4 SCRAM LO 9D TEMPI 283l 'F l POWER E 2+ E % (APRM DHSCL 5D (OPERII20-0) j ,
\_/u/
LUL[2T]T@N1 CRAN 4 OPER HI 95 & l
~
--- jgOgE TEMP E 2071 #F SUPPRESSION
" POOL POOL 7 l
RIVER BEND 8 8 8 30-JAN-1991 1100 _
lCNTNT ALARM j O' 3 RPV CONTROL--WR/PWR E 2+ E IN >TAF RPU LEVEL CilDS/FU W);TERpgP{ Pg PgMP g 60 TRIP HIi 52] WATER RPU POWER PUMP R 0-CRD AVAIL PRESS AVAIL RUN I SCRAM LOl 95 TATER J RPU POWER PUMP NOT OPER RCIC AVAIL PRESS HA 0FF -120-' - Ir. HPCS ll0gff phESS A 0FFl -180 10 (MIfD 0 ff LPCE phES 0 0F SRU 1200-OPEH l r POOL LD 1132l WATER RPU POWER PUMP l LPCI AVAIL PRESS AVAIL RUN s ,,_ 800- HEAT CAP 135l SHTDH CLG RPU POWER PUMP l BUN E l $df l 400- SRU LIFT l 11035 COOLING AUAIL PRESS AVAIL RUCD gffhflf. , h0l(( P0FHP l GRfkH} - 0 10
'. a-(M ItD 0 RX POWER E 1+ E'4 (RESCALE)
R AUA L SfA A0A S UT TURBIllE CLG UAC H.PWR VALUE BYPASS AVAIL NA AVAIL SHUT 80-DRAINS . AV0fbABE 'liA SHUT 40-UI SLC ggN7j,RBLE N 0 O (MIH) 0 _10 RIVER BEND 8 8 8 30-JAH-1991' 11too
027 PU ALARM _] (( STAIN 1E'1T C0'1TR0_--U3 SET /MR POOL LEVEL @ FT. + IN (RESCALE) CiOLI4G A E Ab RH lNM$6fE6
~
-Of COOLING POWER FAN I 19-DRYWELL '
HOT AVAIL AVAIL OFF E g OPER LO 19- 61 COOLING SRV - OPEN I HEAT CAP 19- 61 l CNTMT COOLING POWER FAH l C00LIl4G HOT AVAIL AVAIL OFF E GR 1810 (MIN) 0 PRESS VALVE POWER FAN l l g C0tlTROL SHUT AVAIL OFF E CNTM1 PRESS I /.3IPSIG
" N MAXIMUM 54.01 SBGT L P A R l SC$1E NO 6-I~ N DESIGN l13.0 5
~
PR SUPPR 7.91
-18 ' '('M'Di)' ' O DU TEMP I 2831 F POOL TEMP l 2075 'F CNTMT TENP l 110] F , ~
RPV SAT ***l HEAT CAP 2201 i,M RPV SAT *** l 275- 135-155- SCRM TEMPil101 DESIGH 185l DESIGN 330] 200- 120- ' 120- , OPER HI 1355 OPER HIl 951 g -4 OPER HI 90 l ~
-18 (MIN) 0
~
-1 ' 'diIfi)' ' O -10 (MIN) 0 RIVER BEND 8 8 8 30-JAN-1991 11:00 i - _
i 1991 PRACTICE EXERCISE Clock Time = 1100 ' Message Number: 13 Scenario Tune = 03/00..
' RIVER BEND STATION DRMS MONITORS ID NUMBER LOCATION (TYPE) READING . ID NUMBER LOCATION (TYPE) READING RE-16A,B Ctmt. PAM R.B.186' (DHRRM)' 500 R/hr RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 20 mR/hr R E-20A,8 Drywell PAM D.W.114* (DHRRM) '10.0 R/hr ' RE-195 Sample Sinn Area F.B. 95' (ARM) [N mR/hr: .
RE-21 A,B Ctmt. Purge Isol. R.B.141' (ARM) . [$M mR/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) jf5 mR/hr l RE-139 Annul. Near Trans. Tube 114' (ARM) D8fl mR/hr RE-200 North Holst Area T.B.123' (ARM) 0.5 mR/hr~ , RE-141 Refuel. Floor South R.B.186' (ARM) % mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-146 Containment Airlock F.B.114'(ARM) .
@ mR/hr RE-202 - Rx Feedwater Pump Area T.B. 67* (ARM)' 1.5 mR/hr >
RE-151 Sample Station Area R.B.162' (ARM) 65fl mR/hr RE-203 , Turb. Bldg. Sample Rm. T.B. 67' (ARM) 0.1 mR/hr - RE-162 O.G. Bldg. Regen. Area O.G. 67* (ARM) 0.4 mR/hr RE-204 Cond. Domin. Sample Rack T.B. 95' (ARM) . 0.1 mR/h R E-164 O.G. Bldg Sample Area O.C.123'(ARM) 2.0 mR/hr RE-210 PASS Panet A.B.114' (ARM) [2d mR/hr - ; RE-165 Cond Domin Regen Area O.G. 67' (ARM) 9.2 mR/hr RE-211 Control Rod Drive A.B. 95' (ARM) 5.0 mR/hr + RE-166 Cond Domin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr RE-212 HPCS Area East A.B. 70' (ARM) 5.'d mR/hr RE-167 0.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 R'#R A Area West A.B. 70' (ARM) 5.0 mR/hr y RE-182 Recovery Sample Tank R.W. 65' (ARM) 0.4 mR/hr RE-214 RHR B Area East A.B. 70' (ARM) 5.0 mR/hr RE-185 Storage Tank Area R.Ws 00* (ARM) . 0.2 mR/hr RE-215 RHR C Area A.B. 70' (ARM) 5.0 mR/hr RE-186 Floor Drain Sump Area R.W. 65' (ARM) 0.5 _ mR/hr RE-210 LPCS Area West A.B. 70* (ARM) 5~.0 mR/hr j RE-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-217 HPCS Pene* -Sion Area East A.B. 70* (ARM) [fd mR/hr RE-192 Refuel Floor South F.B.113' (ARM) [5( ' mR/hr - RE-218 LPCS Penetre. ion Area West A.B. 70' (ARM) - [5d mR/hr RE-193 Refuel Floor North F.B.113' (ARM) . 5?d mR/hr RE-219 RCIC Area West A.B. 7,0* (ARM) 5.0 mR/hr . @]-Indicates Alarming OSH - Indicates Offscale lii a All other ARMS are "as read"
ClockTime = 1100 1991 PRACTICE EXERCISE Scenario Time = 03/00 Message Number- 13 RIVER BEND STATION PROCESS MONITORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING Cont. Atmosphere (PART) 2.9E-03 pCi/cc 1.3E+00 pCi/see RE-111P R E-5A Fuel Bldg. Vent Exh. (WRGM) pCI/sec RE-111G Cont. Atmosphere (GAS) 4.25iOO aci/cc RE-58 Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 Drywell Atmosphere (PART) 6.7E-07 pCI/cc Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 gC1/sec RE-1 i2P RE-6A gCl/sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 sci /cc R E-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 2.0E-06 ,Ci/cc 7.4 E-07 aCi/cc RE-103 SGTS Effluent (GAS) 1GE-125 Main Plant Exh. Duct (WRGM) RE-116 Containment Purge (GAS) 3.0E-06 aCi/cc 2GE-125 Main Plant Exh. Duct (WRGM) 1.2E-04 aCI/cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 aCi/cc 3GE-125 Main Plant Exh. Duct (WRGM) 4.3E-02 aCi/cc 2.5E-08 ,Ci/cc 3.3E+01 sci /sec RE-118 Annulus Exhaust (GAS) 4GE-125 Main Plant Exh. Duct (WRGM) RE-110P Aux. Bldg. Vent (PART) 2.0E-12 aCI/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 aCl/cc Off Gas Pre-treatment Monitor 0 mR/hr RE-118P Turbine Bldg. Vent (PART) 3.0E-11 sci /cc 0 cpm RE-118G T~rbine Bldg. Vent (GAS) 1.0E-10 pCl/cc Off Gas Post-treatinent Monitor Main Steam Une Radiation Monitor 1000 mR/hr nr-124P C.D./O.G. Btdg. Vent (PART) 2.0E-10 aCi/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-124G C.D./O.G. Bldg. ' ent (GAS) 2.0E-08 aCI/cc Main Steam Une Radiation Moi tor 1000 mR/hr 4.6E-10 pCI/cc RE-126P Main Plant Exi Duct (PART) mR/hr Main Steam Une Padiation Mo 30- 1000 RE-126G Main Plant Exh. Duct (GAS) 7.4E-07 sci /cc
-Indicates Alarming OSH -Indicates Offscane High All other Process Monitors are "as read"
1991 PRACTICE EXERCtSE ';Iock Time = 1115-Message Number = 14 Scenario Time = 03/15 , RfWER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE
*** THIS IS A DREL ***
Message To: Control Room Plant Status Update
, i l
l i l l l
p , _ - - - Clock Time = 1115' 1991 PRACTICE EXERCISE Scenario Time = 03/15 Message Number = 14 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROf.LER INFORMATION
*** THIS IS A Drill. ***
Expected Actions: ContrNier information; Continue % follow the steps outlined in EOP-1 A and EOP-2. Plant status update indicates reactor level is being maintained between -100" and -193"1 reactor power is approximately 23% and slowly decreasing. Continue to inesert control rods. . l Affect repairs to SLC pump *B' breaker. With alternate electrical power sources available and loa . ?le,the operators can shutdown tha Diesef Generators at their dis ion. l I Data indicate that Diesels are in Secured Status by 1130. It operators choose to continue to run Diesel, modify data accordingly. L L
l 4
.i 1991 PRACTICE EXERCISE Clock Time - 1115-Message Number - 14~ Scenario Time -'- 03/15 RIVER BEND STATION
' EMERCENCY PREPAREDNESS EXERCISE CONTROL ROOM DATA -
I PANEL 601/877 PANEL'601 PANEL 680 Status Press Flw SRV RED CRN_ AC.MN POWER 23% APRM LEVEL -182"
- Ri!R A SPC 5200 F041A OFF ON OFF ,
RilR B SPC '5200 F041B ON OFF ON l RIIR C SS 0 CNS PIA OP WS PIA OP
-F041C ON OFF ON CNS PIB SS WS P' S . SS .
F041D ON OFF ON CNS PIC SS WS Plc 'SS ! i LPCS SS 0 F041F ON OFF ON
- F041G OFF ON OFF i- RCIC OOS 0 0 Total Feedwater Flow 7.9 M1bs./hr F041L OFF ON OFF
! IIPCS SS O O .F047A 'ON OFF ON F047B OFF ON OFF PANEL 808 l CRD A OP 1900 75 F047C ON OFF ON ' CRb B AV O O F047D OFF ON OFF . Press Temp level ; F047F OFF ON OFF DRYWELL 3.8 9 19Q' Soulb Press " level F051B OFF ON- OFF SIL A OOS 0 1930 CTMT 1.3 108 = F051C OFF ON OFF i SIL B OFF 0 - 'F051D OFF ON OFF SPR PL M 23'9" t Press Imvel. Ranze ' RPV 108 -182" -FZR MSIV RED CRN F022A OFF ON SWP P2A OP SWP P2C OP i F022B OFF ON SWP P2B OP SWP P2D OP ; i DIV I DIESEL SS DIV II DIESEL SS F022C OFF ON F022D OFF ON PANEL 863 DIV III DIESEL SS F028A OFF ON , OP= OPERATING SR= STANDBY RIADY F028B OFF. ON SCTS A OP SGTS B A .
- ISOL
),*, j"# ,
[" F028C 'OFF ON: D/W COOLERS OPERATING .j
-. F028D OFF ON CIMT COOLERS OPERATING A ;
tc" Tnt a'aan i
- C1_ 17s-
~
8:.:.!RFU _ ALARM ICRI V A R:: AB _ ES CONTlIMMENT [ [ RPV E DG E NOT OPER E l 1 4 _ DESIGil _13. Of DRYUELL ( SRU LIFT L1107f
- 0 PRESSI I081PSIG 0 SRU OPEli MSIV SHUT
, PRES 5 [ l d PSIG __
~
N ER HI 1.68) ( 100% BPV 1025) }g PRESS R 3. 8E PSIG >% M 4..OPEl,yll_1[} ( TRIP HI 52 D TEMP l[_iTF] #F LEVEll -/ Ell IN fo l l 4 OPER HIi 135) (SCRAM LO 9) TEMP I 2 70l F 1 l POWERE 23 5% -
~
4OPERfII 20- 0 ) LULkT{lFTl31H L'V , u1.hV
~~
14 OPER HI 95 ) ( OPER-- L0 L19- 6) SCRAM HONP l
~
TEMPI 203] *F SUPPRESSION SUP3RESSIGH __ POOL POOL l l RIVER BEND 8 8 8 30-JAN-1991 11:15
t ALARM l. O '. 3 RPl) CDTROL--WR/3WR. lCNTMT I -2oIIN >TAF RPV LEVEL CNDS/FW RP POWER PUgP lWA[dR 4 _ WATER RPV POWER PUMP l TRIP HI 52l CRD AVAIL PRESS AVAIL RUN E 0-RCIC WATER RPU POWER PUMP l NOT ER l SCRAM LO 9l ; AVAIL PRESS NA 0FF E HPCc* ATER RPV POWER PUMPR
-180_g...g.... 0
-( TAF l-162l AVAIL PRESS AVAIL OFF l )
LPCS _h_gff phlg phj{ P0FFMP l RPU PRESS E to8]PSIG gO SRU l 1200 M POOL LD 1132l LPCI JATER RPU POWER PRESS AVAIL PUFp
&lAIL RU-g 800- HEAT CAP '
135] i SHTDN COOLING CLG RPV [ AVAIL PRESS AVAIL POWER PUMP I RUF E l SHUT 400- SRV LIFT 11031
~^
RWCl, OLING POWER GROUP 100% BPV 1025 HOT AVAIL AVAIL PUMP OFF l ISLN 0 _ . > > g. > C R. AAL 19 OA S UT RX POWER R 23 I% (RESCALE) CLG UAC H.PWR VALUE TURBIliE BYPAES l l3 FAIL HA AVAIL SHUT 80-L " " DERIbS lAbgyj.[g{E 'NA S UT I I 4g_ SLC IIQUID POWER PUMP E '- um E l AVAILABLE NA 0FF E 0 _10 (MIN) il RIVER BEND 8 8 8 30-JAN-1991 11?l5 i i
027 EN ALARM ' C0sTAIs v Eh" C0'4 TROL--U3SE"/vR POOL LEVEL 23 FT 9 IN (RESCALE) 20-POOL i COOLING POWER ? UMP l 4 P0OL LD 46- 61
~- I 00 LING AUAILABLE AUAIL RUN s I DGI NOT E OPER l ~
DRYWELL COOLING POWER FRN l 19-AVAIL OFF 5 OPER LO l19- 61 C00LIl4G 110T AVAIL SRU l
~
SHUT HEAT CAPj19- 61 CNTMT COOLING POWER FAN C00LIffG < NOT AURIL AVAIL OFFI l , 1810 (MIN) O GR FAN I l
~
PRESS UALUE POWER CONTROL SHUT AVAIL OFF I CNTMT PRESS I 1.3 IPSIG U M MAXIMUMl54.01 SBGT $_UP hCAM 0 DESIGH l13.01 8 gg (PR SUPPRI 7.91 0 > >
-10 (MIN) 0 DW TEMP I 2901 #F POOL TEMP I 2031 'F CNTMT TEtiF l 1o85 F ~
HEAT CAPj2201 I RPU SATl***I (RPV SAT *** l ' 275- ~ 135-155- SCRM TEMP '110 1 DESIGN 3305 DESIGN 185l 200- 120-120-OPER HIl1351 OPER HI l 951
'j d OPER HI 90] ~
85- -10 (MIN) 0 1 IO -1$ ' 'dil'IU ^ $ RIVER BEND 8 8 8 30-JAN-1991 11!!5
s Clock Time = 1115 1991 PRACTICE EXERCISE Scenario Time = .03/f 5 Message Number- 14 RIVER BEND STATION I DRMS MMITORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING 500 R/hr RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 20 mR/hr RE-16A,B Ctmt. PAM R.B.186* (DHRRM) Sample Sink Area F.B. 95* (ARM) 20 mR/hr R E-20A,B Drywell PAM D.W.114' (DHRRM) 10.0 R/hr RE-195 RE-21 A,B Ctmt. Purge Isol. R.B.141' (ARM) [i.6EI5 mR/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) [20 mR/hr RE-200 North Holst Area T.B.123'(ARM) 0.5 mR/hr R E-139 Annut. Near Trans. Tube 114' (ARM) DSN mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr R E-141 Refuel. Floor South R.B.186* (ARM) OSH mR/hr l 1.5 mR/hr d5H mR/hr RE-202 Rv Feedwater Pump Area T.D. 67* (ARM) RE-146 Containment Airlock F.B.114' (ARM) RE-203 Turb. Bldg. Sample Rm. T.B. 6T (ARM) 0.1 mR/hr RE-151 Sample Station Area R.B.162* (ARM) d59 mR/hr RE-204 Cond. Domin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr RE-162 0.G. Bldg. Regen. Area O.G. 67* (ARM) 0.4 mn/hr 20 mR/hr
~
0.G. Oldg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-210 PASS Panet A.B.114' (ARM) R E-164 RE-211 Control Rod Drive A.B. 95* (ARM) 5.0 mR/hr RE-165 Cond Demin Regen Area O.G. 6T (ARM) 92 mR/hr RE-212 HPCS Area East A.B. 70' (ARM) 5. mR/hr RE-166 Cond Demin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr RHR A Area West A.B. 70* (ARM) 5.0 mR/hr R E-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RHR B Area East A.B. 70* (ARM) 5.0 mR/hr RE-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr R E-2 ", RE-215 RHR C Area A.B. 70* (ARM) 5.0 mR/hr RE-185 Storage Tank Area R.W. 90* (ARM) 02 mR/hr RE-216 LPCS Area West A.B. 70* (ARM) 5.0 mR/hr RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) ;20 mR/hr RE-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-218 LPCS Penetration Area West A.B. 70' (ARM) T20 mR/hr RE-192 Refuel Floor South F.B.113'(ARM) [2d mR/hr 5.0 mR/hr RE-193 Refuel Floor North F.B. *13' (ARM) 53 mR/hr RE-219 RCIC Area West A.B. 70* (ARM)
. - -Indicates Afarming OSH - Indicates Offscale High .
All other ARMS are "as read"
I D i II 'd i Clock Time = 1115 1991 PRACTICE EXERCISE Scenario Time = 03/15 Measage Number- 14 RIVER BEND STATION PROCESS MONITORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING RE-111P Cont. Atmosphere (PART) 3.3E-03 sci /cc RE-SA Fuel Bidg. Vent Exh. (WRGM) 1.3E+00 aCl/sec 1.3E+00 aCl/see RE-111G Cont. Atmosphere (GAS) DE{00 sci /cc RE-5B Fuel Bldg. Vent Exh. (WRGM) RE-112P Drywell Atmosphere (PART) 6.7E-07 aCi/cc Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 pCl/sec RE-6A RE-112G Drywell Atmosphere (GAS) 3.3E-05 aCi/cc RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 SCI /sec RE-103 SGTS Effluent (GAS) 2.0E-06 sCl/cc 1GE-125 Main Plant Exh. Duct (WRGM) 7.4E-07 5Ci/cc RE-116 Containment Purge (GAS) 3.0E-66 sci /cc 1.2E-04 pCl/cc , 2GE-125 Main Plant Exh. Duct (WRGM) 2.5E-08 sci /cc 4.3E-02 SCI /cc RE-11A Annulus Exhaust (GAS) 3GE-125 Main Plant Exh. Duct (WRGM) 2.5E-08 sCl/cc 3.3E+01 sCl/sec RE-11B Annulus Exhaust (GAS) 4GE.-125 Main Plant Exh. Duct (WRGM) RE-110P Aux. Bldg. Vent (PART) 2.0E-12 SCI /cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 aCl/cc Off Gas Pre-treatment Monitor O mR/hr RE-118P Turbine B!dg. Vent (PART) 3.0E-11 aCi/cc o epm RE-118G lusi, ne Fildg. Vent (GAS) 1.0E-10 sci /cc Off Gas Post-treatrhent Monitor Main Steam Une Radiation Monitor 1000 mR/hr R E-124P C.D./O.G. Bldg. Vent (PART) 2.0E-10 pCI/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-124G C.D./O.G. Bldg. Vent (GAS) 2.0E-08 sCl/cc Main Steam Une Rwlation Monitor 1000 mR/hr RE-126P Main Plant Exh. Duct (PART) 4.3E-10 sci /cc Main Steam Une Radiaiicn Monitor 1000 mR/hr RE-126G Main Plant Exh. Duct (GAS) 7.4E-07 aCl/cc g I-indicates Alarming . OSH - Indicates Offscale High All other Process Monitors are "as read" l
1991 PRACTICE EXERCISE Clock Time = 1130 Message Number = 15 Scenario Tome = . 03/32 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACDCE EXERCISE MESSAGE
*** THIS IS A DRILL "
Message To: Control Room Plant Status Update e
,j
I Clock Time = 1130 1991 PRACTICE EXERCISE Scenario Time = 03/30 Mese* age Number = 15-RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROll.ER INFORMATION l
*** THIS IS A DRfll" Expected Actions-Controller information:
Continue to follow the steps outlined in EOP-1 A and EOP-2. Plant status update indicates reactor level is being maintained between -100* and -1'.s3*; reactor power is approximately 21% and slowly decrea-:ng. Continue to insert control rods. Affect repairs to Sl_C pump *B' breaker. l l e a
i, l ', ' f [ - [ f! iiff'
' i
!!6r! .y[r I r
h
/.
s l " 0 " b e 2 L 0 3 8 P S S 1 V ' P P S O A 3 / 0 O S S M 4 O O 1 3 1 E S S I 2 I 1 0 - 9 AB C l I I 7
', C D L 0 2 2 B 0 P P P P P ee 8 E 8 D 6 3 S G G mm 0 V S S S 0 8 m '5 '6 '6 /
0 P P 6 T N N ii TT L E E L WWW l w o L E T e 9 0 9 2 1 1 7 8 W W S S J L E G S I I T T A A ko N F N R R ci A L N E E or M r A E A P P l a P P N P R e s A O O Cn P t s 8 2 P e A P S S a e P P P S S c C S S w r 3 1 O O O R R S % d P E E 1 e L L 2 e - OO A B C F L A B O O I I I L L 2 2 AC C R P P P l E P P P E a T S T W O S S S N N N t o WM R T P R P P W W T G /T W M P C C C T D C S S S S D C E _ S I N C F M. F N N N N F F F F F F F F F R F N F N F F F F N _ E C O O O O O O O O O O O O O O F_ A O_ O NXEA O T I T SDSA AE T 1 N F F F F F F N S NM DO 0 6 R N F F F F N N F N F N N N N _F R N N N N N N N N C O O O O O O O O O O O O O O OO C O O O O O O O O D EO J_ F N ARR E L E PL B EO N A R RR E PTN P D F F F F F F F F F D F F F F F F F F V YO E F N N N N F F N F N F F F F F N E F F F F F F F F I CC R O O O O O O O O O O O O O O O O R O O O O O O RN O_O E G R E M A B C D F 6 L AB C D F B C D G 1 1 1 1 1 1 1 7 7 7 7 7 1 I 1 1 A B C D A B C D E V2 2 2 2 8 8 8 8 V 4 4 4 4 4 4 4 4 4 4 4 4 5 S 5 5 I 2 2 2 2 2 2 2 2 R S F0F 0 F F0F C F F0F V0F F F 0 F0F p0 F0F 0 0 o0 0 S 0 0 0 0 0 0 0 0 MF F F F F F F E - 0 0 l 0 e w0 0 e 3 c R _ o 2 2 0 O O O 5 O v 9 n Z Y U S l 5 5 7 e 1 a F D T _ F l R A A ETD R S E T Y D A 7 B EL 7 D R O 8 s 0 s l NU S _ E S5 I1 _ / 1 s e r O O 0 9 O s e O 0 e 8" v 0 S S S A CI T E = S S L 1 r S S S = O _ C 0 P P e 1- R S S R 6 l S S I E L X - E E N s L L L r A u h s E E E E e P t C C S S S S P V t S F s 7 S S S E . Cb a P P S S O S O A u O F e 9 E E E c I m t S S O o O O r I I I v Tu S S P D D D R _ CN G E S E - A N L - R e I I rB P g I I T oA A L a A B C A B A B I I I R rI 1 s S C S E uA 9 s R R R C P oV I C D D C C V V V V C A 9 e H I I !i P C P R R L L P I I I = S = P oV 1 M R R R L R I I C C S S R D D D O cA
ALARM j 8:.:.lERPU ALARM 1 CRITICAL 3LAN" VA RI ABLES ECHTMT CONTAllINENT f [ RPU E DG E l WoT OPER E 4 DESIGli 113.0) (SRU LIFT 1103) 0 g ggfy PRESS l__l d PSIG PRESSE 97 E PSIG ~
, Spy, l l l 4 OPER HI 1.68 ) ( 100% BFU 1025) ]
PRESSR 3.85PSIG ?I l %) QEL3I 90 ) 4 TRIP HI ! S2 D TEMP { M 'F LEVEL E -/08] IN fNbH 4 OPER HI 135) (SCRAM LO 9) TEMPI 275l F P0fJER E 21J% - 4 0 P E R 7 EI2 0 0_ ) 2 IN W> L ^s /J,_A. ^_.A /V LUL[?3 FT CPAM 4 OPEE HI 95 ) 4OPERJ.0l19- 6 ), TEMPI (16 I'F SUPPRESSIOR t SUP?RESSION __ POOL l POOL l RIVER BEND 8 0 0 30-JAN-1991 11'30 J t ------ _
Lc"'"' a'*"" ' 0 :. 3 RPU C04TR0_.--WR'PWR E 5+1 IN >TAF RPU LEVEL P CIIDS'FU U{TER FgER' PU TRIP HIi 52] IWATER ~RPU POWER 'P'U 7M P C'RD QU IL PPESS AVAIL RUN I 8j SCRAM LO! 9] UkTER RPU POWER 'PUNP1 t/or ofER RCIC at' AIL _ PRESS HA O JFF -120- . TAF l-162J HPCc'
'UATER RPU POWER PUMP I AVAIL PRESS AVAIL OFr 3 -180-g /.g. . g lhff phhg h0l(( P LFCS DFFMP l SRU ~
PUMP = off H POOL LD l1131] UATER ~ RPU POWER LPCI AVAIL _ PRESS AVAIL Rd Buu- HEAT CAP! 1351 SHTDN COOLING CLG RPU POWER PUMPj AVAIL PRESS AVAIL RUN , l SHUT 400- SRU LIFTil1031 P P RUCL HD ') L A{ 0 GRf{N ' .. 0 10 (MIN) 0 11 RX POWER I 21I% (RESCALE) C L AhAL N AUA S UT - 120 i EYPA S AbAL A hA - 80-SCRAM APRM DNSCL 151 MSL DRAlbS COOLING AVAILABLE U.PWR VALUE NA SHUT l NON 40-ll0 E SLC gygyLABLE NA 0FF g0
-1 (MIN) 0 RIVER BEND 8 8 8 30-JAN-1991 11:30
027 ERPU ALARM IC0sTAL's v-sT C0is"RO_--U3o~~/7R _ (RESCALE) POOL LEVEL @ FT @ IN 20 M P0OL LD j46- 7l C00LI4G A E R h,g D ER - el ] COOLING POWER FAN 19_ DRYUELL OPER LO l19- 61 COOLING J HOT AVAIL AVAIL OFF SRU g - OPEN E (HEAT CAP 19- 61 CNTNT COOLING POWER FAN l COOLING HOT AVAIL AVAIL OFF a 18 ....... GR -10 (MIN) O PRESS CONTROL VALUE SHUT POWER AVAIL FAN OFF l CNTMT PRESS I 1,11PSIG SBGT LStk- P R l f0 E l 6-
~
4 DESIGN 13.05 l PR SUPPRi 7.91
-I$ ' '(NINh' ' $
DlJ TEMP E 19.53 #F POOL TEMP I fi6J F CNTMT TEHF l_fd F j RPU SAT ***l '4 HEAT CAPl220l Q RPV SAT *** l _275- 135-155-fC 1 DES _IGN l185 l 200-DESIrf1330l 120-' SCRM TEMPil10l 120-f OPERHIll33j OPER HI l 951 s g - Q ER HI 90 l ~
-10 (MIH) 0 I NfE0
~
-10 (MIN) 0 RIVER BEND 8 8 8 30-JAH-1991 11Go
Clock Time = 1130 1991 PRACTICE EXERCISE Scenario Time = 03/30 Message Number- 15 RIVER BEND STATION DRMS MOKETORS : READfNG ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) 500 R/hr RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 20 mR/hr RE-16A.B Cimt. PAM R.B.186' (DHRRM) R E-20A,8 Drywo!I PAM D.W.114' (DHRRM) 10.0 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) {20 mR/hr RE-21 A,8 Ctmt. Purge Isol. R.B.141' (ARM) ['ff.6E$ mR/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) [2d mR/hr RE-200 North Holst Area T.B.123' (ARM) 0.5 mR/hr RE-139 Annul. Near Trans. Tube 114' (ARM) DSh mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-141 Refuel Floor South R.B.186* (ARM) OSd mR/hr RE-202 Rx Feedwater Pump Area T.B. 67* (ARM) 1.5 mR/hr RE-146 Containment Airlock F.B.114' (ARM) OSM mR/hr RE-203 Turb. Bldg. Sample Rm. T.B. 67* (ARM) 0.1 mR/hr RE-151 Sample Station Area R.B.162* (ARM) 513 mR/hr 0.4 mR/hr RE-204 Conde Demin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr RE-162 O.G. Bldg. Regen. Area O.G. 67* (ARM) RE-164 O.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr HE-210 PASSApanel A.B.114' (ARM) [20 mR/hr RE-211 Corr't Hd Drive A.B. 95' (ARM) 5.0 mR/hr RE-165 Cond Demin Regen Area 0.G. 67' (ARM) 9.2 mR/hr RE-212 HPCS mea Cast A.B. 70' (ARM) 5.d mR/hr R E-166 Cond Demin Strnr. Area O.G. 95' (ARM) 0.3 mR/hr RE-213 RHR A drea West A.B. 70' (ARM) 5.0 mR/hr R E-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr 0.4 mR/hr RE-214 RHR B drea East A.B. 70' (ARM) 5.0 mR/hr R E-182 Recovery Sample Tank R.W. 65' (ARM) mR/hr RE-215 RHR C hrea A.B. 70* (ARM) 5.0 mR/3r RE-185 Storage Tank Area R.W. 90' (A.RM) 0.2 Floor Drain Sump Area R.W. 65' (ARM) 0.5 mR/hr RE-216 LPCS Arna West A.U. 70' (ARM) 5.d mR/hr F. 2-186 0.3 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) [20 mR/hr RE-187 High Cond. Sump Area R.W. 65* (ARM) Refuel Floor South F.B.113* (ARM) [2d mR/hr RE-218 LPCS Penetration Area West A.B. 70' (ARM) (2d mR/hr RE-192 5.0 mR/hr Refuel Floor North F.B.113' (ARM) 5]d mR/hr RF-219 FL** Area West A.B. 70' (ARM) RE-193 ,
-~m j - Indicates Alarming OSH -Indicates Offscale High .
All other ARMS are *as read" a y_ .
i, j .. f 1991 PRACTICE EXERCISE , Cle.ek Tissee = 1130
- Message Nonetser- 15 Scenarie Tiene = 03/30 RfWER BEND STATEDN PROCESS te3fETURS
! ID NUMec,_R_ LOCATION (TYPE) READING ID Nt,IMBER t OCATION (TYPE 1 READING i RE-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 pCI/sec RE-111P t;ont."I- !a e (PART) 3.SE43 .Clice l RE-5B Fuel Bldg. Vent Exh.'(WRGM) 1.3E+00 ,CI N c RE-111G Cont. ." ^_
!_.. (GAS) 5.)ETOO ,CI/cc
- j. -
l RE-6A Radweste Bldg. Vent Exh. (WRGM) 5.75-01 ~,Cl/sec . RE-112P Drywell "J _ A.e (PART) 6.7E-07 ,CI/cc l' RE-6B Radweste Bldg. Vent Exh. (WROM) 5.7E-01 .CI/sec RE-112G Drywell Atsseosphere (GAS) 3.3E-05 pCI/cc l s , 1GE-125 Main Plant Exh. Duct (WRGM)' _ 7.4E-07 pCi/cc RE-103 SGTS Effluent (GAS) 2.0E-06 .CI/cc I FaE-125 Main Plant Exh. Duct (WRGM) 12E-04 pCI/cc RE-116 Containment Purge (GAS) 3.0E-06 sci /cc 3GE-125 Main Plant Exh. Duct (WRGM) . 4.3E-02 ACE /cc RE-11 A Anedes Exhaust (GAS) 2.5E-08 sci /cc l 4GE-125 Main Plant Exh. Duct (WRGM) 3.3E+01 .CI/sec RE-118 Annuius Exhaust (GAS) 2.5E-08 ,Ci/cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 pCI/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E48 aCI/cc ' [' RE-118P Turtsine Bldg. Vent (PART) 3.0E-11 pC3/cc Off Gas Preirostment Monitor 0 mR/hr l RE-118G Turbine Bldg. Vent (GAS) 1.0E-10 ,CI/cc Off Gas Post-trostment Monitor o cpsn l RE-124P C.DJO.G. Bldg. Vent (PART) 2.0E-10 pCl/cc - Mai Steam Une Radiation Monitor 1000 enR/hr RE-12*G C.D./O.G. Bldg. Vent (GAS) 2.0E-08 ,Ci/cc Main Steam Une Radiation Monitor 1000 rnR/hr ! RE-126P Main Plant Exh.' Duct (PART) 42E-10 (Wec Main Steam Une Radiation Monitor 1000 mR/hr -
- RE-126G Main Plant Exh. Duct (GAS) 7.4E-07 pCi/cc Main Stoom Une 5Mation Monitor 1000 mR/hr l C]-Indicades Alarming ,
j OSH -Indicates Offscale High ! All other Process Monitors are "as read" : l'
,,n
% g , - + * ' - .-
4- _-~._,m_ - ____2 -_ _ . _ _ _ _ _ _ _ . _ _
1 4 1991 PRAC11CE EXERCISE Clock Tmee = 1135 , Message Number = 15.1 Scenario Tmee = 03/35 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE i. t
*1NIS IS A DRILL" Message To: Control Room l Annunciators in Control Room include- hedicaesans in Control Room include:
RX FW PUMPS LOW SUCTION PRESSURE - P680-03A/B03 Feedwater flow drops to zero. I CNDS DMNHLZER BYPASS V NOT FULLY CLSD-P680-02A/E02
! Condensate recirculation valve,1CNM-FV114. Indicates full open.
l Condensate bypa-s valve,1CNM-FV112, *ndicates fett open. I 6 6 3 3 i - i l l i
?
e I l l e
- " 4 _ - - - - _ - . - - - - - _ . . . _ . - - _ -
, 1991 PRACTICE EXERCISE Clock Tome e 1135 Message Number = 15.1 Scenario Time = 03/35 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORaRATION
*** THIS IS A DREL ***
Controner ineormanson- Eaoeceed Actions-j Due to an air fine break in the vicinity of the condensate domineralizer Equipment operatoes should be directed to investigate the probierri bypass valve controller, instrument air pressure is lost to the associated with the Condensate System, and recover condensate flow l Condensate System air operated valves. The valves go to Moeir failed to the suction of the feedwater pumps per AOP-OOO8, t.oss of position, which causes all condensate flow to be directed back to the Instrument Air. condenser hotwell. See Supplemental Scenario No. 6 for the maior valves affected by the loss ei air and the subsequent flowpath setup by that loss. l This results in a low suction pressure trip of the feedwater pumps. The fee twater pumps are now unavailable to N used for reactor level . j' control. l 4 E \ . I
_ _ . . _ . ._ _ .m _ . _ _ .. . . . _ . . _ . . _ . . . . . _ - ._ _ N e . m .: T a a at a) s u a s j :,
~
8 8 a s <
. 8 ~
a
$$M A A A
- M AE e e e @ m bb 3 o b sN o
- m N M b m g O ( kA d as A g m 5 A 88
; ; : j j " "
8 8 agg
$"2 A A A g d g g2A < $
g gzg a U H Ee Q to g&M Btl MQ a tal m a x x z z kt kt z h z kI kt kt kt b z O O O O O O O O O O O O O O O O O gd s It a g
$E5 O
' l2 z it it b b z z b = lt z z z z z it v O O O O O O O O O O O O O O O O g z z e z z z z z O O O O O O O O
& a m<M
- a w
O
$g5 gh 8 it = z N 0 0 0 dzbb 0 0 0 0 0 e b z b 0 0 0 it0 it 0 0 0 it b e 0
8 it it it it it it it it
- C 0 0 0 0 0 0 0 O
h E h r r <n E, N > N Nh N k N N < EE < d. k. P.EE o q I.f N. k. k. h E E ". 2 MEEEEEEER
- ~~~~~~~~
3 8 8 T E e o A M M A R ( E u E d *$
$.u<g s
N ma5
- m o e - . $$8 f*
d a f $ f fh 8 E s llf d'w w n aaa
$ p 4 m WWW 5 .8 A W E E n a
8 a 8 % 1 8 b DDD E g z! d s o o e EEE B g-s h6- - Z %o3 En
<O <- < = --- a25 auu a 20 eO SS t *** i s EEE $ WE 65 mm = EEE ssi
TS 1 :. [ RPU ALARM ' C R I T I % IL' P L A N T URRIABLES ECHTNT %LARM l CONT 11tihENT DG i p l ( DESIGli i14.4 I ( SRU LIFT!1103D DR'/WELL gg PRESSI a.z]PSIG PRESSE 9r EPSIG l C suer-( OPER HI 1.68 ) ( 100% BPU 1025)I j PRESS E 3.* IPSIG '" ' 1 ( OPELHI ! 90 ) 4 TRIP HIV 52 D TEMP l[sor,JF GROUP LEVELI-ist IIN ISOL ( OPER HI 135 D (SCRAM LO 9D TEMP R 295 l 'F i i I POWEP.I zi I% ! i i gH (APRM DNSCL 5D 20- 0 $ 4 LVL[?_3FTl3IN UL/ L^,./NV
- 40PER711l19-6) s SCRAM ( OPER HIl 95 D L TEMPI isc I(F i SUP)RESSION SUPPRESSION !
POOL POOL ! I I_ ! _ RIVER BEND $ 0 0 30-JAN-1991 si35 ;
ALARM l 0 :.3 R3U CONTROL--kR/PWR lCHTMT i WATER RPU POWER PUMP l RPU LEVEL l 23 lIH >TAF CHDS/FW
- NA . IPR HI Aust RUN I E -'s? l IN 60 WATER P,PU POWER PUMP M TRIP HIl 521 l CRD j AVAIL PRESS AVAIL RUN 0- ,\ 3 RCIC l WATER RPU POWER PUMPl NOT PER NSCRAMLOI 9]
y AVAIL PRESS NA 0FF I --
-120-HPCc-h WATER RPU POWER PUMP TAF l-162l !
pAVAIL PRESS AVAIL OFF -180 g. . g .. 0 PU i LPCS (ff $,V, gj{ FF SRU OPEN 1200-LPCI WRTER RPU POWER PUMP l ) :N POOL LD !12931 1 AVAIL Patss AVAIL RUN ' 800- HEAT CAP; 647] SHTDl1 C00LIllG l CLG I k?U POWER PUMP I AVAIll reess AVAIL RUN B l MN l 400- SRU LIFT 1103l RWCl j a HOT AURIL COOLING POWER AVAIL oW PUMP l GROUP 0-g ( 100% BPU 1025 i ISOL _ g . TURBIl!E CLG UAC H.PWR VALUE E ; CONTROL l AVAIL AURIL AVAIL SHUT I RX POWER I 21 ]% (RESCALE) ; TURBINE CLG UAC H.PWR URLUE BYPASS {i AVAILAVAIL AVAIL SHUT 80- i IbS AV0k E HA N D 40-lj LIQUID POWER PUMP l SLC 1 AVAILABLE #4 0FF E
'0 10 (MIH) u RIVER , BEND e 0 8 30-JAH-1991 is35 i
o
! 027 ERPU ALARM
]{Q[.TAINMENT CONTROL--UPSET /1R i
POOL LEVEL 2 FT 2 IN (RESCALE) 1 20 ! POOL , COOLING POWER PUMP l s DG ' POOL LD 131- 21 j C00LIl1G AVAILABLE AURIL RUN I l ugou l - ! POWER FAH - DRYWELL f COOLING 19-C00LIl1G I dof Aeo AVAIL OFF al SRU OPER LO l19- 61 OPEHlE HEAT CAP 15- 5_] l CNTNT COOLING POWER FAN od l i C00LIl1G i AVAILABLE AVAIL E 18 10 (NIH) 0 PRESS 1 VALUE POWER FAH l l_ GROUP i CONTROL i SHUT AVAIL OFF E CNTNT PRESS I iz EPSIG SBGT l u(('of N bl lSCgAM g l _
~
M MAXIMUM L 55. 3 l __ DESIGH l14.31 ' 8-
~
( kPR SUPPRI 9.31
-15^^('NI'N)0 CNTNT TEMP l' /u- ] F DW TEMP I 245 I F POOL TEMP I s9c. 3 *F !
~ ~
.j RPU SAT 513l RPU SAT 513E HEAT CAP 11611 I i55- _ 135-275- -
I l DESIGH 185l DESIGH 33bE 4SCRh TEMP l1101 i 120- 200- 120-85- 125
-10 (NIH) 0 -10 (MIH) 0 105 -1 0 .(MIH) 0 i RIVER BEND 8 8 8 30-JAH-1991 is35 l
- i
i l l Clock Time = 1145 1991 PRACTICE EXERCISE Scenario Time = 03/45 l Message Number = 16_ RIVER BEND STATIOr4 EMERGENCY PREPAREDNESS PRAC11CE EXERCISE MESSAGE
~ THIS IS A DRILL
- l Message To: Control Room Irufications in Control Room im.7vde; Annunciators in Control Room include:
IIPCS pump control switch on panel P601-168 is placed in the START HPCS INJECTION VALVE E22-F004 MANUALOVER RIDE-P601-16A/F02 position, green light is lit. HPCS injection valve, E22*F004, is opened from control room panet P601-168. HPCS flowmoter, E22*R603, Indicates continuously increasing flow.
1991 PRACTICE EXERCISE Clock Time = 1145 Message Number = 16 Scenario Time = 03/45 RIVER BEND STATIO84 EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORMATION
*** THIS IS A DRILL ***
Controller Informatiore C am";c Inb ees.Gwn (Continued) With instrument air to condensate system valves lost, condensate flow bellows failure occurs in the RHR loop 'C* Iine between testable check is directed back to the condenser hotwell. The feedwater pumps valve E12*F041C and LPCI Injection isolation valve E12*F042C, cannot be started to recover level because of low suction pressure. allowing steam and tission products to blow directly into the prima.y Reactor level continues to decrease quickly since approximately 20% containment. power is still being produced. Emected Actions: Operators start the HPCS pump and attempt to throttle flow with injection valve E22*F004i however, MOV torque /!imit switches are out Operators concentrate on reestablishing reactor level by initiatirg of calibration, and valve E22*F004 goes to its full open position. Once HPCS and attempting to regalr' level control. the valve is opened, it can then be throttled shut as necessary for level control. Operators continue to shift valves to recover condensa*e flow to the suction of the feedwater pumps. As cold water is sprayed onto the core, a significant power spike occurs immediately followed by a pressure surge. This results in a Monitor containment parameters, and discuss possible entry localized overpower condition with substantial fuel cladding damage. conditions *o a General Emergency. The resultant vibration and pressure shocks cause severe internal Continue to follw steps of EOP-1A and E')P-2. , mechanical damage to RHR foop 'C' testal13 check valve E12*F041C . located in the drywell. A subsequent pipe rupture, and guard pipe Continue efforts to restore SLC pump 13*.
n . i i 1991 PRACTICE EXERCISE Clock Time - 1145 f Message Number - 16 Scenario Time - 03/45 RIVER BEND STATION j EMERCENCY PREPAREDNESS EXERCISE i CONTROL ROOM DATA l-i l PANEL 601/877 PANEL 601 PANEL 680 t Status Press Flow SRV RED CRM AC E POWER 34% APP 3 IIVEL -168" { RilR A SPC 5200 F041A OFF ON OFF RIIR B SPC 5200. F0418 ON OFF ON CNS PIA OP FWS PIA OOS l .RHR C _._S S O E041C ON M_ ON CNS PIB SS FWS PIB OOS l FD41D ON OFF ON GS PIC SS FVS PIC OOS l LPCS SS O F041F ON OFF ON ) F041C 'OFF ON OFF RCIC OOS O O Total Feedwater Flow O M1bs./hr F041L OFF ON OFF. IIPCS OP 945 2750 FO47A ON OFF ON
- F047B OFF ON OFF PANEL 808 i CRD A OP 1900 75 FD47C ON J_FE_ ON l CRD B AV O O FD47D OFF OFF
_O L__ . Press Temp Level FV47F OFF- sN OFF 3,g g Squib Press Ievel FVSIB OFF ON OFF CTNT 4.7 11.2* SLC A OOS O 1930 FD51C OFF ON OFF SLC B OFF 0 FD51D OFF ON SPR PL M 24
- 2".
OFF NC ON OF ON { PANEL 870/601 RPV 639 -168" FZR MSIV RED CRN FD22A OFF ON SWP P2A OP SWP P2C OP ) FO22B OFF ON SWP P2B OP SVP P2D OF h DIV I DIESEL SS DIV II DIESEL SS FD22C _ O(T_ ON PANEL 863 DIV III. DIESEL SS FO22D- E_ ON
~
FD28A OFF ON l FD28B OFF ON SGTS A OP SCTS B SS oP-orERATInc SR-STANDBY READY j cos-our oF SERVICE SS-SECURED STA M FO2fC OFF ON D/W COOLERS OPERATING ISOL I AY=AVAI1ASLE ISOL= ISOLATED F028D OFF ON CTNT COO ERS OPERATINC A j
011 [ R F U_ ALARM ! C R I T I C A L P _ANT UARIABLES scHTnt a'.aan s CONT 1111 MENT - l g,[,6 1 4 DESiliIl 2 13.9 DRYWELL g PRESSE r.s1 IPSIG 0 MSIV PRFSS[~#.7 jPSIG ~ l SRVOPEHll SHUT l L OPER HI 1.68) ( 1007. BPV 1025) f - PRESsE 3.s IPSIG I '" 4 OPER-El 90 ) 4 TRIP HI 52 D TEMP [,_is9 1 'F LEVELE-it.s EIN GROUPj {0PER HI 135) (SCRAM LO 9D ' l EMP I 295 l 'F POWERE 3Y I7 3 (OPER}{i20-0) LUL[2T FTl]IH UV u/hh (OPER_L_0 19- 6) 4 OPER HI SCRAM 95 D TEMP E 1% I *F SUP?RESSIGH SUPPRESSION t POOL __ POOL RIVER BEND 8 9 0 30-JAN-1991 isv5 4
, s -
013 RPt) CONTROL--WR/ 3 WR ' CHTMT ALARM l P,PU LEVEL .l -c. ] IH >TAF Cl1DS/FU P F0gER PUMP (WATERi g p WA RPU POWER I U 7M P RfD ;ii i 52E CRD 0-l'TER AIL PRESS AVAIL RUN E 4 RCIC [UITET p1UAIL_ PRESS RPU POWER MA PUMP RDt1 l a.r Poe Q N SCRAM LO 9l
-120-HPCc' WATER' RPU POWER PUMP lE -180_g...
g W TAF -1625 AVAIL 'PPESS f"All RUN g ..g LPC5 yh k pg RPU
, y (( 7"MP 0FF l ~ SRU 1200 WATER RFU POWER PUMP l
--0PEH l POOLLDJ_ l LPCI 1 AVAIL FA- m AVAIL RJ4 I 800-i E MSIU l HEAT CAP .I SHTDN i CLG RPU IPOWER PUMP l l SHUT E C00LIl1G ; AVAIL re ni SUAIL Edd s 400- SRULIFTH110]
GROUP PWCU l N0 b'IJA L { PDFFHP l
- l 0-10' (M I N ) 0 i
TURBIl1E I CLG URO H.PWR VALUEI l CONTROL LAVAIL AVAIL AVAIL SHUT l RX POWER 2 34 E % (RESCALE) TURBIllE - CG UAC H.PUR VALUE l : BYPASS AVAIL,AURIL AVAIL SHUT l 80-D AIPS L AUbS kE NA SIUT H 40-J j-
^
SLC l LIO JID POWER PUMP l MA 0FF E LAVAILABLE 0-
-1 0 (I:IN) H RIVER BEND 8 0 i 30-JAN-1991 is45 l l
C O N T RO L--U 3 S E /
~~
Y 7R 0 2 7 fi RPU li ARM J { {
.,l"~ Q .,
{ . POOL LEVEL zV FT @ IS (RESCALE) 20 - 3 POWER PUMP I E pg a POOL LD 137- 3l POOL l COOLING C00LIl4G i AVAI_LABLE AVAIL fvd R l g,y. ga.g - DRYWELL COOLING POWER- FAH l 19- \4 OPER L0119- 6l COOLING HOT AVAIL AVAIL OFF E _ _ SRU R ~ HEAT CAPl19- 61 OPEH I
' C00LiHG POWER -
CNTMT COOLING AVAIL AVAIL FAN'l Edd 18 10 (MIN) 0
- l GR l
PRESS VALUE SHUT POWER AVAIL FAN OFF l CNTNT PRESS I 4 7 IPSIG CONTROL MAXIMUMl54.91 SBGi fh'_lhp hhfg hhhl l {COERH 12- l y DESIGN l13.9l 8-4- ~~ ^ ~ ~ PR SUPPRI 8.81
~
-10 ^(MIH) 0
# POOL TEMP R in j F 1
Dbl TEMP I 295 I F CNTMT TEffF l ii9j F , M HEAT CAP l168]
'1 RPU SATl459 M RPU SATl459]
\ 135-155- j - 275-DESIGN 1330 5 (SCRM TEMP!1101 4 DESIGN 1185J 120-200-120-
--- -4 0PER HIl 90 l
~
4 0PER HIl:355 gg _
-10 (MIN) 0 105 10 (MIN) 0 INC
-10 UlIH) 0 RIVER BEND 4 8 8 30-JAH-1991 l
t
1991 PRACTICE EXERCISE Clock Time = 1145 Message Number- 16 Scenario Time = 03/45 RIVER BEND STATION DRMS MONITORS ID NUMBER LOCATION (TYPF* READING ID NUMBER LOCATION (TYPE) READING R E-16A,B Ctmt. PAM R.B.186* (DHRRM) 7.5E3 R/hr RE-194 Supt. Rm. Trans. Tube FB.123' (ARM) 300 mR/hr R E-20A,B Drywell PAM D.W.114' (DHRRV) 100 R/hr RE-195 Sampie Sink Area F.B. 95* (ARM) 300 mR/hr RE-21 A.B Ctmt. Purge Isol. RB.141' (ARM) [f5E( mR/hr RE-196 Equip. Drain Sump F.C. 70* (ARM) 300 mR/hr RE-139 Annul Near Trans. Tube :14' (ARM) SN mR/hr RE-200 North Holst Area T.B.123'(ARM) I12 mR/hr R E-141 Refuel. Floor South RR.186* (ARM) USN mR/hr RE-201 Cond. Air Remova! Pmp. Area T.B. 95* (ARM) 0.2 mR/hr R E-146 Containment Airlock F.B.114' (ARM) OSN mR/hr RE-202 Rx Feedwater Fump Area T.B. 6T (ARM) 1.5 mR/hr RE-151 Sample Station Area R.B.162* (ARM) D5N mR/hr RE-203 Turb. Bidg. Sample Rm. T.B. 6T (ARM) 0.1 mR/hr HE-162 O.G. Didg. Regen. Area O.G. ST (ARM) 0.4 mR/hr HE-204 Cond. Domin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr RE-164 O.G. Bldg Sample Area O.G.123'(ARM) 2.0 mR/hr RE-210 PASS Penel A.B.114'(ARM) 300 mR/hr RE-165 Cond Demin Regen Area O.G. ST (ARM) 92 mR/hr RE-211 Control Rod Drive AB. 95* (ARM) [75 mR/hr RE-166 Cond Demin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr RE-212 HPCS Area East A.B. 70* (ARM) [7s mR/hr RE-167 O.G. Bldg. Valve Area O.G.13T (ARM) 28 mR/hr RE-213 RHR A Area West AB. 70* (ARM) I75 mR/hr , R E-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 RHR B Area East A.B. 70* (ARM) 17 5 mR/hr RE-185 Storage Tank Area R.W. 90* (ARM) 02 mR/hr RE-215 RHR C Area A.B. 70' (ARM) 75 mR/hr RE-186 Floor Drair* Sump Area R.W. 65* (ARM) 0.5 mR/hr RE-216 LPCS Area West A.B. 70* (ARM) L75 mR/hr RE-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) 300 mR/hr RE-192 Refuel Floor South FE.113* (ARM) 50D mR/hr RE-218 LPCS Penetration Area West A.B. 70* (ARM) 300 mR/hr RE-193 Refuel Floor North FB.113' (ARM) [f5 mR/hr RE-219 RCIC Area West AB. 70* (ARM) [75 mR/hr d-Indicates Alarming OSH -Indicates Offscale High ' All other ARFfs are "as read'
1997 PRACTICE EXERCISE ClockTime = *145 Message Number- 16 Scenario Time = 03/45 RIVER BEND STATION PROCESS MONITORS ID 14 UMBER t.OCATION (TYPE _}_ READING ID NUMBER LOCATION (TYPEi READING ( RE-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 *CI/sec RE-111P Cont. Atmosphere (PART) 2.4E+0.1 aC1/cc RE-5B Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 eCI/sec RE-111G Cont. Atmosphere (GAS) 2'9EM SCI /cc RE-6A Radwaste Bldg. Vent Exh. (WRGM) 6.7E-01 aCI/sec RE-112P Drywell Atmosphere (PART) 6.7E-07 SCI /cc RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 aCI/sec RE-112G Drywell Atmosphors (GAS) 3.3E-E SCI /cc 1GE-125 P.1ain Plant Exh. Duct (WRGM) 7.4E-07 aCl/cc RE-103 SGTS Effluent (GAS) 2.0E-06 aCi/cc 2GE-125 Main Plant Exh. Duct (WRGM) 1.2E-04 SCI /cc RE-116 Conta!nment Purge (GAS) 3.0E-06 sci /cc 3GE-125 Main Plant Exh. Duct (WRGM) 4.3E-02 aCI/cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 aCl/cc 4GE-125 Main Plant Exh. Duct (WRGM) 3.3E+01 aCI/sec RE-11B Annulus Exhaust (GAS) 2.5E-08 aCi/cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 pC1/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 aC1/cc RE-118P Turbine Bldg. Vent (PART) 3.0E-11 SCI /cc Off Gas Pre-treatment Monitor o mR/hr RE-118G Turbine Bldg. Vent (GAS) 1.0E-10 aCI/cc Off Gas Post-treatinent Monitor 0 cpm RE-124P C.DJO.G. Bldg. Vent (PART) 2.CE-10 aCI/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-124G C.DJO.G. Bidg. Vent (GAS) 2.0E-08 aCI/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-126P Main Plant Exh. Dtict (PART) 4.0E-10 aC1/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-126G Main Plant Exh. Duct (GAS) 7.4E-07 aCI/cc Main Steam Une Radiation Monitor 1000 mR/hr i - Indicates Alarming OSH -Indicates OiNeale High ; All other Process Mt nitors are "as read
- f 1991 PRACTICE EXERCISE Clock Tome = 1150 Message Number = 16.1 Scomsrio Tsere = 03/50 RIVER BEPm STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE N
s ! " THIS IS A DREL ~ Message To: Control Room t Plant Status Update i l i i l l
. i i
1 j- . 1 1 1 i 4 = m m e -
i ' { t- ;; t - ! a [i- ; i- l 1991 PRACDCE EXERCISE Clock Time = 1150 : RAessage Number = 16.1 Scenario Tiene = 03/50 i REVER BEBE STATION
. ERERGE90CY PREPAfMBIESS PIECW EXERCISE 'h
!. CONTRf18 8 F88 WWORGAATION [
- i t
- j. I f
- Ties IS A DREL * !
r
- CoMroterInforneagen: Emocied Actions: :
I'
}
Level has been restored to -100. and the HPCS injection valve Continue to monitor containment parameters and attempt to determine f E22*F004 is closed. where the pipe break occured. ! t i : l Containment pressure is increasing rapkfly since most of the steam Continue efforts to restore condensate flow to the feedwater pumps. [ t blowdown is going directly into containment rather than through the ; SRV*s into the Suppression Pool. . Continue efforts to restore SLC pump *B'. [ Reactor power is approximately 30% and is slowly decreasing along Continue to insert control rods. with reactor pressure. Reactor level is recovered and being main- l tained between -100* and -193". > r i l I l t i l ' I i , l Ir ,
}
l I. < 1 i i.=, , , , - . . ... 4- _ ,.. _ _ , _ . . . <
_ .s -+_ _. _ _ - - _ , _ _,. __,m _ A ._4 ._m.se_ta&2_+ 'as. ,.__.,,,_3A._.
~ . _
a - , e M o ht 8 8 8 h f k $ $ E l l Ib mmm y m2 e o d m e .., 3 $ $$0 ? III h I$ $ u. 8t e E x e u e 2 e E hl ~ ca c;:
- : .. . @d 8 oo 8 8 R M s j m - % % DD
? ~
SS o e s=c
~s - e dc= <@@
mmn 3 h @qh 555 s a5g m eI d mab U 5 b Z Z Z Z b h: Z b Z b b b b it Z N go o o e o e o o a o o e o o e o 5D<
- g e o b b b b h b b b b b b b b b b b e
8s
~
m s g t;8 g 0 o Zo Zo Zo Zo o o Zo o Ze o o o o e Zo $ o e o o o o o o 5 o k k E k k
.mEEEEEER ..h...$$.$$___E_ E 2EEE e ~k MEEEEEEEE
~ ~~~~~~
9 8 8 T R E e y M M 0 j : j d -
~
1l.a e E : 8 : : s "Si ih . 52 g o
- 8 8 8 s G u , m m 3 . I.Id .-
l a b 4 e 82 - w e e n n g n e t s m8 bo : : eue n l G *B # 4 e
'^
EEE B g-s g}
<.o , ,, <. <. E i*!j l - x:
ses asa e a ce u= sa 0D ss wa e u eee oaa t: 884 l l
' f - ; l ;;l[!!; l' g
s n JD 5 F H a l 9 ' G a I o t R I 5 a E P U L l s SL S f E O N.,4 h O o h 3 S I H z R O P P T 1 n T T O N d I R E E P M P U 9 9 1 c" l l P O E S - s T N A _ J l - l A. 0 S 3 E L 8 P g u 9 9 B 0 . 8 ~ A l D N I E B R _[g R A E V U U I R DG I ) D N
)
T 3 0 S P 5 2 2 5 I 9 "/. I l N 1 l 3 0 1 E e A U i T l l U i
/.
l 0 2 A M L P F s P I
- L 3 R r H R R I B E C P L E P L M A
R E U S 0 I E R W R S R V C O E 0 T E L S R 1 S P A (P ( (L 4 C b )G I & I 8 S 5 F 6 P 3 T f 1 E 1 l I 1 i s 9 i R I H r I H z C L L R I R I P , s E E S E U P S P M /_ Y O E O E M R R T R A D 4P 4 A_
\
L A kG 7 I
) F
)N ) I l
S 0 0 6
' l 4
P 9 _ U ] I - 3 - N T 1 0 9 O P H 1 l s 2 I 1 I R E 4 v T N l j I i l 1 F l j l SL i N G iL 1 L E E O O _ [ d[P i l I R_ v I R 1 1; S E S E M z EP 3 P _ T N D S E P O E E P LE P P U 1 O _ R T 0 L 0 S C U 0 (P ( 4L 4 T : : ;. ' , j Illl1l!i
!013 RPU CONTRO_--WR/PWR 'c"'"' a'aR" '
I c.z lIN >TAF RFU LEUEL CllDS/FW WA} Ri g g PUMP 60 TRIP HIl 525 CRD jWATER RPU POWER PUMPI 0-3 AVAIL PRESS AVAIL RUN E WATER RPU POWER l HOTPERl SCRAM L01 91 RCIC ' AVAIL PRESS HA PUMP 0FF l
- -120-WATER RPU POWER TAF l-1625 HPCc
)' AVAIL PRESS AURIL PUMP OFF lE -I80 10 (MIH)' O P LPCE lh[{ phPHI {0 DF l gg E RPU PRESS E 6SI ]PSIG OPEH o00L LD 11309I LPCI WATER RPU POWER ? UMP l I AVAIL PR HI AVAIL RUN I 800- HEAT CAP 11778) MSIU E SHTDH COOLING
! CLG RPU POWER PUMP I AVAIL PR HI AVAIL RUH E 1 sgr.-'l 400- SRU LIFT! 1103]
gp p x 100% BPU 1025 RWCU H0 A' L OA ' PU,MP l 00
-1 (MIN) 0 TURBIl1E i CLG UAC H.PWR URLUEE ,
CONTROL 1 AVAIL AVAIL AVAIL SHUT I RX POWER E n. 3% (RESCALE) TURBIHE CLG UAC H.PWR' UA'LUE BYPASS AVAIL AVAIL AVAIL smtr 80-DPAINS AU0kL E 'Hq PWR
][gg l f0H 40-SLC LIQUID POWER PUMP j l AVAILABLE NA 0FF 00
-1 (MIH) U RIVER BEND 8 8 8 30-JAH-1991 nso
m . .
- I v
! 027 ER-U ALARM __] C0'iT :: s v E1" CDiT ROL--UPSET / R 3 IN (RESCALE) POOL LEVEL @ FT 20-POOL LD i3T- 31 C00LI4G Ah E h FV47B 0FF ON OFF PANEL 808 CRD A OP 1900 75 F047C ON OFF ON CRD B AV O O F047D OFF ON OFF Press Temp Irvel F047F OFF ON OFF Soulb Press level DR M 4.1 M F051B 0FF ON OFF CM 16,1. 179' SIE A 00S 0 1930 F051C OFF 'JN OFF SPR PL 208* 24'3" , SLC B 0FF 0 F051D OFF ON OFF F051G ON OFF ON PANEL 870/601 Press Irvel Range RPV 220 -127" FZR MSIV PED CRN FV22A 0FF ON mm OP P2 OP [ F022B OF ON # DIV I DIESEL SS DIV II DIESEL SS 22C OU ON F022D OU ON PANEL 863 DIV III DIES"~- SS , F028A 0FF ON F028B 0FF ON SCTS A OP SGTS B SS OP= OPERATING SR-STANDBY READY cos=our or SERVICE $$= SECURED STATUS FV28C OFF ON D/W COOLERS OPERATING ISOL AV=AVAILABLE ISOL= ISOLATED F028D OFF ON CTMT COOLERS OPERATING A 1
Ti l l i RPU ALARM 1 CRITICAL PL 4..T UR RI ABLES s c"= a'asn u
- CONT ~11HMENT
[ l De B [ RPU IN0T OPERI . l . 4 DEd33_Il 14.(D DR'/WELL 0 PRESSE120EPSIG 0 SRU MSIU ' l PRESE [/[6 ] PSIG l OPEN Snur ( OPER HI 1.68J ( 100% BPU j iO25 ) j
,, m 2x PRESS I +.2 E PSIG r , r
( OPER HI 90 ) 52 D { TRIP HI GROUP i TEM? [_IM *F LEVELI-127 E IN ISOL , ( OPER HI 135D 4 SCRAM LO 9D TEMPI 276 l F POWERE 15 5% - (OPER HI 20- P* LUL @ FT 3 Ihl\ A / L ^s/ANU (OPER LOl19- 6.) SCRAM 4 OPER HI ' 95 ) TEMP E 20FI 'F
~
SUPPRESSION SUPPRESSION POOL __ P0OL RIVER BEND 0 8 8 30-JAH-1991 11 55 t
p O13 RPU CC HTROL--liR/PWR _
'c"'"' a'a*" 8 E SflIH >TAF CHDS/FW [l0fy[ plES AOR RUN I-W I IN _
60 jWATER RPU POWERj PUMP I N TRIP HIl 52l CRD 3- - l 5 AVAIL PRESS AURIL RUN WATER RPU POWER lNOTOPE SCRAM _LOl 9] RCIC . l AVAIL PRESS NA PUMP 0FF l -120-
- WATER RPU POWER PUMd l- d TAF l-162l HPCc' AVAIL PRESS AVAIL OFF E -180 . . . . . . . - '
0 l LPCE l0gy[ plP HI Ag j PUMP Opp l gRU RPU PRESS l_2.20 ] PSIG l 1200 l WATER RPU POWER PUMP l I OPEN E N POOL LD l13091 LPCI gAVAIL PR HI AVAIL RilH ' j 800 g pT CAPl17785 l SHTDil CLG RPU C00LIl1G . AURIL PR HI AVAIL POWER PUMP ] RUH E
-lSnur 400- 1 SRU LIFT l11031 j ,
p I f RWCU N0 QNfL A k PUgp P l j 0- ...
-10 (MIN) .0 TURBIl1E l CLG URC . H.PWR VALUE R CONTROL I AVAIL AVAIL AVAILi SHUjT RX POWER [ 15 ]% (RESCALE)
,nn
'~"
TURBI11E l CLG URC H.PWR URLUE J BYPAES : AVAIL AVAIL AVAIL SnuT 80-N DPAINS AVAk B E ifA _ 40-SLC LIQUID POWER PUMP k AVAILABLE NA 0FF - 2 0 10 (NIH) 0 RIVER BEND 8 8 8 30-JAH-1991 11:(5 t
0 ~27 ERPU ALARM _]{Q{'yQ{\jQ.{ {Q.1 TROL--JPS- 41R POOL LEVEL @ FT IN (RESCALE) POOL LD 37- 3l C00LI!1G AUh E Ah lggppjgl D _ FAN E 20 M DRYWELL 1 C00 LINS POWER 19-O jFF
~
( C00LII16 i HOT AVAIL AVAIL - E SRU E ~ OPER LO (19- 6 5 l_ OPEHI HEAT CAP 19- 65 i CNTMT ~ E00 LING POWER COOLING AVAIL AVAIL FAN l pd ig ,
-10,,,,,,,,,0 GR (MIN) l l
PRESS CONTROL 1 VALUE SHUT POWER AVAII. FAN _0 l CNTMT PRESS I /6./ IPSIG
;54.9 I h$th ph l MAXIl1UM SBGT ty,I_jp j)CO lE"l -
I~ DESIGN l13.9 5 8-' 4-
- 8. 8 l PR SUPPR
,t 0-1'0 (MIH) 0 ; i i:llTMT TErlF 1/7? ] F DU TEMP E 274 E *F POOL TEMP R20s E F I HEAT CAP l1685 I RPU 3ATl459E (4 RPU SATl457l !155- 135- ] k4 DESIGN200-l185l275- DESIGN 1330 E 120-(SCRM TEMPI 1101 ' 120-1 40PER HIl 98l OPER HI 135E ~ OPER HI l 955 I 10 (f1IN) 0 -i0 (MIH) 0 -10 (MIH) 0 i RIVER BEND 3 8 8 30-JAN-1991 1/?ff ; t n r _ _ _ _ _ _ . .__-- - _ _ . _ . _ _ - . - . _ _ -5
e Clock Time = 1200 1991 PRACTICE EXERCPSE 04/00 Scenario Time n= Message Number = 17 , GRTH BEND STATION 1 EMERGENCY PREPAREDNESS PRACTICE EXERCISE l uESSAoE
*" THIS IS A DRILL ***
Mer. AM To- Control Room Indications in Control Room incl.de: Annunciaton in Control Room include-As shown on attached DRMS data shoots. DIV i RX BLDG CO' TMT PAM AREA RADN ALARM - P863-71 A/B06 DIV II RX BLDG CONTMT PAM AREA RADN ALARM - P863-71 A/F06 G t _ _ . _ _ _ .
o Clock Time = 1200 1991 PRAc11CE EXERCISE Scenario Time = 04/00 Message f himber = 17 RIVER BEND STABON EMERGENCY PREPAREDNESS FbACTICE EXERCISE CONTROLLER INFORMATf0N
*** THIS IS A DRILL ***
Expected Actions- l Controf f er information-Cc **ane to foffow steps of EOP-1A and EOP-2. Radiation mr:itors 1RMS*RE16A/B have increased to the Alert setpoint due 20 the pipe break In containment allowing fission Trend containment radiation levels. products to blow directly into primary containment. Monitor containment pressure and temperature closely. Containment pressure hao levered off at about 19 psig, and blowdown Into containn.ent has decreased in volume sin:e reactor power and At this time, a GENERAL EMERGENCY may bo declared in accordance pressure levels have decreased to approximately tne same vali es with EIP-2-001, GE EAL 2. Initiating Condition 5, "Other Indications of ! v 5en the power transient occurred. Loss of Two of the Following With Cotential Loss of the Third: Fuel l Cladding, RCS Pressure Boundary, Containment integrity". i The Emergency Director may choose to dtclare a General Emergency at this time. If 8 Genes:' Emergency la declared, the Emergency Director sho. Id . 2 rect the implementation of the following procedures-EIP-2 '95," General E nergency" EIP-2-006, *Netifications" EIP-2-007," Protective Action Recommendation Guidelines
- EIP-2-012. " Radiation Exposure Cor.trols" EIP-2-013 "Onsite Radiological Monitoring" l EIP-2-014. "Offsite Radiological Me,ttoring*
I EIP-2-024 "Offsite Dose Calculations"
^ s y
M
9 1991 FRACTICE EJERCISE Clock Time - 1200 Message Number - 17 Scenario Tin:e - 04/00 RIVER BEND STATION EMERGENCY PREPAREDNESS EXERCISE CONTROL ROOM DATA PANEL 601/877 PANEL 601 PANEL 680 Status Press Flow SRV RED GRN AC_,.F" POWER 22%.APRM LEVEL -168" RHR A 9PC 5200 FV41A OFF ON l _ ltHR B S PC ,__ _.2 M F041B ON OFF ON CNS P1A OP WS PIA OP RHR C SS 0 M41C ON OFF ON CNS PIB SS WS PIB SS F041D ON OFF ON FUS PIC CNS PIC SS SS LPCS SS O F041F OFF ON _ON F041G OFF ON OFF' Total Feedwater Flow 7.9 M1bs./hr RCIC OOS O O pg41L opp og opp HPCS SS 0 0 F047A ON _ OJL ON F047B OFF ON OFF PANEL 808 CRD A OP 1906 75 F047C ON OFF ON CRD B ,,__AV O O F047D OFF ON OFF Press Te Wel F047F OFF ON OFF level DRYWELL 4.2 22 7 S.22 i b Press F051B OFF ON OFF CTMT 18.7 207' - SLC A OOS 0 1930 F051C OFF ON OFF Sm PL 210* 24*4" - SIL B OFF 0 F051D OFF ON OFF F051G ON OFF ON PANEL 870/601 Press level Rance RPV 148 -168" FZR- MSIV RED CRN FV22A OFF ON SWP P2A OP SWP P2C OP SWP P2B OP SWP P2D OP DIESEL. F022B OFF ON DIV I 1 DIV II DIESEL SS 2022C OFF ON F022D OFF .ON PANEL 863 DIV III DIESEL SS F028A OFF ON SGTS A OP SGTS P, SS OF=OFERATINO su-s Ae sY arAny F028B OFF ON D/W COOLERS OPERATINC ISOL
$., ds . r]^S FV28C OFF _ON_
CIMT COOLERS OPERATING A' FO28D OFF ON
O '. :. I: RPU ALARt1 l CRITICAL PLAN ~ VARIABLES ECHTNT ALARM l C0!!TAIllhENT
~
ilDEdj]l i14,7 ) DRYUELL 4SRU LIFT 11035 U PRESSE /+#EPSIS U bR MS PRESEJ[I ] PSIG l OpEN l l SHhf l 4 OPER HI 1.68) ( 100% BPV 1025) } PRESSI 4,2 EPSIG ;; ;;) b 4 TRIP HI 52 D LEVEL E-168 R IN lGR0VP
] oL l 4_OPER HI 135& 4 SCRAM L0l 3 ,
TEMPI 277 l F POWER I 2 2 E % . il0P_ER[i~I20-lk .L LVL[21. FT + IN UV u/N (l0PER1019-6) CRAM 4 OPER HI 95 D TEMPI 2Ie E 'F i SUP?REESION ~l SUPPRESSION POOL POOL 1__ i i RIVER BEND 9 0 0 30-JAN-1991 12:00
ICHTMT ALARM l 0 :!. 3 RPV CONTROL--WR/PWR E -611H >TAF N CNDS/FW lh[yf ph$g kOg![ PV pU P l R-/68 5 IN TRIP HIl 52l CRD I[ATER RPU POWER PUMP E 0-h AVAIL PRESS 9 VAIL RUN I SCRAM LOl 91 RCIC ! WATER RPU POWER lNOT PERl AVAIL PRESS NA PUMP 0FF l -120-c WATER RPU POWER PUMP E -4 TRF l-16?l
"* pACAIL PRESS AVAIL OFF I -1804 -(niy) g -
LPCE i lh[yf plP g PUgP} ;TV PRESS E /+81PSIG l 124'i WATER RPV POWER PUM) I OPEN N POOL LD 13095 LPCI AVAIL PR HI AVAIL RUF I 800- \
% HEAT CAP 17785 MSIU SHTDN COOLING CLG RPV POWER AVAIL PR HI AVAIL PUMP l RUN E Isnur R I
400- SRU LIFTil1031 p n 00% BW 1025 RWCU NO L Ag PUMP op l l 0 ..........
-10 (MIN) 0 TURBINE I CLG UAC H.PWR VALUE I RX POWER I 2 2. ]% (RESCALE)
CONTROL LA V A I LA V R f LA V A I L S H U T I OYPAS AV U_ 0 HW! 80-
" 5lEN APRM DNSCL 55 DERIbs kO[i IIA E$uh! 40-
'l LIQUID POWER PUMP l g SLC NA 0FF E "
1 AVAILABLE 00
-1 (MIH) 11 RIVER , BEND 8 9 9 So-JAN-1991 11:0 0
l e 027 E R=u Ai ARM ] {Q .iT A I 'I'l as T CD 1T Rh -UrsE /va POOL LEVEL 24 FT @ IN (RESCALE) 20-POOL LD l37- 31 CO LI1G , V E h0f u7-l lgg D gl _ FAN 19-OFF l' DRYUELL COOLING POWER OPER LO !19- 61 C00LIllG HOT AVAIL. AVAIL _ SRU g - OPENE HEAT CAP 19- 61 CNTMT 7 00 LING POWER FAN l COOLING AVAIL AVAIL Od E GR 18 10 (MIN) b PRESS CONTROL l I VALUE __S_ HUT POWER AVAIL FAN l 0FF E l CNTMT PRESS I/#.7 IPSIG MAX 1MUMl54.9l SBGi k_Jhp [0lff gSCAM 6-12 DESIGN 13.9l g, 4- PR SUPPR 8. 8 ]
~
; -1T(MIN) 0 DL1 TEMP B297 l'F POOL TEMP R 2/0 I F l CNTMT TENP ),,2_0L F ~
10 - HEAT CAP 1685 ygg SAT 459l RPU SAT l459E
\ 135-i 155- ( DESIGN 3305 SCRM TEMPl1101
'( DESIGN 185 l 275- 120-120- 200-
~
OPER HI 135E MPER HI i 95 5
. -4 OPER HIl 90l ~
~
-10 (M'IN) 0 -10 (MIH) 0
-18 ' EIN) 0 RIVER BEND e 0 0 30-JAN-1991 (1100 I
l
ClockTime = 1200 1991 PRACTICE EXERCISE Scenario Ilme = 04/00 Message Number: #7 RIVER BEND STATION DRMS MONITORS READING READING ID NUMBER lot'ATION ' TYPE) ID NUMBER LOCATION (TYPE) RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 300 mR/hr RE-16A,B Ctmt. PAM R.B.186' (DHRRM) 1.5E3 R/hr 100 R/hr RE-195 Sample Sink Area F.B. 95' (ARM) 3dd mithr R E-2 0A,8 Drywell PAM D.W.114' (DHRRM) RE-196 Equip. Drain Sump F.B. 70' (ARM) 30d mR/hr RE-21 A,8 Ctmt. Purge isol. R.B.141' (ARM) {i3E4 mR/hr 6Sfl mR/hr RE-200 North IMist Area T.B.123' (ARM) [12 mR/hr HE-139 Annul. Near Trans. Tube 114' (ARM) RE-201 Cend. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr SE-141 P.efuel. Floor South R.B.186* (ARM) USH mR/hr RE-202 Rx Feedwater Pump Area T.B. 67* (ARM) 1.5 mR/hr RE-146 Containment Airlock F.B.114' (ARM) 6~S] mR/hr RE-203 Turb. BIdg. Sample Rm. T.B. 67* (ARM) 0.1 mR/hr RE-151 Sample Station Area R.B. [62* (ARM) U'5N mR/hr RE-204 Cond. Domln. Sample Rack T.B. 95* (ARM) 0.1 mR/hr RE *2 O.G. Oldg. Regen. Area O.G. 67* (ARM) 0.4 mR/hr HE-210 PASS Panel A.B.114'(ARM) 300 mR/hr RE-164 O.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr Cond Demin Regen Area O.G. 67* (ARM) 9.2 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) [I5 mR/hr RE-165 j7$ mR/hr RE-212 HPCS Area East A.B. 70' (ARM) HE-160 Cond Demin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr 28 mR/hr RE-213 RHR A Ared West A.B. 70* (ARM) I75 mR/hr R6167 0.G. Bldg. Valve f.rea O.G.137' (ARM) RHR B Area East A.B. 70' (ARM) [75 mR/I.- Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 80102 0.2 mR/hr RE-215 RHR C Area A.B. 70' (ARM) I75 mR/hr HE-16:2 Stor cr* a Tank Area R.W. 90' (ARM) 0.5 mR/hr RE-216 LPCS Area West A.B. 70' (ARM) l75 mR/hr RE-186 Floor Dral' Sump Area R.W. 65' (ARM) RE-217 HPCS Penetration Area East A.B. 70'(ARM) 300 mR/hr RE-187 High Cond. .%mp Area R.W. 65' (ARM) 0.3 mR/hr RE-218 LPCS Penetration Area West A.B. 70' (ARM) 30d mR/hr RE-192 Refuel Floor South F.B.113' (ARM) 30[d mR/hr R E-7 * 'J RCIC Area West A.B. 70' (ARM) [7$ mR/hr RE-193 Refuel Floor North F.B.113' (ARM) $75 mR/hr y-Indicates Alarming OSH -Indicates Offscar - % . , All other ARMS are "as read"
1991 PRACT?CE EXERCISE Clock Tune = 1200 Message Number: 17 Scenario Tune = 04/00 RfVER BEND STATION t PROCESS MONITORS r
.. g l_D NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING RE-SA Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 - aCI/sec . RE-111P _ Cont. Atmosphere (PART) 3.0E+01 aCi/cc j
^
RE-5B Fuel Bldg. Vent Exh. (WRGM) 1.3E400- SCI /sec RE-111G Cont. Atmospheto (GAS) 3.5ETHis aCi/cc .! FtE-6A ' Radwaste Bldg. Vent Exh. (WRGM) . 5.7E-01 sci /sec RE-112P C;ywell Atmosphere (PART) 6.7E-07 sci /cc RE-63 Radweste B!dg. Vent Exh. (WRGM) 5.7E-07 pCl/sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 sci /cc i 1GE-125 Main Pf ar ! Exh. Duct (WRGM) 7.4E-07 pCI/cc RE-103 SGTS Effluent (GAS) 2.0E-06 aC1/cc 2GE=125 Main Plant Exh. Duct (WRGM) 1.2E-04 sci /cc RE-116 Containment Purge (GAS) 3.0E-06 sci /cc 3GE-125 Main Plant Exh. Dt et (WRGM) 4.3E-02 sci /cc RE-11 A Annulus Exhaust (GAS) 2.5E-08 sci /cc 4GE-125 Main Plant Exh. Duct (WRGM) 3.3E+01 sCl/sec RE-118 Annulus Exhaust (GAS) 2.5E-08 aCi/cc ; RE-110P Aisx. Bldg. Vent (PART) 2.0E-12 , pCi/cc l RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 pCI/cc . [ RC-118P Turbine Bldg. Vent (? ART) 3.0E-11 SCI /cc Off Gas Pre-treatment Moniter o mR/hr t t RE-118G Turbine Bldg. Vent (GAS) 1.0E-10 aCI/cc Off Gas Post-treatment Monitor o cpm [ RE-124P C.DJO.G. Pldg. Vent (PART) 2.0E-10 pCl/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-124G C.D./O.G. Bldg. Vent (GAS) 2.0E-08 pCl/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-125P Main Plant Exh. Duct (PART) 4.0E-10 aC1/cc Main Steam Une Radiation Monitor 1000 mR/hr PE-126G Main P!: nt Exh. Duct (GAS) 7.4E-07 sci /cc Main Steam Une Radiation Monitor 1000 mR/hr i L [;[3 -Indicates Al:=rming , { OSH - Indicates Offscwe High . t A!! other Process Monitors are "as read" r l - l l I l
Clock Time = 1215 1991 PRACTICE EXERCISE Scenario Hme = 04/15 Mess 2G9 Number = 18 R!VER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE
*** THIS IS A DRILL ***
Message To: Control Room , Indications in Control Room include: j Annunciators in Control Room inclucie: l ANNULUS PRESSURE HIGH - P863-72A/A01 l i
Clock Time = 1211 1991 PRACTICE EXERCISE Scenario Time = 04/15 Message Number = 18 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INI ORMATION
*** THIS IS A drill *** l Expected Actions- (Continued)
Controffer Information: Perform dome projections using effluent monitors and meteoro80gicai 0-ring seals on several electrical containment penetrations have failed conditions and compare to results based on containment monitors. completely; containment pressure is being rnleased through the O-ring seat area, past the protect ~ve cover for the cables, and into the A General Emergency shou ~d be declared in accordance with EiP annulus area. 001, GE EAL-2, Initiating Condition 5. *Other Indications of Less of Two Radioactive material from the primary contain.nent is now being of the Following With Potential Loss of the Third: Fuel C* adding, RCS releesed to the environment through the Standby Gas Treatment Pressure Boundary, Containment Integrity". System, whlen is presently taking a suction on the annulus area. Sce The Emergency Director should direct the implernentation of the Supplemental Scenario No. 8. following procedures: Deliver Contingency Message 19.1x if the Emergency Director has not EIP-2-005 " General Emergency" declared a General Emergency by 1231 EIP-2-006, " Notifications" Expected Actions: EIP-2-OO7 " Protective Action Recomn'endation Guidelines" EIP-2-012," Radiation Exposure Contron" EIP-2-013,"Onsite Radiological Monitoring
- Enter EOP-3, " Secondary Containment and Radiological Release EIP-2-014,"Offsite Radiological Monitoring" Centrol" EIP-2-024,"Offsite Dose Calculations" Continue to monitcr priniary containment radiation leve!s, and trend radiatMn levels for the annutus exhaust (IRMS*RE11 A/B).
l I 1
e 1991 PRACTICE EXERCISE Clock Time _1215 Message Number - 18 Scenario Time - 04/15 RIVER BEND STATION EMERCENCY PREPAREDNESS EXERCISE i CONTROL ROOM DATA PANEL 601/877 PANEL 601 PANEL 680 : Status Press i Low SRV RED GRN AC.MN POWER _16% APRM LEVEL -133" RIIR A 5 'c 5200 F041A OFF ON OFF RIIR B SI- L 5200 F041B ON OFF ON CNS PlA OP WSPIA OP RIIR C SS 0 F041C ON OFF ON CNS PIB SS WS PIB SS CNS PIC SS WS Plc SS IECS SS 0 F041F ON OFF ON F041G OFF ON OFF RCIC OOS O O Total Feedwater Flow 7.9 M1bs./hr F041L OFF ON OFF IIPCS SS O O F047A ON OFF ON F047B OFF ON OFF PANEL 808 CRD A OP 1900 75 F047C ON OFF ON CRD B AV O O F047D OFF ON OFF Press Tema Level F047F 5 '_., ON OFF 297* DRYWELL 4.6 Soulb Press Level F051B OFF, ON OFF CIMT 13. 7... 191* SLC A OOS O 1930 F051C OFF ON OFF l SPR PL 208' 26'4" ! SIL B OFF 0 F051D OFF ON OFF F051G ON OFF ON PANEL 870/601 Press Imvel Rance RPV 86 -134" FZR MSlv RED GRN F022A OFF ON SWP P2A OP SWP P2C OP F022B OFF ON SWP P2B OP SVP P2D OP DIV I DIESEL SS l DIV II DIESEL SS F022C OFF ON F022D OFF ON PANEL 863 DIV III DIESEL SS F028A OFF ON OP=OPERATIttG sR=sIANDST READY F028B OFF ON SGTS A OP SGTS B SS l cas-ou! or sta,Icr ss-srcuato status M)28C OFF ON D/W COOLERS OPERATING ISOL l av.AvA u.Astr Iro'.=Isourra F028D OFF ON CIMT COOLERS OPERATING A
~
sc"T"1 a'aen i '01 :I i Rev._a'aan J C RI TIC AL 3L ANT U ARIFBLES
^
CONTlIllhENT f [ RPU E DG IN0T OPERI H I . 4 DEEall 14.7> 4 SFIU LIFT 1103D DRYWEL, g O SRV ~MSIU l
~
PRESSR. #6 IPSIG OPEN S Hur PRESE [/3 ] PSIG (OPERHI 1.63) ( 100% BPU 1025 ) }~g i^PESSI f,6 E PSIG >< __
>C
( OPENI 90 & 4 TRIP HI 52 D GROUP TEM?l~~/TI] F LEVEL E-/ 34 I IN l ISOL 4 OPER HI 135F 4 SCRAM LO 3 TEMPI 277l F POWERE 167% 4 APRM DNSCL 5> ePEr3120- e') L ^s/hh LUL[2I FT 4 IN UV E SCRAl l 4 OPER HI 95 ) (OPER -- Lil 19- 6 ): NONE E I TEMP I loFI 'F l SUPPRESSION SUP)RESSION i POOL POOL l I__ RIVER BEND e 8 3 30-JAN-1991 /2;/5
ALARM l l 0:.3 RPl) CONTROL--WR/3WR ' CNTMT Nl g_f3428]IH >TAF CHDS/FW ff phh h0A P0MP p0N g g ig l juRTER RPU POWER PUMP 3 TRIP HI 52l CRD iAURIL PRESS AVAIL RUN 3 0-
^
WATER RPV POWER l HOTPERl SCRAM L0l 95 RCIC AVA_IL PRESS HA PUMP 0FF l -120-HPCc- WATER RPV POWER PUMP lg l- -( TAF ,
-162l 1 AVAIL PRESS AVAIL OFF
-180_10 (MIN) H P HP LPCE lhgff phP HI 0{ DFF gp RPV PRESS I #6lPSIG 12 %
WATER RPV- POWER PUMP l OPEN l N POOL LD 13091 LPCI AVAIL PR HI AVAIL RUN ' i 800- HEAT CAP 17781
~
g SHTDH ! CLG RPV POWER PUNP l RUN g lsnu,gr l C00LIl16 AVAIL PR HI AVAIL 400- SRU LIFT l 11031 ( 100% BPV 1025 COOLING POWER ~ RWCU PUMP l 3 GROUP I m N0_T AUAIL AUAIL OFF s l ISOL g O _lg . . (MI
. . )j ). ' 0 C Rk AbAL AVAkLA0A SHUT l RX POWER I 16 ]% (RESCALE)
TURBINE 1 CLG VAC H.PWR VALUE 8YPAES M:L AVAIL AVAIL JnuTla 80-DRA :S AVA A E HA 40-SLC LIQUID POWER PUMP l AVAILABLE NA 0FF E O (min)0 RIVER BEND 8 8 8 30-JAN-1991 12 IS , I
1 , 027 I RPV AiARM I {Qf.'TQ " q'V BJT CD s TROL- -J 3E"/ '1 R POOL LEVEL 1+ FT @ IN (RESCALE) 20-DG l00L LD 37- 31 CiOLIIG A _ E Ah lgg g g OPER HI l20- 01 POWE5 FAH E 19 DRYWELL I COOLING OPER LO l19- 61 l C 0 0 L It4 G LH O T A V A I L AVAl_- O jFF g__ggy -] - a OPEN E (HEAT CAP 19- 65 CNTMT f C00 LING POWER F lA N _ COOLING g AVAIL _ AVAIL EM E g-1 g_ 0 (MIN) 0 l GR PRESS I URLVE SHUT POWER AVAIL FAN OFF l -- CNTMT PRESS I /3,7E PSIG CONTROL 3 ,
" 4 MAXIl10M54.91 306I LI -UP BOA R f0E 6-DESIGN 13.95 8-4~ ~ ~ ~ ~
PR SUPPR 8. 8 l
~
-10 ' '(MIN) 0 l
CllTM" TEMP I 17/ j F DW TEMP E29 7 E *F POOL TEMP E 208] F
' RPV SAT 4595 M HEAT CAP 1681 4RPVSAT459l __
275- 135- ' 155- DESIGN 3305 SCRM TEMP 1101 DESIGN 185 l 200- 120-120- ~ OPER HI 1355 OPER HIl 955 3_-QER HI l 90 l ._
~
~
-10 ' (MIN) 0 1$ ^ EIis ' -10 (MIH) 0 RIVER BEND 4 8 8 30-JAN-1991 ~ 12 :/5
- _ I
e Clock Time = 1215 1991 PRACflCE EXERCISE Scenario'Ume = 04/15 Message Number- 18
' RIVER BEND STATION DRMS MONITOR 3 ._
- w ID NUMBER LOCATION NE) READING ID NUMBER LOCATION (TYPE). READING RE-194 SupL Rm. Trans. Tube F.B.123' (ARM) 180 mR/hr R E-16A,B Cimt. PAM R.B.186* (DHRRM) MEd R/hr 60 R/hr RE-195 Samp , Sink Ares F.B. 95'(ARM) j86 mR/hr R E-20A,B te.,nuell PAM D.W.114' (DNRRM) fjE( mR/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) 386 mR/hr R G21A,0 Ctr.t. Purge Isol. R.B. It l' (ARM) O
' SH mR/hr RE-200 North Holst Area T.B.123' (ARM) [f'2 mR/hr RE-139
- mul. Nsar Trans. Ta'oe 114' (ARM)
RE-201 Cond. Air Removat Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-141 Refuel. Floor South R.B.186* (ARM) OSH mR/hr R 5'-202 Rx Feedwater Pump Area T.B. 67' (ARM) 1.5 mR/hr RE-146 Contair, ment Airlock F.B.114'(ARM) D$ mH/hr RE-203 Turb. Bldg. Sample Rm. T.B. 67* (ARM) 0.1 mR/hr RE-151 Samp's Station Area R.B.162' (ARM! 58 n'R/hr RE-234 Cond.' Demin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr RE-162 0.G. BMg. Hegen. Area O.G. 67* (Al-!M) 0.4 mR/hr mR/hr RE-210 PASS Panel A.B.114'(ARM) 180 mR/hr RE-164 0.G. Bldg Sampic Area O.G.123' (ARM) 2.0 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) .[45 mR/hr RE-165 Cond Demin Regen Area O.G. 67' (ARM) 9.2 mR/hr RE-212 HPCS Area East A.B. 70* (ARM) 35 mR/hr RE-166 Cond Demin Strnr. Area O.G. 95* (ARM) 0.3 28 mR/hr RE-213 RHR A Area West A.B. 70* (ARM) [45 mR/hr RE-167 0.G. Bldg. Valve Area O.G.137' (ARM) Recovery Sample Tank R.W. 65' (ARM) 0.4 mR/hr RE-214 RHR B Area East A.B. 70* (ARM) 35 mR/hr l L 182 0.2 mR/hr RE-215 RHR C Area A.B. 70* (ARM) M5 mR/hr R E-185 Storage Tank Area R.W. 90' (ARM) Floor Drain Sump Area R.W. 65' (ARM) 0.5 mR/br RE-216 LPCS Ares West A.B. 70* (ARM) 35 mR/hr RE-186 0.3 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARR') J5D mR/hr RE-187 high Cond. Sump Area R.W. 65* (ARM) RE-218 LPCS Penetration Area West A.B. 70' (ARM) i80 mR/hr RE-192 Refuel Floor South F.B.113' (ARM) [BD mR/hr
,Id5 mR/hr RE-219 RCIC Area West A.B. 70* (ARM) [4s mR/hr RE-193 Refuel Floor North F.B.113' (ARM) ,
i-Indicates Alarming OSH -Indicates Offscale High . All other ARMS tre "as sad"
o 1991 PRACTICE EXERCISE Clock Time = _1215 Mess:rge Number: 18 Sceario Time = 04/15 RIVER BEND Sl AT10N PROCESS MONITORS ID_ NUMBER LOCATION (TYPE)., READING ID NUMBER LOCATION (TYPE) READING R E-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 #Ci/sec RE-111P Cont. Atmosphere (PART) .1.7E+0i Ci/cc RE-5B Fuel Bldg. Vent Exh. (Wi'GM) 1.3E+00 pCi/sec RE-111G Cont. Atmosphere (GAS) 2. lei 65 sci /cc RE-6A Radwaste Bldg. Vent Exh. {WRGM) 5.7E-01 >Cl/sec RE-112P Drywell Atmosphere (PART) 6.7E-07 aci/cc RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 sCl!- ec RE-112G Drywell Atmosphers (GAS) 3.3E-05 sci /cc 1 GE-125 Main Plant Exh. Fuct (WRGM) 53E-0j pCi/cc RE-103 GGTS Effluent (GAS) 50E-02 sci /cc 2GE-125 Main Plant Exh. Duct (WRGM) 53E[6] sci /cc RE-116 Conta'n: cent Purge (GAS) 3.0E-06 sci /cc 3GE-125 Main Plant Exh. Duct (WRGM) EM5M pCi/cc RE-11 A Annulus Exhaast (GAS) 23ENio sci /cc 4GE-125 Main Plant Exh. Duct (WRGM) 33E}0I aCI/sec RE-11B Annutus Exhaust (GAS) 2.2E+00 SCI /cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 aCI/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 aCi/cc RE-118P Turbine Bldg. Vent (PART) 3.0E-11 SCl/cc Off Gas Pre teatment Monitor 0 mR/hr RE-118G Turbine Bidg. Vent (GAS) 1.0E-10 s.CI/cc Off Gas Post-treatinent *Aonitor 0 cpm RE-124P C.D./O.G. Bldg. Vent (PART) 2.0E-10 aCi/cc Main Qsam Line Radiation Monitor 1000 mR/hr RE-124G C.DJO.G. Bldg. Vent (GAS) 2.0E-08 pCI/cc Win Spam L:ne Radiation Monitor 1000 mR/h RE-126P Main Plant Exh. Duct (PART) 15 d pCi/cc Main Stsam Une Radiation Monitor 1000 mR/hr RE-126G Main Plant Exh. Duct (GAS) 53 ${ pCI/cc Main Stram Line Raolation Monitor 1000 mR/hr j u :-Indicates Alarming , OSH - Indicates Offscale High l All other Process Mon: tors are "as read' l i l I _--_ ___ _ _ _ _ __ ]
. %SM
+.
1991 PRACTICE EXERCISE' Clock Time = 1220_ Message Number = 18.1 Scenario Time = 04/20 RfYG BEND STATION EMEEGENCY PREPAREDNESS EXERCISE MESSAGE
*** THIS IS A DRN1 ***
Message To: Control Room Anne ociators in Control Room inch.de: Infe_s in Control Room include: DIV I ANNULUS EXH RADN ALARM - P863-71 A/C07 As shown on attached DRMS data sheets. DIV 11 ANNULUS EXH RADN ALARM -P863-71A/GO7 e e
1991 PRACTICE EXERCISE Clock Time = 1220' Message Number = 18.1 Scenario Time = 04/20 RfVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORMATION
*** THIS IS A DRILL ***
Controller Information: Emocted Actions-Radiation monitors 1RMS*RE11A/B have increased to the Alert Trend annulus exhaust radiation ievels, and continue to monitor setpoint due to leakage past the containment electrical penetrations containment radiation levels. into the anl ulus area. Continue to follow the steps of EOP-1A, EOP-2, and EOP-3. Continue to monitor containment pressure and temperature. Review protective actions to ensure that previout'y recommended actions are conservative. l j G
- --n- - -
i e i 9
- 1991 PRACTICE EXERCISE Clock Time - 1220 I
! - Message Number . 18.I' Scenario Time - 04/20 , j RIVER BEND STATlON EMERGENCY PREPAREDMESS EXERCISE { CONTROL ROO3 DATA. t i PANEL 601/877 PANEL 601 PANEL'680 Status Press Flow SRV . RED CRN AC.MN ' POWER 14% APRM LEVEL -159" RHR A SPC 5200 F041A OFF ON OFF l RHR 8 SPC' _ S 20 F041B ON OFF ON CNS PIA A EWS PV OP RHR C SS 0 F041C ON OFF ON CNS PIB SS FWS 2. # F041D ON OFF ON CNS PIC SS FWS Pl# SS l LPCS SS 0 __ F041F _ON OFF ON 41C OFF ON OFF RCIC OOS Total Feedwater Flow 7.9 M1bs./hr 0' O_. F041L OFF ON OFF 5 IIPCS SS O T-F047A ON OFF ON F047B OFF CN OFF PANEL 808 CRD A OP 1900 ,/ 5 FG47C ON OFF ON CRD B AV O O F047D 'OFF ON OFF Press Temp level F047F OFF ON OFF gg 9 Soulb Press . Level pp21B OFF ON OFF CTMr 11.8 1D_. SLC A OOS O 1930 F051C OFF ON OFF SPR PL 206' 24*4" SIE B OFF 0 F051D ' OFF ON OFF Press Irvel Rance RPV 65 -159" FZR MSIV' ' RED CRN F022A OFF ON SWP P2A OP .SUP P2C OF F0228 OFF ON SWP P2B OP SVP P2D OF DIV I DIESEL SS DIV II DIESEL SS F022C OFF ON F022D OFF ON PANEL 863 DIV III DIESEL SS "F028A OFF ON OP=0PERATING SR=$TANDBY READY F028B OFF ON SGTS A OP SGTS B SS cas-ocr or sERvzcE - ssesEcuarD STATUS F028C OFF ON D/W COOIERS OPERATING ISOL M=AVAILA.BLE ISOL-ISOLATED FT)28D OFF ON CIMT COOLERS OPERATING A 4 3 .
.. )
j l, ;, RPU ALARii nC RITICAL PLANT VA RI ABL ES RCNTMT ALARM ] CONillilNENT [ RPU E DG ENOT OPERE l [ I ( DE5Idll 14.7) , ( SRU LIFT 1103D PRESE I, @ PSIG b PRESSI 65 E PSIG U l OP P l g.g p l S 4 OP_ER HI 1 68 ) ( 100% BPU 1025) ] PRESS , PSIG ?I ? ;) (1 OPF[HI 90 ) 4 TRIP HI 52 ) T E M ? [ [/ M F LEVEL E-/5 ?E IN l ISOL l 4 OPER HI 1355 (SCRAM LO ' 9D TEMPI 217l F P0ldER R I+ 1% (OPERHI'20-Ok LUL[21{ FT@IN \ A_- \ A.>M UV 4 OPE.{((0j19-6) CPAM 4 0PER HIl 95 D l TEMPI 206E *F SUP3REESIGH SUPPRESSION POOL _ POOL RIVER BEND 8 0 0
-JAN-1991 12:10
1 . ALARM l 0 :.3 RPV CCNTROL--WR/PWR lCHTMT E -/01 IN >TAF EN g _f 773 Ig CilDS/FW lO{f ph$S hA PV"P pUH l RPU POWER PUMP TRIP HIl 52 1 l WATER CRD
- iAVAIL PRESS AVAIL RUN 0- N i l UATER RPU POWER l HOTPERl NSCRilMLO- 95 :
RCIC AVAIL PRESS HA PUMP 0FF l -120- ! l WAT$R RPU POWER PUMP E - -4 TAF l-1625 HPCc: AVAIL PRESS AVAJL OFF l -180_ g . . . . . .j . 0 LPCS lO[ff plP {g(( PDFFMP l g RPV PRESS I JIPSIG l WATER RPU POWER PUMP l OPEH 1200 , POOL LD l1309 5 LPCI
; AVA_IL PR HI_ AVAIL RUN 800-g 4 HEAT CAPl1778B i
SHTDil C00LIl1G
, CLG RPU 1 AVAIL PR HI AURIL POWER PUMP RUN lsnur 400- SRU LIFT 11031 COOLING POWER ( 100% BPU 1025!
RUCU i H_0_T AVAIL AVAll PUMP 0FF El iROUP ISOL 0
- O '(iilid ' O Cbt1 R AhAL AVAkLROA SHUT l RX POWER I sfl% (RESCALE) ;
1URBINE CLG UAC H.PWR VALUE BYPAES ' AVAIL AVAIL AVAIL JnuTg 80-DRAIhS AbOL E 'HA U N 40-LIQUID POWER N SLC k AVAILABLE NA PUMP 0FF l ,M . 0 10 (MIN) 0 RIVER BEND 8 8 4 30-JAH-1991 12:20 4
O'2 7 i~RPV_ Ai_ ARM __] {][. T AIM 1 iT C0f1 TROL ---Il'ET/t< R POOL LEVEL 24 FT IN (RESCALE) 20-
~~
b0 v - Cif0LIIG AU A E lNo[TER ~ l FAN I 19-DRYWELL COOLING POWER OFF I OPER LO !19- 61 C00LIl1G _NOT AVAIL AVAIL SRU g - OPENE HEAT CAP 19- 61 CNTMT IC00 LING POWER FAN l C0 CLING __ AVAIL _ AVAIL Dd E 18 10 GiiiD 8
- PRESS I URLUE POWER AVAIL FAN l OFF E l GRg CNTMT PRESS I //.8B PSIG CONTROL f _ SHUT POWER FAN MAXIllOM 54.91 URLUE SCRAM SBG7 L,INE-UP BUAIL RUN l NONE 16-N I~
' DESIGN 13.95 g_
~
PR SUPPRI 8.8 5
~
i
-10 (MIN) 0 Dki TEMP F P0OL TEMP R 206 l #F
( f:11TMT TEMP l 185j #F ~ 10 - RPU SAT 4595 - N HEAT CAP l1681
- 1RPV SAT 459l _
275- 135-155- \4 DESIGN 185 l DESIGN 3301 SCRM TEMP l1101
~
200- 120-120- ~ OPER HI 1355 .A OPER HI l 95 5 4 0PER HI 90 l ~
. ~
-10 '(MIN) 0 -10 '(MIN) 0
-10 (11IN) 0 RIVER , BEND 4 8 8 30-JAN-1991 11_'1.0 l
)l 0 0 3
3 / 2 4 1 0
==
ee i mm i T T k o i c r oa Cenc l S . E S I C R . E X E E C I T
- NC **
OA I TR 1 AP E H R T SS SG D DE A A NN ED S S S E I BER M S I 3A t P H T V E I
- RR
- P Y
C N E G R E M E E m S o I o C91 R R l E o X = t r t e E r n a e o d E b C p C I m : U T u o s CN A T t u Reg e g t a P as a S 1 s t 9 s s n _ 9 e e l a _ 1 M M P Il l t lll , tIl i1\lllll
Clock Time = 1230 1991 PRACTICE EXERCISE Scenario Time = 04/30 Message Numbe. *J_ RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORMATION
*** THIS IS A DRII 1. ***
Expected Actions-Controffer information: The radioactive release to the environment continues via the Standby Compare results of computer dose projections and field team Gas Treatment System. readings. I With reactor presnure below 50 psig all SRV's close. Continue to maintain reactor level between -100" and -193". Continue efforts to restore SLC pump 'B'. Dose projectiors based on the effluent monitors and actual meteoro-logical data indicate that the protective action recommendations based on containment conditions are conservative. e
T 1991 PRACTICE EXERCISE Clock Time - 1230 Message Number - 19 . Scenario Time - 04/30 RIVER BEND STATION EMEkOENCY PREPAREDNESS EXERCISE CONTROL ROOM DATA PANEL 601/877 PANEL 601 PANEL 680 Status Press Flow SRV RED CRN AC.MN RIIR A POWER 11% APRM LEVEL -109" SPC 5200 F041A OFF ON OFF RIIR B SPC 5200 F041B OFF ON OFF CNS PIA OP WSPIA OP RilR C S S_ 0 F041C OFF ON OFF CNS PIB SS FVS PIB SS N 1D OF ON OFF CNS Plc SS WSPIC SS LPCS SS O F041F OFF, ON _ __ OFF o OF RCIC OOS O O Total Feedwater Flow 7.9 M1bs./hr F041L OFF ON OFF IIPCS SS O O po473 opp og _ ppg _ F047B OFF ON OFF PANEL 808 CRD A _OP 1900 75 F047C OFF ON OFF CRD B AV O O F047D OFF ON OFF , Press Temp Imvel F047F _.0FF ON OFF Soulb Press level DRYWELL 4.9 297' FUSIB OFF ON OFF 174, CntT 8.3 SLC A OOS 0 1930 F051C OFF ON OFF SIE B OFF 0 SPR PL 205' 24'4" F051D OFF ON OFF PANEL 870/601 Press Im1 hm RPV 34 -109" FZR MSIV RED CRN F022A OFF ON SWP P2A OP SWP P2C OP F022B OFF ON SWP P2B OP SWP P2D OP DIV I DIESEL SS DIV II DIESEL SS F022C OFF ON F022D OFF_ ON PANEL 863 DIV III DIESEL SS F028A OFF ON OP=0PERATING SR= STANDBY REA0Y F028B OFF ON SGTS A OP SGTS B SS oos.our or SERVICE SS-SECtW D STATUS F028C OFF ON D/W COOLERS OPFRATING ISOL F028D OFF ON CIMT COOLERS OPERATING A J
- 0:. l i: RPU _ ALARM s CRIT" CAL PLANT VARIAB_ES [CHTNT ALARM E COHilIHNENT I DG I l RPU BHOT OPERI ;
l- l
~
( DES 3ijl 14.5) DR'/WELL
~
0 PRESSI 3+E PSIG 0 SRV MSIU PRESS [_F_] PSIG l Shur _ SHUT (__0PER HI 1. 68 g ( 100% BPU 1025) ] PRESSf f.9 5PSIG ?I YC 4 OPEdW90h ~ ( TRIP HI 52 D TEMP l,_5 F __ LEVEL I- 1o95 IN l IN0L ( 0PER HIi 135& 4 SCRAM LO 9D TEMPI 297l F POWERE 11 E % (OPERH,I20-0) LUL[21lFT + IN L(_) (_A>hWV
~
4OPER((. [ 39 _6 } SC AM g ;4 OPER HI 95 D TEMP R 2eSE *F SUP9RESSIGH SUPPRESSION POOL __ POOL
~
RIVER BEND C 0 0 30-JAN-1991 12:3 0 4
-' s - - _ _ - - _ - _ -
ECHTMT HLARM l 013 RPV CONTROL--WR/PWR E 53 ]IH >TAF j #N g_fo9 g Ig Cl4DS/FU !lh[ ph$3 l0l(( PVMPl pgH 60 TRIP HIl 52l POWER PUMP E 0-CRD l WATER RPU AVAIL RUN g iAVAIL PRESS SCRAM LO 95 WATER RPU POWER HOT PER RCIC AVAIL PRESS NA PUMP 0FF l -120-TAF l-1625 WATER RPU POWER PUMP E HPCc' AVAIL PRESS AVAIL OFF g -180 10 (MILD 0 P P RPU PRESS I J+E PSIG LPCS $$ff phP HI Ag { 0 gp 12M nT 'N POOL LD (1309 5 WATER RPU POWER PUMP l LPCI AVAI_L PR HI AVAIL RUN ' 800- HEAT CAP 17785 g,g SHTDH C00Lll1G CLG RPV POWER PUMP l AVAIL PR HI AVAIL RUN E lSnur 400- 4SRU LIFT'W P gp p RWCU ghy0ggpl BOA Pgpg 0 .........
-10 (MIlO O RX POWER I Il ]*/. (RESCALE)
C Ri] AhAL AUA L A09 S UT TURBINE l' CLG VAC H.PWR VALUEl BYPAES AVAIL AVAIL AVAIL JnuT E 80-DPA NS AhA BE ifA R gg l h01 40-SLC LIE pupil BLE NA ON E 00
-1 (MIlO 0 RIVER BEND 8 8 s So-JAN-1991 12 30
1 0 27 li RPV AI_ ARM ] CONTF" s 'ET CO 1TRO _--UPSETMR , POOL LEVEL 2+ FT @ IN (RESCALE) C00LI4G A Of NE D P0OL LD l37- 3 5 DRYWELL COOLING POWER FAN 1 19-
~
AVAIL O jFF 19- 6l ' COOLING HOT AVAIL SRV OPER LO
~
FAN l HEAT CAP!19- 61 l CNTMT COOLING POWER COOLIllG __ HVAIL AVAIL &$1 3 18 . ;
-10 (MIN)... ,0
. GROUP PRES 3 VALVE POWERI FAN E ISLN AVAILI0FFj I
CONTROL SHUT CNTNT PRESS I E.3 lPSIG SBGT M MAXIi10Ml54.95 Li -P l };CO IE -
~N DESIGN 13.9l 8-4-
~'
PR SUPPR 8. 8 ]
-i0 (MIN) 8 i:NTMT TENP l_I7fj F DW TEMP 12 Tf] F POOL TEMP [205] #F
~
~ '
I RPU SAT 4591 HEAT CAPl168]
.(MV_ SAT459 l 155- 135-
\4 DESIGN l185l275- DESIGN 1330l SCRM TEMPl110l 120- 200- 120-
_ _4 0PER HI- 90 l -4 0PER HIl135 5 A OPER HI l 95l
-10 (NIN) 0 -18('NI'N')8 -18('NI'N')8 RIVER BEND 8 8 8 30-JAN-1991 12. 30
1991 PRACTICE EXERCISE Clock Time = 1230 Message Number: 19 ScenarioTime = 04/30 RIVER BEND STATION DRMS MONITORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING R E-16A.B Ctmt. PAM R.B.186* (DHRRM) 3,9E3 R/hr RE-194 Supt. Hm. Trans. Tube F.B.123' (ARM) 1_50 mR/hr R E-20A,8 Drywell PAM D.W.114' (DHRRM) 52 R/hr RE-195 Sample Sink Area F.B. 95' (ARM) js mR/hr
~
R E-21 A,8 Ctmt. Purge isol. R.B.141' (ARM) l3.9ES mR/hr RE-196 Equip. Drain Sump F.B. 70' (ARM) 35d mR/hr RE-139 Annul. Near Trans. Tube 114' (ARM) OM mR/hr RE-200 North Holst Area T.B.123' (ARM) [is mR/hr RE-141 ilefuel. Floor South R.B.186' (ARM) DSH mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-146 Containment Airlock F.B.114' (ARM) DSS mR/hr RE-202 Rx Feedwater Pump Area T.B. 67* (ARM) 1.5 mR/hr R E-151 Sample Station Area R.B.162' (ARM) USN mR/hr RE-203 Turb. Bldg. Sample Rm. T.B. 67' (ARM) 0.1 mR/hr RE-162 O.G. B!dg. Regen. Area O.G. 67' (ARM) 0.4 mR/hr RE-204 Cond. Demin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr R E-164 0.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-210 PASS Panet A.B.114* (ARM) 150 mR/hr RE-165 Cond Demin Regen Area O.G. 67' (ARM) 9.2 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) I46 mR/hr R E-166 Cond De nin Strnr. Area O.G. 95' (ARM) 0.3 mR/hr R E-212 HPCS Area East A.B. 70* (ARM) 3d mR/hr RE-167 0.G. B!dg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RHR A Area West A.B. 70' (ARM) [4d mR/t'r RE-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr RE-214 RHR B Area East A.B. 70' (ARM) 36 mR/hr R E-185 Storage Tank Area R.W. 90* (ARM) 0.2 mR/hr RE-215 RHR C Area A.B. 70' (ARM) [40 mR/hr R E-186 Floor Drain Sump Area R.W. 65' (ARM) 0.5 mR/hr RE-216 LPCS Ares West A.B. 70' (ARM) [4d mR/hr RE-187 High Cond. Sump Area R.W. 65' (ARM) 0.3 mR/hr RE-217 HPCS Penetratio'1 Area East A.B. 70* (ARM) 150 mR/hr RE-192 Refuel Floor South F.B.113' (ARM) jsd . mR/hr RE-218 LPCS Penetration Area West A.B. 70* (ARM) ISU mR/hr RE-193 Refuel Floor North F.B.113' (ARM) [$5 mR/hr RE-219 RCIC Area West A.B. 70* (ARM)
@0 mR/hr
- -Indicates Alarming OSH -Indicates Offscale High All other ARMS an s "as read"
1991 PRACTICE EXERCISE Clock Time = J230 Message Number: 19 Scenario Time = 04/30 RIV'ER BEND STATION PROCESS MONfTORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING RE-SA Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 aCl/sec RE-111P Cont. Atmosphere (PART) 1.6Et01 aCI/cc RE-58 Fuel Bldg. Vent Exb. (WRGM) 1.3E+00 aC1/sec RE-111G Cont. Almosphere (GAS) f8E+62 ,C1/cc RE-6A Ra/ waste Bldg. Vent Exh. (WRGM) 5.7E-01 aCI/sec RE-112P Drywell Atmosphere (PART) 6.7E-07 pCi/cc RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 sCl/sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 pCi/cc 1GE-125 Main Plant Exh. Duct (WRGM) $7f@i sCl/cc RE-103 SGTS Effluent (GAS) 4.2E-02 ,Ci/cc 2GE-125 Main Plant Exh. Duct (WRGM) QEdi aCI/cc RE-116 Containment Purge (GAS) 3.0E-06 aCi/cc 3GE-125 Main Plant Er.h. Duct (WRGM) 717 5 % i aCI/cc RE-11 A Annulus Exhaust (GAS) i.8E+00 ,Ci/cc 4GE-125 Main Plant Exh. Duct (WRGM) 5.5ET66 aCI/see RE-110 Annulus Exhaust (GAS) 1.CE+0 ,Ci/cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 pCl/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 SCI /cc R E-118P Turbine Bldg. Vent (PART) 3.0E-11 pCl/cc Off Gas Pre-treatment Monitor O mR/hr RE-118G Turbine Bldg. Vent (GAS) 1.0E-10 aCl/cc Off Gas Post 4reattnent Monitor 0 cpm RE-124P C.D./O.G. Bldg. Vent (PART) 2.0E-10 aCl/cc Main Steam Una Radiation Monitor 1000 mR/hr RE-124G C.DJO.G. Bldg. Vent (GAS) 2.0E-08 aCi/cc Main Steam Uns Padiation Monitor 1000 mR/hr R E-126P Main Plant Exh. Duct (PART) %s$-03 aCi/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-126G Main Plant Exh. Duct (GAS) %7E%i pCl/cc Main Stears Une Radiation Monitor 1000 mR/hr
' -Indicates Alarming .
OSH -Indicates Offscale High All other Process Monitors are "as read
- __ .m 4
I 1991 PRACTICE EXERCISE Clock T'wne =L 1233 Message Number = 19.1 x_ __ Scenario Time = 04/35 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE .i
*** THIS IS A DRit1 ***
Message To: Emergency Director A GENERAL EMERGENCY should be declared in accordance with EIP-2-001," Classification of Emergencies", GE EAL 2, initiating Condition 5.*Other ' Indications of Loss of Two of the Following With Potential Loss of the Third: Fuel Cladding. RCS Pressure Boundary, Containment Integrity". Y l 2 6 'l f k a
e Clock Time =. 1235 1991 PRACTICE EXERCISE Scenario Time = 04/35 Message Number = 19.1 x . RfvER BEND STATION EMERGENCY PREPAREDNESS PRAC11CE EXERCISE CONTROUER INFORt4ATMN4
*** THIS IS A DRiti "*
Emocted Actions: _ Controller information: Emergency Director declares a GENERAL EMERGENCY. Deliver this message only if a GENERM. EMERGENCY has not been I declared, and the Emergency Director has not recognized that events have occurred which require the declaration of a GENERAL ) EMERGENCY, and no actions are being taken which would result in the declaration of a GENERAL EMERGENCY.
'l
.,.............._.j
4 C% Twne ' = 1245 1991 PRACTICE EXERCISE Scenario Tune = 04/45 Message Number = 20 RIVER BEND STATION ERAERGENCY PREPAREDNESS PRACTICE EXERCISE RAESSAGE
*** THIS IS A DRILL ***
Message To: Control Room Plant Status Update e e i ,. . _ ,..n- . -- - J - . - --r- m1td
, 2
. . r-
e. 1991 PRACTICE EXERCISE Clock Time = 1245 Message Number = 20 Scenario Time = ' 04/45 RIVER BEND STATIOd EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORMATION
*** THIS IS A DRILL ***
Controller Information: Expected Actions: Continue to maintain reactor level between -100* and -193*. Reactor power is about 5%, and reactor pressure is approximately 11 psig. Monitor containment radiation levels. Continue to monitor the release and track the plume. Continue efforts to restore SLC pump *B'. [ m
= _ . __ - . .-. - . . .
W E. n 0 5 m a m $ h m m $ < 2
)
O s o " "
- fl 3 N c
~
< sQ U ,, U Q l l W m - 6 N N C o a %%% w o
w %% m II " e @ $ bbk $ N $ w-HH a
- n W 3 o
o m o O bN - N s s
'li h weNN a e a m AO Y k U a "
v- 4 a CW r W w
~ $ A A "p
a M W M
~ " Q QO 4 % ~ m m m m ~
g , O m m .g g e e O O O NN m . dd 0
$"2 mm~ -
d e a m ME mm <$$ mm m 3 cu
- 555 e e
Q 6 m uk u em C n W
" y i U L W W h O O O O O O O O O O O O O O
- O O O gd g Cn8w -
g4
- O h. y g 7 7 h h* m O O O O O g g g 7 g g g 7 g g g 7 O O O O O O O O O O O O U 7
O g g O O y g g g g O O O O O 80
%a d
2 WO <
$ $ A 4 A $
gh W 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 N O C O O O O O O 5 O E ed EQ U Q 4 0 a < SQ U C b 80 V Q Q < EQ U Q < CQ U C
> $ h $NN N $$$$ N NN NNNNN ME$E$$$EEEEEEEEEE EEEEEEEEE O O & O C 3 O O @ m C N O N N O O O O m O > m C N p 9 e n, 6 cy - c A qb N
gUg N N m C e -
$$d NO
-N
$ w: 0 0 2 0 0 0 0 #
q m e m m m m
- =7 u ,O m 3
. - . a a d.
a d.W - w = aaa w< k m D
- O u m m m m m >
a
- m a m
r - WWW
" " o < gm$g e Sa S h m
h 8 8 8 8 E
~
y *d L1 A Q Q C g
$c m r.o -
W"M
- - r.
5 t =5
-M m < sQ U to U to
< cc < so w - -
b
@M S $
$M $ U = U C C t.] t.} > > > > 4
$$ E5E D E5 56 EG $ 5EE f
8$$ l
ALARM I ~B :. :. F RPY ALARM lC RI~ICF L PLANT VARI ABLES ECHTMT CONTlIllMENT
/
[ RPU
. E DG INOT OPERE l
I ( DESliIl~f4. 5} DR'/WELL 4SRU LIFT 1103 D 0 PRESSI IIEPSIG 0 SRU MSIU Shur Shur FRESEf [. =d PSIG
)
[0PER HI 1. 6S p ( 100% BPU 1025 ) PRESSI f,7 E PSIG ?4 t 4) ( OP($I~90) 4 TRIP HIi- 52 D TEN?l]5))*F _ LEVEL I-/86 I IN l GYOU I l 4 OPER HIl 135D 4 SCRAM LO 9D TEMP I 2 F7l 'F 4 POWERE 51% -
~ " "" "'
(OPER_@_Jgj) d IN LA_/ LA/h_.A_/V LUL[1][FTl~ (OPE {i.,3,f_[(6') I 4 OPER HI 95 ) CRAy1 g TEMPR 2 ell'F SUPPRESSION SUP3RESSION __ POOL PCOL RIVER BEND 8 8 8 30-JAN-1991 12:+5 4
-)
ICNTMT ALARM I 013 RPV CONTROL--WR/PWR I -2.+5 IN >TAF N 3-/86IIN Cf1DS/FU ff ph$g (OA{ PVHP PUN l TRIP HIl 525
; WATERi RPU POWER PUMPE 0-CRD i AVAIL PRESS AVAIL RUN I SCRAM LO' 95 WATER RPU POWER NOT PER RCIC AVAIL PRESS HR PUMP OFF l -120-WATER RPU POWER PUJP E \
-180_g.....g.. 0
-( TAF -1621 HPCc- AVAIL PRESS AVAIL OFF I )
RPU PRESS E If IPSIG LPCE lkffphP HI OA P0FgP l g N Sn T N POOL LD 11309l WATER RPU POWER PUMP LPCI 800- 1778l JUAIL PR HI AVAIL RUN g HEAT CAP SHTDN COOLING CLG RPU POWER AURIL PR HI AURIL PUMP l RUN 3 lsnur 400- SRU LIFTil1031 l RUCL ghg0nUnjL 0A OFF l $ f) [ l 0 .........
-10' (MItD 0 RX POWER I Sl% (RESCALE)
CHR l AhAL AAL AOA SHUT TURBINE CLG VAC H.PWR VALUE BYPRES AVAIL AVAIL AVAIL JnuT) 80-N 0 AINS l AVAfbAkE 'NA U 40-LIQUID POWER PUMP l SLC AVAIL RUd E 0 L AVAI_ABLE _ g . .g. ' 0 RIVER BEND 8 8 8 30-JAN-1991 12:4_5 l
0~2 7 E 3p ALARM 3 C0F TFI 41ENT C0iTROL--U 3S ET/1R , P0OL LEVEL 2+ FT + IN (RESCALE) 20-P0OL LD l37- 31 CiOLIIG AU L E O lsbt kiRl - 4 20 H DRYWELL COOLING POWER FAN 19-C00LIl4G HOT AVAIL AVAIL OFF l' SRU OPER LO 19- 65
* ~
19- 65 CNTMT 7 00 LING POWER FAN l HEAT, CAP C00LIl16 AVAIL AVAIL EM E 18- l
-10 M 0 PRESS VALUE POWER FAN I l GRy{ g CONTROL ___S_ HUT AVAIL O JFF CNTNT PRESS I +.2.IPSIG h2hp M MAXInUM 54.9l i SBGi Ogy[ @ g CgAM g _
I . DESIGN l13.9 l 8 4 PR SUPPR ! 8.81 04
-10 (NIH) 0
- CNTMT TEMP 1157 ] F DW TEMP Izs7 I'F POOL TEMP l_201 1 F 0 HEAT CAPl1685
'4 RPV SAT 459 l RPU SAT 4595 ~ , 155- 135-DESIGN 185 l 275- DESIGN l330l SCRM TEMPil101
!120- 200- 120- ! -4 0PER HI 90 l OPER HIl1355 ~ OPER HI l 951
~
-l$'EIN) 0 -10 (MIH) 0 -18 (MIH) 8 RIVER BEND 8 8 8 30-JAN-1991 12M5 i
i
l _l i (- 1991 PRACTICE EXERLSE Cfock Time '= 1245' - ! Message Number: 20 Scenario Time = 04/45 ; RfVER BEND STATION DRMS MONITORS l ID NUMBER LOCATION (TYPE) ' READING - ID NUMBER LOCATION (TYPE) READING ; 1 R E-16A,8 Ctmt. PAM R.B.186' (DHRRM) 3 M R/hr RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) y25 mR/hr [ R E-20A,B Drywell PAM D.W.114' (DHRRM) 44 R/hr RE-195 Sample Sink Area FA. 95' (ARM) jM mR/hr I
~
l RE-21 A,B Ctmt. Purge Isol. R.B.141' (ARM) . [M mR/hr RE-196 Equip. Drain Sump FE. 70' (ARM) 3M mR/hrL j ! RE-139 Annul. Near Trans. Tube 114' (ARM) dbl mR/hr RE-200 North Holst Area T.B.123' (ARM) Hii mR/hr 'f RE-141 Refuel. Floor E uth R.B.186' (ARM) dWl mR/hr RE-201 Cond. Air Removal Pmp. Area TE. 95' (ARM) . 0.2 mR/hr i RE-146 Ccatainment Airlock F.B.114' (ARM) M mR/hr RE-202 Rx Feedwater Pump Area T.B. 67' (ARM) 1.5 mR/hr ! RE-151 Sample Station Area R.B.162' (ARM) @ mR/hr RE-203 Turb. Bldg. Sample Rm. T.B. 67' (AR*4) 0.1 mR/hr I RE-162 0.G. Bldg. Regen. Area O.G. 67' (ARM) 0.4 mR/hr RE-204 Cond. Domin. Sample Rock T.B. 95* (ARM) 0.1 mR/hr . l 4 RE-164 O.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-210 PASS Panel AE.114'(ARM) j28 mR/hr RE-165 Cond Domin' Regen Area O.G. 67' (ARM) 9.2 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) [35 mR/hr ! RE-166 Cond Domin Strnr. Area O.G. 95* (ARM) 0 "? mR/hr RE-212 HPCS Area East A.B. 70' (ARM)
% mR/hr RE-167 O.G. Bldg.. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RHR A Area West A.B. 70* (ARM) [5d mR/hr !
RE-182 Recovery Sample Tank R.W. 65' (ARM) 0.4 mR/hr RE-214 RHR B Area East'A.B. 70' (ARM) [3d mR/hr l RE-185 Storage Tank Area R.W. 90' (ARM) 0.2 mR/hr RE-215 HHR C Area A.B. 70'(ARM) [55 mR/hr - - i RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr ' RE-216 LPCS Area West A.B. 70' (ARM) [3d mR/hr .{ i RE-187 High Cond. Sump Area R.W. 65' (ARM) 0.3 mR/hr RE-217 . HPCS Penetration Area East A.B. 70' (ARM) fis mR/hr R E-192 Refuel Floor South F.B.113* (ARM) [2$ mR/hr RE-218 LPCS Penetration Area West AB. 70' (ARM) j28 mR/hr RE-193 Refuel Floor North F.B.113' (ARM) [5 mR/hr RE-219 - RCIC Area West A.B. 70* (ARM) ' . [55 mR/hr - j .6 d-Indicates Alarming j I OSH -Indicates Offscale High 4 ' All other ARMS are *as read" i 4
1991 PRACTICE EXERCISE Clock Time = 1245 Message Number: 20 Scenario Time = 04/45 RIVER BEND STATION PROCESS MONITORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING RE-SA Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 aCI/sec RE-111P Cont. Atmosphere (PART) $3E31 ,Ci/ec RE-5B Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 aCI/sec RE-111G Cont. Atmosphere (GAS) K5E4s ,Ci/cc RE-6A Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 aCI/sec RE-112P Drywell Atrnosphere (PART) 6.7E-07 aCl/cc RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 ,C1/sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 ,CI/cc 1GE-125 Main Plant Exin Duct (WRGM) MsM aCI/cc RE-103 SGTS Effluent (GAS) QEM sci /cc 2GE-125 Main Plant Exh. Duct (WRGM) M@{ aci/cc RE-116 Containment Purge (GAS) 3.0E-06 ,C1/cc M5M [.58M ,CI/cc 3GE-125 Main Plant Exh. Duct (WRGM) aCl/cc RE-11 A Annulus Exhaust (GAS) 4GE-125 Main Plant Exh. Duct (WRGM) fil@b8 ,CI/sec RE-11B Annulus Exhaust (GAS) 7.5Eh)0 ,C1/cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 ,CI/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 aCI/cc RE-110P Turbine Bldg. Vent (PART) 3.0E-11 ,CI/cc Off Gas Pre-treatment Monitor 0 rnR/hr i RE-118G Turbine Bldg. Vent (GAS) 1.0E-10 aCl/cc Off Gas Post-treatinent Monttor o cg:m RE-124P C.D./O.G. Bldg. Vent (PART) 2.0E-10 aClice Main Steam Une Radiation Monitor 1000 m3/hr RE-124G C.D./O.G. Bldg. Vent (GAS) 2.0E-08 ,CI/cc Main Steam Une Radiation Monitor 1000 mR/hr J RE-126P Main Plant Exh. Duct (PART) ME@i5 pCI/cc Main Steam Une Radiation Monitor 1000 n,R/hr i RE-126G Main Plant Exh. Duct (GAS) 3~4$M ,Ci/cc Main Steam Une Radiation Monitor 1000 mR/hr
~ 'l-Indicates Alarming OSH -Indicates Offscale High All other Process Monitors are *as read" t
n
i 1991 PRACTICE EXERCISE Clock Time .=. - 1250 Message Number = 20.1 x Scenario Thne = =04/50 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE
*** THIS IS A DRKL ***
Message To: Control Room Annuncistors in Cor' trol Room includej indicalfons ire Control Roorn Iriclude: SLC pump 'B' control switch in RUN; red light lit. SLC squib valve C41-F001B white continuity light out. SLC suction valve C41-F0018 red light lit. 9 I e e a - -_ _ _ _ _ - _ _ .__T -
.s 1991 PRACTICE EXERCISE Clock Time = -1250 Message Number = 20.1 x Scenario Time = 04/50 RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER INFORMATION
*** THIS IS A DRit.L ***
Controller Information: Eeected Actions; SLC pump *B* has been restored, and is now pumping the Boron Monitor SLC tank level to determine the amount of Boron being solution into the reactor vessel. When the minimum amount of Boron injected into the reactor vesset. has been injected (78 lbs.), reactor level will begin to be raised. See Supplemental Scenario No. 5. Deliver this message when SLC pump *B* is restored. e 9
'--m_.. _- m. 3
e [ 1991 PRACDCE EXERCISE ClockTkne ' = 1300 Messt ge Number = 21 Scenerlo Time .= 05/00 RfvER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE
*** THIS IS A DREL ***
' Message To: Control Room Plant Status Update -
4 ?
( i 1991 PHACTICE EXERCISE Clock Time =: 1300. Message Number = 21 Scenario Time = . 05/00 , RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE i CONTROLLER INFORMATION , i
" THIS IS A drill" ControIIer Information: Expected Actions:
SLC continues to inject Boron into the vessel. Continue to monitor the release and track the plume. Containment pressure and temperature are decreasing slowly. Continue to maintain reactor level between -100* and -193*. Reactor power is 0%, with reactor pressure approximately 2 psig. Continue to monitor SLC tank level to determine the amount of Boron -i The radioactive release through SBGT continues. Injection. t ._ _ _ . _ . . _ . . _.
! i ,
r h
/.s l "
0 " b e 4 L O 0 6 P S S l v
- S O A
/ 5 O S S M 4 M e S S
- W0 5 1 l 2 I AB C I I I
- 1 C L 0 2 B 0 P P P 8 P e E p 6 3 mm 8 6 V S S S 0 8 m 3 '8
- 7 /
0 6 S T G G N N ii TT L E I I WWW l w o L E T2 e 8 3 1 9 1 7 8 M 8 L E C S I I T T A ko N F N L R ci A N E or l a P M R rd e e A P s E N A P P O O N C n P t r s 3 7 A e A P S S ai e P P c P S s O S S v u r 4 2 O O R
% d q P E 0 e e eR L
OO N AB C F A OO R E W I I I P P P S S S l A t a s mL k Y P R 2 P A C C S T W O N N N o R P P C C C T
- D MS N G /
S D N E S N I C M. F F F F F F F F F F F F F F F F F R F F F F F F F F F F F F F F F E C O O O O O O O O O O O O O O O O A N X O EAT I T SD SA AE 1 T NM S DO 0 6 N_ R N N N N N N N N N N N N N N N N N R N N N N N N N G O O O O O O O O O O O O O O O O G O O O O O O O D EO N RR A L E E PL B EO N A R RR P E PT N D F F F F F F F F F F F F F F F F D F F F F F F F V CC I YO E F F F F F F F F F F F F F F F F R O O O O O O O O O O O O O O O E F R O F F F F F F O O O_ O O O R N O_ E C R E M AB C D F G L A B C D F B C D G 1 1 1 1 1 1 1 7 7 7 7 7 1 1 1 1 A 0 C D A B C D E V 2 2 2 8 8 8 8 V 4 4 4 4 4 4 4 4 4 4 4 4 5 5 5 5 I 2 2 2 2 2 2 2 2 R 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 S F F F F F F F F F F F F F F F F S 0 MF NF0 0F MF0 0F 0 0 l 0 e w0 0 e 9 c R o 2 2 0 0 O O 5 O v 4 n Z YU S l F 5 5 7 1
- 1 R
a F DT A A ETD R S t f 7 Y Et 3 D A. 7 O R o 8 s 0 s l NUs E / s 0 s 1 e 6" A C I S1 1 e O O 9 O e O 2 v 5 S S S T E $ t. I C
,,t 0
6 P r 1 P r I r 1 S S S S. R ss S sI
- o R
E L X - E E N s L L L r A u b s E E E E e P t C C S S S S P V i S F s S S S t Cb a P P S S O S O A u O F e 2 E E E c i I n t S S O q O O r I I I v Tu CN t S S P D D D n r A G N s t. t R e I I rs P g I I T A o a. t a A B C A B A B I I I R ! r 1 s S C S E ua P ov 9 s R R R C I C D D C L V V VI IV e s- 4 1 l l l 9 e l i l C P R R L I P I 1 M P ov R R R 1 R l l C C S S R D D D coa i 4
--a A
/ %
1 F z
- a m
~)b to ch a.
8 D
\
W J
;' gd 00 n' ng g _, -
H Q m1 00 g m I s 0 m " C2 G me.i'm- o-o 5* .L
- r ,
O~n N - w mm )i _a m mw m a 1 d O z H W co M C s'
">- a -
ee^ & a e H m
= G Q. g to m n ,iZi cn .v
=
in
===
A - - o _,
& 3 F--
M 3 o O (o C c,w d C. m (L Q. m I % J g Z o m$ o-1 J m,
*y a a E a
w n (O "
""> M CD N 3 %
N M Cp % O O Q W W
] (D g w (D Q. CL a w o. v v v v j O O Ae A H co G to tu
, e a m i
- W EMIN g.
H - M - ce m e m e O -i ,e m m w w w =g s. 2 a. .m . m W i
- m. em w' em /
Q. s ..m z +j j, g i = a e0+ tu wit ,e l 5 l H M l l l ! b gm z LLI l _,, t-y, n g._,3
%g My in g H i- -
QJ q l I 1* 'l k I I_ I i 5: t=tl i IZll'8 I ".1 Wo I i Fl5 lislL4 m - m Imt -- r=w 1;lisil m u s m I Rm. I a a. a. =, v'"-f b f-- O O (D v l g, -
- u. c' a v i ;
L )
'CNTMT ALARM E O' 3 RPV CONTROL--WR/PWR DPV LEVEL PV t-/5 iH ff p$g glly{
CllDS/FW pU 6 RPV POWER PUMP E 0-CRD l WATER - AVAIL _ PRESS AVAIL RUN I 1 SCRAM LO 95 I RPU POWER HOT PER WATER PUMP l RCIC , AVAIL PRESS NA 0FF s -120-WATER RPU POWER EW TAF l-1625 HPCe: AVAIL PRESS AVAIL PUMP OFF lE -180 g ...i)'/
}t O PUgP RPV PRESS E 2 PSIG phPHI Ag LPCS lh[ff Op g SdUT i POOL LD { 1309]
WATER RPU POWER PUMP l LPCI AVAIL PR HI AVAIL RUN ' 800' (HEAT CAPjl778E SHTDil C00LIl!G CLG RPV POWER PUMP l AVAIL PR HI AVAIL RUN E lSnur 400- 4 SRU LIFT 1103] COOLING POWER PUMP l g GROUP I k100%BPU1025 0 RUCU NOT AVAIL AVAIL ' 0FF E l ISOL I , y . (H . .gj) 0 TURBIllE CLG VAC H.PWR VALUE E RX POWER E 01% (RESCALE) CONTROL ; AVAIL AVAIL AVAIL SHUT g TURBINE CLG VAC H.PWR VALVE E BYPAES AURIL AVAIL AVAIL JnuT l DPAlbs AVA E _. IA - 40-LIQUID POWER PUMP E SLC Avart RUN I O ......... AVAI_LABLE _10 (NIH) 0 RIVER BEND 8 0 8 Jo-JAN-1991 13:00
.. .=
t g27 II RPU Ai_ ARM ] l]Q sTAIl '1 E 4 T Cl i '1T RO L ----U >E T / '1R POOL LEVEL @ jFT 4 IN (RESCALE) C00LIIG AU E hd DG hgopgg _ POOL LD l37- 3] ' l20- 01 DRYWELL COOLING POWER FAN l 19-COOLING NOT AVAIL AVAIL OFF E OPER L0 (19- 61 _ _SRU CNTMT IOOLING POWER FRH l N ~ HEAT CAP 19- 6] COOLING _ AVAIL __ AVAIL * *1 E 1810 (MIN) 0 PRESS CONTROL _ SHUT VALUE POWER AVAIL FAN l OFF E f_GR{ CNTMT PRESS I 2.7 lPSIG M MAXIMUM 54.9 1 SBGi i ___L_. bP b R l SCRAM NONE 16_ DESIGN 13.95
,,,,,,Tg PR SUPPRI 8.8l
-10 (MIN) 0 NITMT TENF l 13tj F DW TEMP R 2.835 F P0OL TEMP l_ /971 *F
~
.,86~ SAT 459 l RPV SAT 459l HEAT CAP l 168l i 155- 135-DESIGN l185 l275- kDESIGN1330l SCRM TEMPil10l 120- 200- 120- .
~~
85 .. 125- ' g _1 IH) 0 -10 '(MIH) 0 RIVER BEND 8 8 8 30-JAN-1991 13:00
i 1991 PRACTICE EXERCISE Clock Time = 1300 Message Number: 21 Scenario Time = 05/00 HIVER BEND STATION DRMS MONITT/RS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING RE-16A,B Ctmt. PAM R.B.186* (DHRRM) 2,4E3 R/hr RE-194 Supt. Hm. Trans. Tube F.B.123' (ARM) i90 mR/hr RE-20A,B Drywell PAM D.W.114' (DHRRM) 32 R/hr RE-195 Sample Sink Area F.B. 95' (ARM) [90 mR/hr R E-21 A.B Ctmt. Purge Isol. R.B.141' (ARM) (2ME5 mR/hr RE-196 Equip. Drain Sump F.B. 70' (ARM) [90 mR/hr RE-139 Annul. Near Trans. Tube 114' (ARM) ' Stj O mR/hr RE-200 North Heist Area T.B.123' (ARM) (12 mR/hr RE-141 Refuel. Floor South R.B.186* (ARM) OSH mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-146 Containment Airlock F.B.114' (ARM) OSfl mR/hr RE-202 Rx Feedwater Pump Area T.B. 67' (ARM) 1.5 mR/hr RE-151 mple Station Area R.B.162* (ARM) OSil mR/hr RE-203 Turb. Bldg. Sample Rm. T.B. 67' (ARM) 0.1 mR/hr RE-162 , Bldg. Regen. Area O.G. 67' (ARM) 0.4 mR/hr HE-204 Cond. Domin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr H E-164 a G. Oldg Sample Area O.G.123' (ARM) 2.0 mR/hr R E-210 PASS Panet A.B.114' (ARM) i90 mR/hr RE-165 Cond Demin Regen Area O.G. 67* (ARM) 9.2 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) [24' mR/hr R E-166 Cond Demin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr RE-212 HPCS Area East A.B. 70* (ARM) l25 mR/hr RE-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RHR A Area West A.B. 70* (ARM) 25 mR/hr RE-182 Recovery Sample Tank R.W. 65' (ARM) 0.4 mR/hr RE-214 Rl!R B Area East A.B. 70' (ARM) :25 mR/hr R E-185 Storage Tank Area R.W. 90' (ARM) 0.2 mR/hr RE-215 RHR C Area A.B. 70' (ARM) [25 mR/hr RE-18G Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr RE-216 LPCS Area West A.B. 70' (ARM) [25 mR/hr R E-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (ARM) [90 mR/hr RE-192 P.efuel Floor South F.B.113' (ARM) (90_ mR/hr RE-218 LPCS Penetration Area West A.B. 70* (ARM) [90 mR/hr RE-193 Refuel Floor North F.B.113' (ARM) h25 mR/hr RE-219 RCIC Area West A.B. 70* (ARM) [25 mR/hr r - Indicates Alarming OSH -Indicates Offseale High All other ARMS are "as read' i
t 1991 PRACTICE EXERCISE Clock Time = 1300 Message Number- 21 Scenario Time = 05/00 RIVER BEND STATION PROCESS MONITORS ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) READING RE-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 pCi/sec RE-111P Cont. Atmosphere (PART) 8,2E+00 aCi/cc RE-58 Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 sCl/sec RE-111G Cont. Atmosphere (GAS) 1;1Eid2 SCl/cc R E-6A Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 aCl/sec RE-112P Drywell Atmosphere (PART) 6.7E-07 pCi/cc RE-6B Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 sCl/sec RE-112G Drywell Atmosphere (GAS) 3.3 E-05 aCi/cc 1 GE-125 Main Plant Exh. Duct (WRGM) $0EM aCI/cc RE-103 SGTS Effluent (GAS) 2ME-02 sci /cc RE-116 Containment Purge (GAS) 3.0E-06 pC1/cc 2GE-125 Main Plant Exh. Duct (WRGM) [0EMI aCI/cc 3GE-125 Main Plant Exh. Dact (WRGM) {35% sci /cc RE-11 A Annulus Exhaust (GAS) f1E+b6 aC3/cc 4GE-125 Main Plant Ev::. Duct (WRGM) D E46ii sci /sec RE-11B Annulus Exhaust (GAS) 1 1E+00 pCi/cc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 sCl/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 aCI/cc RE-118P Turbine Bldg. Vent (PART) 3.0E-11 aCi/cc Off Gas Pre-treatment Monitor o mR/hr RE-118G Turbine Bldg. Vent (GAS) 1.0E-10 aCI/cc Off Gas Post-trestrdent Monitor O cpm RE-124P C.D./O.G. Bldg. Vent (PART) 2.0E-10 aCl/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-124G C.D./O.G. Bldg. Vent (GAS) 2.0E-08 sCl/cc Main Steam Une Radiation Monitor 1000 mH/hr RE-126P Main Plant Exh. Duct (PART) 9.7E-04 aCI/cc Main Steam Une Radiation Monitor 1000 mR/hr RE-126G Main Plant Exh. Duct (GAS) [i3E51 SCI /cc Main Steam Une Radiation Monitor 1000 mR/hr
-Indicates Alarming OSH - Indicates Offscale High All other Process Monitors are "as read' 4
1991 PRACTICE EXERCISE Clock Time =y1 Message Number = 22 Scenario Dne = 05/15 i RIVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE , MESSAGE
*** THIS IS A Drill ***
Message To: Control Room Plant Status Update , I l t 1 I 1 w 5
\
i e 1 9 k i
i 1991 PRACTICE EXERCISE Clock Time = !315 Message Number = 22 __ ScenarioTkne = .05/15 RIVER BEND STATION j EMERGENCY PREPAREDNESS PRACDCE EXERCISE CONTROLLER INFORMATION
*** THIS IS A DRILI. ***
Controller information: Expected Actions-The minimum amount of Boron has been injected (78 lbs.). Reactor Monitor reactor power, and restore level to approximately 40". level restoration should begin in order to bring level back into its normal operating band. Boron injection continues. See Supplemental Monitor containment radiation levels, and verify that the release has Scenario No. 5 for table of Injection requirements. been terminated. As level is restored, reactor power remains below 1%, and there is Continue in EOP-1 A. no sustained increase that is detected. Continue to track the plume. Reactor pressure is negligible, and steam blo: down into cc<unment i has ceased. Containment pressure has decayed off to about 1 psig. Yhe release of fission products through the electrical penetrations has encud. See Supplemental Scenario No. 8.
i 1991 PRACTICE EXERCISE Clock Time - 1315 Message Number - 22 Scenario Tine - 05/15 RIVER BEND STATION EMERCENCY PREPAREDNESS EXERCISE CONTROL ROOM DATA PANEL 601/877 PANEL 601 PANEL 680 Status Press El_2H SRV RED CRN AC.M! POVER 0% APRM LEVEL -120" RIIR A SPC 5200 F041A OFF ON OFF_ RIIR B SPC 5200 F041B OFF ON OFF - CNS PIA OP WS PlA OP Rl!R C SS 0 F041C OFF ON OFF. CNS PIB SS FWS PIB SS F041D OFF ON OFF CNS Plc SS WS PIC SS LPCS SS O F041F OFF ON OFF F041G OFF ON OFF
- RCIC 0 0 Total Feedwater Flow M1bs./hr
_00S F041L OFF ON OFF
* - As Required itPCS SS 0 0 F047A OFF ON OFF F047B OFF ON OFF PANEL 8051 CRD A OP 1900 75 F047C OFF ,,9N OFF CRD B Av 0 0 F047D OFF ON OFF -
Press Temo Irvel F047F OFF ON OFF Soulb Press Ixvel DRYWELL 3.8 259' F0518 OFF ON OFF g y,7 ggo SIL A OOS O 866 F051C OFF ON OFF SPR PL 193 24'4" SLC B OFF 21 F051D OFF ON OFF F051C OFF ON OFF PANEL 870/601 Press Imvel Rance RPV 1 -120" FZR MSIV RED CRN F022A OFF ON SVP P2A OP SVP P2C OP F022B 0FF _ON SVP P2B OP SVP P2D OP DIV I DIESEL SS DIV II DIESEL SS F022C OFF ON F022D OFF PANEL 863 DIV III DIESEL SS __ON F028A OFF ON OP= OPERATING $R= STAND 3Y READY F028B OFF ON SGTS A OP SGTS B SS ISOL $. $d r{^ F028C F028D OFF OFF ON ON D/V COOT.ERS OPERATING CTMT COOLERS OPERATING A
i vr., . . T n zntaan CR::T:: CAL PLAST VARI ABLES lCNTMT ALARM E CONT INENT l Dgp l ( DESI(iH- - 14M---- DRYUELL (SRVLIFT1103) g IIPSIG 0 SRU MSIU FRESS((]PSIG PRESSE Suur l SHUT [0PER HI ig ( 100% BPU 1025 ) g PRESSI 3,FEPSIG r' " ' ' (1 OPE [hIYh _ 4 TRIP HI 52 D TEM?l._19] F
~
]a GROUP I LEVEL E-/ 205 IH ISOL l
[0PERHI 135) (SCRAM _LOl 95 TEMPI 2671 F POWERE OJ% . 4_0PER][I"Y-8) LUL[23[ FT[+]IN LA_.) u/JhV (OPER].[0l19-J} CR 4 OPER HIl 95 D TEMP E 173 I CF SUP )RE ESIGN SUPPRESSION PCOL __ POOL RIVER BEND 9 9 9 So-JRN-1991 / 3 :15 4 9
'c"'"' "'a"" 8 8 :. 3 RPV CO 4 TROL--W R/ 'ij R .
5 v21IN >TAE phl3 jhf{ PU1 E" CNDS/FU khff RH 6 I -( TRIP HIl 52] l WATER RPU POWER PUMP I 0- y CRD ,3 AVAIL PRESS AVAIL RUN I . NSCRAMLOI 91 URIER RPV POWER PUMP l NOT P RCIC ' AVAIL PRESS NA 0FF E -120-P0WEP, TAF l-162]
' WATER RPU -180^
l HPCc-
! AVAIL PRESS AVAIL PUMP OFF lE -
0 } P P RPU PRESS E ijPSIG LPCE {ggy{ gg flhkF 0F I ' POOL LD $13091 LPCI l WATER RPU POWER PUMP E
; AVAIL PR HI AVAIL RUN g 800- (N MPimd SHTDil o CLG . RPU POWER GURIL PR HI AVAIL PUMP l RUN E l.snur l 400- 4 SRU LIFT l1103]
COOLING l p RUCL NO L g{ P OS P p l 0 ...... ...
-10 (MIN) 0 TURBIllE CLG UAC H.PWR URLUE E RX POWER E ol*/. (RESCALE, CONTROL AVAIL 9,UAIL AVAIL SHUT E 120 EYPA S AhdL Ah L OA 80-SCRAM APRM DNSCL 15]
MSL DRRIbS COOLING AVAILABLE U.PWR NA URLUEg LN-UP l HONE gg_ SLC
~l_I9UID POWER PUMP l
; pyg,LABLE AVArt Rud E O j gg. . 0 RIVER BEND 8 8 3 30-JAN-1991 13:15 L --
1027 E~RPV ALAR"
' C0bTAI MENT C0iTROL--UPSET /vR i
POOL LEVEL FER FT IN (RESCALE) F7 3L LD !37- 31 Cif0LI4G Abb E b0 lgDGp _ OM HI 120- 01 DRYWELL COOLING POWER FAN 19-COOLING N0_T AVAIL AVAIL OFF'l SRU OPER LO l19- 61
' # ~
119- 6I CNTMT COOLING F0WER FAH l 1 HEAT CAP C00LI!1G AU_ AIL AVAIL Edd E 18 ...... .,. GROUP -10 (NIH) O FAN I PRESS VALUE F0WER ISlII C011 TROL SHOT AVAIL OFF j CNTMT PRESS I 1.llPSIG i bbbI H 1 MAXIl1UM ! 54. 9 l Lit -P l j;CO lE 6-l DESIGN l13.9l 4- '
% PR SUPPRl 8.81
^
-10 'Oini)O i:NTMT TErlP l___ f i j F Dbl TEMP I 267 5 'F P0OL TEMP l 193] *F
~
I 0 M RPU SATl4595 HEAT CAPl1683 [4 RPV SATI459 l ' 155- \4 DESIGN l185l 275- - DESIGN l330] 135-SCRM TEMPl1101 120-% 200- 120- _ g -4 0PER _HIl 90 l ~ 4 0PER Hill 355 ~ 4 OPER HI i 951
-10 (tilti) 0 -10 (MIH) 0 -10 '(MIN) 0 RIVER BEND 8 8 8 30-JAN-1991 1 3:15 i
a Clock Time = 1315 1991 PRACTICE EXERCISE Message Number: 22 Scenario Time = 05/15 l RIVER BEND STATION DRMS MONtTORS READING ID NUMBER LOCATION (TYPE) READING ID NUMBER LOCATION (TYPE) 5.0E2 R/hr R E-194 . Supt. Rm. Trans. Tube F.B.123' (ARM) 20 mR/hr RE-16A.B Ctmt. PAM R.B.186* (DHRRM) 10 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) '20 mR/hr R E-20A,8 Drywell PAM D.W.114' (DHRRM) RE-21 A,8 Ctmt. Purge Isol. R.B.141' (ARM) %0E5 mR/hr RE-196 Equip. Grain Sump F.B. 70* (ARM) 12 0 mR/hr I RE-139 Annul. Nearr Trans. Tube 114' (ARM) DSH mA/hr RE-200 North Holst Area T.B.123' (ARM) [12 mR/hr OSH mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 mR/hr RE-141 Refuel. Floor South R.B.186* (ARM) OSN mR/hr RE-202 Rx Feedwater Pump Area T.B. 6T (ARM) 1.5 mR/hr RE-146 Containment A*rlock F.B.114' (ARM) l OSN mR/hr RE-203 Turb. B!dg Sample Rm. T.B. 67* (ARM) 0.1 mR/hr R E-151 Sample Station Area R.B.162* (ARM) mR/hr RE-204 Cond. Domin. Sample Rack T.B. 95* (ARM) 0.1 mR/hr RE-162 0.G. Bldg. Regen. Area O.G. 6T (ARM) 0.4 0.G. Bfdg Sample Area O.G.123'(ARM) 2.0 mR/hr RE-210 PASS Panet A.B.114'(ARM) ;20 mR/hr RE-164 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) 5.0 mR/hr RE-165 Cond Domin Regen Area O.G. 6T (ARM) 9.2 RE-166 Cond Demin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr RE-212 ' HPCS Area East A.B. 70* (ARM) 55 mR/hr 28 mR/hr RE-213 RHR A Area West A.B. 70* (ARM) 5.0 mR/hr RE-167 0.G. Bldg. Valve Area O.G.13T (ARM) RE-214 RHR B Area East A.B. 70* (ARM) 5.0 mR/hr RE-182 Recovery Sample Tank R.W. 65* (ARM) 0.4 mR/hr 0.2 mR/hr RE-215 RHR C Area A.B. 70* (ARM) 5.0 mR/hr RE-185 Storage Tank Area R.W. 90* (ARM) 0.5 mR/hr RE-216 LPCS Area West A.B. 70* (ARM) 5.0 mR/hr RE-186 Floor Drain Sump Area R.W. 65* (ARM) High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-217 HPCS Penetration Area East A.B. 70* (A .LI) f20 mR/hr RE-187 Refuel Floor South F.B.113'(ARM) [20[ mR/hr RE-218 LPCS Penetration Area West A.B. 70* (ARM) l20 mR/hr RE-192 5.5 mR/hr RE-219 RCIC Area West A.B. 7,0* (ARM) 5.0 mRlhr RE-193 Refuel Floor North F.B.113' (ARM) (-Indicates Alarming OSH -Indicates Offscale High . AII other ARMS are,"as read
- m _ .
e Clocet T*nne ,1315 1c391 PRACTICE EXERCISE Scenario T'ane = OM Message Number: 22 _ RfvER BEND STATION PROCESS MONITORS _ 10 NUMBER t.OCATION (TYPE) READING ID NUMBEFi LOCATION (TYPE) READING RE-111P Cont. Atmosphere (PART) 1.6E+00 sci /cc " RE-S A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 sci /sec 1.3E+00 SCI /sec RE-111G Cont. Atmosphere (GAS) 2.3E4i ,Ci/cc RE-5B Fuel Bldg. Vent Exh. (WRGM) pCl/sec RE-112P Drywell Atmosphere (PART) 6.7E47 sC1/cc RE-6A Radwaste Bldg. Vent Exh. (WRGM) 5.7E-01 pCI/sec RE-112G Drywell Atmosphere (GAS) 3.3E-05 .Ci/cc RF.-6L Radweste Bldg. Vent Exh.'(WRGM) 5.7E-01 RE-103 SGTS Effluent (GAS) 5;4E43 aCilec 1GE-125 Main Plant Exh. Doct (WRGM) 2.2E42 aC1/cc Containment Pwge (GAS) 3.0E-06 sci /cc 2GE-125 Main Plant Exh. Duct (WRGM) 2M SCI /cc RE-116 RE-11 A Annulus Exhaust (GAS) 2.2E41 sCl/cc 3GE-125 Main Plant Exh. Duct (WRGM) IN SC1/cc RE-11B Annulus Exhaust (GAS) 2.2E41 SCI /cc 4GE-125 Main Plant Exh. Duct (WRGM) TDEM 6 aCI/sec RE-110P Aux. Bldg. Vent (PART) 2.0E-f2 aCI/cc RE-110G Aux. Bldg. Vent (GAS) 3.0E-08 ,C1/cc Off Gas Pre-treatment Monitor O mRihr RE-118P Turbine Bldg. Vent (PART) 3.0E-11 aCI/cc O cpm RE-118G Turbine Bldg. Vent (GAS) 1.0E-10 aCI/cc Off Gas Post-treatment Monitor 1000 mR:hr RE-124P C.DJO.G. Bldg _ Vent (PART) 2.0E-10 pCi/cc Mein Steam Une Radiation Monitor 1000 mR,hr RE-124G C.DJO.G. Bldg. Vent (GAS) 2.0E-08 aCI/cc Main Steam Une Radiation Monitor 1000 mR;hr 5'.iE 05 aCI/cc Main Steam Une Radiation Monitor HE-126P Main Plant Exh. Duct (PART) mR/hr Main Steam Une Radiation Monitor 1000 RE-126G Main Plant Exh. Duct (GAS) 2.2EMI sci /cc 3 -Indicates Alarming OEH - Indicates Offscale High All other Process Monitors are "as read"
~
y
Clock Tome = 1320 S ;;;A Teme = 05/20
- C*-
RfvER BBW STATION EMERGENCY PREPAREDNE3S PRACTICE EXERCISE MESSAGE
*** THIS IS A DRILL ***
Message To: Emequency Director from the AGt: Recent information from General Electric shows that containment electrical penetrations associated with the BWH Mark lit containment are pron to 0-ring seal failures on the containment side when subjected to temperatures and/or pressures which exceed design paramet containment structure. This may lead to emccceptable leakage rates exceeding Technical Specification values, and potential lo centainment integrity. . I t e i
.,n i
1991 PRACTICE EXERCISE Clock Tsme - t;qt . 1+ Number = 22.1x Scenario Tmn = JM'd } RfVER BEND STATION ElWERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLLER WIFORRRATION t i i i
*** THIS IS A DREL *** l l,
ControDer Infonnation: Espected Actions: i Deliver this message to the Emergency Director. l i I i i l [ j i
,- ~ r.- - . - -,
e 1991 PRACTICE EXERCISE Clock Time = 1325 Message Number = 22.1 Scenario reme = 05/25 , RfvER BEND STATION l EMERGENCY PREPAREDNESS PRACTICE EXERCISE MESSAGE ' I
*** THIS IS A DRRL ***
i i Message To: Control Room s i Plant Status Update [
! t l
i l F I e I i ; i l l
}
t l i
t 1991 PRACTICE EXERCISE Clock Time = _1325 Message Number = 22.1 Scenario Time = 05/25 RfvER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROLER INFORMATION i a l *** THIS IS A DRll_I *** i Controller information: Expected Actions: 111 lbs. of Boron has been injected into the reactor vessel. See table Operators should determine that 111 lbs.of Boron have been injected of injection requirements in Supplemental Scenario No. 5. Into the reactor vessel, and prepare to go into the Shutdown Cooling mode of RMR in accordance with EOP-1 A. Operators should make preparations to establish long term shutdown cooling. 2 i a ! i i i I I 4
_ _ . _ _ _ _ . . . . _ _ _ . _ _. _ _ . _ _ _ _ _ _ . _ _ _ ~ ._._- . _ _ _ _.m._ . _ . . _ _ t' F *l h 8 $ $ $ s $ v M O 4
~
l l u% u o NN e e , , Il hh
=
ggn ecd b o gAbb bb b s p. e Nb e q$g W 4 b 12 m b i b e n b @8 jy M Q
" " "k i ; ;
s a a j i s e sgg "i 4 <" 522
%%% ~ <
M g NN < $$ gM Q 4J l b g gA C U 50 A. E e a'd amb Q
!X G E. w w w w b w w w w w w w w w w w
% 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 hb Ca$<
s Es s s s s s s s s s s s s s e s B e s sl s s s s s gle-6g B l" e' 9"l y % O w w w w w w w w w w w w w w dw O O O O O O O O O O O O O O O a w w w w w w w w
% O O O O O O O O 6
E , 3 ~e o e w e .a < m o o a e o o e333~~~?"3"%%%% Bgeoa<moe~NNNEEEE sk$222$$$Ek2$2EEE EEEEEEEEE g8 8 o T e B w M M t o ( 3 8 9 rE d <; g
.t s
4g j M M O N j j M 5
$d 5,
f
.2
$ $ M 8 8
((f 0 82 w l~ 9 w e e n a n a s t
.e s g w M
e - ddd eau n d " " 6
$ *8 & t 555 E
< E"h
~
<eo g <m <m -
-z mum aaa a a2
==
aa 66 ss mm e u eee aom t@e:
._ -, _ . - . ~ _ , - . _ . - ._
n 1 F 4 Ta r a m.um uma
) m n u.
- z O
m a - N. . S 5 0 mo mb g;C._, -
?L $d w
s o mx c,m e z
~
no a. - r H CW wM M @ H o N n_ p m z z w c - O M M M O. g m ,1,,
- o - ,
w . a, o: 3 e j n L1J ms j -
._i mg , r m *w d '
i Q .m I o z m W m
,t,r,i E , g a a,
> a ::
m e^ a e a H m G to m e < x n z- E =izi o 3 - a _- i == - l
._i o m 3 > D , O W G W d O.,
LL Q
- z " ..I g Z mh c_ 3 J a r m w c M=
- > w n ca a w a m :s m
' s:
- cp k, D o o O. M d Ch e f (o Q. a a w a. v w w w ,,/
Cr > o 4e g m w y sn gu H _ 9 .a - C , m _- w n _ cE s n s 8 Ci d w e w m
- m w g-- N e k . w. k a )
e N &'s &^ ) - 4, e A
, ;n m 3<. v z A,j
- a. sc mh - II A iH* ia: 8 p ll
%::8 !
w= LI%l 808 8 g8 l II8 8 8 ml l~l.- rlrat 898 1 !58 w, . Tjo i I I I ~$ IW l.m.I '"" Imlbilmi W l 4"*"I
=
O m r,; a u,, r= a w H wcw
- a. a.
a. 2 lg$g [ ' v o'.
'L V O
Y .js O Y t.o j
0 :.3 RPV CONTROL--hR/~'WR 'c"'"' "'a"" ' U M IN >TAF . CHDS/FW lhgff phES 0 PV"P PUN l g 4o GIN ! RPU POWER PUMP R TRIP HIl 521 CRD l WATER 0-iRUAIL PRESS AVAIL RUN I N WATER RPU POWER PUMP NOT PER NSCRAMLO! 91 RCIC 0FF AVAIL PRESS NA
-120-HPCc WATER RPU POWER PUMP g TAF l-162]
OFF I 4 AVAIL PRESS AVAIL -180 10 (MIN) e LPCE lhgff phP HI 0{ P 0F P RPU PRESS I flPSIG WATER RPU POWER SNW N POOL LD l13091 LPCI i AVAIL PR HI AVAIL PUMP RUN l 800- HEAT CAP l1778l I SHTDil COOLING CLG RPU POWER AURIL PR HI AVAIL PUMPI RUN E lsnur 400- SRU LIFTil103] RWCU COOLING HOT AVAIL POWER AVAIL PUMP l OFF a E GROUP ISOL l 0 s 100*4 BPU 1025 l E
-10('N'Ili)O' L
CbHR AAL AAL OA SHUT l RX POWER I o]*/. (RESCALE) 120 .
!YPAS AbAL A L AO JH 80-MSL DRAIhS COOLING AVAILABLE U.PWR HA VALUEl LN-UP l SCRAM HONE l 40-APRM DNSCL 15]
l LIQUID POWER PUMP E SLC ' AVAILABLE AVAIL Ruti I - 0
.....g.. 0 RIVER BEND e 0 8 30-JAH-1991 is:25
~- ~'
027 EgV AI. ARM _] l , {l . T 9..
l
'4 T IXI 1"R CIL- -l_I ~> E T / t< R POOL LEVEL @ FT + IN (RESCALE)
D POOL LD l37- 31 C00LIIG l AVO E bob d ly,7hPER - 4 m m 120- 01 POWER 19_ DRYWELL COOLING AVAIL FAN OFF a l OPER LO 119- 6 5 COOLING HOT AVAIL . SRU ~
### HEAT CAP 19- 61 CNTMT ~ IOOLING POWER COOLING AVAIL AVAIL FAN EM l 18-4 M0 PRES 3 UALUE POWER FAN l l GRp{
SHUT AVAIL OFF E CNTMT PRESS I o,FIPSIG CONTROL MAXIf1UM "54.9 1 SBGi yhk'_jp [0lff [hyl CgAM _
\ DESIGN l13.9l 4- PR SUPPRi 8.81
-10 ' ^( I'N')0 DW TEMP l 157 I 'F P0OL TEMP l 170l 'F CNTMT TEi:P l_fd F HEAT CAPj168{
~
RPU SATj459l RPU SAT l4595 275- - 135-155- \ 4 DESIGN l330l SCRt1 TEt1Pl 110 l 4 DESIGN i185l 200- 120-120-85- h4 105-1 0 (MIN) 0
-10 (flIN) 0 125
-1 0 (MIN) 0 13:25 RIVER BEND 4 8 8 30-JAN-1991
t 1991 PRACTICE EXERCISE Clock Twne = 1330 l Message Number = 23 Scenario Tkne = 05/30 RIVER BEND STATION ERAERGENCY PREPAREDNESS NN EXERCISE MESSAGE l
*** THIS IS A DRKL *** ;
Message To: Control Room i Plant Status Update
-[
i i Y 1 i i .l i , i
1 S 0 8 , a ii a
}} ; i, -
]j .i l
t 11 l as B I !i s :
- I5
< iI u u.
g < I I h f t ,i sa El 1 I A$ si w gw sg I Ii _ 41 4 11 . i 1 k .*1 ha B" ill is; U'5 l%g g l- si: E
- $$I $ ! ! ).
m_
a m _a_a,____ _.--_.-_.-~ - ~ as-__-4 %-.4 _ _ . - _ ,A.,s a _ . _ , 4 e h6 .sA_ _ _ _
._ % .a __ a ,
m_.4 q-_u,.., e__s.mm._ ,.m_ i p: J - . I t h $ $ $ $ $ $ #
- O . i l l a Ibb wur 22 g e m s , ,
b " E $
- O bb $
PP d 6 hO ed ! s 0'
- ; dd as 1
ao C d g , 8: cg B r e se t n . s a, i le ~ oo a $ a n : e w s $ e e nn 8 ?? '" 35 552
~ ~~ E ".
d a a
~
4"
~C <$$
2 n a u l E g p, q
;555 A+ E n $$ ha G
e 5bbbbbbbbbbbbbbbb g0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 gd< Elng sE s s s s s s' ss essssses Bassesssa 8:1= d5 ml'8 m h b k h yh M O O O O O O O O O O O O O O O O % O O O O O O O O E e INNb M kkNkk$ NOM m
>NNNhb$
-~~~~~~~~
h ol.ll.n.a..EEn.n.mmmeeeeaeeeeeeee e e e
$h
" !o o o o R o 0 E !
- N Ing E
- : ~ *!S m E g o o s
t o o o 8
. SI-130 O . ~
2 t
~ s 8 n u n VI a.- I U a d8
- W $ 3" o o e m m m ~ > O m N $
d"" w " " " o < ~ g g Ej " S n h 8 5 8 s ' e --- p b *- S 12 " *J . b$ <=u w 0 ED3 _; , o, <e <= --- ng
$E
-m EEs unu M G2 u= @*6 33 mn E
a EEe c0 a 8< j
PLANT VARI ABLES sc" int a' ann s 01: T RPU _ NORMAL ECRITICAL C0tlTlIllMENT { [ RPU E DG l tJOT OPER E E i / (I DEfilifiT12.9) f 4SRU LIFT 1103 D PRESSf M PSIG PRESSE IIPSIG U lSH 8PU j l ggy l 4 OPER HI 1. 68 D ( 100% BPU 1025 ) } PRESSI 2.6 EPSIG ?4 ?O QER III 90 ) 4 TRIP HI 52 D TEMP [ l, 3 F LEVELI +0EIN ISO ( OPER HIl 135) ( SCRAM LO; 9D TEMPI 253l'F i POWERE OE%
~ " " !
4OPERiIl 20- 0) L^d AN_/ _.A_/V LUL[23FT 4 IN \._/ V SCRAM 4 OPER HI 95 D (OPER L0l19- 6) TEMPI 188E (F
~
SUPPRESSIGH SUP2RESSION POOL POOL i l__ RIVER BEND 9 0 0 -JAH-1991 13 ~30
t
' c"T"' a'"" '
0 :. 3 RPV COETROL--WR/PldR RPU LEVEL L2d IN >TAF YA ER pgPg g CllDS/FW F(WER PU Pl f ER POWER PUMP l TRIP HII [ CRD RPU 0- N l' , AVAIL PRESS AVAIL RUN E N SCRAM LO) 95 AE RPV POWER NOT PEA RCIC a AVAIL PRESS NA PUMP 0FF l -120-IWATER RPU POWER PUMP l
--( TAF l-1625 HPCco AVAIL OFF g -180-l: AVAIL PRESS _10 (MIN) 0 RPU PRESS E IIPSIG LPCS flh[fLjPbS P g PUgPl Op 1200 SHUT r POOL LD l1125]
WATER RPV POWER PUMP l LPCI PRESS AVAIL RUN ' 800-
@lAIL HEAT CAPI 1351 g
! SHTDil COOLING CLG RPU POWER PUMPI AVAIL PRESS AVAIL RUN E l SHUT 400- M SRU LIFTil103] l 5 100% BPU 1025 RWCU NO bh L gjR PUgPl O GPgP 0
. g.N ' 0 RX POWER E 01% (RESCALE)
C R1 AbAL. A AhA S UT TURBIT 1E CLG UAC H.PWR UALUE BYPASS l AVATL NA AVAIL SHUT 80-PWR VAL E l R0 N AALBE 'Ng GUT 40-D AINS ~ SLC I LIQUID POWER PUMP l , AVAILABLE AURIL OFF E 0 g. _ .g 'O RIVER BEND 8 e s 30-JAN-1991 13:30
P Ql .{ { {
~ ~
027 E RPV_ NOMMAL _l l 'j] g ] " gi .] { {/ 't } POOL LEVEL 2A FT 4 IN (RESCALC) 20-v D6 1 POOL LD $37- 31 C00LI4G ., AU E A l pg _ OPER HI 20- 01 DRYWELL COOLING POWER FAN l 19-C00LIl1G pll HOT AVAIL AVAIL OFF ' _ _ S RU OPER LO l19- 61
~
CNTMT COOLING POWER FAH l kHEATCAP19-61 COOLING AVAIL AVAIL Edd a 18 GR -10 (MIH) 0 . CONTROL PRES 3 URLVE SHUT POWER AVAIL FAN l OFF E l CHTNT PRESS I 0,7_J PSIG M MAXIt1UMI54.91 SBGT
'fh '_hp (OIf g [.$ l l gRg l _
~
DESIGN l13.9 5 8- . 4-PR SUPPR 8.8]
-10diI'H')0 f: Hit 1T TErlP l #3 ] F Dki TEt1P 1253 l *F P0OL TEMP R /FE I F 1RPV SAT l459l RPU SAT- 459l HEAT CAP l1681 155- -
135-330l (SCRM TEMPj l101
\4 DESIGN l185l275- DESIGN 120- 200- 120- .
4 OPER HI 4 OPER HI 1353 OPER HI l 951 85-N- ...:- 90 l 125- 105 l -10 (ftIN) 0 -10 (MIH) 0 -1 0 011H) 0 l RIVER BEND 8 8 8 30-JAH-1991 13:30 l
d i 1 1991 PRACTICE EXERCISE ClockTome = 1330 I Message Number: 23 Scenar6o Time = 05/30 l RfVER BEND STATION 'I DRMS MONETORS i i ! ID NUMDER LOCATION (TYPE) READING ID NUMBER I OCATION (TYPE) READING [ e l R E-16A,B Ctmt. PAM R.B.186* (DHRRM) 1.9E2 R/hr RE-194 Supt. Rm. Trans. Tube F.B.123' (ARM) 8.0 mR/hr j R E-20A.B Drywell PAM D.W.114' (DHRRM) 4.0 R/hr RE-195 Sample Sink Area F.B. 95* (ARM) 8.0 mR/hr { ! RE-21 A.B Ctmt. Purge isol. RE.141' (ARM) W.iES mP/hr RE-196 Equip. Drain Sump F.B. 70* (ARM) 8.0 mR/hr [ RE-139 Annul. Near Trans. Tube 114' (ARM) DeH mR/hr RE-200 North Hoist Area T.B.123' (ARM) [12 mR/hr f RE-141 . Refuel. Floor South R.B.186' (ARM) OM mR/hr RE-201 Cond. Air Removal Pmp. Area T.B. 95* (ARM) 0.2 *R/hr R E-146 Containment Airlock F.B.114' (ARM) OSH mR/hr RE-202 Rx Feedwater Pump Area T.B. 6T (ARM) 1.5 i/hr f RE-151 Sample Station Area R.B.162* (ARM) OsH mR/hr RE-203 Turb. Bldg. Sample Rm. T.B. 6T (ARM) 0.1 mR/hr [ ] RE-162 O.G. Bldg. Regen. Area O.G. 67* (ARM) 0.4 mR/hr RE-204 Cond. Domin. Sample Rock T.B. 95* (ARM) 0.1 mR/hr I RE-164 0.G. Bldg Sample Area O.G.123' (ARM) 2.0 mR/hr RE-210 PASS Panet A.B.114'(ARM) 8.0 mR/hr RE-165 Cond Domin Regen Aree O.G. 67* (ARM) 9.2 mR/hr RE-211 Control Rod Drive A.B. 95* (ARM) 2.0 mR/hr } RE-166 Cond Domin Strnr. Area O.G. 95* (ARM) 0.3 mR/hr RE-212 HPCS Area East A.B. 70* (ARM) E0 mR!hr RE-167 O.G. Bldg. Valve Area O.G.137' (ARM) 28 mR/hr RE-213 RHR A Ares West A.B. 70* (ARM) 2.0 mRlhr 1 , RE-182 Recovery Sample Tank R.W. 65' (ARM) 0.4 mR/hr RE-274 RHR B Area East A.B. 70* (ARM) 2.0 mR!hr i i r j R E-185 Storage Tank Area R.W. 90* (ARM) 0.2 mR/hr RE-215 RHR C Area A.B. 70* (ARM) 2.0 mR/hr ) RE-186 Floor Drain Sump Area R.W. 65* (ARM) 0.5 mR/hr RE-216 LPCS Area West A.B. 70* (ARM) 2.0 mRlhr R E-187 High Cond. Sump Area R.W. 65* (ARM) 0.3 mR/hr RE-217 HPCS Penetratior Area East A.B. 70* (ARM) 7.5 mR/hr RE-192 Refuel Floor South F.B.113' (ARM) 8.d mR/hr RE-218 LPCS Penetration Area West AB. 70* (ARM) 7.5 mR/hr l RE-193 Refuel Floor North F.B.113* (ARM) Es mR/hr RE-219 RCIC Area West A.B. 70* (ARM) 2.0 mR/hr l t i t [-Indicates Alarming l OSH - Indicates Offscale High All other ARMS are *as reed
- l
! I i
1991 PRACTICE EXERCISE Clock Time = 1330 Message Number- 23 Scmsario Time = 05/30 RIVER BEND STATION PROCESS MONITORS ID NUMBER LOCATION (TYPE) READING TD NUMBER LOCATION (TYPE) READfNG RE-5A Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 SCI /sec RE-111P Cont. Atmosphere (PART) 6.4E41 ,Ci/cc RE-5B Fuel Bldg. Vent Exh. (WRGM) 1.3E+00 sCLfsec RE-111G Cont. Atmosphere (GAS) 8.4Ei40 ,Cilee RE-6A Radwaste Bidg. Vent Exh. (WRGM) 5.7E-01 SCI /see RE-112P DryweII Atmosphere (PART) 6.7E-07 sC1/cc RE-6B Radwaste BIdg. Vent Exh. (WRGM) 5.7E-01 aC1/see RE-112G DryweII Atmosphere (GAS) 3.3E-05 .Cilec 1CE-125 Main Plant Exh. Duct (WRGM) 8JE-03 ,C1/cc RE-103 SGTS Effluent (GAS) 2.1E43 sci /cc
~
2GE-125 Main Plant Exh. Duct (WRGM) il 7E-03 aCI/cc RE-116 Containment Purge (GAS) 3.CE46 sC1/cc 3GE-125 Main Plant Exh. Duct (WRGM) 8.7E-03 sci /cc RE-11 A Annulus Exhaust (GAS) 8.8E-02 ,Ctlcc GGE-125 Main Plant Exh. Duct (WRGM) 438405 aCI/sec RE-11B Annulus Exhaust (GAS) 8.8E-02 ,Cifcc RE-110P Aux. Bldg. Vent (PART) 2.0E-12 sci /cc RE-910G Aux. Bldg. Vent (GAS) 3.0E-08 sci /cc Off Gas Pre-treatment Monitor O mR,hr RE-118P Turbine B1dg. Vent (PART) 3.0E-11 .CI/cc RE-118G Turbine Bldg. Vent (GAS) 1.0E-10 aCI/cc Off Gas Post 4reatment Monitor o epm RE-924P C.DJO.G. Bldg. Vent (PART) 2.OE-10 aC1/cc Main Steam Une Radiation Monitor 1000 mR;hr l RE-124G C.D/O.G. Bldg. Vent (GAS) 2.OE-08 ,C1/cc Main Steam Une Radiation Monitor 1000 mRlhr 8.1E-05 sci /cc Main Steam Une Radiation Monitor 1000 mR,hr RE-126P Main Plant Exh. Duct (PART) . RE-126G Main Plant Exh. Duct (GAS) it.7E-03 .CI/cc Main Steam Une Radiation Monitor 1000 mRfhr
- - Indicates Alarming O$H -Indicates Offscale High !
AII other Process Monitors are *'as read
- I i
1991 PRACDCE EXERCISE Clock Time = E41 Message Number = 24 Scenario Tome = 05/45 l RfVER BEND STATION ' EMERGENCY PREPAREDNESS PRACTICE EXERCt"4 4 MESSAGE I I T s l *** THIS IS A DRILL ***
; i i
Message To: Contml Room 4 Plant Status Update . 4 ! i i l 4 i i t i t i l i i 1
4 1991 PRACTICE EXERCISE Cloc.* Time = 1345 i Message Number = 24 Scenario Time = 05/45 l RfVER BEND STATION EMERGENCY PREPAREDNESS PRACTICE EXERCISE CONTROt.l.ER INFORMATION
*** THIS IS A DRft.L ***
Controller information: Expected Actions- ; Plant is in a cold shutdown condition. Monitor plant and environmental conditions. i l Consolidate recovery plans. i t i i k P
Clock Time - 1345 1991 PRACTICE EXERCISE Scenario Time - 05/45 Message Ntmber - 24 RIVER BEND STATION EMERCENCY PREPAREDNESS EXERCISE CONTROL ROOM DATA PANEL 601/877 PANEL 601 PANEL 680 Status Press Flw SRV RED CRN AC.MN IUTER 04 APP 3 IIVEL 40" !a RIIR A SDC 5200 ET)41A _QFF__ ON OFF RIIR B SPC 5700 F041B OFF ON OFF CNS PIA OP WS PIA OP RIIR C SS 0 F041C OFF ON OFF FVS PIB SS CNS PIB SS F041D OFF ON OFF CNS PIC SS fv5 FIC SS LPCS SS 0 ft)41F OFF ON OFT F041C OFF ON OFF Total Feedsater Flow + M1bs./hr } RCIC OOS 0 0 ET)41L OFT ON OFF * - As Eequired [
!!PCS SS 0 0 ET)47A OFT ON OFF ET)47B OFF ON OFF pgggt gog CRD A OP 1900 75 FV47C OFF ON OFF CRD B Av 0 0 F047D Off CN OFF Temp Level Press OFF F047F OFF ON DRWM .1.5 M Se s ib Press IEvel F0513 OFF ON OFF 0.6 CTMT fl*
SLC A OOS O 320 pt) SIC OFF _pN OFF SPR PL g 24*4* SLC B OFF 0 EV51D OFF ON OFF ET) SIC OFF ON OFF PANEL 870/601 Press Imvel Ranr_e MSIV RED CRN RPV 1 40" VR SVP P2C OP ON S'4P P2A OF_ F1)22A OFF SVP P2B OF SVP P2D OP DIV I DIESEL S S .. F022B Off ON F1)22C _01 ON DIV II DIESEL SS PANEL E63 F022D OFF Og DIV III DIESEL SS EV28A 0FF ON l SCIS A _Qf_, SCTS B _55._ sR=STAC5Y RIAOY F028B 0FF. ON or-OPDA!!NG ISOL cw r or sav:cz ss-s e stares IV28C OFF 09 D/IT COOIIRS OPERATING
*"
- CTMT COOIIRS OPERATING A F028D OFT ON
__i _}}