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| | number = ML20011D535 | | | number = ML20011D535 |
| | issue date = 11/15/1989 | | | issue date = 11/15/1989 |
| | title = Public Version of Exercise Manual for Fort St Vrain Nuclear Generating Station,Nrc/Fema Graded Exercise on 891115. | | | title = Public Version of Exercise Manual for Fort St Vrain Nuclear Generating Station,Nrc/Fema Graded Exercise on 891115 |
| | author name = | | | author name = |
| | author affiliation = PUBLIC SERVICE CO. OF COLORADO | | | author affiliation = PUBLIC SERVICE CO. OF COLORADO |
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| =Text= | | =Text= |
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| p-EXERCISE MANUAL -
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| y FORT ST. VRAIN NUCLEAR GENERATING STATION v
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| s NRC/ FEMA GRADED EXERCISE NOVEMBER 15, 1989 e
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| l PUBLIC SERVICE COMPANY OF COLORADO ,
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| 1 15i2270368 89Dg15 PDR ADOCK 05000267 PDv
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| l9, in FOSAVEX-89 GRADED EXERCISE MANUAL r
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| l TABLE OF CONTENTS SECTION PAGE l
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| 1.0 . Schedule of Events 1.0-1 -
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| P 2.0 Scope and Objectives 2.0-1 !
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| 2.1 Scope '
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| . 2.1-1 g
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| 2.2 Objectives '2.2-1 3.0 Guidelines and Instructions b-1 L 3.1 Guidelines 3.1-1 3.2 Player Instructions 3.2-1 4.0 Controller / Observer Information 4.0-1 4.1 Precautions and Limitations 4.1-1 4.2. Assignments 4.2-1
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| . 4.3 Instruct'ons 4.3-1 >
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| .(-. 4.4 Emergency Response Facilities 4.4-1
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| . 4.5 Evaluation Sheets 4.5-1 5.0 Scenario 5.0-1 1 5.1~ Narrative Summary 5.1-1 5.2 Initial Conditions 5.2-1
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| - 5.3 Detailed Scenario. 5.3-1 5.4 -Scenario Time Line 5.4-1
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| ' 6.0- Scenario Data Package 6.0-1 i o Plant Messages
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| -o Offsite Messages o Plant Parameters l
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| Kl F TABLE OF CONTENTS (Cont.)- ,
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| I SECTION PAGE i 7.0 Onsite. Radiological Data 7.0-1 )
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| 7.1 Plant Monitoring Data 7.1-1
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| .7.2 Radiation / Chemistry Data 7.2-1 1 7.3 Plant Area Radiation Levels 7.3-1 4, ,
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| 8.0 Offsite Radiological Data 8.0-1 j
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| 8.1 Meteorological. Data 8.1-1 8.2 Release Rate / Dose Assessment 8.2-1 8.3 Field Monitoring Data 8.3-1 8.4. Maps 8.4-1 9.0 References 9.0-1 9.1 Procedure Index 9.1-1 9.2 Key Documents 9.2-1 l.
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| ; SECTION 1.0- ,
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| SCHEDULE OF EVENTS Figure' 1-1 provides the schedule for the 1989 Fort St. Vrain NRC Graded Exercise (FOSAVEX-89) which will be conducted on November 15, 1989.
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| uAt the Controller /0t: server briefing scheduled for November 8,1989, the specific details of the scenario will be presented. It will also provide a forum for discussing any problems encountered during the 1989- Dress Rehearsal. Adaitionally, key milestones will be identified and corresponding Controller / Observer actions will be-discussed. Final Observer assignments will be made and any questions relating to the -scenario, or the responsibilities of the Controllers / Observers, will be answered.
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| The Controller / Observer debriefing will occur immediately after the exercise is terminated 'by PSC/NRC/ FEMA. Each Controller / Observer
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| '/'
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| will be. expected to provide a brief synopsis of his/her findings ;
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| . 1'-"
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| (both positive and negative). The Lead Controller / Observer will summarize these findings and will serve as the primary exorcise '
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| spokesperson at the PSC/NRC/ FEMA critique. A preliminary exerc1se
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| -report will be provided to the NRC at the conclusion of the critique.
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| 2.0-1 SECTION 2.0 ,
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| SCOPE AND OBJECTIVES b
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| SECTION PAGE
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| 2.1 Scope 2.1-1 2.2 Objectives 2.2-1 l
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| 2.1 SECTION 2.1
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| ;) ,~ .
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| c ,G SCOPE OF FOSAVEX-89 SCOPE OF FOSAVEX-89 The 1989. Fort St. Vrain NRC/ FEMA Graded Exercise, known as FOSAVEX 89, will be held on November 15, 1989.- FOSAVEX' 89 is
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| * intended to provide a mechanism by which Public Service Company ofColorado(PSC),theStateofColorado,and Weld County can test their respective Radiological Emergency Response Plans (RERPs). FOSAVEX 89 will also provide the means by which all three entities can coordinate activities and test their ability.
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| to " protect" the health and safety of the general public.
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| The exercise scenario will depict a series of simulated events which will necessitate a number of specific response actions to be taken by PSC. These response actions are defined in the Fort St. Vrain Radiological-Emergency Response Plan and Implementing Procedures, and are intended to safeguard the health and safety
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| , of the general public, plant personnel, as well as the environment. _The scenario is being planned such that major elements of the FSV RERP Plan and Procedures are tested. It is
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| - f. also being structured to allow the State.and County to practice y" their response activities at the State Emergency Operations Center (SE00) and the Forward Command Post (FCP).
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| Since, by necessity, certain elements of FOSAVEX-89 are simulated, whenever practicable, the exercise will incorporate '
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| provisions for " free play" on the part of the participants. The only restrictions on this concept will be if Player actions would prematurely terminate the Exercise, or would restrict the scenario in such a manner that it would not provide an opportunity for PSC, or the State / Local Agencies to meet their objectives (see Section 2.2).
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| As previously stated, certain elements of FOSAVEX-89 are simulated. Attached is the proposed table depicting which activities are to be simulated and which ones are to actually
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| =
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| occur. -
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| Activities associated with FOSAVEX-89 will be observed by '
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| qualified controllers, observers and auditors from PSC. Section 4.0 provides information on how and to what criteria the exercise is to be graded. A critique will be conducted following the exercise. Any deficiencies will be noted, and will form the basis for establishing corrective actions.
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| TABLE 2.1 '
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| :(:, ,
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| - (;. SCOPE OF FOSAVEX 89 ACTUAL VS. SIMULATED EVENTS EVENT ACTUAL $1MULATED
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| : 1. ACCIDENT ASSESSMENT.
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| ~
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| Ability to properly recognize and X characterize simulated events.
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| Perform dose calculations using X simulated meteorolchical and release rate data. .
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| Perform field monitoring - X establish radiation levels onsite and offsite.
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| Establish extent of core damage. X Perform equipment repair X
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| ~ 4 ".L. 2. ACTIVATION OF EMERGENCY FACILITIES Q: Activate and staff all primary X Emergency Response Facilities (ERFs).
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| Establish functional adequacy X of ERFs.
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| Use appropriate equipment and X supplies to respond to emergency.
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| : f. 2.1-3
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| .m TABLE 2.1(Cont.) l EVENT ACTUAL- SIMULATED :
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| I
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| '3. NOTIFICATION AND COMMUNICATION
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| " Notify Plant, Corporate, Federal, X ;
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| -State and Local emergency ,
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| response personnel.
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| Conduct follow-up notifications - X verify communicaticCs. _
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| l Communicate with onsite and X !
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| offsite response teams.
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| Support " rumor control" activities. X Conduct press conferences. X
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| . Notification of general public X via sirens and Tone Alert Radios.
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| ' NOTE: The FSV EWA system will be activated. The exact !
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| activation time will be coordinated with FEMA.
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| Direct notification of persons X living on PSC property.
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| : 4. ORGANIZATION CONTROL Augment the on-shift X emergency organization.
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| Activate the PSC emergency 'X response organization Coordinate with State / Local X response organizations.
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| Coordinate with Federal X response organizations. ,
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| Provide management control of X the emergency, t
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| EVENT ACTUAL SIMULATED 5; HEALTH PHYSICS / SECURITY I
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| -Receive and analyze field X monitoring data. -
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| Provide adequate radiation X
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| . protection services (dosimetry, monitoring, habitability,etc.).
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| Conduct a search and rescue X operation.-
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| Site evacuation of X non-essential personnel.
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| Use of protective clothing. X Simulate use outside owner controlled area.
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| Provide first aid for an X Transportation injured and contaminated. to hospital will.
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| individual. be simulated.
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| Decontaminate personnel ard X equipment.
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| Conduct initial accountability. X Maintain-onsite accountability. X t
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| Maintain plant Security under X emergency conditions.
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| Comply with the. Security Plan X under 0NSITE Radiological Conditions. ,
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| : 6. PROTECTIVE ACTIONS Assess and recommend protective X actions.
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| Warn / advise onsite personnel X about emergency situation.
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| SECTION 2.2 OBJECTIVES OF FOSAVEX-89 L ,
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| The . objectives of the Fort Lt. Vrain (FSV) 1989 Emergency [
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| Preparedness Exercise Program are based on Nuclear Regulatory Commission. (NRC) requirements set forth in 10CFR50.47, Appendix E. Data provided in NUREG's 0654 (Rev. 1), 0696, and 0737 , . ,
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| -t (Supplement 1) as well as previous FSV exercise results were used in developing the objectives.
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| The exercise will include tSe activation of the PSC Emergency -
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| Response Facilities. It will also include participation by State and Local support groups. The FSV Early Warning Alert (EWA) System within the five mile emergency planning zone will be activated in. association with FOSAVEX-89. The exact time of the EWA System activation will be coordinated with FEMA.
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| The overall objective of FOSAVEX-89 is to evaluate the effectiveness and capabilities of the FSV Emergency Preparedness Program. The scenario is structured to provide a mechanism which will accurately test the adequacy of both the onsite and offsite elements of the Emergency Preparedness Program.
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| Another objective of FOSAVEX-89 is to demonstrate the ability of the Observers / Controllers and Auditors to conduct an exercise, and. evaluate the response of the FSV Emergency Response Organization. At the conclusion of the exercise, a critique will be held to evaluate the various activities of F0SAVEX-89, accordingly, another objective of this process is to demonstrate the ability to conduct an effective self evaluation of the exercise.
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| Another major objective of FOSAVEX-89 is to establish the effectiveness of the updated State and Local Emergency Response Plans. These plans have been updated using a new format (i.e. -i checklists). Any procedural deficiencies discovered will be noted and corrected in future revisions to the plan (s).
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| 2.2-2 Public Service Company of Colorado has established the following
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| . objectives for FOSAVEX 89:-
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| , ACCIDENT ASSESSMENT
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| : 1. -Demonstrate proficiency in recognizing and classifying-emergency conditions according to pre-established '
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| Emergency Action Levels (EALs).
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| : 2. Demonstrate the ability to perform dose calculatians using radiological and meteorological information to establish the impact to the environment.
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| 3.- Demonstrate the effectiveness of the radiological monitoring teams (onsite and offsite) to establish radiation levels and to effectively track the plume.
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| 4 Demonstrate the ability to coordinate activities with state field teams.
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| ACTIVATION OF EMERGENCY FACILITIES
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| : 1. Demonstrate the ability of station and corporate personnel to activate and staff the emergency response facilities within 90 minutes of a declaration of an ALERT or higher emergency classification.
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| : 2. Demonstrate the transition of responsibilities between emergency facilities.as a result of escalating accident classifications.
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| : 3. Demonstrate the functional capabilities of equipment (including status boards, radiation monitoring equipment, etc.) in the Personnel Control Center, Technical Support Center, Forward Command Post, State Emergency Operations Center, and the Executive Command Post.
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| : 4. Demonstrate the ability of the Emergency Coordinator to properly select the correct location for the Personnel Control Center.
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| .I 2.2-3
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| NDTIFICATION AND COMMUNICATION 1.: Demonstrate the effective notification of Plant, Corporate, Federal, State and Local- emergency response -
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| personnel.
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| : 2. Demonstrate' that . initial notifications (and follow-up) ' ,
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| are v(rified and logged.
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| : 3. Demonstrate the effectiveness and reliability of the emergency communications equipment.
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| : 4. Demonstrate the ability .to communicate with inplant monitoring teams, search ano rescue teams, and other station personnel as needed. 2
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| : 5. Demonstrate the ability to communicate with the offsite radiological monitoring teams.
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| ^
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| : 6. Demonstrate the capability to obtain, coordinate and )
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| assemble emergency information for timely dissemination to the public via the media (actual press releases will be simulated).
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| : 7. Demonstrate the ability of PSC to respond directly to 1 simulated input from the public concerning "real" vs.
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| " rumored" events.
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| .v-ORGANIZATIONAL CONTROL
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| : 1. Demonstrate the capability to technically evaluate accident conditions and implement. appropriate response procedures.
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| : 2. Demonstrate the ability of the Control Room Director, TSC ' '
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| Director, PCC Director, and the Corporate Emergency Director to manage and/or' support the emergency organization in accordance with the FSV Emergency Plan' and Implementing Procedures.
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| : 3. Demonstrate the abilities of the FSV response organizations to coordinate decision making actions with NRC/ State / Local representatives in the Control Room, TSC, FCP, and SEOC, as necessary. ,
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| 4 .- Demonstrate the ability of FSV emergency organization personnel to properly brief Search and Rescue, Fire Brigade, Corrective Action Teams and other response personnel.of the emergency situation.
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| : 5. Demonstrate the ability to coordinate activities with FSV
| |
| ;(( outside support groups in responding to the emergency, as necessary.
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| : 6. Demonstrate the ability of the PSC response organization to follow established procedures.
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| L 2.2-5 I- y HEALTH PHYSICS / SECURITY
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| : 1. Demonstrate the ability to perform and maintain site accountability -and simulate site evacuation, as
| |
| - appropriate.
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| - 2. Demonstrate the ability to provide adequate radiation
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| * protection services such as dosimetry, personnel monitoring, and habitability determinations onsite and offsite.
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| : 3. Demonstrate the ' ability to perform area surveys under emergency conditions. ,
| |
| : 4. Demonstrate the ability to monitor and control emergency worker exposure (i.e. various teams) within the plant.
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| 5, Demonstrate 'the ability to decontaminate personnel as needed.
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| : 6. Demonstrate the ability to provide onsite first aid for an injured -individual who has been contaminated.
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| (Transportation to the offsite medical facility will be simulated).
| |
| : 7. Demonstrate the capability of offsite radiological monitoring teams to perform radiation monitoring and to collect samples.
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| : 8. Demonstrate the ability to maintain plant security under emergency conditions.
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| : 9. Demonstrate the ability to conduct timely dose projections in accordance with established RERP Procedures.
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| 10.-Demonstrate the ability of-the Security force to comply with the- Security Plan under' onsite radiological conditions, i
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| m PROTECTIVE ACTIONS
| |
| - 1. Demonstrate knowledge of the Protective Action Guides (PAGs).
| |
| : 2. Demonstrate the ability to make protective action recommendations to offsite authorities. ,
| |
| : 3. Demonstrate ability to recognize that appropriate ,
| |
| protective actions have been implemented by the offsite agencies.
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| | |
| 2 4 m 2.2-7 State- and Local agencies have established the following objectives for FOSAVEX 89:
| |
| Primary Objective: ,
| |
| To evaluate the' effectiveness of the revised Colorado Radiological Emergency Response Plan: (August 1989) and to determine if each level of the Radiological Emergency Response Organization can effectively carry out it's responsibilities. ,
| |
| Summary Objectives:
| |
| : a. Notification procedures and public warning dissemination systems, including activation of the NOAA Weather Radio ;
| |
| -Network, the Platteville Siren and transmission of exercise warning messages to the Emergency Broadcast System. The exset' time. for siren activation will be coordinated with FEMA.
| |
| : b. Deployment of- response elements and their direction and cent .,1, including activation of the Forward Command Post (FCP, .nd establishment of a secure area and traffic access Control. i
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| : c. . Radiological monitoring, assessment,.and reporting by
| |
| -(- field-deployed State Health Department radiological monitoring teams, through the FCP to the State Emergency OperationsCenter(SEOC).
| |
| : d. Operational communications and associated direction and control procedures at all levels,
| |
| : e. Dissemination of official information to the news media (if present for FOSAVEX 89 activities) and the general public.
| |
| . Specific Objectives:
| |
| J FEMA OBJECTIVE 1 - EMERGENCY CLASSIFICATION LEVELS:
| |
| Demonstrate the ability to monitor, understand and use emergency classification levels (ECLs) through the appropriate implementation of emergency functions and -
| |
| I activities corresponding to ECLs, as required by the scenario.
| |
| FEMA OBJECTIVE 2 - MOBILIZATION OF EMERGENCY PERSONNEL I 1
| |
| Demonstrate the ability to fully alert, mobilize and .
| |
| activate personnel for both facility and field-based l emergency functions.
| |
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| (; a 2.2-8 FEMA OBJECTIVE 3 - DIRECTION AND CONTROL ,
| |
| ~ Demonstrate the ability to direct, coordinate and control emergency activities. ..
| |
| FEMA OBJECTIVE 4 - COMMUNICATIONS l
| |
| Demonstrate the ability to communicate with all appropriate locations, organizations and field personnel. ,
| |
| FEMA OBJECTIVE S - FACILITIES, EQUIPMENT AND DISPLAYS Demonstrate the adequacy of facilities, equipment, displays and other materials to support emergency operations, FEMA OBJECTIVE 6 - EMERGENCY WORKER EXPOSURE CONTROL Demonstrate.the ability to continuously monitor and control emergency worker exposure.
| |
| FEMA OBJECTIVE 7 - FIELD MONITORING Demonstrate the appropriate equipment and procedures for determing field radiation measurements.
| |
| -( -
| |
| FEMA OBJECTIVE 8 - FIELD MONITORING (RADI0 IODINE SAMPLING) i Demonstrate the appropriate equipment and procedures for the measurement of airborne radiciodine concentrations.
| |
| FEMA- OBJECTIVE 9 -
| |
| FIELD MONITORING (PLUME SAMPLE PROMPT LABORATORY ANALYSES) e Demonstrate the ability to obtain samples of particulate l
| |
| activity in the airborne plume and promptly perform l laboratory analyses. (New Objective) l FEMA OBJECTIVE'10 - PLUME DOSE PROJECTION 1
| |
| l L
| |
| Demonstrate the ability, within the plume exposure pathway, h to project dosage to the public via plume exposure, based '
| |
| on plant and field data.
| |
| FEMA OBJECTIVE 11 - PLUME PROTECTIVE ACTION DECISION MAKING Demonstrate -the ability to make appropriate protective action decisions, based on projected or actual dosage, EPA PAGs, availability of adequate shelter, evacuation time estimates and other relevant factors.
| |
| I 1 i
| |
| L i . _ _ _ _ _ . _ . _ , _
| |
| | |
| 2.2-9 d( '
| |
| FEMA- OBJECTIVE 12 -
| |
| ALERT, NOTIFICATION AND EMERGENCY .
| |
| INFORMATION (PUBLIC ALERTING AND NOTIFICATION) l I
| |
| Demonstrate the ability to initially alert the public !
| |
| within the- 5-mile EPZ 'and begin dissemination of an instructional message within 15 minutes of a decision by=
| |
| appropriate State and/or Local officials.
| |
| FEMA OBJECTIVE 13 -
| |
| ALERT, NOTIFICATION AND EMERGENCY-
| |
| * INFORMATION (EMERGENCY PUBLIC INFORMATION)
| |
| 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. , j FEMA OBJECTIVE I4- - ALERT, NOTIFICATION AND EMERGENCY INFORMATION(MEDIABRIEFINGS)
| |
| Demonstrate the ability to brief the media in an accurate, coordinated and timely manner.
| |
| FEMA OBJECTIVE 15 -
| |
| ALERT, NOTIFICATION AND ENERGENCY '
| |
| INFORMATION(RUMORCONTROL)
| |
| ^
| |
| - Demonstrate the ability to establish and operate rumor control in a coordinated and timely fashion.
| |
| FEMA OBJECTIVE 16 - USE OF KI (KI FOR EMERGENCY WORKERS)
| |
| Demonstrate the ability to make the decision to recommend the use of KI'to emergency workers and institutionalized persons, based on predetermined criteria, as well as to distribute and administer it once the decision -has been made, if necessitated by radioiodine releases, k
| |
| FEMA OBJECTIVE 19 - IMPLEMENTATION OF PROTECTIVE ACTIONS (SCHOOL PROTECTIVE ACTIONS)
| |
| Demonstrate the ability and resources necessary to implement appropriate protective actions for school h11dren within the plume EPZ. -
| |
| FEMA OBJECTIVE 20 - TRAFFIC CONTROL (TRAFFIC AND ACCESS CONTROL)
| |
| Demonstrate the organizational ability and resources
| |
| : 1. necessary to control evacuation traffic flow and to control access to evacuated and sheltered areas. l l l L
| |
| )
| |
| z J l
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| ' e s- av A- w es>
| |
| | |
| 6 4 t M
| |
| 5 l ' .
| |
| : m. l
| |
| ?. 2 .
| |
| l lf' FEMA OBJECTIVE 25 . DECONTAMINATION l
| |
| Demonstrate -the ' adequacy of facilities,. equipment, supplies, procedures and personnel for decontamination- of c emergency workers, equipment and vehicles, and for waste-1 :- . disposal.
| |
| I l ^ _, t, - 1 l
| |
| : 6. '
| |
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| 3.04 c
| |
| ( J ?
| |
| 6 K ;j'. <.
| |
| , L, a SECTION 3,0 ;
| |
| EXERCISE GUIDELINES
| |
| ~AND INSTRUCTIONS
| |
| " SECTION PAGE ,
| |
| f ';
| |
| 3.1 Guidelines 3,3 3
| |
| -t 3.2 Player Instructions 3.2-1
| |
| ^
| |
| F f
| |
| f i
| |
| e 1
| |
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| 3.3-1 ;
| |
| SECTION 3.1 l 1( GUIDEl.INES FOR CONOUCTING FOSAVEX-89 l
| |
| ~
| |
| This section of the manual is intended to provide guidance for conducting FOSAVEX-89. All Key Players will have had an opportunity '
| |
| to review this material prior to the exercise.
| |
| Simulating Activities ;
| |
| -Since drill exercises are intended to demonstrate actual emergency response capabilities, the participants of FOSAVEX-89 should act as they. would during a real emergency situation. However, since exercise Players are " graded.," it is important that a certain level i of " actin 0" be done. Thas is especially important in areas that
| |
| - would normally be accomplished quickly without much notice because the events are simulated (e.g., checking monitoring -equipment, conducting habitability surveys, etc.). In these types of situations the- participant- should inform a Controller / Observer that a
| |
| " habitability. survey" has just been completed and that, for example, the TSC Director _was informed of the " findings."
| |
| Since this is an opportunity to -test the response organization, wherever~possible, actions should be carried out to the fullest extent, practicable. Only when it is not feasible to perform an action, should it be simulated. Any _ orders- given, that- for any
| |
| _f'' reason-cannot or should not actually be-performed, should be prefaced with the word " Simulate". For example, you would simulate, carrying 1
| |
| a contaminated, injured- individual up a flight of stairs to the ambulance. Where such actions are being simulated, it is suggested that participants _ inform any Controller (s)/ Observer (s) in the area what specific actions would have been:taken had the emergency been real. In the example cited above, specific radiological / medical precautions that would be taken should be discussed with the Controller (s)/0bserver(s).
| |
| Radiation Work Permits (RWP's) will not be issued for FOSAVEX-89. If scenario events direct Players to areas that are actually RWP j.
| |
| controlled, Players will simulate activities that would have occurred
| |
| ' inside the area. Under no circumstances should anyone enter an RWP controlled area even if they are authorized to do so.
| |
| Public Protection l
| |
| l' Intentionally violating the law is unacceptable during any exercise. 1 1 Participants should not ignore posted traffic laws (e.g., speed limits, stop signs, etc.). Additionally, offsite field monitoring teams should pay particular attention to public/ private lands (e.g.,
| |
| farming operations, livestock, etc.).
| |
| 1
| |
| (
| |
| t -
| |
| 1 l- '
| |
| I
| |
| ,< l w ;
| |
| | |
| \
| |
| 3.1-2 E Since the actions of Federal, State, local and Utility organizations receive continuous- public scrutiny, it is possible
| |
| 'f that the
| |
| & activities associated with FOSAVEX-89 could be misrepresented.
| |
| L Therefore, it is imperative that all communications that can be monitored 'by members of the general public (radios, loudspeakers, etc.) be prefaced and concluded with the words, "This is a . drill; This is a drill." -
| |
| Maintaining Emergency Readiness During FOSAVEX-89 the ability to recognize a real emergency, terminate the exercise, and respond to the new situation- must be '
| |
| maintained. Therefore, the exercisa scenario and.. actions of participants will not include any actions which seriously degrade the
| |
| . condition of systems, equipment or supolies, or affect the detection, assessment, or response capability to radiological or other emergencies.
| |
| Actions taken by the participants will also avoid actually reducing plant or public safety. The potential for creating real. radiological !
| |
| or other emergencies will be specifically avoided.
| |
| -If a real emergency occurs during the exercise, requiring the actions of' plant and corporate personnel, the exercise will be terminated.
| |
| All messages about real events will be clearly identified as such.
| |
| For example, precede a real message with: "This is NOT, repeat, NOT .
| |
| l an exorcise message."
| |
| j
| |
| '1 i
| |
| \ ..
| |
| .N
| |
| | |
| y 3.2 y s
| |
| SECTION 3.2 .
| |
| , PLAYER INSTRUCTIONS
| |
| -l 1
| |
| Since the; primary purpose for conducting an annual graded emergency exercise is to enhance the effectiveness of the FSV Emergency Preparedness Program, it is important -that .the program receives-feedback from both Players and Observers. As previously stated, it is:important that the scenario events be' treated as "real" situations requiring immediate actions and responses. As part of this response, '
| |
| certain procedures, equipment, and' facilities may -prove to be-inefficient or totally inadequate. To improve the program, Players are requested to review the attached ~ questionnaire. At the ,
| |
| conclusion of the-exercise,-you should complete the form and forward
| |
| - it to a PSC Controller / Observer or Renee Millison at FSV. Every PSC Controller /0bserver will have additional forms if needed.
| |
| o L
| |
| 1 l
| |
| l--
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| |
| ' t
| |
| .e sn s n--.- g, s,+-- w- r - we- -w w 7 w ee v+e----*- ,
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| * w-=- ---*w w--e -<s-6v w * - --+w -ww-- V
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| | |
| i pf 1 3.2 -
| |
| \
| |
| PARTICIPANT QUESTIONNAIRE _;
| |
| 1
| |
| ^
| |
| In' order to identify- areas requiring improvement within the FSV l Radiological Emergency Response Plan, you are requested to answer the j following questions. Please be candid, constructive criticism is J appreciated. Please make comments.. identifying any deficiencies you feel exist. ]
| |
| Upon' completion,- please return to a PSC Controller / Observer or return I n via Company mail to Renee Millison, Emergency Preparedness, at. Fort .
| |
| St. Vrain. Thank you for your assistance. l
| |
| - 1. Name(optional)
| |
| Emergency Response Center
| |
| : 2. Approximate time you received initial notification: ,
| |
| : 3. Approximate time of your arrival at your emergency response center:
| |
| : 4. Please briafly describe your functions / responsibilities:
| |
| : 5. Do you feel as though you have been adequately trained to fulfill your duties?
| |
| : 6. What RERP Implementing Procedures, if any, did you utilize or reference?
| |
| sme
| |
| | |
| c lb .
| |
| (
| |
| p 3.2-3 t
| |
| : 7. Were the procedures easy to locate?
| |
| : 8. Did the procedures adequately describe your functions and/or ,
| |
| responsibilities?
| |
| W 9. Did you utilize checklists provided in the procedures?
| |
| If so, were the checklists: <
| |
| : a. Compatible with the procedure?
| |
| i
| |
| -b. Able to be used without referring back to the procedure?
| |
| : c. Compiete (i.e., did they contain all appropriate steps)? _
| |
| h If not, _ would a checklist have been helpful to you in complete- ;
| |
| your assigned duties?
| |
| : 10. Was the equipment and/or material available at your response ,
| |
| center adequate? If not, please list any items that would have been helpful to you:
| |
| P m
| |
| : 11. Were the communications systems used (i.e., radio, telephone, etc.) at your facility adequate?
| |
| ~.
| |
| .n 9 2
| |
| .:Q
| |
| | |
| f
| |
| 't i
| |
| 3.2-4 :
| |
| (=%.,
| |
| l
| |
| : 12. Were internal communications (i.e., messages, status boards, l r
| |
| etc.) handled effectively? !
| |
| 1 r
| |
| : 13. Were you aware of events as they occurred? . ,
| |
| : 14. Comments: Please use this space to comment on any aspect of the exercise. Again, constructive criticism is appreciated.
| |
| [(' . ,* {
| |
| t i
| |
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| |
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| (((' !
| |
| 4.0-1 l l
| |
| SECTION 4.0 j
| |
| ?
| |
| CONTROLLER /0BSERVER INFORKATION SECTION PAGE ,
| |
| t 4.1 Precautions and Limitations 4.1-1 i
| |
| 4.2 Observer Assignments 4.2-1 ;
| |
| .i 4.3 Instructions 4.3-1
| |
| -(
| |
| 4.4 Emergency Response Facilities 4.4-1 ,
| |
| l
| |
| - 4 t
| |
| 4.5 Evaluation Sheets 4.5-1 Control Room Technical Support Center .
| |
| Personnel Control Center Forward Command Post '
| |
| . Executive Command Post
| |
| * State Emergency Operations Center Security Force Onsite Radiological Monitoring Offsite Monitoring Teams Corrective Action (Repair) Teams -
| |
| First Aid / Search and Rescue - FSV Fire Brigade b
| |
| .e- .
| |
| w --
| |
| *9% -
| |
| g
| |
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| |
| | |
| I 4.8-a SECTION 4.1
| |
| 'h PRECAUTIONS AND LIMITATIONS Introduction Public Service Company of Colorado representatives will serve as Controllers / Observers for FOSAVEX-89. Each Controller / Observer has, as a minimum, an Exercise Manual containing Sections 1.0 thru 5.0 and Section 9.0 and should be familiar with the following: ,
| |
| : 1. The basic Objectives of the exercise (Section 2.2). ,
| |
| : 2. The Guidelines and instructions provided to the Players -
| |
| (Section3.0).
| |
| : 3. The exercise scenario, including the initiating events (Section 5.1 and 5.2).
| |
| i
| |
| : 4. The various onsite and offsite locations that will be utilized by the Players when responding to the scenario events ,
| |
| (Sections 4.4,7.3,and8.4).
| |
| : 5. The exercise evaluation form (Section 4.5).
| |
| gt Since the various state and local response organizations will .
| |
| participate in FOSAVEX-89, Controllers / Observers from the State and
| |
| ("' FEMA will be in the FCP and SEOC. Any questions from these Observers should be directed to the Senior Controller / Observer at the FCP or
| |
| - SEOC.
| |
| Precautions and limitations In addition to reviewing the five areas described above, all e Controllers / Observers u st be aware of the following:
| |
| : 1. Should, at any time during the course of the conduct of this exercise, an actual emergency situation arise, all activities and communications related to the exercise will be suspended.
| |
| It will be the responsibility of any exercise Controller / Observer that becomes aware of an actual emergency to suspend exercise response in his/her immediate area and to inform a Lead Exercise Controller of the situation. Upon notification of any actual emergency, a Lead Exercise Controller may notify all other Controllers / Observers to suspend all exercise activities. A Lead Exercise Controller together with the TSC Director and/or the Corporate Emergency Director will make a cetermination at that poir.t whether to continue, suspend, or terminate the exercise.
| |
| t.
| |
| gee -, ogMen sp90s P e G **W aw'M
| |
| .m. g-, .- - , ,.-. p.,.- ..v,.y 3_, ,i, y- ,w,-- --y--
| |
| | |
| 4.1-2
| |
| : 2. Should, at any time during the course of the conduct of this i exercise, an exercise Controller / Observer witness an exercise participant undertake any action which would, in the opinion of the Controller / Observer, place either an individual or plant component in an unsafe condition, the Controller / Observer must
| |
| - attempt to terminate the unsafe activity immediately.
| |
| Upon termination of the activity, the Controller / Observer is responsible for contacting a Lead Exercise Controller and informing him of the situation. A Lead Exercise Controller, together with the TSC Director and/or the Corporate Emergency Director, will make a determination at that point whether to
| |
| * continue, place on hold, or terminate the exercise.
| |
| : 3. Manipulation of any plant operating systems, valves, breakers, or controls in response to this exercise are only to be simulated. No alteration of any plant operating equipment, systems, or circuits in response to this exercise should occur.
| |
| 4, All repair activities associatea with the exercise will be simulated. Extreme caution should be used when working near operating equipment.
| |
| : 5. All telephone commur.ications, radio transmissions, and public ;
| |
| address announcements related to the exercise must begin and end with the statement, "This is a drill '' Should a Controller / Observer witness an exercise participant not observing this practice, it is the Controller / Observer's
| |
| ' responsibility to remind the individual to follow this practice. ,
| |
| : 6. Any motor vehicle responding in this exercise, whether for I medical, rescue, fire fighting, field monitoring, etc., should '
| |
| observe all normal traffic laws including posted speed limits, stop lights / signs, one way streets, etc. Controllers / Observers should ensure that exercise participants follow these ;
| |
| requirements.
| |
| : 7. Care must be taken to prevent any individual not involved with tne exercise from believing that an actual emergency exists. '
| |
| Any Controller /Observetr who believes that this situation exists, should approach that individual and explain the nature of the exercise and its intent.
| |
| : 8. If a Controller / Observer is aware of any of the above situations, he or she should immediately identify the situation -
| |
| to a Lead Exercise Controller.
| |
| i l
| |
| , "G w . - - - *- = -----w ,v: ,, ,.,.,.y ..__7 , . . , , _ - _ , _ , , _ _ , ,
| |
| | |
| e ;
| |
| 4.2-1 i SECTION 4.2
| |
| (-
| |
| ( CONTROLLER /0BSERVER ASSIGNMENTS P
| |
| Provided below are the Controller / Observer Assignments for :
| |
| FOSAVEX-89. The Lead Exercise controller (s) are responsible for all activities associated with the exercise. Senior Controllers / Observers are responsible for activities within a specific Emergency Response Facility or for a specific response i activity (e.g.,fieldmonitoring,plantsurveys,etc.). ,
| |
| Facility / Activity Controllers / Observers
| |
| : 1. Lead Exercise Controller (s) kenee Millison John Rodell ;
| |
| : 2. Control Room To Be, Announced
| |
| : 3. Technical Support Center
| |
| : 4. Personnel Control Center Onsite Radiation Monitoring Offsite Radiation Konitoring "
| |
| Corrective Action - Repair Teams Medical Responses "
| |
| Fire Brigade
| |
| : 5. Site Security Force "
| |
| : 6. forward Command Dost t
| |
| : 7. Executive Command Post l
| |
| NOTE: Additional Controller / Observer locations to be identified later, along with " Senior" ERF Controller / Observer assignments.
| |
| stw
| |
| | |
| p
| |
| : 4. .M j
| |
| )
| |
| SECTION 4.3
| |
| ! CONTROLLER /0BSERVER INSTRUCTIONS i
| |
| \
| |
| L NOTE: Controller / Observer communication paths will be established, !
| |
| and all Controller / Observers will be informed, prior to the exercise. ,
| |
| Public Service Company of Colorado representatives are assigned as ;
| |
| i' Controllers / Observers at all key onsite and offsite exercise areas to monitor and cor. trol FOSAVEX-89. ,
| |
| i The activities of the ensite Controllers / Observers will be ,
| |
| coordinated by a Lead Exercise Controller. If unable to reach, contact the Senior Controller / Observer in the Technical Support '
| |
| Center (TSC),
| |
| The activities of the offsite Controllers / Observers will be coordinated from the Forward Command Post (FCP). Any logistic problems / questions should be directed to the Senior Controller / Observer at the FCP, Message forms and simulated Control Room data will be used to initiate, modify, and complete the events comprising the overall scenario. Selected Controllers / Observers will Jse the message forms to place the scenario events in effect and to trigger responses from the emergency response organizations. Each Controller / Observer will
| |
| ( have copies of the messages controlling the portion of the exercise scenario for which he/she is responsible. l Two kinds of messages will be used:
| |
| Contro11ina Messages used as a primary means of implementing scenario events by announcing or placing an event in effect by hypothesi:ing conditions resulting from previous actions.
| |
| Contineency Messages used at the discretion of the Controllers / Observers with the approval of a Lead Exercise Controller in order to maintain the scenario plan continuity or schedule. Contingency messages are noted with a number followed by a capital "C."
| |
| Controlling messages will be presented to the designated exercise participant at the time specified in the. event schedule. The Controller /Obse*ver should follow up with an explanation of the message and answer any questions to ensure that the participar,t understands the message.
| |
| ...e e
| |
| | |
| 4.3-2 Controllers / Observers will not provide information to the participants regarding scenario development or resolution of problem
| |
| ( ,- areas. The participants are expected to obtain information through their own organization and exercise their own judgement in determining response actions and problem resolution. In the event of incomplete responses, or if the participant indicates lack of knowledge of how to proceed, the Controller / Observer will prompt the participant with necessary instructions or contingency message cards and will so note these actions on his/her critique sheets.
| |
| It is important to note that the scenario events are hypothetical.
| |
| Any portions of the scenario depicting plant system operational '
| |
| transients are simulated events. No Control Room actions, or reactions involving operation of pTant systems or affecting generation capability, will be initiated. All exercise scenario messages are prefixed and suffixed with the words "this is a drill." .
| |
| Controllers / Observers stationed at areas vital to maintaining ,
| |
| generating capability should be especially aware and take extra precautions in issuing messages or giving instructions regarding the scenario events.
| |
| Some exercise participants may insist that certain parts of the <
| |
| scenario are unrealistic. The Controllers / Observers have the authority to clarify any questions regarding scenario content.
| |
| However, in some cases, it may be necessary to exercise " Controller's prerogative" and say, "This is due to exercise requirements to preserve tha continuity and objectives of the exercise".
| |
| k Prior to commencement, all telecommunications to be used by the Observers / Controllers should be tested to ensure satisfactory communications are available to coordinate exercise activities, i Additionally, all Controllers / Observers will synchronize their watches to ensure that messages are delivered at the proper time.
| |
| Controllers should report to their assigned location approximately 20 minutes prior to any player action.
| |
| Since some exercise activities will be conducted offsite, it is important to remember that members of the general public may observe some monitoring activities. Accordingly, to help alleviate any potential concerns, protective clothing will not be used outside the owner controlled area.
| |
| Table 4-1 provides additional 00's
| |
| ~
| |
| and 00N'T's for all Controllers / Observers.
| |
| .;;di
| |
| | |
| r 1 i j 4.3-3 ;
| |
| TABLE 4-1 !
| |
| CONTROLLERS'/0BSERVERS' RULES D0's
| |
| : 1. Know the overall Controller /ObserverOrganization(Section l 4.2). l
| |
| : 2. Remember that there may be two time designations: a scenario time and a clock time, i
| |
| : 3. Identify the players by name and function. !
| |
| : 4. Identify yourself at all times to all players. Wear ball caps and/or Controller / Observer tags as provided by PSC. .
| |
| : 5. Identify the phone (or radio for field teams) you will use to maintain communications with the Lead Controllers / Observers, r
| |
| : 6. Position yourself to maximize your effectiveness in issuing
| |
| * messages and observing the players. >
| |
| : 7. Be sure you understand the player's scenario script and the master scenario.
| |
| : 8. Keep the. play on schedule by checking your script.
| |
| ( 9. Issue the message on time. Make sure the players understand it.
| |
| : 10. Remember to call a Senior Controller /0bserver or Lead ,
| |
| Exercise Controller to report the status of players' actions ,
| |
| if off schedule or if in doubt about what to do. Call for advice if players significantly depart from the scenario .
| |
| script. These deviations could cause ma,jor delays or could !
| |
| terminate the exercise prematurely. If necessary, intervene ;
| |
| with player action and put players back on scenario track.
| |
| - 11. Allow the players reasonable flexibility to perform their functions and oemonstrate their skill, knowledge, and initiative.
| |
| : 12. Identify the federal evaluator (s). Make sure they are reasonably aware of your actions and those of the players. -
| |
| : 13. Make notes on eood and bad points of players' actions, the strengths and weaknesses, and areas for improvements. Use the Evaluation Sheets. ,
| |
| : 14. Attend the post-exercise critique session to provide your comments and recommendations.
| |
| 15 Iden'.i#y *he tiayers' haders. Work with them ts appropriate.
| |
| .w,. . -- ,- . -- , , - - - - - - -
| |
| | |
| )
| |
| 4.3-4 j
| |
| : 16. If a real emergency occurs and this affects the players, call i off your portion of the exercise, and notify a Lead Exercise
| |
| (..' Controller immediately. l
| |
| : 17. Be at your post at least 20 minutes prior to the beginning of any player actions. Set yourself up.
| |
| : 18. The federal evaluators will not issue " surprise" messages or '
| |
| direct " surprise" actions at the players. They must work through the Controller. This is essential for the success of ,
| |
| the exercise. !
| |
| *19. Controllers / Observe *s and federal evaluators, do not have to follow simulated radiation exposure control practices.
| |
| : 20. Controllers /Observern will be exempt from accountability and ,
| |
| have access to all necessary access areas (except security areas). .
| |
| DON'T's
| |
| : 1. Don't leave your post at key times, i
| |
| : 2. Don't prompt the players to take action.
| |
| : 3. Don't coach the players.
| |
| : 4. Don't criticize the players' actions during the play.
| |
| [-
| |
| : 5. Don't forget to call the appropriate Senior or Lead .
| |
| Controllers / Observers to seek advice or help as necessary. T
| |
| : 6. Don't allow external influences to distract the players. No interviews with players are allowed. ,
| |
| : 7. Don't allow simulation with respect to radiation protection practices or when equipment and facilities are available.
| |
| However, don't allow any player to operate any equipment which would impact plant operations.
| |
| Note:
| |
| * All participants will comply with the radiation exposure '
| |
| control practices existing at the station at the time of the exercise.
| |
| Ni*
| |
| e N90s 6 mW
| |
| - ~ mm
| |
| . , - . , , - _ , _ _._.,m., ,,v
| |
| | |
| p 4.4-1 SECTION 4.4 EMERGENCY RESPONSE FACILITY DESCRIPTIONS The FSV Emergency Organization will function from a number of pre-established locations. This section of the Exercise Manual identifies the six facilities which will be activated to assess and manage the accident conditions described by the scenario . All
| |
| , Controllers / Observers dould become familiar with their location and response function (s). ,
| |
| : 1. Control Room (CR)
| |
| Emergency assessment and control is initially directed from the CR by the Shift Supervisor prior to activation of the Technical Support Center (TSC).
| |
| The CR, located adjacent to the Reactor Building, is designed to be habitable during Design Basis Accidents. The CR contains full plant instrumentation, technical drawings, protective breathing apparatus, radio, telephone, and intercom systems.
| |
| Emergency radiological monitoring equipment and protective clothing are located nearby,
| |
| : 2. Technical Support Center (TSC) b Sitt emergency command activities will be centered in the Technical Support Center (TSC) located immediately adjacent to the Reactor Building and within short walking distance to the Control Room. The TSC is equipped with intercoms, telephones.
| |
| NRC Emergency Notification System (ENS) telephone, Health Physics Network (HpN) telephone, telecopier, and radios for communications with the CR, Personnel Control Center (PCC), and Forward Command f ost (FCP).
| |
| The TSC_ is equipped with a CDC-1700 terminal for visualization of plant parameters and offsite dose calculations, essential drawings, specifications, and procedures. Radiati u monitoring equipment, protective clothing, communications equipment, portable lighting, protective breathing apparatus, and first-aid equipment are located in Emergency Kits. The TSC meets habitability requirements similar to those imposed upon the CR.
| |
| i L
| |
| _ EU ,
| |
| * * ~ * ' * * " * * * < -- - - - , , , , , , _ _ ,, __
| |
| | |
| ~~
| |
| o .
| |
| I i I
| |
| I 4.4-2 l s
| |
| : 3. Personnel Control Center (pCC) l The primtry and secondary locations for the Personnel Control ,
| |
| Center (PCC) are the Security Administration Building and the !
| |
| Licer. sing Trailer, respectively. Emergency radiological J monitoring equipment, first-aid and decontamination equipment, !
| |
| protective clothing, communications equipment, portable lighting ,
| |
| and protective breathing apparatus are stored in emergency kits ;
| |
| at both onsite locations. There are two designated offsite '
| |
| areas which may be utilized as the PCC if it becomes necessary to evacuate the onsite location (s). The preferred alternate offsite location is the Johnstown County Shops. The other
| |
| * alternate offsite PCC location is the Platteville Volunteer Fire i Department. Routes to these locations are shown in RERP :
| |
| Implementing Procedure RERP-PCC, Personnel Control Center l Procedure.
| |
| : 4. Forward Command post (FCp)
| |
| {
| |
| The Forward Command Post is the focal point for the coordination of onsite and offsite emergency response activities. Management and technical personnel assigned to the FCP are responsible for protective action recommendations and liaison with offsite authorities and response facilities. The FCP serves as the point from which the Corporate Emergency Director (CED) .
| |
| exercises overall control of the FSV Emergency Response Organization. ,
| |
| i The FCP has work space allocated for PSC emergency personnel, ,
| |
| state and local personnel, and the NRC. The FCP is adequately equipped with an NRC ENS telephone, HPN telephone, commercial l
| |
| phone lines, radio, and telecopy facilities to provide efficient communications with the TSC, ECP, SEOC, NRC, and the Weld County Communications Center. Onsite-offsite communications are channelled through the TSC and FCP.
| |
| The FCP is located at the PSC Customer Service Center in Ft.
| |
| Lupton, well out of the plume exposure EPZ. The FCP will be activated and manned for an ALERT or more severe incident classification. The FCP is equipped with a CDC-1700 terminal to provide rapid access to plant parameters and to provide for offsite dose calculations.
| |
| l S. Executive Command Post (ECP) l The Executive Command Post (ECP) is located at the corporate headouarters building in downtown Denver. Manned by senior corporate personnel with access to other corporate resources, t the ECP provides direct augmentation to the staffing of onsite emergency functions by non-station personnel. The staff of the ECP is responsible for obtaining additional manpower for repair / damage control teams, survey teams, access control, and logistical assistance. The ECP will normally maintain direct communications with the FCP and the SEOC.
| |
| =
| |
| . h
| |
| | |
| c' !
| |
| i 4.4-3
| |
| : 6. State Emeroency Operations Center (SE00) .
| |
| ' ' fg['
| |
| r The SEOC is the focal point for the state of Colorado's !
| |
| emergency response effort. Essentially all coordination of ,
| |
| state resources occurs at the SEOC. The facility is located in ,
| |
| the basement of the Colorado National Guard Armory and Law '
| |
| Enforcement Training Academy. Building 120, Camp George West, Golcen, Colorado.
| |
| L:
| |
| t f
| |
| s i
| |
| i i
| |
| i O
| |
| I 6
| |
| i
| |
| , lY
| |
| | |
| ! 4.5-1
| |
| $ECTION 4.5
| |
| -( EVALUATION SHEETS This section of the Exercise Manual provides the Dbserver Evaluation l' Sheets. Controllers / Observers should remove the appropriate evaluation sheets and be sure to complete the forms as the events occur. At the conclusion of the exercise, review the evaluation ,
| |
| sheets. These documents will be used at the exercise debriefing and the formal critique. All of the documents should be given to the
| |
| * Lead Exercise Controller at the conclusion of the critique.
| |
| i b
| |
| 'l:
| |
| 7 e We m o -r
| |
| | |
| n.
| |
| Page 1 FOSAVEX-89 OBSERVER CHECKLIST Location: CONTROL ROOM Name:
| |
| Time Frame: to Date:
| |
| CRITERIA EVALUATION
| |
| : 1. ACCIDENT ASSESSMENT ,
| |
| Control Room personnel rapidly and correctly interpreted scenario related problem (s).
| |
| Control Room personnel knew when to refer to FSV Operating Procedures, Emergency Procedures, the
| |
| (. RERP Plan and Implementing Procedures, and other spplicable guidance.
| |
| Plant process information was available when required.
| |
| Control Room Operators responded to simulated
| |
| , operational events and properly classified the accident condition for:
| |
| (1) NOUE -
| |
| (2) ALERT (3) SITE AREA EMERGENCY (4) GENERAL EMERGENCY Control Room personnel assisted in determining extent of plant damage.
| |
| | |
| I Page 2 CONTROLROOMCHECKLIST(Cont.)
| |
| CRITERIA EVALUATION
| |
| : 2. ACTIVATION OF FACILITIES Control. Room personnel I responded to the
| |
| * escalating severity of events and began call-outs for activation of the Emergency Respor(e Organization.
| |
| The Technical Advisor was notified, reported to the Control Room, and provided assistance as required.
| |
| Control Room personnel aided in establishing the proper location of the pCC.
| |
| Transition of I
| |
| responsibilities, as plant conditions ;
| |
| degraded, was effectively executed.
| |
| : 3. NOTIFICATION / COMMUNICATION Notifications to State / Federal authorities were timely; and properly completed per RERP- '
| |
| NOTIFICATION for:
| |
| (I) NOUE -
| |
| (2) ALERT (3) SITE AREA EMERGENCY (4) GENERAL EMERGENCY All notifications were verified and logged per .
| |
| proper procedures. l Communication networks were operational and efficier,Gy utili:ec.
| |
| I l
| |
| - j.
| |
| 1
| |
| | |
| n-
| |
| }
| |
| Page 3 l t
| |
| CONTROLROOMCHECKLIST(Cont.) ,
| |
| l:
| |
| r -.
| |
| l, I
| |
| CRITERIA EVALUATION l Communication flow was ;
| |
| adequate to ensure that i information was timely and accurate. ;
| |
| Phone lists were ;
| |
| L available and complete.
| |
| General status announcements were made t and updated periodically by the Shift ;
| |
| Supervisor / Control Room i Director.
| |
| Logs were maintained.
| |
| l Data flow between the Control Room and TSC was maintained. ,
| |
| Ambient noise level in the Control Room was not a problem. .
| |
| There was no .
| |
| interaction / confusion between CR operating personnel. "CR Players" CR Controllers / Observers.
| |
| Transfer of information within the Control Room was clearly and completely understood.
| |
| 4.
| |
| ORGANIZATION CONTROL The Shift Supervisor in conjunction with other Control Room personnel evaluated the plant conditions and implemented appropriate response actions.
| |
| ~
| |
| ~
| |
| a'C.
| |
| | |
| r t
| |
| i Page 4 l i'
| |
| : CONTROLROOMCHECKLIST(Cont.)
| |
| (,
| |
| t CRITERIA EVALUATION :
| |
| F The Shift Supervisor took over management control per the RERP Plan and ;
| |
| procedures. ,
| |
| Transfer of control between the Shift Supervisor (actingasthe Emergency Coordinator) and the Control Room .
| |
| Director was effective and in accordance with procedures.
| |
| The proper management chain of command was followed throughout the exercise.
| |
| Emergency control and I authority were effectively transferred from the Control Room to the TSC.
| |
| Transfer and control of authority were announced and logged.
| |
| : 5. HEALTH PHYSICS / SECURITY The Shift Supervisor performed and maintained Control Room ,
| |
| accountability per '
| |
| Procedure G-5.
| |
| Control Room habitability was uenitored per procedures posted adjacent to the RT-7312 recorcer on I-14 Access to the Control Room was controlled per apptc;riate procedure!.
| |
| :w-4
| |
| . aeswas
| |
| | |
| t Pagt S CONTROLROOMCHECKLIST(Cont.) i
| |
| : k. I CRITERIA EVALUATION
| |
| : 6. PROTECTIVE ACTIONS / MEDICAL Control Room personnel
| |
| * supported the FSV ,
| |
| emergency organization in '
| |
| developing and recommending protective' actions. .
| |
| Supplies such as respirators, protective '
| |
| clothing, etc. were available to Control Room personnel.
| |
| Hp personnel were ,
| |
| available to Control Room personnel as needed.
| |
| 5 Shift Supervisor requested medical transportation services.
| |
| Shift Supervisor notified hospital of victim's pending arrival and ,
| |
| provided details of injury / contamination.
| |
| Shift Supervisor notified appropriate PSC management personnel per the FSV Medical Emergency Plan / procedure. ;
| |
| )
| |
| Shift Supervisor was periodically notified of i victim's status - l information relayed to TSC Director.
| |
| Shift Supervisor notified the Lead Security Officer (L50) of medical trarsm-ta:Or arrangements, i
| |
| l I
| |
| m - % 9m* 9e4
| |
| | |
| 7 Page 1 ;
| |
| FOSAVEX-89 OBSERVER CHECKLIST
| |
| /-
| |
| Location: TECHNICAL SUPPORT CENTER Name:
| |
| Time Frame: to Date:
| |
| CRITERIA EVALUATION
| |
| : 1. ACCIDENT ASSESSMENT Plant process information was available when required.
| |
| TSC personnel responded to simulated events and properly classified the accident condition for: ,
| |
| i SITE AREA EMERGENCY GENERAL EMERGENCY TSC personnel assisted in determining the extent of plant damage.
| |
| : 2. ACTIVATION OF FACILITIES The first person arriving at the TSC verified habitability and began TSC activation.
| |
| The first management individual verified that -
| |
| habitability was checked and that all communication systems were operable.
| |
| The TSC was activated in accordance with RERP-TSC.
| |
| - m
| |
| | |
| Page 2 TSCCHECKLIST(Cont.)
| |
| ' (,
| |
| I CRITERIA EVALUATION All copies of the Emergency Plan, Procedures, Updated
| |
| +;
| |
| Safety Analysis Report, '
| |
| Tech. Specs., drawings, etc. were available for TSC personnel.
| |
| : 3. NOTIFICATION / COMMUNICATION Communications with Control Room was established. Primary and secondary communication links were available.
| |
| Communications with the Personnel Control Center (PCC) and the Forward Command Post (FCP) were
| |
| _I. established.
| |
| Plant status and/or radiation parameters needed to determine existing conditions were available via Status ,
| |
| Boards. Status Boards were updated as required.
| |
| Information regarding
| |
| . major changes in plant status was disseminated to key personnel effectively.
| |
| Information relative to >
| |
| Protective Action !
| |
| Recommendations was disseminated to key personnel effec'.ively.
| |
| Communication with onsite monitoring teams were effective. ;
| |
| Lcgs .ue maintair;ec.
| |
| l l
| |
| --~~
| |
| se !
| |
| g -- ._m - .
| |
| | |
| Page 3 TSCCHECKLIST(Cont.)
| |
| '. . i CRITERIA EVALUATION Ambient noise level in TSC was not a problem.
| |
| Transfer of scenario ,
| |
| information within the
| |
| , TSC was clearly and l completely understood.
| |
| : 4. ORGANIZATIONAL CONTROL ,
| |
| Transfer of command from ;
| |
| the Control Room was effective.
| |
| * Transfer of command from the TSC to the Forward Command Post was effective.
| |
| , -The proper management I chain. of command was
| |
| \- followed throughout the exercise.
| |
| Transfer and control of authority was announced and logged.
| |
| Per RERP-TSC, the TSC Director assumed overall responsibility for the :
| |
| coordination and direction of the onsite emergency response centers.
| |
| The TSC Director recommended de-escalation or initiation of post-emergency recovery efforts in a timely manner; per the RERP (Sections 4 or 9).
| |
| 9f" 1
| |
| ,a.v
| |
| -.- ,, -.v.
| |
| -.---,g -
| |
| 9.-.-m
| |
| | |
| Page 4 TSCCHECKLIST(Cont.)
| |
| W.
| |
| CRITERIA EVALUATION If required, the TSC Director requested additional support from the Corporate Emergency '
| |
| Director.
| |
| Radiological, Engineering, and Administrative personnel coordinated their '
| |
| activities effectively.
| |
| : 5. HEALTH PHYSICS / SECURITY HP coverage in TSC (air sampling instrumentation and dosimetry) was adequate.
| |
| Initial accountability
| |
| : and continued accountability was performed satisfactorily.
| |
| In-plant Radiation Monitoring was coordinated with TSC.
| |
| 'Offsite dose assessment evaluations were conducted per procedures (RERP-DOSE).
| |
| Initial and subsequent dose calculations were performed in a timely manner.
| |
| Computing aids were properly utilized.
| |
| Exposure plume was well defined and tracked.
| |
| Communications with monite-ing teams were ma i r.tL i ne c .
| |
| ._.~
| |
| e wb
| |
| -)
| |
| | |
| t Page 5 TSCCHECKLIST(Cont.)
| |
| k CRITERIA EVALUATION Dose Assessment Team Leader ensured comparisons between projected and actual '
| |
| field measurements were made.
| |
| Field survey teams were provided sufficient information to perform duties.
| |
| Coordination of HP criteria for exposure control with TSC Director was effective.
| |
| TSC HP personnel considered implementing RERP-THYROID.
| |
| TSC HP personnel obtained airborne contamination and radiation surveys in the Control Room and informed TSC Director or results.
| |
| TSC HP oersonnel coordinated activities with the Protective Measures Manager at the
| |
| . FCP.
| |
| : 6. PROTECTIVE ACTION ,
| |
| TSC HP personnel -
| |
| cocrdinated activities with the TSC Director and-Dose Assessment i personnel.
| |
| Protective equipment and associated supplies were available to TSC personnel.
| |
| +*a+b y M
| |
| . . , ~
| |
| | |
| Page 1 FOSAVEX-89 OBSERVER CHECKLIST
| |
| . Location: PERSONNEL CONTROL CENTER Name:
| |
| Time Frame: to Date:
| |
| 6 CRITERIA EVALUATION
| |
| : 1. ACCIDENT ASSESSMENT Emergency Inplant Repair Teams were dispatched effectively. ,
| |
| Repair teams evaluated
| |
| - the extent of plant damage and reported information to PCC and TSC personnel.
| |
| : 2. ACTIVATION OF FACILITIES The proposed location of the PCC was known by all personnel.
| |
| Access to the PCC was well established and did ,
| |
| not hinder activation.
| |
| The PCC was activated in a timely and orderly manner.
| |
| PCC staffing was adequate, and met the needs of the emergency organization.
| |
| The PCC was activated per RERP-PCC.
| |
| : 3. NOTIFICATION /CDMMUNICATION ,
| |
| 1 Communication with the II 0" C 0 r.* r * '. 5000 nas acequate.
| |
| | |
| d-Page 2 PCCCHECKLIST(Cont.)
| |
| CRITERIA EVALUATION i-
| |
| ! Primary and secondary .
| |
| l li communication links with the TSC were available -
| |
| constant communication *
| |
| * with TSC existed.
| |
| , r Communication links with onsite and offsite teams was adequate.
| |
| ' Team briefings (prior to :
| |
| dispatch) were adequate. l Prior to dispatching t teams - the TSC HP Coordinator and the TSC Director were consulted.
| |
| Individuals living on plant property were
| |
| , l'' " notified.
| |
| TSC was notified of need to transport injured / contaminated personnel offsite.
| |
| St. Luke's Hospital was prooerly notified of the medical situation.
| |
| Detailed logs were maintained.
| |
| Plant status and emergency assessment information was readily available to PCC personnel.
| |
| 4 ORGANIZATIONAL CORTROL The PCC Director adequately supervised the activities of the PCC.
| |
| , + ~-- --+-
| |
| | |
| ne.
| |
| Page 3 PCCCHECKLIST(Cont.)
| |
| CRITERIA EVALUATION
| |
| ~The PCC Director coordinated activities with the TSC Director.
| |
| The PCC Director utilized the checklist in RERP-PCC.
| |
| An effective chain of command was established.
| |
| Team formation and briefings were completed quickly and accurately (see RERP-PCC).
| |
| : 5. HEALTH PHYSICS / SECURITY j HP coverage in PCC was adequate.
| |
| The Lead Security Officer (LS0) dispacted a security guard to the PCC; access was controlled.
| |
| PCC Director coordinated '
| |
| access to/from the protected area with the LSO.
| |
| Accountability was .
| |
| initially established and maintained throughout the emergency.
| |
| Habitability was initially established and verified as appropriate throughout the emergency.
| |
| Appropriate briefing sheets were used to inform teams of potential radiclogical areas. ,
| |
| l l
| |
| . i
| |
| | |
| Page 4 ,
| |
| PCCCHECKLIST(Cont.) >
| |
| .k CRITERIA EVALUATION Maximum stay times were established and relayed to survey / repair teams.
| |
| An HP was assigned to -
| |
| each team. >
| |
| : 6. PROTECTIVE ACTION ,
| |
| Protective equipment, clothing, decon-facilities, and ,
| |
| associated supplies were available to PCC personnel. Specialized tools and equipment were available.
| |
| .( ,
| |
| ?
| |
| M- -
| |
| y ?-X-I e m. ,
| |
| e -Mm 4
| |
| .-~ .,,my., - ~
| |
| | |
| Page I FDSAVEX-89 DBSERVER CHECKLIST t
| |
| Location: FORWARD COMMAND POST Name:
| |
| Time Frame: to Date:
| |
| r i
| |
| CRITERIA EVALUATION i
| |
| 1.- ACCIDENT ASSESSMENT FCP personnel coordinated ,
| |
| Accident Assessment activities with TSC aersonnel.
| |
| : 2. ACTIVATION OF FACILITIES FCP was activated and
| |
| - manned within a >
| |
| -( '
| |
| reasonable time after declaration of an ALERT.
| |
| Corporate Emergency Director received briefing from TSC Director prior to assuming command and contrel.
| |
| FCP personnel informed of assumotion of specific responsibilities.
| |
| Facsimile machines functioned properly, status boards were available.
| |
| Emergency Plan and Imolement Procedures, '
| |
| Tech. Specs., etc. were available in current and controlled copies.
| |
| d Activat oa, ter RERo-FCP was accomplisnea effectively. _
| |
| e, *MM--
| |
| , .-.-w .--a- +~ - . - . - - - , ,, - , - . - - - .
| |
| | |
| V Page 2 FCPCHECKLIST(Cont.)
| |
| l
| |
| . CRITERIA EVALUATION.
| |
| f
| |
| -3. NOTIFICATION / COMMUNICATION Communications were ,
| |
| established with the TSC; ~
| |
| both primary (telephone) and secondary (radio) communication lines were established and maintained.
| |
| Communications with the Executive Command Post (ECP) and the State Emergency Operations Center (SEOC) were established and
| |
| - mai ntai ned.-
| |
| TSC notified FCP of location and status of !
| |
| _X PCC.
| |
| i Notification /Communice. tion between PSC, local, and Statt agencies was ef't. Ive.
| |
| 1 Nec,eu data was available from TEC and CR.
| |
| FCP. received prompt information on raciological status, both ,
| |
| on and off site.
| |
| Pertinent.information was quickly (15 minutes) transmitted to offsite groups.
| |
| Up-to-date meteorological data was available.
| |
| Plant status information was promptly available; st a.tus boards used and kept current.
| |
| "-~~
| |
| | |
| II-
| |
| -c Page 3 FCPCHECKLIST(Cont.)
| |
| . ~:
| |
| CRITERIA EVALUATION Communication with offsite monitoring teams was adequate.
| |
| General status announcements and updates were made to FCP personnel throughout- the exercise. '
| |
| . - J FCP- coordinated the j supply of information to :
| |
| ECP Media Relations 1 personnel. l The FCP Public :
| |
| Information Team had I sufficient information i (and facilities) to j prepare, and release news I and related media releases, i
| |
| i Development and presentation of initial l media - briefing was effective. ,
| |
| 1 Development and release of initial press release were effective.
| |
| Development and release ;
| |
| of follow-up briefings and releases was ;
| |
| effective.
| |
| Necessary documents (logs, etc.) were maintained.
| |
| FCP/ECP interface effective.
| |
| Effective rumor control methods were employed.
| |
| m . set e m * *e ae
| |
| , ,-ce - , "-
| |
| erm ,
| |
| | |
| ' Page 4-FCPCHECKLIST(Cont.)-
| |
| p K,-
| |
| CRITERIA EVALUATION Spokespersons were
| |
| > knowledgeable about technical aspects of plant problems, ,
| |
| : 4. ORGANIZATIONAL CONTROL The organizational structure and chain of ,
| |
| command in FCP was clear. ,
| |
| Appropriate people made 4
| |
| prompt decisions and recommendations.
| |
| Status boards were kept current.
| |
| Plume pathway was tracked r and visibly displayed.
| |
| Emergency classifications and action level notifications transmitted to proper authorities as required.
| |
| The Corporate Emergency Director (CED)' utilized the appropriate RERP procedures efficiently.
| |
| The CED ensured continuity of emergency resources throughout the exercise.
| |
| The CED ensured adequate administrative, techr.ical and logistical support was available.
| |
| Plant status updates to the ECP and SEOC were effective. J l
| |
| k -.
| |
| m
| |
| .i g@ b5 se 5m egesse e , - - - - -
| |
| , w ' . - -r w - -
| |
| | |
| F r.
| |
| Page 5 FCPCHECKLIST(Cont.)
| |
| +
| |
| CRITERIA EVALVATION The CED- provided direction to, and coordination for, the TSC Director. ,
| |
| The- CED coordinated activities with state / local response personnel, d
| |
| The CED, in conjunction with other emergency-response personnel, de-escalated the Emergency _ Category according to plant conditions.- j
| |
| : 5. HEALTH PHYSICS / SECURITY Only assigned FCP people ,
| |
| were present.
| |
| Security Control- was established and maintained.
| |
| Computer aids were properly utilized.
| |
| Plume was defined- and '
| |
| , tracked.
| |
| Coordination with TSC Dose Assessment team was effective. .
| |
| Offsite monitoring data was coordinated with l State ,
| |
| l Use of Radiological Status Boards was effective.
| |
| 1 l
| |
| l
| |
| | |
| .w.
| |
| Page 6 FCPCHECKLIST(Cont.)
| |
| t
| |
| . \';
| |
| CRITERIA EVALUATION s
| |
| : 6. PROTECTIVE ACTIONS Protective. Measures Manager /CED interface on Action
| |
| ~
| |
| Protective Recommendations was timely and effective, i
| |
| Protective action recommendations to the State -were made clearly and in timely fashion.
| |
| m
| |
| +
| |
| re s s w.- %% MM&'
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| -. -~ - - - ,
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| | |
| =. . ,
| |
| Page 1 FOSAVEX-89 Lj7 OBSERVER CHECKLIST A.:
| |
| Location: EXECUTIVE COMMAND POST Name:
| |
| Time Frame: to Date:
| |
| ' CRITERIA EVALUATION ,
| |
| : 1. , ACCIDENT ASSESSMENT ECP personnel coordinated accident assessment activities with FCP personnel.
| |
| : 2. ACTIVATION OF FACILITIES The ECP was activated in a timely manner.
| |
| The ECP was staffed in a timely fashion.
| |
| Information was received quickly from the FCP and/or TSC.
| |
| The ECP . Director performed personnel accountability to assure that sufficient manpower was available to staff the ECP.
| |
| Activation per RERP-ECP was accomplished effectively.
| |
| : 3. NOTIFICATION / COMMUNICATION Established and maintained communication with the FCP.
| |
| :='
| |
| ,s # e-- w .m 7- u ,e--e c- es- w -.- -
| |
| | |
| q Page 2 ;
| |
| ECPCHECKLIST(Cont.)
| |
| , ^.I m .
| |
| CRITERIA EVALUATION The Manager of Media a Relations ^ assisted the ECP Director and PSC Media' Relations personnel ~
| |
| in preparing press releases, announcements, and interviews.
| |
| Rumor control methods were used effectively.
| |
| Use of status boards was effective.
| |
| : 4. ORCANIZATIONAL CONTROL The ECP Director assumed control of the ECP.
| |
| Major decisions were made by the ECP Director, his a staff and the Corporate Emergency Director (CED).
| |
| The CED was provided with required support.
| |
| The onsite emergency organization was supported as required.
| |
| Security operations were-coordinated. with public law enforcement agencies.
| |
| Additional security provided as required.
| |
| : 5. HEALTH PHYSICS / SECURITY Only persons with assigned emergency responsibilities were permitted in-the ECP.
| |
| x::
| |
| p - ..-- , . . , . - ,
| |
| | |
| 1 Page 3 ECPCHECKLIST(Cont.)
| |
| . gu
| |
| .\.
| |
| CRITERIA EVALUATION ECP. personnel were aware of- monitoring team activities being coordinated from ~
| |
| FCP/TSC/PCC.
| |
| ECP. personnel were appraised on the medical !
| |
| emergency and the status 1 of the victim.
| |
| : 6. PROTECTIVE ACTIONS ECP personnel were aware of recommendations being made at FCP. s, i
| |
| ECP personnel were aware of the actions State / local governments were taking.with respect
| |
| \.
| |
| to Protective Actions. ,
| |
| {-
| |
| *
| |
| * eoeno
| |
| ' , , .-- ,, y
| |
| | |
| Page 1 FOSAVEX '
| |
| OBSERVER CHECKLIST Location: STATE EMERGENCY OPERATIONS CENTER Name: l Time Frame: to Date: j CRITERIA EVALUATION
| |
| : 1. ACCIDENT' ASSESSMENT l
| |
| ~SEOC personnel l coordinated accident :
| |
| assessment with FCP personnel.
| |
| : 2. ACTIVATION OF FACILITIES ,
| |
| PSC representatives
| |
| ' performed accountability to ensure adeouate staffing.
| |
| Established communications with FCP informing them SE00 was !
| |
| manned.
| |
| Activation per RERP-SEOC was effectively
| |
| . accomplished.
| |
| Information flow between FCP/SEOC was effective.
| |
| 3.
| |
| NOTIFICATION / COMMUNICATION' Established and maintained communications with FCP.
| |
| Maintained communications with SEOC representatives.
| |
| s
| |
| '~
| |
| Rumor control metnods
| |
| . were employed. ._
| |
| 94 O '
| |
| | |
| Page 2 SEOC CHECKLIST (Cont.)
| |
| CRITERIA EVALUATION i
| |
| Use of status boards, meetings,_ and briefings was effective.
| |
| ~
| |
| Proper media coordination was established.
| |
| Logs were maintained.
| |
| Up-to-date site i information was provided to Public Information Coordination-Team.
| |
| : 4. ORGANIZATIONAL CONTROL l
| |
| PSC representatives coordinated PSC emergency i response activities with l those of State / local !
| |
| officials.
| |
| i PSC technical assistance ;
| |
| was available as required -!
| |
| to support State / local representatives.
| |
| PSC _
| |
| -coordinated activities associated with news releases, i background material,
| |
| - rumor control, etc.
| |
| : 5. HEALTH PHYSICS / SECURITY SEOC personnel were aware of monitoring activities -
| |
| occurring onsite/offsite.
| |
| : 6. PROTECTIVE ACTIONS SEOC personnel were aware of PARS being made at the FCP.
| |
| SECC ocesennel were awars of FAh status.
| |
| -'WMe 3 Y
| |
| | |
| r-Page 1 FOSAVEX-89 OBSERVER CHECKLIST' ,
| |
| Location: FORT ST. VRAIN SECURITY AREAS Name:
| |
| Time Frame: to Date: ,
| |
| CRITERIA EVALUATION
| |
| : 1. ACCIDENT ASSESSMENT-Security Officers recognized the severity of the event, and took appropriate actions per the FSV Security Plan.
| |
| : 2. ACTIVATION OF FACILITIES All security facilities were properly manned.
| |
| All securityL personnel
| |
| .were aware of appropriate:
| |
| radiological conditions, including NO SMOKING, NO.
| |
| EATING, NO DRINKING during. radiological conditions.
| |
| : 3. NOTIFICATION / COMMUNICATION ,
| |
| Communications were established and maintained throughout the security force. .
| |
| : 4. ORGANIZATIONAL CONTROL The. Lead Security Officer effectively coordinated the Security Force during emergency conditions.
| |
| l l
| |
| l 4 W6
| |
| | |
| t.
| |
| p Page 2 h SECURITY FORCE CHECKLIST.(Cont.)
| |
| CRITERIA EVALUATION
| |
| : 5. ACCOUNTABILITY CAS/SAS personnel effectively conducted and *
| |
| -reported accountability ,
| |
| events to the Emergency Coordinator.
| |
| SG-05 was completed accurately. ,
| |
| a i
| |
| l l
| |
| l - w a ,.
| |
| l l
| |
| thae
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| - 1
| |
| .. ;=
| |
| l 1
| |
| I
| |
| | |
| e i
| |
| ?,p; Page 1 r
| |
| FOSAVEX-89 ,
| |
| OBSERVER CHECKLIST
| |
| ;ge- I e l Location:- ONSITE RADIOLOGICAL' Name:
| |
| MONITORING Time Frame: to Date: ,
| |
| ' f
| |
| ~~
| |
| CRITERIA EVALUATION Onsite, monitoring equipment was easily accessible and properly distributed, Equipment was checked for proper operability prior to its use, jr Actions by the Onsite 8
| |
| L, Monitoring Teams to make initial surveys outside >
| |
| the plant Lbuildings and perimeter fence were correct. As appropriate, the TSC HP Coordinator was notified.
| |
| Standard HP -practices were employed for entry into actual or potential radiation areas.
| |
| Proper survey records, dosimetry, stay time, etc. were maintained during entry. -
| |
| Survey results were reported to the appropriate personnel in the TSC/PCC.
| |
| Follow-up actions were taken on survey results.
| |
| <p wwk
| |
| +
| |
| e - , - , , , ,
| |
| | |
| F: ,
| |
| Page 2 ONSITETEAMCHECKLIST(Cont.)
| |
| mc{
| |
| CRITERIA EVALUATION I
| |
| Pocket. dosimeters were frequently. checked and properly logged.
| |
| Team' members had adequate i- -understanding of proper utilization of equipment (survey instruments, radios,SCBA's,etc.), i Inplant- survey results were- systematically collected; appropriate datasheets of RERP-SURVEY were used.
| |
| The correct procedure was used to establish emergency dose limits if needed.
| |
| \.'
| |
| Authorization to exceed 10CFR20 Exposure Limits was documented.
| |
| Use of. survey and decontamination techniques, at designated control point prior to entry into the PCC.
| |
| Debriefing conducted, records and logs collected.
| |
| Appropriate radiological data were available to the teams as needed.
| |
| l l
| |
| | |
| F: -
| |
| p n.
| |
| Page I FOSAVEX-89
| |
| - 9 OBSERVER CHECKLIST s ,
| |
| Location:- 0FFSITE MONITORING TEAMS Name:
| |
| a.
| |
| Time Frame: to Date: ,
| |
| E h CRITERIA EVALUATION b Initial team briefings were .helds (See RERP-PCC).
| |
| l Teams. assembled with field kits, vehicles, and communications equipment in a timely manner.
| |
| Contents- of the Field Monitoring Kits were
| |
| .-lT' checked before leaving site. (See RERP-FIELO)
| |
| Instruments checked for :
| |
| proper operability and current calibration. (See j '
| |
| RERP-FIELD) l Teams received explicit instructions as to where 'l to go and what to sample.
| |
| ' Teams found sampling ;
| |
| ' locations easily.
| |
| Procedures for conducting j offsite monitoring were - l H
| |
| consulted and followed.
| |
| l Vehicles were readily j available. ;
| |
| 1 Vehicles checked for contamination after survey was completed.
| |
| Sampling locations were readily located. . . -
| |
| -n-l l
| |
| .m.uisadeemmim-
| |
| .1":
| |
| m - - - - , ,
| |
| y 4 .,
| |
| | |
| [
| |
| Page 2
| |
| -OFFSITETEAMCHECKLIST(Cont.)-
| |
| e.
| |
| CRITERIA EVALUATION ,
| |
| L Samples were properly packaged,-identified, and labeled.
| |
| , Appropriate documentation was maintained.
| |
| Pocket dosimeters were-periodically checked.
| |
| Use of respirator equipment' and personnel monitoring. was {
| |
| appropriate. !
| |
| Pocket dosimeter readings were logged- in upon return to PCC.
| |
| Communications were k'
| |
| maintained with the TSC and/or .PCC thrcughout ,
| |
| l sampling-activity. ;
| |
| -Coordination with state field teams was .
| |
| effective. !
| |
| 1 i
| |
| i 1-I' 1'
| |
| 1
| |
| ^^
| |
| l l
| |
| - er 4-QS
| |
| | |
| r 4
| |
| Page 1 FOSAVEX-89
| |
| , r- OBSERVER CHECKLIST Location: CORRECTIVE ACTION (REPAIR) Name:
| |
| TEAMS Time Frame: to Date: ,
| |
| CRITERIA , EVALUATION Need for Repair Team established by TSC Director; .
| |
| activities coordinated with PCC Director.
| |
| Team members briefed in accordance with RERP-PCC and RERP-TEAMS,
| |
| . j': ?
| |
| , 1[' Safety and :first aid equipment available as needed.
| |
| Team accountability was maintained.
| |
| Radio checks performed.
| |
| Communications maintained during repair activities.
| |
| Log of activities kept.
| |
| Debriefing conducted, records. and log collected. -
| |
| As applicable, RERP-EXP was followed by repair team.
| |
| Personal dosimetry used, 1 - if needed.
| |
| TSC informed of results.
| |
| , , e mme w = +' 4+
| |
| | |
| o ..
| |
| '* s
| |
| . (
| |
| Page 1 FOSAVEX-89 ,
| |
| gp- OBSERVER CHECKLIST
| |
| - Alc 1
| |
| q.
| |
| Location: FIRST AID / SEARCH AND RESCUE Name:
| |
| AT FSV.
| |
| Time Frame: 'to Date: ,
| |
| 1 CRITERIA EVALUATION An EMT was asked to l assist and the. Fire
| |
| . Brigade or First Aid Team assembly was timely <
| |
| following notification.
| |
| Fire Brigade /First ~ Aid Team assembled with the -
| |
| proper _first aid equipment.
| |
| .- ge, Accident / injury assessment made by the Fire Brigade /First Aid Team.
| |
| ' Level and extent of contamination was properly determined.
| |
| -Decontamination measures were taken, if appropriate.
| |
| Maintained communications with Control Room (via radio or Gaitronics).
| |
| The HP escort reacted properly to the simulated event.
| |
| The request for transportation by the Shift Supervisor was in ACCordance With proceQures.
| |
| ,m _
| |
| y , ,
| |
| -- w ~
| |
| --s - -.. 9
| |
| | |
| Page 2 l
| |
| FIRST AID / SEARCH AND RESCUE AT FSV (Cont.)
| |
| - (;
| |
| . s; CRITERIA EVALUATION Patient- was made ready for transport by the Fire Brigade /First Aid Team.
| |
| ~
| |
| Appropriate methods were used to identify victim, ,
| |
| the extent of injuries, 1 contamination levels and locations, first aid administered, etc. .
| |
| Periodic status reports were provided to the A Shift- Supervisor regarding the injured individual's status.
| |
| -{,
| |
| @% M
| |
| | |
| W -
| |
| i Page 1 ,
| |
| FOSAVEX 89 OBSERVER CHECKLIST
| |
| (' ? ,
| |
| location: FIRE BRIGADE Name:
| |
| Time Frame: to Date:
| |
| CRITERIA EVALUATION Reaction time between fire alarm and fire brigade activation was timely.
| |
| Fire fighting personnel response time to the scene of the fire was timely.
| |
| ^
| |
| /l . . Fire brigade members
| |
| %" reported to scene of fire with- appropriate fire.
| |
| fighting gear and equipment.
| |
| Initial assessment of fire situation was adequately performed.
| |
| Communications were maintained between the fire brigade leader and the Control Room.
| |
| Adequate information was provided by the fire brigade to the Control -
| |
| Room for their assessment.
| |
| d~d 1 -.. . . . . . _
| |
| | |
| p.
| |
| n
| |
| '"'' 5.0-1.
| |
| 'SECTION 5.0
| |
| 'I EXERCISE SCENARIO Section 5.1 Narrative Summary 5.2 Initial Conditions 5.3 . Detailed. Scenario y_
| |
| 5.4 Scenario Time Line i
| |
| 1 l
| |
| emH4h W-0 h 1
| |
| | |
| t V,
| |
| b i
| |
| ' g'.
| |
| FOSAVEX-89 A
| |
| NARRATIVE
| |
| | |
| ==SUMMARY==
| |
| | |
| F05AVEX-89 has been designed to test the emergency organization in a number of different ways. It will begin during normal working hours and State and local participation is expected.
| |
| This year's event is a blockage in the core support floor cooling tuces. There are no alarms or indications for this cordition.-
| |
| 3 At approximately 0745, the~ reactor trips on high moisture because of a steam generator tube rupture. Loop 1 is dumped to the Steam-Water Dump Tank. Rapid depressurization of the PCRV causes the core support floor to buckle and debris blocks coolant flow.
| |
| Immediately following the reactor trip, system pressure follows t r.e normal post trip transient for a loop 1 steam-water dump. However, at approximately 0752, abnormally nigh indicated primary system flows are observed.
| |
| Based upon the above conditions, an ALERT is expected to be declared per EP-Class. A cooling water line is ruptured and the region outlet valve (HV-46238-2) will not close. The
| |
| ( leak pressurizes the cooling water surge tank (T-4602),
| |
| lifting 'the relief at. 125 psig. The surge tank relief sticks open and the . leakage goes out the stack unfiltered.
| |
| Note: The 4801 monitors will not see the activity due to samole point locations. Other monitors will incicate.
| |
| At approxicately 0925 a repair team is dispatched to locally close HV-46238-2. While removing the valve operator to gain access to the stem, the stem is ejected and impales one of the mechanics in the shoulder. The escaping gas results in contamination of the repair team. This event provides the opportunity for the emergency response organization to demonstrate onsite medical response as well as personnel decontamination capabilities.
| |
| At' approximately 1200 hours, the loss of forced circulation to a portion of the core causes local temperatures to reach
| |
| .3000 F and a significant fission product release to the coolant system and out the relief valve occurs. Dose assessment calculations should result in a SITE AREA EMERGENCY declaration.
| |
| l
| |
| **c , .
| |
| l l
| |
| %a-+
| |
| 4
| |
| | |
| Ib At approximately 1230 hours, a small fuel oil spill and fire l
| |
| , i occurs at the outside boiler. This fire will not involve ila'' the boiler itself. This occurrence provides the opportunity I
| |
| to demonstrate plant fire brigadc response.
| |
| The core overheats and radioactivity release levels increase as -depressurization continues. At approximately 1300 hours, dose assessment calculations should result in a GENERAL EMERGENCY declaration, Radioactivity levels will continue to increase until 1330 hours when the relief valve on the surge tank closes. Once this action has taken place and depressurization is complete, the release will be '
| |
| terminated. Offsite radiation levels will no longer be significant and a downgrade in classification could be made, however, no downgrading is required. The exercise will be terminated at approximately 1500 hours.
| |
| i
| |
| | |
| i FOSAVEX-89 1
| |
| INITIAL CONDITIONS:
| |
| Reactor Power 79%
| |
| Electrical-Output 256.3 MWe ,
| |
| Core Outlet Temperature 1452 'F Core-Inlet Temperature s 701 'F-L Primary Coolant Flow 88.6%
| |
| Circulator Speeds A 7851 RPM B 7755 RPM C 7875 RPM D 7821 RPM Main Steam Pressure Loop 1 2364 psig Loop 2 2401 psig Feedwater Flow Loop 1 846.8 k1b/hr Loop 2 845.3 k1b/hr PPS System Faults None Radiation monitoring, ventilation, waste processing, and coolant-purification systems " normal".
| |
| Outside boiler is out of service for' skin repair, upper northwest corner.
| |
| Shutdown for End of Cycle in 4 days.
| |
| I l
| |
| l 4 $.
| |
| ., ~ . . .
| |
| ~ -. , ,...w--
| |
| | |
| i
| |
| ( FOSAVEX-89 DETAILED SCENARIO Real Emergency-Event Time Class i 1
| |
| Controller briefing 0700 1 Controllers at assigned stations 0730 -
| |
| . Reactor trip on high moisture and 0745 loop-1 dump.to Steam-Water Dump Tank Primary system pressure follows the 0746 normal post trip transient for a loop 1 Steam Dump. ;
| |
| Abnormally high (indicated) primary 0752 ALERT system flows are observed on control room indications.
| |
| Loop-2 circulators at maximum 0755 available speed but flow is low (actual).
| |
| .t System 46 alarms 140 psig of 0758 subheader pressure and Loop 2 subheader isolates with the exception of HV-46238-2 which will not close.
| |
| Reactor Building exnaust stack 0800 radiation monitors alarm on high -
| |
| radiation. (T-4602 relief has lifted and gas from a ruptured core support floor cooling tube is being released.) ,
| |
| The high level alarm is received for i T-4602 at I-01.
| |
| People exiting the. reactor building 0805 report, via phone, a noise around T-4601/T-4602 in the reactor building. .
| |
| The investigating operator reports a 0815 high level in T-4602. The cooling water return line and safety valve-tail pipe are too hot to touch and the paint is blistered on the pipes and T-4602 above the water line. Suction pressure on P-4602'and P-4604 is 168 psig.
| |
| - Rua n tea- cispatenec to 1ccally 0925 close HV-46238-2. ,,..
| |
| y-...e,
| |
| | |
| ~
| |
| IJ g I
| |
| ff FOSAVEX-89 DETAILED SCENARIO Real Emergency Event Time Class ,
| |
| While remeving the operator to gain 0940 access to the valve stem on HV-46238-2, ,
| |
| the stem is ejected from the valve and '
| |
| impales the mechanic in the shoulder.
| |
| The escaping gas results in contamination of the team and the injured man has a major contaminated wounc.'
| |
| The loss of forced circulation to a 1200 -SAE !
| |
| portion of the core has caused local temperature to reach 3000 *F and a significant fission product release to the coolant system and out the relief valve is occurring.
| |
| - A small fuel oil spill'and fire occur 1230.
| |
| at the outside boiler (boiler is not y
| |
| involved).
| |
| - - Radioactivity levels will continue to 1300 GENERAL rise as the core heats up.
| |
| Relief valve on T-4602 closes. 1330
| |
| - When depressurization is complete, the 1400 Site objectives transport of activity will stop. met. Conclude-
| |
| ' Technical evaluation will continue, in conjunction l with the State. 1 1
| |
| I -
| |
| No new events will occur. However, i data will continue to be provided until L 1600 hours.
| |
| l 1
| |
| l l
| |
| l
| |
| _.U "
| |
| | |
| 1 k SCENARIO TIME LINE (23 l g FOSAVEX 1989 8 5 .
| |
| d 8 f Controller briefing - start of data.
| |
| 7 - Distribute initial conditions packages.
| |
| 87g ggg 00 - Reactor trip on bl 0h moisture.
| |
| 0752 0052 Abnormal primary system flow. -
| |
| 0756 0056 C!rculators speeds are high, indicated flow is high but temperatures are not rseperdng property . Secondary temperatures indicato no heat transfer to secondary 0758 0058
| |
| \ system.
| |
| System 46 alarm at 140 peig on Loop 2. Subheader isolates with the exception of HV 46238-2 which will not !
| |
| 0800 0100 close.
| |
| x Reactor building exhaust stack radiation monitors alarm ,
| |
| on high radiation (T-4602 relief has lifted releasing gas from a core support' floor leak into the PCRV cooling system, Loop 2.)
| |
| (
| |
| 0925 0225 Repair team dispatched to locally close HV-46233-2. -
| |
| 0940 0240 While removing the valve operator from HV-46238 2 the valve stem is ejected and impales a mechanic in the shoulder. The emergency team is dispatched to assist.
| |
| SAE 1200 0500 Significant release of fission products through the T4602 relief valve is occurring due to fuel failure.
| |
| 1230 0530 g A fuel oil spill at the outside boiler results in a fire, fire brigade responds.
| |
| 1300 0600 oa '
| |
| EMER CY , ,u
| |
| ~
| |
| 1330 0630 The relief valve on T-4602 closes at 112 PSIA PCRV pressure, the release is terminated, r3 J 1600 0900 Exercise is terminated.
| |
| M0989010
| |
| , A, .
| |
| | |
| 3 c.
| |
| 7.0-1 j b
| |
| (:-
| |
| SECTION 7.0 i: ONSITE RADIOLOGICAL DATA
| |
| 'l l
| |
| t i
| |
| s Section 7 .1 - Plant Monitoring Data Page 7.1-1
| |
| . 7.2 Radiation / Chemistry Data Page 7.2-1 7.3 Plant Area Radiation Levels Page 7,3-1
| |
| (
| |
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| * I I ffto5 I I IO 0144 0151 toti /05i // T4 83S 1 11 1.1 8159 83L9 #
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| I I I CONTAMtH4TIOps LEVELS I I
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| I ]OPM f'P .100 CH21 RtecTOR BUILDING CEMERAL mM f.M sy 2.0E45 5.0E+5 /.0E44 /.oE4(. /,004 6 /#DS 40E+G 40D6 AREA - EL. 4801 '
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| l /
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| I
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| , . 1 OTilF. R RE ACTOR BLDG. AREAS ------------ _- - - _
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| - =-MI se ! mum DET ECT ABLE ACT P/
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| * TY-- ------------------------------
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| I I I I
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| ----------M I se t MUM DET ECT ASLE Ac i t v 1 ?Y--~~ - - - - - - - - - - - - - - - - - - - - -
| |
| I tunn8ME BUILDING CENERAL -------------------- 1 a
| |
| I ARtAs s l l AlL OTHER SUILDINGS --------------------------- -M I *I l tatM CI T E CT ABLE AC T I V I T/~ ~ --------------------------- l 3
| |
| I I I I I I .
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| I~
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| l i 1 AIRBORNE RADIOACTlvlTY l I
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| t LEVELS IUCl/CCI I
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| - 1 i l REACTOR SUILOle0G CENERAL . l I I
| |
| } I AREA - EL. 4801' I i
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| . I - 131 c'~~1'en A'E f4DA m
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| I.4E-as-,i 2.0 2..E-i.
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| WIDA l
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| . s,on i I OTIIER REACTOR BLDC. AREAS -------- - -----.--------MininsM spETECTA30t. ACT MtTY- - - - - - - - -
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| ~ ~ ~ - - - -
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| 1 4
| |
| I l l 'I ;
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| I TURntME BUILOletG CENERAL - --------- --------M a M I NUN DCT ECT AatLE ACT I VI TY----- - - - - - - - - ----
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| I l ARLAS I I . I I Att OTHER BUltDIIeCS ------------------~~------- M I R I peUM DCT 8'CTABLE AC IT V I ? f-------------------------
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| _ l I 1 I I S
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| 7.3-1.
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| 1
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| .. a AREA RADIATION MONITOR $ , f
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| Channe1 Locat1en Rsees(mRl&
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| RT-93250-1 Refueling Machine Control Room - Ax (E #ff f') /* *' h to' l RT-93252-1 Refueling Floor Northeast - Rx (Et vtti') /0 *' 6 /*
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| * RT-93251-1* Reactor Plant Exi.wst Filter Ross - Tb (51.4164') /e S 4 /o7 l RT-93250-ll East Walkway Outside H5F e Ra (EL WTW1') /e*' 6 /0' ' ,
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| le d 4 /8' RT-93252-2 $suth stairwell - Rx (fl. 414V')
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| RT-93250-3
| |
| - Hot Service Facility Platfors - R4(IL V141') ,
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| /* *' 6 fe' RT-93251-3 Hot Servics Facility Blower Suction - Ax(Rt.V!fvt') so -' 6 10' RT-93250-4 East Walkway HSF Entronca - Rx (El 4331') ge-' f, to d
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| RT-93251-4 Generci Office Area - Tb (Et 47It') to d k le" Analytic Intrveent Roca - Ax (El 4 tit') led h l# 4 i RT-93252-4 Main Control Room - Tb (El Nfti') fo-' b te" 3 RT-93250-5 , >
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| L
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| ~y Gas Waste Filters - Rx (El. Will') le d f* l'"
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| RT-93251-5 RT-93251-6 Reactor Building TNek Bay - Rx(fl.47ti')
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| /*~' N [*
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| d '
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| le h 1**
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| RT-93252 South Stairwell - Rx (El 4711')
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| RT-93251-7 Core Support Floor Filter - Rx (Et V7tt') le" h l **
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| RT-93252-7 East Walkway - Rx (EL Ytti') 10 4 6 to" -l Northeast Walkway - Rx (EL y'771') 10'' h 10' RT-93250-8 d 4 l Health Physics Room Laundry - Rx(EL V718') le f, 10 RT-93251-8 d
| |
| RT-93251 Buf f ar Helium Dryer Loop 1 - Rx (El.4W) 10 b 10 1 -
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| 10 ' to 10' .
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| !- RT-93250-13 Condensate Domineralizers - Tb (E 4718')
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| RT-93250-14* East Wall Refueling Floor - Ax (EL Mfff') Io* h 10 '
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| L Rx = Reactor Building Tb = Turbine Building
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| = = high range monit:r
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| h SECTION 8.1 METER 0 LOGICAL DATA F0$AVEX - 89 0700 1845 1215 1830 ,
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| N F 3. 0 F-F E D D C -
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| i
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| . i .
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| l!'
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| *Each plaseo segment results f rom tive radioactivity retesse dqring tt:e corresponding time period.
| |
| i( -
| |
| V.'l- l
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| * m N. !
| |
| I r-i stcasose e.2 etttAst matt / post Asstssntser 1
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| i rosavtx - 89 I I ettmt LocAt1oss vs. iseet I i
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| wiwo oestAsoct (netts) l
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| * SPt F D i 3 (*noni TA8 9.5 1.0 s.$ 2.0 2.3 3.0 Es . O .S.9 7.5 10.0 l l i eME t 5 0 ~ ~ ~) stcHtNI (MFil) l I __.__,_ _ . __
| |
| 6 6
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| ~
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| j gtg G 3.0 F E E D C B A -- A l I 3. 0 li -H G F F E D C 6 6 !,
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| l i , , or i.
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| 1 #830 3.0 L L K 7 I I H G F B A i t i
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| . i ,, w o.9 L- L k K T I I G F 6 A I l s' 85 M $
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| lit . . 3. 2. - L .
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| !!4 i
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| m D (%
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| =1% ?!. ,l- I
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| *Esch pte.ae segeerit results f rose slee radloectivity reteese desrivig stie corresperidirig 18ee period.
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| j
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| > SECTION 8,2
| |
| .c .g RELEASE RATE / DOSE ASSESSMENT FOSAVEX - M i
| |
| P! ale SIGNENT:
| |
| ~
| |
| TINE: Fro. 07do To - d 767 1
| |
| ' 'i RELIASE RATE:' i Noble Gas O Ci/sec 1 Iodine (Total) O Ci/sec- .
| |
| f
| |
| \
| |
| 1 PROJECTED DOSES:
| |
| 8 l
| |
| l l
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| l
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| , 'o ,
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| ~
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| li .
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| ...e- . r % , we e *ereewse guma e.e .e $ ,, -.,y 4 .y- o e, ,,,,,, ,,m.,,--,,,,,,a ,,., u. g ,w,. ..,. , ,, yy e--y, 9.p,s.w99g. .-,
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| | |
| T
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| -a O
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| SECTION 8.2. I T' .RE1. EASE RATE / DOSE ASSESSMENT FOSAVEK - 89 - l L-l.1(.,]'3 q PLUME SIGtENT: N ' TIME: From 8800 To 0859 RELEASE RATE:
| |
| . Noble Gas' 1. N 6 ~ b Ci/sec ]
| |
| Iodine (Total) b Ci/sec-
| |
| }
| |
| l PRO.7ECTD DOSES:
| |
| F s
| |
| DIST- DILUTION 'WHOLE BODY CHLD-THY ANCE FACTOR DOSE RATE DOSE-RATE (MILES) (SEC/M3) (REM /HR) -(REM /HR) ,
| |
| EAB 1.615E- 4 3.363E- 3 0.000E+ 0 1.0 4.607E- 5 9.590E- 4 0.000E+ 0 2.0 0.163E- 5 4.503E- 4 0.000E+ 0 I
| |
| , (, ,
| |
| 0.000E+ 0
| |
| ;c ., -
| |
| '3. 0 1.361E- 5 0.S30E- 4 ,
| |
| 4.0- 9.707E- 6 '2.005E- 4 0.000E+ 0 .
| |
| 5.0 7.475E'- 6 1.557E 0.000E+ 0' o.O 5.989E- 6 1.247E- 4 0.000E+ 0 ,
| |
| 7 . '.) 1.C1OE- 6 1.028E 0.000E+ 0 l-L S.O 4.011E- 6 8.767E- 5 0.000E+ 0 0.0 3.714E- 6 7.73;E- 5 0.000E+ 0 1 10.0 3.0;SE- 6 6.91SE- 5 0.000E+ 0 i
| |
| [ 20.0 1.55cE- 6 3.040E- 5 0.000E+ 0 1..
| |
| 0.11SE- 5 0.000E+ 0 l[ 30.0 1.017E- 6 10.0 7.50 E- 7 1.562E- 5 0.000E+ 0 50.0 5.913E- 7 1.231E- 5 0.000E+ 0 li
| |
| !f f v .s'
| |
| ?.1 -lo s m e p .. .
| |
| | |
| b%
| |
| SECTION 4.2 !
| |
| RELEASE RATE / DOSE ASSESSMENT
| |
| ~ '
| |
| . .. l
| |
| \
| |
| PLtINE SIGNENT: 8 UNEi Trm NOO To Ni/h l RELEASE RATE:
| |
| i Noble Gas h. 3 b - 1 C1/sec
| |
| . Iodine (Total) 3. 1 b - d C1/sec PROJECTED DOSES:
| |
| DIST- DILUTION WHOLE BODY CHLD THY ANCE FACTOR DOSE RATE DOSE RATE
| |
| '(MILES) (SEC/M3) (REM /HR) (REM /HR) :
| |
| EAB 1.615E- 4 ~ 6.579E- 3 1.238E- 4 .;
| |
| 1.0 4.607E- 5 1.876E- 3 3.530E- 5 0.0 0.163E- 5 8.810E- 4 1.657E- 5 1.043E
| |
| '.)
| |
| . 3.0 1.361E- 5 5.54E- 4 5 >
| |
| 4.0 9.727E- 6 3.960E- 4 7.453E- 6 -
| |
| 5.0 7.479E- 6 3.046E- 4 5.730E- 6
| |
| . 6.0 5.980E- 6 2.439E- 4 4.589E- 6 1;
| |
| E 7.0 4.040E- 6 0.010E- 4 3.786E- 6 E
| |
| * S.0 4.211E- 6 1.715E- 4 3.02 TE- 6
| |
| !: 9.0 3.714E- 6 1.513E- 4 0.846E- 6 10.0 3.308E- 6 1.356E- 4 2.550E- 6 1
| |
| 20.0 1.55e,E- o 6.339E- 5 1.190E- 6 -
| |
| j.
| |
| : l. 30.0 1.017E- 6 4.144E- 5 7.796E- 7 l 40.0 7.502E- 7 3.055E- 5 5.748E- 7 1
| |
| t l 50.0 5.913E- 7 2.408E- 5 4.531E- 7 _
| |
| 1 a
| |
| ll l ...,
| |
| > s'
| |
| : 3. 2. '7 n
| |
| Jak- ~ ~ '
| |
| - ... _ ... .._.._-.._2.
| |
| | |
| , e h SECTION 8.2 RELEASE RATE / DOSE ASSESSMENT
| |
| # ,o Am _ ,, .
| |
| )
| |
| iq; PLIBE SEGNINT: b TIME: From OT/I To NYN '
| |
| RELEASE RATE:
| |
| Noble Gas df I b - 2. - Ci/sec
| |
| : t. .
| |
| Iodine (Total) 42.E-4 Ci/s.c
| |
| .. PROJECTED DOSES:- ,
| |
| DIST- DILUTION WHOLE-BODY CHLD THY t
| |
| ANCE- FACTOR DOSE RATE DOSE RATE (MILES) (SEC/MS) (REM /HR) (REM /HR)
| |
| EAB . 1.615E- 4 8.407E- 3 1.619E- 4 y
| |
| ". ~1. 0 4.607E- 5 2.397E- 3 4.616E- 5 l.
| |
| .;.0~ 2.163E- 5 1.126E- 3 2.167E- 5 ,
| |
| -(
| |
| 3.0 1.361E- 5 7.081E- 4 1.363E- 5
| |
| ]
| |
| .-. w 4.0 9.727E- 6 5.062E- 4 9.747E- 6 .
| |
| U 5.0 7.478E- 6 3.892E-14 7.493E- o 6.0 5.989E- 6 3.117E- 4 6.001E- 6 1
| |
| l~ 7.0 4.940E- 6 2.571E- 4 4.950E- 6 S.O 4.211E- 6 2.192E- 4 4.22RC- 6 9.0 3.714E- 6 1.9??E- 4 3.721E- 6 l- 10.0 3.328E- 6 1.732E- 4 3.335E- 6 20.0 1.55cE- 6 S.099E- 5 1.559E- 6 .
| |
| 30.0 1.017E- 6 5.295E- 5 1.020E- 6 40.0 7.502E- 7 3.904E- 5 7.517E- 7 ,
| |
| I 50.0 5.013E- 7 3.07SE- 5 5.925E- 7 we
| |
| ?.2M
| |
| -#. . 4,w=, - +.* -- eD ws- -
| |
| 9 y y >-wr
| |
| - re -+!-i-e eW--- -w e- - .- - - rt ----- - - - - - - m---
| |
| | |
| .y o.
| |
| i
| |
| 'g- 4 I
| |
| SECTI(Bf 8.2 RELEASE RATE / DOSE ASSESSMDir FOSAVEK - 89 -
| |
| ?((p
| |
| = PLI3tE SIGNENT: ,
| |
| TIME:. From j b To O RELEASE RATE:
| |
| ' ~
| |
| Noble Gas 7,I b - 2. CUs.c ,
| |
| Iodine (Total) 7. / E - 6 cie e N DOSES:
| |
| s ,
| |
| DIST- DILUTI0tv WHOLE BODY CHLD THY ANCE FACTOR DOSE RATE DOSE RATE !
| |
| (MILES) (SEC/M3)- (REM /HR) (REM /HR)
| |
| EAB 1.615E- 4 1.030E- 2 3.142E- 4 -
| |
| 1.0 4.607E- 5 2.936E- 3 8.960E- 5 2.0 2.163E- 5 1.379E- 3 4.207E- 5
| |
| ); 3.01 '1.361E- 5 8.673E- 4 2.646E- 5
| |
| ~
| |
| 4.0 9.727E- 6 6.200E- 4 . 1.892E- 5 - I 5.0- 7.478E- 6 4.767E- 4 1.455E- 5 ,
| |
| 6.0 5.989E- 6 3.818E- 4 1.165E- 5
| |
| ~
| |
| 1 1.
| |
| 7.0 4.*40E- 6 3.149E- 4 9.609E- 6 S .'O 4.211E- 6 2.684E 8.191E- 6 l
| |
| l 9.0 3.714E- 6 2.067E- 4 7.224E- 6 10.0 3.32SE- 6 0.121E- 4 6.474E- 6 10.0 1.556E- 6 9.920E- 5 3.027E- 6 '
| |
| 30.0 1.017E- 6 6.4SSE- 5 1.979E- 6 40.0 7.502E- 7 4.782E- 5 1.459E- 6 50.0 5.913E- 7 3.769E- 5 1.150E- 6
| |
| [
| |
| T,2A k% -h M69 W pM3 M.F$het T*N* - -.
| |
| ,agA.. wtu M99e $ W 94 % *
| |
| * k' e av+- w- y e.---v e- ..--y-. --.+-.-,eey-' e +a-ie -- -- ---r e e- -e +- w e.e r- e &-r - w
| |
| | |
| bL SECTION 4.2 >
| |
| RELEASE RATE / DOSE ASSESSMENT FOSAVEX - 89 .
| |
| : j. -
| |
| . PLUME SEGNENT: b TIME: -Tro. 09M To - 0W '
| |
| RELEASE RATE:
| |
| Noble Gas 9. 9 E - 2. ci/ e Iodine (Total) /, 3 E - 5 ci/..e PROJECTED DOSESt. .
| |
| DIST- DILUTION WHOLE BODY CHLD THY ANCE FACTOR DOSE RATE DOSE RATE (MILES) (SEC/M3) (REM / HR) (REM /HR)
| |
| EAB 1.615E- 4 1.352E- 2 5.141E- 4 1.0 4.607E- 5 3.857E- 3 1.466E- 4 0.0 0.163E- 5 1.811E--3 6.885E- 5 3.0 1.361E- 5 1.139E- 3 4.331E- 5 4.0 9.707E- 6 S.144E- 4 3.096E- 5 .
| |
| 5.0 7.47SE- 6 6.261E- 4 0.380E- 5 6.0 5.989E- 6 5.014E- 4 1.906E- 5 7.0 4.940E- 6 4.136E- 4 1.572E- 5 S.O 4.211E- 6 3.526E- 4 1.340E- 5 S.0 3.714E 6 3.109E- 4 1.182E- 5 l 10.0 3.306E 2.786E- 4 1.059E- S L :'. 0 . 0 1.55eE- 6 1.303E- 4 4.953E- 6 1
| |
| l
| |
| - 30.0 1.017E- 6 8.518E- 5 3.238E- 6 40.0 7.500E- 7 6.280E- 5 2.388E- 6 50.0 5.913E- 7 4.951E- 5 1.882E- 6
| |
| ..J 3.2.-10 s
| |
| e e & -r -ew , y 9-,,---9 - -.y-- - 7 y
| |
| | |
| e ,
| |
| SECTION 8.2-RELEASE RATE / DOSE ASSESSMENT- l rosa m - M - -
| |
| {.. . .
| |
| PLIBE SEGENT: k ~ TIME: From / Oh To ! fY .
| |
| RELEASE RATE:
| |
| Noble Gas /, / E - / ci/ -,
| |
| Iodine (Total) 2.0 E --E ct/..e PROJECTED DOSES: ,
| |
| r DIST- DILUTION WHOLE BODY CHLD THY ,
| |
| ANCE FACTOR DOSE RATE DOSE RATE e (MILES) (SEC/M3) (REM / HR) (REM /HR)
| |
| EAB 1.615E- 4 1.544E '2 7.617E- 4 1.0" 4.607E- 5 4.405E- 3 2.17.2E- 4 2.0 2.163E- 5 2.06SE- 3 1.020E- 4
| |
| ..,,__ 3.0 1.361E- 5 1.301E- 3 6.416E- 5
| |
| -\
| |
| 4.0 9.727E- 6 9.300E- 4 4'.587E- 5 _
| |
| 5.0 7.478E- 6 7.150E- 4 3.526E- 5 o.0- 5'.969E- 6 5.727E 2.624E- 5 7.0 4.940E- 6 4.724E- 4 2.330E- 5 S.0 - 4.211E- 6 4.027E- 4 1.986E- 5
| |
| . C.0 3.714E- 6 3.551E- 4 1.751E- 5 10.0 3.328E- 6 3.182E- 4 1.569E- 5 20.0 1.55eE- 6 1.48SE- 4 7.338E- 6 .
| |
| 30.0 1.017E- 6 9.728E- 5 4.798E- 6 40.0 7.502E- 7 7.172E- 5 3.537E- 6 .
| |
| 50.0 5.913E- 7 5.654E- 5 2.788E- 6 s
| |
| . a.e
| |
| - . . - , ~ . - - .. .
| |
| 2 e-p e --ry -ypgg ----p= -
| |
| | |
| I:i; ;
| |
| 1 O
| |
| SECTION 8.2 I g ,
| |
| 1 RELEASE RATE / DOSE ASSESSMENT
| |
| .I ,[ NEA M ~ #
| |
| * PLtBIE SEGMDrt:' b -
| |
| TIME: From' / /I To f q i
| |
| RELEASE RATE:
| |
| Noble Gu /,6E-/ cu.= . -
| |
| Iodine'(Total) 2. 7 E -5' cu.= .
| |
| PROJECHD DOSES:' l
| |
| ?
| |
| DIST- DILUTION WHOLE BODY CHLD THY ANCE FACTOR- DOSE RATE' DOSE RATE ;
| |
| (MILES) (SEC/M3)- (REM /HR) (REM /HR)
| |
| . E AB 1.615E--4 2.193E- 2 1.047E-.3
| |
| : 1. 0 - 4.607E- 5 6.254E- 3 2.987E- 4 2.0 2.163E- 5 2. 9 37 E- 3 1.402E- 4
| |
| '*'s. 3.0 1.361E- 5 1.847E- 3 8.821E- 5
| |
| .("k) 4.0 9.727E--6 1'.321E- 3 6.307E- 5 ,,
| |
| 5.0 7.478E- 6 1.015E- 3 4.849E- 5 i o.O 5.oS9E- 6 8.131E'- 4- 3.8S3E- 5 7.0 4.940E- 6 6.707E- 4 3.203E- 5 6.0 4.211E- 6 5.717E- 4 2.730E- 5 a !
| |
| :r.-
| |
| 9.0 3.714E- 6 5.042E- 4 2.408E- 5 .
| |
| 10.0 3.328E- 6 4.518E- 4 2.158E- 5 20.0 1.556E- 6 2.113E- 4 1.009E- 5 ,
| |
| 30.0 1.017E- e 1.381E- 4 6.597E- 6 a- 40.0 7.502E- 7 1.018E- 4 4.864E- 6 ,
| |
| 50.0 5.513E- 7 S.020E- 5 3.834E- o
| |
| , v t t-l t
| |
| =
| |
| f.
| |
| . , _ . ~ . . . - . , , x -r--
| |
| | |
| ((:g./.i ' 1 lr R. .
| |
| ~
| |
| E SECTISI a.2 p v- RE!. EASE RATE / DOSE ASSESSMENT' >
| |
| 'i
| |
| ;F08AVEX - 89 -
| |
| 1 PLtME SEGMDir:' TIME: From To -
| |
| REI. EASE RATE:
| |
| i Noble Gu~ 2' O b- / CUsec Iodine ~(Total) b 3 b - I C1/sec PROJECTED DOSES:-
| |
| DIST- ' DILUTION WHOLE LOD CHLD THY
| |
| (;- ANCE FACTOR DOSE. RATE DOSE-RATE '
| |
| (MILES) (SEC/M3) (REM /HR)' (REM /HR) .
| |
| EAB- 1.615E- 4 2.705E- 2 1.523E- 3 1.0 4.607E- 5 7.714E- 3' 4.344E- 4 l+
| |
| 2.0- '2.163E- 5 -3.600E- 3 0.040E- '4 I
| |
| : 4. 3.0 1~.361E- 5 2.078E- 3 1.083E- 4
| |
| -4.0 9.707E-'6 1.629E- 3 9.173E ,
| |
| 1 1
| |
| 5.0 7.478E- 6 1.052E- 3 7.051E o.Q 5.Si9E- 6 1.003E- 3 5.648E- 5
| |
| . 7.0- ~4.940E- 6 8.070E- 4 4.659E- 5 S.0- 4'.011E- 6 7.052E- 4 3.97 E i 9.0 3.714E- 6 6.219E- 4 3.503E- 5. i I
| |
| 10.0 3.30SE- 6 E.573E- 4 3.139E- 5 .
| |
| 20.0 1.55eE 2.606E- 4 1.4c.SE- 5 -
| |
| 30.0 1.017E- 6 1.704E- 4 9.595E- 6 40.0 7.502E- 7 1.256E- 4 7.074E- 6 !
| |
| 50.0 5.913E- 7 9.900E- 5 5.577E- 6
| |
| ~
| |
| 4
| |
| ~
| |
| 4
| |
| | |
| ~
| |
| .-1
| |
| .y SECTION 8.2 RE1, EASE RATE / DOSE ASSESSMENT
| |
| -l, -
| |
| FOSAVEX - M .
| |
| .. ..7: g . .
| |
| - FI.tME SEGNDir: TIME: Frca / To RELEASE RATE:
| |
| N,oble Gas bb b"f Ci/sec
| |
| .-Iodine (Total) 5 2. E -5 Cu.ee PROJECTED DOSES:
| |
| .DIST- DILUTION WHOLE BODY CHLD THY ANCE- FACTOR DOSE RATE DOSE RATE -
| |
| - (M I L ES) (SEC/M3) ' (RE M / HR) (REM /HR)
| |
| EAB 1.615E- 4 3.363E- 2 1.999E- 3
| |
| ; .1.0 4.607E- 5 9.590E- 3 5.702E- 4 0.0 1.163E- 5 4.503E- 3 2.o77E- 4
| |
| (_
| |
| -P l 3.0 1.361E- 5 0.032E- 3 1.684E- 4 4.0- 9.727E- 6 2.0~5E- 3' 1.204E- 4 .
| |
| 5.0 7_.478E- 6 1.557E- 3 9.256E- 5 c.0 5.989E- 6 1.047E- 3 7.413E- 5
| |
| ~7.0 4.940E- 6 1.02SE- 3 6.115E- 5
| |
| -8.0 4.211E- 6 S.767E- 4 5.213E- 5 9.0 3.714E- 6 7.730E- 4 4.597E--5 10.0 3.308E- 6 6.908E- 4 4.120E- 5 20.0 1.556E- 6 3.240E- 4 1.926E- 5 -
| |
| 30.0 1.017E- 6 2.118E- 4 1.259E- 5 40.0 7.50CE- 7 1.56 E- 4 9.285E- 6 -
| |
| 50.0 5.913E- 7 1.231E- 4 7.319E- 6 O
| |
| t.1-l4 -
| |
| l 4 v n%
| |
| '"'Y' N $ l,tN
| |
| | |
| r t 1
| |
| .. o h
| |
| SECTION 8.2
| |
| .. 4 RE1. EASE RATE / DOSE ASSESSMENT 6
| |
| .{ ,
| |
| - PLIME SEGNENT: 7- TINE: From J l_ b To ff/h I l
| |
| nEI.uSE u TE:
| |
| mi. u. 3. 2 E - /- cu e i
| |
| Iodin. (Total) /M E-6 cu..e 3
| |
| PROJECTED DOSES:.
| |
| f DIST- DILUTION ,WHOLE BODY CHLD THY ANCE FACTOR DOSE. RATE DOSE RATE ,
| |
| y- (MILES) - (SEC/M3) (RIM / HR) (REM /HR)
| |
| EAB 1.615E- 4 4.386E- 2 2.666E- 3 1.0 -4.607E- 5 1.251E- 2 7.603E-~4 2.0 2.163E- 5 5.S73E- 3 3.570E- 4
| |
| . ; s .. 3.0- 1.361E- 5 3.694E- 3 2.245E- 4
| |
| .f V--^) 2.641E- 3 1.605E 4 4.0 9.727E- 6 5.0~ 7.478E- 6 2.031E- 3 1.234E -4 6.0 5.989E- 6 1.626E- 3 9.SS5E- 5 7.0. 4.940E- 6 1.341E- 3 8.153E- 5 S.0 4.211E- 6 1.143E- 3 6.950E- 5 9.0 3.714E- 6 1.00SE 3 6.13,0E- 5 10.0 3.32SE- 6 9.037E- 4 5.493E- 5 1 20.0 1.556E- 6 4.226E- 4 -2.56SE- 5 l:
| |
| 2.763E- 4 1.679E- 5 !
| |
| 30.0 1.017E- 6 40.0 7.502E- 7 2.037E- 4 1.238E- 5 I l
| |
| 30.0 5.?15E- 7 1.60eE- 4 9.759E- o
| |
| - iM 3,1-l5
| |
| : a. .we .emme e.ea. . . . _ . -- .4%!, %*w._
| |
| . - ._ .- -. . .. . - - - .. -.. . .. -. l
| |
| | |
| f SECTION 8.2
| |
| '.. RELEASE RATE / DOSE ASSESSMENT i :
| |
| FOSAVEX - 89 .
| |
| PLIBE SEGENT: TIME: From /l b To / / N ut=SE u rE:
| |
| -m. 1. ..- 3. 7 E -I. cu c Iodine (Total) A. / b Ci/sec PROJECTED DOSES:
| |
| DIST- DILUTION WHOLE BOEY CHLD THY
| |
| 'ANCE ' FACTOR DOSE RATE DOSE RATE , l.f i
| |
| (MILES)' (SEC/M3) (REM /HR) (REM /HR) {
| |
| n EAB 1.-615E- 4 5.117E-'2 3.523E- 3 -
| |
| 1 1.0 4.607E- 5 1.459E- 2 1.005E- 3 0.0 2.163E- 5 6,052E- 3 4.717E- 4 .
| |
| "'s-2.0 1.361E- 5 4.310E .3 2.967E- 4
| |
| /
| |
| -v. . -]
| |
| .4.0 9.727E- 6 3.001E- 3 2.121E- 4 i i
| |
| 5.0 7.478E- 6 2.369E- 3 1.631E- 4 j
| |
| 'c. 0 5.089E- 6 1.397E- 3 1.306E- 4 -!
| |
| l 7.0 4.940E- 6 1.565E- 3 1.077E- 4
| |
| -S.0 4.211E- 6 1.334E- 3 9.184E- 5 q 9.0 3.714E- 6 1.177E- 3 8.100E- 5 l-l 10.0 3.328E- 6 1.054E- 3 7.258E- 5 {
| |
| v 20.0 1.55c.E- 6 4.930E- 4 3.394E- 5 .
| |
| l 30.0 1.017E- 6 3.223E- 4 2.219E- 5 L-. ,
| |
| l, 40.0 7.502E- 7 2.376E- 4 1.636E- 5 . ;
| |
| t.
| |
| o 50.0 5.913E- 7 1.673E- 4 1.290E- 5 L
| |
| M s4" rt +JV9
| |
| * 4
| |
| -i - w m'
| |
| | |
| SECTION 8.2.
| |
| k- ' RELEASE RATE / DOSE ASSESSxENT rosaEx - e, k..a r ~ .t/ .
| |
| e
| |
| " .1 el.uxE-SianEnT: L TIxE: reo. / /30 To / / W ,
| |
| RELEASE RATE:- ,
| |
| Noble Gas h. h b ** h C1/sec Iodine.(Total). f. b h Ci/sec rit0JECTED DOSESt.
| |
| ?
| |
| DIST- DILUTION WHOLE BODY CHLD THY-r ANCE' FACTOR DOSE RATE' DOSE RATE ,
| |
| (M I LES), (SEC/M3) (REM / HR) (REM /HR)
| |
| . 'EAB. 1.615E-.4 '$.985E- 2 4.475E- 3 1.0 4.607E- 5 1.707E- 2 1.276E- 3 2.0 0.163E- 5 8.014E- 3 5.992E- 4 3.0 - 1.361E-'5 5.041E- 3 3.769E- 4
| |
| .(' ; J 1 4.0 9.727E- 6 -3.604E- 3 2.695E- 4
| |
| _ 7 5.0 7.47SE-~6 2.771E- 3 2.072E- 4 -
| |
| 6.0 5.989E- 6 2.219E- 3 1.659E- 4
| |
| ~7.0 4.940E- 6 1.830E 1.369E- 4 S.0 4.211E- 6 1.560E- 3 1.167E- 4 9.0 3.714E 6 1.376E- 3 1.029E-'4 :
| |
| 10.0 ~3.32SE- 6 1.233E- 3 9.220E- 5 ,
| |
| 20.0 1.55cE- 6 5.7 66E- 4 4.311E- 5' .
| |
| ~
| |
| 30.0 1.017E- 6 3.770E- 4 2.819E- 5' 40.0 7.502E- 7 2.7792- 4 2.078E- 5 ,
| |
| 50.0 5.913E- 7 2.191E- 4 1.60SE- 5 :
| |
| er
| |
| -em eds +-
| |
| k>w-9 9 'ed-ey 6 --wvg = '
| |
| : w. l SECTION 8.2
| |
| -RE1. EASE RATE / DOSE ASSESSMENT
| |
| ,o ,EE _ ., .
| |
| e(3g ;
| |
| //59
| |
| ,u ,,0 ,, m : m uxE r- // 9 5 To i RE1.uSE u n:
| |
| , 1 b + O CUsec
| |
| , Noble Gas Iodine (Total) 'f,k b " C1/sec: l
| |
| ,ROJECTED DOSES:
| |
| DIST- D 1 L UT I ON ,. WHOLE BODY CHLD THY ANCE FACTOR DOSE RATE DOSE RATE (MILES) (SEC/M3) (REM /HR) (REM /HR)
| |
| EAB 5.384E '4 5.363E- 1 1.873E- 2 1.0 1.536E- 4 1.529E- 1 5.340E- 3 0.0 7.010E- 5 7.181E- 2 0.507E- 3
| |
| , h. 3 . 0' 4.535E- 5 4.517E- 2 1.577E- 3 x y 4.0 3.042E- 5 3.029E- 2 1.128E- 3 ,
| |
| 5.0 .0.493E- 5 2.483E 2 8.669E- 4 c.0 1.996E- 5 1.988E-- 6.943E- 4 7.0 1.647E- 5 1.640E- 2 5.727E- 4 S.O 1.404E- 5 1.399E- 2 4.882E- 4 2 0.0 1.03SE- 5 1.233E- 2 4.305E- 4 10.0 1.109E- 5 1.105E- 0 3.858E- 4 20.0 5.187E- o 5.167E- 3 1.804E- 4 .
| |
| 30.0 3.390E- 6 3.378E- 3 1.179E- 4 40.0 2.501E- 6 2.490E- 3 8.696E- 5 50.0 1.971E- 6 1.9o3E- 3 6.855E- 5 m
| |
| $ of 6L s p 4 ey **-16eGIO e n "
| |
| 'o us* g p W' i hgs M ..
| |
| p 9
| |
| __ ., ,.--.,a- , ,.aes-- ~ - - = - ~ ' " ~ ~ ~ ~ ~
| |
| | |
| p ,w SECf!ON 4.2-i .
| |
| RELEASE RATE / DOSE ASSESSMENT p, FOSAVEX - 89 .
| |
| 1-[w4, LPLIME 88GMENT:1 TIME: From 2[O, To [ h.
| |
| 4-
| |
| - : RELEASE RATE:..
| |
| u.ni. c /.5 E +o a:u.=
| |
| ':- Iodine (Total) 2.3 E - 4 _cu.= -
| |
| s v.
| |
| PROJECTED DOSES: ,
| |
| t DIST- DILU110N-'WHOLE BODY CHLD THY j i '-
| |
| ANCE. FACTOR DOSE RATE DOSE RATE .
| |
| (MILES) (SEC/M3) (REM /HR) (REM /HR) ,
| |
| EAB 5.384E- 4 7.079E- 1 2.952E- 2 1.0 1.536E- 4 2.019E- 1 8.417E- 3 t.0L 7.010E- 5 '9.479E- 2 3.952E- 3
| |
| ; 3. 0' 4.535E- 5 5.9e:E- 2 2.486E- 3 4.0 3.040E- 5 4.263E- 2 1.777E- 3 .
| |
| 5.0 h.493E- 5 -3.077E 2 1'.366E- 3 c.0 1.956E- 5 2. 605E- . 1.094E- 3 I 7.0 1.e47E- 5 2 165E- 2 9.027E- 4 S.O 1.404E- 5 1.846E- 2 7.695E- 4 Y
| |
| '' c.0 1.038E- 5 1.6;6E- 0 6.786E- 4 10.0' 1.109E- 5 1.458E- 2 6.081E- 4 l'
| |
| 20.0 5.137E- 6 6.800E- 3 2.844E- 4 o
| |
| 30.0 3.392E- 6 4.459E- 3 1.859E 4 40.0 2.501E- 6 3.287E- 3 1.371E- 4 .
| |
| 50.0 1.971E- o 2.591E- 3 1.0SOE- 4 l
| |
| : l. . .--
| |
| L 3,1-l9 . _ , _ , _ . -
| |
| F D' M%Er ++
| |
| k 1; , .. . - . . .
| |
| . . -. _ . . . n wa
| |
| | |
| g ,
| |
| .- i
| |
| [? tf; - 1 SECTION 8.2 I? RELEASE RATE / DOSE ASSESSMENT !
| |
| :s= e rosavEx - e, .
| |
| N:3: }
| |
| P1.tME ' SEr%ENT: - b TIME: From fb/ To /ff-t, RELEASE RATE:-
| |
| Noble Gaz 3. 7 E .+D ci/s.e i i
| |
| Iodine (Total) bhI"h CDs.c PROJECTED' DOSES:- .
| |
| t
| |
| 'DIST- DILUTION WHOLE BODY CHLD THY ANCE. FACTOR DOSE RATE DOSE RATE ,
| |
| (MILES) (SEC/M3) (REM /HR) (REM /HR)
| |
| EAB 2.692E- 4 8.795E- 1 2.222E-'2 1.0 7.678E- 5 2.50SE- 1 6.336E- 3.
| |
| 2.0 3.605E- 5 1.178E- 1 2.975E- 3
| |
| -: -' -. 3.0 2.268E- 5 7.408E- 2 1.871E- 3 4.0 1.621E- 5 5.296E- 2 1.338E- 3 ,
| |
| 5.0 1.246E- 5' 4.072E- 2 1.028E- 3' 6.0 0.oS2E- 6 3.261E- 2 S.237E- 4 7.0 8.234E- 6 2.690E- 2 6.795E- 4
| |
| 'S . O 7.019E- 6 2.293E- 2 5.792E- 4 O.0 6.100E 2.022E- 2 5.10BE- 4 10.0 5.547E- 6 1.812E- 2 4.577E- 4 's 20.0 2.594E- o 8.473E- 3 2.140E- 4 - ,
| |
| 30.0 1.696E- 6 5.540E- 3 1.399E- 4 40.0 1.250E- 6 4.084E- 3 1.032E- 4 ,
| |
| 50.0 9.856E- 7 3.220E- 3 8.133E- 5
| |
| ,/
| |
| %.140 L
| |
| .,e,
| |
| -'W-' "- g --g w t- .vs'-r , e e .w-,.
| |
| : n. - - - . .. . . . .
| |
| SECTION 4.2 )
| |
| RELEASE RATE / DOSE ASSESSMENT
| |
| 'f . _
| |
| F08AVEX - M .
| |
| %;;' j Plas SIGENT: TIME: From f bO To fbb RELEASE RATE: !
| |
| Noble Gas '2 I h + b CU se. ,
| |
| Iodine (Total) 4, / E - Y cu
| |
| ~
| |
| manerED o0sEs: <
| |
| DIST- DILUTION sWHOLE BODY CHLD THY t ANCE FACTOR DOSE RATE DOSE RATE ,
| |
| . t (MILES) (SEC/M3) (REM /HR) (REM /HR)
| |
| EAD 1.385E- 4 8.826E- 1 2.040E- 2 !
| |
| 1.0 3.949E- 5 2.517E- 1 5.818E- 3 s
| |
| 1.0 1.854E 1.18 E- 1 0.732E- 3
| |
| : 3. 0 1.166E- 5 7.434E- 0 1.718E- 3
| |
| { .
| |
| 4.0 8.338E 6 5.315E- 0 1.229E- 3 .
| |
| 5.0 6.410E- 6 4.086E-'2 9.445E- 4 6.0 5.134E- 6 3.070E- 0 7.565E- 4 7.0 4.035E- 6 2.699E- 2 6.240E- 4 S.O 3.610E- 6 2.301E- 2 5.319E- 4 ;
| |
| 5.0- 3.185E- 6 0.009E- 2 4.691E- 4 10.0 0.853E- 6 1.818E- 2 4.204E- 4 20.0 1.334E- 6 8.503E- 3 1.966E- 4 30.0 8.721E- 7 5.559E- 3 1.285E- 4 40.0 6.430E- 7 4.099E- 3 9.475E- 5 50.0 5.069E- 7 3.231E- 3 7.469E- 5 ,
| |
| . ~.
| |
| :g a i !
| |
| 9
| |
| % ,-w- -w- wm.= u. - - - , . , - -r -m.,-. - , 2 , , , . c ,, e
| |
| | |
| SECTION 8.2-REI. EASE RATE / DOSE ASSESSMEIC ,
| |
| f.
| |
| FOSAVEK - 89 .
| |
| Q I
| |
| PLUME SIMENT:
| |
| TIME: From $ To f o RELEASE RATE:
| |
| i Now. c /, 2. E + / cu - . a Iodin. (Total) /, [ b " 3 C1/s.c PROJECEID DOSES: . w. , _ ,. _
| |
| t DIST- DILUTION WHOLE BODY CHLD THY ANCE FACTOR -DOSE RATE DOSE RATE ,
| |
| (MILES) (SEC /M 3) (RE M / HR) (REM /HR)
| |
| EAS 1.385E- 4 1.379E+ 0 3.754E- 2 !
| |
| 1.0 3.949E- 5 3.931E- 1 1.071E- 2 2.0 1.854E- 5 1.846E- 1 5.027E- 3 3.0 '1.166E- 5 1.161E- 1 3.162E- 3
| |
| . A,)
| |
| 4 '. 0 8.338E- 6 8.301E- 2 2.261E- 3 .
| |
| 5.0 6.410E 6.382E- 2 1.738E- 3
| |
| ~
| |
| 6.0 5.134E- 6 5.111E- 2 1.392E- 3 7.0 4.235E- 6 4.216E- 2 1.148E- 3 6.0 3.610E- o 3.594E- 2 9.787E- 4 0.0 3.183E- 6 3.169E- 2 8.631E- 4 10.0 2.853E- 6 2.840E- 2 7.735EEA~ ' ' "" ]* ''
| |
| 20.0 1.334E- 6 1,.32SE- 2 3.617E- 4 ,
| |
| 30.0 S.721E- 7 8.683E- 3 2.365E- 4 h
| |
| .- , ,, e 40.0 6.430E- 7 6.402E- 3..g 1.743E) 4 p ,
| |
| 50.0- 5 . 0 c. 9 E - 7 5.046E- 3 1.374E- 4 9
| |
| $ ++ + yw.t; 4 -
| |
| * % %~ - --:W,gg
| |
| .,,m.,we<= **+=4
| |
| ~ ''
| |
| g
| |
| . . ww.ea. . . g
| |
| * w. et.eece ** = a n
| |
| _n
| |
| | |
| r , ,
| |
| v, ,
| |
| i N
| |
| SEcrION 4.2 I RELEASE RATE / DOSE ASSESSNENT yb(
| |
| FOSAVEX - M .
| |
| Q):: . . ~ ,
| |
| . PLtBIE - SEGNENTt - R UNE: Tr. /300 To E /M RELEASE RATE:-
| |
| Noble Gas .hb+f CUsec Iodine (Total) ,O b ""' b Ci/sec
| |
| : +- PROJECTED DOSES - .
| |
| +
| |
| DIST- DILUTION WHOLE BODY'CHLD THY ANCE FACTOR DOSE RATE -DOSE RATE' ,
| |
| (MILES) (SEC/M3)- (REM /HR) (R EM / HR )-
| |
| EAB 1.385E- 4 2.318E+ 0 6.529E- 2 1.0 3.949E- 5 6.612E- 1 1.862E- 2
| |
| .0 1.854E- 5 3.105E- 1 8.743E- 3 3.0 1.166E- 5 1.953E 1 -5.499E- 3 i
| |
| '# - 4.0 S.338E- 6 1.396E- 1 3.931E- 3 5.0 6.410E- 6 1.073E- 1 3.022E- 3 6.0 5.134E- 6 8.596E- 2 2.421E- 3 7.0 4.235E- 6 7.091E- 2 1.997E- 3 6.0 3.610E- 6 '6.044E- 2 1.702E- 3 t,
| |
| 9.0 3.183E- 6 5.330E- 2 1.501E- 3 ,
| |
| I 10.0 2.853E- 6 4.777E- 2 1.345E- 3 i s ^0.0 1.334E- 6 2.234E- 2 6.290E- 4 L
| |
| 30.0 S.721E- 7 1.460E- 2 ,4.112E- 4 40.0 6.430E- 7 1.077E- 2 3.032E- 4 l
| |
| 50.0 5.0e9E- 7 3.467E- 3 0.390E- 4 3
| |
| I
| |
| -_... ___ . . _ _ _ _ _ _ . . _ _ . _ . . _ . . . , . . . _ , . _ _ _ . . . _ _ , .; c ,
| |
| | |
| C- j 1
| |
| SECTION 4.2 RELEASE RATE / DOSE ASSESSxDrr l e
| |
| Al:::
| |
| ,0 A,EE ., .
| |
| 3 i
| |
| ri. axe saa m er :S TznE, r, /.3 /( To /M7 !
| |
| l RELEASE RATE:
| |
| Noble Ga. -2.1 E + / cu e o Iodine-(Total) 3.1 E-1 et/ e i
| |
| ,ROJECTED DOSES:
| |
| 1
| |
| -DIST- DILUTION ,.WHOLE BODY CHLD THY ANCE FACTOR DOSE RATE DOSE RATE ,
| |
| (MILES) bSEC/M3) (REM / HR) (REM /HR) 1.061E-EAB l'.385E- 4 2.757E+ 0 1-1.0- 3.949E- 5 7.862E- 1- 3.026E- 2 2.0 1.854E- 5 3.692E- 1 1.421E- 2 i
| |
| g Og. 3.0 1.166E- 5 2.322E- 1 8.936E- 3 4.0 8.33BE- 6 1.660E- 1 6.389E -3 . .,
| |
| 5.0 6.410E- 6 1.276E- 1 4.912E- 3 6.0 5.134E- 6 1.022E- 1 '3.934E- 3 7.0 4.235E- 6 8.432E- 2 3.245E- 3 8.0 3.610E- 6 7.188E- 2 2.766E- 3 9.0 3.183E- 6 6.339E- 2 2.439E- 3 10.0 2.853E 6 5.680E- 2 2.186E- 3 20.0 1.334E- 6 2.65eE- 2 1.022E- 3 ,
| |
| 30.0 8.721E- 7 1.737E- 2 6.682E- 4 40.0 6.430E- 7 1.280E- 2 4.927E- 4 50.0 5.0o9E- 7 1.009E- 2 3.884E- 4 J
| |
| v.1-14 _
| |
| 4.,n-. - .
| |
| - - ~ - ~ ~ - ~ - -_ . _ . . __ _ _ _ _
| |
| | |
| -t p -
| |
| e -
| |
| .C,r ..,
| |
| RELEASE RATE / DOSE ASSESSMENT e t. ,
| |
| ,ounx . ., .
| |
| ' ' .' % 'k, 4 e .-
| |
| rum sneern rznE, -re. /330 to /d59 -
| |
| : r. mEzuSE un ,.
| |
| 1 I
| |
| . Noble Gas b C1/sec ,
| |
| Iodine (Total) O ci/..e-PROJECTED DOSES: L M
| |
| i s
| |
| e s a _
| |
| e I
| |
| e 9
| |
| t k
| |
| i
| |
| ', ;4' T. 2.- 25 3aw
| |
| %e r eaw a ogsus eh+4eseemusa,6d w s , - M messe -
| |
| * i--.
| |
| . , . ,. . _ . . . . _ . . . _ . ~ , , . . _ - , _ . . , _ . _ _ . _ . . . , . . . . _ _ . . . _ . - - _ . . - _ _ _ _ , .. _ .. ~i..
| |
| | |
| .= . . _ _ _ _ . . _ _ _ - . _ _ _ _
| |
| ll SECTION 8.3 j FIELD MONITORING DATA
| |
| ?s
| |
| ' FOSAVEX - 89 ,
| |
| l TIME: Fro. 07o0 To 0759 l
| |
| . l IN-FIELD SAMPLING RESULTS Ambient ,
| |
| ' Radiation Levels
| |
| * Particulate *I-131 ,
| |
| (mR/hr) Activity Activity {
| |
| Concentra- . Net Concentra- Net Distance Window Window tion Count Rate' tion Count Rate .
| |
| open .ipci/ce) (ene) . _1pci/ce) (com)
| |
| (Miles) fd2Ets EAn BG GG mDA o mbh o
| |
| . o.5 GG 6G MDA 0 MbA O l'. o' AG GL MDA 0 mbe o GG mbe o Mh4 O l
| |
| . . _ 1.5 f1> G 2.o '6 G RG mbA 0 mbR o l 0 1 2.5 GA 66 MDA O M D S-3.o 6G GG mba o M DR 0 .
| |
| s.o GG 9G mbA O MDR n i s.o. GG BG MDL 0 h1b h -O 7.5 SG AG MDA 0 / hoe o i 10.0 bG bb MDb' O /fI bd O 5\
| |
| s
| |
| * Based on a collection volume of 15 ft' (a.2 x lo cc) ,
| |
| -g J
| |
| .a 39 wpm- -se '
| |
| - e. >+g- w w> n-.w .
| |
| * 4 t- _e m -- ._re--+
| |
| - =u - = mme- -
| |
| *w .s ew-' ,--------*w=
| |
| | |
| SEC1' ION 8.3 FIELD MONITORING DATA 4.. FOSAVEX - 89 .
| |
| r TIME: Tram d 00 To OT N IN-TIELD SAMPLING RESULTS Ambient '
| |
| Radiation Levels
| |
| * Particulate *I-131 (mR/hr) Activity Activity i
| |
| Concentra- Net Concentra- Net Distance Window Window tion Count Rate tion' Count Rate (Miles) open g1_oggd y i/cc) (com) JpCI/cc) (com)
| |
| EAs 4.fE6 M E40 mea O mh4 o a o.5 5?E40 2M E+0 MDA o MBA o 0
| |
| 1.o BG GG mBA mBA O
| |
| _, 1.5 M 60 Mbe O Mhh O N 2.o AC, 6G mnA 0 Mbk O MW 2.5 BG GG mb4 o 0 .-
| |
| 3.o AG AG MBA 0 dioA 0 4.o AG GG MbA O MDA o 5.o GG 6Ce MBA D Mh4 0
| |
| , 7.5 $,C b b' Mbk O M De O to.o EG BG MD4 O MBA O l.
| |
| l I-
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| , ~,
| |
| S 9%6h O-MM' a p .b
| |
| '11 ?~ * ,"*sded- W "
| |
| y ep =g _. y g = -
| |
| # '' . ,,-4 , _ ,
| |
| | |
| . . _ . . _ _ _ ~ _ _ . _
| |
| 1 SECTION 8.3 FIELD MONIMRING DATA f ', FOSAVEX - 89 ,
| |
| .k- .
| |
| TIME: From T /I To SN l
| |
| IN-FIELD SAMPLING RESULTS ,
| |
| Ambient ,
| |
| Radiation Levels
| |
| * Particulate *I-131 (mR/hr) Activity Activity j Concentra- Net Concentra- Net Distance Window. Window tion Count Rate . tion Count Rate (Miles) Open gisag Jpci/ce) (com) JpfdLgg), (com)
| |
| Fa 42 E+0 14E+0 mbA o mbA- O o.s _ E T E40 2. W O mBA o- MDA o' 1.o I.9 E+0 9.(o E-l mnh a mbA o
| |
| - 1.s IME+0. 70E-l mbA O mba 0 2.o GC 6G mu O MbA 0 2.5 8G 8G MtsA- O , Mhd. O ,
| |
| 3.o fAC AG Mh4 O MDd O .
| |
| s.o - AG SG mho O MAA 0_
| |
| s.o SG- bG m_tL_ 0 MDA O 7.5 AG 8G mD4 O MBA O o lo.o AG AG Mb6 O MD6 O' l (1
| |
| * Based on a collection volume of 15 ft' (6.2 x lo' cc)
| |
| . ~ ,
| |
| M'
| |
| ..w..
| |
| v.3-s
| |
| ... = #
| |
| l
| |
| | |
| i SECTION 8.3 FIELD MONITORING DATA FOSAVEX - 89 ~
| |
| /[Q TIME: From bh To b
| |
| +
| |
| IN-FIELD SAMPLING RESULTS Ambient ,
| |
| Radiation '
| |
| Levels
| |
| * Particulate *I-131 (mR/hr) Activity Activity concem:ra- Net Concentra- Net Distance Window ' Window tion Count Rate tion Count Rate (Miles) ,_oggt C1_osed ipci/ce)- (com) _ J,pci/cc) (com)
| |
| EAn d.9E4 3M E40 mnA 0 Othh n ,
| |
| o.s 59E+0 9A E+0 mne o mbh o 1.o - /.1 E40 f./, E-l ADA o thnA O t.s I.4 E+0 70E-l mba O mpR o d 2.o 7.0E-l 4.5E-l '
| |
| mea o pion o 2.s & AG rhD A o MhA. 0 3.o E2_- GG moe O Olb4 0 o
| |
| 4.o BG 6G mh4 o MbA s.o RG GG thDA o mnA o 7.5 6C BG mbA 0- MbA 0 lo.o AG 6G MDA o MDA O
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| - m, a
| |
| ay c
| |
| T.3-Y -
| |
| .s .e, op. * +-
| |
| dM
| |
| | |
| SECTION 4.3 FIELD MONITORING DATA
| |
| -- FOSAVEX. - 89 .
| |
| ' [c: -
| |
| TIME: From 09hI To 0959 1
| |
| IN-FIELD SAMPLING RESULTS f Ambient .
| |
| Radiation '
| |
| Levels
| |
| * Particulate *I-131 (sR/hr) Activity Activity Coocentra- Net concentra- Net Distance Window. Window - tion Count Rate tion Count Rate '
| |
| '(Niles), open 91gggd., _fyci/ec) (com) _fyci/cc) (com)
| |
| Ens d.tbo 34E+0 (hDA O IM0k O o.s KMD 29E+O mbA O MDA- 0 1.o l.9 E40 14E-l MDA o alb4 0 l
| |
| . 1.s I.tSE+0 20E-l mbA o hb6 0 ;
| |
| } 2.o 90 E-l thM E-I mDA O MDA 0
| |
| ~
| |
| 2.5 7ME-I 17E-I mea o rn 0 A- 0 3.o 5(o B-l 2SE-l moA -0 m04 0 ,
| |
| L r.o 8G OG mbA 0 Rbh O s.o SG AG m'B A 0 MDA o '
| |
| 7.5 4C GG MDA 0 MbA 0 lo.o bC bb Old b O Mbk O
| |
| * Based on a collection volume of 'Is ft* (4.2 x lo' cc) m,
| |
| | |
| v I
| |
| SECTION 8.3 TIELD MONITORING DATA
| |
| : q. FOSAVEX - 89 .
| |
| v TIME: From 0900 To 69/4 t
| |
| IN-TIELD SAMPLING RESULTS Ambient ,
| |
| Radiation Levels
| |
| * Particulate *I-131 (aR/hr) Activity . Activity Concentra- Not Concentra- Net Distance Window Window tion Count Rate tion Count Rate (Miles) _Qpeo . Egggg (
| |
| __,pci /ce ) (com) Jpci/cc) (com) 766-// t. 768 MM D
| |
| ~
| |
| rm l.3E4I R E40 o.s I,lE4 ! E.6E4 (,W// .E 864 404 0 1.o l.9 E+0 9.&E-I MbA D Mbb O I.4 E+0 7,0E-l mbA O Mb& O N-L._N_ 21.5- .o 9,0 E-l % E-l M bR- O #bA 0 .
| |
| ~
| |
| 2.s 24E-l l'7E-l MDA 0 MDA . O 3.o 5&E-l 2.9E-l mba o Mbh 0 u.o 8G BG mM o mBA o 1 s.o SG BG WDA 0 m04 0 7.5 AG BG MBA 0 m0A 0 to.o BG AG mb4 0 mDA 0 f
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| , ,m ll 3.3-6
| |
| .E ..
| |
| e ne-s* g 9-.- w -.,-4 w-r-s.geen w w ,- ,.a. - ,w., +. mar--sw.e s.ee-w- w - -----,m -
| |
| e -_-%-------- - e---w-e - * - -
| |
| | |
| ( r s
| |
| LECTICN 6.3 TIELD MON!':CRING DATA POSAVEK - 89 .
| |
| v TIME: Tres hk/ To ffk IN-TIELD SAMPLING RESULTS
| |
| ? <
| |
| Ambient ,
| |
| Radiation
| |
| >. levels
| |
| * Particulate *!-131 (aR/hr) Activity Activity Cancentra- Not Concentra- Not Distance Window Utadow tion Count Rate tien Count Rate (Miles) _gggg_ Cland .,,,pcl
| |
| ( /ce ) (ess) _f.pcl/ce) (ema) mas l%l T.4EC 1.eE-Il 7.9 M MM o __
| |
| o.s I.4E+I 7. I E+0 tSE-IL 7A E+0 MDA 0 2.o _ 3.?E40 1.9E40 2. I E-Il /,iE40 mbA 0 2.s 1.4E+0 20E-I MBA O M0A 0
| |
| ( - ] 2.o 't.0 E-l +.6 6-1 Mbh O #th- 0 2.s 7.4 E-l 3.?E-l mba, O MbA. O as SCE-l 2.9E-I Mb4 0 jeM o 5.o _., 4.0E-I 2.0E -/ MBA O MbA. O s.o .AC SG Mb4 O MA 0 7.5 AG 8G MBA O #0A O to.o 6fe._ BG _ff.fLA_.
| |
| o m04 0
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| .s m T.)*9 ._
| |
| ,, . . ~ .
| |
| | |
| f aECTION 8.3 ,
| |
| MELD MONI'MRING DA*A rosmx- ,
| |
| l- {-
| |
| ! , TIME: From O k30 To NiW !
| |
| IN-FIELD SAMPLING RESULTS
| |
| ?
| |
| Ambient .
| |
| Radiation .
| |
| Invels
| |
| * Particulate *I-131 ,
| |
| (aR/hr) Activity Activity .j concentra- Net Concentra- Net Distance Windcw Window tion Count Rate tion Count Rate .
| |
| (Miles) h, gigggg JpC1/ce) (ena) lyfdLul (ens) i EAn LDE11 10E+1 L 9E-10 L1E+1 t%k 0 i o.s /,f 6+l f.RE+0 /,4E-/0 /5E4/ mbA 0 )
| |
| 1.o V,%0 2ME40 2 tE-Il 25G4 Mbh O m 1.s .2.8E4 IN E+0 1,46-ll 1.4640 Mbh 0
| |
| ' d o 0 2.o /f E4 &iE-I MDA MDA 2.s 7,46-l 3.?E-l rribh o niba - 0 s.o 54E-l U E-l m bh- 0 Mbt 0 .
| |
| O :
| |
| 5.o 4.0E-l 2.0 E-l dlb4 0 tiDA +
| |
| s.o 3.2 E-/ l.(E -/ MDA o ,t.oA 0 .
| |
| 7.5 bC d6 MDA o Mbe O l
| |
| _ag__ BC RG m0A 0 MBA 0 ;
| |
| * Based on a collection volume of 15 f t' (4.2 x 10' cc) i 1
| |
| l b b"$
| |
| -,n~~ ,,. . . . . . . . .--
| |
| --.we' - - , - . - - - - ,.m., . _,,,.y -*-e, , , - . - , , . . - - , + + , , _ , . -,,,,.,,_,,-%y. - . , . . ., .-,,,,-..__,,,,..-%-.-,,.w.,., % # -w -,
| |
| | |
| SECTION 4.3 FIELD MONITORING DATA FOSAVEX - 89 .
| |
| (. ,
| |
| l TIME From Oik h To hk_N IN-FIELD SAMPLING RESULTS Ambient ,
| |
| f Radiation Levels
| |
| * Particulate *!-131 I (mR/hr) Activity Activity Concentra- Net Concentra- Net i Distance Window Window tion Count Rate tion Count Rate ;
| |
| (Miles) ,,gggL Q,ggg[ JpC1/ce) (can) Jpgjjig), . (ene) ;
| |
| nan itE+l IME4I 3.lE-10 2.tE + l Albh 0 '
| |
| o.s 2,1E +l iIE+l 2(oE40 2M E+1 Mbe o 1,o 59E+0 2,iE+0 . EVE-// 4.9E40 MBA 0' :
| |
| ., 1.s 3.CE+0 L7E+0 2.0E-Il lSE40 mDh O :
| |
| h J 2.o 22 E40 l,JE40 /MD A o MBA 0 !
| |
| l 2.s 1,4E+0 7,2E-l m0A o m)A. 0 3.o 5(.E-l 1,% E-l MbA O MBA 6 -
| |
| 6.o 4.0E-l 10 E-l MDA 0 thbA 0 s.o 31E-l l.$E-l MDA 0 MIA C 7.5 GG GG ol0A 0 #DA 0 lo.o AG 6G MDA 0 M D A- 0 :
| |
| * Based on a collection volume of 15 ft' (4.2 x 10' cc) l a
| |
| 3,3-l
| |
| :- .- .=.
| |
| | |
| l SECTION'8.3 T! ELD MONI7tlRING DATA l rosAVEx - s9 l
| |
| ( .s .
| |
| )
| |
| TIME: Tras ! To !
| |
| l l
| |
| IN-FIELD SAMPLING RESULTS Ambient ,
| |
| )
| |
| Radiation '
| |
| Levels
| |
| * Particulate *I-131 (mR/hr) Activity 4tivity l Concentra- Met Concentra- Met !'
| |
| Distance Window Window tien Count Rate tion Count Rate (Miles) 00e0 Q,gggd lpC1/ce) (ens) (yC1/ce) (ens) {
| |
| xas 3.0E+ l I.5E+1 y&E-10 4.LE+ 1 Inbh 0 o.s 2.6 E + 1 1.3 E+I ME-10 3.4 E+ I Nbh 0 1.o 'lTE@ 39140 8.9G-Il 1.lE+0 mDk o 1.s 4.4 E+0 2.2E+0 fQJ-)) 5.1E+0 thb4 0
| |
| .) 1.o 2.tho I.4E40 156-Il 2.3E40 mDs o
| |
| ~
| |
| 2.s I,? LO 9.2. E-/ mBA o MDA- O 3.o l,lE+0 55E-/ (hDA o MDA- 0 :
| |
| s.o 4.0E-l 2.0E-l mbk 0 Mbk 0 5.o 5.2.E- l 1.lE-l mbpr o _
| |
| mDk _
| |
| o 7.5 b$ bb MDb O MDb O 10.0 bC b$ MDk' O Mhk O l
| |
| l
| |
| * Based on a cellection volume of 15 ft' (6.2 x 10' cc) e g
| |
| %. 3-10
| |
| , ames.. ..e, ,.,.e - , , M
| |
| | |
| l SEC. TION 4.3 TIELD MONIERING DATA FOSAVEX - 89 .
| |
| {D rtME rr
| |
| /o/s to /019 i
| |
| i I
| |
| l I
| |
| IN-TIELD SAMPLING RESULTS Ambient ,
| |
| Radiation Levels Narticulate *!-131 (mR/hr) Activity Activity i
| |
| Concentra- Not - Concentra- Net Distance Window Window tien Count Rate tion Count Rate .
| |
| (Miles) h Closed Jpci/ce) (ens) dpGl.sd (ene) i EA: 44E4 11E4 / Dedo ITE+l MD& o ]
| |
| o.s ifE+l l.i E+ l E4E-b 49Ec/ m)A o 1.o 19.E o 4NE+0 L3E40 f.ZE4 I M0h a
| |
| _ 1.s E E+0 f,TEd $55-/l 5760 mD4 0 l
| |
| ')
| |
| '-- 2.o 3.4 N l. REM 4.1E-/l 1?Ed MDA O j s.s 2.tE4 I, ! E+0 2.lE-ll 1.4E+0 #0A. 0 3.o I. 4 E + 0 7, I E - l mbA 0 M0A o s.o T.0 E-l 4DE-I mbk o MD& O s.o 3.t E-l I,6 E-l mDA .
| |
| O mDa O ,
| |
| v.s IM E-l BC #Dk o MbA 0 lo.o BC a6 MDA 0 mnA 0
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| WW e
| |
| ..2
| |
| -- - . . - _ - - . , . . . - . . _ . . ~ . - . - - - - . .
| |
| | |
| sienoN s.3 !
| |
| TIELD MONI'!ORING DATA l rosarx - e, .
| |
| (t nNr: rr /430 to /dW IW FIELD SAMPLING RESULTS Ambient .
| |
| i Radiation .
| |
| Levels
| |
| * Particulate *I-131 l (mR/hr) Activity . Activity concentra- Net Concentra- Met Distance Window Window tion Count Rate tion Count Rate (Miles) _Qggt Closed ,J,,pc1/cc ) (ena) _f,pcl/cc) (cus) in EyEi 17E4l 9,2f40 9.4E+/ MM o .
| |
| o.s 4.46l 1%I 7.f.s# 7./ 9/ mea o 1.o l.3E+l 43E4 1.g s-lo /.46#/ __mg_ o ;
| |
| s 1.s f.4&O MM t4241 8.8E4 mbk O ;
| |
| -j 2.o UE& 2.1E+0 LLE4I E.4E4 mbk o
| |
| ~
| |
| 2.s SO E*0 15E+0 MEsli LIE 4 MbA. O s.o I.7 E+0 9.7E-l I. 6Edl J A S) Mbh o -
| |
| s.o 1,0E+0 C.lE-l mba o Mba 0 ;
| |
| s.o C.0 E-l 3.0E-I mba o mbh o
| |
| \
| |
| 7.5 l.4E-I RG mhe o MhA 0 i -to.o 6G SG mbA 0 MbA 0 :
| |
| ~
| |
| L
| |
| * Based on a collection volume of 15 ft' (s.2 x lo' cc)
| |
| ?. 3 -l l. -
| |
| L
| |
| ..=_
| |
| +. ,ev, r +- .- v.~.m.,, --,<
| |
| | |
| SSCT! W 4.3 !
| |
| TIELD MONIMRING DATA l
| |
| ~ '
| |
| 3
| |
| ~
| |
| )
| |
| l
| |
| \y TIME: From [OM I To /hhi_
| |
| l I
| |
| IN-TIELD SAMPLING RESULTS l
| |
| Ambient , J i
| |
| Radiation I Invels
| |
| * Particulate *I-131 (sR/hr) Activity Activity Concentra- Net Concentra- Not Distance Window Window tion Count Rate tion Count Rate !
| |
| (ens) _f,pcifee) (ese)
| |
| -(Miles) open M _fyC1/ce) l EAs d.9E4l 3.4E4! L2E-9 1 lE+2. I,t E-lb L t E+0 i o.s 5.1 E1I L' i+ l 4.7E-10 6.1E4 I (Mba 0 1 l
| |
| l 1.o ISE+l 7,7G40 2.l.E-ID L4E4 i MbA O l 1.s 9,tE+0 46E40 1,3 E-10 1. 2E4l mbA n ,
| |
| 3 s.o 5.%E+0 t'E+0 15E-ll 1.1G+0 mbk o i 1.s St4GO l.b0 K0E-Il 4CE+0 MDA- O 3.o 2LE4 I,lEJO UE-II 2,4E+0 Mhh 0 .
| |
| : l. _s.o _ LLE+0 6 tE-l MDA 0 MbA O -
| |
| I s.o 19E-l 3A E-l mDA O Mba O
| |
| ,.s _
| |
| IAE-l AC Mbh o Mbh a to.o (bG BG mbA O Mbk O .
| |
| i 8
| |
| * Based on a collection volume of 15 ft' (4.2 x 10 cc)
| |
| Tr. 3-13 ..
| |
| l . . . .
| |
| : l. . _ _ _ . - - . . ._~. ._..__ .._._._ _ _ _ _ __ .s.~- _ _ _ _ . . _ _ _ _ _ _ . . - - - -
| |
| | |
| I i
| |
| SECTION 4.3 !
| |
| r! ELD MONI'IORING DATA ros m x - 8, .
| |
| N,d I rIN rro. //00 to ///4 j i
| |
| i IN-FIELD SAMPLING RESULTS Ambient .
| |
| Radiation !
| |
| !avels
| |
| * Particulate *I-131 (uR/hr) Activity Activity Concentra- Not Concentra- Net Distance Wlodow Window tion Count Rate tion Count Rate (Miles) ,,Qtgt, gggg Jpci/ce) (ens) JpgMgg), (cos) j EA 8.f E 4 4.4I4l /.4 E- f /.GE + 2. l.4E-10 /.f E+ 0 o.s WIE+ l 3RE4 I l.4 E -9 1,5 E+1 IME-10 IN E+0 ;
| |
| 1.o I.9E+l 9.(> E+0 14E-10 3. lE+ l 'Mb4 0 ;
| |
| 3.s /,1E4 l 57ELO /,9 E-/0 / FE41 ADA o l
| |
| .s
| |
| ' /./Ef / 0
| |
| .. / 2 .o Mfg 3.4E40 /,2 E-/0 mDA 2.s 4.tE+0 2.4E+0 d.4 E-Il 4.3 E+0 Mhk 0 s.o U E+0 f.3 E +0 19E-Il 35E+0 1MDA O .
| |
| 4.o /./,E+0 9.lE-l /.9E-/I /,7E40 moA O s.o 16 E-l 4.9 E-I th04 o MBA o
| |
| ,.s e 1.9 E-l OG MDA O mbh O' ,
| |
| lo.o- 6G 6G Olb4 0 *bA _
| |
| o :
| |
| I l
| |
| *- Based on a collection volume of 15 ft' (4.2 x lo' cc) e4e r#
| |
| 7.3 -l4 :
| |
| l
| |
| | |
| I SECTIQW 8.3 r! ELD MONITORING DATA Poum - e, .
| |
| k~O TIxEi rr. ///6 To /Mi IN-r! ELD SAMPLING RESULTS Ambient ,
| |
| Radiation Levels
| |
| * Particulate *!-131 (mR/hr) Activity Activity E entra- Net Concentra- Net i' Distance Window Window tion Count Rate tion Count Rate .
| |
| (Miles) _ Qaen . ElJtig Jpci/ce) (ens) Jpci/ce) (ene) un /. o f d KIE4/ 1/E-9 /,9Ed 2.lE-10 2.lE+0 ;
| |
| o.s U E+I 4,3 E+ I LtE-9 14 Ed. l.1E-10 Li90 l 1.o 24E4I J,3 E4 I #2E-lo ME4 I mDA 0 :
| |
| 1.s /ME+l 70E40 15E-/0 13E4/ #fBA o 2.o 9bE+0 45E+0 1,L E-ID 1561.l NDA 6 2.s (..o Em 10E+o I0E-10 9IEso aba - o l 3.o 34E+0 l R E40 53E-Il 4 ?E+0 mbA o :
| |
| i.o l9E+0 13E-l Lt E-ll 25E+0 MM 0 .
| |
| l '
| |
| s.o I,35@ 6.3 E-l /ME-ll /,1E40 Mbh o v.s 3.fE-I l.9E-I A10A 0 MBA o lo.o INE-l B C- MDA O mBA o ,
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| */
| |
| l T.3-I6
| |
| | |
| SECTION 8.3 FIELD MONI'!VRING DATA ]
| |
| cg Fo.A - ., .
| |
| T1 net Fron llbh To ffYY i
| |
| IN-FIELD SAMPLING RESITLTS ,
| |
| Ambient . l Radiation I Levels
| |
| * Particulate *I-131 (aR/hr) Activity Activity -
| |
| Concartra- met concentra- Net :
| |
| Distance vindow idindow tion Count Rate tion Count Rate l (Miles) Open M JpC1/ec_) (enm) jpfd,Lgd (cos) i na 1. 1 E 4 OE+l 2.7E-9 25E+2 L'1E-10 t.9 E+0 ,
| |
| o.s 1,0 E+2. 5IE4 I 2.5EA 2.1E42. 2.8E-10 2.3 E10 1.o 3.0 E4 I /,5E4 / 4.oE-/0 KmI 20A o 1.5 /,? E+ I i 1 640 3.4E-10 3,IE4 I mbA 0 i
| |
| ~*
| |
| * 1.o I.tE+l E9E40 21E-10 20E+l Mb6 0 :
| |
| ~
| |
| 1.s 9NE+0 17E4 l.3E-10 1.1 E+ 1 Mba- o s.o V.6E+0 2.3 E4 1.7 E-Il 1.0E+0 mbA O .
| |
| s.o 26 E+0 1.3 E40 2.9E-II SCE40 nfbA 0 l s.o IM E+0 ').2 E-l 2.16-ll 1.9E+0 MbA 0-
| |
| ,.s 2. E-l I.9E-I mbA O . Mb+ o so.o IME-l 6G mbh O MM O l-l l.
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| %. 3 - 16
| |
| =
| |
| .O
| |
| | |
| i SECTION 4.3 FIELD MONI1CRING DATA I i.
| |
| FOSAVEX - 89 Q
| |
| . l TINE: reo. // W I to //69 i a
| |
| IN-FIELD SANPLING RESULTS Ambient '
| |
| Radiation .
| |
| Levels
| |
| * Particulate *!-131 !
| |
| (mR/hr) Activity Activity Concentra- Net concentra- Net Distance Window Window tion Count Rate tion Count Rate .
| |
| (Miles) Open Closed JpC1/ce) (enm) JpC1/ce) (ene) 1 iAs 1.1E+1 4.0E4 I 2.7E-9 M E+t- 25E-10 1?E40 o.5 l.0E+2. E l E4 l 23 E-i 2.1547- 13 E-10 13E40 1.o 30E+l IMErI 4.0 E-lo SSE4I MM o ,
| |
| , 1.s 2tG+l I l E4 I M E-10 4,0 E + I MbA o \
| |
| b, d 2.o 1,1E+
| |
| E9 E+0 2.1E-/0 2.0 E+l Moa 0 ;
| |
| ^
| |
| 2.s 74E+0 1?E40 l.3E-lo l. L E+ 1 M04 O l 3.o K4E40 1?E+0 l.0 E-10 9.3 E+0 MDA .
| |
| 0 4.o 14E40 l36+0 3.9E-ll 3.5Ew? mM 0 ;
| |
| s.o I.HE+0 7,tE-I t l E-II I,9 E+ 0 MbA o 2.5 U E-l 2.4E-/ MDA o MBA 0~
| |
| 1o.o _
| |
| l#E-I AG N0A o mM 0 ;
| |
| * Based on a collection volume of 1s ft' (4.2 x lo' ec)
| |
| .,s x ./
| |
| h T-
| |
| 'N'E
| |
| | |
| ,s. . _ _ . . _ _ _ . __ . _ _ _ _ _ _ _ _ _ _ _ _ .
| |
| LECTION 8.3 j FIELD MONITORING DATA FOSAVEX - 89 , ;
| |
| {
| |
| TIME: From f1hh To fff i IN-FIELD SAMPLING RESULTS Ambient ,
| |
| Radiation Levels
| |
| * Particulate *!-131 ;
| |
| (aR/hr) Activity Activity .
| |
| Concentra- Not Concentra- Net ,
| |
| Distance Window Window tion Count Rate tion Count Rate 4 (Miles) .gegL M ,,1pci/ce) (ena) ,,1pci/cc) (cos) na I(Ed 54Ed I.IE-t 1.0E13 LIE-9 LIE +1 o.s I.0E+1. ele 4I 2.3 E-9 2. / M. 2.3E-lo 2.3 E+0 1.o 14 E+l I.'1E+ l 'L7E-10 'l0 E+ I lifbA o 1.s 2.2 E+I l. IE+ l 4.llE-10 4,0E+l ._gph_ O NO 2.o' l.tE+l 5.9E+0 2.tE-10 2.0E+ I MbA 0 2.s 94 E+0 k tE+0 1,2 E-10 I,(, E4 I MDA- O s.o 54E+0 1. tem 10E-10 9.1 E+0 mba o 4.o 32E40 ME40 ESE-Il 50 E+0 mbA 0 s.o I,4E+0 22E-l 2,IE-Il I,9E+0 Mbk 0 i ,.s 49E-l 2.4E-l MDA o NDR 0 to.o I,4E-l M MbA 0 MDA_ o e
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| %m.
| |
| : 9. 3-l1
| |
| .. ;a ~
| |
| | |
| i i
| |
| kECT10N 8.3 :
| |
| FIELD MONI'KRING DATA FOSAVIK - 89 .
| |
| C.' . . .
| |
| l TINE: From f1th To f 1
| |
| IN-FIELD SAMPLING RESULTS l
| |
| Ambient , ,
| |
| Radiation Levels
| |
| * Particulate *!-131 (mR/hr) Activity Activity Concentra- Net Concentra- Net Distance Window Window tion Count Rate tion Count Rate , !
| |
| (Niles) open g).2id (yci/ce) (enn) Jpcl/cc) (com)
| |
| /,3 E4 /.2E43 /3f'l /,3E+ I rm I.7E43 7.?E+2.
| |
| o.s 11Ed 6.Cf41. /,5E-% /,4E+3 /.ff-9 15E4 l ,
| |
| O I 1.o 3ME+I l.7E4 l 7.7E-10 'ZOE4 I MDA 1.s 2.4 E41 1.3f+ l E?E-/0 51E4 l MDA o :
| |
| ( o J 2.o I.4E+1 4. W O 2.fE-10 24E41 _mbh
| |
| ~
| |
| 1.s % E+04.990 l.R E-10 1.6E+I M DA . O .
| |
| 3.o 7.450 37640 l.4E-/0 22 E+ 1 moA o ,
| |
| s.o 3.2E+0 1.4 E40 65 E-Il 50E+0 mnA O s.o 2.0 E+0 1.0b0 2.9 E-Il 2.9E40 mbA O ,
| |
| v.s 6.%-l 2 if-l MDA 0 MDA 0 1o.o IME-l GC thbA O Mbh o l +
| |
| l 2
| |
| * . Based on a collection volume of 1s ft' (4.2 x lo' cc) j l
| |
| L !
| |
| .~.
| |
| j l
| |
| ~
| |
| =
| |
| ' T .'.~..~. .~ ..
| |
| | |
| F L SECT 10N 8.3 j TIELD MONITORING DATA 70$AVEX - 89 .
| |
| -(.G i TIME: From f b3h_ To fI l
| |
| IN-TIELD SAMPLING RESULTS i Ambient .
| |
| Radiation Levels
| |
| * Particulate *I-131 i (mR/hr) Activity Activity
| |
| )
| |
| Concentra- Net Concentra- Net Distance Window Window tion Count Rate tion Count Rate :
| |
| (Miles) h G2ggg Jpci/ce) (cas) Jpci/ce) (ene) !
| |
| in 1,fE4 E9Ed HE-7 /,/E d /.2E-9 ltE4/ i o.s l.6Ed 76Ed. /,0E-9 f./ Ed /AE-9 /.o E+ /
| |
| 1.o 50E+L ffEd 3,tE-9 35E4 3.TG-10 31E40 1.5 10 E+1 /,6f+2 3.75-9 3.4E+2. 17E-lo 3,?Es0 3 . --~).
| |
| 2.o I.LEtI 1.0 E+0 3.L E-10 3.3 E+ 1 otBA o 1.s I.$ E+l fjfft.0 2.9E-10 2.?E+ 1 orbk - o i s.o 1.6 E+0 4 3G+0 /,9E-10 l. C E4 l mb4 0 .
| |
| s.o 5.t24 1. DEA 9.7E-Il . R.WO MA O s.o LL Ei0 1,39 4 48 E-Il 33e+0 MA D
| |
| \ ,.s 74 E-l 3.1E-l nIDA o n0A o ,
| |
| 1 to.o 1.9 E-l I.4E-I MDA D mbA O l
| |
| !L ;
| |
| l
| |
| * Based on a collection volume of 15 ft' (4.2 x 10' cc) {
| |
| l i
| |
| .. \
| |
| 7,3 -2 o )
| |
| m
| |
| .- . ._.-. - - - - . - ._. . - - . - ..-_.- fbr:r- . - _L l~
| |
| | |
| 1 l
| |
| sEcrION 8.3 i' FIELD NONITORING DATA
| |
| . (.". j TINE: From /IM [ To /16i IN-FIELD SAMPLING RESULTS Ambient ' )<
| |
| Radiation '
| |
| Levels
| |
| * Particulate *I-131 activity j (aR/hr) Activity ,
| |
| Concentra- Net concentra- Net <
| |
| Distance Window Window tion Count Rate tion Count Rate ,
| |
| f (Miles) .9333, fdggg Jpci/ce) (com) JpC1/ce) (ens) 1 EAs 2.9 E+3 IN Gd $.3E-9 2IEd t%-9 21 C+ l o.s 2.4E+3 L1E+3 1. 9 E-2 47E43 L9E-9 l.9 6+ l E0E+2 15E41 35E-9 1'lE42 M E-10 3,590 l 1.o i
| |
| ... 1.s 3.?E42 1,9 E42 14E-1 1.W4 2.4 E-10 2.4E+0 :
| |
| 1 LJ 1.o tqEd itEd HE-4 f.dEd. LTE-Io Lt E+0
| |
| ~
| |
| 1.s I. 2 E+2 5tG+ l I.t E-9 L I G+2. I.t E-IO- 1.t6 0 3.o I.0E+I KDE+9 .
| |
| 2.3 E-Io 2.I& I n\oe o r.o L1E+0 3.IE+0 l.3E-10 12E+ l tt1DA 0 \
| |
| s.0 $tES l.lE40 KL E-Il 5,lE+0 mDA O l I
| |
| 7.5 7.t E-l 4.4 E-I MDA O ritoA o 10.0 b.4bl lA$-l 0]DA O WOh 0 8
| |
| * Based on a collection volume of 15 ft' (4.2 x 10 cc) ,
| |
| 'g. i*
| |
| . ..s E 3-tI
| |
| *Hke d 8 eb 5+h y 4 e < e p os e e p & +@'8Wa ,
| |
| .-,-s., - - _ - . ._w... .....-w-
| |
| ,,,..,,.s.,.,.._-..,.w,,%.,,_.m,,,_,,.,.,...,,,*ew-,...,w , . , ,,.,9 y .y
| |
| | |
| i j l
| |
| SEC. TION 4.3 I
| |
| FIELD MONITORING DATA FOSAVIX - 89 [
| |
| 'g .
| |
| -{d TIME: From [3dO To /$ /h f
| |
| i l
| |
| IN-FIELD SAMPLING RESULTS Ambient ,
| |
| i Radiation Loveis
| |
| * Particulate *!-131 i (aR/hr) Activity Activity f Concedtra- Net Caneantra- Net ,
| |
| Distance Window Window tion Count Rate tion Count Rate '
| |
| (Miles) Open M jpCA/ce) -(ens) Jpci/cc) (ene)
| |
| Ee 44Ed 2.4E+3 19E-f 35E43 196-9 1964l o.s 2.0E+3 20E43 3M E-t 3.lE+1 14E-9 14E+1 2.o 77 E+2 19E4 45E-9 D E+1 ' 4EE-/0 4.6E40 i
| |
| , 1.5 59 E4 19 E+ 2. 4.7E-9 4.4E42 -
| |
| 42 E-lO 4.? E40
| |
| , )
| |
| '' 2.4 E d I. t E + 2 1. '7 E-9 1.5Ed 1.1E-10 1,7 E+0 2.o
| |
| ~
| |
| 2.5 /.9 E 4 9,4 Efl J.SE-S /,ZE4 Z l.S E-10 1.3 640 1.o I.6E4 74E+l I.IE-9 /,0E+7. l.1 E-10 1.1 E40 s.o 22EM 16 E+0 L & E-10 15E+ 1 MDA O \
| |
| s.o 4,9E40 ME+0 92E-Il 9.0E+0 m0A o 7.5 l,2 E+0 4.fE-l /,7E-ll / 4 E+0 20A o io.o %22-l 2 lE-l /@A 0 #bA o t 1
| |
| . - - _ _ . - - . . - _ _ _ _ _ _ . -. _. . h- . ._
| |
| : r. ;
| |
| i SECTION 4.3 FIELD MONI'N) RING DATA CD TIME: Tro. /3/s To 13ti l
| |
| l I
| |
| i IN-TIELD SAMPLING RESULTS l Ambient ,
| |
| Radiation Levels
| |
| * Particulate *I-131 (aR/hr) Activity Activity Caneentra- Net Concentra- Net i Distance Window Window tion Count Rate tion Count Rate .
| |
| (Miles) _gggt M ,,f.pcl /ce ) (enm) Jpci/ce) (cos)
| |
| EA ILE43 23E+3 4N F-e 5tE4 4.4 E-9 4.4Et I j 41, E d 13 E43 E4F4 4.9 E+3 5.4 E-9 Ey E+ l !
| |
| o.s 1.o I. 3 E + 3 l . (, E + t I. I E-1 L o E+3 1.I E- 9 I,\E+I W,3 E*0
| |
| : f. 5 i?Ed 4.9 E4 I3 E-9 7.4E4 2. E.3 E-/0 !
| |
| gV s
| |
| 2.o -- 3.4Ed /.R E +2 3.0 E-9 1?E42. 3.0 E-10 3.0E+ 0 1.s 3DE*1 1,6E4 f,LSE.3 L5Ed 2.5E-10 2.6E+0 3.o I.6E4 'M E +l I,0 E-1 1RE4 l mea o \
| |
| s.o %.CE+I 49E+l llE. 9 9?E+I shA o i s.o S&E+0 DE+0 M E-10 L IEs I mbA 0 ,
| |
| ,.s 15E+0 'I.7E-l 2.LE-II 2.4 E40 mb4 0 no.o 5(. E-l 2SE-l mbA __ 0 010A 0 l
| |
| t
| |
| * Based on a collection volume of 15 ft' (4.2 x 10' cc) t.. '
| |
| ?. 3 - D
| |
| ^
| |
| . . . _ ._.2 e -
| |
| | |
| i f
| |
| i
| |
| - SECTION 4.3 l TIELD MONITORING DATA j g FOSAVEX - 89 .
| |
| l N) ;
| |
| TIME: From fNO To fb j i
| |
| IN-FIELD SAMPLING RESULTS l Ambient .
| |
| Radiation Levels
| |
| * Particulate *I-131 !'
| |
| (mR/hr) Activity Activity Cancentra- Not Concentra- Net !
| |
| Distance Window Window tion Count Rate tion Count Rate ,
| |
| (Miles) h Ed2tts .,[pci/ce) (ens) .ipci/ce) (cos) j EAR bb bO MON O MOA O l o.s .
| |
| 6C EG mbA O MDR 0 1 1.o I.dE+3 79Ed L9E-t 1.4213 l.t E
| |
| * LREsi 1.5 lt E43 59E+1 D E-? I,2E43 l,3 E-9 l.3&I i b.-J 2.o dant 3. led 53E-9 itE+2 E 3E-10 5.3 E40 2.s KoEd 2.5 E42 4.3 E-9 3.i E+E 'f.SE-lO U.1 E+0 i 3.o 2.4E4 l,1E4 /AE-9 /,7Ed /,95-lo /,7 E40 l
| |
| s.o I.I E d $,3ht] 74E-lo 4SE+1 Mon o s.o d.4E+I 7%E4l 9 tE-Io '7 524I MDA O ,
| |
| ,.s 1.9E+0 35E-I 3.4E-II 3. IE+0 MbA O to.o LNE-l 11E-l mea- O mnA o '
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc) e
| |
| - p. .
| |
| | |
| 1 SicTIoM 8.3 FIELD MONITORING DATA
| |
| { \d FOSAVER - 89 .
| |
| TINE: From f3 b To f3_N I
| |
| IN-FIELD SAMPLING RESULTS Ambient ,
| |
| Radiation Levels
| |
| * Particulate *I-131 ;
| |
| (mR/hr) Activity Activity l Concentra- det Dancentra- Net l Distance Window Window tion Count Rate tion Count Rate .
| |
| Jpci/ce) (e==) jpgggg) (eps) '
| |
| h_). 9tEL. M mas oc dG *M 0 In M , O l o.s AC AC nnA o abA o ,
| |
| 1.o 6G GC MDA 0 n1DA 0 :
| |
| .. 1.s hC, _GG MDA o Mok 0
| |
| / 2.o 24E41 37E+1 R6E-9 2&L R4E-/ 0 f660 ;
| |
| 2.s d.0E+L $082. 1.0 E-9 d.4Ed 'loE-lO 1,0E10 !
| |
| 3.o ll.0 62. ffE+1 33E-9 lo E+1 - S.1 E-/0 3.3 E+ 0 6.o /,7Ed f,3 E+I l.4 E-9 /,3 E*2 /ME lo -
| |
| . / Aft 0 s.o T.tE4 I 4.IE+1 5,7 E-10' EtE1I M0A 0 .
| |
| v.s 3.0E+0 /,6E40 4.oE-// X SE+0 ' *o4 0 ,
| |
| so.o 9,0E-l 456-I l.S E-fl I.tE+0 aba 0 8
| |
| I
| |
| * Based on a collection volume of 1s it' (4.2 x 10 cc) ,
| |
| s
| |
| .a T.'b-15
| |
| .. ~ ...
| |
| eigoes.g. gew e e e w. 1evew m a ',6 6
| |
| # 4 g
| |
| | |
| i l
| |
| $ECT!oN 4.3 TIELD MONITORING DATA )
| |
| rosAnx - e, .
| |
| TIME: From NOO To hk IN-TIELD SAMPLING RESULTS l l
| |
| Ambient . ;
| |
| t Radiation Levels
| |
| * Particulate *!-131 l Activity j (sR/hr) Activity Concentra- Net Concentra- Net i Distance Window Window tion Count Rate tion Count Rate .
| |
| l (Miles) _gggL, fdggg( JpCi/ec) * (esa) jpci/cc) (coe) i EA: GC BC _. NM o *M 0 o.s GC OC mbA Q ,_fb_k. O ;
| |
| 2.0 SC bG MD4 O A10A o
| |
| . 1.s 6C GG MbA O n!DA 0 i
| |
| ' ) th0A O 2.0 80 8C MI)A O 2.s SC 00 Mb6 O MBA - O 3.o 4491 13Ed K4E-9 49E4a I 4 6-10 54Ev0 6.o f f Ed. IME42. 2.4 E-9 iZE+1 14 E-/0 14 E+0 s.o 1.3Ed d.4E+ l I,lE-9 %E4 I OtDA 0 ,
| |
| 7.s 3.4 E+0 l,7640 77E-// 20E40 '
| |
| 6tM 0 to.o I.4 E+0 6.9E-l 2.EE-II 2.% E+0 Mbk 0 1 4
| |
| * Based on a collectiot. volume of 15 f t' (4.2 x 10' cc)
| |
| ..wy.,
| |
| : 7. 5- t 6
| |
| . = .
| |
| _ . . _ . . . ~ . , . , . . . . _ , _ .
| |
| | |
| l l
| |
| : eriou a.2 TIrLD NONITORING DATA rosAvsx - c, .
| |
| , p%)
| |
| rINr rro. /#/6 to N29 IN-TIELD SAMPLING RESULTS -
| |
| Ambient Radiation '
| |
| Levels
| |
| * Particulate *I-131 .
| |
| (aR/hr) Activity Activity l Concentra- Net Concentra- Net '
| |
| Distance Window Window tion Count Rate tion Count Rate (Miles) h M Jpci/ce) (com) JpC1/ce) (cos) ;
| |
| I iAs BC 0C 4D4 0 otD4 O i
| |
| o.s 60 _QC:_ Mbn 0 MIA e i 1.o BC GG mbh 0 MbA 0
| |
| - 1.s SC OG MDA O MBA o
| |
| - O 1.o 6G 6G Mb4 O mbA o n.s AG 64 20A o abA - o 3.o 6C eG MDA O MM o r.o AME+1 I.9 E+2. 3.9E-9 3sE+2 3.9E-l0 3.960 ,
| |
| s.o Lt.E+2. I,I G+2 1,9E-1 1.4 E+L .l.1E-10 1.2E10 ;
| |
| ,.s 4.DE+l 2.0Esl 50E-lo 4,GE+ 1 Mok o 1o.o l.8 E+0 9,oE-l 33E-fl 3.0E40 20A o
| |
| * Based on a collection volume of 1s ft' (4.2 x lo' cc) l 9
| |
| . 3-
| |
| .* TAsts.QD
| |
| :a.
| |
| .. _ Z.1
| |
| | |
| +
| |
| SECTION 4.3 ;
| |
| TIELD MONITORING DATA j FOSAVEX - 89 .
| |
| .ly' f
| |
| ~
| |
| TIME Fro. 1930 To /M .
| |
| i IN-FIELD SANFLING RESULTS Ambient . ;
| |
| Radiation t Levels
| |
| * Particulate *I-131 *
| |
| (aR/hr) Activity Activity Conc etra- Net Concentra- Net Distance Window Window tion Count Rate tion Count Rate .
| |
| (Niles) _gggg, M JpC1/cc) (ese) M (cos)
| |
| EAn 00 AG MOk 0 MOA O o.s na SG mbh 0 NbA o .
| |
| 1.o 6G_ BG mea O thbh o ,
| |
| _. 1.5 GC 6C mDA o NBA o ;
| |
| 2.0 M 6C Mnh O $0A o 2.s 'tbG 6G mba o mnA - o i
| |
| s.o hC 6C MbA O_ NBA O s.o LG $0 MbA O Nb6 0 s.o 16Ed /,61 3hE-9 17Ed. 10E-/0 3,oE+Q
| |
| ,.s SOE+ l 25bI 35E-10 3.1 21 I MDA 0 ,
| |
| 1o.o 21E+0 1,I E +0 4ME-lI 4,0E40 MDA O b
| |
| p
| |
| * Based on a collection volume of 15 ft 8 (4.2 x 10' cc) l l
| |
| .m
| |
| ~~:
| |
| : 9. 3- ts ,
| |
| , . - - . . _ . _ _ . _ . _ _ . ~ - _ . _ , , . . . . _ _ . . _ . . _ . _ . _ . . _ _ _ _ _ . . . . . _ . _ _ . _ _ _ _ _ _ . . - _ _ _ . _ _ _ _ , . _ _ . - ~ _ . . ,
| |
| | |
| .. . . ~ . - . . . - - . . - . . . - .- _ . - . . - . . - .
| |
| n .
| |
| i SECTIoM 4.3 l FIELD MONITORING DATA j F05AVEX - 89 . ;
| |
| (kD TIME: From b To fM l t
| |
| IN-FIELD SAMPLING RESULTS Ambient . t Radiation 4
| |
| Levels
| |
| * Particulate *I-131 ;
| |
| (mR/hr) Activity Activity [
| |
| E entra- Net Concentra- Net l Distance Window Window tion Count Rate tion Count Rate .
| |
| Jpci/ce) (ene) _{,pci/cc) (ene) i (Miles) ,,gggn_,, M EAR B0 eG MDA o ofM 4 l o.s GC RG h10A o 20A 0 1.o AG BG NDA o NbA o 1.s (k G. BG Mbb o Nhh 0
| |
| ' 2o D0 OG NM o hbh 0 2.s sG GG Mh4 0 Mb# - 0 ;
| |
| 3.o 60 sG rn bA 0 Mbe 0 .
| |
| s'. o aG aG WDA 0 ADA C s.o GG $G thh4 O MBA O :
| |
| 1.s '77E+l L9 E-II ?.4E40 5tE+l 80A 0 10.o 2ME+0 1. 2. E+0 5(.E-II 5.l s o n\bre n l 1
| |
| I
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| . ~~ l
| |
| =
| |
| .-.- - - - . - -, ,,--,y---
| |
| m ,-.,u - , - - - - . . , -- . _ _-. _ __m.__ m .. _ _ _ _ - . - - - _ -- + _ _ _ . __
| |
| | |
| 1 SLCTION 4.3 i
| |
| FIELD MONITORING DATA FOSAVEX - 89 .
| |
| l', -
| |
| TIME: From /IdO To /5/N l
| |
| IN-FIELD SAMPLING RESULTS Amblent * -
| |
| Radiation I Levels
| |
| * Particulate *!-131 l (mR/hr) Activity Activity ;
| |
| Concentra- Het Concentra- Net Distance Window Window tion Count Rate tion Count Rate (Miles) Open fdstpg Jpci/ce) (com) jpCI/ce) (cos) l Eas BC GG Mbh 0 htM 0 o.5 GC BG AfD4 o 3DA 0 .
| |
| 1.0 AG BG MDA 0 MhA 0 -
| |
| 1.s RG BG Mbb o NBA 0 t
| |
| 2.o 00 SG NM o abA 0 1.s' 60 GG MbA o _ NbR . 0 3.0 60 6G In bA 0 Mbe o s.o AG GG WDR 0 bDk 0 . ;
| |
| s.o 80 SG m0/4 O MhA 0 7.5 lb{4$ h.hh4 f l.l$-0 *0$0$- ODk 0 1o.o 3.4E+I l.t E*l 2.1E-Io 2.5E4 I MDA 0
| |
| * Based or a collection volume of 15 ft' (4.2 x 10' cc) f
| |
| %. s.
| |
| (:. _
| |
| S.3-30
| |
| - . - . . . - . - , , . . ~ . . - . . . , . . - . - - , - . . . - . . . . - . - , , - . . , . . , , . , - - - - , . - . . . - - -
| |
| | |
| - . . . - . . .-. -. .. ~ . _
| |
| I dk SECTION 4.3 FIELD MoNI'!VRING DATA rouvEx - a, .
| |
| {'d Tint reon fs/s to /n1 l
| |
| t IN-TIELD SAMPLING RESULTS ,
| |
| Ambient '
| |
| Radiation Levels
| |
| * Particulate * *I-131 Activity Activity j (aR/hr)
| |
| Concentra- Net Concentra- Net t
| |
| Distance Window Window tion Count Rate tion Count Rate '
| |
| _( Miles) Ooen pdpggg JpCI/cc) (cum) Jpci/cc) (cos) un BG BG Mbh a hfbA 0 o.s RC RG h1bR 0 NDA 0 .
| |
| 1.0 AG BG MDA o NbA o 1.s AG BG #DA o MDA 0 v
| |
| 8 e.o 0$ $G _010A _L hbA 0 e.s 6C GG MbA 0 Nbf- 0 ,
| |
| 60 6G mbA 0 Mbh 0 .
| |
| s.o 5.o AG BG WDA o AD& O aC SG MBA o MAA C l 5.o
| |
| . 7.$ f,b f+f. ,$hht) l $ $'k ofo $4 b ,$$*f0 li$$+0 10.o ll E+ l I,9E+l 2EE-Io 2wI MDA 0 l
| |
| (
| |
| I I
| |
| ! )
| |
| {'
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| ~
| |
| 3.3-31 ;
| |
| ?= l
| |
| | |
| SECTION 4.3 i FIELD MONI2tWLING DATA i j
| |
| FOSAVEX - 89 l
| |
| TIME: From 1430'To /FW i i
| |
| i IN-FIELD SAMPLING RESULTS Ambient
| |
| * Radiation Levels
| |
| * Particulate *!-131 i (aR/hr) Activity Activity ;
| |
| Net !
| |
| ConceLira- Net Concentra-Distance Window Window tion Count Rate tion Count Rate (Miles) open Closed ,_(pc1/ec) (ens) _1pcf/ec) (ene)
| |
| EAn BC 8G MbA 0 MM 0 ,
| |
| o.s AC An AfDA o 20A 0 1.o AG BG MDA o NbA o 1.s RG BG Mbh o NBA 0 N :) s.o 80 BG NM o abh 0 2.5 60 GG Mh4 o mb6 - 0 2.o 60 6G mbA 0 Mbh 0 .
| |
| s.o aG nG WDA O AD& O s.o 6G BG fnbR n MnA 0 1.5 $0 00 AOk O lh0k. 0 to.o GE+ l 2.864l OE-10 4,3 E + l enA 0 t . .
| |
| ( .
| |
| * Based on a collection volume of 15 ft' (4.2 x 10' cc) e'
| |
| ~
| |
| &3-32.
| |
| . _m .,.-,
| |
| :&r. s
| |
| - _ , . , . , . . , - . . , . . .._.,..n- - - , - - , . , . - , , . _ - - , , , , . , , , , , n-,--,,,n.,,-,,,,,,,w-,-.,,..c,.,g.---,-,-w,. ,,,r,-
| |
| | |
| w }
| |
| r m . ;
| |
| SECILON 8.3 FIELD MON!1tl RING DATA o FOSAVEX - 89 ,
| |
| ..(g). ;
| |
| TIME: From /6h6. To/56i. )
| |
| i IN-FIELD SANFLING RESULTS ,
| |
| Ambient
| |
| * i Radiation I Levels
| |
| * Particulate *I-131 Activity Activity (mR/hr) f Concentra- Net Concentra- Net Distance Window Window tion Count Rate tion Count Rate '
| |
| (Miles) Open Closed JpC1/cc) (ese) JpCI/cc) (coe) ;
| |
| ra _Jfj_ BG MbA o -
| |
| hfM $ ;
| |
| o.s GC RG hfDR 0 NUA 0 1.0 AG BG MDA 0 NBA O 1.s (k G BG MbL o NBA 0
| |
| .-n '
| |
| 1.0 00 OG NM o n\bh 0 2.s 60 GG MbA o MM- 0 s.o 60 6G mbA 0 Mbh 0 .
| |
| s.o aC aG rhDA o AD& O 5.o GG SG MDA o ShA O r.s bG bG mb h. .
| |
| O MDA 0 ;
| |
| 10.o 9.l.E.+ l 49G+l 8.IE-10 74E4l N0A O
| |
| * Based on a collection volume of 1s ft' (4.2 x lo' cc)
| |
| ( ,
| |
| Ls -
| |
| l 8.3-33 ,,
| |
| n
| |
| . . ~. _.,_.-_-m._.. - . . . - _ , . _ . _ . _ . . _ . - , . . _ _ . . _ _ _ _ . . . - . _ . . . , _ _ . _ _ . . - . . _ . .
| |
| | |
| i l
| |
| $ECTION 4.3 ,
| |
| FIELD MoNI'KIRING DATA ,
| |
| ToSAVEX - 89 ~
| |
| TIME: rrom f[OO ' To (( b r
| |
| IN-FIELD SAMPLING RESULTS ,
| |
| Ambient
| |
| * Radiation Levels
| |
| * Particulate
| |
| *I-131 .
| |
| Activity Activity (mR/hr) .
| |
| Concar.tra- Net Concentra- Net Distance Window Window tion Count Rate tion Count Rate '
| |
| _1pC1/ce) (ese) _{pci/ce) (ess) l (Miles) Open Closed ra B0 eG MBA o MM e o.5 GG AG h!DA o mDA .
| |
| 0 AG BG MD4 0 NBA 0 1.o
| |
| , 1.s R G__ BG 1hbb o NBA 0_
| |
| N 2.0 00 BG _DLpA_ o hbh _ 0 .
| |
| ~
| |
| 60 GG MbA o Mb6 - 0 2.s 60 6G mbA 0 Mbh 0 3.o A.o aC nG WDA o AD& O s.o 60 SG MhA O MBA O
| |
| $0 b$ MD$ 0 Ybk D 7.5 10.o llE+?, 5DE+1 1.3E-4 f.tE4 1.3 E-10 LS E+0 l
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc) s.e"
| |
| * - ~ . -,&
| |
| ..- -. -. _ : N
| |
| | |
| f u ,
| |
| SECTION 8.3~
| |
| FIELD NoNI'19 RING DATA TOSAVEX - 89 TIIG From f d /I To !bb IN-TIELD SAMPLING RESULTS Ambient .
| |
| Radiation Levels
| |
| * Particulate *I-131 (aR/?J} Activity Activity
| |
| ~ '"
| |
| Coocentra- Het Concentra- Net U Distance Window Window tion Count Rate tion Count Rate '
| |
| (Miles) open gJ,,ggd JpC1/cc) (com) _ JpC1/cc} (cos) ras BC BG _.QlpA_ o MDA 0 o.s _ AC' RG MDA o mW D 1.o AG BG MDA 0 NBA 0 2 06 0 N0A 0 1.5 AG _BB_
| |
| 2.o 00- OG mpA o 3DA 0 2.5 60 GG Mh4 6 808 ' 'O 3.o 60 6G /H DA 0 MDA 0 .
| |
| 5.o AG nG WDA o AD& 6 s.o 6G SG M D A_ O N O 7.5 8G 6G _MBA o MDA 0 10.0 bS MbN. O
| |
| * Based on a collection volume of 15 ft' (4.2 x lo' cc)
| |
| "h) 7.3-36
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| | |
| 9.0-1 SECTION
| |
| | |
| ==9.0 REFERENCES==
| |
| | |
| Section 9.1 Procedure Index Page-9.1-1 9.2 . Key Documents Page:9.2-1 U
| |
| 1
| |
| ,., , .*s e '-w
| |
| | |
| s S.1-1 1
| |
| 4 SECTION 9.1
| |
| -PROCEDURE INDEX Tables 9-1 and 9-2 identify the FSV RERP Implementing Procedures and Supporting Procedures. respectively. Controllers / Observers should become familiar with those procedures which directly affect the '
| |
| portion of the. emergency organization they are responsible for ,
| |
| evaluating. l l
| |
| l l
| |
| l
| |
| -i l
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| l l
| |
| l u
| |
| h i i
| |
| l l
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| l
| |
| . l l
| |
| I
| |
| . ., n%W
| |
| , . . , . . . . , . _ , ~ . . . . I~ ' . 7.!~
| |
| | |
| /
| |
| 9.1-2 '
| |
| f TABLE 9-1 RADIOLOGICAL EMERGENCY RESPONSE PLAN IMPLEMENTING PROCEDURES NO. SUELIECT Emergency Procedures ,
| |
| EP-CLASS Classification Guidance ,
| |
| .c Book No.' 1 of RERP Implementina Procedures RERP-Alert Action Summary for Alert ,
| |
| Classification i
| |
| RERP-Site Area Action Summary for Site Area-Emergency Classification ,
| |
| RERP-GE Action Summary for General Emergency Classification g: RERP-NOTIFICATION Procedure for making
| |
| < notifications outside of the Control Room RERP-CED Procedure for the Corporate Emergency Director
| |
| .. RERP-CR Control Room procedure L
| |
| ;- RERP-ECP Executive Command Post procedure E '
| |
| RERP-FCP Activation of the Fomard L Command Post
| |
| ?
| |
| ! RERP-PCC Activation of the Personnel s l Control Center ,
| |
| 'RERP-SE0C State Emergency Operations Center procedure
| |
| [.-
| |
| 1' RERP-TSC Activation of the Technical Support Center p-RERP-RECOVERY Recovery Operations procedure L-1 j' - ,y 20*
| |
| l
| |
| | |
| l 9.1-3 u,
| |
| -i TABLE 9-1 RADIOLOGICAL EMERGENCY RESPONSE PLAN IMPLEMENTING PROCEDURES.
| |
| NO. SUBJECT .
| |
| Book No. 2 of RERP Implementing Procedures ,
| |
| RERP-CORE- Core D6 mage Evaluation.
| |
| RERP-DECON , Emergency Decontamination Practices RERP-DOSE Off-Site Dose Calculation.
| |
| Methodology RERP-ENVIRON Long Tern Environmental .
| |
| Monitoring RERP-EVAC Evacuation of Site procedure RERP-EXP Emergency Exposure Guidelines RERP-FIELD Field Monitoring procedure RERP-MET Meteorological Data Acquisition procedure RERP-PAR Protective Action Recommendations procedure RERP-SURVEY Inplant/Onsite Radiological Monitoring procedure RERP-TEAMS Emergency Team Formation and Direction procedure RERP-THYROID Thyroid Blocking Agent Administration procedure 9
| |
| ^
| |
| .w 4 Vi% AM*45
| |
| . .. ~:_'"
| |
| . - , . . . '~_^"~~.".~.I.-.-
| |
| | |
| 9,1-4
| |
| :F TABLE 9-2
| |
| , FSV SUPPORTING PROCEDURES-Procedure Designation and Title FSV' Administrative Procedures ,.
| |
| 1 G-2 FSV Procedure Systems G-3 Action' Request - Preparation and Processing G-4 Physical Security and Access Control
| |
| :G-5 Personnel Emergency Response G-7 FSVProjectPersonnelTrainingandQualificatkonPrograms G-9 Controlled Work Procedures .
| |
| G-10 Data Management
| |
| : 7. P-1 Plant Operations P-3 Radioactive / Contaminated Waste / Area Control P-7 Station Service Request Processing P-8 Fire Fighting and Prevention P-10 Industrial Safety & Respiratory Protection Programs Q-1. FSV Organization and Responsibilities Q-2 Quality Assurance Program Q-3 Design Control System Q-16 Corrective Action System Q-18 QA Audit and Monitoring Program f sw*y.-
| |
| I
| |
| , D,']
| |
| ' ' *:.'.L
| |
| | |
| ( 4 9.1-5
| |
| /
| |
| : I '
| |
| Procedure Designation. :
| |
| and Title Health Physics Procedures
| |
| -i HPP-21 Surface Radioactive Contamination Surveys
| |
| ~
| |
| HPP-26 Radioactive Material Control and Handling HPP-30_ Shipment of Radioactive Materials HPP-105 Operation of Portable Survey Instrumentation HPP-110 Routine' Survey Intervals and Survey Documentation HPP-115 Radiation Surveys HPP-125 Establishing and Posting Controlled Areas !
| |
| HPP-130 Portable Air Sample Collection and Analysis HPP-135 Calibration and Operation Procedure for the
| |
| * Eberline SAM-2 Stabilized Assay Meter HPP-140 Continuous Air Monitors HPP-145 Continuous Air Monitors Filter and Cartridge Chence Out HPP-155 Operating the Harshaw TASC-12-A6 Automatic Alpha / Beta Counting System i HPP-170 Air Activity Analysis Using the RM 14/15 with HP210 Probe HPP-185 Personnel Decontamination 1
| |
| l l:
| |
| c i M. 'b
| |
| ~
| |
| '"~"TL. LT .. ..
| |
| | |
| 9.1-6 Procedure Designation and Title HPP-190' . Area and Equipment Decontamination HPP-195 Radioactive Material Spill HPP-205 Calibration of Radiation Detection Instruments ,
| |
| HPP-305 Bioassay Program HPP-310 Personnel Dosimetry HPP-410 Quantitative Respirator Fit Testing HPP-425- Selection and Use of Respiratory Protection Equipment-HPP-430 Routine Maintenance, Inspection, and Cleaning of Respiratory Equipment HPP-435 Breathing Air System Sampling Procedure HPP-525 Fast Gas and Iodine Sampling HPP-605 Radioactive Liquid (Sys 62) Effluent Sampling
| |
| -and Release Determination HPP-615 Radioactive Gas Waste Release Rate Calculations HPP-620 Reactor Building Exhaust Stack Discharge Activity Calculation .
| |
| HPP-625 RT 7325 and RT 73437 Emergency Filter and Cartridge Removal HPP-915 RERP Inventory List 4
| |
| * t qvM 5'''
| |
| . .-y,....---......_,. -... m w
| |
| | |
| , 1
| |
| 'Jt 7 9.1-7 I
| |
| . k.c Procedure Designation and Title Radiochemistry Procedures ,
| |
| RCP-9 Sample Preparation For Gamma' Spectral Analysis RCP Analysis for Vent Particulate and Iodine Monitor Filter for Surveillance Requirement ESR 8.1.lef-W .
| |
| RCP-36 Radioactivity Calculations RCP-38 Operation and Calibration of Computer Based-Beta Gamma Analysis System RCP-40' Operation and Calibration of the Whole Body Counting System Procedure Manuals and Plant Training.Procecure - Radiological Emergency Response Plan Fire Suppression and Prevention Manual
| |
| .('. Sections 1, 2, 8 Abnormal Operating Procedures - Emergency Procedures Manual (AOP - EP)
| |
| All Sections Emergency Operating Procedures Manual (EOPs)
| |
| All Sections Station RERP Ieolementing Procedures All Procedures
| |
| . -Medical Emergency Plan-FSV Security Administrative Procedures l- Station Manager's Administrative Procedures.
| |
| l-1 l
| |
| 1 1
| |
| l I
| |
| 4 .-,w , + .e w w *"ww2***
| |
| - w -
| |
| | |
| 9.2-8 l i
| |
| i Procedure Designation and Title !
| |
| Te:hnical/ Administrative Services Manager's Administrative Procedures
| |
| - Public Service Company RERP
| |
| * Public Information Manual State of Colorado Fort St. Vrain Radiological Emergency Response Plan (State RERP)
| |
| Weld County Radiological Emergency-Response Plan SG-05 (Personnel Accountability for i Station Emergencies)'
| |
| Operations Order Book
| |
| () .
| |
| O '
| |
| 4 i
| |
| f'T*M.
| |
| | |
| l 9.2-1 1 t
| |
| i t
| |
| SECTION 9.2 KEY DOCUMENTS ,
| |
| l .
| |
| ~Provided below is a list of those documents which govern the FSV Emergency Preparedness Program.
| |
| ~
| |
| : 1. Fort'St. Vrain Radiological Emergency Response Plan.
| |
| : 2. Fort St. Vrain System Operating Procedures.
| |
| : 3. Fort St. Vrain Emergincy Procedures.
| |
| : 4. Fort St. Vrain Technical Specifications.
| |
| : 5. Fort St. Vrain Updated Final Safety Analysis Report.
| |
| : 6. Title 10, Code of Federal Regulations Part 50.47 and Appendix E.
| |
| : 7. NUREG - 0654/ FEMA - REP - 1, Revision 1.
| |
| : 8. NUREG - 0696.
| |
| 1 Y
| |
| s.
| |
| \
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| lT;XC ' 7,4
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| rv .
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| F 1 6,0-1 ,
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| t w c. .
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| I ,
| |
| : 3. -
| |
| SECTION 6.0 .,
| |
| SCENARIO DATA PACKAGE o Plant Messages :
| |
| o -Offsite Messages o- Plant Parameters
| |
| '(:
| |
| r
| |
| !? " Ott
| |
| .U%,_
| |
| YOS'
| |
| | |
| . - - ~ ... ._ _. . -
| |
| e i
| |
| F05AVEX 89 RADIATION MONITORS SCENARIO TIME: 0000 CLOCE TIME: 8700 NUMBER VALUE ALARMING SENSITIVITY l (Y/N)
| |
| RT-4801 /.o I I 4 / CPM A/ 2.6E-10 RT-4802 Lo 1+/ CPM N 1.2E-10 RT-4803 40 E+i CPM // 2.5E-8 l RT-8212 Lo I+ L CPM >> 2.2E-8 RT-8213 Ao E* CPM N 2.2E-8 '
| |
| RT-7312 h. o E+. CPM
| |
| * s / 2.35-8 -
| |
| RT-7324-1 LD E+r CPM /> 3.31E-8 l RT-7324-2 1.E E4i CPM A/ '1.885-6 RT-7325-1 OOs CPM N 1.49E-5 RT-7325-2 0 05 mr/hr N na .
| |
| RT-73437-1 3.0E4I CPM N 2.51E-10 RT-73437-2 Ko E+ / CPM J 2.73E-10 L RT-9301 /,0 E+G CPM / 1.73E-8 RT-93252-12 4. O E - I ar/hr N na AREA MONITORS NUMBER
| |
| ' RT-93250-1 O.I ar/hr Al RT-93250-2 0/ ar/hr N RT-93250-3 I.O ar/hr N l RT-93250-4 0. I ar/hr // )
| |
| RT-93250-5 01 mr/hr- // j RT-93250-8 0i mr/hr d .
| |
| RT-93250-13 0l mr/hr J/
| |
| RT-93250-14 O5L mr/hr >/ '
| |
| OSL RT-93251-1 ar/hr // l RT-93251-3 KO. me/hr //
| |
| RT-93251-4 O.8 ar/hr //
| |
| RT-93251-5 08. __ mr/hr //
| |
| RT-93251-6 0.1 mr/hr ~ //
| |
| - RT-93251-7 oI ar/hr N RT-93251-8 OI ar/hr N RT-93251-9 0l ar/hr' N RT-93252-1 0/ mr/hr A/
| |
| RT-93252-2 0I ar/hr A/ I RT-93252-4 0l ar/hr A/ ^
| |
| l 0I A/ j RT-93252-6 ar/hr RT-93252-7 oI ar/hr N '
| |
| RIA-7951 0. 0G ar/hr N METEOROLOGICAL DATA Wind Speed 3.0 MPR Wind Direction From 3/5 negrees Plume Deviation / Sigma Theta G.o negrees G Differential Temperature - 0. 3 Deg F
| |
| * Value corresponds to the PCRV area channel. Other four channels are 30 cym.
| |
| d 3 e+3aw ,-e e a m -e -t-ee-s- v -s -+.eee,e- -w-w-a,-,w--ew -ws-,- m-ww-we.-ea - - ,em.* * - , . , - - - = -
| |
| - - - - *-e-,--,-w- - - + - --
| |
| | |
| ,~- _
| |
| l FOSAVEX 89 PAGE 1 SCENARIO TIME: occo ,
| |
| ,q s., ll s - . l
| |
| - . CLOCK TIME: 0960 i 1 OVERALL PARAMETERS- i Reactor Power Level %.A % l urbine Generator Load m MW PRIMARY COOLANT Pressure (4/ PSIA Temperature .
| |
| Circulator Inlet- 90D 'F 4 Core Outlet Iw s A 'F Helium Flow _
| |
| h X :.05 lb/hr Circulator A
| |
| - Circulator B 9,F X '..05 lb/hr Circulator C 9,7 X :.05 lb/hr Circulator D 7.fr X :.05 lb/hr TOTAL 1.e X :.0* lb/hr Circulator Speed Circulator A %% RPM Circulator B Sd2# RPM Circulator C~ %% RPM Circulator D 9 40 RPM Moisture (Dewpoint)
| |
| ME-9306 e59N 'F ME-9307- <Sr. / 'F
| |
| ( .
| |
| SECONDARY COOLANT ,
| |
| Feedwater Flow s Loop 1 842 X 10 .lb/hr Loop 2 &vf X 103 lb/hr Main Steam Loop 1 Pressure any PSIG Temperature 9sfr 'F Loop 2 Pressure e,e/ PSIG Temperature 9 fro 'F Hot Reheat Loop 1-Pressure -w2 PSIG Temperature jwo *F Loop 2 Pressure so PSIG Temperature /oro 'F '
| |
| Cold Reheat .
| |
| Loop 1 Pressure 4W PSIG Temperature M/ 'F ~
| |
| Loop 2 Pressure gr,c PSIG Temperature 4r/ 'F
| |
| ~
| |
| g
| |
| .\w+e s
| |
| . . ~ .- . _ _ . . . .-.- N Wb s
| |
| | |
| .c ._e. . - - . .- - -
| |
| i FOSAVEX 89
| |
| - PAGE 2 SCENARIO TIME: COCD CLOCK TIME: 040e-
| |
| . PRIMARY AUXILIARIES
| |
| ...............................B0ARD I-01------------------------------
| |
| GAS WASTE System 63 Inlet Pressure T PSIA Vacuum Tank Pressure F PSIA ,
| |
| Surge Tank "A" Pressure wo PSIG Surge Tank "B" Pressure //r PSIG LIQUID WASTE Systen 62- NORMAL REACTOR PLANT COOLING WATER System 46 Loop 1 P-4601 et ON/0FF P-46015 of ON/0FF Header Inlet Temperature /or *F Barrel and Top Head Outlet Temperature //r *F Top Penetration Inlet Temperature es> 'F Loop 2 P-4602- an_ ON/0FF
| |
| : h. -
| |
| P-4602S Header. Inlet Temperature Barrel and Top Head Outlet Temperature ng os
| |
| /&
| |
| ON/0FF
| |
| *F
| |
| *F -
| |
| Top Penetration Inlet Temperature A6 'F Surge Tank Level "A" e INCHES-Surge Tank Level "B" $O INCHES PURIFIED HELIUM System 23 NORMAL LIQUID NITROGEN System 25 NORMAL
| |
| . .)
| |
| Mi
| |
| __:_. _ _ _ _ _ _ _ _ _ . _ _ _ . . . _ _ _ ... . - - c=_ _;. _.. _ __ _ . _ _ ~ . _ _ _ .
| |
| | |
| b T FOSAVEX~~~
| |
| 89 PAGE 3 SCENARIO TIMEL oooo CLOCK TIME:
| |
| PRIMARY AUXILIARIES
| |
| ... . ... .. . . .. ... . ... . . ..~. ... B0 A R D I - 0 2 --- ------- A --------------
| |
| HELIUM STORAGE System 24 L Low Pressure. Bottles /f PSIG r High Pressure Bottles /o v f PSIG
| |
| ~
| |
| EMERGENCY FEEDWATER System 31 Emergency Feed Flow :4. isd GPM Emergency Bearing Water Header Pressure 2.svo PSIG i
| |
| - HELIUM CIRCULATORS System 21 CirculatorC-2101(A) ,
| |
| j Bearing Water Flow /68/ GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 92 'F Main Drain AP s. PSID Steam Exhaust / Steam Water Drain >so PSIO.
| |
| Buffer /Mid-Buffer AP /9.3 PSID t
| |
| Buffer Helium Flow 7. sv ACFM
| |
| . Buffer Helium Return Flow s.o 7 ACFM .
| |
| Circulator C-2102 (B) / u,
| |
| ~. Bearing Water Flow GPM
| |
| ' l t) o Emergency Bearing Water Flow GPM '
| |
| Bearing Water Inlet Temperature e2 'F Main Orain AP . 7 PSID l:
| |
| L Steam Exhaust / Steam Water Drain >ro PSID Buffer /Mid-Buffer AP 2.63 PSID l- Buffer Helium Flow 7. s s ACFM Buffer Helium Return Flow s . 7 s ACFM CirculatorC-2103(C)
| |
| Bearing Water Flow /Bs GPM Emergency Bearing Water Flow. O GPM Bearing Water Inlet Temperature 9s- *F Main Drain AP 7 PSID Steam Exhaust / Steam Water Drain > .r o PSID Buffer /Mid-Buffor AP 3t.7 PSID Buffer Helium Flow R , st, ACFM l
| |
| Buffer Helium Return Flow 3. si ACFM l
| |
| l Circulator .C-2104 (D) ~
| |
| Bearing Water Flow / '/ A GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 9B 'F Main Drain AP t. PSID 1 Steam Exnaust/ Steam Water Drain >50 PSID Buffer /Mid-Buffer AP 2. 9 . c PSID Buffer Helium Flow 7.34 ACFM Buffer Helium Return Flow 5. 4V ACFM l <
| |
| /
| |
| bpc _
| |
| L .p q t,
| |
| , ,. .. n
| |
| | |
| s FOSAVEX-89 PAGE 4 -
| |
| )
| |
| SCENARIO TIME: ooce CLOCK TIME: CP700
| |
| . PRIMARY AUXILIARIES
| |
| ................._.........--B0ARD I-03------------------------------
| |
| REACTOR CONTROL System 12, Regulating Rod (1) Position- h3,L_ INCHES RunbackGroupPositions(All) Ed/M-/PP INCHES Shim Rod Position .
| |
| +D INCHES
| |
| ~
| |
| Flux Controller Position 0 0/0, +/-
| |
| Reserve Shutdown Material ~M uetal STATUS
| |
| - (7 )
| |
| 1 l
| |
| l 4
| |
| l l'
| |
| i a SD s
| |
| - ^ eN f . . . . . . .
| |
| 5'
| |
| | |
| FOSAVEX 89 :
| |
| PAGE 5
| |
| < SCENARIO TIME: 0D00 CLOCK TIME: o5e PRIMARY AUXIt.! ARIES ;
| |
| ------------------------------ 80ARD I-04------------------------------
| |
| REGIDN OUTLET TEMPERATURES (Deg F)
| |
| : 1. n32 11. 1996 21. j&93 31. 1J7.5 .
| |
| : 2. ivs/ 12. syfr 22. s1Y) - 32. ivs3
| |
| : 3. /96 *
| |
| : 13. /4 23. /r/J 33. /3z22 e 4 syt!) 14. iv/;V 24. Nt2 34. sve2
| |
| : 5. > y9 9 15. syro 25. .Aa? 35. sm-
| |
| : 6. /y90 16. /i 9V 26. ifM 36. 1990
| |
| : 7. /996 17. /9% 27. 4 9/ 37. mW
| |
| : 8. 14ko 18. 19f9' 28. 1903 -
| |
| : 9. >VW 19. /Vor 29. /V& 9' ~
| |
| : 10. /V2i 20. /y62 30. /GIO REGION ORIFICE VALVE POSITION (% open)
| |
| : 1. //,P 11. a.y 21. /9.s 31. p. 9
| |
| : 2. /f. P 12. /#.5 22. M0 32, m.;
| |
| , ys 3.. So.o 13. 97 0 23. (. . r 33. .sv. 9
| |
| : 4. n.5 14. /9.9 24. P.6 34. ,.u . o
| |
| ')
| |
| : 5. /ts.v - 15.- /s.O 25. n.v 35. // . / '
| |
| /6. 0 36.
| |
| 6.. /3,6 16. 26. t. 9 . f 9. 9 7.. a.y 17, 2s . / 27. /.s. 7 37. /9 6,
| |
| : 8. E.4 18. w/ 28. a t,9
| |
| : 9. ss. 3 19. //, o 29. /t.c
| |
| : 10. 32.5 20. s. 9 30. //.6,
| |
| 'O$.9 n,
| |
| S$A
| |
| ---- g-y, 8 -[- -ar- w- --
| |
| | |
| l .- ,
| |
| FDSAVEX 89 PAGE 6 r
| |
| SCENARIO TIME: Ot~~o
| |
| . CLDCK TIME: obor) '
| |
| 9 PRIMARY AUXILIARIES
| |
| -------------------------BDARD I - D S ------
| |
| HYDRAULIC DIL System 91 NORMAL STEAM WATER DUMP TANK System 22 Loop Sele:ted / 1 or 2 .
| |
| Pressure o PSIG Temperature // s 'F Level w INCHES HELIUM CIRCULATORS System 21 CirculatorC-2101(A)
| |
| Rotor Speed Ofr% ' RPM Helium Flow (Low Range) o, caA PSID Helium Flow (High Range) WI %
| |
| Compressor AP- 6. 5 PSID Steam Supply. Pressure Mg PSIA Steam Exhaust Pressure t0V- -PSIA Steam Turbine Pressure Ratio /. 3 r CirculatorC-2102-(B) 1 Rotor Speed- nimi RPM Helium Flow (Low Range) o.so3- PSID Helium Flow (High Range) P9 -% -
| |
| Compressor AP n..ti ~ PSID Steam Supply Pressure om PSIA Steam Exhaust Pressure +9P PSIA Steam Turbine Pressure Ratio /.3 r J
| |
| Circulator C-2103 (C)
| |
| Rotor Speed % ,w RPM Helium Flow (Low Range) 0. sea PSID Helium Flow (High Range) V7 %
| |
| Compresser AP 9.3 o PSID Steam Supply Pressure 4m PSIA Steam Exhaust Pressure -/ n PSIA Steam Turbine Pressure Ratio /.39
| |
| ~
| |
| L
| |
| : CirculatorC-2104(D)
| |
| Rotor Speed so RPM Helium Flow (Low Range) e,so3 PSID Helium Flow (High Rango) W %
| |
| Compressor AP 6 3P PSID Steam Supply Pressure a PSIA Steam Exhaust Pressure +0A PSIA Steam Turbine Pressure Ratio /. 3 s MAIN TUREINE System S1 NDRMAL
| |
| ,=r- --%,--.=,,..,.,-e,- - - - -
| |
| | |
| 8 4 F05AVEX 89-PAGE 7-SCENARIO TIME: Coco j l CLOCK TIME: oMoo PRIMARY AUXILIARIES .
| |
| I
| |
| -----------------------------BOARD I-06------------------------------ 1 FEEDWATER .
| |
| System 31' Emergency Feedwater Pressure A 2.0 PSIG q Boiler Feed Pumps 1 Feed Pump A '
| |
| Speed WP' RPM .i Flow sam X lor lb/hr Feed Pump B -
| |
| - Status erL ON/0FF Flow F.SG X IO C lb/hr .
| |
| Feed Pump C.
| |
| Speed J:rvo RPM Flow J.9W X lor ib/hr ,
| |
| CONDENSATE System 31 NORMAL MISCELLANEOUS .
| |
| Bypass Flash Tank Pressure /.,tf PSIG Hot Reheat Bypass Valve Positions NORMAL
| |
| " System 92 PLANT ELECTRICAL Essential Loop *1 . Loop 2 -
| |
| 4160 VAC 480 VAC Q hd 1 I I
| |
| 120 VAC 120 VDC Emergency Diesel Generator ACM Diesel Generator t u Non-Essential bJ Switchyard 4160 KV /
| |
| 480 VAC I 120 VAC 120 VDC v MAIN TOWER System 41 NORMAL SERVICE WATER TOWER System 42 NORMAL FIRE WATER System 45 NORMAL INSTRUMENT AIR System 82 NORMAL
| |
| .%. SERVICE AIR System 82 NORMAL s - ./
| |
| :: =
| |
| . . ~ _. - 1 " '
| |
| | |
| ? ,j 1 r 1
| |
| ,< , -j FOSAVEX 89 -
| |
| PAGE 8 1
| |
| . SCENARIO TIME:A rx>
| |
| CLOCK TIME: 0*100 PRIMARY AUXILIARIES
| |
| ------------------------------80ARD I-10------------------------------
| |
| PLANT PROTECTIVE SYSTEM REACTOR BUILDING TEMPERATURE - HIGH Bay _100'- /M 'F -
| |
| Bay 200 m 'F .
| |
| Bay 300 ES 'F p.
| |
| REHEAT ACTIVITY MONITORS Loop 1 Bay 1200 w ar/hr Bay 1100 - er er/hr .
| |
| Bay 1000 , er ar/hr Loop 2 Bay 600 .e / mr/hr Bay 500 </ rar/hr >
| |
| Bay 400 /_s- ar/hr
| |
| -MOISTURE MONITORS-Dew Point Loop 1 -S9. V 'F 4 Loop 2 - 5 9 ,'/ 'F MAIN STEAM LOOP AP d7 PSID BUFFER SEAL MALFUNCTION .m - o~
| |
| L-1' l
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| 4,- 3+ q e *WM
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| ,'I rb c. E r tac g
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| | |
| 1 - .
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| cc. .
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| -4 FOSAVEX 99
| |
| # AGE 9 5CENARID TIME: cwo
| |
| .) CLOCK TIME: O'm PRIMARY AUXILIARIES
| |
| .. .... .. .. . . . . . ..... . . . .... .. 8 0 Ago I .13... .. ~. .. . . . . ........ . .. . .
| |
| PENETRATICil INTERSPACE AP P F310 REACTOR BUILDING $ UMP DISCHARGE FLOW </O GPM HELIliM CIRCULATOR $ Systen 21 Guard Helium Flow o 1b/hr
| |
| . Bearing Assembly Temperature CirculatorC-2101(A)
| |
| Upper Labyrinth ,gio.so *F Upper Journal er w 'F Main Bearing Housing er w 'F Stear Nater Drain Area tr /m 'F Lower Journal h av 'F CirculatorC-2I02(B)
| |
| Upper Labyrinth no.No 'F Upper Journal vr e 'F
| |
| @' Main Bearing Housing tr ae 'F SteamNater Drain Area ~ er-a o 'F
| |
| ) Lower Journal vs-sc o 'F CirculatorC-2IO3(C)
| |
| Upper Labyrinth 'zw vv0 'F Upper Journal et ne 'F Main Betting Housing tr w 'F SteamNater Drain Area ex w 'F Lower Journal or- - 'F CirculaterC-2104(D)
| |
| Upper Labyrinth nowo 'F
| |
| . Upper Journal es- w 'F Main Bearing Housing er m 'F SteamNater Drain Area or-w 'F Lower Journal _
| |
| tr-/ce 'F 1
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| , e e@6 edf
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| .A'
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| ;}'.h(3"l*h; r;. v. .:;:m
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| ;A '? f,'''If f{ .,m. . . - ,,w y , w %, . ,,, %. .s. . . . , . - - *++++ --
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| l .-- --- ..
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| g
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| r-FOSAVEX E9 PAGE 10
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| $CENAR10 TIME: m
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| - {J)'
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| ~-
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| CLOCK TIME: oMo PRIMARY AUXILIARIE!
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| ..............................goAgo g.15-------------------------+----
| |
| REACTOR BUILDING STACK FLOW 30 KCFM l REACTOR BUILDING AMBIENT AP o.2 Inches A C !
| |
| CONTROL ROOM TEMPERATURE
| |
| ' /,8 'F ;
| |
| E i
| |
| i i
| |
| .) .
| |
| ............................. 80ARD I-7507X------------- l------------
| |
| 480V ROOM TEMPERATURE 95 'F i
| |
| Y 9
| |
| \
| |
| ,se,
| |
| . :we' ,
| |
| .~...~s-. l
| |
| .J
| |
| | |
| TOSAVEX 89
| |
| ( RADIATION MONITOR 5 SCENARIO TIME: 00/6 CLOCK TIME: D7/5 NUMBER VALUE ALARMING SENSITIVITY (Y/N)
| |
| RT-4801 /. o i 7 4 I CPM A/ 2.6E-10 RT-4802 Lo '+f CPM N 1.2E-10 RT-4803 Lo Edi CPM N 2.5E-8 RT-6212 L0. !+f CPM >> 2.2E-8 RT-6213 /o E* CPM s / 2.2E-8 RT-7312 1. o E+ CPMa u 2.3E-6 .
| |
| 37-7324-1 1. 0 ; E*1 CPM u 3.318-4 RT-7324-2 2X i+l CPM // 1.88E-6 RT-7325-1 00 s CPM N 1.495-5 RT-7325-2 0 05 mr/hr N na RT-73437-1 L.0 E + l CPM N 2.515-10 RT-73437-2 5 D E 41 CPM N 2.73E-10 RT-9301 /> 0 E + 6 CPM A/ 1.73E-8 RT-93252-12 4. O E - I ar/hr // na AREA MONITORS NUMBER RT-93250-1 0/ mr/hr M RT-93250-2 0I ar/hr N RT-93250-3 L0 mr/hr _S
| |
| )
| |
| N./
| |
| RT-93250-4 RT-93250-5 0I 0J ar/hr mr/hr N
| |
| N RT-93250-8 0.I ar/hr N RT-93250-13 0. L ar/hr N '
| |
| RT-93250-14 05L =r/hr N ,
| |
| RT-93251-1 0 51- ar/nr #
| |
| RT-93251-3 KO. ar/hr N RT-93251-4 0- ar/hr N RT-93251-5 Gl ar/hr N RT-93251-6 0. '
| |
| ar/hr N RT-93251-7 0I ar/hr N RT-93251-8 0, l' ar/hr N RT-93251-9 C.I ar/hr J/
| |
| RT-93252-1 C.' mr/hr u RT-93252-2 0< ar/hr N RT-93252-4 81 mr/hr N ~
| |
| RT-93252-6 0. I ar/hr N RT-93252-7 o.
| |
| 0N mr/hr d_ N RIA-7951 mr/hr METEOROLOGILAL DATA Wind Speed b. O MPH Wind Direction From 1 15 negrees Plume Deviation / Sigma Theta /.. O negrees
| |
| - Differential Temperature - 0. 3 Der F I
| |
| * Value corresponds to the PCRV area channel. Other four channels are 30 cym.
| |
| i 7
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| | |
| FOSAVEX 89 I PAGE 1 i
| |
| SCENARIO TIME: M !
| |
| CLOCK TIME: o>er OVERALL PARAMETERS i Reactor Power Level 79 5 Turbine Generator Load am MW j PRIMARY COOLANT Pressure ^^/ PSIA t Temperature .
| |
| Circulator Inlet 'ye 'F Core Outlet m/ 'F Helium Flow Circulator A Ef X LO # lb/hr i Circulator B %9 X:.or 1b/hr Circulator C 9. 7 X:,0" lb/hr .
| |
| Circulator D 9. b X: O' lb/hr l TOTAL & of X ;,0* lb/hr i
| |
| Circulator Speed Circulator A %91r RPM Circulator B 9ks : RPM ,
| |
| Circulator C W% RPM r Circulator D M(a f RPM Moisture (Dew Point)
| |
| ME-9306 est 'F ME-9307 e sr 'F
| |
| -)
| |
| SECONDARY COOLANT .
| |
| Feedwater Flow y ,
| |
| Loop 1 S.43 X 10 lb/hr Loop 2 K,v3 x 10T lb/hr Main Steam Loop 1 Pressure >1/ V PSIG Temperature Sff 'F Loop 2 Pressure arvo/ PSIG Temperature 5Po 'F Hot Reheat
| |
| -5c.7 Loop 1 Pressure PSIG Temperature ac r., 'F t Loop 2 Pressure we PSIG Temperature e 'F Cold Reheat -
| |
| Loop 1 Pressure uJ PSIG ,
| |
| Temperature M/ 'F r Loop 2 Pressur, af PSIG Temperature /A'/ 'F I
| |
| .J
| |
| , . lim G 5 -rw w e--w-- ., ,- 7 yy y-wy-y-- r-- wy_gu- c --ww-,r-ry y-e* *-$
| |
| | |
| 1 i
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| POSAVEX 89 I PAGE 2 i SCENARIO TIME: vorro !
| |
| CLOCK TIME: c ents
| |
| . PRIMARY AUXILIARIES 1
| |
| ........................_... 80ARD I-01----------------------------- ,
| |
| i GAS WASTE System 63 Inlet Pressure F PSIA l Vacuum Tank Pressure r PSIA ,
| |
| Surge Tank "A" Pressure +/o PSIG Surge Tank "B" Pressure M PSIG LIQUID WASTE System 62 NORMAL REACTOR PLANT COOLING WATER System 46 Loop 1 P-4601 e > t. ON/0FF P-46015 oF ON/0FF Header Inlet Temperature er 'F Barrel and Top Head Outlet Temperature or 'F :
| |
| Top Penetration Inlet Temperature .c7 'F Loop 2
| |
| % P-4602 cr>t ON/0FF
| |
| ') P-4602S oF* ON/0FF .
| |
| " Header Inlet Temperature /o3 'F Barrel and Top Head Outlet Temperature /s 'F -
| |
| Top Penetration Inlet Tempe sture AL 'F Surge Tank Level "A" _
| |
| .vo INCHES-Surge Tank Level "B" +o INCHES PURIFIED HELIUM System 23 NORMAL LIQUID NITROGEN System 25 NORMAL 1
| |
| l M&%9t
| |
| -x a 4 h 8 ** * ' * * '
| |
| * O
| |
| | |
| FDSAVEX 89 PAGE 3 SCENARID TIME: oo/f '
| |
| k.-) CLDCK TIME:
| |
| PRIMARY AUXILIARIES .
| |
| ................. .... .. 8DARD I-D2--------------*---------------
| |
| HELIUM STDRAGE System 24 4
| |
| '" Low Pressure Bottles /e7 PSIG !
| |
| High Pressure Bottles /o+T PSIG EMERGENCY FEEDWATER System 31 Emergency Feed Flow 4 /E0 GPM Emergency Bearing Water Header Pressure aa4o PSIG :
| |
| HELIUM CIRCULATORS System 21 CirculatorC-2101(A)
| |
| Bearing Water Flow /4V GPM Emergency Bearing Water Flow o GPM Bekring Water Inlet Temperature 92 'F '
| |
| Main Drain AP (, PSID Steam Exhaust / Steam Water Drain > 50 PSID Buffer /Mid-Buffer AP / 9.1 PSID Buffer Helium Flow 9. N ACFM ,
| |
| t Buffer Helium Return Flow x.e7 ACFM Circulator C-2102 (B) '
| |
| , Bearing Water Flow /s.4 GPM
| |
| ) Emergency Bearing Water Flow o GPM
| |
| ' Bearing Water Inlet Temperature en 'T Main Drain AP 7 PSID Steam Exhaust / Steam Water Drain > so PSID Buffer /Mic-Buffer AP A G. i PSID Buffer Helium Flow 7. SIACFM Buffer Helium Return Flow ~
| |
| 3 ,71ACFM Circulator.C-2103(C)
| |
| Bearing Water Flow /#C GPM .
| |
| Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 98 'F Main Drain AP 7 PSID
| |
| - Steam Exhaust / Steam Water Drain >s o PSID Buffer /Mid-Buffer AP 38.3 PSID Buffer Helium Flow 0.5% ACFM Buffer Heliue Return Flow 3.r/ ACFM Circulator C-2104 (D) ~
| |
| Bearing Water Flow /7# GPM Emergency Bearing Water Flow a GPM ,
| |
| Bearing Water Inlet Temperature 9F 'F Main Drain AP & PSID Steam Exhaust / Steam Water Drain >co PSID .
| |
| Buffer /Mid-Buffer AP a f.S PSID Buffer Helium Flow 75 V ACFM Buffer Helium Return Flow 3 44 ACFM 3
| |
| /
| |
| E Ammoe l
| |
| '-d
| |
| ,- S
| |
| - .~. . . _ _ _ __ . . ~ . _ - - . _ . _, ._..._ __ _._ _ . _ _ _ ___. _ ._ _. - -_,.
| |
| | |
| 1
| |
| . l FOSAVEX 89
| |
| ' PAGE 4 SCENARIO TIME: Coco CLOCK TIME: c'7CO l PRIMARY AUXILIARIES
| |
| .................... .......B0ARD I-03------------------------------ ;
| |
| REACTOR CONTROL System 12 ,
| |
| Regulating Rod (1) Position I Lt h INCHES
| |
| ~
| |
| RunbackGroupPositions(All) Fose J -for INCHES Shis Rod Position td' INCHES FluxControllerPosit[on C 0/0,+/-
| |
| Reserve Shutdown Material Ymd STATUS
| |
| .s I
| |
| s t
| |
| 5 ma m e, 4 _. . _ . . . . . ._:_ .
| |
| .= .
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| | |
| I e j F05AVEX 89 i
| |
| '~
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| PAGE 5 !
| |
| )
| |
| SCENARIO TIME: 40 6 l
| |
| (' ) *
| |
| \
| |
| '''b/
| |
| CLOCK TIME: C'7/f i l
| |
| PRIMARY AUXILIARIES l l
| |
| ............... .._ .........B0ARD I-04------------------------------ 1 REGIONOUTLETTEMPERATURES(DegF) i
| |
| : 1. /VJ2 11. /90r 21. /vf3 31. /353 . . ;
| |
| : 2. M2 12. /vn S 22. /150 32. Jc//2
| |
| : 3. Nt0 13. MO 23. E90 33. /Sne e
| |
| : 4. 14kn 14. /vt,y 24. JW,9 34, non >
| |
| : 5. 1951 15. i jyr/ 25. iv tr 35. Me
| |
| : 6. Mo 16. /P97 26. /3v9 36. wA9
| |
| : 7. mG 17. iv50 27. /v 9/ 37. s.21 9 .
| |
| : 8. /4h) 18. /v/t 28. / c/05
| |
| : 9. MT 19. /VaV 29. /VLV
| |
| : 10. n>/ 20. /v&2 30. /v to REGION ORIFICE VALVE POSITION (5 open) .
| |
| : 1. //.T 11. /s. V 21. / 9. A 31. F. 9
| |
| : 2. tt. y 12. //, r 22. 69 32. fa.2
| |
| ~"-
| |
| : 3. 50 o 13, 976 23. (,.r 33. n.?
| |
| V ) 4. n.3 14. / 9. 9 24. E,6 34. am. 0
| |
| : 5. ou.y 15. 16 0 25. it. y 35. is. /
| |
| : 6. 13. G 16. / t.1 26. 4.9 . 36. 19 9
| |
| : 7. />. P 17. _u . / 27. /3.7 37. /7 6 '
| |
| : 8. 53 6 18. W/ 28. rfr.0 '
| |
| : 9. as. 3 19. //. o 29. /r.&
| |
| : 10. 3; 3 20. S. 9 30. //. G i
| |
| gM 4 W'.*.
| |
| . . . , -.. m. , - . . ..,s.ya. -. = . $
| |
| _- _ _ _ _ _ _ _ _ __. , , _ _ _ . _ _ _ _ _ _ _? _ _ _ _ . . -
| |
| | |
| FDSAVEX 89 i PAGE 6 !
| |
| SCENARID TIME: cois- !
| |
| . ' f
| |
| ; CLOCK TIME: oH T i
| |
| , PRIMARY AUXILIARIES
| |
| .......... .. .........._.. B0ARD I - 0 5 ---- -
| |
| HYDRAULIC DIL Systes 91 NORMAL STEAM WATER DUMP TANK Systen 22 Loop Selected / 1 or 2 -
| |
| Pressure o PSIG v Temperature //3 'F i Level W INCHES ,
| |
| HELIUM CIRCULATDRS Systen 21 CirculatorC-2101(A) ,'
| |
| Rotor Speed MrSP RPM Helium Flow (Low Range) o.%9 PSID .
| |
| Helium Flow (High Range) BF %
| |
| Compressor AP 4 5" PSID Steam Supply Pressure G55 PSIA i Steam Exhaust Pressure _
| |
| tM PSIA Steam Turbine Pressure Ratio /.37
| |
| - - Circulator C-2102 (B)
| |
| . Rotor Speed nidl RPM :
| |
| Helium Flow (Low Range) o.so3 PSID Helium Flow (High Range) s9 %
| |
| Compressor AP 0.32 PSID Steam Supply Pressure arr PSIA Steam Exhaust Pressure 499 PSIA Steam Turbine Pressure Ratio /.J7 CirculaterC-2103(C)
| |
| Rotor Speec MHG RPM Helium Flow (Low Range) o.sWL PSID Helium Flow (High Range) 15 %
| |
| Compressor AP '
| |
| 940 PSID Steam Supply Pressure 455 PSIA Steam Exhaust Pressure .<&5 PSIA Steam Turbine Pressure Ratio /.Jr CirculatorC-2104(D)
| |
| Rotor Speed -
| |
| UfrGI RPM Helium Flow (Low Range) o.St:t3 PSID ,
| |
| Helium Flow (High Range) BY %
| |
| Compressor AP 6.9 PSID Steam Supply Pressure air PSIA Steam Exhaust Pressure wJ ~ PSIA
| |
| , Steam Turbine Pressure Ratio /. 3 r J MAIN 'URBINE System 51 NDRMAL N',
| |
| w'
| |
| * w w e---wr--w--aw- w %+Ww-s- -ww *N-p - - -*" v- **ww"- e e- w -
| |
| 9 e'
| |
| ' ---*8
| |
| | |
| i i
| |
| F05AVEX 89 PAGE 7 ;
| |
| SCENARIO. TIME: 00/5 CLOCK TIME: 09/f
| |
| (
| |
| PRIMARY AUXILIARIES- ,
| |
| . .......... ..... ..... .... 80ARD I - 0 6 ---------- ------------------- !
| |
| FEEDWATER System 31 ;
| |
| Emergency Feedwater Pressure mmo PSIG ;
| |
| Boiler Feed Pumps Feed Pump A . l Speed f95 RPM Flow s,n X 1 )' lb/hr - ,
| |
| Feed Pump 8 !
| |
| Status cN ON/0FF i Flow 9.vr X 10 3 lb/hr .
| |
| t Feed Pump C Speed d5ss RPM Flow J.9 X lo r 1b/hr ;
| |
| CONDENSATE System 31 NORMAL MISCELLANEOUS-Bypass Flash Tank Pressure 69J PSIG Hot Reheat Bypass Valve Positions NORMAL PLANT ELECTRICAL System 92 '
| |
| Essential Loop 1 Loop 4160 VAC 480 VAC MW !
| |
| 1 120 VAC 120 VOC Emergency Diesel Generator ACM Diesel Generator e n .
| |
| Non-Essential Switchyard hel 4160 KV 480 VAC i- 120 VAC '
| |
| 120 VDC v MAIN TOWER System 41 NORMAL SERVICE WATER TOWER System 42 NORMAL FIRE WATER System 45 NORMAL INSTRUMENT AIR System 82 NORMAL SERVICE AIR System 82 NORMAL 4.* d8
| |
| -segame.<
| |
| . _ . . - _ ._ 4
| |
| , w-w- ~ ,e 4 <,- .__-v, - n. e.,-. , . . - - - -,,n..mm.e--.. - , , . , , . - - . , , - - , . , , .
| |
| | |
| FOSAVEX 89 !
| |
| p P
| |
| SCENARIO TIME: mer !
| |
| CLOCK TIME: 07/.r PRIMARY AUXILIARIES -
| |
| - - - - - ~ ~ - - - - - - - - - - - - - - - - - - - BOARD I - --------------------------
| |
| PLANT PROTECTIVE SYSTEM REACTOR BUILDING TEMPERATURE - NIGH Bay 100 A# 'F >
| |
| Bay 200 em 'F - ;
| |
| Bay 300 M 'F REHEAT ACTIVITY MONITORS '
| |
| Loop 1 Bay 1200 e/ mr/hr :
| |
| Bay 1100 </ ar/hr -
| |
| Bay 1000 <f ar/hr Loop 2 ,
| |
| - Bay 600 </ mr/hr Bay 500 </ mr/hr Bay 400 /S *TlhT MOISTURE MONITORS Dew Point Loop 1 e -59 'F !
| |
| Loop 2 __
| |
| s - sT 'F MAIN STEAM LOOP AP .d/ PSID BUFFER SEAL MALFUNCTION /0-/r L
| |
| e 39 i 9
| |
| -9%a4f
| |
| -- <-r y*m ar +- e m ----*--*'w t-w u- V 4 " -- W +
| |
| | |
| FOSAVEX -89 :
| |
| PAGE 9 i
| |
| SCENARIO TIME: oots CLOCK TIME: otir L ' \-
| |
| 1 PRIMARY AUXILIARIES
| |
| ..............................B0ARD I-13------- ---------------------- l PENETRATION INTERSPACE AP ff PSID :
| |
| < /o GPM REACTOR BUILDING SUMP DISCHARGE FLOW HELIUM CIRCULATORS System 21 Guard Helium Flow . O lb/hr 4 Bearing Assembly Temperature CirculatorC-2101(A)
| |
| Upper Labyrinth /J0 W O 'F -
| |
| Upper Journal es-e 'F Main Bearing Housing u.sv 'F !
| |
| Steam Nater Drain Area T-oo 'F -
| |
| Lower Journal m -en 'F Circulator C-2102 (B)
| |
| Upper Labyrinth F Upper Journal /fo-/m os m 'F '
| |
| Main Bearing Housing ,
| |
| 7r /cr> 'F SteamNater Drain Area er-/cv 'F i 3 Lower Journal 75-/c0 'F CirculatorC-2103(C)
| |
| Upper Labyrinth f.to .m 'F Upper Journal ec.m *F ;
| |
| Main Bearing Housing e fcio 'F -
| |
| SteamNater Drain Area es-/m 'F l Lower Journal or.m *F l
| |
| L Circulator C-2104 (0) l Upper Labyrinth /_10-/9o 'F
| |
| * i Upper Journal 95 /v0 'F Main Bearing Housing e1/00 'F SteamNater Drain Area er.m 'F Lower Journal er-ov 'F as 9
| |
| ?
| |
| '\
| |
| '\ .
| |
| .e*>,
| |
| .F.Tv x
| |
| y i E t ._
| |
| $' .\ . ._ _ . . - _ . . ..,----...z. _. . . m ._
| |
| | |
| 1 FOSAVEX ~39 l L PAGE 10 l i
| |
| i SCENARIO TIME: m6 l
| |
| . ( ..
| |
| CLOCK TIME: 07 6
| |
| 's. 1 1
| |
| PRIMARY AUXILIARIES
| |
| ------------------------------BOARD I-15------------------------------
| |
| REACTOR BUILDING STACK FLOW JJ KCFM i 4
| |
| e l REACTOR BUILDING AMBIENT AP C.# Inches H2O 1 l
| |
| CONTROL ROOM TEMPERATURE i M 'F l r
| |
| J 1
| |
| 4 i
| |
| e t
| |
| . ].
| |
| ------------------------------80ARD I-7507X---------------------------
| |
| 480V ROOM TEMPERATURE 7S~ 'F t t
| |
| [
| |
| t O
| |
| , es %,
| |
| J
| |
| . / de N
| |
| ,w
| |
| '' ~-h3 g- a4 we-m +r seem e ta.++* g ec esissivege e w m. + + +en***,_ ee
| |
| ~~ ~ -- ~-
| |
| ~ ~ : _- - _ . _ L . _ .. - -,:~~ ~~'-*2__~~~-
| |
| | |
| l FOSAVEI 89
| |
| {
| |
| RADIATION MONITORS SCENARIO TIME: 0030 l CLOCK TIME: 0730 l NUMBER YALUE M. ARMING SEN8ITIVITY ,
| |
| (Y/N) i RT-4801 / o 17 4 / CPM A/ 2.8E-10 (
| |
| RT-4802 Loi L+1 CPM N 1.2E-10 '
| |
| RT-4803 /o 4+1 CPM N 2.5E-8 l RT-6212 Lo d+1 CPM >> 2.2E-8 -
| |
| RT-6213 /. o E*' CPM d1 2.2E-8 RT-7312 1o E+; CPMS >/ 2.3E-8 .
| |
| RT-7324-1 1- o E+ '
| |
| CPM u 3.31E-8 .
| |
| RT-7324-2 1M- !+' CPM C 1.88E-6 i RT-7325-1 O tJ s CPM N 1.49E-5 !
| |
| RT-7325-2 'O 05 mr/hr N na RT-73437-1 3. 0 E + 1 CPM N 2.51E-10 -
| |
| RT-73437-2 .r, o E + / CPM N 2.73E-10 !
| |
| RT-9301 /,o E46 CPM N 1.73E-8 RT-93252-12 4OE-I ar/hr N na ,
| |
| AREA MONITORS i NUMBER RT-93250-1 O./ mr/hr M !
| |
| RT-93250-2 0. I ar/hr N
| |
| .-.. RT-93250-3 f. O ar/hr N '
| |
| RT-93250-4 d. I ar/hr N '
| |
| i-
| |
| ) RT-93250-5 0J mr/hr N l RT-93250-8 01 mr/hr N i
| |
| ! RT-93250-13 0- f .. Jar /hr u ~
| |
| l RT-93250-14 05L mr/hr >/
| |
| l RT-93251-1 OSL mr/hr # ,
| |
| RT-93251-3 FO- me/hr 1/
| |
| L RT-93251-4 0I ar/hr # ;
| |
| l RT-93251-5 O. J mr/hr N RT-93251-6 0.4 mr/hr N L' 0- J N RT-93251-7 mr/hr RT-93251-8 C. ar/hr N .
| |
| RT-93251-9 0.1 ar/hr N RT-93252-1 O. I ar/hr N ,
| |
| RT-93252-2 04 mr/hr' N RT-93252-4 0- f ar/hr N ~
| |
| 4 RT-93252-6 0I ar/hr N RT-93252-7 O-1 mr/hr N RIA-7951 0. N mr/hr N !
| |
| METEOROLOGICAL DATA Wind Speed 3.0 MPH Wind Direction From aIX negrees Plume Deviation / Signa Theta 4.0 negrees >
| |
| .. m Differential Temperature - 0. 3 nog F
| |
| -
| |
| * Value corresponds to the PCRV area channel. Other four "'
| |
| channels are 30 cya.
| |
| :'s
| |
| . - - . . . . . . , . , . . . _ . . . . . , _ - _ . , . _ _ . . _ ~ . _ . . , _ _ , . . . . _ . _ _ _ _ . _ . , _ _ . . _ . _ . _ . _ _ . . _ . _ . . . . , . _ . _ _ _ _ _ - _ _ . _ . . _
| |
| | |
| 9 FOSAVEX 89
| |
| . PAGE 1 SCENARIO TIME: 0030 CLOCK TIME: 0750 DVERALL PARAMETERS Reactor Power Level %.C. 5 Turbine Generator Load ass- MW PRIMARY COOLANT Pressure u.f;L,,, PSIA Temperature .
| |
| Circulator Inlet 906 'F Core Outlet Isro 'F Helium Flow I
| |
| . Circulator A 7.7 X :.0# lb/hr Circulator B 9.9 X :.0 F lb/hr Circulator C b.s X :.0' lb/hr .
| |
| Circulator 0 WX: O' lb/hr TOTAL so9 X :.06 lb/hr Circulator Speed Circulator A nmo RPM Circulator B nr Ao RPM Circulator C 7k % RPM Circulator D 7t&O RPM Moisture (Dew Point)
| |
| ME-9306. e -s1 'F ME-9307 e-xr 'F J-SECONDARY COOLANT '
| |
| Feedwater Flow #
| |
| Loop 1 3.N1 X 10 lb/hr Loop 2 fr.w3 X 10# lb/hr Main Steam Loop 1 Pressure muz PSIG Temperature crP 'F Loop 2 Pressure em PSIG Temperature 9Po 'F Hot Reheat Loop 1 Pressure +e PSIG Temperature se 'F Loop 2 Pressure %i PSIG Temperature loco 'F Cold Reheat .
| |
| Loop 1 Pressure 6u3 PSIG Temperature (,lrl 'F Loop 2 Pressure &v3 PSIG Temperature (## 'F p*%
| |
| 4'
| |
| .-m
| |
| .f .
| |
| | |
| FOSAVEX 89 PAGE 2 SCENARIO TIME: 003O l 0750
| |
| (.) CLOCK TIME: ;
| |
| PRIMARY AUXILIARIES l
| |
| ------------------------ BOA RD I -----------------------
| |
| GAS WASTE System 63 Inlet Pressure B PSIA [
| |
| Vacuum Tank Pressure Q PSIA , i Surge Tank "A" Pressure #1o PSIG Surge Tank "B" Pressure //c PSIG LIQUID WASTE System 62 NORMAL REACTOR PLANT COOLING WATER System 46 i
| |
| Loop 1 P-4601 od ON/0FF ,
| |
| P-46015 o FP ON/0FF Header Inlet Temperature of 'F '
| |
| Barrel and Top Head Outlet Temperature tic 'F Top Penetration Inlet Temperature /07 'F Loop 2
| |
| - P-4602 e4 ON/0FF '
| |
| i ) P-4602S o rF ON/0FF Header Inlet Temperature ioa 'F Barrel and Top Head Outlet Temperature i i r, 'F ,
| |
| Top Penetration Inlet Temperature /06 'F Surge Tank Level " A" 4o INCHES.
| |
| Surge Tank Level "B" 4o INCHES PURIFIED HELIUM System 23 NORMAL LIQUID NITROGEN System 25 NORMAL L
| |
| l
| |
| .)
| |
| l i.
| |
| F f
| |
| p.c
| |
| | |
| l l
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| . 1 FOSAVEX 89 PAGE 3 SCENARIO TIME: oo3o ono d PRIMARY AUX!LIARIES CLOCK TIME:
| |
| . _ ........ ...-........... B0ARD I -0 2 --------------------------
| |
| HELIUM STORAGE System 24 Low Pressure Bottles /6 PSIG j High Pressure Bottles / ovs PSIG EMERGENCY FEEDWATER System 31 Esergency Feed Flow 4 iCo GPM Emergency Bearing Water Header Pressure nWo PSIG HELIUM CIRCULATORS System 21 l CirculatorC-2101(A) ,
| |
| Bearing Water Flow ,
| |
| /M GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature o1 'F '
| |
| Main Drain AP 4. PSID. .
| |
| Steam Exhaust / Steam Water Drain > co PSID :
| |
| Buffer /Mid-Buffer AP ( f.1 PSID Buffer Helium Flow 7. sv ACFM Buffor Helium Return Flow 3. o 7 ACFM Circulator C-2102 (B) .
| |
| Bearing Water Flow /46 GPM o
| |
| s)
| |
| Emergency Bearing Water Flow Bearing Water Inlet Temperature ea GPM
| |
| 'F '
| |
| Main Drain AP 7 PSID Steam Exhaust / Steam Water Drain >so PSID Buffer /Mid-Buffer AP 26.3 PSID Buffer Helium Flow 7.55 ACFM -
| |
| Buffer Helium Return Flow 3 73 ACFM CirculatorC-2103(C)
| |
| Bearing Water Flow /95 GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 9g 'F -
| |
| Main Drain AP 7 PSID -
| |
| Steam Exhaust / Steam Water Drain > So PSID Buftar/Mid-Buffer AP J f.1 PSID Buffer Helium Flow B . no ACFM Buffer Helium Return Flow 3 .s ACFM Circulator C-2104 (D)
| |
| Bearing Water Flow /?R GPM Emergency Bearing Water Flow o GPM 9E Bearing Water Inlet Temperature *F Main Drain AP G . PSID Stea.n Exhaust / Steam Water Drain >ro PSIO Buffer /Mid-Buffer AP 2 f,c PSID Buffer Helium Flow 7. IV ACFM Buffer Helium Return Flow 5.4V ACFM A
| |
| + .everview***e4 +ee gocedge, u w , . p
| |
| - . . - . . m . - - _ _ - - , , ,m ._, - . , . . _ . . ~ . - . . , ... . - - _ .r , , . _ . , ~ . . . . _ . -v., . . _ - -
| |
| | |
| }
| |
| t FOSAVEX ~89
| |
| ^
| |
| PAGE 4 i i
| |
| . - SCENARIO TIME: co30
| |
| '\
| |
| CLOCK TIME: o430 t
| |
| PRIMARY aux!LIARIES ,
| |
| ..............................B0ARD I-03------------------------------ i REACTOR CONTROL Systes 12 l Regulating Rod (1) Position //J,7 INCHES ;
| |
| Runback Group Positions (All) # M //f' INCHES i
| |
| Shim Rod Position @ INCHES i Flux Controller Position C 0/0, +/- ,
| |
| Reserve Shutdown Material be. ./ STATUS q 3 i
| |
| S 4
| |
| I e
| |
| e S
| |
| I f
| |
| 4 l ..ne.
| |
| r.e
| |
| ~~
| |
| / :...
| |
| - . - - - .-_.:= . _ , _ . . . - - -
| |
| | |
| FOSAVEX 89 PAGE 5 SCENARIO TIME: 2c30 I' '
| |
| CLOCK TIME: O'71 0 PRIMARY AUXILIARIES
| |
| ------------------------------ BOA R D I - 0 4 - ------ ---------------------
| |
| REGION OUTLET TEMPERATURES (De9 F)
| |
| , 1. /co2 11. Ntr 21. /993 31. / tr3 .
| |
| : 2. /cM2 12. Ar5 22. MM 32.- /v/m
| |
| : 3. w90 13. not 23. /300 33. /.sta e 4 /WO 14. M/,V 24. /&&9 34. /src
| |
| : 5. A90 15. ( /vr/ 25. /9r 35. m
| |
| : 6. /r/90 16. >veIr 26. /m 36. /990
| |
| : 7. nn 17. 1996 21. 199/ 37. s.:w .
| |
| . 8. /MO 18. n#v 28. /ve3
| |
| : 9. /YH' 19. ntK 29. /4&V
| |
| : 10. N#/ -20. as 30. /em REGION ORIFICE VALVE POSITION (5 open)
| |
| : 1. Ar 11. / r. v 21. /7. 2 31. F9
| |
| : 2. B.y 12. /t.C 22. +.1 32. sc. .;
| |
| * ~ '
| |
| 3, se.o 13. 99 6 23, 6.r 33. n.9
| |
| : 4. 33 3 14. 19.9 24. F. 6 34, 2n.o
| |
| : 5. ;;.c/ 1s. is.o 25. /3.y 35. is, i 4.9
| |
| : 6. n.ro 16. m. 7 26. . 36. n,1
| |
| : 7. /2.V 17. .n . / 27. n.1 37. n.c
| |
| : 8. 23 6 18. .w l 28. ab. 9
| |
| : 9. as.3 19. //. o 29. /t.&
| |
| : 10. Ja.3 20. s. 9 30. //. G d
| |
| P
| |
| - .. ~2 l
| |
| l-I, -
| |
| .J - 9 r +- e.,(- $ ,..ev- ~ , - . - .- - - . . . . - - - - , .-%-w+ -- -.-e.._ -
| |
| | |
| i
| |
| : e. *- l 1
| |
| J FDSAVEX 89 PAGE 6 !
| |
| )
| |
| SCENARIO TIME: co20 i
| |
| . l
| |
| ( CLOCK TIME: OMO j PRIMARY AUXILIARIES
| |
| - = - - - - - - - - - - -
| |
| -BOARD I HYDRAULIC DIL System 91 NORMAL STEAM WATER DUMP TANK System 22 Loop Selected / 1 or 2 -
| |
| Pressure o PSIG .
| |
| Temperature A3 'F !
| |
| Level g M INCHES !
| |
| HELIUM CIRCULATORS System 21 l CirculatorC-2101(A) (
| |
| Rotor Speed % 96, RPM Helium Flow (Low Range) c . +r,9 PSID !
| |
| Helium Flow (High Rtnge) Frfr %
| |
| Compressor AP 45 PSID )
| |
| Steam Supply Pressure M s" PSIA .
| |
| +t9 Steam Exhaust Pressure PSIA Steam Turbine Pressum Ratio MO l
| |
| % CirculatorC-2102(B) t i Rotor Speed Mrg/ RPM !
| |
| / esos
| |
| ~
| |
| I Helium Flow (Low Range) PSID Helium Flow (High Range) rc9 % -
| |
| ! Compressor AP b. 32. PSID ,
| |
| Steam Supply Pressure t,sr PSIA Stea's Exhaust Pressure ty9 PSIA j i.
| |
| Steam Turbine Pressure Ratio A19 l CirculatorC-2103(C) ,
| |
| Rotor Speed e19(. RPM 1 Helium Flow (Low Range) 6.sca PSID i Helium Flow (High Range) D % '
| |
| Compressor AP 9.10 PSID' ,
| |
| Steam Supply Pressure <,sS PSIA l Steam Exhaust Pressure m3 PSIA Steam Turbine Pressure Ratio m ,
| |
| Circulator C-2104 (D)
| |
| Rotor Speed hkbo RPM Helium Flow (Low Range) e,so3 P$ID !
| |
| Helium Flow (High Range) W % )
| |
| Compressor AP 6.3r PSID '
| |
| Steam Supply P m ssure tsr PSIA !
| |
| Steam Exhaust Pressure 9 73 PSIA ;
| |
| ,, , , , Steam Turbine Pressure Ratio MP s MAIN TURBINE System 51 NORMAL ._
| |
| l l
| |
| "' n l j l .- .
| |
| | |
| FOSAVEX 89 .
| |
| PAGE 7 l t
| |
| SCENARIO TIME: cc30 i
| |
| ;, CLOCK TIME: 0530 f i
| |
| l PRIMARY AUXILIARIES
| |
| -------- ---------------------- 80A RD I -0 6 ----------------------------
| |
| FEEDWATER System 31 Emergency Feedwater Pressure 1 90 PSIG Boiler Feed Pumps '
| |
| Feed Pump A- -
| |
| Speed 4fM' RPM Flow S.2 X 105 lb/hr Feed Pump B ;
| |
| CN Status ON/0FF Flow t,5 X 10 s ib/hr :
| |
| Feed Pump C Speed woo RPM Flow 3.', X 103 lb/hr CONDENSATE System 31 NORMAL MISCELLANEOUS !
| |
| Bypass Flash Tank Pressure MJ PSIG Hot Reheat Bypass Valve Positions NORMAL p-PLANT ELECTRICAL System 92 ~
| |
| Essential Loop 1 Lpop 2 4160 VAC 480 VAC M h4 i 1 120 VAC 1 120 VDC Emergency Otesel Generator 1 ACM Diesel Generator t >
| |
| Non-Essential Switchyard Net *u3 4160 KV l 480 VAC /
| |
| 120 VAC i 120 VDC s MAIN TOWER System 41 NORMAL SERVICE WATER TOWER System 42 NORMAL i
| |
| FIRE WATER System 45 NORMAL INSTRUMENT AIR System 82 NORMAL
| |
| )
| |
| SERVICE AIR System 82 NORMAL 1
| |
| p __ .-
| |
| O a dys=ena se
| |
| .,.~..._..__,__,....,_.,.-m-,.
| |
| | |
| f)
| |
| /' 1 FOSAVEX 89 PAGE 8 SCENARIO TIME: OC30 CLOCK TIME: Chr3 '
| |
| PRIMARY AUXILIARIES
| |
| ------------------------------BOARO I-10------------------------------
| |
| PLANT PROTECTIVE SYSTEM ;
| |
| REACTOR BUILDING TEMPERATURE - HIGH Bay 100 8 'F Bay 200 m 'F -
| |
| Bay 300 M *F REHEAT ACTIVITY MONITORS Loop 1 .
| |
| Bay 1200 4e ar/hr Bay 1100 e/ mr/hr Bay 1000 ce mr/hr Loop 2 Bay 600 </ mr/hr Bay 500 <r er/hr <
| |
| Bay 400 /, r ar/hr MOISTURE MONITORS Dew Point ,
| |
| Loop 1 <-59 *F Loop 2 <-sr 'F MAIN STEAM LOOP AP . .# PSIO BUFFER SEAL MALFUNCTION /0 .20 F
| |
| es r..w
| |
| ,a
| |
| ,/
| |
| .. _.._.a._.__ , , , _ , . _ . . _ . . _ . . .
| |
| | |
| l FOSAVEX 99 PAGE 9 SCENARIO TIME: co.58
| |
| .p ,
| |
| CLOCK TIME: oMD PRIMARY AUXILIARIES j
| |
| . . . . . .... .... . .. .. ... . . . ... . . 80A R0 ' I ---------------------------- (
| |
| PENETRATION INTERSPACE AP r PSID ;
| |
| REACTOR BUILDING SUMP OISCHARGE FLOW 4/o GPM HELIUM CIRCUL.ATORS Systen 21 ,
| |
| Guard Helius Flow o ib/hr-Searing Assembly Temperature CirculatorC-2101(A)
| |
| Upper Labyrinth no-#o 'F Upper Journal er-/oo 'F Main Bearing Housing e.r- so 'F SteamNater Drain Area x- av 'F Lower Journal or-no 'F CirculatorC-2102(B)
| |
| Upper Labyrinth no-/vo 'F Upper Journal e/m 'F Main Bearing Housing es-n.c 'F SteamNater Drain Area er.foo 'F 1-Lower Journal m/m 'F CirculatorC-2103(C)
| |
| Upper Labyrinth ' Mo No 'F Upper Journal 05vn 'F Main Bearing Housing Oryx 'F -
| |
| Steam Nater Drain Area r2 r- c r 'F-Lower Journal ervor> 'F CirculatorC-2104(D)
| |
| Upper Labyrinth no-av 'F Upper Journal pr-ue 'F Main Bearing Housing wem 'F SteamNater Drain Area oc eco *F Lower Journal pr-sv 'F a .
| |
| v
| |
| ^\
| |
| )\ :^
| |
| . . , c~),
| |
| N __ . , . .. 2821
| |
| | |
| t i
| |
| I F0SAVEX /19 -
| |
| PAGE 10 .
| |
| SCENARIO TIME: coJLO ,
| |
| OMO CLOCK TIME: i
| |
| : s. ' - i PRIMARY AUXILIARIES ,
| |
| ..............................B0ARD I-15------------------------------
| |
| r REACTOR BUILDING STACK FLOW so KCFM ;
| |
| REACTOR BUILDING AMBIENT AP 0.2 Inches H2O
| |
| :P CONTROL ROOM TEMPERATURE . /A 'F i
| |
| t 9
| |
| i t .
| |
| l ....... ... ................... 80ARD I - 7 50 7 X ---------- J ------------ :
| |
| 480V ROOM TEMPERATURE 75 'F 1
| |
| l l .
| |
| L ,
| |
| t I-i 1
| |
| l v
| |
| I i -
| |
| ":g 1
| |
| ~
| |
| I' . . .
| |
| zy ,
| |
| . . .- ~ . ._._
| |
| | |
| TOSAYT.1 89 l RADIATION NOMITORS SCENARIO TIME: 0046
| |
| ('
| |
| CLOCK TIME: 0745 NUMBER VALUE ALARMING SENSITIVITT !
| |
| (T/N)
| |
| * RT-4801 /o II4 I CFM' A/ 2,8E-10 RT-4802 /oJ i* J M // .c 1.2E-10 RT-4803 Lo E4 i CFM >> 2.5E-6 4 RT-8212 Lo; i+f CPM >> 2.2E-8 i RT-8213 Lo L* NM d > 2.2E-8 )
| |
| RT-7312 Lo t+> CFB* s / 2.3E-6
| |
| * RT-7324-1 Lo 1+ f CFM N 3.31E-8 I RT-7324-2 15 +f SM di 1.88E-8 I RT-7325-1 00 5 CFM N 1.49E-5 l RT-7325-2 O 05 mr/hr N na l RT-73437-1 70 1+ '
| |
| CFM A/ 2.51E-10 !
| |
| RT-73437-2 10 l+> CFM A1 2.73E-10 .i RT-9301 /o J+G CFM N 1.73E-8 :
| |
| RT-93252-12 4. O E - I ar/hr N na l AREA MONITORS j NUMBER j RT-93250-1 0 ar/hr M ET-93250-2 0.'lI ar/hr N !
| |
| RT-93250-3 f0 nr/hr N i
| |
| .. RT-93250-4 0. f ar/hr J/
| |
| - RT-93250-5 0. '
| |
| ar/hr //
| |
| RT-93250-8 0J mr/hr N ET-93250-13 01 me/hr J / -
| |
| RT-93250-14 O5L mr/hr > /
| |
| RT-93251-1 OSL ar/hr J/ I RT-93251-3 F O. ar/hr //
| |
| RT-93251-4 0- ar/hr. J/ _ j RT-93251-5 O.
| |
| ar/hr N i RT-93251-6 0.' ar/hr A/ l RT-93251-7 oL mr/hr N
| |
| . RT-93251-8 O. ar/hr N RT-93251-9 0l ar/hr N RT-93252-1 h.I ar/hr A/
| |
| RT-93252-2 0' ar/hr N .
| |
| RT-93252-4 C. L ar/hr N l RT-93252-6 0I ar/hr N -
| |
| )
| |
| RT-93252-7 O- ar/hr N RIA-7951 0. J G mr/hr N METEOROLOGICAL DATA Wind Speed 3, 0 MPH Wind Direction From AIX- Begrees Plume Deviation / Sigma Theta (. O negrees .
| |
| Differential Temperature - 0. 3 Des F
| |
| ,q d
| |
| * Value corresponds to the PCRV area channel.
| |
| channels are 30 cys.
| |
| '~
| |
| Other four
| |
| :s i
| |
| _i u.. _ _ . . . _ . . . . . . _ , _ . _ . _ . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ , _ _ _ _ _ _ _ _
| |
| __ __l
| |
| | |
| . g FOSAVEX 89 j PAGE 1 i j
| |
| SCENARIO TIME: 0095 ;
| |
| CLOCK TIME: 074r OVERALL PARAMETERS Reactor Power Level O 5 Turbine Generator Load O MW PRIMARY COOLANT ;
| |
| Pressure 5f5 t PSIA :'
| |
| Temperature '
| |
| Circulator Inlet 545 'F !
| |
| Core Outlet 40 'F :
| |
| Helium Flow Circulator A i M X :/ lb/hr Circulator B /. 7 X )' m lb/hr Circulator C 5K U)* lb/hr -
| |
| Circulator D 5X:P lb/hr ;
| |
| TOTAL g3X:,0* lb/hr i Circulator Speed :
| |
| Circulator A soo RPM Circulater B sor; RPM !
| |
| Circulator C a / o-o RPM ,
| |
| Circulator D e/ / o RPM t Hoisture (Dew Point) .
| |
| ME-9306 o Rse d klal,*F t ME-9307 eFu ,.4 L a(*F t i . i SECONDARY COOLANT , .l Feedwater Flow Loop 1 0 X 10 lb/hr Loop 2 3h5X 105 lb/hr -
| |
| Main Steam Loop 1 Pressure Jr# PCIG Temperature +/o 'F e ss Loop 2 Pressure PSIG
| |
| !' Temperature ,
| |
| soe9 'F Hot Reheat Loop 1 Pressure So PSIG -
| |
| Temperature /mo *F Loop 2 Pressure JG6 PSIG Temperature r 4% 'F -
| |
| Cold Reheat .
| |
| Loop 1 Pressure Jeo PSIG Temperature 4st / 'F Loop 2 Pressure .c PSIG Temperature vst *F
| |
| ,sb i ~
| |
| ^ ' ~ - ~~ ~
| |
| av
| |
| ... ._ _ _ _ . . _ . . . _ . _ _ . _ . . _ _ . . ~ __._
| |
| | |
| FOSAVEX 89 r- PAGE 2 -
| |
| SCENARIO TIME: 00V( :
| |
| /
| |
| CLOCK TIME: oW6 PRIMARY AUXILIARIES l
| |
| .._........... .........-..B0ARD I ------ ,
| |
| GAS WASTE Sysv.es 63 i Inlet Pressure B PS A Vacuum Tank Pressure B PSIA , :
| |
| Surge Tank "A" Pressure v/0 PSIG t
| |
| Surge Tank "B" Pressure irr PSIG LIQUID WASTE System 62 NORMAL REACTOR PLANT COOLING WATER System 46 ,
| |
| Loop I P-4601 od ON/0FF i P-46015 0FF ON/0FF '
| |
| Header Inlet Temperature aos 'F Barrel and Top Head Outlet Temperature //5 *F Top Penetration Inlet Temperature r e7 'F Loop 2 s
| |
| P-4602 e4 ON/0FF '
| |
| o FF
| |
| \^' ") P-46025 Header Inlet Temperature i02~ 'F ON/0FF Barrel and Top Head Outlet Temperature / / 4, 'F Top Penetration Inlet Temperature ton 'F Surge Tank Level "A'I vo INCHES- l Surge Tank Level "B" Vo INCHES :
| |
| PURIFIED HELIUM System 23 NORMAL i
| |
| LIQUID NITROGEN System 25 NORMAL 4
| |
| *4, 9
| |
| T
| |
| * ,. - _ _ . . . . ~ . . _ _ _ . . . ..
| |
| l j
| |
| | |
| i
| |
| ~
| |
| FOSAVEX 89 PAGE 3 SCENARIO TIME: ocW CLDCK TIME: Oks-SIMARYAUXILIARIES ,
| |
| ..- .. _ . . _ _ . ...BDARD I -D 2 ----------------------------- l HELIUM STDRAGE System 24 I
| |
| Low P mssun Bottles /# PSIG High Pressure Bottles / ovr PSIG ]
| |
| EMERGENCY FEEDWATER System 31 Emergency Feed Flow 4 150 GPM .
| |
| Emergency Bearing Water Header Pressure s/Ar PSIG l HELIUM CIRCULATDRS System 21 ;
| |
| CirculatorC-2101(A)
| |
| Bearing Water Flow #4/ GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 9a 'F Main Drain AP c. PSID Steam Exhaust / Steam Water Drain ~
| |
| > co PSID !
| |
| Buffer /Mid-Buffor AP /f. 3 PSID Buffer Helium Flow 7./V ACFM Buffer Helium Return Flow 3.e7 ACFM Circulator C-2I02 (B)
| |
| Bearing Water Flow && GPM
| |
| ) Emergency Bearing Water Flow a GPM
| |
| ~
| |
| Bearing Water Inlet Temperature 9a 'F Main Drain AP . 7 PSID - .
| |
| Steam Exhaust / Steam Water Drain '> 50 PSID
| |
| . Buffer /Mid-Buffer AP x .3 PSID '
| |
| Buffer Helium Flow 7.s3 ACFM ,
| |
| Buffer Helium Return Flow 3.7 3 ACFM ;
| |
| CirculatorC-2103(C) ,
| |
| Bearing Water Flow /# 5 GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet T,emperature eE 'F Main Drain AP 7 PSID Steam Exhaust / Steam Water Drain >ro PSID Buffer /Mid-Buffer AP 3 B. T PSID Buffer Helium Flow R.56 ACFM Buffer Helium Return Flow J.5/ ACFM Circulator C-2104 (D) .
| |
| Bearing Water Flow /7B GPM Emergency Bearing Water Flow e GPM .
| |
| Bearing Water Inlet Temperature fR 'F '
| |
| Main Drain AP G, ~ PSID .
| |
| Steam Exhaust / Steam Water Drain >E0 PSID Buffer /Mid-Buffer AP s.q . i PSID Buffer Helium Flow 7. I V ACFM Buffer Helium Return Flow 3.W ACFM
| |
| ,9 4
| |
| *M-
| |
| | |
| FOSAVEX -89 PAGE 4 .
| |
| v:
| |
| lf SCENARIO TIME: 00%~
| |
| n' s
| |
| n CLOCK TIME: OMS-PRIMARY AUYILIARIES
| |
| -------- ---------------------- BO A RD I - 0 3 ~ ---------------------------
| |
| REACTOR CONTROL System 12 RegulatingRod(1) Position O INCHES Runba.k Group Positions (All) O INCHES 4
| |
| Shim Rod Position O INCHES
| |
| ~
| |
| Flux controller Fosition N/4 0/0,+/-
| |
| Reserve Shutdown Material N d' STATUS i
| |
| 9 8
| |
| i:
| |
| . m. .
| |
| ,e.
| |
| s-
| |
| | |
| [ .
| |
| 'l F05AVEX 89 ,
| |
| PAGE 5 SCENARIO TIME: myS 4 CLOCK TIME: 0>9T 1
| |
| PRIMARY AUXILIARIES J
| |
| ------------------------------80ARD I ----------------------------
| |
| REGION OUTLET TEMPERATURES (Deg F)
| |
| MW 11. AfU 21. J?/99 31. /JL,E
| |
| : 1. .' '1
| |
| : 2. /So9' 12. /WY 22. /29 V_ 32. j v>W
| |
| : 3. / Soy 13. /r/o 23. /3, T 33. , ew/q'
| |
| : 4. /S"go 14. /v96 24. ,,,4t L 34. (
| |
| : 5. /sv'1 15. /%3 25. /Vcz) 35. / erb
| |
| : 6. /roS 16. /990 26. /36o 36. /vsk"
| |
| : 7. /w/ 17. /raf 27. MF7 37. / air .
| |
| : 8. /r/92 18.- MG 28. / 4</ c
| |
| '9. /Soo 19. N/0 29. /rA C
| |
| : 10. / Y3 % 20. /ypy 30. /cyg j REGION ORIFICE VALVE POSITION (% open)
| |
| : 1. //r 11. /s.V 21. / 7.# 31. 1P. 9 -)
| |
| : 2. /1 7 12. HT 22. 99 2 _ 32. /4,.2 .
| |
| ~. .3. no ' 13. 99.6 23. 4.r 33. AJ_ !
| |
| ; 4. 33 3 14. /9.9 _ 24. 9.G 34. n.o l
| |
| : 5. nn 15. m.o 25. /3. V 35. // / l 6.- /3 .~4 16. /4, . 9 26, 6.9 . 36. /0. 7 -
| |
| i
| |
| : 7. zo. T 17. to./ - 27. /J. 7 37. /7. G i
| |
| : 8. cv3.G 18. w/ 28. J. ?
| |
| : 9. m. 3 19. //. 0 29. E ,_ l 1
| |
| : 10. 12.3 20. 5.9 30. //. 0 1.
| |
| e
| |
| ',. ~
| |
| .e ij v
| |
| ,. i 3
| |
| i j
| |
| .< f J
| |
| ./
| |
| l-I ify
| |
| . - _ ~ . . -
| |
| g7 y q -- vip--- E .-3 ,
| |
| e-,y e ,aw.ep , e .,,-,ww-w9m -- _ _ _ . -s _ e -4e-,w ,%w .s.-- ,W
| |
| | |
| . ~
| |
| : p W FOSAVEX 89 PAGE 6 SCENARIO TIME: mes CLDCK TIME: o?c/r PRIMARY AUXILIARIES BOARD I-D5 -
| |
| HYDRAULIC DIL System 91 NORMAL i
| |
| STEAM WATER DUMP TANK System 22 Loop: Selected / I or 2 -
| |
| Pressure av PSIG Temperature wo 'F Level- ,.
| |
| ir INCHES HELIUM CIRCULATORS System 21 Circulator C-2101 (A)
| |
| Rotor Speed este RPM Helium Flow (Low Range) o.o/PSID Helium Flow (High Range) 0 %
| |
| Compressor AP o PSID i Steam Supply Pressure am PSIA Steam Exhaust Pressure -V60 PSIA )
| |
| Steam Turbine Pressure Ratio /. o I
| |
| ." .S Circulator C-2102 (B)
| |
| 'y Rotor Speed m RPM Helium Flow (Low Range) o.o/ PSID
| |
| ~
| |
| Helium Flow (High Range) d %
| |
| Compressor AP O PSID Steam Supply Pressure JI/o PSIA ;
| |
| Steam Exhaust Pressure so PSIA Steam Turbine Pressure Ratio /. o I CirculatorC-2103(C)
| |
| Rotor Speed J/oo RPM Helium Flow (Low Range) 0. 5 PSID Helium Flow (High Range) 60 %
| |
| Compressor AP M3/ PSID Steam Supply Pressure .f/ s PSIA Steam Exhaust Pressure se PSIA Steam Turbine Pressure Ratio /. /
| |
| Circulator C-2104 (D)
| |
| Rotor Speed ,a//o RPM i Helium Flow (Low Range) o.s- PSID Helium Flow (High Range) /z %
| |
| Compressor AP .g .1/ PSID Steam Supply Pressure J/s PSIA Steam Exhaust Pressure my PSIA
| |
| . Steam Turbine Pressure Ratio /. /
| |
| '- d MAIN TURBINE System 51 NORMAL e
| |
| | |
| I .,
| |
| -i FOSAVEX 89 PAGE 7 /
| |
| SCENARIO TIME: t%>+'I
| |
| '! g CLOCK TIME: oWf PRIMARY AUXILIARIES
| |
| .............................-B0ARD I-06------------------------------
| |
| FEEDWATER System 31 4WO Emergency Feedwater Pressure PSIG Boiler Feed Pumps Feed Pump A .
| |
| Speed O RPM 7
| |
| Flow N/4 X 10 lb/hr i .
| |
| Feed Pump B Status co' ON/0FF
| |
| . Flow S W X 105 lb/hr .
| |
| Feed Pump C Speed , O RPM Flow N a X 10 .lb/hr CONDENSATE System 31- NORMAL MISCELLANEOUS Bypass Flash Tank P essure 13cd .PSIG .
| |
| Not Reheat Bypass Valve Positions NORMAL
| |
| , 3
| |
| ':) Syrtem 92 PLANT ELECTRICAL-Loop 2 Essential- Loop 1 4160 VAC g g N ef 480 VAC .
| |
| 120 VAC 120 VDC Emergency Diesel Generator ACM Diesel Generator v v L -Non-Essential
| |
| ! Switchyard '/d <,.ul 4160 KV L 480 VAC 120 VAC i L
| |
| l 120 VDC +
| |
| MAIN TOWER System 41 NORMAL SERVICE WATER TOWER System 42 NORMAL 1'
| |
| FIRE WATER System 45 NORMAL L
| |
| INSTRUMENT AIR System 82 NORMAL u
| |
| SERVICE AIR System 82 NORMAL
| |
| . ... a
| |
| < % h]
| |
| : 1. . . _ _ _ _ . . - . .
| |
| | |
| . _ _. _ _ _ . . ._~ _
| |
| :<- 4 :.
| |
| ''' F02AVEX 89
| |
| - PAGE 8-
| |
| . , SCENARIO TIME: novr ;
| |
| CLOCK TIME: o><g PRIMARY AUXILIARIES
| |
| ..............................B0ARD I-10------------------------------
| |
| PLANT PROTECTIVE SYSTEM ,
| |
| REACTOR BUILDING TEMPERATURE - HIGH-Bay-100 /OP 'F Bay 200 /oA 'F -
| |
| Bay 300 -
| |
| /ar 'F REHEAT ACTIVITY MONITORS Loop 1 _
| |
| Bay.1200 e/ mr/hr Bay 1100 </ mr/hr -
| |
| Bay 1000 << mr/hr Loop 2 Bay 600 </ mr/hr ,
| |
| Bay 500 e/ mr/hr r Bay 400 AJ mr/hr MOISTURE MONITORS Dew Point T Loop 1- o N /e/a / "F ,
| |
| x] Loop 2 />d l.b / *F.
| |
| MAIN STEAM LOOP AP ,J.LRF PSID-BUFFER SEAL MALFUNCTION /r .70 7 I
| |
| l
| |
| (
| |
| - ~ - -
| |
| _,p me,_
| |
| .. ) :r~
| |
| iipdi
| |
| ' " ~ - * ' " * ' ' * *4 g .p.. - - % . _ ._ _
| |
| . - . - .,.....,.,.v. .
| |
| | |
| r i
| |
| l E
| |
| F0.AVEX 89 ;
| |
| PAGE 9 1 SCENARIO TIME: awr .
| |
| j
| |
| ,.j.. .
| |
| CLOCK TIME: C'/9.7
| |
| . PRIMARY AUXILIARIES
| |
| ------------------------------80ARD I-13------------------------------ -
| |
| PENETRATION INTERSPACE AP '7 PSID REACTOR BUILDING SUMP DISCHARGE FLOW w/O GPM
| |
| ' HELIUM CIRCULATORS System 21 Guard Helium Flow- O lb/hr a Bearing'AssemblyTempNature Circulator C-2101 (A)
| |
| -Upper Labyrinth /30-/70 *F .
| |
| Upper Journal ?r-/m *F
| |
| -Main Bearing Housing r-er; 'F Steam / Water Drain Area w-m 'F Lower Journal e -en; 'F CirculatorC-2102(B)
| |
| Upper Labyrinth /lo-/Vo 'F
| |
| 'F Upper Journal n-/m Main Bearing Housing 97 /g0 'F Steam / Water Drain Area w./00 'F
| |
| )
| |
| Lower Journal >r-/m 'F -
| |
| CirculatorC-2103(C) .
| |
| Upper Labyrinth /30-/v0 'F Upper Journal , ervco 'F Main Bearing Housing or-/m 'F- ,
| |
| Steam / Water Drain Area or-m 'F.
| |
| Lower Journal- 9r-/cc 'F CirculatorC-2104(D)'
| |
| Upper Labyrinth /so-evo *F Upper Journal pr-rav 'F Main Bearing Housing x-/ceu *F-Steam / Water Drain Area n-mo *F Lower Journal pr-/or; 'F
| |
| - l i!
| |
| .N
| |
| ~ c'% h , _, . _ . u ..
| |
| - - . . , . . , . . . ....,-........~....-.....~;i-
| |
| | |
| 1
| |
| -FOSAVEX 89
| |
| . PAGE 10~
| |
| l . SCENARIO TIME: M r
| |
| h; CLOCK TIME: CW'r PRIMARY AUXILIARIES
| |
| ............................--B0ARD I-15------------------------------
| |
| -REACTOR BUILDING STACK FLOW JO KCFM
| |
| -REACTOR BUILDING AMBIENT AP C.7 Inches H2O CONTROL R00M TEMPERATURE 4f 'F 3,
| |
| ..........._ ...............--80ARO I-7507X---------------------------
| |
| '480V ROOM TEMPERATURE 75- 'F
| |
| .,3,
| |
| \; .) . . -
| |
| . . . .=;= ?-
| |
| . .._ . _ . . . . . . . - - . . . ~ ~ ~ . . . . . . ~ . - . . . . . - - . - - - - - - . =
| |
| . . . ..,.t.,..m.
| |
| | |
| FOSAVEI 89 RADIATION MONITORS SCENARIO TIME. ~O/00 OE00 k 7v
| |
| . CLOCK TIME:
| |
| NUMBER VALUE ALARMING SEMSITIVITT (T/N)
| |
| RT-4801 /. o E 4 I CPM N 2.8E-10 RT-4802 LoE+/ CPM- N 1.2E-10:
| |
| RT-4803 A o K+ J CPM N 2.5E-8
| |
| -RT-8212 A0E+ f CPM Al 2.2E RT-8213- L o 8L * '
| |
| CPM N 2.2E-8 RT-7312 LoE+ J CPM
| |
| * s /- 2.3E-8 .
| |
| . RT-7324-1 K.1 E+ & CPM P 3.315-8 RT-7324-2 T. 1 E+ 2. CPM 1.88E-8 RT-7325-1 Oos CPM / / 1.49E-5 RT-7325-2 O 05 mr/hr N na 3.0 E4/ CPM N 2.51E-10 RT-73437-1 RT-73437-2 F. 0 E + f CPM N 2.73E RT-9301 /, o E + (, CPM N 1.73E-8
| |
| -RT-93252-12' 4. O E - I ar/hr // na AREA MONITORS NUMBER RT-93250-1 dM ar/hr M RT-93250-2 0. / mr/hr N
| |
| , RT-93250-3 f>O mr/hr N RT-93250-4 O. I mr/hr //
| |
| O ) 01
| |
| ~
| |
| RT-93250-5 me/hr- >/
| |
| RT-93250 O.1 mr/hr N '
| |
| ET-93250 13- 0I ar/hr #
| |
| RT-93250-14 05L- ar/hr //
| |
| RT-93251 OSL ar/hr J/
| |
| RT-93251-3 FC< me/hr >/
| |
| .RT-93251-4 0- ar/br N RT-93251-5 O. I ar/hr N RT-93251 0.' ar/br N RT-93251-7 0- '
| |
| ar/hr N
| |
| .. RT-93251-8 0. I ar/hr N RT-93251-9 0.3 mr/hr N RT-93252-1 0. ar/hr N RT-93252-2 0- mr/hr N RT-93252-4. O. f ar/hr N ^
| |
| ET-93252-6 0.I ar/hr N RT-93252-7 O-: mr/hr N RIA-7951 0. 0G ar/hr N-METEOROLOGICAL DATA Wind Speed 3.0 MPH Wind Direction From %15 negrees Plume Deviation / Sigma Theta 60 negrees m Differential Temperature -~ O 'S nog F
| |
| )
| |
| >
| |
| * Value corresponds to the PCRV area channel. Other four ~
| |
| channels are 30 cym.
| |
| .:y 4 't1 O Y f- y $ ''N.,4 N JO
| |
| | |
| r e
| |
| I.} '
| |
| FOSAVEX 89
| |
| [ SCENARIO TIME: C/co PAGE 1. ,
| |
| CLOCK TIME: o1Foo OVERALL PARAMETERS Reactor Power-Level o %
| |
| ' Turbine Generator Load O MW PRIMARY COOLANT ,
| |
| Pressure SAS PSIA l
| |
| -Temperature. .
| |
| Circulator Inlet -rbt - .F Core Outlet /390 'F .
| |
| Helium Flow Circulator A g C X 10 lb/hr' Circulator B oX:.0 lb/hr Circulator C 4X:.05 lb/hr .
| |
| Circulator 0 (, X :.07 _lb/hr TOTAL /,Jt X :.06 lb/hr Circulator Speed Circulator A am r RPM !
| |
| Circulator B /90- RPM Circulator C 6/00 RPM s
| |
| f .Circulater D avro RPM L Moisture (Dewpoint)
| |
| ME-9306 oA A LA/ *F 'F.
| |
| c .
| |
| . ME-9307 o#cus, d< /
| |
| .( 5
| |
| [
| |
| 1 SECONDARY COOLANT Feedwater Flow-Loop 1 0 X 10 lb/hr Loop 2 SM X 105 lb/hr Main Steam Loop 1 Pressure c3 PSIG l
| |
| Temperature -r9s 'F Loop 2 Pressure as93 .PSIG Temperature ass 'F Hot Reheat Loop.1 Pressure a PSIG
| |
| . Temperature .asr 'F Loop 2 Pressure- cao 'PSIG Temperature easr *F Cold Reheat -
| |
| Loop 1 Pressure so PSIG l~ Temperature arr 'F l- Loop 2 Pressure en PSIG Temperature ssy *F l
| |
| d
| |
| .1 "*;
| |
| | |
| c FOSAVEX 89
| |
| ~
| |
| i PAGE 2 ,
| |
| ; SCENARIO TIME: o/ae
| |
| $(?\ CLOCK TIME: cfoo PRIMARY AUXILIARIES
| |
| - ............ .. ........B0ARD I-01------------------------------
| |
| GAS WASTE System 63 o, .
| |
| Inlet Pressure B PSIA
| |
| .Vacuus Tank Pressure a . PSIA .
| |
| Surge Tank "A" Pressure vio PSIG F
| |
| " / /f .PSIG Surge Tank "B" Pressure ,
| |
| LIQUID WASTE -System 62 NORMAL REACTOR PLANT COOLING WATER System 46'
| |
| ?
| |
| Loop 1 .
| |
| P-4601 op ON/0FF '
| |
| P-4601S oFF ON/0FF-Header Inlet Temperature ior 'F ,
| |
| Barrel-and Top Head Outlet. Temperature //r 'F :i
| |
| : j. Top Penetration Inlet. Temperature /o 7 'F l
| |
| [
| |
| t Loop 2
| |
| . P-4602 c e> ON/0FF
| |
| -.' oFF ON/0FF
| |
| - .P-4602S
| |
| '" Header Inlet Temperature /or 'F '
| |
| L Barrel and Top Head Outlet Temperature // 7 *F Top Penetration Inlet Temperature fog *F l Surge Tank Level "A" 44o INCHES':
| |
| L Surge Tank Level "B" W INCHES L PURIFIED HELIUM System 23 NORMAL ,
| |
| LIQUID NITROGEN System 25 NORMAL o
| |
| 4 e
| |
| ff L
| |
| l
| |
| \.
| |
| l
| |
| .m - . . _ - _. _ . _ ~ _- . . _ . _ _ _ _ _ . . _ _ _ _ _ . -
| |
| | |
| FOSAVEX 89 PAGE 3 SCENARID TIME: o/ce mN x/
| |
| CLOCK TIME:- ofrcc
| |
| . PRIMARY AUXILIARIES .
| |
| . . .. .. . .. . .. . . .. - . . ... ----- B0AR D I - 0 2 ------ ---------------- ~ ~ ~
| |
| HELIUM STORAGE- System 24 Low Pressure Bottles /6 PSIG High Pressure Bottles to fr PSIG EMERGENCY FEEDWATER -System 31 Emergency Feed Flow -gro - GPM Emergency Bearing Water Header Pressure s. i fo PSIG
| |
| ' HELIUM CIRCULATORS System 21 CirculatorC-2I01(A)
| |
| Bearing Water Flow /45 GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 91 'F Main Drain AP (, PSID Steam Exhaust / Steam Water Drain > co PSID Buffer /Mid-Buffor AP / 9 2. PSID Buffer Helium Flow 7./ ACFM Buffer Helium Return Flow 3.i ACFM Circulator C-2102 (B)
| |
| =
| |
| Bearing Water Flow /4s GPM Emergency Bearing Water Flow o GPM
| |
| ~)- ~ Bearing Water Inlet Temperature en 'F PSID-Main Drain AP ?
| |
| < Steam Exhaust / Steam Water Drain- >so PSID Buffer /Mid-Buffer AP SG PSID Buffer Helium Flow 7,5 ACFM -
| |
| Buffer Helium Return Flow L7 ACFM-CirculatorC-2103(C)'
| |
| Bearing Water . Flow /90 GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature- t# *F
| |
| .- Main Drain AP 7 PSID Steam Exhaust / Steam Water Drain >so PSID Buffer /Mid-Buffer AP 3 B . s- PSID Buffer Helium Flow B.5 ACFM Buffer Helit,m Return Flow 3.5 ACFM Circulator C-2104 (D) _
| |
| Bearing Water Flow / '/ 9 GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 9B 'F Main Drain AP A, PSID Steam Exhaust / Steam Water Drain yco PSID Buffer /Mid-Buffer AP 2 9.c PSID
| |
| * Buffer Helium Flow '/. S ACFM Buffer Helium Return Flow s.4 ACFM
| |
| ,.y ,
| |
| -N. ;. .s w ,p , 6 n-rWM= AM
| |
| -( T '' ,b M'. T- 1Sg,'fke''
| |
| | |
| ^$
| |
| + FOSAVEX 09 PAGE 4 f r
| |
| r SCENARIO TIME: n/cc CLOCK TIME: 6kov PRIMARY AUXILIARIES
| |
| ------------------------------80ARD I-03------------------------------
| |
| REACTOR CONTROL System 12 -3 Regulating Rod (1) Position' a INCHES ,
| |
| RunbackGroupPositions(All) O INCHES (
| |
| Shim Rod Position (
| |
| d INCHES -(
| |
| Flux Controller Position A'I# 0/0, +/-
| |
| Reserve Shutdown Material 78t+u./ STATUS s-f 'm l
| |
| ?
| |
| i.
| |
| l
| |
| .j -
| |
| 1 i
| |
| 9 e#
| |
| '93 --- s, e
| |
| . . .~-.__..,_ . ..
| |
| -l
| |
| , e-- ~
| |
| | |
| 9 F05AVEX 89
| |
| }1 PAGE 5 SCENARIO TIME: 0/00 CLOCK TIME: OF00 PRIMARY AUXILIARIES
| |
| ------------------------------80ARD I-04-------------------------------
| |
| REGION OUTLET TEMPERATURES (Deg F)
| |
| : 1. w3.2 * - 11. mo 21. / Joe . 31. /W3 .
| |
| : 2. ao 12. nsre . 22. /ve/ 32. /3GC 13.. ao 13... /vsv' 23. /vr9 33. /Saae
| |
| ~4. ar?.- 14. /320* 24. /SSF 34. /0tr
| |
| : 5. ivsS 15. Aev e '25. Ato 35. /vw o
| |
| : 6. /Stro 16. /+'oe 26. / 34'L . 36. mo
| |
| : 7. M16 17. /3tco 27. N39 37. //F2
| |
| : 8. / v 7h' 18. jw9'. 28. /uno e
| |
| : 9. /t% 19. /ao 29. / s.s y
| |
| : 10. /5// 20. /aao. 30. /520 t/ota. : O lrl* +y % e4AL (,, &=%gs,'4 REGION ORIFICE VALVE POSITION (% open)
| |
| : 11. a.V 21. /7.a 31. P. 9
| |
| : 1. //. T
| |
| : 12. 22. .M 9 32. m.p 2.. /s. P /t.r 3.- mo 13. 97.6 23. 4. .r 33. s. 7 W 4. 11.3 14; /9. 9 24. P,6 34. es.o
| |
| _C/ 5. n.v 15. 16. 0 25. 13 9' 35. //. /
| |
| : 6. /3. (. 16. A.9 26. 69 .
| |
| : 36. /91
| |
| : 7. /s.r 17. 3:2. / 27. /1. 7 37. / 9. 6
| |
| : 8. 43.6 18. W./ 28. Jr.9
| |
| : 9. e r.3 19. //. o 29. /t.6
| |
| : 10. 33 3 20. S. 9 30. //. (-
| |
| G 9
| |
| ,m' hy l
| |
| _:6
| |
| | |
| ~--
| |
| FOSAVEX 89 PAGE 6 SCENARID TIME: o/co CLOCK TIME: cGoo PRIMARY AUXILIARIES
| |
| , ............... .............-- B0ARD I - 0 5 --- -- - - - - - - - - - - - - - - - -
| |
| HYDRAULIC OIL System 91 NORMAL
| |
| ,. STEAM WATER DUMP TANK System 22 Loop Selected / 1 or 2 -
| |
| Pressure M PSIG Temperature 42ur 'F Level Fr INCHES HELIUM CIRCULATORS System 21 CirculatorC-2101(A) .
| |
| 4 . Rotor Speed ator.; RPM Helium Flow (Low Range) o.o/ PSID Helium Flow (High Range) 0 %
| |
| Compressor-AP O PSID Steam Supply Pressure Ja PSIA Steam Exhaust Pressure JR PSIA Steam Turbine Pressure. Ratio Ao
| |
| , CirculatorC-2102(B)
| |
| ' Rotor Speed /9a RPM
| |
| "' Helium Flow (Low Range) o.o/ PSID Helium Flow (High Range) 0 %
| |
| Compressor AP o PSID Steam Supply Pressure. r PSIA Steam Exhaust Pressure Ja PSIA Steam Turbine Pressure Ratio /. o
| |
| =CirculatorC-2103(C)
| |
| Rotor Speed 6oo RPM Helium Flow (Low Range) a.r PSID Helium Flow (High Range) Gf %
| |
| Compressor AP G.6 PSID Steam Supply Pressure 32 PSIA Steam Exhaust Pressure 2p PSIA Steam Turbine Pressure Ratio Ao Circulator C-2104 (D)
| |
| Rotor Speed 6/50 RPM Helium Flow (Low Range) o.S PSID Helium Flow (High Range) 45 %
| |
| Compressor AP r.m PSID 5 Steam Supply Pressure 52 PSIA Steam Exhaust Pressure $a PSIA Steam Turbine Pressure Ratio /. o
| |
| % . ._/ MAIN TURBINE System 51 NORMAL f e m %4sa p etp m 4 3 h W M- +92 a "
| |
| *M'
| |
| | |
| 1
| |
| .i g
| |
| i- F05AVEX 89 '
| |
| PAGE 7
| |
| . SCENARIO TIME: ol0c CLOCK TIME: OPcc PRIMARY AUXILIARIES l J
| |
| - - - - - - - - - - - - - - - - - - - - - - - - - - - - BOARD I-06------------------------------ j 1
| |
| . FEEDWATER System 31 Emergency Feedwater Pressure 49m PSIG
| |
| * i Boiler Feed Pumps Feed Pump A .
| |
| Speed o RPM Flow s e X 10 lb/hr Feed Pump B ( l Status- % ON/0FF 1 Flow s.?.r X lor Ib/hr Feed Pump C Speed C RPM Flow s/s X 10 lb/hr CONDENSATE System 31 NORMAL' MISCELLANEOUS
| |
| . Bypass-Flash Tank Pressure oro PSIG
| |
| - Hot' Reheat Bypass Valve Positions NORMAL PLANT ELECTRICAL System 92 Essential Loop 1 Loop 2 4160 VAC MW h 480 VAC
| |
| ' 120 VAC 120 VDC Emergency Diesel Generator ACM Diesel Generator e v Non-Essential Switchyard *h(d 4160 KV ,
| |
| 480 VAC 120 VAC 120 VDC m MAIN TOWER System 41 NORMAL SERVICE WATER TOWER System 42 NORMAL FIilE NATER System 45 NORMAL INSTRUMENT AIR System 82 NORMAL s SERVICE AIR System 82 NORMAL
| |
| . . . . ~ . - . .
| |
| w-- w ---,sre+.- -
| |
| | |
| h T', 1 1
| |
| * l
| |
| ,i1 . , F01AVEX 89 1 PAGE 8 l e
| |
| SCENARIO TIME: c/vo ]
| |
| CLOCK TIME: orruv -;
| |
| x)-L
| |
| * PRIMARY AUXILIARIES
| |
| ?
| |
| i
| |
| ------------------------------BOARD I-10------------------------------
| |
| L PLANT PROTECTIVE SYSTEM.
| |
| REACTOR BUILDING TEMPERATURE - HIGH Bay 100 /Of *F Bay 200 - /04 *F .
| |
| Bay 300 /05 *F ,
| |
| l- t REHEAT ACTIVITY MONITORS-Loop 1 Bay 1200 4/ mr/hr
| |
| * Bay 1100 e/ mr/hr .
| |
| : j. c/ mr/hr -
| |
| Bay 1000' ,
| |
| 1
| |
| -Loop 2 Bay 600 c/ w/hr '
| |
| Bay 500. c/ mr/hr Bay 400 er ar/hr ,
| |
| MOISTURE MONITORS Dew Point Loop I cy/L4 Z;/ *F i
| |
| .'.. Loop 2 &Abd *F MAIN STEAM LOOP AP JoFo PSID BUFFER SEAL MALFUNCTION /y-3o 4
| |
| ,ym
| |
| ~
| |
| . . . . _ m
| |
| -S
| |
| .,.__,,.___'8;
| |
| | |
| ~
| |
| F0tAVEX 89 PAJE 9 a
| |
| SCENARIO TIME': c/co CLOCK TIME: ceco l
| |
| . PRIMARY AUXILIARIES
| |
| ------------------------------BOARD I-13------------------------------
| |
| PENETRATION INTERSPACE AP- Tr -PSID-
| |
| * d 'O GPM REACTOR BUILDING SUMP DISCHARGE FLOW HELIUM CIRCULATORS System 21 '
| |
| - Guard Helium Flow O lb/hr Bearing Assembly Temperature Circulator C-2101 (A)
| |
| Upper Labyrinth /Co-/ w 'F
| |
| ~ Upper Journal es-m 'F Main Bearing Housing 91- m 'F SteamNater Drain Area er-/co 'F l Lower Journal arr-/m 'F !
| |
| Circulator C-2102 (B)
| |
| Upper Labyrinth /Jo-/vo 'F .
| |
| Upper Journal ?s -e 'F Main Bearing Housing vs-se 'F SteamNater Drain Area 9r-/cc 'F
| |
| 'F
| |
| ~
| |
| Lower Journal w- /ov
| |
| ,s.
| |
| CirculatorC-2103(C) ha.jvo
| |
| -Upper Labyrinth *F i E- Upper Journal air-/cro *F Main Bearing Housing er-fce .F .
| |
| SteamNater Drain Area os-s/o 'F Lower Journal e r-m 'F L Circulator C-2104 (0)
| |
| ; Upper Labyrinth nowo 'F L ,, Upper Journal vs.xo *F ,
| |
| Main. Bearing Housing vs-mo *F l SteamNater Drain Area 95-mo 'F Lower Journal 95-/0e 'F e ,
| |
| .. \
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| \
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| FOSAVEX 89 PAGE 10 l' SCENARIO TIME: C/Oc>
| |
| CLOCK TIME: obt>
| |
| PRIMARY AUXILIARIES
| |
| ..............................B0ARD I-15------------------------------
| |
| REAdL; BUILDING STACK FLOW - So KCFM REACTOR BUILDING AMBIENT AP.
| |
| C. R Inches H2O CONTROL ROOM TEMPERATURE
| |
| <- 6P 'F p
| |
| ..............................B0ARD I-7507X---------------------------
| |
| 480V ROOM TEMPERATURE 9.7 'F 3,;
| |
| e e
| |
| _p t R
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| W y
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| .,e e,
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| - =
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| | |
| c: '.. >
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| l 1
| |
| < FOSAVEZ 89
| |
| , ' RADIATION MONITORS SCENARIO TIME:
| |
| 0//5 CLOCK TIME: O E 15 If.. . .
| |
| NUMBER VALUE ALARMING SENSITIVITY (Y/N)
| |
| RT-4801 /. o T 4 I CFM N 2.6E-10 RT-4802 Loii +' CFM N 1.2E RT-4803 _/O E+l CFM N 2.5E-8 RT-8212 L0l i+l CFM N 2.2E-8 RT-6213 /o E+ CFM N 2.2E-8 !
| |
| RT-7312 : .o E+' CFM* N 2.35-8 *
| |
| - RT-7324-1; I. 1 E 4 4 CFM Y- 3.31E-8 .
| |
| RT-7324-2
| |
| ' ' 1 E+ 1-
| |
| . CFM Y 1.88E-8
| |
| -RT-7325-1 Oos -CFM N 1.493-5 ~
| |
| RT-7325-2 O 05 mr/hr N na N 2.51E-10 3,0 E + f CFM-RT-73437-1 E RT-73437-2 .E O E 4 i CFM N 2.73E-10
| |
| ) RT-9301. /.O f+6 CFM A/ 1.73E-8 RT-93252-12 4. O E - I ar/hr H na L
| |
| l AREA MONITORS NUMBER RT-93250-1 C. V mr/hr- 4/
| |
| RT-93250-2 0I ar/hr N RT-93250-3 f.O ar/hr N RT-93250-4 C. I ar/hr //
| |
| -) ,RT-93250-5 C. I ar/hr //
| |
| (/ RT-93250-8 C.I ar/hr d RT-93250-13 0I mr/hr- -1 /
| |
| '? RT-93250-14 05L mr/hr >/
| |
| RT-93251-1 OSL mr/hr s /
| |
| RT-93251-3 FO. ar/hr / /
| |
| RT-93251-4 0- 1 me/hr //
| |
| i.
| |
| RT-93251-5 O. J mr/hr N RT-93251-6 0.4 mr/hr A/
| |
| RT-93251-7 0f ar/hr N ,
| |
| L RT-93251-8 O. L mr/hr N RT-93251-9 0.1 mr/hr N RT-93252-1 C.I ar/hr N RT-93252-2 C. I ar/hr N l RT-93252-4 0I ar/hr- N RT-93252-6 C.I ar/hr N 4 RT-93252-7 o-, ar/hr N RIA-7951 0.06 mr/hr N METEOROLOGICAL DATA Wind Speed 3.0 MPH Wind Direction From "1I er Degrees Plume Deviation / Sigma Theta L0 negrees ^
| |
| . Differential Temperature - 0. 3 Deg F
| |
| * Value corresponds to the PCRV area channel. Other four channels are 30 cym.
| |
| _~
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| >O
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| '- 9 44$ % bh
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| *" h
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| , -- - - - . . , - - - - . . - . , . - - . , , . . ~ . . - . ~ , - a. ------------L_--
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| Y"' - - - . - L ~.,R *?-'
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| | |
| g . . ,
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| ; FOSAVEX 89 PAGE 1 SCENARIO TIME: o//r
| |
| >(- ..
| |
| 2- .- CLOCK TIME: OF/6
| |
| __ OVERALL PARAMETERS Reactor Power Level O %
| |
| Turbine Generator Load G7 MW PRIMARY-COOLANT Pressure Sto PSIA Temperature -
| |
| Circulator Inlet + 4' 9 'F Core Outlet /ro *F Helium Flow Circulator A O X LO lb/hr Circulator B CX:,0 lb/hr Circulator i A .9 X 'm03 lb/hr .
| |
| Circulator D t. 4 X : Or ib/hr-TOTAL / 33 X '..06 lb/hr Circulator Speed Circulator A aoo RPM Circulator B /Po RPM
| |
| . Circulator C na RPM Circulator 0 arr RPM Moisture (Dew Point)
| |
| ME-9306 of= 4 D~L 'FF m /,G /
| |
| s
| |
| ; , ME-9307 o <
| |
| SECONDARY C'00LANT ,
| |
| Feedwater Flow Loop 1 0 X 10 lb/hr Loop 2 8 75 X 103 lb/hr-Main Steam.
| |
| ~ Loop 1 Pressure 5/o PSIG Temperature -w.9 'F Loop 2 Pressure asso- PSIG Temperature es er 'F Hot Reheat ~
| |
| Loop 1 Pressure ac, PSIG Temperature c:ev 'F Loop 2 Pressure cao PSIG Temperature cesy *F Cold Reheat , .
| |
| Loop 1 Pressure ao ' PSIG Temperature c:ex *F Loop 2 Pressure cao PSIG Temperature eoss *F M#
| |
| ~
| |
| e-es., ogre e -
| |
| 4gg ge g gang e4 5 d @*M M 4 O9698 ' #
| |
| * eMOM O 9 i Jkeq 7
| |
| * l' l
| |
| FOSAVEX 89 l PAGE.2 SCENARIO TIME: oltr a 7
| |
| h PRIMARY AUXILIARIES CLOCK TIME:
| |
| o
| |
| .. ................. .. ..-80ARD I-01------------------------------
| |
| GAS WASTE System 63 Inlet Pressure 9 PSIA
| |
| , Vacuum Tank Pressure B PSIA .
| |
| s Surge Tank "A" Pressure 4ro PSIG Surge Tank "B" Pressure // r PSIG
| |
| - LIQUID WASTE. c ' System 62 NORMAL REACTOR PLANT COOLING WATER System 46 ,
| |
| Loop 1 P-4601 op ON/0FF P-4601S. oFF ON/0FF Header Inlet Temperature ie *F Barrel and Top Head Outlet Temperature it e 'F ;
| |
| ' Top Penetration Inlet Temperature i o9 'F l Loop 2 *
| |
| -P-4602 o9 ON/0FF OFF ON/0FF
| |
| 's '
| |
| P-4607S
| |
| 'F-Header Inlet Temperature sit Barrel and Top Head Outlet Temperature a7 'F Top Penetration Inlet Temperature //n *F L
| |
| Surge Tank Level "A" 40 INCHES- t Surge Tank Level "B" rv INCHES PURIFIED HELIUM System 23 NORMAL L System 25 NORMAL-l ' LIQUID NITROGEN L
| |
| L l
| |
| I L
| |
| t+g e
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| s 1 -.- , , . - - . . . <, ,. ,
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| - . , , , , , "',..-,_n, . . . , . , , , - - - - . --
| |
| | |
| ... . . - .. , .. . . ~ .. ..
| |
| FOSAVEX 89- l PAGE 3 l SCENARIO TIME: o r/< ,
| |
| - .bLOCKTIME: -)
| |
| PRIMARY AUXILIARIES
| |
| - - - - - - - - - - - - - - - - - - - - - - - - - - - - BOARD I -0 2-------------------------
| |
| HELIUM STORAGE System 24
| |
| /$' PSIG
| |
| . Low Pressure Bottles
| |
| ' PSIG High Pressure Bottles / ors EMERGENCY FEEDWATER System 31 Emergency Feed Flow 4 /F0 GPM L
| |
| Emergency Bearing Water Header Pressure A. / 9 0 PSIG
| |
| .i HELIUM CIRCULATORS System.21
| |
| " CirculatorC-2101.(A)
| |
| Bearing Water Flow /4r GPM .s Emergency Bearing Water Flow o GPM ,
| |
| . Bearing Water Inlet Temperature en 'F
| |
| ' Main Drain AP. G PSID Steam Exhaust / Steam Water Drain >5o PSID Buffer /Mid-Buffer AP /9.2 PSID Buffer Helium Flow. 7. o ACFM Buffer Helium Return Flow 2.t .ACFM CfrculatorC-2102(B)
| |
| Bearing Water Flow- /45 GPM ll
| |
| ' Emergency Bearing Water Flow o GPM i ] - Bearing Water Inlet Temperature e2 'F.
| |
| Mair. Drain AP 7 PSID Steam Exhaust / Steam Water Drain ,so PSID Buffer /Mid-Buffor AP h PSID Buffer Helium Flow '7. s ACFM Buffer Helium Return Flow s.9 ACFM
| |
| ,- 'CirculatorC-2103(C)
| |
| " Bearing Water Flow '#O GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature fg 'F 7 PSID
| |
| ~
| |
| ' Main Drain AP Steam Exhaust / Steam Water Drain > so PSID Buffer /Mid-Buffer AP .2 9 . & PSID '
| |
| Buffer Helium Flow Bs ACFM Buffer Helium Return Flow 3.r ACFM Circulator'C-2104(D) , '
| |
| ~
| |
| Bearing Water Flow /79 GPM Emergency Bearing Water Flow O GPM t Bearing Water Inlet Temperature 9A 'F Main Drain AP c PSIO Steam Exhaust / Steam Water Drain >go PSID Buffer /Mid-Buffer AP a 9 . f PSIO Buffer Helium Flow ?. 'f ACFM Buffer Helium Return Flow .5 4 ACFM e.e. g
| |
| ',f
| |
| . -. n...._ .4%
| |
| | |
| . _ . _ _ . _ . _ _ -.._~ . _ _ _ . _
| |
| h FOSAVEX H-PAGE 4 ;
| |
| SCENARIO TIME: ' C//5 b CLOCK TIME: Of/C -
| |
| PRIMARY AUXILIARIES ;
| |
| .................- ..........-80ARD I-03------------------------------
| |
| REACTOR CONTROL System 12 -
| |
| Regulating-Rod (1) Position-O- INCHES
| |
| . .t RunbackGroupPositions(All). O INCHES Shim Rod Position- o INCHES' ,
| |
| Flux Controller Position N/4 ,0/0,+/- ,
| |
| e Reserve Shutdown Material '/med STATUS 4
| |
| I '
| |
| 4 4
| |
| 4 e
| |
| ed
| |
| ' + esp *+W' 4
| |
| +m-4 a mmy , e.$r an p=<
| |
| . _ . b- .. . . . . _ _ - - . . , , .r. , , , - , , _ , - - - - - -,
| |
| | |
| :)
| |
| FOSAVEX 89 -1 FAGE 5 -l
| |
| = -
| |
| SCENARIO TIME: C//s-CLOCK TIME: OP/5 I
| |
| PRIMARY AUXILIARIES 1
| |
| .. ... ....................--80ARD I-04------------------------------
| |
| REGIONOUTLETTEMPERATURES(DegF) l 1.. N12 11. /ro 21. /3co. 31. /S.55 .
| |
| : 2. iso 12. /w?* 22. /M. / 32. >Lt o
| |
| : 3. /2 0 13. ADV ' 23. MM 33. /TMbt* -
| |
| 4 .' /W9 14 . /328 ' 24. EsMP 34. //F f
| |
| : 5. nss 15. ' noe . 25. m 35. /yW.
| |
| >. .6. //a90 16. Moo 26. iHL* 36. /2 0
| |
| : 7. g. 17.= A% 27. JE 37. nca .
| |
| 8 /.3Jrr 18.- /W. 28. /228
| |
| : 9. /3 h 19. /40 29. mW ,
| |
| : 10. 4 0/- 20. _Aino. 30. /s/o REGION ORIFICE VALVE POSITION (% open) i
| |
| : 1. //. P -11. /s. V 21'. /7. A 31. P.9
| |
| : 2. /J. y 12. /P. C 22. 99.9 32. m.2 >
| |
| s 3. sao 13. 97. /. 23. 45' 33. n?
| |
| d '"*') '
| |
| 4 n.3 14 /9. S 24. P6 34. am .o ;
| |
| : 5. n. </ 15. m.o 25. /3. Y 35. //. /
| |
| : 16. m. 9 26. 49 36. / 7, 7 -
| |
| - 6. /3 6 '
| |
| Ee '7.
| |
| /s.t 17. Ja./ 27. /J 7 37. / 9. 6
| |
| : 8. . su.c 18, 4v. / 28. sr P. 7 -
| |
| : 9. - oar.3 19. //. o 29. /J.6
| |
| : 10. 32 3 20. S~. 'l 30. // 4. '
| |
| ~
| |
| l? . ,
| |
| l
| |
| 'l
| |
| . .mm..-
| |
| Ur'd E v ap , -M4 gen air. P'JW A1 4 Vd- 36
| |
| .=>%rNe $ r%
| |
| , $% ; b ' :r r. s '; *(' , Y +;!.A***.
| |
| . ] 4
| |
| | |
| o FOSAVEX 89 .
| |
| PAGE 6 SCENARIO TIME: SM CLDCK TIME: OP/r PRIMARY AUXILIARIES
| |
| - . . ...... . . . . . .. . .... .... . ... B 0ARD I - 0 5 ---------------------------
| |
| L HYDRAULIC OIL . System 91 NORMAL STEAM WATER DUMP TANK System 22 Loop Selected. / 1 or 2 -
| |
| Pressure ,vs PSIG
| |
| ~
| |
| Temperature sand 'F Level FP INCHES i HELIUM CIRCULATORS System 21 CirculatorC-2101~(A)-
| |
| Rotor Speed- sots RPM -;
| |
| Helium Flow (Low Range) 00/ PSID L Helium Flow (High Range) O. % ,
| |
| Compressor AP O PSID Steam Supply Pressure 32 PSIA Steam Exhaust Pressure- J.s PSIA L Steam Turbine Pressure Ratio /. o
| |
| , Circulator C-2102 (B)
| |
| U Rotor Speed 1 90 RPM
| |
| ..]-
| |
| x Helium Flow (Low Range) CO/ PSID Helium Flow (High Range) M % -
| |
| l -
| |
| Compressor AP o PSID Steam Supply Pressure 1# PSIA Steam Exhaust Pressure J2 PSIA-Steam Turbine Pressure Ratio /. o CirculaterC-2103(C). .
| |
| ' Rotor Speed 'r/m RPM .
| |
| Helium Flow (Low Range) o.5 PSID Helium Flow (High Range) 90 %
| |
| Compressor AP 9.2 PSID Steam Supply Pressure .s2 -PSIA.
| |
| Steam Exhaust Pressure Ja PSIA Steam Turbine Pressure Ratio /. o ,
| |
| Circulator C-2104 (D)
| |
| Rotor. Speed 4Rm RPM Helium Flow (Low Range) o.r PSID Helium Flow (High Range) 'M %
| |
| Compressor AP S,L PSID Steam Supply Pressure 32 PSIA Steam Exhaust Pressure 3r PSIA Steam Turbine Pressure Ratio /.o d MAIN TURBINE System 51 NORMAL m apAm .-pq@
| |
| tr 'sw - = _v w &-av'-4 -r-wyeg w w ,e am. -r-v--- * - -
| |
| 3-a- --avt-- -u-rmurr-w*e--4*,tg1 - - r--
| |
| | |
| s -
| |
| A t
| |
| FOSAVEX 89 PAGE 7 SCENARIO TIME: o//r CLOCK TIME: OP/r PRIMARY AUXILIARIES
| |
| ------------------------------ BOARD I-06------------------------------
| |
| \
| |
| FEEDWATER -
| |
| System 31 Emergency Feedwater Pressure M ce PSIG Boiler Feed Pumps Feed Pump A .
| |
| Speed o RPM Ficw w// X - 10 lb/hr Feed Pump B Status % ON/0FF Flow Sm X lor Ib/hr-Feed Pump C Speed O RPM Flow s/e X 10 lb/hr CONDENSATE System 31 NORMAL l- MISCELLANEOUS Bypass' Flash Tank Pressure oro PSIG L -. Hot Reheat Bypass Valve Positions NORMAL l' % ~~ ').
| |
| PLANT ELECTRICAL System 92 L Essential Loop 1 Loop 2 :
| |
| ) - 4160 VAC 480 VAC QM ,
| |
| l- 1 l 120 VAC L 120 VDC l Emergency Diesel Generator v v
| |
| !- ACM Diesel Generator 1
| |
| Non-Essential Switchyard
| |
| * Iml L
| |
| * 4160 KV I l' 480 VAC l l
| |
| 120 VAC 120 VDC ,,
| |
| MAIN TOWER System 41 NORMAL
| |
| - SERVICE WATER TOWER System 42 NORMAL FIRE WATER System 45 NORMAL INSTRUMENT AIR System 82 NORMAL
| |
| -, SERVICE AIR System 82 NORMAL 40 N-
| |
| . _ . , . . _ _ . . _ _ _ .. _ _ _ . . . _ . . _ _ ...__5.'
| |
| : a.
| |
| * y .
| |
| a *
| |
| | |
| -FO!AVEX 89 PAGE 8 y 1
| |
| q v SCENARIO TIME: c//r !
| |
| CLOCK TIME: ofif 1
| |
| l PRIMARY AUXILIARIES
| |
| ............................. 80ARD I-10------------------------------
| |
| PLANT PROTECTIVE SYSTEM REACTOR BU,ILDING TEMPERATURE - HIGH Bay-100 /6/' 'F :
| |
| 'F Bay 200 /Os .
| |
| Bay 300 /05 'F REHEAT ACTIVITY MONITORS Loop 1 s Bay 1200 - e/ mr/hr <
| |
| Bay 1100 e/ or/hr Bay 2000 e/ mr/hr h_
| |
| Loop 2' Bay 600 e/ mr/hr Bay 500.. </ mr/hr Bay 400 /.5 mr/hr
| |
| ;. MOISTURE MONITORS H Dew Point- .
| |
| ^
| |
| Loop 1 funALL1 *F l[: k';. P- I.. Loop 2 arru//W 'F >
| |
| MAIN' STEAM LOOP AP Joro- PSID l BUFFER SEAL MALFUNCTION /S-Jo I-l I
| |
| e f
| |
| V
| |
| , . =. q g' e 7.maa s-O
| |
| ,/
| |
| "~
| |
| g ,pg '*M*
| |
| | |
| J F03AVEX 89:
| |
| ~~
| |
| PAGE 9 SCENARIO TIME: Our CLOCK TIME: oiF/f PRIMARY AUXILIARIES
| |
| ........... .......----------S0ARD I-13------------------------------
| |
| PENETRATION INTERSPACE AP P PSID REACTOR BUILDING SUMP DISCHARGE FLOW 2/0 GPM HELIUM CIRCULATORS System 21 Guard Helium Flow O lb/hr Bearing Assembly Temperature CirculatorC-2101(A).
| |
| Upper Labyrinth /30-N'O 'F Upper Journal 7s-/oo 'F
| |
| - Main Bearing Housing es-mo 'F Steam Nater Drain-Area es-/oo *F Lower Journal vs-/oo 'F CirculatorC-2102(B)
| |
| Upper Labyrinth 40-/vo 'F Upper' Journal es-/vo *F Main Bearing HoLsing e r-/co *F Steam Nater Drain Area er->oo *F Lower Journal 9 s-/on 'F i) )-
| |
| ~
| |
| CirculatorC-2103(C)
| |
| Upper Labyrinth '/ 20-No 'F Upper Journal er-/rm 'F Main Bearing Housing es-foe 'F SteamWater Drain Area- br-foo 'F Lower Journal. es -re 'F CirculatorC-2104(D)
| |
| Upper Labyrinth 730-/VO 'F Upper Journal 95 /cm 'F-m Main Bearing Housing er-fcm 'F Steam Nater Drain Area w-/cm *F Lower Journal 9s-/ce 'F 4
| |
| X i
| |
| ,%3.30,
| |
| , '1.%,' _ mWW
| |
| : 8. ' .3 - _..-e
| |
| ~
| |
| .* 1- r- a v i..w.. r..-e-rw r.e * . * * ' "
| |
| . . . ~ . , . ~,+,.w,
| |
| ' ' * " ' ' .r, , * * "
| |
| | |
| v i
| |
| FOSAVEX 89 PAGE 10 i
| |
| ~
| |
| i . -
| |
| $CENARIO TIME: o// f l
| |
| -z: .
| |
| !.- r
| |
| ~ -
| |
| CLOCK TIME: cd/f i I
| |
| PRIMARY AUkILIARIES t f
| |
| ..... . .. .. . .. . ... . . . ... --- 80 ARD I -------------------- ~ ~ - l REACTOR BUILDING STACK FLOW 30 KCFM REACTOR BUILDING AMBIENT AP 1 47 Inches H2O l CONTROL ROOM TEMPERATURE 49 'F i t
| |
| L L
| |
| s
| |
| \ j l------------
| |
| ........ ..... .......... .... 30ARD I -7 5 0 7 X -----------
| |
| 480V ROOM TEMPERATURE 75~ 'F t
| |
| )
| |
| ,4 J' J .
| |
| . .T
| |
| ' w.
| |
| /
| |
| | |
| F05AYF.X 49 i
| |
| l RADIATION MONITORS SCENARIO TIME: Ol30 I CLOCK TIME: DE30 NUMRER VALUE ALARMING SENSITIVITY (Y/N)
| |
| RT-4801 /. O l I 4 I CPM A/ 2.6E-10 !
| |
| RT-4802 /o> L*1 NM . 1.2E-10 RT-4803 /, o i+f CFM > 2.55-8 i RT-6212 Loi !+f CFM // 2.2E-8 :
| |
| RT-6213 Lo E*' CFM a / 2.2E-8 i RT-7312 1o E+; CPMs d 2.3E-6 '
| |
| RT-7324-1 Y 7. E44 CFM P 3.31E-8 !
| |
| RT-7324-2 Li J + 'L CFM 1.89E-6 ,
| |
| RT-7325-1 00 8 CFM / / 1.495-5 RT-7325-2 0M me/hr /1 na RT-73427-1 30 E+J CFM J/ 2.51E-10 RT-73437-2 Eo A+ J CFM A/ 2.73E-10 '
| |
| l l RT-9301 /> 0 E + (- CFM A/ 1.73E-8 '
| |
| i RT-93252-12 4 O E-I ar/hr N na
| |
| ' i AREA MONITORS NUMBER ,
| |
| RT-93250-1 ON ar/hr A/ '
| |
| RT-93250-2 0. / ar/hr N
| |
| { N RT-93250-3 I.O ar/hr :
| |
| RT-93250-4 C. I ar/hr N ;
| |
| RT-93250-5 03 me/hr N RT-93250-8 0.I mr/hr N ,
| |
| l 0I N '
| |
| * RT-93250-13 ar/hr RT-93250-14 05L mr/hr N RT-93251-1 0 51- ar/hr #
| |
| RT-93251-3 FO. me/hr N RT-93?51-4 0- '
| |
| ar/br N i
| |
| RT-93251-5 Gf ar/hr N c
| |
| RT-932bl-6 0.. ar/hr N l
| |
| RT-93251-7 0- '
| |
| ar/hr J.
| |
| RT-93251-8 C. '
| |
| ar/hr N '
| |
| RT-93251-9 0.8 mr/hr N RT-93252-1 0.I ar/hr N RT-93252-2 C. 4 mr/hr N ,
| |
| ; RT-93252-4 0.1 '
| |
| ar/hr N
| |
| : RT-93252-6 0.1 mr/hr N -
| |
| RT-93252-7 o. ar/hr N RIA-7951 0. 0 G ar/hr N METEOROLOGICAL DATA Wind Speed 3.0 MPH :
| |
| Wind Direction From its negrees Plume Deviation / Sigma Theta (,, o negrees
| |
| ' Differential Temperature - 0.1 Dog F f
| |
| ./
| |
| * Value corresponds to the PCRV area channel. Other four 4
| |
| channels are 30 cys.
| |
| T e- t--7me-y y n -,+s- ee e ~ no,,erww w -r -e m w- ==-y,--e .-%- , + - - e,ww,-e. .i.--e-ow.,- . . - - - -=
| |
| | |
| F05AVEX 89 parse 1 l SCENARIO TIME: 0/30
| |
| ' CLOCK TIME: 6 13 o OVERALL PARAMETERS O
| |
| ~
| |
| 5 Reactor Power Level W j Turbine Generator Load O '
| |
| I l
| |
| PRIMARY COOLANT Pressure 4s5" PSIA j Temperature Circulator Inlet . 43 'F ;
| |
| Core Outlet 'F i Helium Flow Circulator A .
| |
| C X :,0 lb/hr -
| |
| Circulator B CI:.0 lb/hr ,
| |
| Circulator C 4I:.0' lb/hr '
| |
| Circulator D 4X:.0 ' lb/hr TOTAL nX:.0* lb/hr Circulator Speed i Circulator A ano RPM Circulator 8 m RPM Circulator C 49e RPM '
| |
| Circulator D 4fw RPM Moisture (Dew Point)
| |
| ME-9306 #u L La t 'F ,
| |
| ^-
| |
| ME-9307 ,s--t.n}/ 'F ss -
| |
| SECONDARY COOLANT ,
| |
| Feedwater Flow Loop 1 .
| |
| O X :.0 lb/hr Loop 2 595 X l 0F Ib/hr - l Main Steam ,
| |
| Loop 1 Pressure 491 PSIG Temperature +zs 'F Loop 2 Pressure s.sto PSIG
| |
| , Temperature a wr 'F Hot Reheat Loop 1 Pressure ao PSIG Temperature se 'F Loop 2 Pressure ao PSIG Temperature srr 'F
| |
| . Cold Reheat Loop 1 Pressure
| |
| .ao PSIG Temperature s er 'F Loop 2 Pressure .m PSIG Temperature sn- 'F t
| |
| ., s 4M + , W 4 44,empip , age,w.4p ena +.4pess w s q
| |
| +.+.,m.-%. , , . . . , ,
| |
| | |
| ^ - --
| |
| g ;
| |
| : t. i ll ;
| |
| FOSAVEX 89 PAGE 2 SCENARIO TIME: o I30
| |
| -. ) CLOCK TIME: 08 %d !
| |
| PRIMARY AUXILIARIES
| |
| .. . .. .. . . ... .... .. ... . . 80A RD I ----------- -------- --------
| |
| GAS WASTE System 63 e B PSIA Inlet Pressure Vacuum Tank Pressure & PSIA .
| |
| Surge Tank "A" Pressure as i o PSIG Surge Tank "B" Pressure //c PSIG LIQUID WASTE System 62 NORMAL REACTOR PLANT COOLING WATER System 46 .
| |
| Loop 1 P-4601 od ON/0FF P-46015 OPP ON/0FF Header Inlet Temperature //a 'F !
| |
| Barrel and Top Head Outlet Temperature // 9 'F l Top Penetration Inlet Temperature /oe 'F i
| |
| Loop 2 P-4602 op ON/0FF
| |
| (.~ ) P-46025 oea ON/0FF
| |
| ~
| |
| Header Inlet Temperature is c, 'F l Barrel and Top Head Outlet Temperature sa / 'F .
| |
| Top Penetration Inlet Temperature //6 'F Surge Tank Level "A" 40 INCHES-Surge Tank Level "B" rr INCHES PURIFIED HELIUM System 23 NORMAL LIQUID NITROGEN System 25 NORMAL b
| |
| i
| |
| \
| |
| s 9N O' ,
| |
| 5 a . .-a -
| |
| , v--r - 4 , e-.w- ,. .w - w . . - .=en- e--- - - - - 4- - ~, - - - - * , - - _ - - - - -
| |
| | |
| I
| |
| * FDSAVEX 89 PAGE 3 i SCENARID TIME: cito l bLOCKTIME: M 2,0 d
| |
| PRIMARY AUXILIARIES
| |
| ... ............ .....-....BDARD I - 0 2 ---------------------------
| |
| HELIUM STDRAGE System 24 Low Pressure Bottles /d PSIG High Pressure Bottles t a +'r PSIG EMERGENCY FEEDWATER System 31 ,
| |
| Emergency Feed Flow 4 /ro GPM l Emergency Bearing Water Header Pressure Aigo PSIG HELIUM CIRCULATDRS System 21 CirculatorC-2101(A)
| |
| Bearing Water Flow /6 J' GPM Emergency Bearing Water Flow o GPM l Bearing Water Inlet Temperature 9a 'F 1 z, PSID j Main Drain AP Steam Exhaust / Steam Water Drain > sa PSID !
| |
| / 9, a PSID i Buffer /Mid-Buffor AP Buffer Helium Flow 9. o ACFM i Buffer Helium Return Flow 1.I ACFM
| |
| ' CirculaterC-2102(B) GPM
| |
| ' Bearing Water Flow /4 f e
| |
| Emergency Bearing Water Flow o GPM L
| |
| .\:"J Bearing Water Inlet Temperature e2 'F Main Drain AP .
| |
| ? PSID Steam Exhaust / Steam Water Drain > ro PSID Duffer /Mid-Buffer AP 2. r, PSID Buffer Helium Flow 7.c ACFM .
| |
| Buffer Helium Return Flow s. 7 ACFM CirculatorC-2103(C) GPM Bearing Water Flow / fa .
| |
| Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 9i *F Main Drain AP 9 PSID ,
| |
| Steam Exhaust / Steam Water Drain >co PSID Buffer /Mid-Buffer AP ud.1 PSID Buffer Helium Flow R.5 ACFM Buffer Helium Return Flow 3.s ACFM Circulator C-2104 (D) ~
| |
| Bearing Water Flow i 79 GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature fA 'F Main Drain AP
| |
| (, PSID Steam Exhaust / Steam Water Drt.in p r c' PSID Buffer /Mid-Buffer AP 29.5 PSID 7, y ACFM l Buffer Helium Flow Buffer Helium Return Flow T. y ACFM ,
| |
| L
| |
| ~\
| |
| ~
| |
| l _.e_
| |
| e.: .
| |
| e
| |
| ,*w4-, --% ge..weeme>q w , -w e. ee----- ,,,.,.,p.,Je, se y---%- - - . . , - _ , ,m9,a-.-v--,-r,we ,yei-.- wr-+yv 3 ww'yy + y -=r- r T97 - - -$
| |
| | |
| FOSAVEX 89 PAGE 4 I- SCENARIO TIME: ono I
| |
| ,( .
| |
| ) CLOCK TIME: Of30 i~ PRIMARY AUXILIARIES
| |
| ............................. 80ARD I-03------------------------------
| |
| REACTOR CONTROL System 12 ;
| |
| 3 Regulating Rod (1) Position O INCHES
| |
| ]
| |
| ,_ . i Runback Group Pt.sitions (All) O INCHES 1 i
| |
| Shim Rod Position O INCHES {
| |
| Flux Controller Position NM 0/0, +/- f Reserve Shutdown Material Nd STATUS i
| |
| l
| |
| \
| |
| b i
| |
| b
| |
| ,ac'**=,
| |
| e..
| |
| i _.
| |
| ' g
| |
| ..~,.b.~
| |
| ,/
| |
| .. . . . a. . ,
| |
| e ,, . . . - . . . n., . . . . - . - ,, . . . - , , - - , , . , - - . . - . - , - -
| |
| | |
| l F05AVEX 89
| |
| - PAGE 5 j SCENARIO TIME: o/50 I
| |
| ' CLOCK TIME: d>0 PRIMARY AUXILIARIES i
| |
| ........... .................. 80ARD I-04------------------------------
| |
| t i
| |
| REGION OUTLET TEMPERATURES (Deg F)
| |
| : 1. /4.t2
| |
| * 11. int > 21. /w. 31. sc W e .
| |
| : 2. s2o 12. xd. 22. xo m 32. nio
| |
| : 3. /.a o 13. 1.tev 23. /a_ u 33. /romiple -
| |
| : 4. Mf? - 14. /320 24. /4 1
| |
| - 34. Ar tS'
| |
| . 5. / ss c . 15. nw. 25. sAo 35. /m. '
| |
| : 6. /04 0 16. /ce. 26. /.M . 36. /Jo
| |
| : 7. mG. 17. /ou. 27. /3st 37. som t
| |
| : 8. /m 18. /wv. 28. /3J0
| |
| : 9. /Jr6 19. zaa 29. /739
| |
| : 10. /G9/ 20. m o. 30. /? ce REGION ORIFICE VALVE POSITION (% open)
| |
| : 1. //P 11. a. v' 21. /7.4 31. EF
| |
| : 2. /3. P 12. /br 22. %7 32. /6 4
| |
| : 3. so.o 13. 57. G 23, 65 33. ra.7
| |
| ~N 34. pp.o
| |
| ) 4. .7/.5 14. /9. 7 24. f. 6
| |
| : 5. m. y 15. /6 0 25. /.r. y 35. // /
| |
| : 6. /3.G 16. /6 7 26. /9 , 36. /77
| |
| : 7. s f' 17, 3s./ 27. /3.7 37. M. L i
| |
| : 8. o.tr. G 18. w/ 28. .#. 7 l
| |
| : 9. a.r.3 19. s/. o 29. 4. 6
| |
| : 10. .u .3 20. r,9 30. //.6
| |
| . . ~
| |
| t.
| |
| I i
| |
| am4w+= .-,-.w.n.et~., 4a, 4*w,g.weseny.assen
| |
| .* r * *
| |
| --'-.%4
| |
| -y.--..m. ,. ,jg . _,. m
| |
| | |
| I F0$AVEX 89 PAGE 6 j
| |
| $CENARIO TIME: c/.30 l 1
| |
| CLOCK TIME: pata l PRIMARY AUXILIARIES i t
| |
| ---- - - - - - - )
| |
| -BOARD I -
| |
| HYDRAULIC OIL Systes 91 NORMAL ,
| |
| STEAM WATER DUMP TANK System 22 Loop Selected / 1 or 2 -
| |
| Pressure drar PSIG Temperature 4ws 'F l Level Are INCHES 6
| |
| HELIUM CIRCULATORS Systen 21 Circulator C-2101 (A) i Rotor Speed ~
| |
| e RPM Helium Flow (Low Range) _
| |
| 0.o/ PSID '
| |
| Helium Flow (High Range) ,_
| |
| 0 %
| |
| Compressor AP ~~
| |
| o PSID Steam Supply Pressure n PSIA Steam Exhaust Pressure a PSIA Steam Turbine Pressure' Ratio /. o CirculaterC-2102(B)
| |
| ]
| |
| - i Rotor Speed ene RPM Helium Flow (Low Range) 4.u PSID ,
| |
| Helium Flow (High Renge) o % -
| |
| Compressor AP o PSID Steam Supply Pressure J2 PSIA Steam Exhaust Pressure JS PSIA i Steam Turbine Pressure Ratio /. o f
| |
| Circulater C-2103 (C)
| |
| Rotor Speed asse RPM -
| |
| Helium Flow (Low Range) s.t PSID Helium Flow (High Range) 99 %
| |
| Compressor AP 04 PSID Steam Supply Pressure m PSIA Steam Exhaust Pressure JF PSIA Steam Turbine Pressure Ratio /. o Circulator C-2104 (D)
| |
| . Rotor Speed 4Re RPM Helium Flow (Low Range) s.s PSID
| |
| * Helium Tiow (High Range) M %
| |
| Compressor AP 5.85 PSID Steam Supply Pressure Ja PSIA Steam Exhaust Pressure Ja PSIA Steam Turbine Pressure Ratio /. o MAIN TURBINE System 51 NORMAL wa%e ,Ae pefi-S eW4Mr 4Mf f4- ee6- WS W
| |
| -O" I M w
| |
| --.--+,r w- , . , -g- p- -r+--,r, - - < e -+-- -r ami - y -
| |
| e- w - g -v +- aw-+ e- e w- .-- -e--,-.--.---we,- , --r-w -m-ri, -
| |
| | |
| ! . t i
| |
| i FOSAVEX 89 PAGE 7 i SCENARIO TIME: 000 j CLOCK TIME: at.50 PRIMARY AUXILIARIES !
| |
| ..................... ....... 80ARD I-06------------------------------ l FEEDWATER System 31 ;
| |
| Emer9ency Feedwater Pressure Jerm PSIG !
| |
| Boiler Feed Pumps t Feed Pump A .
| |
| Speed o RPM Flow wh X 10 lb/hr Feed Pump B Status e ON/0FF Flow sw I 1 ) lb/hr :
| |
| Feed Pump C '
| |
| Speed a RPM Flow ph X 10 lb/hr !
| |
| CONDENSATE Systm 31 NORMAL ;
| |
| MISCELLANEOUS '
| |
| Bypass Flash Tank Pressure 70 PSIG '
| |
| ~ Hot Reheat Bypass Valve Positions NORMAL t, . )
| |
| * System 92 PLANT ELECTRICAL ,
| |
| Essential Loop 1 Loo !
| |
| 4160 VAC M %p2 ./
| |
| 480 VAC 120 VAC 120 VDC Emergency Diesel Generator ACM Diesel Generator v v Non-Essential Switchyard M 4160 KV i 480 VAC 120 VAC '
| |
| ! 120 VDC v MAIN TOWER System 41 NORMAL
| |
| : SERVICE WATER TOWER System 42 NORMAL FIRE WATER System 45 NORMAL INSTRUMENT AIR System 82 NORMAL
| |
| ., SERVICE AIR System 82 NORMAL j
| |
| A m , r--w.-, - - , - - ,ew. , , - , , - - - - - - --
| |
| w- , - -v~.,- , - -
| |
| | |
| t F01AVEX 89 PAGE 8 j SCENARIO TIME: o/m ;
| |
| (;'. CLOCK TIME: 0(30 PRIMARY AUXILIARIES t
| |
| . . ... .. .. . . .. . . . . . ..... . . . . 80ARD I ---------------------------- ;
| |
| PLANT PROTECTIVE SYSTEM REACTOR BUILDING TEMPERATURE - HIGH Bay 100 Ar 'F Bay 200 es 'F . f Bay 300 #5 'F REHEAT ACTIVITY MONITORS Loop 1 Bay 1200 er er/hr l '
| |
| Bay 1100 </ mr/hr Bay 1000 er mr/hr Loop 2 .
| |
| Bay 600 e/ ar/hr Bay 500 si mr/hr Bay 400 /r ar/hr MOISTURE MONITORS ;
| |
| Dew Point
| |
| *' Loop 1 ofed 1Al *F y *F z
| |
| ) Loop 2 pluJ H-M t efe r; PSID MAIN STEAM LOOP AP i
| |
| BUFFER SEAL MALFUNCTION /J'M ,
| |
| i l .
| |
| ; i l 4 V
| |
| i !
| |
| 4
| |
| '94
| |
| 's ._
| |
| . 26 m_
| |
| ' ' "''~~ ' ~'~'"" ~
| |
| _ _ _ , . "'N'''''***"^*-**~'"
| |
| | |
| 1 R:SAVEX 89
| |
| ~~
| |
| PAGE 9 i j
| |
| SCENARIO TIME: cao CLOCK TIME: of.50
| |
| . . PRIMARY AUXILIARIES l
| |
| ............................. 80ARD I-13------------------------------ j I
| |
| PENETRATION INTERSPACE AP P PSID "O GPM REACTOR BUILDING SUMP DISCHARGE FLOW HELIUM CIRCULATORS Systen 21 Guard Helium Flow o lb/hr l 4
| |
| Bearing Astembly Temperature .
| |
| Circulator C-2101'(A)
| |
| Upper Labyrinth e.50-w 'F '
| |
| Upper Journal tr- w 'F '
| |
| Main Bearing Housing er-se 'F '
| |
| SteamWater Orain Area w-ec, 'F Lower Journal er-m 'F ,
| |
| CirculatorC-2102(B)
| |
| Upper Labyrinth no-Ne 'F Upper Journal vr.m 'F >
| |
| Main Bearing Housing e r.ar 'F >
| |
| SteamNater Drain Area wce 'F ~!
| |
| wm 'F k' h Lower Journal CirculatorC-2103(C)
| |
| Upper Labyrinth 'no-se 'F f Upper Journal w-m 'F -
| |
| Main Bearing Housing 9r.- 'F SteamNater Drain Area war 'F Lower Journal es.e *F CirculatorC-2104(D)
| |
| Upper Labyrinth /.co-No 'F Upper Journal es-me 'F Main Bearing Housing we 'F SteamNater Drain Area tr- e 'F Lower Journal wwo 'F l
| |
| ~<-w
| |
| [
| |
| . uw
| |
| .7.-.
| |
| .=
| |
| : 7. :: .
| |
| | |
| i i l.; . ,
| |
| i i
| |
| FOSAVEX 89 PAGE 10 4
| |
| SCENARIO TIME: c/M f,
| |
| k g, '
| |
| CLOCK TIME: osm f i b PRIMARY AUXILIARIES
| |
| ............................--80ARD I-15------------------------------
| |
| REACTOR BUILDING STACK FLOW
| |
| .70 KCFM l ,
| |
| L ~
| |
| REACTOR BUILDING AMBIENT AF o.2 Inches H2O
| |
| . CONTROL ROOM TEMPERATURE & 'F l i
| |
| .)
| |
| ............................. 80ARD I-7507X---------------------------
| |
| 480V ROOM TEMPERATURE Or 'F 4
| |
| I t
| |
| s en
| |
| ( ,
| |
| W*G 4 F8 * - *
| |
| * 4 9 5.80e ** * @
| |
| 9 sg guys e M 4ABWP *geage+ m.e49 -- M 99 _ agpgegggpeggen eg,gs.emag a gre g eg O g .s
| |
| = ehm 4 sa g
| |
| , f., e ,-%y-- , A ,e.. . ,, .- x , -, -
| |
| | |
| i TOSAVEZ 89 !
| |
| i d'i - RADIATION MONITORS SCENARIO TIME:
| |
| ~
| |
| Of M !
| |
| X'' CLOCK TINE: oE45 !
| |
| NUMBER VALUE ALARMING SENSITIVITY (Y/N) :
| |
| RT-4801 /. o 1 I 4 / CPM N 2.SE-10 L
| |
| RT-4802 Lo1 *f MM N 1.25-10 1
| |
| RT-4803 /> 0 >I+f CFM /> 2.5E-8 i RT-8212. Lo R+f CFM >> 2.2E-8 i RT-8213 Lo L* CPN J > 2.25-8 RT-7312 1o i+' CFM* N 2.3E-8 '
| |
| RT-7324-1 11 LW CPN Y 3.31E-8 '
| |
| RT-7324-2 11 i+1 CFM f 1.88E-8 RT-7325-1 06 s CPN // 1.49E-5 RT-7325-2 oM mr/hr N na i RT-73437-1 3.0 E+I CPN A> 2.51E-10 :
| |
| RT-73437-2 K0 +f CPN N 2.73E-10 ,
| |
| RT-9301 Lo I + '- CFM N 1.73E-8 i RT-93252-12 4. O E - J me/hr N na ,
| |
| ARIA MONITORS NUMBER RT-93250-1 C. Y ar/hr M RT-93250-2 0, /
| |
| mr/hr N RT-93250-3 f.O ar/hr N :
| |
| RT-93250-4 0I ar/hr N -
| |
| N h-(s-.. .) RT-93250-5 RT-93250-8 0J 0I
| |
| =e/hr mr/br N R7-93250-13 0? m,/hr N
| |
| * RT-93250-14 05L mr/hr N '
| |
| RT-93252-1 OSL mr/hr #
| |
| RT-93251-3 sa ar/hr N RT-93251-4 0- me/hr N RT-93251-5 O. J mr/hr N ,'
| |
| RT-93251-6 0. ? ar/hr N RT-93251-7 0- ar/hr N
| |
| - RT-93251-8 O. U ar/hr N RT-93251-9 0.4 mr/hr N RT-93252-1 0,I ar/hr N
| |
| . RT-93252-2 0' ar/hr N RT-93252-4 O. i ar/hr N N
| |
| RT-93252-6 6. I ar/hr RT-93252-7 o- me/hr N RIA-7951 0- 0G ar/hr N METEOROLOGICAL DATA Wind Speed 10 ifpH Wind Direction From' 'h fM Degrees Plume Deviation / Sigma Theta Lo negrees Differential Temperature -aJ Dog F
| |
| : e. ]
| |
| J
| |
| * Value corresponds to the PCRV area channel. Other four channels are 30 cym.
| |
| ._ o ww e-O m._ , . , ,.u fML*"
| |
| $ f I1 J % 59 . '
| |
| -mm.__,,_-, , . . , ~ . . . . - . . , , . .,,,,.,....,,,.-_y,r.., m .._...,..,,...,,,._m..-.
| |
| | |
| l o t FOSAVEX 89
| |
| ' PAGE 1 l SCENARIO TIME: oM l 7 otvr 1 :). "
| |
| OVERALL PARAMETERS CLOCK TIME:
| |
| o Reactor Power Level l Tureine Generator Load o MW i
| |
| PRIMARY COOLANT Pressure 4s5 PSIA Temperature .
| |
| Circulater Inlet +st 'F Core Outlet 'F l Helium Flow Circulator A i 0X:.0 lb/hr ,
| |
| Circulator 8 oI:.0 lb/hr Circulator C 4. XW lb/hr .
| |
| Circulator D 6 K .7 lb/hr l TOTAL ee X :,06 lb/hr Circulator Speed Circulator A edoo RPM ,
| |
| Circulator B acro RPM ,
| |
| Circulator C a9co RPM Circulater D sas RPM Moisture (Dewpoint) !
| |
| ME-9306 adhA /;i 'F ME-9307 #wdq / 'F SECONDARY COOLANT '
| |
| Feedwater Flow Loop 1 o X 10 lb/hr Loop 2 s.w X lor Ib/hr Main Steam Loop 1 Pressure vr5 PSIG i
| |
| Temperature w,;t 'F l Loop 2 Pressure s po PSIG 1
| |
| - Temperature ans:r 'F Hot Reheat Loop 1 Pressure so PSIG Temperature .ncr 'F Loop 2 Pressure eso PSIG Temperature ssr 'F +
| |
| Cold Reheat Loop 1 Pressure .a o PSIG Temperature e 'F Loop 2 Pressure a PSIG
| |
| ' Temperature est 'F e-
| |
| +
| |
| . . . . - , . . -. . _. ;:-- = _:; . _ _ ,_ _ ._ . _ _ _ _ , _ , , . . _
| |
| - - - ~ ..
| |
| E*'
| |
| ____[
| |
| | |
| l i-i-
| |
| FOSAVEX'89 t PAGE 8 SCENARIO TIME: 0/W 5 (h
| |
| CLOCK TIME: ofW PRIMARY AUX!LIARIES -
| |
| .. ........... _ ............BCARD I-01------------------------------
| |
| GAS WASTE System 03 Inlet Pressure B PSIA Vacuum Tank Pressure O PSIA .
| |
| Surge Tank "A" Pressure at / o PSIG Surge Tank 'B" Pressure //r PSIG LIQUID WASTE System 62 NORMAL REACTOR PLANT COOLING WATER System 46 Loop 1 P-4601 oM ON/0FF P-4601$ oFr ON/0FF Header Inlet Temperature ##4 'F Barrel and Top Head Outlet Temperature iat 'F Top Penetration Inlet Temperature i/o 'F Loop 2 s P-4602 ou ON/0FF
| |
| ")~
| |
| P-46025 Header Inlet Temperature oFF G s' ON/0FF
| |
| 'F Barrel and Top Head Outlet Temperature iW 'F -
| |
| Top Penetration Inlet Temperature emo 'F Surge Tank Level "A" 40 INCHES-Surge Tank Level "B" 56 INCHES PURIFIED HELIUM System 23 NORMAL LIQUID NITROGEN System 25 NORMAL 4
| |
| e
| |
| .J Q3?,%
| |
| | |
| O I FDSAVEX 89 j
| |
| ~ '
| |
| PAGI 3 SCENARID TIME: nier l .
| |
| x) PRIMARY AUXILIARIES CLDCK TIME: ofW' 1
| |
| ..... .............. ...BDARD I-02------------------------------ l HELIUM STORAGE System 24 Low Pressure Bottles /8 PSIG High Pressure Bottles / en PSIG ,
| |
| ~ ;
| |
| EMERGENCY FEEDWATER System 31 Emergency Feed Flow 4. Ifo GPM Emergency Bearing Water Header Pressure S. i 9 o PSIG ,
| |
| HELIUM CIRCULATDRS System 21 CirculatorC-2101(A) [
| |
| Bearing Water Flow /4 s' GPM Emergency Bearing Water Flow o GPM [
| |
| 'F Bearing Water Inlet Temperature 71 Main Drain AP (, PSID Steam Exhaust / Steam Water Drain > ro PSID '
| |
| Buffer /Mid-Buffer AP /9.2 PSID 7,/ ACFM l Buffer Helium Flow >
| |
| 3,1 ACFM Buffer Helium Return Flow Circulater C-2I02 (B) i
| |
| - Bearing Water Flow //.' i GPM
| |
| ) Emergency Bearing Water Flow e GPM Bearing Water Inlet Temperature fa 'F c
| |
| Main Drain AP 7 PSID -
| |
| l- Steam Exhaust / Steam Water Drain "~
| |
| :s to PSID L Buffer /Mid-Buffer AP '
| |
| a c, PSID Buffer Helium Flow 7.v ACFM -
| |
| l i Buffer Helium Return Flow 2.7 ACFM t l
| |
| CirculatorC-2103(C)
| |
| Bearing Water Flow /90 GPM .
| |
| Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 4A 'F '
| |
| Main Drain AP 1 PSID Steam Exhaust / Steam Water Drain >50 PSID Buffer /Mid-Buffer AP 2 R.3 PSID Buffer Helium Flow 94 ACFM Buffer Helium Return Flow I.c ACFM Circulator C-2104 (D) .
| |
| Bearing Water Flow /79 GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature es 'F Main Drain AP G PSID Steam Exhaust / Steam Water Drain >ro PSID Buffer /Mid-Buffer AP s f. f PSID .
| |
| Buffer Helium Flow 9.5" ACFM '
| |
| Buffer Helium Return Flow 3 .V ACFM
| |
| , m J
| |
| --r . = y., -.-e -
| |
| | |
| r.. ;
| |
| )
| |
| 1
| |
| ! F05AVEX 89 J PAGE 4 SCENARIO TIME: o/vs'
| |
| { CLOCK TIME: ott.C i
| |
| 1 PRIMARY AUXILIARIES
| |
| .............. .............. 80ARD I-03------------------------------ :
| |
| REACTOR CONTROL Systen 12 Regulating Rod (I) Position C INCHES ,
| |
| RunbackGroupPositions(All) d INCHES I Shim Rod Position O INCHES ,
| |
| Flux Controller Position N/A 0/0, +/-
| |
| Reserve Shutdown Material NM STATUS P
| |
| I N/
| |
| p .
| |
| 9 I
| |
| l e
| |
| e t
| |
| l t
| |
| t l ., @
| |
| .,m
| |
| - - . . ..,- - _ . = . . . _ . . _ _ _ _ _
| |
| e y y-y- y . -.e,,-- - .-.- -
| |
| | |
| C V I
| |
| F05AVEX 89 PAGE 5 SCENARIO TIME: o/vr '
| |
| ('-)m .
| |
| CLOCK TIME: os vt [
| |
| l PRIMARY AUXILIARIES
| |
| ..............................B0ARD I-04------------------------------
| |
| REGIONOUTLETTEMPERATURES(DegF)
| |
| : 1. M2 11. mo 21. noe . 31. / n r. . .
| |
| 2.
| |
| Aae 12. sv + . 22. h v/ 32. wo *
| |
| : 3. /s o 13. /.r y 23. />#r 33. __/_GhiLF.
| |
| 4, w r). 14. /.rso . 24. /FM 34. /ns' t
| |
| : 5. A E.C 15. i /Vm
| |
| * 25. nn 35. JM*
| |
| : 6. /tse 16. Apo . 26. Arm. 36. /20 ,
| |
| n.rs
| |
| : 7. /vse 17. itsy 27. /.sr s 37.
| |
| : 8. /39Y .18. m+ . 28. etmo.
| |
| : 9. /3tG 19. /20 29. sess' :
| |
| : 10. /nf-/ 20. /0.so . 30. /990 REGION ORIFICE VALVE POSITION (5 open) l
| |
| : 1. // P 11. /s. V 21. et.2 31. 7. 9
| |
| : 2. a,y 12. 45 22. $9. 7 32, 4.s 1
| |
| : 3. so.c 13. 90. G 23. r,,5 33. a.7
| |
| \'.
| |
| : 4. u.1 14. /9. 9 24. t. G 34. as,e
| |
| : 5. m.v 15. 40 25. n,v 35. //./
| |
| : 6. /A G 16. 4,7 26, 4,9 , 36. M,7
| |
| : 7. 12, V '
| |
| : 17. 12./ 27. n,9 37. /s. t- I
| |
| : 8. _7J,G 18. 44r/ 28. 4 .9
| |
| ,- 9. rr.3 19. //.o 29. /c, G t 10. /s.) 20, 5, 9 30. //.r, i r
| |
| i t
| |
| t
| |
| ; p . '' '
| |
| ^
| |
| ~~~
| |
| +,,. 39;,,
| |
| , - .- , - . ~ . , . - - - - , - . - . - - - - .-
| |
| | |
| --. ~ b I
| |
| FDSAVEX 89 1
| |
| PAGE 6 SCENARID TIME: our j
| |
| - (.. CLDCK TIME: oyv5" PRIMARY AUXILIARIES
| |
| . . ...............__.....-BDARD I - 0 5 ---- - - - - - - - - - - - - - - - - -
| |
| HYDRAULIC DIL System 91 NDRMAL i
| |
| STEAM WATER DUMP TANK System 22 Loop Selected / 1 or 2 -
| |
| Pressure Jor PSIG ,
| |
| Temperature 4srs *F i l
| |
| Level INCHES HELIUM CIRCULATDRS System 21 CirculatorC-2101(A)
| |
| Rotor Speed m RPM Helium Flow (Low Range) e.or PSID i Helium Flow (High Range) o %
| |
| Compressor AP D PSID Steam Supply Pressure .ao PSIA l Steam Exhaust Pressure Ao PSIA Steam Turbine Pressure Ratio 40 ,
| |
| Circulater C-2102 (B)
| |
| Rotor Speed moe RPM
| |
| (: - ]
| |
| - Helium Flow (Low Range) 0.0/ PSID Helium Flow (High Range) o % -
| |
| Compressor AP o PSID Steam Supply Pressure .ec PSIA Steam Exhaust Pressure so PSIA -
| |
| Steam Turbine Pressure Ratio Ao CirculatorC-2103(C)
| |
| Rotor Speeo 49ao RPM Helium Flow (Low Range) o. s- PSID
| |
| , Helium Flow (High Range) M %
| |
| Compressor AP 9./ PSID Steam Supply Pressure so PSIA Steam Exhaust Pressure ou PSIA Steam Turbine Pressure Ratio eo ,
| |
| CirculatorC-2104(D)
| |
| Rotor Speed RPM
| |
| . Helium Flow (Low Range) m _ PSID o.r ~
| |
| Helium Flow (High Range) 9t, %
| |
| Compressor AP rx PSID Stcan Supply Pressure m PSIA Steam Exhaust Pressure go PSIA Steam Turbine Pressure Ratio eo
| |
| -' FAIN TUREINE System 51 NORMAL 7
| |
| :rth _
| |
| ,,ww.. ww.,- w-- w ,r - . - -- -uw... ,--..c. --,-..r-, - - - - , - , - - - - _ - -
| |
| | |
| 5 r
| |
| FOSAVEX 89 PAGE 7 SCENARIO TIME: onf
| |
| .. (.L ~..
| |
| As )- ,
| |
| CLOCK TIME: dtW L
| |
| PRIMARY AUXILIARIES
| |
| ------------------------------80ARD I-06------------------------------
| |
| FEEDWATER System 31 Emergency Feedwater Pressure dr900 PSIG Boiler Feed Pumps Feed Pump A -
| |
| Speed o RPM plow w h X 10 lb/hr p~ Feed Pump B Status % ON/0FF Flow .sys X 105 lb/hr Feed Pump C Speed o RPM Flow wh X 10 lb/hr CONDENSATE System 31 NORMAL MISCELLANEOUS Bypass Flash Tank Pressure .ro PSIG Hot Reheat Bypass Valve Positions NORMAL 3
| |
| PLANT ELECTRICAL System 92 Essential Loop 1 Loop 4160 VAC 7/cggd 480 VAC 120 VAC 120 VOC Emergency Diesel Generator ACM Diesel Generator u Non-Essential Switchyard Ned '
| |
| 4160 KV 480 VAC 120 VAC i 120 VOC +
| |
| MAIN TOWER System 41 NORMAL L
| |
| SERVICE WATER TOWER System 42 NORMAL FIRE WATER System 45 NORMAL INSTRUMENT AIR System 82 NORMAL
| |
| ... SERVICE AIR System 82 NORMAL g .
| |
| , , , , . . . . . , . . . . ~ - . + - e ..,w-. ===.
| |
| , 5*%,= my7.p g4 r'A$F
| |
| | |
| F ,
| |
| R!SAVEX 89 ~
| |
| PAGE 8
| |
| . SCENARIO TIME: avr CLOCK TIME: otr i PRIMARY AUXILIARIES l
| |
| f
| |
| . ............................ 80ARD I-10------------+-----------------
| |
| j PLANT PROTECTIVE SYSTEM i REACTOR BUILDING TEMPERATURE - HIGH '
| |
| Bay 100 Aw *F Bay 200 as 'F .
| |
| Bay 300 x 'F :
| |
| REHEAT ACTIVITY MONITORS -
| |
| Loop 1 Bay 1200 e/ mr/hr Bay 1100 4/ ar/hr .
| |
| Bay 1000 e/ mr/hr t Loop 2 Bay 600 er er/hr Bay 500 o ar/hr !
| |
| Bay 400 xr mr/hr ,
| |
| MOISTURE MONITORS Dew Point Md/d/ 'F Loop 1 Loop 2 fu1DJ *F r MAIN STEAM LOOP AP #/30 PSID BUFFER SEAL MALFUNCTION f r -m __ .
| |
| 4 L
| |
| .<~,,
| |
| W c - - - . - - . - _ - , , _ . _ . . _ _ . _ _ . .
| |
| - _ - - m ,- e- --. - - - . - y-y -
| |
| w x e - , - -
| |
| | |
| i F3SAVEX 89 PAGE 9 i
| |
| SCENARIO TIME: o/vr i
| |
| ( v. w) CLOCK TIME: afW :
| |
| . PRIMARY AUXILIARIES
| |
| ........................ _....BDARD I-13------------------------------
| |
| PENETRATIOh INTERSPACE AP P PSID REACTOR BUILDING SUMP DISCHARGE FLOW
| |
| < <o GPM HELIUM CIRCULATORS System 21 Guard Helium Flow 0 lb/hr .
| |
| Bearing Assembly Temperature f
| |
| Circulator C-2101 (A)
| |
| Upper Labyrinth /J0-/Vo 'F '
| |
| Upper Journal or-m 'F t Main Bearing Housing em 'F steamWater Drain Area er s.c *F Lower Journal 75-m 'F CirculatorC-2102(B) :
| |
| Upper Labyrinth /Jo-/co 'F
| |
| * Upper Journal or-ao 'F ,
| |
| Main Bearing Housing es -,w 'F SteamNater Drain Area e r - a., 'F ,
| |
| \'
| |
| ) Lower Journal w-ev 'F i CirculaterC-2103(C) l Upper Labyrinth 53o-/vo 'F Upper Journal or- m 'F Main Bearing Housing e- w 'F ,
| |
| Steamhater Drain Area er- u 'F -
| |
| L Lower Journal w- w 'F CirculaterC-2104(D)
| |
| Upper Labyrinth rio ero *F Upper Journal rpr-w 'F Main Bearing Housing er. fee 'F SteamNater Drain Area er w 'F Lower Journal *>r-em 'F '
| |
| ~
| |
| \
| |
| \
| |
| l .. \ 4
| |
| .' *N . . . . . . . . . .. . - . . . . . . .
| |
| . . . . . - . . = . - . . . . . .= : . . . . . - -
| |
| .= .- .
| |
| = -
| |
| | |
| i i
| |
| f05AVEX89 - !
| |
| PAGE 10
| |
| . SCENARIO TIME: c/vs-
| |
| -('. _)
| |
| .g CLOCK TIME: otyr PRIMARY AUXILIARIES .
| |
| .............................. B0ARD I-15------------------------------
| |
| i REACTOR BUILDING STACK FLOW .To KCFM r
| |
| REACTOR BUILDING AMBIENT AP o. A Inches H2O CONTROL ROOM TEMPERATURE Gh' 'F l t
| |
| (
| |
| t
| |
| ..............................B0ARD I-7507X---------------------------
| |
| 480V ROOM TEMPERATURE Of 'F 4
| |
| e J
| |
| ']
| |
| g -
| |
| . bse -
| |
| , em s m- + ehow 4
| |
| . . . . . - . . . . . . . . . ~ , . . . . . . - . ..
| |
| | |
| . . _ . . _ . _ _ _ _ _ . _ _ _ . _ . _ ~ . _ __ ,
| |
| l
| |
| {
| |
| TOSAVT.I 39
| |
| (". RADIATION MONITORS SCENARIO TIME: 0100
| |
| ( CLOCK TIME: _ O900 i
| |
| NUMBER VALUE ALARMING SENSITIVITY i (T/N)
| |
| RT-4801 /o 44/ CFB N 2.8E-10 RT-4802 Lo '+1
| |
| - CFM N 1.25-10 37-4803 /. C d +1 CFM A/ 2.5E-8 RT-6212 /> 0 d+l CFM N 2.2E-8 RT-6213 /. o E+ CFM N 2.2E-8 RT-7312 1. o E+ CFM* A/ 2.3E-8 . 1 RT-7324-1 L0 [+F CFM Y 3.31E-6 ]
| |
| RT-7324-2 /T !+1 CFM Y 1.88I-6 RT-7325-1 OOs CFM N 1.49E-5 )
| |
| RT-7325-2 o 05 mr/hr N na RT-73437-1 2.1E+1 CFM A/ 2.51E-10 l RT-73437-2 2. / E + 3 CFM // 2.73E-10 !
| |
| RT-9301 Z. 0 f: + G CFM // 1.73E-8 RT-93252-12 4. O E - I ar/hr // na ARIA MONITORS NUMBER RT-93250-1 43 mr/hr M i RT-93250-2 C/ mr/hr N
| |
| < .. RT-93250-3 f. O ar/hr N RT-93250-4 0. I ar/hr // -
| |
| s RT-93250-5 01 mr/hr //
| |
| RT-93250-8 01 mr/hr d '
| |
| RT-93250-13 C. I ar/hr J /
| |
| RT-93250-14 OSL mr/hr //
| |
| RT-93251-1 0 51- ar/hr //
| |
| RT-93251-3 fo, ar/hr //
| |
| RT-93251-4 0- ar/hr J/
| |
| RT-93251-5 GI ar/hr N RT-93251-6 0. '
| |
| ar/hr N 3 RT-93251-7 O- ar/hr N RT-93251-8 C. 1 mr/hr N RT-93251-9 0.8 mr/hr N '
| |
| RT-93252-1 O* '
| |
| ar/hr N RT-93252-2 0i ar/hr N RT-93252-4 RL mr/hr N ~
| |
| RT-93252-6 0I ar/hr N RT-93252-7 O- me/hr N ,
| |
| RIA-7951 0. 0G ar/hr N METEOROLOGICAL DATA Wind Speed 3.0 MPH Wind Direction From 'A f f negrees Plume Deviation / Sigma Theta 4. 0 negrees
| |
| +- - Differential Temperature - 0. b nog F A --
| |
| * Value corresponds to the PCRV area channel. Other four channels are 30 cym.
| |
| trae' a= c e-+ r er w m e ww e.
| |
| .,d--.,q-y ca gi yy-- g---
| |
| * FOS / VEX 89 '
| |
| PAGE 8 SCENARIO TIME: CJcc CLOCK TIME: c9ce $
| |
| OVERALL PARAMl"TERS Reactor Power Level o E Turbine Generator Load o MW PRIMARY COOLANT
| |
| * Pressure +se PSIA ,
| |
| Temperature .
| |
| Circulator Inlet *ss 'F ,
| |
| me 'F Core Outlet Helium Flow Circulator A o X :.0 lb/hr +
| |
| Circulator B .
| |
| oILO lb/hr Circulator C r, X :.0F lb/hr .
| |
| Circulator 0 6Xl 05 lb/hr '
| |
| TOTAL /a X E- lb/hr Circulator Speed .
| |
| Circulator A _rce RPM Circulator B w RPM Circulator C 4fer> RPM Circulator D Mce RPM Moisture (Dew Point) d y J />> / 'F '
| |
| ME-9306 .
| |
| - ME-9307 of4,d, ua t 'F V _g) ' ;
| |
| SECONDARY COOLANT ,
| |
| Feedwater Flow Loop 1 o X 10 lb/hr Loop 2 S.'is X 10F lb/hr Main Steam Loop 1 Pressure we PSIG Temperature ,xt:, 'F Loop 2 Pressure _arso PSIG Temperature .ur 'F
| |
| 'l , =, Hot Reheat ,
| |
| Loop 1 Pressure .no PSIG
| |
| ; Temperature nec 'F Loop 2 Pressure .so PSIG Temperature on.rs- 'F Cold Reheat .
| |
| i Loop 1 Pressure ao PSIG Temperature .erc *F i Loop 2 Pressure ec PSIG
| |
| . Temperature s.s-s- 'F s' '') .'
| |
| s 4
| |
| 9- <w. , , - - . - s- ,--w -- , , , , ,,,, . _ . _ . , , - - - - - - - . .- . _ - - . - - - --, -. _ .
| |
| | |
| L F05AVEX 89 PAGE 2 1
| |
| SCENARIO TIME: campo -
| |
| CLOCK TIME: e9et)
| |
| PRIMARY AUXILIARIES
| |
| .. . . .... . . . _ .. . ..._ 90 A RD I --------------- -----------
| |
| GAS WA$iE Systes 63
| |
| & PSIA h Inlet Pressure *
| |
| . Vacuum Tank Pressure a PSIA ,
| |
| Surge Tenk "A" Pressure 4/ O PSIG Surge Tank "B" Pressure //r PSIG j
| |
| . LIQUID WASTE i
| |
| Systen 62 NORMAL 3 REACTOR PLANT COOLING WATER System 46 i
| |
| Loop 1 P-4601 od ON/0FF ;
| |
| P-46015 oFF ON/0FF Header Inlet Temperature //s 'F Barrel and Top Head Outlet Temperature /Aa 'F Top Penetration Inlet Temperature //o 'F Loop 2 1 P-4602 od ON/0Fr -
| |
| i P-4602S OPr ON/0FF
| |
| ~
| |
| ) Header Inlet Temperature /vr _ 'F '
| |
| Barrel and Top Head Outlet Temperature /6 s . 'F ,
| |
| Top Penetration Inlet Temperature /40 'F Surge Tank Level "A" 40 INCHES-Surge Tank Level "B" r6 INCHES PURIFIED HELIUM System 23 NORMAL LIQUID NITROGEN System 25 NORMAL i
| |
| 9 9
| |
| '4
| |
| (- J'
| |
| - a
| |
| ''MM b
| |
| '**"' -N, -e mgwp p,.m
| |
| "" v' w c , - - . , , _ _ _
| |
| | |
| FOSAVEX 89
| |
| ~
| |
| PAGE 3
| |
| ^
| |
| SCENARIO TIME: o900 !
| |
| CLOCK TIME: o906 PRIMARY AUXILIARIES
| |
| .................. ...... ...B0ARD I-02----------------------------- ;
| |
| HELIUM STORAGE System 24 Low Pressure Bottles /B PSIG High pressure Bottles M f( PSIG EMERGENCY FEEDWATER System 31 Emergency Feed Flow 4 /ro GPM Emergency Bearing Water Header Pressure *-190 PSIG HELIUM CIRCULATORS System 21 '
| |
| CirculatorC-2101(A)
| |
| Bearing Water Flow /dr GPM Emergency Bearing Water Flow <3 ,,_ GPM ,
| |
| Bearing Water Inlet Temperature ea 'F Main Drain AP 4 PSID i Steam Exhaust / Steam Water Orain > 50 PSID ,
| |
| Buffer /Mid-Buffer AP ff.s PSIO l Buffer Helium Flow 7. / ACFM Buffer Helium Return Flow 31 ACFM l r CirculaterC-2102(B)
| |
| Bearing Water Flow /dr GPM i Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature ea 'F ,
| |
| l Main Drain AP 7 PSIO .
| |
| Steam Exhaust / Steam Water Drain 'r so PSID Buffer /Mid-Buffer AP M ./ PSID Buffer Helium Flow 7. Y ACFM Buffer Helium Return Flow 3.7 ACFM CirculatorC-2103(C)
| |
| Bearing Water Flow /fo GPM Emergency bearing Water Flow o GPM ,
| |
| Bearing Water Inlet Temperature 9K 'F Main Orain AP 7 PSIO Steam Exhaust / Steam Water Orain >(o PSIO Buffer /Mid-Buffor AP .s A.I PSID Buffer Helium Flow E.f ACFM Buffer Helium Return Flow 3.r ACFM t CirculatorC-2104(D) .
| |
| Bearing Water Flow /7f GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature f6 'F Main Orain AP & PSIO Steam Exhaust / Steam Water Drain >so PSIO Buffer /Mid-Buffer AP 21.6 PSID Buffer Helium Flow 7 6 ACFM Buffer Helium Return Flow 3.V ACFM I
| |
| /
| |
| "#, -('' ' 't t' t T' **.
| |
| | |
| i .
| |
| 5 FOSAVEX 89 l PAGE 4 l SCENARIO TIME: dame
| |
| {'.- CLOCK TIME: a9oo PRIMARY AUXILIARIES
| |
| ..............................B0ARD I-03------------------------------ l i' REACTOR CONTROL System 12 ,
| |
| C) INCHES Regulating Rod (1) Position .
| |
| RunbackGroupPositions(All) o INCHES ,
| |
| Shim Rod Position O INCHES- s l
| |
| Flux Controller Position NM 0/0, +/-
| |
| Reserve Shutdown Material hd STATUS l ;
| |
| {- )
| |
| t f
| |
| l t
| |
| l 3
| |
| .1 z
| |
| v.
| |
| | |
| -x -w :
| |
| s FOSAVEX 89 H PAGE 5 i SCENARIO TIME: cego CLOCK TIME: ofor ,
| |
| PRIMARY AUXILIARIES
| |
| ..............................B0ARD I-04------------------------------
| |
| lg REGIONOUTLETTEMPERATURES(DegF)
| |
| -1. _.gvh 11. Ano 21. Ace. 31. /s35 .
| |
| : 2. Ano 12.' ntt. 22. /kD 32. air
| |
| : 3. /mo 13. /299 23. /MP 33. /rnaat 4.. / vin. 14 /f;io. 24. /9/Y 34. //XA :
| |
| : 5. avo 15. /wn. .25. m 35. /vW.
| |
| : 5. No 16. woe. 26. /3e 36, ano
| |
| : 7. no4 17. /9<& 27. -/.29F 37. # A 9'
| |
| : 8. /2 13 18. /97+ . 28. /.rmo .
| |
| : 9. 22 s/ 19. /Ao 29. /9/v
| |
| : 10. /P9/ 20. /oso. 30. /tko REGION ORIFICE VALVE POSITION (% open)
| |
| : 1. // y 11. or 21. /u 31. F. 9
| |
| . 2. n.y 12. n.s 22. 44.9 32. is .2
| |
| : 13. 23. 4.5 33, ss.?
| |
| : 3. 50 0 JL es.o
| |
| + ) 4.
| |
| 5.
| |
| m3
| |
| : n. V 14.
| |
| 15.
| |
| /55 1o 24.
| |
| 25.
| |
| f,6
| |
| : n. 9' 34.
| |
| : 35. //. /
| |
| 4.9
| |
| : 6. /3.6 16. /4.7 26. . 36. o.?
| |
| : 7. /s. t' 17. m/ 27. n.7 37. 17.6
| |
| ~
| |
| : 8. E.6 18. +v/ 28.- ar.9
| |
| : 9. sr.3 19. /. .o 29. Ih &
| |
| : 10. _93 20. s.9 30. //.G r
| |
| L i
| |
| l -'
| |
| . / : c.- _
| |
| , .-m. ....e
| |
| | |
| FOSAVEX 89 PAGE 5 SCENARIO TIME: sco N
| |
| kal CLOCK TIME: '
| |
| oRo PRIRARY AUXILIARIES
| |
| ------------------------------BOARD I-05------ -------------------
| |
| HYDRAULIC OIL: System 91 NORMAL STEAM WATER DUMP TANK System 22 Loop Selected / 1 or 2 -
| |
| Pressure < rar PSIG
| |
| -Temperature ema 'F Leyel - '-
| |
| -PP ' INCHES
| |
| (
| |
| HELIUM CIRCULATORS System 21 CirculatorC-2101(A)
| |
| Rotor-Speed . eme RPM
| |
| - Helium Flow (Low Range) o.o/ PEG Helium Flow (High Range) o %
| |
| Compressor AP O PSID Steam Supply Pressure am PSIA' Steam Exhaust Pressure as PSIA Steam Turbine Pressure Ratio 40 _
| |
| CirculatorC-2102(B)
| |
| -(, Rotor Speed c:srop __ RPM Helium Flow (Low Range) o,o/ _, PSID Helium Flow (High Range) o %
| |
| Compressor AP o FSID Steam Supply Pressure a Pila Steam Exhaust Pressure Jr fSIA -
| |
| Steam Turbine Pressure Ratio Ao CirculaterC-2103(C)
| |
| Rotor Speed 4 9eo _ RPM Helium Flow (Low Range) o.f PSID Helium Flow (High Range) n9 %
| |
| Compressor AP 42 PSID Steam Supply Pressure m PSIA Steam Exhaust Pressure Ja __ PSIA Steam Turbine Pressure Ratio Ac ,
| |
| Circulator C-2104 (D)
| |
| Rotor Speed Ake RPM Helium Flow (Low Range) e,5-PSID Helium Flow (High Range) L .
| |
| Compressor AP SE PSID Steam Supply Pressure as PSIA Steam Exhaust Pressure as PSIA
| |
| . .s Steam Turbine Pressure Ratio e, o s MAIN TURBINE System 51 NORMAL 1
| |
| 37
| |
| + M
| |
| , ' ^*
| |
| * l''N' D 4 } [ "I $ g ?,' V' '%
| |
| | |
| ') [
| |
| k
| |
| 'FOSAVEX 89 PAGE 7 SCENARIO TIME: oJioo CLOCK TIME: n9m PRIMARY-AUXILIARIES
| |
| .............................-B0ARD I-06------------------------------
| |
| FEE 0 WATER System 31 Emergency Feedwater Pressure apors PSIG Boiler Feed Pumps Feed Pump A .
| |
| Speed O RPM Flow p/s X LO lb/hr Feed Pump B 1 Status A ON/0FF !
| |
| Flow .cr X lor ib/hr .
| |
| Feed Pump C Speed o RPM !
| |
| Flow g/s X 10 lb/hr i'
| |
| CONDENSATE System 31 NORMAL MISCELLANEOUS Bypass Flash Tank Pressure @ PSIG
| |
| - . Hot Reheat' Bypass Valve Positions NORMAL
| |
| '' I PLANT ELECTRICAL System 92 Essential Loop 1 Loop 2 l l.
| |
| 4160 VAC h ggag/
| |
| 480 VAC 120 VAC i 120~ VDC 1- Emergency Diesel Generator
| |
| ! ACM Diesel Generator e o l.
| |
| L Non-Essential l '
| |
| Switchyard Yu./
| |
| 4160 KV 480 VAC 120 VAC 120 VOC 9 MAIN TOWER System 41 NORMAL l SERVICE WATER TOWER System 42 NORMAL FIRE WATER System 45 NORMAL L INSTRUMENT AIR System 82 NORMAL L
| |
| l s. SERVICE AIR System 82 NORMAL l
| |
| - . ;.y
| |
| ~ . - . .
| |
| /
| |
| ?; .
| |
| I,
| |
| | |
| i F1SAVEX 89
| |
| ^!' PAGE 8
| |
| ]
| |
| ~l SCENARIO TIME: e 1
| |
| - CLOCK TIME: oson PRIMARY AUXILIARIES l
| |
| .. . .. .... . ... .. ... .. .. ... . ... . B0ARD I ---------------------- -- ----- ;
| |
| PLANT PROTECTIVE SYSTEM i
| |
| REACTOR BUILDING TEMPERATURE - HIGH -
| |
| Bay 100 AF *F Bay 200 or 'F -
| |
| Bay ~300 /or 'F .
| |
| REHEAT ACTIVITY MONITORS '
| |
| Loop 1 Bay 1200 // mr/hr Bay 1100- ee ar/hr .
| |
| Bay 1000 </ mr/hr Loop 2 Bay 600 </ _ ar/hr Bay 500- </ mr/hr
| |
| -Bay 400 /, r ar/hr MOISTURE MONITORS
| |
| . Dew Point Loop 1 O/lal N / 'F A'~J)-
| |
| Loop 2 goJG/ 'F MAIN STEAM LOOP AP s/52 PSID
| |
| /r-;20 .
| |
| BUFFER SEAL MALFUNCTION S
| |
| k
| |
| .8
| |
| .N p**- .a+
| |
| i-
| |
| ~~ ~
| |
| | |
| IDSAVEX 89 PAGE 9 -
| |
| SCENARID TIME: e I[ CLOCK TIME: 09er PRIMARY AUXILIARIES
| |
| . .. . .. . . . .. . . . .. . . . . .. . ------- B D A R D I --------------------------
| |
| PENETRATION INTERSPACE AP P PSID REACTOR BUILDING SUMP DISCHARGE FLOW </o GPM HELIUM CIRCULATORS System 21 Guard Helium Flow 0 lb/hr Bearing Assembly Temperature .
| |
| CirculatorC-2101(A)
| |
| Upper Labyrinth ' /fo-wo
| |
| . 'F Upper Journal- W-m 'F Main Bearing Housing 9r m 'F SteamNater Drain Area er-x,e 'F Lower Journal ?r-m 'F CirculatorC-2102(B)
| |
| , Upper Labyrinth /fo-No 'F Upper Journal 75-ev 'F Main Bearing Housing 9r-ev 'F Steam Water Drhin Area vs,-av 'F.
| |
| '\' ..~ > - Lower Journal T-ov 'F CirculatorC-2103(C)
| |
| . Upper Labyrinth '/To-NO *F.
| |
| Upper Journal 9r.m 'F Main Bearing Housing OS-m *F SteamMater Drain Area er-u 'F.
| |
| Lower Journal er-m 'F CirculatorC-2104(D)
| |
| Upper Labyrinth /30-No 'F Upper Journal oe-m 'F Main Bearing Housing 9r-ev "F SteamNater Drain Area w.mn 'F Lower Journal es-m 'F e
| |
| 4
| |
| \
| |
| p, .
| |
| a.e U.i
| |
| .. ,e :
| |
| % J% . . . . . . . - - . . . .. ........
| |
| W.W
| |
| $Y -
| |
| M /p g My- % 9 %g
| |
| | |
| FOSAVEX 89 PAGE 10 ,
| |
| SCENARIO TIME: c.ce
| |
| .(.... . ... -
| |
| CLOCK TIME: o900 J
| |
| PRIMARY AUXILIARIES
| |
| ...........................--- 80ARD I-15------------------------------
| |
| REACTOR BUILDING STACK FLOW Jo KCFM REACTOR BUILDING AMBIENT AP C.2 Inches H2O CONTROL ROOM TEMPERATURE 67 'F
| |
| : i. ; T' r-
| |
| ----------------------------- BOARD I-7507X---------------------------
| |
| 480V ROOM TEMPERATURE 75' 'F no G
| |
| e 4
| |
| 9
| |
| .,,pw
| |
| &^5 s . .-
| |
| | |
| [.~.-
| |
| FOSAVEX 89 PAGE-1 SCENARIO TIME: av>- .,
| |
| bl0CKTIME: 09/r r OVERALL PARAMETERS ,
| |
| Reactor Power Level o %
| |
| Turbine Generator Load o MW t
| |
| PRIMARY COOLANT-Pressure 4fo PSIA .
| |
| Temperature- ,
| |
| Circulator Inlet +s2 'F Core Outlet /Jso 'F Helium Flow
| |
| ~ Circulator A O X 10 lb/hr Circulator B oX:,0 'Ib/hr lb/hr Cireviator C GX:,03 '
| |
| l- Circulator D 6X:,0' lb/hr I TOTAL As X :,0* lb/hr Circulator Speed Circulator A _sre RPM Circulator B .avo RPM
| |
| ' Circulator C see RPM Circulater 0 AW RPM Moisture (Dew Point)
| |
| ME-9306 g u.A Li/ 'F
| |
| ~. ME-9307' #~A /;f/ 'F ,
| |
| 1 i
| |
| s.. ,;_) .
| |
| SECONDARY COOLANT '
| |
| p; Feedwater Flow Loop 1 -. O X 10' lb/hr' -!
| |
| 1 Loop 2 s w X 10F lb/hr Main Steam Loop 1 Pressure +w PSIG Temperature -,s ;r 'F Loop 2 Pressure a nsf o PSIG 4 Temperature eserr 'F Hot Reheat Loop 1 Pressure .zo PSIG Temperature rs:r 'F r
| |
| Loop 2 Pressure .co PSIG Temperature arr 'F l
| |
| l- Cold Reheat _
| |
| Loop 1 Pressure ao PSIG Temperature .nsr 'F Loop 2 Pressure no PSIG Temperaturn orsf- 'F l" --
| |
| +
| |
| ; , / E b.
| |
| 1 1
| |
| I
| |
| '9 I
| |
| . . - - . - . . - . - . ; .._ ; I l,, , , . . - . . . . . - _ _ . . . . . . . . . _, ..
| |
| - - - - . . - - - - - - . - . . - - - :s~:- .~
| |
| | |
| - _~
| |
| F05AVEX 89 PAGE 2 t SCENARIO TIME: dS//
| |
| CLOCK TIME:
| |
| PRIMARY AUXILIARIES
| |
| .. _ . . ... ._. . . .... . . . ... . B0 A RD I ---------------------- -- ----
| |
| ' GAS WASTE System 63 Inlet Pressure A PSIA Vacuum Tank Pressure e PSIA .
| |
| Surge Tank "A" Pressure - v/ o PSIG Surge Tank "B" Pressure //r PSIG 1 LIQUID WASTE System 62 NORMAL REACTOR PLANT COOLING WATER System 46 .
| |
| Loop 1 l P-4601 04 ON/0FF -l P-4601S oFF ON/0FF
| |
| -Header Inlet Temperature //B 'F .I Barrel and Top Head Outlet Temperature /AG 'F -l Top Penetration Inlet Temperature f / s. 'F '
| |
| Loop 2
| |
| - - - . P-4602 M ON/0FF Y: ' - P-4602S Header Inlet Temperature oFF
| |
| /cr ON/0FF-
| |
| 'F ,
| |
| Barrel and Top Head Outlet Temperature /4r 'F -
| |
| i Top Penetration Inlet Temperature /vr 'F' ~!
| |
| L Surge Tank' Level "A" VO INCHES- ,
| |
| l Surge Tank Level "B" S'6 INCHES !
| |
| 1 I
| |
| PURIFIED HELIUM System 25 NORMAL LIQUID NITROGEN System 25 NORMAL l
| |
| i Ir l
| |
| I' 1;
| |
| l:
| |
| em s '
| |
| 1 l.
| |
| | |
| -- .- . .. . . - -- . ~
| |
| FO!AVEX 89-PAGE 3 ,
| |
| SCENARID TIME: o str r' n -. .
| |
| <'M CLOCK TIME:
| |
| PRIMARY AUXILIARIES
| |
| ------------- -------------- B OA R D I - 0 2 ---- -------------------- ------
| |
| HELIUM STORAGE System 24 Low Pressure Bottles B PSIG High Pressure Bottles /#r PSIG EMERGENCY FEEDWATER System 31 Emergency Feed Flow 4.ifo GPM Emergency Bearing Water Header Pressure Aifo PSIG-HELIUM CIRCULATORS System 21 Circulator :C-2101 ( A) i Bearing Water Flow' /4r GPM Emergency Bearing Water Flow o GPM ,
| |
| c 92 'F Bearing Water Inlet Temperature <
| |
| Main Drain AP & .PSID L
| |
| Steam Exhaust / Steam Water Drain >ro PSID J Buffer /Mid-Buffer AP /f.a PSID Buffer Helium Flow ?./ ACFM l
| |
| l- Buffer Helium Return Flow 3./ ACR4 CirculatorC-2102(B).
| |
| Bearing Water Flow /A r - GPM L
| |
| h ') Emergency Bearing Water Flow o GPM
| |
| ' ' Bearing Water Inlet Temperature .
| |
| : 12. 'F i
| |
| Main Drain'AP , 7 PSID -
| |
| l Steam Exhaust / Steam Water Drain >to PSID Buffer /Mid-Buffer AP s. 6 . l PSID Buffer Helium Flow ?. V ACFM Buffer Helium Return Flow 3.7 ACFM CirculatorC-2103(C)
| |
| Bearing Water Flow /90 GPM-Emergency Bearing Water Flow o GPM l
| |
| l Bearing Water Inlet Temperature 9# 'F Main Drain AP ? PSID ,
| |
| Steam Exhaust / Steam Water Drain dro PSID i Buffer /Mid-Buffer AP 3 B .3 PSID Buffer Helium Flow a.r ACFM Buffer Helium Return Flow 2.f ACFM Circulator C-2104 (D) ~
| |
| Bearing Water Flow /?9 GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature eg 'F ll 1 Main Drain AP & PSID i
| |
| -Steam Exhaust / Steam Water Drain >co PSID Buffer /Mid-Buffer AP s. 9 . G PSID 1
| |
| Buffer Helium Flow '76 ACFM Buffer Helium Return Flow 3 . +' ACFM 1
| |
| l . . _
| |
| l~
| |
| l I:
| |
| L _ _ _ _ _ . _ . - - _
| |
| a -
| |
| ; :-, n .
| |
| | |
| FOSAVEX 89 PAGE 4 -
| |
| I SCENARIO TIME: das CLOCK TIME: 09 6 PRIMARY AUXILIARIES
| |
| ..... . . . . ....... ... .. . . .... ... B0ARD I - 0 3 -----------------------------
| |
| REACTOR CONTROL Systes 12 Regulating Rod (1) Position o INCHES Runback Group Positions (All) e INCHES Shim Rod Position e C INCHES Flux Controller Position we 0/0, +/-
| |
| Reserve Shutdown Material NM STATUS e
| |
| 9 3
| |
| e l
| |
| l t-
| |
| . . . . + , ~ ~
| |
| .5'~' ,
| |
| 4 --- - . - - - ,
| |
| | |
| , _ . . _ . . . - . _ - _ -_ .v_.~ _
| |
| 1 l
| |
| FOSAVEX 89-
| |
| *PAGE 5 ;
| |
| M SCENARIO TIME: ows CLOCK TIME: 09/r'
| |
| $1MARYAUXILIARIES
| |
| .............................. B0ARD I-04------------------------------
| |
| REGION OUTLET. TEMPERATURES (Deg F)
| |
| ~1. /71Jt . 11. /20 21. . / fco. 31. /_f.15 e ' -
| |
| : 2. no 12. M* 22. /92/ - 32. /320
| |
| : 3. /2 o 13. /90V 23. /909 33. /sas a
| |
| : 34. /9</A I
| |
| : 4. sc/tr9 ' 14. /.?Do* 24. Alc00*
| |
| 5.. /s9C 15. ivre . 25. /20 35. /</eV.
| |
| : 6. AC00 16. Mm e 26. nyt,
| |
| * 36. j.n o
| |
| : 7. ~/v% . 17. J?a:De 27. Irf7 37. //v.t
| |
| : 8. s19Y 18. /c/W* 28. /330*
| |
| : 9. /39/, 19. /20 29. Af1De
| |
| - 10. M(f/ 20. /o.10 30. /970 REGION ORIFICE VALVE POSITION (% open)
| |
| : 1. //, P 11. /2 V 21. /7, a 31. f. 9
| |
| : 2. n.P 12. /F. f 22.- +S, 9 32. m.r
| |
| : 3. sao 13. 99.6 23. <, . r 33. rt. .O
| |
| . (:.- 4. 13 3 14. /9. 7 - 24. 2. 4
| |
| /1. Y 34.
| |
| 35.
| |
| ap.o
| |
| : 5. Aw 15. 14 .o 25. /s. /
| |
| : 6. a,4 16. - //.,9 26. 4.F , 36. / 9. 0
| |
| : 7. /s. r 17. an. / 27. /1.9 37. /0. 4, ,
| |
| : 8. 21. (, 18. w/ 28. n.D
| |
| : 9. as,3 19. ft.o 29. /k.&
| |
| : 10. 32 3 20. S. 9 30. //.6 O
| |
| **h m-up
| |
| ~.l[
| |
| e,-
| |
| | |
| FDSAVEX 89 FAGE 6
| |
| ,; SCENARID TIME: OJV5' CLDCK TIME: 09/f PRIMARY AUXILIARIES
| |
| -----------------------------BDARD I -D 5- - --------------------
| |
| . HYDRAULIC DIL- System 91 NORMAL
| |
| . STEAM WATER DUMP TANK- System 22 .
| |
| Loop Selected ./- 1 or 2 -
| |
| Pressure M PSIG .
| |
| Temperature te 'F Level fr INCHES-HELIUM CIRCULATDRS System 21 '
| |
| CirculatorC-2101(A)
| |
| Rotor Speed .
| |
| m RPM l Helium Flow (Low Range) o,or PSID L Helium Flow (High Range) o %
| |
| Compressor AP o PSID Steam Supply Pressure eJA PSIA Steam Exhaust Pressure A2 PSIA Steam Turbine Pressure Ratio Ao
| |
| ; -- Circulator.C-2102(B)
| |
| I '
| |
| Rotor Speed Helium Flow (Low Range) caora c.0/
| |
| RPM PSID Helium Flow (High Range) o 5 -
| |
| Compressor-AP o' PSID Steam Supply Pressure rn PSIA Steam Exhaust Pressure n PSIA '
| |
| Steam Turbine Pressure Ratio /, o 1
| |
| t- CirculatorC-2103(C)
| |
| Rotor Speed l' etw RPM Helium Flow (Low Range) 0. s- PSID
| |
| . Helium Flow (High Range) M %
| |
| Compressor AP 9.a PSID Steam Supply Pressure r PSIA-Steam Exhaust Pressure ss PSIA ,
| |
| Steam Turbine Pressure Ratio /, o CirculatorC-2104(D)
| |
| Rotor Speed are RPM Helium Flow (Low Range) e5 PSID Helium Flos (High Range) L %
| |
| Compressor AP 5, t(, PSID Steam Supply Pressure .m PSIA Steam Exhaust Pressure .c PSIA Steam Turbine Pressure Ratio /.o
| |
| %b MAIN TURSINE System 51 NDRMAL _
| |
| 'e se e. . .m~
| |
| --mw- m ,.--, ,, , ,,.w.-..--or%--, - .e w e rw* Mr- m -e-t -'W+Pr #-* Vw e t w-Wm 7 4
| |
| | |
| 3
| |
| 'FOSAVEX 89' ;
| |
| . PAGE 7 +
| |
| < .: SCENARIO TIME: As /r ___
| |
| w,. .
| |
| CLOCK TIME: o9 /s-PRIMARY AUXILIARIES
| |
| ------------------------------BOARD I-06------------------------------
| |
| FEEDWATER System 31 Emergency Feedwater Pressure cP9ev PSIG Boiler Feed Pumps Feed Pump A . -
| |
| Speed - o RPM -
| |
| Flow w h X 10 lb/hr Feed Pump B ( .
| |
| Status % ON/0FF -
| |
| Flow sw X 10' lb/hr- .
| |
| l l-Feed Pump C !
| |
| Speed O RPM Flow w/s X 10 lb/hr CONDENSATE System 31 NORMAL
| |
| ,. MISCELLANEOUS-Bypass Flash Tank Pressure oro PSIG
| |
| ~'
| |
| l 1 f. . Hot Reheat Bypass Valve Positions NORMAL-1; 1gi )
| |
| PLANT ELECTRICAL' System 92
| |
| -Essential Loop 1 Loop 2 4160 VAC 480 VAC .
| |
| Q VM l
| |
| L 120 VAC 120 VOC Emergency Diesel Generator ACM Diesel Generator ,__t _ t Non-Essential Switchyard 7I-tuul 4160 KV l 480 VAC l 120 VAC I 120 VOC 4 MAIN TOWER- System 41 NORMAL SERVICE WATER TOWER System 42 NORMAL FIRE WATER System 45 NORMAL INSTRUMENT AIR System 82 NORMAL
| |
| ~s SERVICE AIR Syster 82 NORMAL wr-* , e y e . - , - - ,,--w, -- - , , - , ,..w- . . , - . . -. .--r ,. .
| |
| | |
| FOSAVEX 89 PAGE 8 1,'
| |
| l -, ., SCENARIO TIME: caer
| |
| ; l CLOCK TIME: d?/.T PRIMARY AUXILIARIES
| |
| . . . . . . . . . . . . . . . . . . . . . . . . . . - - - 80ARD I-10------------------------------
| |
| PLANT PROTECTIVE SYSTEM REACTOR BUILDING TEMPERATURE - HIGH Bay 100 /# 'F Bay 200 /#2 ,F Bay 300 for F REHEAT ACTIVITY MONITORS Loop 1 Bay 1200 e./ mr/hr Bay 1100 '/ ar/hr Bay 1000 <f ar/hr t~ Loop 2 Bay 600 - - - -
| |
| </ ar/hr Bay 500 << mr/hr Bay 400 /*5 *Tlhi MOISTURE MONITORS a [ m A /.i/ 'F
| |
| ~
| |
| op 3 h Loop 2 of"'hXIEl *Y
| |
| ., f /
| |
| ):s MAIN STEAM LOOP AP d/M PSID BUFFER SEAL MALFUNCTION /C-2 ' '
| |
| n:;
| |
| E'
| |
| . )-
| |
| : j. . _ . .
| |
| m e. - - am-,.se w -
| |
| d
| |
| | |
| l 1
| |
| l
| |
| ~
| |
| FDSAVEX 89 PAGE 9 l
| |
| ~ . .
| |
| SCENARIO TIME: aser CLOCK TIME: 09 6
| |
| . PRIMARY AUXILIARIES .
| |
| ... ................... . .B0ARD I-13------------------------------
| |
| PENETRATION INTERSPACE AP P PSID REACTOR BUILDING SUMP DISCHARGE FLOW. < <0 GPM r.-
| |
| ' HELIUM CIRCULATORS System 21 Guard Helium Flow o Ib/hr .
| |
| Bearing Assembly , Temperature .
| |
| i CirculatorC-2101(A)
| |
| Upper Labyrinth no-/vo 'F Upper Journal 95-/m 'F
| |
| 'F
| |
| -Main Bearing Housing ase-m SteamNater Drain Area vs-m 'F Lower Journal &w 'F CirculatorC-2102(B)
| |
| Upper Labyrinth /.so -/9'o 'F Upper Journal ps- rao *F Main Bearing Housing- ur-no *F SteamNater Drain Area s-im *F
| |
| .l. > .).
| |
| Lower Journal 75 mo 'F CirculatorC-2103(C) .
| |
| Upper Labyrinth /.to-/cr o 'F Upper Journal hr-/m *F
| |
| 'F Main Bearing Housing w-/s Steam Nater Drain Area ir-/gv 'F Lower Journal tr-me 'F CirculatorC-2104(D)
| |
| Upper Labyrinth no-/w 'F
| |
| . Upper Journal Tr-/m 'F Main Bearing Housing er-/m *F SteamNater Drain Area tr-/a 'F Lower Journai *>r-x/o *F
| |
| \
| |
| z... _ . _ _
| |
| ^"**
| |
| j .
| |
| ...r .. _
| |
| ...+... .. . . . . . . . . _ . . . . _ .
| |
| | |
| FOSAVEX~89 PAGE 10 SCENARIO TIME: daer . .
| |
| 1 m
| |
| CLOCK TIME: 09er I
| |
| PRIMARY AUXILIARIES-
| |
| ----------------------------- B O A R D I -----------------------------
| |
| 1 REACTOR BUILDING STACK FLOW 30 KCFM
| |
| ' REACTOR BUILDING AMBIENT AP 0,2 Inches H2O i CONTROL ROOM TEMPERATURE
| |
| ' 4F- 'F' !
| |
| l l
| |
| f i-1 l1 l
| |
| L .................B0ARD I-7507X---------------------------
| |
| a, P
| |
| f: 480V ROOM TEMPERATURE OS~ 'F . ,
| |
| l
| |
| \
| |
| \
| |
| l l
| |
| l:
| |
| l four l
| |
| l l" , . w.m m.
| |
| l' _j...:.'. . . ..- . . . . - . , . . . . . . . . . . . . - . . . . . . . ~ . - . . - , . . . . . . . . . . . . . . . . . . . .
| |
| u: . -.
| |
| | |
| ,;:1 P05AVEX 89 PAGE l' SCENARIO TIME: omso
| |
| -t;, .' .
| |
| X- '
| |
| CLOCK TIME: 0930
| |
| " OVERALL PARAMETERS Reactor Power Level & 1 o W Turbine Generator Load PRIMARYC00bT Pressure er PSIA Temperature -
| |
| Circulator Inlet M 'F Core Outlet A.frA 'F Helium Flow .
| |
| Circulator A . O X 10 lb/hr Circulator'B oX:.0 lb/hr
| |
| ' Circulator C &X:.03 lb/hr
| |
| ' Circulator'0 4X:.03 lb/hr TOTAL AJX:.0* lb/hr Circulator Speed Circulator A- m RPM Circulator 8 m RPM l Circulator C. 49m RPM .!
| |
| I Circulator D 42 RPM-Moisture (Dewpoint)
| |
| -ME-9306 ofo A#iLA/ 'F t
| |
| - . ME-9307 #-.J, XJ/ 'F i . _
| |
| {
| |
| l SECONDARY COOLANT -
| |
| l Feedwater Flow l Loop 1 0 X 10 lb/hr Loop 2 sw X 10' lb/hr .
| |
| l' Main Steam Loop 1 Pressure -5dL5 PSIG i Temperature M *F Loop 2 Pressure- srSo PSIG l Temperature M 'F 1 J i
| |
| .;. Hot Reheat Loop 1 Pressure oc - ' PSIG j Temperature a.rr 'F i 3
| |
| oso
| |
| :-- Loop 2-Pressure PSIG l
| |
| ' Temperature arr 'F l
| |
| < . Cold Reheat ^
| |
| j ' Loop 1 Pressure em PSIG Temperature s.rr 'F
| |
| : i. , ! Loop 2 Pressure eso PSIG i Temperature a rms- *F l
| |
| - .i 1,
| |
| 1 1
| |
| I s ,+
| |
| _ 3
| |
| ~~ ~
| |
| | |
| (
| |
| FOSAVEX 89 PAGE 2 .
| |
| 0 11o '
| |
| 'i {CENARIOTIME:
| |
| -1 CLOCK TIME:
| |
| PRIMARY AUXILIARIES 1 B0ARD I-01------------------------------ -{
| |
| - GAS WASTE- System 63 Inlet Pressure B PSIA .
| |
| Vacuum Tank Pressure B PSIA . .
| |
| Surge Tank "A" Pressure- WO PSIG
| |
| ' Surge Tank "B" Pressure //r PSIG LIQUID WASTE System 62 NORNAL-REACTOR PLANT COOLING WATER System 46 Loop 1 o ,> ON/0FF P-4601 MF ON/0FF P-4601S Heeder Inlet Temperature ino 'F Barrel and Top Head Outlet Temperature ino 'F Top Penetration Inlet Temperature //r 'F
| |
| [ . . . Loop 2 P-4602 o4 ON/0FF L (l
| |
| ' orp ON/0FF
| |
| < h- P-4602S
| |
| ' Header Inlet Temperature /6r 'F -
| |
| ' Barrel and Top Head Outlet Temperature ./R o *F Top Penetration Inlet Temperature err 'F Surge Tank Level "A" 40 INCHES-Surge Tank Level "B" (6 INCHES PURIFIED HELIUM System 23 NORMAL l LIQUID NITROGEN System 25 NORMAL e
| |
| f .
| |
| '\ b e.
| |
| ,m,-W-- -g
| |
| *aV 8E6. eM3M arc 7pge4P@-t
| |
| | |
| 4 l
| |
| FOSAVEX 89 PAGE 3 1 SCENARIO TIME: ** ma f,) ,
| |
| CLOCK TIME:
| |
| PRIMARY AUXILIARIES
| |
| ' ------------------------------ 80ARD I-02------------------------------
| |
| HELIUM STORAGE System 24 l Low Pressure Bottles' /B PSIG High Pressure Bottles /o rs- PSIG EMERGENCY FEEDWATER- System 31 ]
| |
| Emergency Feed Flow 4 / s'o GPM i Emergency Bearing Water' Header Pressure sL # 9 a PSIG ,l c
| |
| . HELIUM CIRCULATORS System 21 CirculatorC-2101(A)~ ,
| |
| Bearing Water Flow /d s" GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 9 :L *F Main Drain AP & PSID Steam Exhaust / Steam Water Drain > co PSID Buffer /Mid-Buffer AP / f . :L PSID Buffer Helium-Flow 7. / ACFM Buffer Helium Return Flow 3./ ACFM Circulater C-2102 (B) cc Bearing Water Flow /4r GPM i
| |
| j Ehergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 9n *F
| |
| - Main Drain AP .
| |
| ? PSID -
| |
| Steam Exhaust / Steam Water Orain 5ro PSID :
| |
| Buffer /Mid-Buffer AP c. G . 2 PSID Buffer Helium Flow 7. V ACFM L 3. 7, ACFM Buffer Helium Return Flow CirculatorC-2103(C)'
| |
| Bearing Water Flow - ~ /$0o GPM GPM Emergency Bearing Water Flow Bearing Water Inlet Temperature 9R *F Main Drain aP- 7 PSID L Steam Exhaust / Steam Water Drain >so PSID Buffer /Mid-Buffer AP is. 3 PSID Buffer Helium Flow .g.5 ACFM L
| |
| Buffer Helium Return Flow 5.tr ACFM L
| |
| L , Circulator C-2104 (D) _
| |
| Bearing Water Flow / 71 GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature fA *F L G PSID L Main Drain AP L. Ste.m Exhaust / Steam Water Drain >ro PSID
| |
| . Buffer /Mid-Buffer AP 2. f . 4 PSID Buffer Helium Flow 7. 6 ACFM Buffer Helium Return Flow 3. 4 ACFM
| |
| .- w/
| |
| Y h***WW n-et mis g-grade $ ens - A gap.giqup6 elses 44eser tg 69t WMW
| |
| -- me- uy w- e e z- - -+- , e, , - i- ,-q,- w-* - p-w-+ ve- t
| |
| | |
| I
| |
| + FCSAVEX 89 PAGd 4-1 r .. -- . SCENARIO TIME: vA50
| |
| * CLOCK TIME: of.lo
| |
| . PRIMARY AUXILIARIES
| |
| ------------------------------80ARD I-03------------------------------
| |
| REACTOR CONTROL Systen 12-Regulating Rod (1) Position o INCHES RunbackGroupPositions.(All)- 0 INCHES Shim Rod Position o INCHES Flux Controller Position N/4 0/0, +/-
| |
| .eserve R Shutdown Material Me A/ STATUS s.. . .
| |
| g- ,
| |
| l 1-l u
| |
| l i
| |
| ; . m,
| |
| .q .
| |
| 1 ._
| |
| i, ,
| |
| ar
| |
| _i .
| |
| | |
| 4 FOSAVEX 89 ,
| |
| PAGE 5 : l
| |
| )
| |
| SCENARIO TIME:- ato ,
| |
| CLOCK TIME: 09M PRIMARY AUXILIARIES )
| |
| ------------------------------80ARD I-04------------------------------
| |
| REGION OUTLET TEMPERATURES (Deg F)
| |
| : 1. N12 - 11. /Jo 21. aoo. 31. /s 5 .
| |
| : 2. #9o 12. /vtr. 22. Jone. 32. /esa
| |
| -3. .- /2o 13. /vm 23.. /999 33. /samt
| |
| : 4. . /</t ? . 14 s.5;no. 24. am. - 34. acce.
| |
| : 5. ns r> 15. /wo. 25. m 35. sw.
| |
| : 6. acm. 16. Am. 26. nsr.= 36. Aao ;
| |
| : 7. 1v%. 17.. m* 27. Not 37. //ct<./
| |
| : 8. 1190 18. i+w 28. sino*
| |
| : 9. /MP 19. /2o 29. Jaec.
| |
| : 10. 2m . 20. psn. 30. awr*
| |
| l l
| |
| REGION ORIFICE VALVE POSITION (5 open) 1:
| |
| : 1. //. y 11. a.V 21. / 0. s 31. F. 9 I'
| |
| l 2. ,d,r 12. /F,5 22. MO 32. m.2
| |
| : 3. ro.o 13. S7.6 23. 45 33. s6.7 L- a . "5 - 34. or2. 0 -
| |
| /9. 9 24. 8. G
| |
| .V ") 4.
| |
| 5.
| |
| 33.3-
| |
| : 22. v 14.
| |
| : 15. /6 0 25. 33 9' 35. //. /
| |
| : 16. . 26. 49 36. . /0,7
| |
| : 6. /3,6 /G.7 -
| |
| : 7. is, Y 17. Ja./ 27. 13.0 37. 19 4
| |
| : 8. - E.6 18. +v'/ 28. .tf. "/ '
| |
| : 9. ca r.3 19. //,0 29. //,6
| |
| : 10. 34 3 20. f. f 30. //.6 f
| |
| f <
| |
| 1 i
| |
| : f. # ]
| |
| l .->
| |
| m.
| |
| .w3..
| |
| * -..w . . . ems
| |
| ..,r---m - --> -- , - - w,,- ,, -- --,-r,-e
| |
| | |
| i FOSAVEX 89 PAGE 6 SCENARIO TIME: ce30 (i. blDCKTIME: 09.30 PRIMARY AUXILIARIES ;
| |
| = e-------
| |
| --------------------------BOARD I -0 5-- --
| |
| HYDRAULIC OIL System 91 NORMAL STEAM WATER DUMP TANK System 22 ,
| |
| Loop Selected / 1 or 2 - e Pressure ter PSIG Temperature m 'F Level i X INCHES.
| |
| HELIUM CIRCULATORS System 21 CirculatorC-2101(A)
| |
| Rotor Speed daw RPM l Helium Flow (Low Range) o.cv PSID Helium Flow (High Range) o %
| |
| Compressor AP o PSID 7
| |
| Steam Supply Pressure as PSIA Steam Exhaust Pressure .E PSIA l
| |
| L Steam Turbine Pressure Ratio 40 Circulator C-2102 (B) '
| |
| Rotor Speed m RPM
| |
| > ] Helium Flow (Low . Range) 0.o/ PSID Helium Flow (High Range) o % --
| |
| Compressor AP O PSID Steam Supply Pressure as PSIA ,
| |
| Steam Exhaust Pressure. # PSIA Steam Turbine Pressure Ratio Ao CirculatorC-2103(C)
| |
| Rotor Speed Moo RPM Helium Flow (Low Range) e.r PSID Helium Flow (High Range) W %
| |
| j., Compressor AP 9.2 PSID l Steam Supply Pressure 3:2 PSIA Steam Exhaust Pressure 3s PSIA' Steam Turbine Pressure Ratio Ao ,
| |
| Circulator C-2104 (D)
| |
| Rotor Speed arv ~ RPM l- Helium Flow (Low Range) o.s PSID Helium Flow (High Range) % %
| |
| Compressor AP sfry PSID Steam Supply Pressure .c PSIA Steam Exhaust Pressure 32 PSIA Steam Turbine Pressure Ratio /o L .
| |
| J MAIN TURBINE System 51 NORMAL
| |
| . . . - -.:u.
| |
| ,-s * , - , . . , - , . . , , - - - , , ,. - ,, _ .n ..
| |
| | |
| , T
| |
| )
| |
| FOSAVEX 89 i PAGE 7 SCENARIO TIME: asJo ,
| |
| CLOCK TIME: o93o I
| |
| PRIMARY AUXILIARIES . i 1
| |
| . ..... ... .. .. ... .........- B0A RD I - 0 6 -----------------------------
| |
| FEEDWATER' System 31 ;
| |
| Emergency Feedwater Pressure a 9 0rs PSIG Boiler Feed Pumps Feed Pump A -
| |
| Speed o RPM Flow a s X 10 lb/hr Feed Pump B Status cx ON/0FF Flow S75 x lo s ib/hr .
| |
| Feed Pump C Speed O' RPM Flow s/s X 10 lb/hr CONDENSATE System 31 NORMAL-
| |
| ), MISCELLANEOUS Bypass Flash Tank Pressure cRo PSIG L.
| |
| Hot Reheat Bypass Valve Positions NORMAL M,
| |
| .I PLANT ELECTRICAL- System 92 .'
| |
| Essential Lpop 1 Lo p 2 -
| |
| 4160 VAC M
| |
| : l. 480 VAC L 120 VAC l .120 VDC l
| |
| Emergency Diesel Generator ACM Diesel Generator v w Non-Essential Switchyard M d.
| |
| 4160 KV 480 VAC 120 VAC 120 VDC v ,
| |
| MAIN TOWER System 41 NORMAL SERVICE WATER TOWER System 42 NORMAL FIRE WATER System 45 NORMAL INSTRUMENT AIR System 82 NORMAL f:. ' -g SERVICE AIR System 82 NORMAL
| |
| .e --
| |
| W MW - M M6 h 9 , - . . . - . , - - , , , , _ _ ,, ,,e . ... _ _,
| |
| | |
| FOSAVEX 89-PAGE 8 SCENARIO TIME: osso CLOCK TIME: 0 93 o t
| |
| PRIMARY AUXILIARIES
| |
| ..............................B0ARD I-10------------------------------
| |
| PLANT PROTECTIVE SYSTEM' ;
| |
| REACTOR BUILOING TEMPERATURE - HIGH'
| |
| * Bay 100- xt **F Bay 200 am 'F .
| |
| Bay 300 wK 'F REHEAT ACTIVITY MONITOR $
| |
| Loop 1 Bay 1200 4/ ar/hr Bay 1100 .c / or/hr Bay 1000 c/ mr/hr ,
| |
| L
| |
| ' Loop 2 Bay 600 4/ mr/hr Bay 500 </ mr/hr Bay 400 Af mr/hr.
| |
| MOISTURE MONITORS Oew Point ,
| |
| Loop 1 fuo/IZ2./ 'F *F-A,
| |
| ) Loop 2 p xh4ah MAIN STEAM LOOP AP JP/P9 PSID BUFFER SEAL MALFUNCTION /.5 Ao ,
| |
| l.
| |
| L I-L ,
| |
| ; i.
| |
| 4 l
| |
| l l' ._
| |
| . . . . . . . , . . . . . . . . . . . ,,.,,u.- .e-r s ;- ~ . , _
| |
| | |
| e .
| |
| i
| |
| -FOSAVEX 89 PAGE 9 i
| |
| ,. l SCENARIO TIME: er !
| |
| - CLOCK TIME: oses- -
| |
| PRIMARY AUXILIARIES.
| |
| 1
| |
| .................... ......... BOARD I-13------------------------------ l PENETRATION INTERSPACE AP 'E PSID i
| |
| REACTOR BUILDING SUMP DISCHARGE FLOW- e/o GPM HELIUM CIRCULATORS System 21 Guard Helium F'ow 0 lb/hr
| |
| ' Bearing Assembly Temperature CirculatorC-2101(A) -
| |
| Upper Labyrinth Mo -No *F Upper Journal tr-xe 'F ,
| |
| Main Bearing Housing terve 'F ,
| |
| Steam / Water Drain Area' tr-sev 'F -
| |
| Lower Journal 6r m 'F Circulator C-2102 (B)
| |
| Upper Labyrinth no-/vo- *F
| |
| 'F-Upper Journal er-/vo Main Bearing Housing w-e 'F Steam / Water Drain Area m-- *F Lower Journal- er-m 'F.
| |
| [( r CirculatorC-2103(C) .
| |
| Upper Labyrinth _, no-/vo
| |
| * F.
| |
| Upper Journal er ae - 'F
| |
| 'F Main Benring Housing 1: er-/vc
| |
| ! Steam / Water Drain Area mm 'F 1 l Lower Journal es.m 'F CirculatorC-2104(D)
| |
| Upper Labyrinth no-/m 'F Upper Journal 9s ao *F Main Bearing Housing om 'F Steam / Water Drain Area w-tm 'F Lower Journal T-/m 'F
| |
| ~
| |
| -\
| |
| . \.
| |
| .. g
| |
| ,V]AMi k . _ . .
| |
| ~
| |
| ' ' ' t; I;
| |
| .:my
| |
| ;, e .- r
| |
| " ' . - .' s . , . , , . . . . - ,. -- ..,...-.., ,,,,..._.......,,... ---
| |
| | |
| q..
| |
| . ~0SAVEX 89 PAGE-10 SCENARIO TIME: ca.50 .
| |
| =.
| |
| 0930 CLOCK TIME:
| |
| - .(-
| |
| PRIMARY AUXILIARIES
| |
| ............................. 80ARD I-15------------------------------
| |
| REACTGR BUILDING STACK FLOW ,
| |
| Jo KCFM REACTOR BUILDING AMBIENT AP ag Inches H2O CONTROL ROOM TEMPERATURE M *F l
| |
| 1 1
| |
| l l
| |
| l-1 .
| |
| l 1:
| |
| (- - ) .
| |
| ............. .............. 80ARD I - 7 5 0 7 X -------------------------- -
| |
| l' I
| |
| l W
| |
| 480V ROOM TEMPERATURE
| |
| 'F b
| |
| 'h t
| |
| )
| |
| : 1. . . 441.~
| |
| ..~..-.%..-... m. . . . , _.:.ca . .. - .- ,,. .,,,.
| |
| | |
| m .
| |
| FOSAVE1 09 RADIATION MONITORS S.CENARIO TIME: O AVI p? -w - CLOCE TIME: 094s
| |
| ' ~ W.]Y. VALUE ALARMING SENSITIVITY
| |
| *t0MBER (Y/N)
| |
| RT-4801 /.O T 4 / CFM A/ 2.8E-10
| |
| /ol '. 4 1 CPM N 1.2E-10 RT-4802 ' i1 i + 3 N 2.5E-8 :
| |
| RT-4803- CFM RT-8212 Lo a+f CFM A/ 2.2E-8 '
| |
| RT-8213- /o E+ CFM N 2.2E-8 RT-7312 Lo E+ CFM* N 2.3E-8 ..
| |
| 4 RT-7324-1 11 E*J I CFM V 3.31E-8 RT-7324-2 M E+ b CFM f 1.88E-8 c' RT-7325-1 OOs CFM // 1.49E-5 RT-7325-2 O 05 me/hr N na RT-73437-1 I,2. E + 3 CFM JJ 2.51E-10 RT-73437-2 /, / E + 4 CFM f 2.73E-10 ^
| |
| RT-9301 4 0 B +6 CFM // 1.73E-8 RT-93252-12 4. O E - I ar/hr N na ARIA MONITORS NUMBER RT-93250-1 /O ar/hr M RT-93250-2 O. / mr/hr N
| |
| ... RT-93250-3 fO ar/hr N 1 RT-93250-4 0. I ar/hr- N N
| |
| - t-(' ' ) BT-93250-5 0I me/hr
| |
| ' RT-93250-8 0I ar/hr N ' >
| |
| . RT-93250-13 0I ar/hr. J /
| |
| l- OSL RT-93250-14 mr/hr / /
| |
| i O S L-
| |
| //
| |
| RT-93251-1 ar/hr RT-93251-3 FC. ar/hr //
| |
| RT-93251-4 0- 1 mr/hr N RT-93251-5 O. J mr/hr N RT-93251-6 0.4 mr/hr N
| |
| , RT-93251-7 0J mr/hr N RT-93251-8 C.l ar/hr N RT-93251-9 0.8 mr/hr N "
| |
| RT-93252-1 0.I ar/hr M RT-93252-2 0i ar/hr N l '- RT-93252-4 0- f ar/hr N ^
| |
| RT-93252-6 0l ar/hr M l
| |
| RT-93252-7 O-. ar/hr N RIA-7951 0. 0G ar/hr N METEOROLOGICAL DATA Wind Speed 3.0 MPR Wind Direction From '3 f 5 Degrees Plume Deviation / Sigma Theta /s. O Degrees Differential Temperature -03 Dog F
| |
| :.- . "- s
| |
| .)
| |
| * Value corresponds to the PCRV area channel.
| |
| channels are 30 cym.
| |
| Other four . .
| |
| ;Z'
| |
| %wes.-.w-* em pie e 4 e w,w. . w ---eep sa. amu s e si, c ere w .-se. ,e 4.-#e.ep_.._
| |
| =+)&
| |
| w 3- er e- -wes g. ,,.c w *'-==M=--**s- m e-*- *'e'-= "--+ = ' ' '- *' * - = * " ' - - ' - - - - - - - - - - ^ ^ ' - - - - " ' - ^ - " -
| |
| | |
| m l
| |
| + .
| |
| "0SAVEX 89 PAGE 1 l 1
| |
| l
| |
| '+ .
| |
| SCENARIO TIME: MVS' CLOCK TIME: oMr OVERALL PARAMETERS Reactor Power Level o X t es MW-Turbine Generator Load 3 PRIMARY COOLANT c19n PSIA Pressure _
| |
| Temperature Circulator Inlet -+ w r *F~
| |
| Core Outlet /5.rr 'F Helium Flow '
| |
| Circulator A o X 10 lb/hr '
| |
| Circulator B oX:.0 lb/hr lb/hr -
| |
| Circulator C 4X:.0* .
| |
| Circulator D zX:.0* lb/hr TOTAL aX:. 0'' lb/hr.
| |
| Circulator Speed Circulator A m RPM Circulator B m RPM r Circulator C' Me RPM Circulator 0 Mao ~
| |
| RPM
| |
| !i. Moisture (Dewpoint)
| |
| ME-9306 # d */ ~'F-Q~' -
| |
| ME-9307 #a=4M / 'F. i
| |
| .+ :.
| |
| h SECONDARY COOLANT ,
| |
| Feedwater Flow .,
| |
| ~
| |
| Loop 1 0 X 10 lb/hr Loop 2 SM X 10f lb/hr Main-Steam Loop 1 Pressure d2fr -PSIG Temperature .<w 'F Loop 2 Pressure s.rso PSIG L .
| |
| Temperature cr# 'F i Hot Reheat Loop 1 Pressure so PSIG. 3
| |
| 'F Temperature s.rr Loop 2 Pressure .ao PSIG Temperature arr *F Cold Reheat Loop 1 Pressure a PSIG '
| |
| Temperature asr 'F !
| |
| Loop 2 Pressure on PSIG Temperature
| |
| ,a K 'F
| |
| .;;L
| |
| . . . - - , _ . . . _ _ ._ . . .. .. :n
| |
| | |
| [ o ,
| |
| F05AVEX 89 i PAGE 2 ;
| |
| SCENARIO TIME: sur oser-(G(:
| |
| PRIMARY AUXILIARIES CLOCK TIME: !
| |
| . - ..... . ... ... .. .. 80ARD I --------------------------
| |
| i GAS WASTE Systen 63 Inlet Pressure 9 PSIA .
| |
| Vacuum Tank Pressure a PSIA . '
| |
| Surge Tank "A" Pressure ~ V/o PSIG surge Tank "B" Pressure har PSIG LIQUID WASTE Systen 62 NORMAL REACTOR PLANT COOLING WATER Systes 46 Loop 1-P-4601 o# ON/0FF P-46015 o*F ON/0FF t
| |
| Header Inlet Temperature #3r 'F Barrel and Top Head Outlet Temperature i7r 'F ,
| |
| Top Penetration Inlet Temperature i65 'F Loop 2 i '
| |
| , ?-4602 09 ON/0FF !
| |
| \ j P-46025 ' 0Fr 0N/0FF
| |
| '- . Header Inlet Temperature /Gr 'F '
| |
| Barrel and Too Head Outlet Temperature 1er 'F i Top Penetration Inist Temperature /6r 'F {
| |
| ! Surge Tank Level "A" Vo- INCHES-Surge Tank Level "B" Sr INCHES t
| |
| PURIFIED HELIUM Systen 23 NORMAL LIQUID NITROGEN System 25 NORMAL l
| |
| l l ?-
| |
| Seaa
| |
| ***h
| |
| +-an. m, +
| |
| - wegaphemmeiem e-y - + Weasdagsp e'
| |
| .awa
| |
| .N I =
| |
| ~ . , . - . _ _ _ , - , - - , . _ . _ _ , , , , , _ , _ _ _ _ , , _ _ __
| |
| | |
| FDSWEX 89 '
| |
| PAGE 3 b mary SCENARIO TIME:
| |
| CLDCK TIME: o755' PRIMARYAUXILIARE
| |
| . ..... . .. ...... -. ...--.. BDARD I -0 2 ------------------------
| |
| HELIUM STDRAGE System 24
| |
| /# PSIG Low Pressure Bottles
| |
| * Migh Pressure Bottles /ovr PSIG EMERGENCY.FEEDWATER System 31 Emergency Feed Flow <. / r o GPM Emergency Bearing Water Header Pressure s.: g o PSIG HELIUM CIRCULATORS System 21 CirculatorC-2101(A)
| |
| Bearing Water Flow /dr GPM Emergency Bearing Water Flow o GPM Bearing Water Inlet Temperature 9a 'F c, PSID Main Drain AP Steam Exhaust / Steam Water Drain > ro PSID Buffer /Mid-Buffor AP i e. a PSID Buffer Helium Flow ?.i ACFM Buffer Helium Return Flow 't . t ACFM Circulater C-2102 (B)
| |
| Bearing Water Flow /dr GPM Emergency Bearing Water Flow o GPM h1 -
| |
| Bearing Water Inlet Temperature 9m 'F Main Drain AP .
| |
| 7 PSID -
| |
| Steam Exhaust /Stenes Water Drain >ro PSID Buffer /Mid-Buffor AP mc,1 PSID Buffer Helium Fh:v ~
| |
| : 7. v ACFM Buffer Helium Return Flow 37 ACFM CirculatorC-2103(C)
| |
| Bearing Water Flow /fo GPM Emergency Bearing Water Fiow o GPM Bearing Water Inlet Temperature 9R 'F Main Drain AP 7 PSID Steam Exhaust / Steam Water Drain >co PSID Buffer /Mid-Buffer AP y G .3 PSID Buffer Helium Flow R.s ACFM Buffer Helium Return Flow 3,5 ACFM Circulator C-2104 (D) .
| |
| Bearing Water Flow /79 GPM Emergency Bearing Water Flow 0 GPM Bearing Water Inlet Temperature 9E 'F Main Drain AP 4 PSID Steam Exhaust /Stears Water Drain >so FSID s e ,6 PSID Buffer /Mid-Buffer AP Buffer Helium Flow 7.G ACFM Buffer Helium Return Flow 2.Y ACFM v _
| |
| .e=-
| |
| . .m a
| |
| ,.m_ ,,,..,
| |
| _ _ . _ ..__ . . _ . : _ . _ . _ _ _ . _ _ _.. __ _ . _ _ . _ ____.__1___ _-
| |
| | |
| I i
| |
| I F0?>AVEX 89 '
| |
| PAGE 4 i
| |
| " SCENARIO TIME:
| |
| esvr t CLOCK TIME: oper i O .
| |
| i t
| |
| PRIMARY AUXILIARIES
| |
| .............................. 80ARD I-03 ---------------------------- .
| |
| i REACTOR CONTROL Systes 12 I
| |
| RegulatingRod(1) Position o INCHES RunbackGroupPositions(All) o INCHES i Shim Rod Position 0- INCHES ,
| |
| i '
| |
| Flux Controller Position w/# 0/0,.+/-
| |
| Reserve Shutdown Material Y~g STATUS S
| |
| 9 i
| |
| 9 7
| |
| 6 9
| |
| 9.
| |
| t , *
| |
| ; ~~.w.,-. !
| |
| 4
| |
| -- * -.m.. , _ _ ,, ,_ % _ , , ,,,, ,,
| |
| . . a. . ~-
| |
| 8 y e - +
| |
| | |
| FOSAVEX 89 PAGE 5 SCENARIO TIME: mer
| |
| ['' w N CLOCK TIME:
| |
| PRIMARY AUXILIARIES
| |
| -------------------------- BOARD I - 0 4 --------------------------
| |
| REGION OUTLET TEMPERATURES (Deg F) ,
| |
| : 1. NJR. 11. mo 21. 4 ae . 31. /J.1r. .
| |
| : 2. mo 12. /rdt. 22. m. 32. eav
| |
| : 3. mo 13. w/m 23. deae. 33. Amm
| |
| : 4. M O. 14. amo. 24. eope. 34. appe.
| |
| : 5. No3 15. /em. 25. -n 35. 44w.
| |
| : 6. oPcm. 16. Am. 26. /.rer. . 36. mo
| |
| : 7. /vw. 17. am. 27. Mb 37. wro .
| |
| : 8. si+G 18. isey. 28. nao.
| |
| : 9. jveV 19. Ano 29. 4000*
| |
| : 10. asoce. 20. ,,gagn 30. aowe.
| |
| REGIONORIFICEVALVEPOSITION(5open)
| |
| : 1. //. P 11. m.# 21. / 7.E 31. E.F l 2. /1Y 12. is . .r 22. v$1 . 32. >&.2
| |
| : 3. sno 13. 90,6, 23. 45 33. n?
| |
| ;'N
| |
| [
| |
| {%i 4.
| |
| 5.
| |
| 15.5 mv 14.
| |
| 15.
| |
| n.9 A0 24.
| |
| 25.
| |
| 2.6
| |
| /s.V 34.
| |
| 35.
| |
| : n. o
| |
| //. /
| |
| : 6. /3 4 16. m,7 26. 4.7 . 36. /9, 9
| |
| : 7. /s. T 17. re./ 27. /J.? 37. / 9. (:,
| |
| l
| |
| : 8. 21.G 18. w/ 28. 2r.9
| |
| . 9. erd 19. //,0 29. /t.6
| |
| : 10. n.1 20. 3,9 30. //. G
| |
| .r m t
| |
| % man =+
| |
| , 4
| |
| ~ - , ,
| |
| "'
| |
| * F#d tem,9'
| |
| | |
| FDSAVEX 89 PAGE 6 SCENARID TIME: euwr
| |
| (
| |
| (. CLDCK TIME: 0957 ]
| |
| PRIMARY AUXILIARIES l l
| |
| BDARD I-DS- -
| |
| HYDRAULIC DIL System 91 NDRMAL i
| |
| STEAM WATER DUMP TANK System 22 Loop Selected / 1 or 2 -
| |
| Pressure e PSIG ,
| |
| Temperature - *F Level Fr INCHES ,
| |
| HELIUM CIRCULATORS System 21 CirculatorC-2101(A) .
| |
| Rotor Speed asce RPM Helium Flow (Low Range) o.o/ PSID Helium Flow (High Range) o %
| |
| Compressor AP o PSID Steam Supply Pressure e PSIA >
| |
| Steam Exhaust Pressure .3a PSIA ,
| |
| Steam Turbine Pressure Ratio /0
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| .. , Circulator C-2102 (B)
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| ( , -)
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| Rotor Speed Helium Flow (Low Range)
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| .:pe ao/
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| RPM PSID Helium Flew (High Range) o % -
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| Compressor AP o PSID Steam Supply Pressure m PSIA Steam Exhaust Pressure 4;lt PSIA Steam Turbine Pressure. Ratio Ao CirculatorC-2103(C) .
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| Rotor Speed Moe RPM Helium Flow (Low Range) os PSID
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| '' W Helium Flow (High Range) % ;
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| Compressor AP u PSID Steam Supply Pressure m PSIA Steam Exhaust Pressure m PSI}}
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