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| issue date = 01/09/1984
| issue date = 01/09/1984
| title = Rev 8 to Emergency Plan Implementing Procedure 3100033E, Offsite Dose Calculations.
| title = Rev 8 to Emergency Plan Implementing Procedure 3100033E, Offsite Dose Calculations.
| author name = SCHMIDT A D
| author name = Schmidt A
| author affiliation = FLORIDA POWER & LIGHT CO.
| author affiliation = FLORIDA POWER & LIGHT CO.
| addressee name =  
| addressee name =  
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=Text=
=Text=
{{#Wiki_filter:~g pp~jP~cga 1 of 10 FLORIDA POWER&LIGHT COMPANY ST.LUCIE.PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO.3100032E REVISION(:, 4 1.0 Title: ON-SITE SUP RT CENTERS 2.0~Aroval: Reviewed by FP4ilit Revie~Approved by/Rev.4 reviewed FRG Approved by Group/l l gr cfog>4-l.5 V.P Power.Resource 19+~1982 1982 3."0~Eco a: 3.1 Purpose This procedure provides guideli es and responsibilities for activation.and use of the on-sit Technical and Operational Support Centers.This procedure d scribes interim facilities and shall be revised when permanent acilities are operational.
{{#Wiki_filter:~jP ~cga
3.2 Discussion The activities of plant management, techn'cal and engineering
                                                                        ~g    1 of 10 pp FLORIDA POWER & LIGHT COMPANY ST. LUCIE.PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100032E REVISION(:, 4
/R4 support personnel are an important part of the overall site response to an accident, and must be proper defined and logistically supported.
 
The need for additio al operational support personnel, other than those required a d allowed in the Control Room, is also recognized as vitally important in properly responding to an emergency.
==1.0 Title==
The intent of, providing Technical and Operational Su ort Centers ,is to provide bases where post-accident emergency pl ning can be conducted and required operational support personn can assemble for potential duty.Both centers will be in ose communication with the Control Room via the PAX phone s tern, without disrupting, congesting, or confusing the activiti s in the Control Room by the physical presence of additional pe sonnel, e
ON-SITE   SUP RT CENTERS 2.0 ~Aroval:
Page 2 of 10 EHERGENCY PLAN IMPLEHENTING PROCEDURE NO.3100032E, REV 4 ON-SITE SUPPORT CENTERS 3.3 Description 3.3.1 Technical Support Center (TSC)The TSC's located in the training classroom area, adjacent to the Unit 81 Control Room.Emergency supplies available near the TSC are listed in Table 1.Documents and drawings available are listed in Table 2.3.3.2 Operational Support Center (OSC)The OSC is maintained in the first floor maintenance area of the Service Building.3.3.3 Communications Equipment The Control Room contains necessary telephone and public address systems for communications within and outside the plant.The Control Room al" o contains NAMAS and Local Government Radio for communications with state and county~agencies.Use of these systems is described in the Appendix.The*TSC contains necessary telephones to communicate with the Control Room, OSC, the General Office Emergency Center, the Emergency Operations Facility and.outside agencies.It also contains an ENS dedicated telephone to the NRC Operations Center and the NRC Region XX Office./R4 3.4 Authority I This procedure implements the St Lucie Plant Radiological Emergency Plan.4.0 Precautions:
Reviewed by   FP4ilit   Revie~ Group             /l l gr cfog >   4- l.5       19+~
4.1 The TSC and OSC shall be activated upon the direction of the Emergency Coordinator or his designated alternate only.4.2 Radiological conditions in the on-site Technical and Operational Support Center shall be monitored when required to be'in use.Radiation levels in the TSC should be monitored using available (control room)portable instruments.
Approved by    /                        V. P   Power. Resource Rev. 4 reviewed        FRG                                                      1982 Approved by                                                                    1982 3."0 ~Eco a:
/R4 4.3 The Emergency Coordinator shall recommend a suitable location other than the designated areas if radiological conditions warrant such actions.
: 3. 1   Purpose This procedure provides guideli es and responsibilities for activation .and use of the on-sit Technical and Operational Support Centers. This procedure d scribes interim facilities and shall be revised when permanent       acilities are operational.
1 I 0 Page 3 of 10 EMERGENCY PLAN ItPLEHENTING PROCEDURE NO.3100032E, REV" ON-SITE SUPPORT CENTERS 5.0 Res onsibilities:
3.2   Discussion The activities of plant management, techn'cal and engineering                 /R4 support personnel are an important part of the overall site response to an accident, and must be proper           defined and logistically supported. The need for additio al operational support personnel, other than those required a d allowed in the Control Room, is also recognized as vitally important in properly responding to an emergency.
5.1 The Emergency Cooxdinator is responsible for activating the TSC, activating the OSC, and arranging, for staffing through the Duty Call Supervisor.
The intent of, providing Technical   and Operational Su ort Centers
5.2 The TSC Supervisor will be the most senior person available to remain at the TSC of the following:
          ,is to provide bases where     post-accident     emergency pl ning can be conducted and required     operational   support     personn     can assemble for potential duty. Both centers will be in                 ose communication with the Control Room via the PAX phone s tern, without disrupting, congesting, or confusing the activiti s in the Control Room by the physical presence of additional pe sonnel,
Primary: Alternate Technical Supervisor Off duty Shift Technical Advisor (See 3100023E, Emexgency Roster)He is responsible for supervising TSC activities, reporting to the Emergency Coordinator, and communicating with the Emergency Operations Facility.5.3 Each department head or designated alternate is responsible for reporting to the TSC when called.5.4 Those reporting to the Operational Support Center are responsible for being prepared to carry out support functions designated by.the Emergency Coordinator.
 
5.5 The Emergency Coordinator has the overall responsibility for the conduct of emergency operations and activities and should work closely with the TSC to ensure all information is used in making accident recovery decisions.
e Page 2 of 10 EHERGENCY PLAN IMPLEHENTING PROCEDURE NO.       3100032E, REV 4 ON-SITE SUPPORT CENTERS 3.3 Description 3.3.1   Technical Support Center (TSC)
5.6 The gC department is responsible for ensuring that records, documents, and prints are maintained in the TSC or are available for immediate use in the Document Control vault.5.7.Health Physics Dept shall provide a portable monitor-to the Technicial Support Center for radioiodine.monitoring.
The TSC's located in the training classroom area, adjacent to the Unit 81 Control Room. Emergency supplies available near the TSC are listed in Table 1. Documents and drawings available are listed in Table 2.
This monitor can also be used for'monitoring the control room.6.0 References 6.2 E-Plan Implementing Procedure 3100021,"Duties of the Emergency Coordiantor".
3.3.2   Operational Support Center     (OSC)
/R4 6.3 E-Plan Implementing Procedure 3100033E,"Off Site Dose Calculations".
The OSC   is maintained in the first floor     maintenance area of the Service Building.
6.4 E-Plan Implementing Procedure 3100022E,"Classification of Emergencies".
3.3.3   Communications Equipment The Control Room contains necessary telephone       and public address systems   for communications   within   and outside the plant. The Control Room al" o contains NAMAS and Local Government Radio for communications with state and county         ~
agencies. Use of these systems is described in the Appendix.
The*TSC   contains necessary telephones to communicate with the Control Room, OSC, the General Office Emergency Center, the Emergency Operations Facility and. outside agencies.
It also contains an ENS dedicated telephone to the NRC Operations Center and the NRC Region XX Office.                     /R4 I
3.4 Authority This procedure implements the St Lucie Plant Radiological Emergency Plan.
 
==4.0 Precautions==
4.1 The TSC and OSC shall be     activated upon the direction of the Emergency Coordinator or     his designated alternate only.
4.2 Radiological conditions in the on-site Technical and Operational Support Center shall be monitored when required to be 'in use.
Radiation levels in the TSC should be monitored using available (control room) portable instruments.                                       /R4 4.3 The Emergency   Coordinator shall   recommend a   suitable location other than the designated areas such actions.
if radiological     conditions warrant
 
1 I
0
 
Page 3 of 10 EMERGENCY PLAN   ItPLEHENTING PROCEDURE NO. 3100032E,       REV "
ON-SITE SUPPORT CENTERS 5.0 Res onsibilities:
5.1   The Emergency Cooxdinator is responsible for activating the TSC, activating the OSC, and arranging, for staffing through the Duty Call Supervisor.
5.2   The TSC Supervisor     will be   the most senior person available to remain at the     TSC of the following:
Primary:               Technical Supervisor Alternate              Off duty Shift Technical Advisor (See 3100023E, Emexgency Roster)
He   is responsible for supervising TSC activities, reporting to the Emergency Coordinator, and communicating with the Emergency Operations Facility.
5.3   Each department head       or designated alternate is responsible for reporting to the     TSC when called.
5.4   Those   reporting to the Operational Support Center are responsible for being   prepared to carry out support functions designated by.
the Emergency Coordinator.
5.5   The Emergency Coordinator has the overall responsibility for the conduct of emergency operations and activities and should work closely with the TSC to ensure         all information is used in making accident recovery decisions.
5.6   The gC department is responsible for ensuring that records, documents, and prints are maintained in the TSC or are available for immediate use in the Document Control vault.
5.7 .Health Physics Dept shall provide a portable monitor -to the Technicial Support Center for radioiodine .monitoring. This monitor can also be used for'monitoring the control room.
6.0 References
                                                                                    /R4 6.2   E-Plan Implementing Procedure 3100021,"Duties of the Emergency   Coordiantor".
6.3   E-Plan Implementing Procedure 3100033E, "Off Site Dose Calculations".
6.4   E-Plan Implementing Procedure 3100022E, "Classification of Emergencies".


==7.0 Records==
==7.0 Records==
A record of actions taken at the TSC shall be maintained by the TSC Supervisor.
A record of actions taken at the       TSC shall be maintained by the TSC Supervisor.
II,)
 
Page 4 of 10 EMERGENCY PLAN IIPL~r KNTING PROCEDURE NO.3100032E, REV 4 ON-SITE SUPPORT CENTERS 8.0 Instructions:
II, )
8.1 Activation The Emergency Coordinator shall activate the TSC and the OSC for an emergency condition classified as Alert, Site Area Emergency, or General Emergency.
Page 4 of 10 EMERGENCY PLAN   IIPL~r KNTING PROCEDURE NO. 3100032E,   REV 4 ON-SITE SUPPORT CENTERS
8.2 Staffing The Emergency Coordinator shall arrange for staffing through the Duty Call Supervisor, Table 3 identifies the TSC staffing requirements.
 
J 8.3 Use of the Technical Support Center The TSC shall be used to provide plant management and technical support to plant operations personnel during emergency conditions.
==8.0 Instructions==
A primary task shall be to relieve the Emergency Coordinator of off-site communications to the state and local agencies, NRC and the FPL Off-Site Emergency Organization.
8.1 Activation The Emergency Coordinator shall activate the TSC and the OSC for an emergency condition classified as Alert, Site Area Emergency, or General Emergency.
~This task becomes the responsibility of the EOF when they are manned and fully operational.
8.2 Staffing The Emergency Coordinator     shall arrange for staffing through the Duty Call Supervisor, Table 3 identifies the TSC staffing requirements.
The TSC staff shall piovide technical support as requested by the Emergency Coordinator and shall direct itself toward determining current and projected plant status and providing in-depth diagnostic and engineering assistance, as required./R4 8.4 Use of the Operational Support Center The Emergency Coordinator shall assign available plant staff not needed in the TSC or Control Room to the OSC.The OSC Supervisor (Assistant Superintendent Mechanical Maintenance or designated alternate) shall maintain communications with the TSC and report as directed by the Emergency Coordinator or TSC Supervisor.
J 8.3 Use   of the Technical Support Center The TSC   shall be used to provide plant management and technical support to plant operations personnel during emergency conditions. A primary task shall be to relieve the Emergency Coordinator of off-site communications to the state and local agencies, NRC and the FPL Off-Site Emergency Organization.
8.5 Deactivation It is the responsibility of the Emergency Coordinator or his designee to deactivate and secure the TSC and OSC when the emergency dondition no longer exists.8.6 Alternate OSC In the event that the OSC becomes untenable, the Emergency Coordinator shall designate an alternate location.NOTE: The Steam Generator Blowdown Building is outfitted to be an alternate OSC./R4 l 1
    ~
Page 5 of 10 EMERGENCY PLAN IMPLEMENTING PROCEDURE NO.3100032E, REV 4 ON-SITE SUPPORT CENTERS TABLE 1 RADIOLOGICAL EKRGENCY EQUIPMENT ST LUCIE PLANT CONTROL ROOM STORAGE LOCKER (ALSO FOR TSC USE)1.Coveralls 2.Hood 3.Gloves 4.Shoe Covers 5.Self Contained Breathing Apparatus 6.Full Face Respirators and Filters 7.Pocket Dosimeters 8.Dosimeter Chargers 9.TLD's 10.Portable Count Rate Instrumentation 11.Portable Dose Rate Instrumentation 12.Contamination Smears 13.Envelopes 14.Radiation Tape/Rope 15.Radiological Signs 16.Industrial First Aid Kit 17.Step-Off Pads 18.Plastic Bags  
This task becomes the responsibility of the EOF when they are manned and fully operational. The TSC staff shall piovide technical support as requested by the Emergency Coordinator and shall         /R4 direct itself toward determining current and projected plant status and providing in-depth diagnostic and engineering assistance, as required.
8.4 Use   of the Operational Support Center The Emergency Coordinator shall assign     available plant staff not needed in the TSC or Control Room     to the OSC. The OSC Supervisor (Assistant Superintendent Mechanical Maintenance or designated alternate) shall maintain communications with the TSC and report as directed by the Emergency Coordinator or TSC Supervisor.
8.5   Deactivation It is the responsibility of the Emergency Coordinator or his designee to deactivate and secure the TSC and OSC when the emergency dondition no longer exists.
8.6 Alternate   OSC In the event that the OSC becomes untenable, the Emergency Coordinator shall designate an alternate location.
NOTE: The Steam Generator Blowdown Building is outfitted to       be an alternate OSC.                                           /R4 l
 
1 Page 5 of 10 EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100032E, REV 4 ON-SITE SUPPORT CENTERS TABLE 1 RADIOLOGICAL EKRGENCY EQUIPMENT ST LUCIE PLANT CONTROL ROOM STORAGE LOCKER (ALSO FOR TSC USE)
: 1. Coveralls
: 2. Hood
: 3. Gloves
: 4. Shoe Covers
: 5. Self Contained Breathing Apparatus
: 6. Full Face Respirators and Filters
: 7. Pocket Dosimeters
: 8. Dosimeter Chargers
: 9. TLD's
: 10. Portable Count Rate Instrumentation
: 11. Portable Dose Rate Instrumentation
: 12. Contamination Smears
: 13. Envelopes
: 14. Radiation Tape/Rope
: 15. Radiological Signs
: 16. Industrial First Aid Kit
: 17. Step-Off Pads
: 18. Plastic Bags
 
\
\
Page 6 of 10 EMERGENCY PLAN INPLEHENTING PROCEDURE NO.3100032E, REV 4 ON-SITE SUPPORT CENTERS TABLE 2 EMERGENCY DATA, DRAWINGS AND,DOCEfENTS MAINTAINED AT THE TSC ST 1UCIE PLANT 1.Plant Technical Specifications C 2.Plant Operating Procedures 3.Emergency Operating Pro'cedures 4.Emergency Plan and Implementing Procedures 5.Final Safety Analysis Report 6.Drawings, Schematics and Diagrams  
Page 6 of 10 EMERGENCY PLAN INPLEHENTING PROCEDURE NO. 3100032E, REV   4 ON-SITE SUPPORT CENTERS TABLE 2 EMERGENCY DATA, DRAWINGS AND,DOCEfENTS MAINTAINED AT THE TSC ST 1UCIE PLANT
: 1. Plant Technical Specifications C
: 2. Plant Operating Procedures
: 3. Emergency Operating Pro'cedures
: 4. Emergency Plan and Implementing Procedures
: 5. Final Safety Analysis Report
: 6. Drawings, Schematics and Diagrams


Page 7 of la EMERGENCY PLAN IMPLEMENTING PROCEDURE NO.3100032E, REV 4 ON-SITE SUPPORT CENTERS TABLE 3 TECHNICAL SUPPORT CENTER STAFFING ST LUCIE PLANT TSC Supervisor Primary: Alternate Technical Supervisor Off duty STA (per 3100023E, Emergency Rost'er)Operations Representative (Off duty Duty Call Supervisor or NPS)Health Physics Supervisor (Radiation Team Leader)Chemistry Supervisor Reactor Engineering Supervisor Maintenance Superintendent Quality Control Supervisor Support Staff as determined by these supervisors
Page 7 of la EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100032E, REV 4 ON-SITE SUPPORT CENTERS TABLE 3 TECHNICAL SUPPORT CENTER STAFFING ST LUCIE PLANT TSC Supervisor Primary:               Technical Supervisor Alternate              Off duty STA (per 3100023E, Emergency Rost'er)
/R4 Page 8 of 10 K!ERGENCY PLAN IMPLFJfENTING PROCEDURE NO.3100032E, REV 4 ON-SITE SUPPORT CENTERS APPENDIX CO~i ICATIONS EQUIPMEHT A.Use of the NAWAS System 1.The NAWAS is used for announcing the initial warning to the State Warning Point at the Bureau of Disaster Preparedness (BDP)and St.Lucie Disaster Preparedness Coordinator of all.four Emergency Classes.2.The NAWAS is a direct, protected telephone land line with the handset installed in the Control Room.3.Picking up the handset from its cradle activates a response at the State Warning Point and St.Lucie and Martin County Disaster Preparedness Offices.The Nuclear Plant Supervisor (Emergency Coordinator) will advise the personnel on the other end of the system, in a coded message, of the conditions at the plant.He then places the handset back on its cradle, as this is the only use for it during an emergency.
Operations Representative   (Off duty Duty Call Supervisor or NPS)
His message will activate the required state and local emergency teams.4.The procedure for reporting an emergency via NAWAS is summarized in E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator, and described in detail below.A.(1)"S'tate Warning Point Tallahssee, this=is St.Lucie aslant'(State War'ning Point will give a go-ahead)"State'Warning Point Tallahssee, this is St.Lucie Plant*tBPRRt/R4 Time"Acknowledge, over." (ALTERNATE METHOD)If NAWAS is unavailable-telephone State Warning Point at PHONE NO.1-904-488-1320 or Florida Marine Patrol-Alternate, State Warning Point 1-904-488-5757.
Health Physics Supervisor     (Radiation Team Leader)                       /R4 Chemistry Supervisor Reactor Engineering Supervisor Maintenance Superintendent Quality Control Supervisor Support Staff as determined   by these supervisors
State Warning Point will call via Phone to validate the*notification.
 
After validation, transfer the information on the State of Florida Fixed Nuclear Facility Notification Message Form via NAWAS or ALTERNATE METHOD.State Warning Point Message Validation Time*Announce the class as indicated by EPIP 3100022E"Classification of Emergencies"/R4 Page 9 of 10 EMERGENCY PLAN IMPLEMENTING PROCEDURE NO.3100032E, REV.4 ON-SITE SUPPORT CENTERS APPENDIX (cont)A.Use of the NAWAS System (cont)Classifications The classes of Radiological Emergencies are described in E-Plan Implementing Procedure 3100022E, Classification of Emergencies.
Page 8 of 10 K!ERGENCY PLAN IMPLFJfENTING PROCEDURE NO. 3100032E,         REV 4 ON-SITE SUPPORT CENTERS APPENDIX CO~i   ICATIONS EQUIPMEHT A. Use of the   NAWAS   System
3, Plume Exposure Pathway A.The Plume Exposure Pathway will extend outward from-'each nuclear power plant for a radius of ten (lQ)miles, and shall be segmented into 22-1/2 arcs and will be lettered A through R (excluding I and 0)for the 360 of the compass./R4 B.Each area is divided into SECTORS beginning at the ce"ter and extending outward in mile increments One through ten.Contaminated area, extending outward from the nuclear plant, will be located and reported as discussed in E-Plan Implementing Procedure 3lQQQ33F;-"Off-Site Dose Calculations."/R4 B.Use of the Local Government Radio (LGR)1.The LGR is used, unless inoperative or unavailable, for maintaining communications with various state and local disaster preparedness personnel.
: 1. The NAWAS is used for announcing the initial warning to the State Warning Point at the Bureau of Disaster Preparedness (BDP) and St. Lucie Disaster Preparedness Coordinator of all
Messages are transmitted and received on frequencies allocated by the state Bureau of Disaster Preparedness.
      .four Emergency Classes.
C.2.The LGR control unit is installed in the Control Room, and TSC.Use of the ENS Telephone Network/R4 1.Within one hour of the, time that the Emergency Plan or any part of the Emergency Plan is implemented the NRC shall be notified and an open, continuous communications channel established using the NRC ENS circuit (red phone).The Nuclear Plant Supervisor (Emergency Coordinator) shall be responsible for assuring that this notification is made.2.To initiate a signal to the NRC Operations Center, remove the handset from the receiver.3.When the NRC Duty Officer answers, identify yourself as"Florida Power 6 Light, St Lucie Plant".
: 2. The NAWAS is a direct, protected telephone land line with the handset installed in the Control Room.
Page 10 of 10 EMERGENCY PLAN IMPLEMENTING PROCEDURE HO.3100032E, REV"4 ON-SITE SUPPORT CENTERS APPENDIX (cont)C.Use of the ENS Telephone Network (cont)4.Make the notification.
: 3. Picking up the handset from its cradle activates a response at the State Warning Point and St. Lucie and Martin County Disaster Preparedness Offices. The Nuclear Plant Supervisor (Emergency Coordinator) will advise the personnel on the other end of the system, in a coded message, of the conditions at the plant. He then places the handset back on its cradle, as this is the only use for       it during an emergency. His message will activate the required state and local emergency teams.
/R4 5.Maintain the line open and manned until allowed to terminate the call by the NRC Duty Officer.  
: 4. The procedure     for reporting an emergency via NAWAS is summarized in E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator, and described in detail below.
~i Cp/
A.   (1)   "S'tate Warning Point Tallahssee,     this= is St. Lucie aslant
Page 1 of 6 FLORIDA POWER&LIGHT COMPANY ST.LUCIE PLANT EMERGENCY PLAN DPLEMENTING PROCEDURE NO.3100050E REVISION 6 l.0 Title: MAINTAINING EMERGENCY PREPAREDNESS
                  '(State War'ning Point will give a go-ahead)
-EMERGENCY EXERCISES, DRILLS, TESTS, AND EVALUATIONS.
                    "State'Warning Point Tallahssee, this is St. Lucie Plant             /R4
2.0~Avovels: Reviewed by Facility Review Group Approved by K.N.Harris Rev.4 Review by FRG Approved by July 25, Plant Manager'uly 293 l~t V, P.Power Resources 19 75 19~19 P C 19~Rev.6 Review Approved by 3.0~Soo e: v Facility Rev Group~ca~e NV 19'Ms 3.1 Purpose This procedure provides instructions for conducting periodic emergency exercises, drills, and tests.3.2 Discussion Periodic exercises and drills will be conducted in order to test the state of emergency preparedness of participating personnel, organizations, and agencies.Each exercise or drill will be conducted to: 1)Ensure that participants are familiar with their respective duties and responsibilities.
* tBPRRt Time "Acknowledge, over."
2)Verify the adequacy of the Emergency Plan and emergency procedures; 3)Test the communication network and systems.4)Check the availability of emergency supplies and equipment.
(ALTERNATE METHOD)     If NAWAS is unavailable-telephone State Warning Point at     PHONE NO. 1-904-488-1320 or Florida Marine Patrol-Alternate, State Warning Point 1-904-488-5757.
5)Verify the operability of emergency equipment.
State Warning Point     will call via   Phone to validate the notification.     After validation, transfer the information on the State     of Florida Fixed Nuclear Facility Notification Message Form     via NAWAS or ALTERNATE METHOD.                     /R4 State Warning Point Message Validation Time
These exercises and drills will simulate emergency conditions and may be scheduled such that two or more exercises or drills are conducted simul-taneously.
                  *Announce the class as indicated by EPIP 3100022E "Classification of Emergencies"
The results of the exercises will form the basis for corrective action to eliminate identified deficiencies, and will be discussed during a post-exercise evaluation.
 
R6 R6 J~'=
Page 9 of 10 EMERGENCY PLAN IMPLEMENTING PROCEDURE NO.         3100032E, REV .4 ON-SITE SUPPORT CENTERS APPENDIX (cont)
a C 4 Page 2 of 6 FLORIDA POWER 6 LIGHT COMPANY'T.
A. Use of the   NAWAS   System (cont)
LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO.3100050E REVISION 6 3.0~Sco e: (cont'd)3.3 Authority This procedure implements the St.Lucie Plant Radiological Emergency Plan.4.0 Precautions:
Classifications The classes   of Radiological Emergencies are described in E-Plan Implementing Procedure 3100022E, Classification of Emergencies.
4.1 Every emergency alarm,or announcement shall be assumed to be true unless an announcement is made to the contrary.5.0 Res onsibilities:
3, Plume Exposure Pathway A. The Plume Exposure Pathway       will extend   outward from-'each nuclear power plant for     a radius of ten (lQ) miles, and         /R4 shall   be segmented   into 22-1/2     arcs and will be lettered A through     R (excluding I and 0) for the 360 of the compass.
5.1 The FPL Emergency Planning Supervisor shall be responsible for planning, scheduling, and coordinating all major emergency drills or exercises involving off site agencies.When an exercise is to be conducted, the Emergency Planning Supervisor shall: a)Schedule a date for the exercise in coordination with the Health Physics Supervisor-and the primary State and county emergency response agencies.R6 b)Request that the Health Physics Supervisor assign personnel to assist the Emergency Planning Supervisor prepare a scenario.-R6 c)Coordinate all FPL efforts with other participating personnel, organizations, and agencies.d)Obtain the approval of the Plant Manager.e)Offer federal, state and local observers the opportunity to evaluate the exercise.f)Discuss and evaluate the exercise with observers and principal participants.
B. Each area is divided into SECTORS beginning at the ce"ter and extending outward in mile increments One through ten.             /R4 Contaminated area, extending outward from the nuclear plant, will be located and reported as discussed in E-Plan Implementing Procedure 3lQQQ33F;-"Off-Site Dose Calculations."
I I g)Ensure that for all identified deficiencies, corrective measures are recommended.
B. Use of the Local     Government Radio (LGR)
h)Prepare and retain documentation for record keeping.
: 1. The LGR   is used, unless inoperative or unavailable, for maintaining communications with various state and local disaster preparedness personnel. Messages are transmitted and received on frequencies allocated by the state Bureau of Disaster Preparedness.
l i'a t, Page 3 of 6 FLORIDA POWER&LIGHT COMPANY ST.LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO.3100050E REVISION 6 5.0 Res onsibilities: (Cont'd)5.2 When an exercise or a major drill is to be conducted, the Health Physics Supervisor shall assure that the following is accomplished:
: 2. The LGR   control unit is installed in the Control       Room, and TSC.
a)Assign personnel to prepare a scenario.b)Coordinate through the Emergency Planning Supervisor all activities which involve off-site personnel organizations or agencies.c)Schedule a date for this activity in coordination with the Emergency Planning Supervisor and assign observers.
C. Use of the   ENS   Telephone Network                                           /R4
d)Obtain approval of Plant Manager.e)Review evaluations of exercise or drill with the observers and the Facility Review Group.f)Ensure that deficiencies which are identified are addressed with corrective measures.g)Prepare and submit documentation to the Emergency Planning Supervisor for record keeping.6.0 References 6.1 St.Lucie Plant Radiological Emergency plan 6.2 NUREG 0654 7.0 Records and Notifications 7.1 Log Entries 7.2 Written evaluation to FRG, Plant Manager, and Emergency Planning Supervisor by the Health Physics Supervisor.
: 1. Within one hour of the, time that the Emergency Plan or any part of the Emergency Plan is implemented the NRC shall be notified and an open, continuous communications channel established using the NRC ENS circuit (red phone). The Nuclear Plant Supervisor (Emergency Coordinator) shall be responsible for assuring that this notification is     made.
7.3 Consolidated exercise summary by the Emergency Planning Supervisor.
: 2. To initiate   a signal to the   NRC Operations Center, remove the handset from the receiver.
I i'a Page 4'f 6 FLORIDA POWER&LIGHT COMPANY ST.LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO.3100050E REVISION 6 8.0 Instructions 8.1 The following emergency exercises, drills, and tests shall be conducted-at the frequency indicated:
: 3. When   the NRC   Duty Officer answers,   identify yourself   as "Florida Power 6   Light, St Lucie Plant".
a)Exercises (Inte rated Drills)A major radiological emer'gency response exercise shall be conducted at least once every twelve (12)months (plus or minus three months)-to demonstrate the effectiveness of the Emergency Plan.This exercise shall be conducted as a Site Area Emergency or General Emergency and will provide for the coordination with and,participation of off-site emergency response personnel organizations and agencies including those of federal, state, and local governments.
 
The emergency scenario shall be varied from year to year.Provisions shall be made to start at least one exercise between 6:00 PM and midnight, and at least one exercise between midnight and 6:00 A.M., every six years.The"Affected Unit" in the exercise should be changed from year to year.R6 This emergency response exercise shall be critiqued by Florida Power&Light Company observers/evaluators and other observers as appropriate from federal, state, and local agencies.R6 b)Radiolo ical Monitorin'rill A radiological monitoring drill shall be conducted at least once every twelve (12)months (plus or minus three months).These drills will include collection and analysis of sample media (e.g.water, air).This drill should include testing of communications and understanding of communications between the RTL and the teams.c)Health Ph sics Drills Thc Health Physics Department shall conduct health physics drills semi-annually and one of the semi-annual"drills may be incorporated into the radiological monitoring drill.R6 d)Medical Emer enc Drill A medical emergency drill involving a-simulated contaminated individual, with provisions for activation of the plant First Aid and Personnel Decontamination Team and participation by local support services (i.e., ambulance and off-site medical treatment facility), shall be conducted at least once every twelve (12)months (plus or minus three months).
Page 10 of 10 EMERGENCY PLAN IMPLEMENTING PROCEDURE HO. 3100032E, REV "4 ON-SITE SUPPORT CENTERS APPENDIX (cont)
Page 5 of 6 FLORIDA POWER&LIGHT COMPANY ST.LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO.3100050E REVISION 6 8.0 Instructions (cont'd)8.1 (Cont'd)e)Fire Emer enc Drill Fire drills are conducted in accordance with Technical Specifications to test the operational readiness (personnel, equipment and procedures) to control and extinguish a fire onsite.The drills also serve to evaluate and document the response of onsite personnel and participating off-site agencies to varying fire situations.
C. Use of the ENS Telephone Network (cont)                               /R4
The communication links and notification procedures are tested at least semi-annually during fire emergency drills.A post-drill cr'itique is held after each fire drill completed to identify possible areas for improvement in equipment and/or procedures.
: 4. Make the notification.
f)Communications Tests Communications with the Bureau of Emergency Management, Department of Health and Rehabilitative Services, and St.Lucie and Martin County Disaster Preparedness Coordinators within the plume exposure pathway Emergency Planning Zone (EPZ)will be tested monthly.8.2 Conducting Drills 8.2.1 The Nuclear Plant Supervisor (NPS)shall evaluate the plant conditions and ascertain that the drill will not adversely affect plant equipment or operations.
: 5. Maintain the line open and manned until allowed to terminate the call by the NRC Duty Officer.
8.2.2 The Health Physics Supervisor shall designate specific members of the plant staff to act as controllers and evaluators during the drill.These controllers and evaluators shall be familiar with the procedures and proper actions to;be taken associated with their post during the drill.Additionally, briefings shall be, conducted to indicate what purpose the drill will service and what specific areas the controllers and evaluators should be concerned with.These controllers and evaluators shall be posted throughout the plant area to observe and record the actions of plant personnel during the drill and to verify alarm audibility.
 
8.2.3 After receiving a signal of alarm indicating that an emergency condition exists, which has been initiated as part of the drill, the NPS shall take action as required by the Emergency Plan.R6 I
  ~i Cp
Page 6 of 6 FLORIDA POWER 6 LIGHT COMPANY ST.LUCIE PLANT EMERGENCY PLAN Il'PLEHENTING PROCEDURE NO.3100050E REVISION 6 8.0 Instructions (cont'd)8.2 (cont'd)8.2.4 At the termination of the drill, the NPS shall announce over the PA system that the drill is over.This shall be repeated along with any required instructions.
/
8.3 Evaluation of Drills and Exercises 8.3.1 Following a drill the Health Physics Supervisor shall assimilate all information and data concerning the.emergency procedure drill and hold a critique on the drill, and present a summary of the critique to the FRG.R6 R6 The FRG shall recommend changes to the Emergency Plan Implementing Procedures as necessary.
 
R6 8.3.2 Following an exercise, the Emergency Planning Supervisor, plant management, FPL controllers and evaluators and principal participants in the exercise will meet to discuss and evaluate the exercise.R6 The evaluation shall be based on the ability of participants to follow emergency procedures, the adequacy of emergency procedures, and the adequacy of emergency equipment and supplies.Plant management shall be responsible for necessary changes in the Plant Emergency Procedures and for recommending and/or submitting changes in the Emergency Plan to the Emergency Planning Supervisor.
Page 1   of 6 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN DPLEMENTING PROCEDURE NO. 3100050E REVISION 6
8.3.3 The FRG shall submit a written evaluation following an exercise.to the Emergency Planning Supervisor.
: l. 0
These comments will be incorporated, with comments from other principal participants and controllers and evaluators, into a consolidated exercise summary.The summary will be dis-tributed as described in the"Duties and Responsibilities of the Emergency Planning.Supervisor" procedure.
 
R6
==Title:==
/I I Page 1 of 30 FLORIDA POWER 6 LIGHT COMPANY ST~LUCIE PLANT E>>PLAN IMPLEMENTING PROCEDURE NO~3100033E REVISION 8 1.0 TITLE: Off-Site Dose Calculations 2.0 REVIEW AND APPROVAL: Reviewed by Facility Review Group Approved by A.D;Schmidt March 20 and 25 1981 V.P.Power Resources March 26 1981 Revision 8 Revi by P.R G Approved by V.P.Nuc Energy 19++3.0 SCOPE::3.1 Purpose:3.1.1 This procedure provides a method for estimating'hole body and thyroid dose rates and integrated whole body and thyroid dose for the area surrounding the site out to 12 miles.3'.2 This procedure provides a method of comparing.
MAINTAINING EMERGENCY PREPAREDNESS EMERGENCY EXERCISES, DRILLS, TESTS, AND EVALUATIONS.
dose estimates, release rates, and radiati'on levels in containment to Emergency Classifications Guidelines.
: 2. 0 ~Avovels:
Reviewed by   Facility   Review Group                               July 25,        19 75 Approved by     K. N. Harris                 Plant  Manager'uly        293      19~
Rev. 4 Review       by   FRG                     l~    t                              19 P C Approved by                               V, P. Power Resources                     19~
Rev. 6 Review       v Facility   Rev     Group                   ~ca ~ e     NV   19' Approved by                                                                            Ms 3.0  ~Soo e:
3.1  Purpose This procedure provides instructions for conducting periodic emergency exercises, drills, and tests.
3.2   Discussion Periodic exercises and drills will be conducted in order to test the state of emergency preparedness of participating personnel, organizations, and agencies. Each exercise or drill will be conducted to:
: 1)   Ensure that   participants are familiar with their respective duties and   responsibilities.
: 2)   Verify the   adequacy   of the Emergency Plan and emergency procedures;
: 3)   Test the communication network and systems.
: 4)   Check the   availability of     emergency supplies and equipment.
: 5)   Verify the operability of       emergency equipment.
These exercises     and drills will simulate     emergency conditions and   may be scheduled such     that two or   more exercises   or drills are conducted simul-taneously.                                                                             R6 The results of the exercises will form the basis for corrective action to eliminate identified deficiencies, and will be discussed during a post-exercise evaluation.                                                                   R6
 
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C Page 2   of 6 FLORIDA POWER 6 LIGHT   COMPANY'T.
LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100050E REVISION 6 3.0 ~Sco e:   (cont'd) 3.3   Authority This procedure implements the St. Lucie Plant Radiological Emergency Plan.
 
==4.0 Precautions==
4.1   Every emergency alarm,or announcement               shall   be assumed   to   be true unless   an announcement   is made to the contrary.
5.0 Res onsibilities:
5.1   The FPL Emergency Planning Supervisor               shall   be responsible for planning, scheduling, and coordinating               all major   emergency drills     or exercises involving off site agencies.               When an exercise is to be conducted, the Emergency Planning Supervisor shall:
a)   Schedule a date for the exercise in coordination with the Health Physics Supervisor- and the primary State and county emergency response agencies.                                                                           R6 b)   Request that the Health Physics Supervisor assign personnel                     to assist the Emergency Planning Supervisor prepare a scenario.                                     -
R6 c)   Coordinate all FPL efforts with other participating personnel, organizations,   and agencies.
d) Obtain the approval of the Plant Manager.
e) Offer federal, state and local observers the opportunity to evaluate the exercise.
f) Discuss and evaluate the exercise with observers and principal participants.                                                         I for all identified deficiencies, corrective I
g)  Ensure that                                                                  measures are recommended.
h)   Prepare and   retain documentation for record keeping.
 
l   i
'a t,
 
Page 3 of 6 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100050E REVISION 6 5.0 Res onsibilities:     (Cont'd) 5.2   When an   exercise or a major drill is to be conducted, the Health Physics Supervisor shall assure that the following is accomplished:
a)   Assign personnel to prepare a scenario.
b)   Coordinate through the Emergency Planning Supervisor all activities   which involve off-site personnel organizations or agencies.
c)   Schedule a date   for this activity in coordination with the Emergency Planning Supervisor and assign observers.
d)   Obtain approval of Plant Manager.
e)   Review evaluations of exercise or   drill with the observers and the Facility Review Group.
f)   Ensure that deficiencies which are identified are addressed with corrective measures.
g)   Prepare and submit documentation to the Emergency Planning Supervisor for record keeping.
6.0 References 6.1   St. Lucie Plant Radiological Emergency plan 6.2   NUREG 0654 7.0 Records and   Notifications 7.1   Log Entries 7.2   Written evaluation to     FRG, Plant Manager, and Emergency Planning Supervisor by the Health Physics Supervisor.
7.3   Consolidated exercise summary by the Emergency Planning Supervisor.
 
I
' ia
 
Page 4'f 6 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100050E REVISION 6 8.0 Instructions 8.1 The following emergency exercises, drills, and tests shall be conducted-at the frequency indicated:
a)   Exercises (Inte rated   Drills)
A major radiological emer'gency response exercise shall be conducted at least once every twelve (12) months (plus or minus three months)-to demonstrate the effectiveness of the Emergency Plan. This exercise shall be conducted as a Site Area Emergency or General Emergency and will provide for the coordination with and,participation of off-site emergency response personnel organizations and agencies including those of federal, state, and local governments. The emergency scenario shall be varied from year to year.
Provisions shall be made to start at least one exercise between 6:00 PM and midnight, and at least one exercise between midnight and 6:00 A.M., every six years. The "Affected Unit" in the exercise should be changed from year to year.               R6 This emergency response exercise shall be critiqued by Florida Power & Light Company observers/evaluators and other observers as appropriate from federal, state, and local agencies.                   R6 b) Radiolo   ical Monitorin 'rill A   radiological monitoring drill shall be conducted at least once every twelve (12) months (plus or minus three months). These drills will include collection   and analysis of sample media (e.g. water, air).
This drill should include testing of communications and understanding of communications between the   RTL and the teams.
c)   Health Ph sics Drills                                                     R6 Thc Health Physics Department shall conduct health physics drills semi-annually and one of the semi-annual"drills may be incorporated into the radiological monitoring drill.
d) Medical   Emer enc Drill A medical emergency drill involving a-simulated contaminated individual, with provisions for activation of the plant First Aid and Personnel Decontamination Team and participation by local support services (i.e., ambulance and off-site medical treatment facility), shall be conducted at least once every twelve (12) months (plus or minus three months).
 
Page 5 of 6 FLORIDA POWER   & LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO.     3100050E REVISION 6 8.0 Instructions (cont'd) 8.1   (Cont'd) e)   Fire Emer enc   Drill Fire drills are conducted in accordance with Technical Specifications to test the operational readiness (personnel, equipment and procedures) to control and extinguish a fire onsite. The drills also serve to evaluate and document the response of onsite personnel and participating off-site agencies to varying fire situations. The communication links and notification procedures are tested at least semi-annually during fire emergency drills. A post-drill cr'itique is held after   each fire drill completed   to identify possible areas for improvement   in equipment and/or procedures.
f)   Communications Tests Communications with the Bureau of Emergency Management, Department of Health and Rehabilitative Services, and St.
Lucie and Martin County Disaster Preparedness Coordinators within the plume exposure pathway Emergency Planning Zone (EPZ)   will be tested monthly.
8.2 Conducting   Drills 8.2.1   The Nuclear   Plant Supervisor (NPS) shall evaluate the plant conditions and ascertain that the drill will not adversely affect plant equipment or operations.
8.2.2   The Health Physics Supervisor shall designate specific members of the plant staff to act as controllers and evaluators during the drill. These controllers and evaluators shall be familiar with the procedures and proper actions to;be taken associated with their post during the drill. Additionally, briefings shall be, conducted to indicate what purpose the drill will service and what specific areas the controllers and evaluators should be concerned with.
These controllers and evaluators shall be posted throughout the plant area to observe and record the actions of plant personnel during the drill and to verify alarm audibility.
8.2.3   After receiving a signal of alarm indicating that an emergency condition exists, which has been initiated as part of the drill, the NPS shall take action as required by the Emergency Plan.
R6
 
I Page 6 of 6 FLORIDA POWER 6 LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN Il'PLEHENTING PROCEDURE NO. 3100050E REVISION 6 8.0 Instructions (cont'd) 8.2   (cont'd) 8.2.4   At the termination of the drill, the NPS shall announce over the PA system that the drill is over. This shall be repeated along with any required instructions.
8.3 Evaluation of   Drills   and Exercises 8.3.1   Following   a drill the Health Physics Supervisor shall         R6 assimilate   all information and data concerning the .
emergency   procedure drill and hold a critique on the drill, and present a summary     of the critique to the FRG.           R6 The FRG   shall   recommend changes to the Emergency Plan Implementing Procedures     as necessary.                       R6 8.3.2   Following an exercise, the Emergency Planning Supervisor, plant management, FPL controllers and evaluators and             R6 principal participants in the exercise will meet to discuss and evaluate the exercise.
The evaluation shall be based on the ability of participants to follow emergency procedures, the adequacy of emergency procedures, and the adequacy of emergency equipment and supplies. Plant management shall be responsible for necessary changes in the Plant Emergency Procedures and for recommending and/or submitting changes in the Emergency Plan to the Emergency Planning Supervisor.
8.3.3   The FRG shall submit a written evaluation following an exercise.to the Emergency Planning Supervisor. These comments will be incorporated, with comments from other principal participants and controllers and evaluators, into a consolidated exercise summary. The summary will be dis-tributed   as described in the "Duties and Responsibilities of the Emergency Planning. Supervisor" procedure.                   R6
 
/
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Page 1 of 30 FLORIDA   POWER 6 LIGHT COMPANY ST ~ LUCIE PLANT E>>PLAN IMPLEMENTING PROCEDURE NO ~ 3100033E REVISION 8
 
==1.0 TITLE==
Off-Site   Dose   Calculations 2.0 REVIEW AND APPROVAL:
Reviewed by     Facility   Review Group                       March 20 and 25  1981 Approved by           A. D; Schmidt           V.P. Power Resources     March 26 1981 Revision   8   Revi       by P. R G Approved by                                   V.P. Nuc Energy                   19++
 
==3.0 SCOPE==
:3.1
 
==Purpose:==
3.1.1     This procedure provides a method       for estimating'hole   body and thyroid dose rates     and integrated whole body and thyroid dose for the area surrounding the site out to       12 miles.
3 '.2     This procedure provides a method of comparing. dose estimates, release rates, and radiati'on levels in containment to Emergency   Classifications Guidelines.


===3.2 Discussion===
===3.2 Discussion===
3.2.1 3.2.2 This procedure is applicable to both Unit 1 and Unit-2.Provisions have been made to sum the releases from both Units should both be releasing radioactive materials during an emergency.
3.2.1     This procedure is applicable to both Unit 1 and Unit- 2.
The Chemistry Department representative should use the computer dose calculation model, if available, for estimating off-site whole body and thyroid dose rates and integrated doses when releases of radioactive materials occur during an emergency.
Provisions have been made to sum the releases from both Units should both be releasing radioactive materials during an emergency.
This model closely parallels this procedure.
3.2.2    The Chemistry Department       representative should use the computer dose calculation model,       if available, for estimating off-site whole body and thyroid dose rates and integrated doses when releases of     radioactive materials occur during     an emergency. This model   closely parallels this procedure.
This procedure provides the means for hand calculation of offsite dose rates and integrated doses.'8402070388 840202 ,!R,I PDR ADOCK 05000335 F'DR t 0 A ST~LUCIE PLANT.E PLAN IMPLEMENTING PROCEDURE 3100033EP REVISION 8 OPF-SITE DOSE CALCULATIONS Page 2 of 30 3.0 SCOPE: (continued) 3.2 (continued) 3.2.3 The Emergency Coordinator will use these off-site dose estimates, release rates, and radiation levels in containment for emergency classification of off-site protective action recommendations.
This procedure provides the means for hand calculation of offsite dose rates and integrated doses.
The'mergency Coordinator or his designee will perform these off-site dose calculations if the Chemistry Department representative is unavailalle to do so.3'.4 This activity may be duplicated by the dose assessment group.in the EOF when it is manned and operational.
        'DR 8402070388 840202 PDR ADOCK 05000335 F
This serves as a redundant/check for off-site dose data.3.3 Authoritv:
                            ,   !R,I
This procedure implements the St.Lucie Plant Radiological Emergency Plan.4.0 PRECAUTIONS:
None 5'RESPONSIBILITIFS:
5.1 The Emergency Coordinator or his designee shall assure that whole body and thyroid dose rates and integrated doses are calculated, following releases of radioactive material during an emergency.
5.2 The Chemistry Department representative shall make the estimates upon arrival at the Technical Support Center at the direction of the Emergency Coordinator or his designee.6'REPERENCES:
6.1 St.Lucie Plant Radiological Emergency Plan 6.2 St.Lucie Plant Radiation Protection Manual 6.3"Duties of the Emergency Coordinator," EPIP 3100021E 6.4"Classification of Emergencies," EPIP 3100022E 6.5"Bases for Accident Dose Calculations for St.Lucie Nuclear Power Plant" (Bases prepared by HMM Associates of Waltham, Massachusetts.)
6.6"Criteria for Preparation and Evaluation of Radiological Emergency Response Plans and Preparedness in Support of Nuclear Power Plants," NUREG-0654, Revision 1 6.7 St~Lucie Unit 1 FSAR 6.8 St.Lucie Unit 2 FSAR ST~LUCIE PLANT E-PLAN IMPLEMENTING PROCFDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS P:ge 3 of 30 7.0 RECORDS AND NOTIFICATIONS:
The attached worksheets shall be retained as qualitv records.Notifications are made per EPIP 3100021E.


ST~LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100)33E, REVISION 8 OFF-SITE DOSE CALCULAT:ONS Page 4 of 30 8'INSTRUCTIONS:
t 0
8.1 Upon the initiation of an event which has resulted in or could result in releases of radioactive material, the Containment High Range Radiation Monitors (if inoperable, use Post LOCA)reading should be compared to the Action Guidelines for supplemental classification of the event.8.2 Determine the release rate for Noble gases and Iodines.If both Units are releasing radioactive material during an emergency, determine the release rates for both plants separately and add the results as requested.
A
Four methods for release rate determination are available.
 
If Chemistry grab sample analysis data is available, METHOD A (Al for Unit 1, A2 for Unit 2)should be used.METHOD B (Bl for Unit 1, B2 for Unit 2)is used when grab sample data is not yet available and effluent monitors are operable.METHOD C (applicable to both Units), CHRRM method, is used if.METHOD B can't be used.As a default, METHOD D (applicable to both Units), Post LOCA monitors, may be used for release rate determination.
Page 2 of 30 ST ~ LUCIE PLANT .
4 8.2.1 For the affected Unit(s), complete a RELEASE RATE'WORKSHEET using the appropriate method for release rate determination.
E PLAN IMPLEMENTING PROCEDURE 3100033EP      REVISION 8 OPF-SITE DOSE CALCULATIONS
/R8 8.3 Determine the current meteorological data using the, METEOROLOGY WORKSHEET.
 
Three methods for meteorological data determination are available.
==3.0 SCOPE==
METHOD A (Site Meteorology Tower)uses the 15 minute average met data from the Control Room met data recorders.
(continued) 3.2  (continued) 3.2.3    The Emergency    Coordinator  will use  these  off-site  dose estimates, release rates,    and radiation levels in containment for  emergency  classification of off-site protective action recommendations.      The'mergency Coordinator or his designee will perform these off-site dose calculations      if  the Chemistry Department representative is unavailalle to do so.
Method A serves as the primary source of data.METHOD B (West Palm Beach NOAA or Vero Airport FSS)serves as a backup.Manipulation of data from these sources is handled in Appendix C.METHOD C (default)serves as the secondary backup source of data.8.3.1 For the affected Unit, complete a METEOROLOGY WORKSHEET using the appropriate method (use only one method).
3 '.4    This activity may be duplicated by the dose assessment group.
ST~LUCIE PLANT E-PLAN IMPLLMENTING PROCEDURE 3'100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 5 of 30 8.0 INSTRUCTIONS: (continued) 8.4 Calculate Off-site Doses using the POSE CALCULATION WORKSHEET 8.4.1 If both plants are releasing radioactive material during an emergency, total the Noble gas and Iodine release rates.8.4.2 Multiply total NOBLE GAS RELEASE RATE (Ci/sec)by WHOLE BODY DOSE FACTOR (mRem/hr/Ci/sec) to determine WHOLE BODY DOSE RATE./R8 NOTE: The whole body dose rate conversion factor is determined from Dose Factor Tables and is based on precalculated dose rates at 1, 2, 5, and 10 miles from the plant;meteorological conditions (stability and w.'.nd speed), and a 1 Ci/sec release rate.8''Multiply TOTAL IODINE RELEASE RATE (Ci/sec)by THYROID DOSE FACTOR (nRem/hr/Ci/sec) to determine THYROID DOSE RATE./R8 NOTE: The thyroid dose rate conversion factor is determined from Dose Factor Tables and is based on precalculated dose rates at 1, 2, 5, and 10 miles from the plant;meteorological conditions (stability and wind speed), and a 1 Ci/sec release rate.8.4.4 Enter the dose rate results in part 6A.Noting wind direction, record dose rate results in the i'ndicated sector and the adiacent sectors (on each side)in part 6B.8.5 The Emergency Coordinator or his designee shall monitor release rates and meteorological conditions to determine how frequently to update the dose rate estimates.
in the EOF when    it  is manned and operational. This serves as a redundant/check for off-site dose data.
Dose rate estimates shall be updated if any of the'ollowing averages change by the amounts.indicated below over a period not to exceed 30 minutes: 1.Release rates increase by more than 25T.2.Wind speed decreases by two classes or more.3.'tmospheric stability becomes more stable by more than one class (e.g., stability D to F).4.Wind direction changes by more than 22.5 (i.e., plume centerline is more than one sector away from prior location).
 
===3.3 Authoritv===
This procedure implements the St. Lucie Plant Radiological Emergency Plan.
 
==4.0 PRECAUTIONS==
None 5 ' RESPONSIBILITIFS:
5.1  The Emergency Coordinator or his designee        shall assure that whole body and thyroid dose rates and integrated        doses are calculated, following releases of radioactive material during        an emergency.
5.2  The Chemistry Department representative shall make the estimates upon arrival at the Technical Support Center at the direction of the Emergency Coordinator or his designee.
6 ' REPERENCES:
6.1  St. Lucie Plant Radiological Emergency Plan 6.2  St. Lucie Plant Radiation Protection Manual 6.3    "Duties of the Emergency Coordinator," EPIP 3100021E 6.4    "Classification of Emergencies," EPIP 3100022E 6.5    "Bases for Accident Dose Calculations for St. Lucie Nuclear          Power Plant" (Bases prepared by HMM Associates of Waltham, Massachusetts.)
6.6    "Criteria for Preparation      and Evaluation of Radiological Emergency Response    Plans and Preparedness    in Support of Nuclear Power Plants,"
NUREG-0654,    Revision  1 6.7    St ~ Lucie Unit  1 FSAR 6.8    St. Lucie Unit    2 FSAR
 
P:ge 3 of 30 ST ~ LUCIE PLANT E-PLAN IMPLEMENTING PROCFDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS 7.0 RECORDS  AND NOTIFICATIONS:
The attached worksheets shall be retained as qualitv records.
Notifications are  made per EPIP 3100021E.
 
Page  4 of 30 ST ~ LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100 )33E, REVISION 8 OFF-SITE DOSE CALCULAT:ONS 8 ' INSTRUCTIONS:
8.1 Upon the initiation of   an event which has   resulted in or could result in releases of radioactive material, the Containment High Range   Radiation Monitors (if inoperable, use Post LOCA) reading should be compared to the Action Guidelines for supplemental classification of the event.
8.2 Determine the release rate for Noble gases and Iodines.             If both Units are releasing radioactive material during         an emergency, determine the release rates for both plants separately and add the results   as requested.
Four methods for release rate       determination are available.       If Chemistry grab sample analysis       data is available, METHOD A (Al for Unit 1, A2 for Unit 2) should       be used. METHOD B (Bl for Unit 1, B2 for Unit 2) is used when grab       sample data is not yet available and effluent monitors are operable. METHOD C (applicable to both Units), CHRRM method, is used if. METHOD B can't be used. As a default, METHOD D (applicable to both Units), Post LOCA monitors, may be used   for release rate determination.
4 8.2.1   For the affected     Unit(s), complete a RELEASE RATE'WORKSHEET using the appropriate method for release rate determination.                                                             /R8 8.3 Determine the current meteorological data using the, METEOROLOGY WORKSHEET. Three methods for meteorological data determination are available. METHOD A (Site Meteorology Tower) uses the 15 minute average met data from the Control Room met data recorders.             Method A serves as the primary source       of data. METHOD B (West Palm Beach NOAA or Vero Airport FSS) serves as a backup.           Manipulation of data from these   sources   is handled in Appendix C. METHOD   C (default) serves as the secondary backup source of data.
8.3.1   For the affected Unit, complete a METEOROLOGY       WORKSHEET   using the appropriate method (use only one method).
 
Page  5  of 30 ST ~ LUCIE PLANT E-PLAN IMPLLMENTING PROCEDURE 3'100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS
 
==8.0 INSTRUCTIONS==
(continued) 8.4   Calculate Off-site       Doses   using the POSE CALCULATION WORKSHEET 8.4.1   If both   plants are releasing radioactive material during an emergency,     total the Noble gas and Iodine release rates.
8.4.2   Multiply total     NOBLE GAS RELEASE RATE     (Ci/sec) by WHOLE BODY DOSE FACTOR     (mRem/hr/Ci/sec) to determine     WHOLE BODY DOSE RATE.                                                                       /R8 NOTE:   The whole body dose rate conversion factor is determined from Dose Factor Tables and is based on precalculated dose rates at 1, 2, 5, and 10 miles from the plant; meteorological conditions (stability and w.'.nd speed), and a 1 Ci/sec release rate.
8 ' '   Multiply TOTAL     IODINE RELEASE RATE   (Ci/sec) by THYROID DOSE FACTOR   (nRem/hr/Ci/sec) to determine       THYROID DOSE RATE.           /R8 NOTE:   The   thyroid   dose rate conversion factor is determined from Dose Factor Tables and is based on precalculated dose rates at 1, 2, 5, and 10 miles from the plant; meteorological conditions (stability and wind speed),
and a 1 Ci/sec release rate.
8.4.4   Enter the dose rate results in part 6A. Noting wind direction, record dose rate results in the i'ndicated sector and the adiacent sectors (on each side) in part 6B.
8.5   The Emergency Coordinator or his designee shall monitor release rates and meteorological conditions to determine how frequently             to update the dose rate estimates.           Dose rate estimates shall be updated   if any of the'ollowing averages change by the amounts
        .indicated below over a period not to exceed 30 minutes:
: 1. Release   rates increase by more than 25T.
: 2. Wind speed   decreases   by two classes   or more.
3.'tmospheric stability becomes           more stable by more than one class (e.g., stability D to F).
: 4. Wind direction changes by more than 22.5 (i.e., plume centerline is more than one sector away from prior location).
In any case, the estimates shall be revised at least hourly for the first 8 hours after the accident unless it is determined that releases of radioactivity have been terminated.
In any case, the estimates shall be revised at least hourly for the first 8 hours after the accident unless it is determined that releases of radioactivity have been terminated.
ST.LUCIE PLANT.'-E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 6 of 30 8 o INSTRUCTIONS: (continued) 8.6 The Emergency Coordinator or his designee shall track integrated thyroid and whole body dose once each hour for the duration of the event as follows: S.d.1 The average thyroid anB whole body Bose rates shell be determined for each sector from the DOSE CALCULATION WORKSHEETS completed for the hour of interest.8.6.2 Update step 9 of the DOSE CALCULATION WORKSHEETS by adding the thyroid and whole body dose rate determined from 6.A for each applicable sector/distance block to the integrated dose from event initiation to the present for that sector/distance block./R8 8'.3 Doses for sector/distance blocks with zero estimated dose rate for the current hour remain unchanged.
8.7 Proiections of doses and dose rates should be made on the basis that the most recently estimated dose rates and their distribution will'ersist for two hours.Pro)ecting dose rates for periods othhr than two hours should be made on an ad hoc basis using best available data on release rate estimates and subsequent meteorological conditions.
8e8 The results of TOTAL RELEASE RATE, DOSE RATES, and ACCUMULATED DOSE should be compared to applicable Table 3, Page 19-ACTION GUIDELINES.
The Emergency Coordinator, if not performing the actual calculations, shall be informed of all dose estimates.
The Emergency Coordinator shall evaluate the results and declare a new status as applicable.
'R8 8.9 Dose conversion tables for distances 1 to 12 miles, by 1 mile increments, are attached as Appendix A for calculations of dose at other than 1, 2, 5, and 10 miles.


ST.LUCIEN PL'ANT.-""-E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 7 of 30 RELEASE RATE WORKSHEET Al METHOD Al-CHEMISTRY GRAB SAMPLE-UNIT 1 NOTE: Read Unit 1 CHRRM and compare with ACTION GUIDE 1A, Page 19.1.Date and Time of Data//2.Acquire sample assay data.Enter the gross Noble gas and Iodine-131 Deq concentrations in uCi/cc in the table below.3.Determine pathway flow.If available, use the Unit 1 effluent monitor channel'hown.
Page  6  of      30 ST. LUCIE PLANT .
Alternatively, use the flow based on exhaust fan status, figured below.Default flows are listed if exhaust fan status is not available.
          '- E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS 8 o INSTRUCTIONS:    (continued) 8.6  The Emergency Coordinator or his designee shall track integrated thyroid and whole body dose once each hour for the duration of the event as follows:
4.Calculate Release Rates.I PATHWAY I TYPE P ant No e Gas Vent I Iodine FLOW CONVERSION uC/cc X SCFM X VALUE 4.72 E-4 CALCULATED Ci SEC I NOBLE GAS IODINE I Fuel Noble Gas o ne 4.72 E-4 S o le Gas A Iodine 4~72 E-'4!ECCS Noble Gas B o ne 4.72 E-4 Total Noble Gas 5.Compare Noble gas release rate with ACTION GUIDE 2A, Page 19.6.Take total Noble gas and Iodine release rates, in Ci/sec, to the DOSE CALCULATION WORESHEET; Page 14.Total Iodine UNIT 1 PATHWAY FLOW DATA Plant Vent,'hannel 01-10 Default 86050 SCFM Plant Vent by Exhaust Fan Status Check fans that are"ON" Fuel Building, Channel 04-10 Default 23800 SCFM Fuel Building by Exhaust Fan Status Check fans that are"ON" 1 1 1 1 1 1.1 1 HVE 10A HVE 10B HVE 6A HVE 6B HVE 8A HVE 8B HVE 7A HVE 7B-74050-74050 6000 6000-42000-42000 500 500 1 HVE 16A-10350 1 HVE 16B-10350 1 HVE 17-5000 1 HVE 15-8450 Total Fuel Bldg.(SCFM)ECCS, Default Value is 30000 SCFM Total of"ON" Plant Vent (SCFM)ECCS-A Channel 02-10, 1 HVE 9A-30000 SCF1 ECCS-B Channel 03-10, 1 HVE 9B-30000 SCB/R1 F ST.LUCIE,PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OPP-SITE DOSE CALCUL'ATIONS Page 8 of 30 RELEASE RATE WORKSHEET A2 METHOD A2-CHEMISTRY GRAB SAMPLE-UNIT 2'OTE: Read Unit 2 CHRRM and compare with ACTION GUIDE 1A, Page 19'.Date and Time of Data//2~Acquire sample assay data.Enter the gross Noble gas and Iodine-131 Deq concentrations in uCi/cc in the table below.3.Determine pathway flow.If available, use the Unit 2 effluent monitor channel listed below.Alternatively, use the flow based on exhaust fan flow, figured below.Default flows are listed if exhaust fan status is not available.
S.d. 1   The average  thyroid anB whole body Bose rates shell be determined for each sector from the DOSE CALCULATION WORKSHEETS completed for the hour of interest.
4.Calculate Release Rates.I PATHWAY I TYPE GROSS FLOW CONVERSION uC/cc X SCFM X VALUE CALCULATED Ci SEC I NOBLE GAS IODIN I P ant Vent No le Gas Iodine I 4.72 E-4!ECCS'oble Gas A o ne I o e Gas I B I Iodine 4.72 E-4-"''2 E-4'Total Noble Gas 5.Compare Noble gas release rate with ACTION GUIDE 2A, Page 19.6.Take total Noble gas and Iodine release rates, in Ci/sec, to the DOSE CALCULATION WQRKSHEET, Page 14.UNIT 2 PATHWAY PLOW DATA Plant Vent, (Grid 5)Channel 421 or 431 (Redundant Samplers), utilize"PROC FLOW N" (SCFM)Default 96500 SCFM Total Iodine Plant Vent by Exhaust Pan Status Check Pans that are"ON" ECCS, no monitored flow rate Default Value is 30000 SCFM2 HVE 2 HVE 2 HVE 2 HVE 2 HVE 2 HVE 2 HVE 2 HVE 2 HVE 2 HVE 2 HVE 2 HVE 10A-84500 10B-84500 6A-6000 6B-6000 8'A-42000 SB-42000 16A-10000 16B-10000 17-6000 15-9700 7A-2000 7B-2000 ECCS A, 2 HVE 9A-30000 SCFM ECCS B, 2 HVE 9B-30000 SCFM Total of"ON" Fans (SCFM)/RS
8.6.2    Update step 9 of the    DOSE CALCULATION WORKSHEETS by adding the thyroid and whole body dose rate determined from 6.A for each applicable sector/distance block to the integrated dose from event initiation to the present for that sector/distance block.                                                                     /R8 8 '.3    Doses  for sector/distance blocks with zero estimated    dose rate for the current hour remain unchanged.
8.7  Proiections of doses and dose rates should be made on the basis that the most recently estimated dose rates and their distribution will for two hours. Pro)ecting dose rates for periods othhr than    'ersist two hours should be made on an ad hoc basis using best available data on release rate estimates and subsequent meteorological conditions.
8e8  The  results of    TOTAL RELEASE RATE, DOSE RATES, and ACCUMULATED DOSE should be compared to applicable Table 3, Page 19  ACTION GUIDELINES. The Emergency Coordinator,       if not performing the actual calculations, shall be informed of all dose estimates. The Emergency Coordinator shall evaluate the results and declare a new status   as  applicable.                                                           'R8 8.9  Dose  conversion tables for distances    1 to 12 miles, by  1 mile increments, are attached as Appendix      A for calculations of  dose  at other than 1, 2, 5,    and 10  miles.
 
Page  7 of  30 ST. LUCIEN PL'ANT .
                -" "-E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS RELEASE RATE WORKSHEET        Al METHOD  Al  CHEMISTRY      GRAB SAMPLE  UNIT      1 NOTE:      Read    Unit    1  CHRRM  and compare    with  ACTION GUIDE 1A, Page      19.
: 1. Date and Time of Data                        /      /
: 2. Acquire sample assay data.                 Enter the gross Noble gas and Iodine-131 Deq concentrations in uCi/cc in the table below.
: 3. Determine pathway flow. If available, use the Unit 1 effluent monitor channel'hown. Alternatively, use the flow based on exhaust fan status, figured below. Default flows are listed                      if exhaust fan status is not available.
: 4. Calculate Release Rates.
FLOW          CONVERSION            CALCULATED  Ci  SEC    I PATHWAY                TYPE            uC/cc      X  SCFM    X        VALUE          NOBLE GAS        IODINE  I I                I P  ant          No    e Gas                                      4.72 E-4 Vent        I    Iodine Fuel            Noble Gas                                        4.72 E-4 o    ne S          o  le  Gas                                      4 ~ 72 E-'4 A            Iodine ECCS            Noble    Gas                                      4.72 E-4
!      B              o    ne Total          Total Noble  Gas        Iodine
: 5. Compare Noble gas              release  rate with ACTION GUIDE 2A, Page 19.
: 6. Take    total      Noble gas and Iodine release          rates, in Ci/sec, to the        DOSE CALCULATION WORESHEET; Page                14.
UNIT  1  PATHWAY FLOW DATA Plant Vent,'hannel 01-10                                        Fuel Building, Channel 04-10 Default 86050 SCFM                                            Default 23800    SCFM Plant Vent by Exhaust Fan Status                                Fuel Building by Exhaust Fan Status Check fans that are "ON"                                      Check fans that are "ON" 10A  74050                                            HVE  16A  10350 1  HVE 74050                                        1 HVE  16B  10350 1  HVE    10B 6A            6000 1
1 HVE    17    5000 1  HVE HVE    6B            6000                                  1 HVE    15    8450 1
HVE    8A        42000 1
1  HVE    8B        42000                              Total Fuel Bldg.     (SCFM)
    .1    HVE    7A            500 1  HVE    7B            500                            ECCS,   Default Value is 30000      SCFM Total of      "ON"      Plant Vent      (SCFM)                  ECCS-A Channel      02-10,   1 HVE 9A  30000 SCF1 ECCS-B Channel      03-10,   1 HVE 9B  30000 SCB
                                                                                                                  /R1
 
F Page  8 of  30 ST. LUCIE,PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OPP-SITE DOSE CALCUL'ATIONS RELEASE RATE WORKSHEET A2 METHOD A2  - CHEMISTRY GRAB SAMPLE    - UNIT 2
'OTE:      Read    Unit    2 CHRRM and compare    with ACTION GUIDE 1A, Page   19
                                                /      /
Date and Time of Data 2~    Acquire sample assay data.             Enter the gross Noble gas and Iodine-131 Deq concentrations in uCi/cc in the table below.
: 3. Determine pathway flow. If available, use the Unit 2 effluent monitor channel listed below. Alternatively, use the flow based on exhaust fan flow, figured below. Default flows are listed                if  exhaust fan status is not available.
: 4. Calculate Release Rates.
I                                    GROSS        FLOW        CONVERSION        CALCULATED  Ci  SEC    I PATHWAY    I        TYPE          uC/cc    X  SCFM    X      VALUE          NOBLE GAS        IODIN  I P  ant        No  le  Gas                                  4.72 E-4 Vent            Iodine                                  I ECCS    'oble          Gas                                  4.72 E-4-"'
  !      A             o    ne I
I      B      I o    e Gas Iodine
                                                                    '2  E-4
                                                                                    'Total          Total Noble Gas        Iodine
: 5. Compare Noble gas          release rate with ACTION GUIDE 2A, Page 19.
: 6. Take  total      Noble gas and Iodine release rates, in Ci/sec, to the          DOSE CALCULATION WQRKSHEET, Page            14.
UNIT 2 PATHWAY    PLOW DATA Plant Vent, (Grid 5) Channel 421 or              431 (Redundant  Samplers),  utilize "PROC FLOW N" (SCFM)
Default 96500 SCFM Plant Vent by Exhaust Pan Status                          ECCS, no  monitored flow rate Check Pans that are "ON"                                  Default Value is 30000 SCFM 2 HVE 10A      84500                              ECCS  A, 2  HVE 9A 30000    SCFM 2 HVE 10B      84500                              ECCS  B, 2  HVE 9B 30000    SCFM 2 HVE 6A        6000 2 HVE 6B        6000 2 HVE 8'A      42000 HVE SB 42000 16A 10000 2
2 HVE 2 HVE    16B 10000 2  HVE 17        6000 2  HVE 15            9700 2  HVE 7A  2000 2  HVE 7B  2000 Total of      "ON" Fans                  (SCFM)                                                  /RS
 
Page  9  of  30 ST. LUCIE PL'ANT
                . E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISI01 8 OFF-SITE DOSE CALCULATIONS RELEASE RATE WORKSHEET                Bl METHOD    Bl    -  UNIT  1  EFFLUENT MONITOR NOTE-    Read  Unit    1  CHRRM  and compare        to  ACTION GUIDE 1A, Page                  19.
: 1. Date and Time of Data                      /        /
: 2. Determine gross Noble gas concentrations via Eberline Control Terminal A or B.
i)  Enable keyboard, turn keyswitch on.
Press HIST MIN.                                        'i) iii)    Enter the applicable pathway channel number.
iv) Press ENTER.
v) Enter the next-to-last data point from the lowest non-'alarming range into the table below under monitor data.
: 3. Determine pathway flow via Eberline Control Terminal A or BE Alternatively        use fan    status or default figured on RELEASE RATE WORKSHEET      Al,    METHOD  Al. Enter the flow, in SCFM, into the table below.
EBERLINE CONTROL TERMINAL CHANNEL DATA PATIMAY                                                                HI  RANGE              FLOW Plant Vent                0105                    0107                      0109                0110 ECCS-A                    0205                    0207            I        0209                  02 10 ECCS-B                    0305                    0307                      0309'409 0310 Fuel Bldg.                0405                    0407                                            0410 Steamline A              N/A                    0501                      N/A                  N/A Steamline B              N/A                    0502                      N/A                  N/A 4~  Select IODINE FACTOR, use factors shown for pathway for accident type.
Enter in table below.
ACCIDENT      APE WASTE                FUEL PATHWAY            LOCA            SGTR          MSLB        GAP TR              HANDLING      CASK DROP Plant Vent            0 F 01      1.0 E-6            1.0            4  E-5            N/A              N/A ECCS  A,  B          0.01            N/A            N/A              N/A              N/A              N/A Fuel Bldg.            N/A              N/A            N/A              N/A              0.0              1.3 Steamline A,B!        N/A          1 ~ 0 E-3          N/A              N/A              N/A              N/A
: 5. Calculate Noble gas and Iodine release                      rates for each pathway,                then add up the, Noble gas and Iodine rates to get                    total release rates.
MONITOR      X      FLOW      X      FLOW            'NOBLE GAS          X  IODINE            IODINE
    !    PAT1MAY            DATA                SCFM          FACTOR              Ci/SEC              FACTOR            Ci/SEC iPlant Vent                          I I  472E4          I iECCS-A                              I                  I  4.72    E-4    I                      I I ECCS-B                            I                I  4.72    E-4    I                      I                I
    )Fuel Bld          !                I                  I  4.72    E-4    I                      I iSteamline      A                              1        I  1.24    E-2    I
    /Steamline      B                  I        1        I  1.24E-2        (                      I                I Totals, Ci/sec Noble Gas                              Iodine
: 6. Compare    the    total Noble gas release rate with ACTION GUIDE 2A, Page 19 '
~  Take the      total Noble gas and Iodine release rates, in Ci/sec, to the DOSE CALCULATION WORKSHEET, Page                14.                                                                              /R8
 
Page  10 of 30 ST. LUC  E PLANT E-PLAN IMPLEMENTING PROCF 3URE 3100033F.,          REVISION 8 OFF-SITE    DOSF. CALCULATIONS RELEASE RATE WORKSHEET B2 METHOD B2  UNIT 2 EFFLUENT MONITOR NOTE:      Read  Unit  2 CHRRM and    compare  with  ACTION GUIDE 1A, Page      19.
: 1. Date and Time of Data.                  /      /
: 2.  -Determine gross Noble gas release              rate via the General Atomics Console for the applicable pathway.
i)    Press GRID 4.
ii)    Press the channel number shown in the table below.
iii)      Press SEL.
iv) Press TREND 10 MIN.
v) Record the value, shown in upper right corner of CRT, into the table below under data.
: 3. Select Iodine factor for the pathway based on accident type. Fnter into table below under Iodine Factor.
ACCIDENT TYPE PATHWAY          LOCA      SGTR        MSLB        WASTE GAS  FUEL HANDLING CASK DROP Plant Vent Fuel Bldg        0.01    1.0 E-6        1.0          4E-5          0. 04            1.3 ECCS-A    or  B  0.01        N A        N A            N A          N A              N A Steamline AorB              N/A    1 ~ 0 E-3      N/A            N/A          N/A              N/A 4~  Calculate Noble gas and Iodine release rates for each pathway, then add up the release rates to get total Noble gas and Iodine.
NOBLE GAS          IODINE    IODINE DATA    Z  CONVERSION        Ci/SEC        X  FACTOR PATHWAY        CHANNEL g Plant Vent                                      1E-6 Fuel Bld I  ECCS A            604                          lE-6 l  ECCS  B            614                        1E-6 Steamline      2A  Data  ~ (CH    631)                (CH 633)                            NET SL2A
      )Steamline          NET SL A                      1.2    E-Steamline    2B  Data    (CH 632)                    (CH 633)                            NET SL2B jSteamline      2B NET SL2B                        1 ~ 24 E-2 Totals, Ci/sec Noble Gas                    Iodine
: 5. Compare      the total Noble gas release rate with ACTION GUIDE 2A, Page 19.
: 6. Take the total Noble gas and Iodine release rates to the DOSE CALCULATION WORKSHEET, Page        14.
                                                                                                            /RS
 
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                                                          ~      o
~  ~
~  ~
                                                ~ ~  ~  ~      ~                                ~          II
 
Page  12 of 30 STe  LUCIE. PLANT
            . E-PLAN IMPLEMENTING    PROCEDURE 3100033E,      REVISION 8 OFF-SITE    DOSE CALCULATIONS RELEASE RATE WORKSHEET D METHOD D  POST LOCA MONITORS APPLICABLE TO UNIT      1  OR  UNIT 2 1~ Read Post LOCA    Monitor.
Circle values used:
TOTAL POST LOCA MONITOR      NOBLE GAS RELEASE          TOTAL IODINE RELEASE RATE (Ci/sec)
READING (mR/hr)          RATE (Ci/sec)          WITH SAFEGUARDS        NO SAFEGUARDS
            < 60                                        NEGLIGIBLE
      > 60  to 100      l        2~0                      0 03                  0.1          I
      >  100.to 1000    I      10.0                      0.14                  0.4          I 1000                    40. 0                      0. 60                1.6 NOTE:  Post  LOCA Monitor readings must      be  verified  by HP survey.
: 2. Compare Post LOCA  Monitor readings to      ACTION GUIDE 1B, Page      19.
4
: 3. Take Noble gas and  Iodine release rate to the        DOSE CALCULATION WORKSHEET, Page      14.
 
0 Page 13  of 30 ST ~  LUCIE'LANT F.-PLAN IMPLEMFNTING PROCEDIJRE 31'00033E,          REVISION 8 OFF-SITE DOSE CALCULATIONS METEOROLOGY WORKSHEET Date and Time    of Data:          /        /
Meteorolo    ical  Data NOTE:    Three methods are offered          for use. Method    A is preferred to all others and Method B      is preferable to Method C. "
    )
METHOD A    )
Site Meteorology Tower NOTE:    Unit 2 Control Room has to contact Unit        1 Control Room  for this data.
Wind Speed                            mph) (Lo~~r Sensor,    Upper Sensor ~  Alternate)
Wind    Direction    )Prom                  (Lower Sensor, Upper Sensor ~ Alternate)
Delta    T                              F)  (Strip Chart Recorder, Digital ~ Alternate)
Prom Table      below, convert Delta T to          stability  class METEOROLOGICAL STABILITY CLASSES          STEP 2 I  DELTA T RANGES        F        STABILITY CLASS                DEFINITION
          <  -1.6                                                Extremel unstable
          -1 6 to
            ~        < -1 ~ 5                    B            Moderately unstable
          -1.5 to    < -1.3                                    Slightl unstable
          -1 3 to
            ~        < -0 '                                    Neutral
          -0.4 to    < +1.3                      E            Sli htl stable
          +1.3 to    < +3.5                                    Moderately stable
          )  +3.5                                  G            Extremely stable Take  Stability    Class and Wind Speed to the        DOSE CALCULATION WORKSHEET,    Page  14.
METHOD B    )
West Palm Beach      Airport NOAA Center Alt Vero Plight Service Station Go  to Appendix  C, Page  28.
METHOD C    )
Default Values DAY          NIGHT Wind Speed Stability Class Take Stability Class          and Wind Speed      to the DOSE CALCULATION WORKSHEET,    Page  14.
 
Page j4 of 30 ST. LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033K, REVISION 8 OFF-SITE DOSE CALCULATIONS DOSE CALCULATION WORKSHEET
: 1. Date and Time of Calculation                    /      /
: 2. Sum  release rates.        Enter release rates from the affected Unit(s).
~    Add,  if applicable,      to get total release rate from site.
I  UNIT        NOBLE GAS    Ci  SEC          IODINE Ci SEC          METHOD    j 2
Total Enter totals in Dose Calculation Table below.
: 3. Fnter from the METEOROLOGY WORKSHEET the, MET Data.
Wind from                          Speed              mph,    Stability
: 4. Enter in the Dose Calculation Table the WB and THY Dose Factor (DF) for the Stability Class and Wind Speed group. The factors are listed on Pages 17 and 18. Dose factors for distances other than 1, 2, 5, and 10 miles are listed in Appendix A.
Check for Sea Breeze effect. If any one of the following conditions do 4
5.
not exist, the Sea Breeze Factor (SBF) is one (1), and go to Step 6.
Conditions:
: 1. Stability    Class A, B, or C.
: 2. Time  of day 6 am to 7 pm.
: 3. Wind is (from) between 0 and 180 .
: 4. Air temperature ) surface water temperature.
HISTORICAL MONTHLY AVERAGE SURFACE WATER TEMPERATURES,                F JAN    FEB    MAR      APR    MAY    JUN    JUL    AUG    SEP    OCT  NOV    DEC 69      65    69        73      76      7      80      .81    81    79    7 . 71 Select the appropriate          Sea Breeze    Factor (SBF) and enter    it into  Step 6.
STABILITY                        SEA BREEZE FACTORS CLASS                            DISTANCE (MILES) 10 A          12 ~ 3              8.8            5.6            3.9 2.3              3~            5 '            3.9 C            1 ~ 2            1.6            2.3            3.0
                                                                                                        /R8


ST.LUCIE PL'ANT.E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISI01 8 OFF-SITE DOSE CALCULATIONS Page 9 of 30 RELEASE RATE WORKSHEET Bl METHOD Bl-UNIT 1 EFFLUENT MONITOR NOTE-Read Unit 1 CHRRM and compare to ACTION GUIDE 1A, Page 19.1.Date and Time of Data//2.Determine gross Noble gas concentrations via Eberline Control Terminal A or B.i)Enable keyboard, turn keyswitch on.'i)Press HIST MIN.iii)Enter the applicable pathway channel number.iv)Press ENTER.v)Enter the next-to-last data point from the lowest non-'alarming range into the table below under monitor data.3.Determine pathway flow via Eberline Control Terminal A or BE Alternatively use fan status or default figured on RELEASE RATE WORKSHEET Al, METHOD Al.Enter the flow, in SCFM, into the table below.EBERLINE CONTROL TERMINAL CHANNEL DATA PATIMAY Plant Vent ECCS-A ECCS-B Fuel Bldg.Steamline A Steamline B 0105 0205 0305 0405 N/A N/A 0107 0207 0307 0407 0501 0502 HI RANGE 0109 I 0209 0309'409 N/A N/A FLOW 0110 02 10 0310 0410 N/A N/A 4~Select IODINE FACTOR, use factors shown for pathway for accident type.Enter in table below.ACCIDENT APE PATHWAY Plant Vent ECCS A, B Fuel Bldg.Steamline A,B!LOCA 0 F 01 0.01 N/A N/A SGTR 1.0 E-6 N/A N/A 1~0 E-3 MSLB 1.0 N/A N/A N/A WASTE GAP TR 4 E-5 N/A N/A N/A FUEL HANDLING N/A N/A 0.0 N/A CASK DROP N/A N/A 1.3 N/A 5.Calculate Noble gas and Iodine release rates for each pathway, then add up the, Noble gas and Iodine rates to get total release rates.!MONITOR X FLOW X FLOW'NOBLE GAS X IODINE IODINE PAT1MAY DATA SCFM FACTOR Ci/SEC FACTOR Ci/SEC iPlant Vent iECCS-A I ECCS-B)Fuel Bld!iSteamline A I" I 472E4 I I I 4.72 E-4 I I'I I 4.72 E-4 I I I I I 4.72 E-4 I I 1 I 1.24 E-2 I/Steamline B I 1 I 1.24E-2 (I I Totals, Ci/sec Noble Gas 6.Compare the total Noble gas release rate with ACTION GUIDE 2A, Page 19'~Take the total Noble gas and Iodine release rates, in Ci/sec, to the DOSE CALCULATION WORKSHEET, Page 14.Iodine/R8  
Page  15  of  30 ST. LUCIE 'PLANT
                      , E-PLAN IMPLEMENTING     PROCEDURE 3100033E,   REVISION 8 OFF-SITE   DOSE CALCULATIONS DOSE CALCULATION WORKSHEET     (continued) 6.A Complete Dose Calculation Table.
WHOLE BODY                                        THYROID RANGE    NOBLE GAS                                            IODINE      THY MILES      CI/SFC      (X)    DF  (X)    SBF  (~) MREM/HR    CI/SEC (X) DF    (X)   SBF  (~)   MREM/HR I
2 5
IO 6.B ENTER DOSE RATE RESULTS FOR INDICATED SECTOR & ADJACENT SECTOR ON EACH SIDE:
WIND              AFFECTED        mRem hr WHOLE BODY (t MILE        mRem hr THYROID 9 MILE FROM          DIR      SECTOR                              10                                10 168.5-191    '            ALPHA 191 '-213 '      NNE    BRAVO 213  '-236.5      NE      CHARLIE 236.5-258    '    ENE    DELTA 258 '-281.5              ECHO 281    5-303.5    ESE    FOXTROT 303.5-326 '      SE      GOLF 326. 5-348. 5    SSE    HOTEL 8
      '- 11 33 '
              '1 SSW JULIET KILO 56 '-
33.5-   56.5 78 '
78.5-101 '
WSW    MIKE NOVEMBER 101.5-123 '      WNW    PAPA 123.5-1 6.5      NW      OUEBEC 1 6.5-168 '      NNW    ROMEO
: 7. Compare   the WB  and THY dose  rates with   ACTION GUIDE 3A and 3B,   respectively,  Page   19.
: 8. Inform the Emergency Coordinator of the data and assist in including this data in the PLANT/RADIOLOGICAL CHECKLIST, EPIP 3100021E, Page 8.
: 9. On a  form similar to Page 16, track the Dose Accumulation for Appropriate Sectors (half hour updates).
: 10. On a  form  similar to    Page  16, track the  Dose  Projection for Appropriate Sectors.
                                                                                                      /R8


ST.LUC E PLANT E-PLAN IMPLEMENTING PROCF 3URE 3100033F., REVISION 8 OFF-SITE DOSF.CALCULATIONS Page 10 of 30 RELEASE RATE WORKSHEET B2 METHOD B2-UNIT 2 EFFLUENT MONITOR NOTE: Read Unit 2 CHRRM and compare with ACTION GUIDE 1A, Page 19.1.Date and Time of Data.//2.-Determine gross Noble gas release rate via the General Atomics Console for the applicable pathway.i)ii)iii)iv)v)Press GRID 4.Press the channel number shown in the table below.Press SEL.Press TREND 10 MIN.Record the value, shown in upper right corner of CRT, into the table below under data.3.Select Iodine factor for the pathway based on accident type.Fnter into table below under Iodine Factor.ACCIDENT TYPE PATHWAY LOCA SGTR MSLB WASTE GAS FUEL HANDLING CASK DROP Plant Vent Fuel Bldg 0.01 1.0 E-6 1.0 4E-5 0.04 1.3 ECCS-A or B 0.01 N A N A N A N A N A Steamline AorB N/A 1~0 E-3 N/A N/A N/A N/A 4~Calculate Noble gas and Iodine release rates for each pathway, then add up the release rates to get total Noble gas and Iodine.NOBLE GAS IODINE IODINE PATHWAY CHANNEL g DATA Z CONVERSION Ci/SEC X FACTOR Plant Vent Fuel Bld I ECCS A 604 l ECCS B 614 Steamline 2A Data~(CH 631))Steamline NET SL A Steamline 2B Data (CH 632)1E-6 lE-6 1E-6-(CH 633)1.2 E--(CH 633)NET SL2A NET SL2B jSteamline 2B NET SL2B 1~24 E-2 Totals, Ci/sec Noble Gas Iodine 5.Compare the total Noble gas release rate with ACTION GUIDE 2A, Page 19.6.Take the total Noble gas and Iodine release rates to the DOSE CALCULATION WORKSHEET, Page 14./RS
Page 16 of 30 ST. LUCIE. PLANT E-PL'AN IMPLEMENT NG PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS DOSF. CALCULATION WORKSHEET     (continued)
~I I~'I I I~~~I~'I''4~~~Ie~II~~~'~I It~'I~I I I~I''~~I'II'~~I~I~~I I~I I~I I~I I I II~~~~~~~II NM55$5 5 m%%%R%8$R%5$~%%5%EEE5555 5885LR55555
This  is (check appropriate box) f  J  A Dose Accumulation Worksheet,     Time of Applicability
~Ni%$RRUR~SLR~I~HR&SSREa~5555~~~~~I~~o~~~~~~~~~~I I STe LUCIE.PLANT.E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 12 of 30 RELEASE RATE WORKSHEET D METHOD D-POST LOCA MONITORS APPLICABLE TO UNIT 1 OR UNIT 2 1~Read Post LOCA Monitor.Circle values used: POST LOCA MONITOR READING (mR/hr)TOTAL NOBLE GAS RELEASE RATE (Ci/sec)TOTAL IODINE RELEASE RATE (Ci/sec)WITH SAFEGUARDS NO SAFEGUARDS
[  ]  A Dose Pro)ection Worksheet,       Applicable              to DOWNWIND          WHOLE BODY mRem 8  MILES              THYROID mRem 8 MILES DIRECTION        1       2       5         10                                  10 N    ALPHA
<60>60 to 100>100.to 1000 1000 l I 2~0 10.0 40.0 NEGLIGIBLE 0 03 0.14 0.60 0.1 0.4 1.6 I I NOTE: Post LOCA Monitor readings must be verified by HP survey.2.Compare Post LOCA Monitor readings to ACTION GUIDE 1B, Page 19.4 3.Take Noble gas and Iodine release rate to the DOSE CALCULATION WORKSHEET, Page 14.
)
0 ST~LUCIE'LANT F.-PLAN IMPLEMFNTING PROCEDIJRE 31'00033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 13 of 30 Date and Time of Data: Meteorolo ical Data METEOROLOGY WORKSHEET//NOTE: Three methods are offered for use.Method A is preferred to all others and Method B is preferable to Method C.")METHOD A)Site Meteorology Tower NOTE: Unit 2 Control Room has to contact Unit 1 Control Room for this data.Wind Speed Wind Direction)Prom Delta T mph)(Lo~~r Sensor, Upper Sensor~Alternate)(Lower Sensor, Upper Sensor~Alternate)
NNE    BRAVO NE    CHARLIE ENE    DELTA E    ECHO I ESE    FOXTROT I SSE    GOLF SE    HOTEL I  S    JULIET SSW    KILO I SW    LIMA WSW    MIKE j  W    NOVEMBER
F)(Strip Chart Recorder, Digital~Alternate)
)
Prom Table below, convert Delta T to stability class METEOROLOGICAL STABILITY CLASSES STEP 2 I DELTA T RANGES F STABILITY CLASS DEFINITION
WNW    PAPA I NW    OUEBEC
<-1.6-1~6 to<-1~5-1.5 to<-1.3-1~3 to<-0'B Extremel unstable Moderately unstable Slightl unstable Neutral-0.4 to<+1.3+1.3 to<+3.5)+3.5 E Sli htl stable Moderately stable G Extremely stable Take Stability Class and Wind Speed to the DOSE CALCULATION WORKSHEET, Page 14.METHOD B)West Palm Beach Airport NOAA Center Alt Vero Plight Service Station Go to Appendix C, Page 28.METHOD C)Default Values DAY Wind Speed Stability Class NIGHT Take Stability Class and Wind Speed to the DOSE CALCULATION WORKSHEET, Page 14.
)
ST.LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033K, REVISION 8 OFF-SITE DOSE CALCULATIONS Page j 4 of 30 DOSE CALCULATION WORKSHEET 1.Date and Time of Calculation
NNW    ROMEO
//2.Sum release rates.Enter release rates from the affected Unit(s).~Add, if applicable, to get total release rate from site.I UNIT NOBLE GAS Ci SEC IODINE Ci SEC METHOD j 2 Total Enter totals in Dose Calculation Table below.3.Fnter from the METEOROLOGY WORKSHEET the, MET Data.Wind from Speed mph, Stability 4.Enter in the Dose Calculation Table the WB and THY Dose Factor (DF)for the Stability Class and Wind Speed group.The factors are listed on Pages 17 and 18.Dose factors for distances other than 1, 2, 5, and 10 miles are listed in Appendix A.4 5.Check for Sea Breeze effect.If any one of the following conditions do not exist, the Sea Breeze Factor (SBF)is one (1), and go to Step 6.Conditions:
1.Stability Class A, B, or C.2.Time of day 6 am to 7 pm.3.Wind is (from)between 0 and 180.4.Air temperature
)surface water temperature.
HISTORICAL MONTHLY AVERAGE SURFACE WATER TEMPERATURES, F JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC 69 65 69 73 76 7 80.81 81 79 7.71 Select the appropriate Sea Breeze Factor (SBF)and enter it into Step 6.STABILITY CLASS SEA BREEZE FACTORS DISTANCE (MILES)10 A C 12~3 2.3 1~2 8.8 3~1.6 5.6 5'2.3 3.9 3.9 3.0/R8


ST.LUCIE'PLANT , E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 15 of 30 DOSE CALCULATION WORKSHEET (continued) 6.A Complete Dose Calculation Table.WHOLE BODY RANGE NOBLE GAS MILES I 2 5 IO CI/SFC (X)DF (X)SBF (~)MREM/HR THYROID IODINE THY CI/SEC (X)DF (X)SBF (~)MREM/HR 6.B ENTER DOSE RATE RESULTS FOR INDICATED SECTOR&ADJACENT SECTOR ON EACH SIDE: WIND FROM 168.5-191'191'-213'213'-236.5 236.5-258'258'-281.5 281 5-303.5 303.5-326'326.5-348.5 8-11'1'-33'33.5-56.5 56'-78'78.5-101'101.5-123'123.5-1 6.5 1 6.5-168'AFFECTED DIR SECTOR ALPHA NNE BRAVO NE CHARLIE ENE DELTA ECHO ESE FOXTROT SE GOLF SSE HOTEL JULIET SSW KILO WSW MIKE NOVEMBER WNW PAPA NW OUEBEC NNW ROMEO mRem hr WHOLE BODY (t MILE 10 mRem hr THYROID 9 MILE 10 7.Compare the WB and THY dose rates with ACTION GUIDE 3A and 3B, respectively, Page 19.8.Inform the Emergency Coordinator of the data and assist in including this data in the PLANT/RADIOLOGICAL CHECKLIST, EPIP 3100021E, Page 8.9.On a form similar to Page 16, track the Dose Accumulation for Appropriate Sectors (half hour updates).10.On a form similar to Page 16, track the Dose Projection for Appropriate Sectors./R8
Page  17  of  30 ST. LUCIE PLANT
                    -,.- E-PLAN IMPLEMENTING PROCEDURE 3100033E,                     REVISION 8 OFF-SITE DOSE CALCULATIONS DOSE FACTOR TABLES            mRem/hr per Ci/Sec STABILITY CLASS A WIND SPEED GROUPS,          MPH
                >0  to    2              >2  to                    to  9          >9  to  18      >18  to  36 MILES      WB        THY          WB        THY        WB        THY      WB        THY      WB 1      1.25        2990        .416        998  ) . 208        499    . 104      250  I .052        125    I I     2 )
              .668        1600        .223        534  )
                                                            .111          267    .0556      134  I .0278      66.8  )
)      5 )   .360        863    I      120      288  I    0599      144  ) ~ 0300      71.9 I .015          36 l    1O)     .360        863        .120        288  )
                                                            .0599        144    .03OO              .015 STABILITY CLASS        B
                                                                        /
WIND SPEED GROUPS,          MPH
                  >Oto    2              >2  to  4                to 9            >9  to  18      >18  to  36 MILES      WB        THY          WB        THY                             WB        THY      WB        THY i      1)    8.9        21400  )
2.97        7120  I  1  ~ 48    3560    I .742      1780    .371'90 l            2.26        5410  )
                                      .7S2        1800  ) .376          902  )
                                                                                  .188        451    ~ A94      226 l      S  I    .388          932 l      129      311  )
                                                            .O6S          155  I .032      77.6   )
                                                                                                    .O16        38.8,)
1O        .360        ,863  I  .120        288  I  ~  059        144    .030      71.4  ) .015        36.0 STABILITY CLASS        C WIND SPEED GROUPS,          MPH RANGE        >0  to  2              >2  to                    to              >9  to  18      >18  to  36 MILE$      WB        THY          WB        THY        WB        THY      WB        THY I    1  I  22.5       54100  I  7.51      18000    ) 3.75        9010      1.88    '510      .939      2250 2  I  6. 54      15700    )
: 2. 18      5240    ) 1. 09      2620    I .545      1310  I  273      654 5   )
1.25        3000      .417        1000    ) .208          500    .104        250    ~ 052      125 I    10  )    .468        1120  )  .156        374    I .078          187  I ~ 039      93.6 ) ~ 020      46 '   I STABILITY CLASS        D WIND SPEED GROUPS,          MPH
                  >0  to    2              >2  to                    to  9          >9  to  18      >18  to  36 MILES                  TFY          WB        THY        WB        THY      WB        THY l      1  )
46.2        1.1E+5) 15.4            3.7E+4) 9.'14        2.2E+4)  5 '0      1 'E+4) 2.70      6480    I l    2  )  18 '       4 'K+4)    6.31        1.5E+4) 3.51          8410    I 1.96      4710    .982      2360
  )    5    )  5 '       1.3E+4)      1 ~ 83    4400    I    964      2310    l .511      1230    .255        613 1O        2.1        5030    I  ~ 70      1680    I  ~ 36        863  ) ~ 186      446  ) ~ 093      223    I


ST.LUCIE.PLANT E-PL'AN IMPLEMENT NG PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 16 of 30 DOSF.CALCULATION WORKSHEET (continued)
Page   18  of 30 ST. LUCIE PLANT.
This is (check appropriate box)f J A Dose Accumulation Worksheet, Time of Applicability
E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS DOSE FACTOR TALBES                mRem/hr per     Ci/sec (continued)
[]A Dose Pro)ection Worksheet, Applicable to DOWNWIND DIRECTION N ALPHA)NNE BRAVO NE CHARLIE ENE DELTA E ECHO I ESE FOXTROT I SSE GOLF SE HOTEL I S JULIET SSW KILO I SW LIMA WSW MIKE j W NOVEMBER)WNW PAPA I NW OUEBEC)NNW ROMEO WHOLE BODY mRem 8 MILES 1 2 5 10 THYROID mRem 8 MILES 10 ST.LUCIE PLANT-,.-E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 17 of 30 DOSE FACTOR TABLES mRem/hr per Ci/Sec MILES 1 I 2))5)l 1O)>0 to 2 WB THY 1.25 2990.668 1600.360 863.360 863 STABILITY CLASS A WIND SPEED GROUPS, MPH>2 to to 9 WB THY WB THY.416 998).208 499.223 534).111 267 I 120 288 I 0599 144).120 288).0599 144>9 to 18 WB THY.104 250 I.0556 134 I~0300 71.9 I.03OO>18 to WB.052.0278.015.015 36 125 I 66.8)36 STABILITY CLASS B/WIND SPEED GROUPS, MPH MILES i 1)l l S I 1O>Oto 2 WB THY 8.9 21400 2.26 5410.388 932.360 ,863>2 WB)2.97).7S2 l 129 I.120 to 4 THY 7120 1800 311 288 I 1~48).376).O6S I~059 to 9 3560 I 902)155 I 144>9 to 18 WB THY.742 1780.188 451.032 77.6.030 71.4>18 to 36 WB THY.371'90~A94 226).O16 38.8,)).015 36.0 RANGE>0 to 2 MILE$WB THY I 1 I 22.5 54100 I 2 I 6.54 15700)5)1.25 3000 I 10).468 1120)STABILITY CLASS C WIND SPEED GROUPS, MPH>2 to to WB THY WB THY 7.51 18000)3.75 9010 2.18 5240)1.09 2620 I.417 1000).208 500.156 374 I.078 187 I>9 to 18 WB THY 1.88'510.545 1310.104 250~039 93.6>18 to 36.939 2250 I 273 654~052 125)~020 46'I STABILITY CLASS DMILES l 1)l 2))5)1O>0 to 2 TFY 46.2 1.1E+5)18'4'K+4)5'1.3E+4)2.1 5030 I WIND SPEED GROUPS, MPH>2 to to 9 WB THY WB THY 15.4 3.7E+4)9.'14 2.2E+4)6.31 1.5E+4)3.51 8410 I 1~83 4400 I 964 2310 l~70 1680 I~36 863)>9 to 18 WB THY 5'0 1'E+4)1.96 4710.511 1230~186 446)>18 to 36 2.70 6480 I.982 2360.255 613~093 223 I ST.LUCIE PLANT.E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 18 of 30 DOSE FACTOR TALBES mRem/hr per Ci/sec (continued)
STABILITY CLASS           E llew        WIND SPEED GROUPS, MPH
MILES I 1 I I 2 I I 10>0 to 2 WB THY 70.6 1.7E+5I 33'7'E+4I 11.6 2~8E+4 I 5.07 1.2E+4I STABILITY CLASS E WIND SPEED GROUPS, MPH>2 to 4>4 to 9 WB THY WB THY 23.5 5'E+4I 15.9 3'E+4I llew 0 2.7E+4l 6'3 1 6E+4l 3.87 9280 I 2~15 5150 I 4050 I.897 2150>9 to 18 WB , THY 10'''E+4l 4.05 9710 I 1.18'840 I.475 1140 I>18 to 36 WB THY 5.1 1.2E+4I 2.02 4860~592 1420 I.237 570'ANGE>0 to 2>2 MILES WB THY WB I 1 I 125 3E+5 I 42 I 2 I 64 1~5E+Sl I 5 I 25'6E+4 I 8'10 I 12.1 2.9E+4I 4.0 STABILITY CLASS F WIND SPEED GROUPS, MPH to to 9 THY.WB THY lE+5 I 31 7~4E+4 I 5.1E+4I 14.''E+4I 2E+4 I 5'1~2E+4I 9670 I 2.2 5300>9 to 18 WB THY 19 4.5E+4I 8.53 2E+4 2.9'660 1.2 2840 I>18 to 36 WB~THY 9.5 2.3E+4 4.3 1E+4 3330.60 1420 STABILITY CLASS G RANGE MILES I 1 I I 2 I I 5 I 10>Oto 2 WB THY 196 4.7E+5I 111 2.7E+5I 52 1.3E+5I 27.5 6.6E+4I WIND SPEED GROUPS, MPH>2 to to 9 WB THY WB THY 65.3 l.6E+5 I 57 1.4E+5 I 37 8.9E+4I 28 6.7E+4l 17 4~1E+4 I 11 2~7E+4 I+I 5'1.3E+4>9 to 18>18 WB THY WB 31''E+4I 15.4 17 4'E+4l 8'6'1.5E+4l 3'2'6980 I 1 5 to 36 3.7E+4I 2.0E+4I 7540 3490  
              >0 to   2             >2   to   4              >4 to 9             >9     to   18       >18   to   36 MILES    WB       THY         WB         THY           WB         THY       WB     ,      THY       WB       THY I    1 I 70.6     1.7E+5I 23.5           5 'E+4I      15.9       3 'E+4I    10 '       '    'E+4l  5.1        1.2E+4I I    2 I 33 '     7 'E+4I           0     2. 7E+4l 6     '3       1   6E+4l 4.05          9710    I 2.02      4860 I        11. 6    2 ~ 8E+4 I  3.87       9280     I   2 ~ 15     5150     I 1. 18       '840   I ~ 592      1420    I 10    5.07    1.2E+4I                 4050      I  .897      2150      .475          1140  I .237       570 STABILITY CLASS F WIND SPEED GROUPS,            MPH
'ANGE         >0 to   2             >2 to                        to  9          >9    to    18        >18  to  36 MILES   WB       THY         WB         THY      . WB        THY      WB            THY      WB ~      THY I   1 I 125     3E+5     I   42       lE+5     I     31      7 ~ 4E+4 I 19          4.5E+4I     9.5      2.3E+4 I    2  I 64      1 ~ 5E+Sl              5.1E+4I         14.'       'E+4I 8.53            2E+4        4.3      1E+4 I    5  I 25 '    6E+4    I    8 '      2E+4     I   5 '       1 ~ 2E+4I 2.9    '660                        3330 10  I 12.1    2.9E+4I       4.0      9670      I  2.2        5300      1. 2         2840   I   .60     1420 STABILITY CLASS           G WIND SPEED GROUPS,             MPH RANGE      >Oto    2             >2  to                       to   9          >9   to    18        >18  to  36 MILES    WB       THY         WB         THY           WB        THY      WB            THY        WB I    1  I 196      4.7E+5I 65.3           l. 6E+5   I     57       1.4E+5   I  31    '
                                                                                                'E+4I  15.4      3.7E+4I I   2  I 111      2.7E+5I 37             8.9E+4I         28       6.7E+4l     17           4 'E+4l    8'      2.0E+4I I    5  I  52      1.3E+5I 17              4 ~ 1E+4 I     11       2 ~ 7E+4 I 6 '         1.5E+4l    3 '     7540 10    27.5    6.6E+4I                       +   I    5 '     1.3E+4      2 '         6980   I   1   5   3490


ST~LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 19 of 30 TABLE 3 ACTION GUIDELINES In-Plant Systems A.Containment High Range Radiation (CHRRM)INSTANTANEOUS READING<7.3 E+03 R hr>7.3 E+03 R hr>1.47 E+05 R hr EVENT CLASSIFICATION No Emergency Classification Site Area Emergency General Emergency B.Post LOCA Monitors (Backup to CHRRM)-Verified by Survey INSTANTANEOUS READING<1000 mR hr>1000 mR hr EVENT CLASSIFICATION No Emergency Classification General Emergency 2.Release Rates: A.Noble Gas Releases INSTANTANEOUS READING<0.083 Ci sec>0.083 Ci sec to<0.83 Ci sec EVENT CLASSIFICATION No Action-Within Tech.Spec.Limits Unusual Event>0.83 Ci sec Alert 3.Dose Calculations A.Whole Body Dose Rate at 1 Mile: INSTANTANEOUS VALUE Not applicable
Page  19 of 30 ST ~ LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033E,             REVISION 8 OFF-SITE DOSE CALCULATIONS TABLE 3 ACTION GUIDELINES In-Plant     Systems A. Containment High Range Radiation               (CHRRM)
>1000 mRem hr 2 MINUTE DURATION>500 mRem hr Not applicable HALF HOUR DURATION>50 mRem hr Not applicable EVENT CLASSIFICATION Site Area Emergency General Emergency B.Thyroid Dose Rate at 1 Mile: MINUTE DURATION HALF HOUR DURATION EVENT CLASSIFICATION Not applicable
INSTANTANEOUS READING                             EVENT CLASSIFICATION
>2500 mRem/hr>250 mRem/hr Site Area Emergency C.Integrated Thyroid Dose at 1 Mile: l ACCUMULATED DOSE EVENT CLASSIFICATION
            < 7.3 E   + 03 R   hr           No Emergency  Classification
>5000 MREM GENERAL EMERGENCY 0
            > 7.3 E   + 03 R   hr           Site Area  Emergency
STf LUCIE PLANT..A'.E-PLAN IMPLEHENTING PROCEDURE 3100033Et REVISION 8 OFF-SITE DOSE CALCULATIONS Page 20 of 30 APPENDIX A DOSE FACTORS FOR STABILITY CLASS A'4 w oouY uvoc FCfa 3TttBILI7t'LA>v tt-(ai~cc)/rfa) t cd:.tt tt 1.v Ci/3EC E)ita3GaL~t tatttc~~4 I<<\1lnu (%ri)f I~A Ce A Oo't~Oo 74 f)I'Itl QM-RILE" IVe ll~I,~A I~C%'h)V 04OOC Vl 4ofQC Vl A A A~Oo DVCVI A At A~Oo OVCV I A~AP A~Oo OVCV I A jot~deoVC 01 A AP A~Oe OVC Vl AP~~G I OVC<<J I A~At A~JIOVC Vl A~AP teel)VC A~~P A~a Deva 2.rX+1 1.&<I 1~2VC 61 I et A I~CVC Vl~PAP'\I AIIP Ae I~'CV I I~IJCV I~AA A~I~~VC Va~A'lt A~Io<<'C Va~AAP A~I~'L'C Vl le<<<<J<<J.'\KC Vl~~~P A~I~I I CV I ttt+A I~JCC 54 TJC V2 54 f tC VJ.5~-cv".54 JJC VC 54 1tC VC 54 7PCVI.AA Je tCVL Atr Ii uo ttc>>4 7 10 1.v4Ev1 5.5/JEv2 3.ooEv2 I A PAP i<<A AAI At\Oo WCVC Oe WCVC 34 WCV2 A+At A AAP AA A AAP AA A AAP A A AAP AA A AA AA OoVVCV'eWCVC OoWCVC OoWCVC IIIWC V.Io-36 A P A A<<A AA~AAt AA Joliet OC Co/OCVJ'.I~I iK Vl.f jlt lA I~ijVCVC 1~54vc C42~fAI AA I 4 ijvc>>3c~PAP AA I fit I~IJ4JC Va'.I~ejVC VC f jlP lA CAP IA I~iVC J'J444CVL w'Ittu (t n)7''noiu uv3E FaJR STttSILI7t'M tt-t'ai/ntt)t co 3EL jot tt a.v~I/3EC cNI33IBt FJITc A<<~~tl At<<<<ert~~LIVttttttlllu LoakttfOLC nlLCG I~l I~'t~5.Oe I~~*IVI C~i V A Att O'\Ct JoVVO I~OVEfV G~~~P~AA Il tr AA A~At AA A Ar AA l At AA I~I actVO OIO<<K VC OIO<<KML OIDGC VC OoojacV'lt A jtt 44 DIG<<K+V@G~OGC"'tr.AA t at AA s ox>>J o DK<<v'Dace'~J.Jocf02 54QcW<<347CE<2 2eooc~J2<<o Doc+)2 2toocvL 24oocv2 A PAP AA A AAP Ajl L I&#xc3;CNC e'.~OOC 1 A AAP AA L I 4GGCfVe'.A AA AA'DOC&<<'AAP'I~OOC>J~A~tetr Atl tl<<P~AA~Aft AA~~~I AA~~~AA~~~et~~~P AA~~P AA~~~P AA I~~P A f,t.c<<VL LIOICfVL I~OJCfVL I~fwc<<VC',etc<<JL a,w<<C<<J I~<<C'J I~~cfeJ'of<<C V-I~<<Cf'JC~act AA~~et I~'t<<CW'~A A IO A feP AA<<I IJVC<<VC Aet jlA A A A~<<~AP,A~~~t.A~IIM<<VL 1~<<Oc>JI I~I JCfVI I~ITC Vl~Aj A~<<~At~A~<<~Ar A~~tt I'~~P A~IAP A~A I I~I JC<<VI I~ltcfjJI 4~I CeVI''ZC Vl I~I'Ce"Ja"~I.C<<'Jl I~a~C>>'IO 4'I~C JC+eJX t~t~A A~A 4P I A A~A 44 4<<~A A A~A t~'I t A I~.A Ae A~A Oe DOC<<V1't~OtKfVI)I OIJC>>JI Go OIJC<<VI jae OL'0 Vl Ge OVC<<VI I~GVC<<VI IOVC Va I~O'J Va I~GVC J I G~Gajc<<J
            > 1.47   E + 05   R hr         General Emergency B. Post   LOCA   Monitors (Backup to         CHRRM) Verified by   Survey INSTANTANEOUS READING                             EVENT CLASSIFICATION
              < 1000 mR   hr                   No Emergency  Classification
              > 1000 mR   hr                   General Emergency
: 2. Release Rates:
A. Noble Gas Releases INSTANTANEOUS READING                                 EVENT CLASSIFICATION
            < 0.083 Ci sec                               No Action  Within Tech. Spec. Limits
            > 0.083 Ci sec to       <   0.83 Ci sec     Unusual Event
            > 0.83 Ci sec                                 Alert
: 3. Dose   Calculations A. Whole Body Dose Rate           at   1 Mile:
INSTANTANEOUS                   2 MINUTE          HALF HOUR VALUE                     DURATION          DURATION          EVENT CLASSIFICATION Not applicable               > 500 mRem   hr   > 50 mRem hr       Site Area  Emergency
            > 1000 mRem     hr           Not applicable      Not applicable     General Emergency B. Thyroid Dose Rate at           1 Mile:
MINUTE         HALF HOUR DURATION         DURATION          EVENT CLASSIFICATION Not applicable               > 2500 mRem/hr     > 250 mRem/hr       Site Area Emergency C. Integrated Thyroid         Dose   at   1 Mile:
l   ACCUMULATED DOSE                 EVENT CLASSIFICATION
              > 5000 MREM                       GENERAL EMERGENCY


ST LUCIE'L)NT
0 Page          20        of    30 STf LUCIE PLANT..
.E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 21 of 30 APPENDIX A DOSE FACI,'ORS FOR STABILITY CLASS B iaaiau P OAOO~)IVovLc evul a)vec ILA OliaoILII I QJ1303 8-ii)IaEait IV%)s eiiecu o.n n l~v vll ci.caiaeeaaa hnlc RQ4)I)au DISTriivc-ilILES l~tl Ce eo'I~5.I~Oo r~lVI~~lao aCI A to V C A AGE+A 2o 2ecW 1.GIEM 5.oeEv"a 3oeec Gl 3o evAEGI A AP A~A~AP A~deeVC Vl doOVC Vl A AI il A A\~el OVCVl el OVCV l'I A Al A~eteVC'il eteVC'il 2-4 APP+A A'Il C 7.52Ecv1 3.35EpGa l~orc vl I Ioc~E-GI~AAI A~~tsAP A~~AAP A~l~CVC Vl l~save Vl l~LVC Vl~AAP A~l~Avc il~tlAP'I~l~P'Vcoil AAI A~l~P'VCV I~AA A~l~AVVC 4 l.4eciGG 3.7oE+I l.6ec<I"r.44E~I2 Oo4IC V2 5o I rCVI.5o I>CVC 5o rrcvc 5o orc vc 5.rrc i2 5.:rc i2 5e rrcvI.9-Io 7.4u&#x17d;P01 1~Oec Vi A A~APGA~PAP A li'il ICC VC li ls~I AA Oo C'ICVL 3.GGEv2 A AAP AP A AAP AA et WCVIa et VVCVC el WC'PAP*A 0~WC'AA AA et WC VC Ae~9.4C&)2 4.1$Ev2 P Alt AIS I.o iRCVI I.o2Ep02 1.5GEp02 JAP AA 1~AAICVC l oPC~V'~5VC v2 l~5VC li2~0 AP Ale l e SVCVC w'Ihu FEED iiii.al)ittvID uvec Evaa STASILIa I'M 8-i%%uiPR)i eiaecu i.n A a.v vaieci.Cnaeeavii RriTCE II uvimQI)iD DISTrhm-BILES l~Co li ee 5.ee I~lV ll~~A l'0 2 2 14Ei04 5 41&03 2 41Ei03 1 30ci00 r~Olci02 0 Oee+0'OAKpV2 0 OAKPi02 0 OoK I 0 OiK VC 0 Odcovc 0 00Ci02 2-4 7.I cciGS'l.oviiG3 8.0%F2 4.50ci02 3.I IEi02 2.oeci02-"" ooci02 2.00Ei02 2.OOEi02 A AA\P AA Al\CoNC VC CoNC VC A Att AP aeeecV'~3o iVcs03 I I PcciG2 4.v2Ei02 2.270 i02 I.K<i2 I o 44"v2 I~44Ei02 a.44ci02 I.4 ci02 l~44ci02 a~44Ei02 a.44ci02 18 l~70&#x17d;c&3 4~51Ei02 2 GIEi02 1~1%iG2 s.70Ess01 I~lrci0l I~irciGi Te a ci01=~I iGIi l~llE~IGi A O~A i~AGAEiGAA se~P A~A~~,AA~P\~P AtsP A~A AI A so Al A~A A al~A AP A A AI A~I A~A IA A~I o LOCiGL l~Vlcsoesf 5e 6CC'sua etsAOCWa ee Ov Va ee OVCVa 0~esiC+ia re OVCVa coo'.IC'ova
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I~     'CV'\ II PAP                 AIIP I IJCV I
                                                                                                                                                            ~
Ae     ~     AA I ~ ~ VC A~
Va
                                                                                                                                                                                                ~
Io<<'C A~
Va
                                                                                                                                                                                                                  ~
I    ~
AAP
                                                                                                                                                                                                                          'L'A~
Vl le<<<<J      <<J.
Joliet                                                                                                                                                                                                                    Atr
                ' \KC            ~    ~ ~
Vl I ~ I I CVI P    A~       ttt I ~ JCC +A           54 TJC V2          54    f tC    VJ. 5   ~ -cv". 54 JJC VC            54    1tC VC                           54  7PCVI.       Je      tCVL AA uo  ttc>>4Ii I
A PAP          i<<  A AAI At\                              A +At              A AAP AA OoVVCV'eWCVC        A AA AA A              AAP    AA  A AAP AA          A AAP A IIIWC V.
7      10  1. v4Ev1          5.5/JEv2        3. ooEv2              Oo  WCVC          Oe    WCVC          34 WCV2                                                                      OoWCVC            OoWCVC Io-36            A P OC A  A <<A Co  /OCVJ'.
AA ~     AAt AA I ~ I iK Vl.
fjlt I ~ ijVCVC lA 1  ~  54vc    C42
                                                                                                                  ~    fAI AA I 4 ijvc>>3c
                                                                                                                                                          ~    PAP AA I ~ IJ4JC    Va'.
I    fit I ~ ejVC      VC f jlP lA I ~ iVC J' CAP IA J444CVL 7''noiu        uv3E      FaJR    STttSILI7t'M tt - t'ai/ntt) t                                  co 3EL    jot tt a.v        ~
I/3EC cNI33IBt FJITc w'Ittu A<< ~ tl At<<<<ert
                                                                                                              ~                         ~ ~
LIVttttttlllu LoakttfOLC              nlLCG (t n)
I~                                   Il ~                 't ~                   5.                  Oe                I~
                                                                                                                                                                                                        ~
IVI                                C~
V i A   Att O'\
Ct JoVVO            I ~ OVEfVG
                                                    ~     ~ ~ P ~ AA I ~ I actVO Il OIO<<K VC tr    AA   A       ~ At AA A Ar AA OIO<<KML OIDGC VC                        OoojacV'lt l      At    AA DIG<<K+V@
A G ~ OGC jtt "'  44 s
tr .AA t at AA ox>>J        o DK<<v'              Dace'
            ~                                                                                                                                           A PAP AA            A AAP Ajl        A AAP AA          A' AA        AA      AAP 'I J. Jocf02          54QcW<<347CE<2                        2eooc~J2            <<o     Doc+)2        2toocvL 24oocv2                        L I &#xc3;CNC            e'. ~ OOC 1
L I 4GGCfVe'.           DOC&<<'      ~ OOC>J
        ~  A       tetr Atl tl <<P AA f,t.c<<VL
                ~                             ~
LIOICfVL I OJCfVL
                                                    ~
                                                        ~
Aft AA              ~ ~I    AA I ~ fwc<<VC',etc<<JL
                                                                          ~                   ~       ~ ~     AA    ~   ~ ~
a,w<<C<<J et I ~ <<C 'J
                                                                                                                                      ~     ~ ~ P  AA    ~
I ~
                                                                                                                                                                ~   P AA
                                                                                                                                                                ~cfeJ'of<<C    ~     ~ ~ P  AA V-I I ~
                                                                                                                                                                                                      ~ ~ P
                                                                                                                                                                                                        <<Cf'JC A    ~     act AA I 't<<CW'
                                                                                                                                                                                                                        ~
                                                                                                                                                                                                                                    ~
                                                                                                                                                                                                                                        ~et
                                                                                                                                                                                                                                        ~
A     A IO A   feP
              << I IJVC<<VC AA          Aet jlA IIM<<VL          A A 1  ~ <<Oc>JI A~    <<
                                                                            ~
                                                                              ~ AP,A ~
I I JCfVI
                                                                                              ~     ~
I ITC Vl
                                                                                                  ~
t    .A ~         ~ Aj I I JC<<VI
                                                                                                                      ~
A~ <<
I~
                                                                                                                                            ~ At A ltcfjJI
                                                                                                                                                  ~   ~   <<
4 ~
                                                                                                                                                                ~ Ar A I CeVI
                                                                                                                                                                        ~
                                                                                                                                                                                '   ~ tt
                                                                                                                                                                                    'ZC Vl I'
                                                                                                                                                                                                    ~
                                                                                                                                                                                                      ~
I I'Ce"Ja
                                                                                                                                                                                                        ~ P A ~
                                                                                                                                                                                                                    "~
IAP  A~
I.C<<'Jl  I~
A a ~ C>>'I 4'           t t  ~            A
                                                    't~ ~ OtKfVI  A~     A     4P            I      A     A~   A       44  4<< ~ A       A     A~
I      A   t            ~ 'I    t  I A    I~
I . A    Ae  A  ~ A IO          I ~ C JC+eJX      Oe DOC<<V1                              )I OIJC>>JI        Go    OIJC<<VI        jae OL'0      Vl  Ge    OVC<<VI            ~ GVC<<VI            IOVC Va          ~ O'J    Va        ~ GVC J I   G~  Gajc<<J


ST<<LUCIE PLANT~E-PLAN IMPLEMENTING PROCEDURE 3100033K, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 23 of 30 APPENDIX A DOSE FACTORS FOR STABILITY CLASS D tt)lVLE KIJY K%Fvra SIABILI IY G ttoo ae ilfP/)Itt) t SING i4t rt I~V>>II SEtt BIISSIQi/tetr C<<IIIII i>>rH)+ta Co A Oo Oo I~Im)<<ir)I)iD Glott't)rX
Page        21      of      30 ST LUCIE'L)NT .
-BILES Oo 1~~A IV>>II~~t IC>>Oc 4a 6CCIO1 Isa&I I~IOEVI 7>>46EVO 5>>50'~Cl dW Ss 45CVO 2>>OTHOV 2>>4SEVO 2>>IVER<</I~05E>V I~I 6EVO'I~54coO 1 6 o>>a I Ev0~AP AA Oo OOCVV c>>4rcM AA 1~OaaCVV~OAP hh I s<<CCVV~~CP~h h I~I alCVV 1>>55C Vl Oe IVC Jl AA h~O>>11C Vl~AP A~0>>IIC Vl 5>>OOC~A 1~14cK4 S.51&%i.11'AAP AA I~>>ICCW>>V 1~04c Ol 7>>44C Ol 5>>1OC Jl hP h A~et h~~At<<h~~~AP h~'I~r'ICVI'to IOC Vl root'C JI I~I/O Vl 0>>VCC Vl r-io 5.40'.96EKQ I~VOChl0 7>>O~rc vl 5.I1Ep01 S.r IEpOI Oo ICC Ol 2.57EP01 A~tt h~a'l l CVI~tAt h~~At A~I~OOC Vl I~oac Vl I~5OCV I 2.70EiOO 9.occpOI 5.41Ep01 S.54E<I 2.55Evl I~10C Vl 1~C/C Vl~h<<P he I~VOC Vl AAP tlA~C.C~/C A~h Oe I/C VC ah I>>IOC Jp'<<Iitl/lt'CCIr errril aeePgD IOAP PO<<hr@ILIP t~atv 0 tgP>>ga)~PAP<<<<ti~I h Ae>>APA P>>>AA>>ha<<Pe~\g<<I<<A~a~gts PA Cs Os 5.Oe I~A 1~IV>>~~II~~A IC>>h A V 1~I Iv&5 4>>WV<<2>>&/4 I~7 1cV4 i e occA I e vocoder os cccvo 0>>ooww 5>>oatc~w Jo vocvo~~hA~AAP hA'to rCWJ A~Astctv)A~So IOE'hA 1~5IC~Oo OCEKO 5>>17EVat 4~'tVCHS ate 4CCHS 2>>I OCVS 2>>Crc+04 I~t'tCVO I e OOCVS I~<<OCTO~~~~I~'t lcivaa A AP ho A~~t~hh~PAP hA h>>AP IA A Ae~, tl<<~At P ht\~>>AP hh~t AA~ahP AA l l t C e i 1 Coopt Oo<<I Eovet 4>>I I CVO lao Ioctvd Ce eaICV>>t I~I tE>>'/lt I~'t<<CVO I~1 ruat I o VVCWO Os OaacoVC t~ahVCVC I~'aC>/1 lo AAP ho~'e>>P~AA t\tll hh~'Ah hA~Aht~AA P APP AA AP~htl~P htl<<Ah AA~~h A'lh A~I aeVCov4 W IlctOO C>>OVB'lO I~/VCR I~CAVO~~O.CVC I~e/OCPJC 0>>IIC VC a/e V WC<<o>>C}1CCt'VC I~I<<t JC~0 ro~At hA h At~AA Oe<<Ocovr Ce aeOCVet Aht hhl A<<aI h<<~~AP hA s Ah AA A tP hA h hh<<.h<<A>>hP hA A PP tA A.AA a.ze~r>o.m~vc o.Iocivc<<.I vcsc o.I.c~/c o.Vtc~v c.Ore/c~Jc~e/i.reci c th I~Ql V'
E-PLAN IMPLEMENTING PROCEDURE 3100033E,                                                                 REVISION 8 OFF-SITE DOSE CALCULATIONS APPENDIX A DOSE FACI,'ORS FOR                         STABILITY CLASS                             B IVovLc        evul a)vec ILA OliaoILII I            QJ1303      8  -    ii)IaEait IV%) s eiiecu o.n n            l ~ v  vll  ci. caiaeeaaa      hnlc iaaiau RQ4)I)au DISTriivc              -    ilILES P OAOO ~
        )
tl                              'I ~                                                     I                               r            lVI
                                                                                                                                                                                              ~ ~
~             Ce              eo                                5.                                      ~             Oo                ~                           lao                aCI AI il A              \
A to V C A AGE+A 2o 2ecW            1. GIEM 5.oeEv"a                 3oeec Gl            3o evAEGI A
deeVC
                                                                                                                          ~ AP A ~
Vl A
doOVC AP A ~
Vl A                     A el OVCVl el OVCVl eteVC
                                                                                                                                                                                      ~       'I
                                                                                                                                                                                                    'il A
eteVC Al
                                                                                                                                                                                                                      'il A~
I tlAP 'I 2-4    A' APP+A IlC        7.52Ecv1        3.35EpGa        l orc vl
                                                                ~             Ioc~E-GI            l
                                                                                                    ~
                                                                                                      ~
AAP CVC A~
Vl   l
                                                                                                                    ~
                                                                                                                        ~
tsAP A ~
save Vl
                                                                                                                                      ~
~
AAI A ~
LVC    Vl   l
                                                                                                                                                        ~
                                                                                                                                                          ~
AAP Avc  il A~ ~
l P'Vcoil
                                                                                                                                                                        ~
                                                                                                                                                                                      ~
l ~
AAI P'VCV I A~
l
                                                                                                                                                                                                          ~
                                                                                                                                                                                                              ~
AA AVVC A~
4      l. 4eciGG      3. 7oE+I         l.6ec<I         "r.44E~I2        Oo4IC V2            5o    I rCVI. 5o      I >CVC    5o    rrcvc      5o    orc vc  5.rrc i2 5.:rc i2                  5e    rrcvI.
A li li                                                                                                            PAP *A                    AA 9-Io    7. 4u'P01      1 ~ Oec      Vi A A~APGA
                                                            'ilPAP
                                                              ~
ICC VC ls ~ I AA Oo C'ICVL                            3.GGEv2 A AAP AP et WCVIa et VVCVC el A AAP AA WC'          0~ WC'         et WC AA VC P Alt AIS                                                    JAP AA                                                                              0 AP Ale Ae ~
9.4C&)2 4.1$ Ev2                  I.o iRCVI        I.o2Ep02            1.5GEp02        1~   AAICVC                        l oPC~ V'       ~ 5VC    v2    l ~ 5VC    li2  l
                                                                                                                                                                                                          ~
e SVCVC ittvID uvec      Evaa    STASILIa    I'M          8    -    i%%uiPR)i eiaecu i.n                A   a.v vaieci. Cnaeeavii          RriTCE w'Ihu II FEED                                                                            uvimQI)iD DISTrhm                    BILES iiii.al) l  ~             Co li ee                                5.                ee                I  ~                                           lV              ll  ~               l'A
                                                                                                                                                                                                                  ~
0 2  2 14Ei04        5 41&03          2 41Ei03        1    30ci00      r ~ Olci02          0 Oee+0'                OAKpV2    0 OAKPi02        0 OoK      I  0 OiK VC          0 Odcovc          0 00Ci02 A AA        \P       AA      Al\ A    Att AP 2-4  7. I cciGS      'l. oviiG3 8. 0%F2              4. 50ci02        3. I IEi02 2. oeci02                -"" ooci02        2. 00Ei02        2. OOEi02      CoNC VC          CoNC VC          aeeecV'
          ~ 3o  iVcs03      I I PcciG2 4. v2Ei02 2. 270 i02 I . K<i2 I o 44"v2 I 44Ei02                                ~             a  . 44ci02      I . 4 ci02    l 44ci02
                                                                                                                                                                        ~               a ~ 44Ei02        a . 44ci02 A      O~         A    i 18  l 70'c&3
              ~             4 ~ 51Ei02      2 GIEi02        1~   1%iG2        s.70Ess01          I ~ lrci0l      I ~ irciGi      Te    a  ci01    = ~ I   iGIi  l llE~IGi
                                                                                                                                                                          ~
                                                                                                                                                                                                                          ~
A ~ ~,AA         ~ P    \~  P AtsP A ~         A      AI  A              Al A ~   A      A        A AP A       A       AI  A~        I      A~   A    IA    A~
AGAEiGAA    I o se ~ P LOCiGL A  ~
l ~ Vlcsoesf    5e 6CC'sua      etsAOCWa            ee Ov    Va    so ee OVCVa          0 ~ esiC+
al ~
ia    re OVCVa    coo'.IC'ova        }IOVCVa              I et.


'I STo LUCIE PLANT'-PLAN IMPLEMENTING PROCEDURE 3100033Er REVISION 8 OFF-SITE DOSE CALCULATIONS Page 24 of 30 APPENDIX A DOSE PACTORS FOR STABILITY CLASS E wM SGui uvoc FGn STASILII F vtjtSS E-FeE))JItt) t SAocu~Xi A 1.0 CII'SEC c)i'xKAI'll Iv'tlcE KitntiIQ uISTthvc-ifILES A io A Oo'to 5.Oo I~Oe o~lVe ll~A lie 0 7.0bE<f 3.31&01 2.fOE<f 1.5IE<f l.foe+01 r.35Et00 hh I~I Oc'tvv~At AA 0~tMCtVV 5e I Octvv h~IA A~VI Ctvv~oeP hh'toIJtctvv
Page          22      of    30 ST. LUCIE IMPLEMENTING PROCEDURE 3100033Et                                              REVISION 8 PLANT'E-PLAN OPF-SITE DOSE CALCULATIONS APPENDIX A DOSE FACTORS POR                    STABILITY CLASS                           C ttn0LE o0uY DOoc r0n STADILIIt vtjtSS C                  - tmcn/mi t               BAocu tot A       l.v  Ci/SEC cttioosvtt ItAtc tl l IQ
~h hh'toVO~.AJI 2-4 2osroIc<f le fGERf os rrc 00, 5e 02cE~oo 87EM 3o iC P~AA is II I CttIV~AA~tl A hoilC W 1~riC~JV 1~orc~JV Oht Ah 1~INIC eJV i.o c JG.4 9 1.5rEKI o.73EC~4.GIEMr 2.84'.1%M 1.71E~~~eP AA 1~'t 1ctvv eA h 1~lrc w~htP hh A A P t~1oviC'tVV Oe rIC'Jl I~rOCV1 P he 9-i8 1.0ic+Oi 4.G5c+00 2.35'.5r Et00 1.1 SEM r.SGEpGI 7.59E~)I O.SoEp01 5.45Ep01 4.I~c J 1 4.1 9'3.74c'Ji'I.lo 36 5e IGE+00 2oOictGO 1~I/Vw 7o97E Gf 5o ric vl 4eolc vf Se I rc Ol>I loc vl i~~Itc vl'ISIc vl 2e IGc IJf 1~SI T)ttnOID uOOC FGR STASILITY CLASS E-(%9/M)t SAN@Qi tt l.v vlIocv ct)lorlvtt ntttc oil)tu SFEED (t~r)+to io 3o'to 5.Oe I~CQtittilitu DISTt't'tvE
~or                                                                      u0ittQIHD DISTrViCE              - BILES wrrdi l  ~
-))ILES O~r~lVs~~11~~A the 0-2 1.7GEt05 7,9mt04 5.03Et04 S.oft@2.7m&4 2.24E~'l.oIc"J4 1.5rcm4 i~Soc'v4 i.chi J4 l.voc v4 r.i.ctv3 4 5o O~C t04 2e O5C+04 1~Coct04 1~2VAEteJ4 r~ioc+03 7o 4OCt03 0~'%43 5e 31EtGS 4eolc vS'e~GSE+GS So OlEt JS Se iKtoJO A AOP~At h~'P~IA~~ht hh AAP hh A AP~AA A~hh~~tIA~A~P AA Pt hh 9 dsolc&1~Oic~9e IOE OO O~Ohctvo 5o 1+4 VO to 1VCtvlt OoOOC VO~O&t JO is'IOC~O'tIC~JO 1~rlc'tVO 1~I lc~rls A lo A etP h~A oo~A~AP hA A AAP IA A A~~tl h A AAP AA~AAP AA~P P AA As~AA~AA~h A A A~AA io'I lcoePt I~Itch 5 NX%O O OOC'tVAo ioOlCtv)i isa'tVO 1 Oictvo 1 ACI JO 1~OIVVIr 1~o'tc Vo 1~VlC VO O~Ct Ji AAP,~~AsP A A Ae~,IIA Ae~,AA~~AP hA~AP AA A hl hei oP hA I o~hA PAP hh o hA AA 1 eQC 04'toOOCtGO isolC Vlt 1~I tc+JO 1 otictv le iiC VO I~1VC Vi I sK V Oo etC Ji Qe I'JC Vi 5o otOC Vo~~P AA
A lo              Oo         't ~            5.                   6.            I~
A Oo
                                                                                                                                                                    ~ A lve                ll ~
A llo
                                                                                                                                                                                                      ~
0-2    2og~+01      6,54E& SoISEA Io87dw" Iocw<4 8.rrE<I                                               oo80EP01      5o74cP01          5o    iirVi    4e6oc        Jl  4~   lrc vl    3    Icvi eAA A ~       AAo' 2-4    7eSIEt00      2o  18Et00    l 0eEM
                                            ~           0 ~ 24Ep01      4. lIEvl    3.00EpDI              ".2Icvi        1 ~ r IEADI I       ~ 7lcvl l 5ocvl l
                                                                                                                                                                ~
                                                                                                                                                                                  ~
                                                                                                                                                                                    ~ 'tOC  Vl  l
                                                                                                                                                                                                ~
                                                                                                                                                                                                  ~ OCCVl<
                                                                                                                                                                                                              ~1 3o'lrEh4      1~  0lct00 Solir<I          So  llCP0l        oVOE 01    1e5VC 01              1~ IOC    1   r ~ SOC  V'         ~ 5rC  Vl 7eOJC~(l            I IorVL OeolC Vl
                                                                                                                                                                                    ~
  "r-18    1. ooc+       5. 45cp01      2o 6ocp0i      1. 56Ep01      1.04Ep01      7o        4icv2      5. Oocv2 4 . 7ocv2                    l
: 4. r cp02      S. rvcvL        So  Scc    vl Se ixrv2 18-3o      9o etlcp01    2e 7ocp01      I ~ erIEp01  7e  80Ev2      So2  IEv2    3o          I4cvA2 2eoercvl          2o  etrcv2      2o    liSEvl  1 ~ ricv2 l PAP    ~
                                                                                                                                                                                    ~ I JCVl l    e 05CV2 tntnvlu uvoc rvn STttolLIT't'rtoo C              -           ititctt/nuit DA~ Qt            A l.0   Cl/SEC EIIISSIttt Itt'ttc
  'tt'Inu Si'EED I >FIII l ~
A lo A
Oo                          5.                   Oo            I~             Oo                r ~
                                                                                                                                                                    ~
lVo                ll ~          tho 5o4IE+04       IoSTCO        I SOEt03
                                            ~           4 41&VS Se00EHS              2 ICE+VS              le    RC  VS    I ~ OE+(3        l 24EC+IS
                                                                                                                                                  ~           I    llc VS l        ~ VSE VS    o    '2CE%2 l 't A     ~
l ~ 80'o          24EKS    2 e 52Et03    I 50E<3        1~ 00E 03    7o        1 rE<2 5. 44Et02          4 ~ 5 rEI02      4~     12Et02, 3. 74EPoJ2          S. 4SEm*2      3. b cteJ2
      't~ Ar A A rovicvo
                  ~   AA l olc60 A  ~ AP  A   ~   A~ P A I elocute
                                                            ~ AP AA 7o'trctvl      5  eXcml AA A 0
PAP vrcvlA      lI A
                                                                                                                    'l AP    A l lrcvl l V6ctvl A AAP OA          A A P AA l 0 I Ct'I o
                                                                                                                                                                        ~ OA
                                                                                                                                                                              'e      ILC        l $41CVl
                                                                                                                                                                                                ~
                                                                                                                                                                                                  ~
P  A A A P A~                     'AD      AAP    A IIE&2                      l OVER l                              I ~ l Sct02      l            I               l
                                                                                                                                                                          ~
r 10    4o SrlC 0et    1 ~ SlE&3 Oo30Et02          Se              2oSAJCWL          ~                  ~ ieoctVA2                        ~ Vir+02      e erCC    V    Oov'OC      Vl I roc&a
                                                                                                                                                                                                  ~
                                                                                                                                                                                                              ~
~
lo A        A APP AA ColiC      VO OoStcdlA
                                  ~o l
A
                                              ~
                                                ~ PP lSCEHl A  ~  AAP AA loOIWl    ~
                                                                          ~
App,oA A AAp A I lirterl Oorrc&l
                                                                                                        ~         Aht Oeovchll A    tdo pep    A ltcooJl ~   i5e IepCV  A~ ~     AP h ~
                                                                                                                                                              'toOOCOVI
                                                                                                                                                                                  ~ AAP A
                                                                                                                                                                                'tel  rc'Ovl~             A~
I C'tvl


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lo2 C.Vl l VrcrSI}~Oh 4}SE+01 P 2o l&#x17d;~chtl-~is 4SCE<}--"1 e v7Er'0}:Oe 46E<st/-o.roErILsSe rear'Ihrv-5.IOC~4-r'52Env r~e/aSSE'srt-~a OSEr've'I~*." 4e SSrEchpy..
+
4s 0VE~Se Ssicr00.2eo/rIV 2o SVE~/0 2s2}E, VV h I~7+C'r/v s l-a a"}.Or Et0}LSOCW 5.2}E+00 P3'65EK6 2.r OE+00''Cesar;=}.OOCr'00-"}.56E~W 1~}rcr0V l~vCC+Jv~A los A AAP hh ,~Orc~rV A Aha hh'XPVV~'r lr hh I~I 7t&V~AP h~~rrc VI 18-So 7~46Er'00 4o 26Er'00 2a 6VEr'00 la OS'1 sorer'00 1 e}}Erw r.bcp01 7.7 ecp0I 6.74E<}So rocvl Sococ~/I re IA vl~~l A Ii liiu ol ccu (iinnl IIIIRID uvoc Fvn STltoILITI VLnoo F-lincH/tni~ottocu vt}tt l.v triicctr ci}iooiLri
ta Co                Oo                                                Oo                I ~                Oo              1~
/VITE l~Ce alp 5.Oa I~Oe 7~~h lVe ll~I'h ri V C A PAP h 5 e QAP+h 1 o vSEcrvAS=7.67'AAP h o~AAP h~A hP h~h rtr h~5 Vs7trV4 reh/C Ir O Ivcrvr Autre'.'r A har h~l~7VtrVr~~h~Olcrv A h~Cs Oi c~/r 2-4 r.r6cr'Irr'.
                                                                                                                                                                                    ~
}vEr'04 A a APE 2.56E+04 2 o Ooocrvr 1.6OCW}.42cE~i.M+v4 I.vM~~A P AA 7 e 0/CrVO A~~hA 0~I ItrV o Aa/~I C~IO 4-7~AP h~A AAP~h~I.rlc rvr Oe OOCrur 2e}SCE+04 1~Soc 0r le'1 rt 04 A OP AA 7~OICrVO h OP rap aA O Vrtrvoo O OCCro/O hh hA Oo Vt:CrvJ'al hh de 4I.'CrVP~hc h re~ostoV 7 7-13 4.BE+04}.2%M A APP+hh Oa I/C Vst hh Oo OocrVO 5 e Pic,rvo~~AP~hh A P~~hh'I~rVCrvr Oe I CrVO h S P~.\A rcr w hah hA I, OrC V'O P hA~seCC Voo A A AA err 2.2)EK4 l~v2cEr04 6 o 25CEf03 A A+A hei h~P hh L o COcrvos A PAP ah A%AA I..I VtrV O i o Oi C~I)AA~~Olc VO~hl~s rl I~ro,trVO A>>A l~~pe crVI~hr I C V
IV>>            II  ~
                                                                                                                                                                                                                        ~
IC>>
Oc    4a 6CCIO1        Isa&I             I ~ IOEVI        7>>  46EVO    5>>    50'             ~ Cl dW      Ss    45CVO        2>> OTHOV          2>> 4SEVO        2>>    IVER<</      I ~ 05E> V I         ~  I 6EVO'
                                                    ~ AP                                                OAP hh                      hh                                          AA                AP 6 o >>a I Ev0 AA c>>4rcM                      AA I s <<CCVV I I CP
                                                                                                    ~                ~    ~                                                             h~       ~       A  ~
                                                                                                                                ~
I ~ 54coO 1                      Oo OOCVV                      1  ~ OaaCVV                            ~   alCVV      1>>55C        Vl  Oe  IVC    Jl  O>>11C        Vl  0>>  IIC Vl        5>>OOC
        ~  A 1~    14cK4      S.51&%            i. 11'                 AAP AA I ~ >>ICCW>>V  1 ~ 04c        Ol    7>>44C Ol        5>>1OC          Jl 'I~ ~ At<<
r'ICVI h~  ~  ~ AP h ~
                                                                                                                                                          'to IOC Vl      root'C JI hP h    A
                                                                                                                                                                                                ~
et h I I/O Vl
                                                                                                                                                                                                  ~         ~
0>> VCC      Vl At              tAt r-io    5.40'.96EKQ                        I ~ VOChl0      7>>O~rc    vl 5. I1Ep01            S. r IEpOI      Oo    ICC Ol      2.57EP01 A
a'   l lttCVI
                                                                                                                                                              ~       h ~ ~             A ~ ~
I ~ OOC Vl I oac Vl I 5OCV I
                                                                                                                                                                                                ~
h~
                                                                                                                                                                                                                  ~
h<<P he            AAP tlA    A    ~       h                  ah 2.70EiOO        9.occpOI          5.41Ep01          S.54E<I      2.55Evl              I  ~ 10C  Vl                        1  ~ C/C    Vl I
                                                                                                                                                          ~
                                                                                                                                                            ~ VOC    Vl      ~ C. C~/C    Oe  I/C    VC    I>>IOC Jp aeePgD IOAP PO<<hr@ILIP                t    ~atv        0      tgP>>ga)            ~PAP<<<<ti          ~
I h Ae>>APA P >>>AA>>ha              <<Pe
    '<<Iitl/
lt'CCIr
                                                                                              ~
                                                                                                \g <<I<<A~a~            gts PA errril A                                                      A Cs                Os                              5.                Oe                I~                                  1~             IV>>            II
                                                                                                                                                                                                    ~ ~
                                                                                                                                                                                                        ~
                                                                                                                                                                                                                        ~
IC>>
V h A 1  ~ I Iv&5     4>>  WV<<2>> &/4                      I ~ 7 1cV4  i occA I e                  e vocoder    os cccvo          0>>    ooww      5>> oatc~w        Jo    vocvo            ~ ~
                                                                                                                                                                                            'to rCWJ hA    ~
A~
AAP hA Astctv)
A ~
So    IOE'hA    1~ 5IC~         Oo OCEKO          5>> 17EVat    4 ~ 'tVCHS          ate  4CCHS      2>> I OCVS          2>> Crc+04         I ~ t 'tCVO I e OOCVS              I ~ <<OCTO
                                                                                                                                                                                                                ~
                                                                                                                                                                                                                    ~
                                                                                                                                                                                                                      ~  ~~
I 't lcivaa
                                    ~~t      hh      PAP hA      h >>AP IA A         Ae ~, tl<<          At P ht\          >>AP hh                    AA        ahP AA       l                                              t iAP  ho  A                                                                                                                t                                    l A
Ce      1 Coopt  Oo
                                          ~
                                  << I Eovet
                                                ~
4>>    I I CVO    lao  Ioctvd  Ce    eaICV>>t
                                                                                                    ~
I ~ I tE>>'/lt
                                                                                                                      ~
I ~ 't<<CVO
                                                                                                                                          ~
~ 1  ruat    ~
I o VVCWO      Os OaacoVC        t ahVCVC
                                                                                                                                                                                                ~               I ~ 'aC>/
AAP ho          'e>>P AA     t\      tll hh         'Ah  hA       Aht AA        P APP AA                AP htl                P htl <<Ah AA                          h        A        'lh  A 1  lo  I aeVCov4
                              ~
W  IlctOO C>>OVB'lO I ~ /VCR I CAVO
                                          ~                      ~            ~
                                                                                    ~
                                                                                            ~
                                                                                                    ~ ~ O.CVC        I ~ e/OCPJC
                                                                                                                                  ~
0>>
                                                                                                                                              ~
IIC VC a/e        V WC
                                                                                                                                                                            ~
                                                                                                                                                                          <<o
                                                                                                                                                                                  ~
                                                                                                                                                                                      >>C      }    1CCt'VC      I I<< t JC
                                                                                                                                                                                                                    ~
                                                                                                                                                                                                                        ~
At hA    h At ~ AA            Aht      hhl A <<aI h<<              AP hA s Ah AA A tP hA                           h    hh<<.h<<Ac. Ore    >>hP hA     A       PP  tA
: i. Areci.AAc                  V' th ze~r>        o. m~vc o. Iocivc <<. I vcsc o. I.c~/c
                    ~
  ~ 0 ro    Oe    <<Ocovr    Ce aeOCVet        a.
                                                                                ~     ~
: o. Vtc~v                      /c      ~   Jc~e/                        I ~ Ql


ST+LUCIE'PLANT
                                                                                            'I Page          24        of      30 STo LUCIE PLANT IMPLEMENTING PROCEDURE 3100033Er                                '-PLAN REVISION 8 OFF-SITE DOSE CALCULATIONS APPENDIX A DOSE PACTORS                 FOR         STABILITY CLASS                             E wM SGui          uvoc FGn STASILII F vtjtSS E                  - FeE))JItt) t SAocu                  ~Xi A     1.0 CII'SEC c)i'xKAI 'll          Iv'tlcE KitntiIQ uISTthvc              - ifILES A
~'-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OPP-SITE DOSE CALCULATIONS Page 26 of 30 APPENDIX A DOSE PACTORS FOR STABILITY CLASS G IIIIIII yEEB I FIIJ~t<<A<<<<Alt Ah>><<0 Af shel ttht<<lAh A~trhrht t th~tt~Ahtt htl~~h A~thhh Aht~Atrr As>>linus 000i kec rvn oitt8icaii virtoo u-Irincriinnil ottocu 0n tt a.v va/>>i cna)oat.tl cnic 6$i%UIID DISTAt4X-BILE l~A js A ot 5.Os I~r Ce~A aVs al~~A lI~0-2 1.96Ea02 I.IIE~02 7.roc<I 6.26E<I 5.16E<I 4.~~601 A A<<A~sat OLCVl Ss Aohc'%1 A AAA he Oe IMC~Il h fl~js htac'tva A At~Cehhac&'a A~j't o~53E<I 3.7vE<i 2.66Ev" I 2.Dc+01 1.72E>01 1.46E+01~A>>l~hldira~~AA h~~her't l~ltac'tva I~vlc>va A t~Ah r a Kwv A A A Os OOCVV~<<'lh I~or 5.6%61 2.8IEHI 1.8icvi i.ore<I 1.aibOI r.Ioc+00 I~I rcvv 0.7I C+II0~Att hh~~~~0 C W''tehact'.Ar 9-18 3 linc+01 l~66E<I l l 0rc+01 8 IIScEi00 0 2%60 5.14&v 4.tah>>V0 S.73>>EVO S.2I CV0 2.r'I c Vit 2.62EVV 2.3 I cn&#xc3;~A At lo sao 1~54'<<cW 5.4I cQ 4e 0IE4 3e 14EV0 2e 5I Nl 2e I Ic+~r0 I~8:dw I~64E'iY'~4~K>w I~SIC+A 1~l rc>A<tt I ltITil St'cED (nt nl Tnlnvlo uvoc Fvn STI'IIIILII (CiM 0" II~K/nn)I 8tthcu vn tt i.v I I/>>t".CnISSIiII Ivttc'aaretntitIO uISTnn7E-tiliES l~I.~'t~5.Oe I~r Oe\A av~~~il~ah~0-2 4.70E+05 2.o7E+05 i.r 1&05 i.5IKm5 i.24Ew5 l.v&#xc3;w5 9e 1I cd 8.i21~>4 7..I cav4 n.5rcv4 o.v2Em4 2-4 I e5ic<5 8.OrEW o.one*'.0IEhVe 4.aSEv4 3e 51&Pt St06Ev4 2~7lchII4 2.42Ev"" 0E~v4'.vlEv4 i.0 Kv4 4-9 1.Xc<5 o.74Et>4.4%+v4 3.34E&2.66Ev4 2.2vEm i.otciI4 a.63c~r4 i.~<<I4 a..ww4 i.ieEw4 h A~9-18 I~earckl4 3s roc~ce 6&rt I e rstcM I~5ic+l4 I~~hocv4 le V4cv4 oe 9nc&3~shNKvd 0~rocvo~rA hA c h AA 0~OCVO ht~I VC Ic lo 30 3.ore<4 I.rrE~04 1.3IE~r4 r.o>>+v3 7.54BPs o.iicmS 5l2vEwS 4.4ncv3>sr:c~a oe~SE~vo A A rA hr h~a'tcVhh at O KVh
io A
Oo            'to              5.               Oo                    I~               Oe                o~             lVe                  ll  ~             lieA hh          At AA                            h        IA        oeP hh        ~ h          hh 0     7.0bE<f        3.31&01          2. fOE<f      1.5IE<f        l. foe+01          r.35Et00          I I Oc'tvv
                                                                                                                    ~
                                                                                                                                          ~
0 ~ tMCtVV 5e I Octvv                A~  VICtvv
                                                                                                                                                                                    ~        ~
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: 4. I ~c J 1        4. 1       9'       3. 74c 'Ji lo  36  5e IGE+00      2oOictGO        1~   I/Vw      7o97E Gf        5o  ric vl        4eolc vf        Se      I rc Ol        >I loc      vl  i  ~ ~  Itc  vl 'ISIc vl            2e    IGc IJf      1 ~ SI T)ttnOID      uOOC FGR    STASILITY CLASS E            - (%9/M) t                  SAN@ Qi tt           l.v vlIocv ct)lorlvtt ntttc oil)tu SFEED                                                                      CQtittilitu DISTt't'tvE        -       ))ILES (t~r)                                                                                                                                                                                                ~ ~                 A to                                                                                                                                                                                      ~
+                                io                3o            'to              5.               Oe                     I~               O~                r ~             lVs                  11  ~             the 0-2     1.7GEt05      7,9mt04          5.03Et04      S.oft@ 2.7m&4 2.24E~ 'l.oIc                                          "J4  1.5rcm4          i Soc'v4
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                        ~
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                                                                                                  ~
dsolc&                                                                                                                                                                                                     I lc~rls
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ST.LUCIE PLANT'-'LAN IMPLEMENTING FROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 27 of 30 THIS PAGE INTENTIONALLY LEFT BLANK 4
s                                    Page           25        of         30 STe LUCIE'LANT                        ~
ST~LUCIE PLANT'-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 28 of 30 APPENDIX B BACKUP METEOROLOGY WORKSHEET In the event data is unavailable from the meteorological"strip chart recorder, use the following procedure:
                        "  '-PLAN             IMPLEMENTING PROCEDURE 3100033EI                                              REVISION 8 OFF-SITE DOSE CALCULATIONS APPENDIX A DOSE FACTORS FOR                        STABILITY CLASS F l
A.Gather Data 1.Date: Time e 2.Phone the West Palm Beach Airport NOAA Center at 64-305'-684-3633 or (alternate)
o=
Vero Flight Service Station (Stuart f)287-8021.3.Copy current weather:/R8 Time of observation:
a r
Wind Direction.'ind Speed: Sky Condition:
                            'ItnvLE"qquY-uvoc.Fvn" oittoiLIT'I LLnoo                  F.
Clear or Scattered Broken Eastern (Standard)(Daylight)
                                                                                          -  I~i'rp oft IIII lt I                    I'/  I"llKCc~fISSI".r"         IIIITE II'inu DWEEB
Degrees Knots Overcast**If broken or overcast, copy ceiling height: ft.4.If daytime (1 hour after sunrise to 1 hour before sunset)go to Section C (next page)~B.Nightime Calculations 1.Determine Solar Radiation Characteristics:
                                                                            - CQHli'IS: uISTI't}tot''= HILES ~'"-"-
Sk Condition~Cei 1 in Radiation I OVERCAST I)I<7 000 I-~es-)I NIL I BROKEN I GLAR OR SCATTERED)2.Choose Stability Category (D through G)WEAK LOSS I STRONG LOSS I Solar Radiation Nil Weak Loss Strong Loss 01 2,3 D D F F G Wind Speed (knots)4 5 6 7 8,9 10 11)11 D D D D D D D E~E D D D'D F F E E E D D 3.Go to Section D.
                                                                                                                                                                                            ~    ~  s
                                                                                                                                                                                                                        ~  A los A AAP hh 0 2    1~  'js/Et02      6oOOCr0}'eMW}                  So@VCR}        '    54C10}s, Cev<c+0}          le/Otru} I otrtr0}"'es7ocrv} lo2                                C. Vl    l VrcrSI}              ,  ~  Orc~rV
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I ~ I 7t&V l
a                                                                    a" AP    h~
9-}S    }.OrEt0} LSOCW 5.2}E+00 P3'65EK6                                  2. r OE+00 ''Cesar;=}.OOCr'00-" }.56E~W I                            ~ s7s/C+/V    1  ~    } rcr0V        l  ~  vCC+Jv                ~
                                                                                                                                                                                                                      ~
rrc    VI C
18-So    7~  46Er'00      4o  26Er'00    2a 6VEr'00      la      OS'      1 sorer'00    1 e  }}Erw    r. bcp01          7. 7 ecp0I      6.74E<}          So      rocvl          Sococ~/I              re      IA vl IIIIRID uvoc      Fvn STltoILITI VLnoo F              - lincH/tni        ~  ottocu vt} tt      l.v triicctr ci}iooiLri /VITE
      ~ lA Ii liiu
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ol  ccu (iinnl l ~            Ce              alp                            5.             Oa              I ~              Oe              7~
                                                                                                                                                                          ~ h lVe                  ll    ~                I' h ri V C A PAP h 5
e  QAP+h      1o  vSEcrvAS =
7.67'                                AAP h 5 Vs7trV4 o  ~
reh/C AAP h ~
Ir A O
hP h Ivcrvr    ~  h  rtr    h Autre'.'r
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l 7VtrVr A har
                                                                                                                                                                    ~
h ~
                                                                                                                                                                                          ~
                                                                                                                                                                                                ~
Olcrv
                                                                                                                                                                                                  ~    h Cs A
Oi c~/r h~
A            P AA      A                hA          Aa
: r. r6cr'Irr'. }vEr'04          A                                                                                                                                                  ~ ~
2-4                                       a APE      2.56E+04          2 o Ooocrvr    1.6OCW        }.42cE~          i. M+v4 I. vM~~                  7  e  0/CrVO        0~    I ItrVo          /  ~    I C~IO OP AA          h OP            rap      aA Vt:CrvJ'al hh    hA                    hh    ~ hc            h 4-7  I . rlc
                ~ AP h ~
rvr    A AAP h ~
Oe  OOCrur
                                        ~
2e }SCE+04      1 ~ Soc  0r      le'1  rt 04    A 7 ~ OICrVO    O    Vrtrvoo    O  OCCro/O      Oo              de 4I.'CrVP            re ostoV 7
                                                                                                                                                                                              ~
hh      hSP                hah hA                                  A Aerr AA 7-13    4. BE+04                        }.2%M          A APP+hh Oa  I /C  Vst    Oo  OocrVO hh 5 e Pic,rvo
                                                                                                                  ~ AP hh
                                                                                                            'I~ ~ rVCrvr
                                                                                                                        ~    A P ~~
Oe  I CrVO            rcr .\wA
                                                                                                                                                          ~
I, OrC          V'      ~
O P hA seCC Voo A        hei  h      P hh    A PAP ah              A%      AA              AA          ~ hl    s rl        A>>        A l              ~   hr I.. I VtrVO      i
                                                                                                                                                                                ~
                                                                                                  ~
2.2) EK4          l ~ v2cEr04    6 o 25CEf03 A+A L o COcrvos                        o Oi C~I)      ~~  Olc    VO  I ~ ro,trVO            ~  ~ pe    crVI              I    C V


I P ST~LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS Page 29 of 30 APPENDIX B BACKUP METEOROLOGY WORKSHEET C.Daytime Calculations:
Page        26      of    30 ST+ LUCIE'PLANT ~
1.Determine solar altitude (angle of sun above horizon)using Graph C-l.2.Determine Solar Radiation Characteristics: (Nil, Weak, Slight, Moderate or Strong).SOLAR ALTITUDE Sky Condi tion Ceiling Ft.I<15 15-<35 35-60>60<7000 7K to 16K>16000<7000"Broken" 7K to 16K>16000 I I"Clear or Scattered" N/A NIL Weak Weak Weak Weak Weak Weak Weak Weak Weak Slight Slight NIL Weak Slight Weak Slight Moderate Moderate NIL Slight Moderate Slight Moderate Strong Strong 3.Choose Stability Category (A through D)Solar Radiation Wind Speed (knots)0,1 2,3 4 5 6 7 8,9 10 ll>11 Strong Moderate SliRht Weak Nil A A A A B B B B C C C D D D D B.B B C B B C C C C C D D D D D D D D D.C C C D D D D D D D D.Input to Dose Calculation System Take information to the DOSE CALCULATION WORKSHEET, Page 14.1.Wind Direction (from Step A.3)2.Wind Speed degrees 1.15 x 3.Atmospheric Stability (knots)mph (From Step B.2 or C.3)(Circle One): A B C D E F G
                            '-PLAN             IMPLEMENTING PROCEDURE 3100033E,                                         REVISION 8 OPP-SITE DOSE CALCULATIONS APPENDIX A DOSE PACTORS          FOR      STABILITY CLASS                        G t<<A <<<<Alt      Ah>> <<0 Afshel ttht << lAh        A  - Irincriinnil trhrht t th      tt ~ Ahtt htl          h A~  thhh    Aht ~  Atrr As>>
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RI DA AV AD N SrED FOR Valaitr IIIO rIME wolANT I WVICII SOLAR ALTITUDE BY TIME OF DAY ST.LUCIE PLANT T JNC ALT~I Sl tlt I40C 0 r CORREClED EOII LOIIQITIJOE OCIOOSO IRIS IWl 0 COCCI TOO 0<16 16'-36'~10 I 11 12 I 2 i',I I'I , sP'i.I I!36'0'40 10 i2 Tt g (h M aw o op rnn+o WWM a n Q I i I I 35'-40'Pfl M CO M O CO IO I!~,"I sAMW ni52I25 OlnIAkT 0 5 tOtS IIAncI I I I I IO I ZITI 20th S 5 202 k..Ill f 0 5202 AIIC 0 IS 2025 AAT 64 16'3~~0 I 20 25 NJQUSI 5 0 202 SIJII40III I OI$102$5 1015 202$IO 20 25 oc I oLo 0 Hovl 4ul 0 Io cl Qol 0 O m', OIIheu C~lt Ugl.ILEhb T1HEI
Page 27 of 30 ST. LUCIE PLANT IMPLEMENTING FROCEDURE 3100033E, REVISION 8
                            '-'LAN OFF-SITE DOSE CALCULATIONS THIS  PAGE  INTENTIONALLY LEFT BLANK


Page 1 of 13 FLORIDA POWER&LIGHT COMPANY ST.LUCIE PLANT EMERGENCY PLAN DiPLEMENTING PROCEDURE 83100026E, REV.9 1.0 TITLE: CRITERIA FOR AND CONDUCT OF EVACUATIONS
4 Page    28 of 30 ST ~ LUCIE    PLANT'-PLAN IMPLEMENTING PROCEDURE 3100033E,                  REVISION 8 OFF-SITE DOSE CALCULATIONS APPENDIX B BACKUP METEOROLOGY WORKSHEET In the event data is unavailable from the meteorological "strip chart recorder, use the following procedure:
A. Gather Data
: 1. Date:                                        Time e
: 2. Phone  the West Palm Beach Airport NOAA Center at 64-305'-684-3633 or (alternate)                  Vero Flight Service Station (Stuart f) 287-8021.                                        /R8
: 3. Copy  current weather:
Time of observation:                                                    Eastern (Standard)
(Daylight)
Wind  Direction.'ind Degrees Speed:                                                            Knots Sky  Condition:                        Clear or Scattered Broken Overcast                                *
* If broken or overcast,                  copy    ceiling height:                              ft.
: 4. If daytime (1 hour after                  sunrise to 1 hour before sunset) go to Section C (next page)                  ~
B. Nightime Calculations
: 1. Determine Solar Radiation Characteristics:
Sk Condition I  OVERCAST                I              )I
                                                      ~Cei 1 in
                                                      < 7 000                I
                                                                                ~es      )I Radiation NIL    I BROKEN                I                                                            WEAK LOSS      I GLAR  OR SCATTERED                )                                                STRONG LOSS        I
: 2. Choose  Stability                Category (D through G)
Solar                                                            Wind Speed  (knots)
Radiation                          01    2,3      4 5                  6  7    8,9    10    11        )11 Nil                            D      D        D                  D  D      D      D      D        D Weak Loss                          F      F        E              ~
E  D      D      D D
Strong Loss                                G        F                  F  E      E      E      D        D
: 3. Go  to Section                D.
 
I                              Page  29 of 30 P                        ST ~ LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033E,          REVISION 8 OFF-SITE DOSE CALCULATIONS APPENDIX B BACKUP METEOROLOGY WORKSHEET C. Daytime Calculations:
: 1. Determine solar      altitude (angle of      sun above  horizon) using Graph C-l.
: 2. Determine Solar Radiation Characteristics:              (Nil,  Weak,    Slight, Moderate or Strong).
SOLAR ALTITUDE Sky Condi tion                Ceiling Ft.        I    < 15      15    < 35          35    60        > 60
                            < 7000                  NIL                                  NIL          NIL 7K  to  16K            Weak                                Weak        Slight
                            >16000                  Weak          Weak                Slight        Moderate
                            <  7000                Weak          Weak                  Weak        Slight "Broken"                  7K  to  16K            Weak          Weak                Slight        Moderate
                            > 16000          I    Weak        Slight              Moderate        Strong I
"Clear or Scattered"          N/A                  Weak        Slight              Moderate        Strong
: 3. Choose    Stability  Category (A through D)
Solar                                    Wind Speed    (knots)
Radiation              0,1      2,3    4 5      6    7      8,9    10      ll      >11 Strong                  A      A      A      B. B      B      C      .C        C Moderate                A        B      B      B    B      C      C        C        D SliRht                  B      B      C      C    C      C      D        D        D Weak                    C      C      D      D    D      D      D        D        D Nil                      D      D      D      D    D      D      D        D        D D. Input to Dose Calculation System Take  information to the      DOSE CALCULATION WORKSHEET, Page        14.
: 1. Wind  Direction (from Step A.3)                            degrees
: 2. Wind Speed 1.15  x                    (knots)                      mph
: 3. Atmospheric    Stability (Circle One):
(From Step B.2    or C.3)          A    B    C      D      E      F      G
 
ADRISrED FOR DAValaitr                                        SOLAR ALTITUDEBY TIME OF DAY                                                              CORREClED EOII ST. LUCIE PLANT N AVIIIO rIME wolANT        I            WVICII                    T        JNC              ALT      ~I        Sl tltI40C 0  OCIOOSO      IRIS IWl0 r  LOIIQITIJOE COCCI TOO 0
                                                                                                                      <16 16'-36'~
10                                                                                                                                                                  10 36'0' I
Tt 11 (h M g
12                                                                                                                                                                  i2 aw i  ',I o
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                'I I
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            'i.
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2 I
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CO 35'- 40'                                                                                          M O
CO 16'~ ~ 3 64 I
I IO I!~,"I sAMW ni52I25 OlnIAkT 0 5 tOtS IIAncII I
ZITIk ..
IO I 20th S    5 202 Illf
                                                          ', OIIheu 0 5202 AIIC 0 IS 2025 AAT C~lt Ugl. ILEhb T1HEI 0 I 20 25 NJQUSI 5  0  202 SIJII40III IO    20 25 oc I oLo 0 OI$ 102$
Hovl 4ul 0 I
5 1015 202$
Io cl Qol 0 O
m
 
Page 1 of 13 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN DiPLEMENTING PROCEDURE 83100026E, REV. 9
 
==1.0 TITLE==
CRITERIA FOR AND CONDUCT OF EVACUATIONS


==2.0 APPROVAL==
==2.0 APPROVAL==
Reviewed by Facility Review Group Jul 25, 1975 Approved by K.N.Harris Revision 5 Approved by iewe by Fac ity Review Group March 20&25 19~8 V.P.Pwr.Res.l~Revision 6 R'e ed b Faci Review Group a 2.8 19 8 l Approved by V.P.Pwr.Res.z 19&~Revision 7 Rev~d by Facil Review Group 1 Approved by Revision 9 Revie'y Faciiit Review Group.Approved by.P., Nucl.Energy Z 1982.1982.5~Pl-8 1982.3.0 SCOPE: 3.1~Per ese This procedure provides criteria for determining if evacuation of a local area on-site or the Owner Controlled Area should be carried out.It provides instructions for effecting an ordered, rapid and safe evacuation of a local area or the Owner Controlled Area in order to prevent or minimize radiation exposure to personnel.
Reviewed by   Facility     Review Group                   Jul 25,       1975 Approved by       K. N. Harris Revision Approved by 5
It also provides instructions for personnel account-ability.3.2 Discussion 3.2.1 Accurate classification of emergencies that may occur at the Plant is necessary to enable the Nuclear Plant Supervisor to take the proper corrective action and to know when to initiate the Emergency Plans.For those emergencies involving high radiation and/or the release of radioactive material to the environment, it is necessary to provide the Nuclear Plant Supervisor (Emergency Coordinator) with guidelines that will enable him to know when to order a local area evacuation or"evacuation of the Owner Controlled Area.
                      'e iewe   by Fac   ity Review Group March 20 V.P. Pwr. Res.
Page 2 of 13 FLORIDA POWER&LIGHT COMPANY'MERGENCY PLAN IMPLEMENTING PROCEDURE//3100026E, REV.9 3.0 SCOPE: Continued 3.2 Discussion Continued 3.2.2'A local area evacuation or evacuation of the Owner Controlled Area may be necessitated by the occurrence of any of several events where evacuation of personnel would be necessary to minimize their exposure to radiation.
                                                                          & 25 l~
An Owner Controlled Area evacuation will be conducted for any Site Area Emergency or General Emergency.
19~8 Revision 6   R       ed b   Faci       Review Group       a   2. 8     19 8 l Approved by                                   V.P. Pwr. Res.             z 19&~
/R9 This procedure implements the St.Lucie Plant Radiological Emergency Plan.3.4 Definitions:
Revision   7 Rev     ~ d by Facil 1
/R9 The location to which evacuation personnel report.In a local evacuation, personnel evacuate and assemble in a location designated by the Emergency Coordinator.
Review Group               Z      1982.
In an evacuation of the Owner Controlled Area, evacuating FPL personnel from the Protected Area go to the Site Assembly Station on Highway A1A near the north entrance to plant property, while non-FPL personnel and FPL personnel from outside the Protected Area assemble at Jaycee Public Park on Highway AlA, 7<miles north of the plant.If necessary, other assembly areas can be specified by the Emergency Coordinator.
Approved by                                                                 1982.
/R9 3.4.2 Escort An individual specifically assigned to accompany other persons who are required by the Security Plan or Health Physics Manual to be escorted.3.4.3 Local Area Evacuation An evacuation of some portion of, but not all of, the Owner Controlled Area.It may include evacuation of a room, building, group of buildings, generating station area, or other portion of the Owner Controlled Area.I Page S ol FLORIDA POWER&LIGHT COMPANY EMERGENCY PLAN DPLE>KNTING PROCEDURE//3100026E, REV.9 3.0 SCOPE: Continued)
Revision   9 Revie       'y Faciiit     Review Group.         5~Pl- 8    1982.
Approved by                               .P., Nucl. Energy
 
==3.0 SCOPE==
3.1 ~Per ese This procedure provides           criteria for determining if evacuation of a local area on-site or the Owner Controlled Area should be carried out. It provides instructions for effecting an ordered, rapid and safe evacuation of a local area or the Owner Controlled Area in order to prevent or minimize radiation exposure to personnel. It also provides instructions for personnel account-ability.
3.2 Discussion 3.2.1 Accurate classification of emergencies that may occur at the Plant is necessary to enable the Nuclear Plant Supervisor to take the proper corrective action and to know when     to initiate   the Emergency Plans. For those emergencies     involving high radiation and/or the release of radioactive material to the environment,         it is necessary to provide the Nuclear Plant Supervisor (Emergency Coordinator) with guidelines that will enable him to know when to order a local area evacuation or"evacuation of the Owner Controlled Area.
 
Page 2 of 13 FLORIDA POWER & LIGHT COMPANY'MERGENCY PLAN IMPLEMENTING PROCEDURE
                                //3100026E, REV. 9
 
==3.0 SCOPE==
Continued 3.2 Discussion     Continued 3.2.2   'A local area evacuation or evacuation of the                   Owner Controlled Area may be necessitated by the occurrence                         /R9 of any of several events where evacuation of personnel would be necessary to minimize their exposure to radiation. An Owner Controlled Area evacuation will be conducted for any Site Area Emergency or General Emergency.
This procedure implements the St. Lucie                       Plant Radiological       /R9 Emergency Plan.
 
===3.4 Definitions===
The location to which evacuation personnel report.                       In a local evacuation, personnel                   evacuate and assemble in a location designated by   the           Emergency       Coordinator. In an evacuation of the Owner Controlled Area, evacuating FPL personnel from the Protected Area go to the Site Assembly Station on Highway A1A near the north entrance to plant property, while non-FPL personnel and FPL personnel from outside the Protected Area assemble at Jaycee Public Park on Highway AlA, 7< miles north of the plant. If necessary, other assembly areas can be specified by the Emergency Coordinator.                                                 /R9 3.4.2   Escort An individual specifically assigned to                   accompany other persons who are required by the Security Plan or Health Physics Manual to be escorted.
3.4.3   Local Area Evacuation An evacuation of some   portion of, but not all of, the Owner Controlled Area. It may include evacuation of a room, building, group of buildings, generating station area, or other portion of the Owner Controlled Area.
I
 
Page S ol FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN DPLE>KNTING PROCEDURE
                              //3100026E, REV. 9
: 3. 0 SCOPE:   Continued)


===3.4 Definitions===
===3.4 Definitions===
Continued) 3.4.4 Owner Controlled Area That portion of FPL property surrounding and including the plant which is subject to limited access and control as deemed appropriate by FPL (indicated by the line on the attached Florida Power&Light property plan, Figure 1 of this procedure).
Continued) 3.4.4     Owner Controlled Area That portion of FPL property surrounding and including the plant which is subject to limited access and control as deemed appropriate by FPL (indicated by the line on the attached Florida Power & Light property plan, Figure 1 of this procedure).
3.4.5 Owner Controlled Area Evacuation The evacuation from the Owner Controlled Area of all personnel except those required to place the plant in a safe condition, the emergency teams, and the guards necessary to fulfill their evacuation responsibilities.
3.4.5   Owner Controlled Area Evacuation The evacuation   from the Owner Controlled Area of all personnel except those required to place the plant in a safe condition, the emergency teams, and the guards necessary to   fulfill their evacuation responsibilities.
3.4.6 Radiation Control Point Located in the Auxiliary Building, it is likely to be used as an assembly area during a local evacuation.
3.4.6   Radiation Control Point Located in the Auxiliary Building,   it is likely to be used as an assembly area during a local evacuation.


==4.0 Precautions==
==4.0 Precautions==
4.1 Every effort shall be made to minimize personnel exposure to radiation.
4.1   Every   effort shall   be made to minimize personnel exposure to radiation.
4.2 Personnel who have been in the area of the emergency shall remain in a group, and shall not mix with the other personnel in the Radiation Control Point or other assembly area until they have been monitored for possible contamination, unless they are injured.Injured personnel shall be treated as discussed in E-Plan Imple-menting Procedure 3100021E, Duties of the Emergency Coordinator.
4.2 Personnel who have been in the area of the emergency shall remain in a group, and shall not mix with the other personnel in the Radiation Control Point or other assembly area until they have been monitored for possible contamination, unless they are injured.
4.3 Except as discussed in 4.2 above, personnel reporting to the Radiation Control Point or other assembly area shall group according to departments in order to facilitate personnel accountability and monitoring.
Injured personnel shall be treated as discussed in E-Plan Imple-menting Procedure 3100021E, Duties of the Emergency Coordinator.
4.4 When reporting to the assembly area, take the most direct route possible, but do not use any route or area that has been declared part of the emergency area, or that could result in excessive individual exposure or injury.4.5 If an area or building is evacuated, any records regarding the persons in the area shall be removed and taken to the assembly area.
4.3   Except as discussed     in 4.2 above, personnel reporting to the Radiation Control Point or other assembly area shall group according to departments in order to facilitate personnel accountability and monitoring.
Page 4 ot 13 FLORIDA POWER 6 LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE//3100026E, REV.9 4.0 Precautions: (Continued) 4.6 Health Physics personnel exiting the RAB as necessitated by an emergency condition of possible radiological nature shall pick up suitable portable radiation monitoring equipment which would be required for re-entry monitoring.
4.4   When   reporting to the assembly area, take the most direct route possible, but do not use any route or area that has been declared part of the emergency area, or that could result in excessive individual exposure or injury.
5.0 Res onsibilities:
4.5   If an area or building is evacuated, any records regarding the persons in the area shall be removed and taken to the assembly area.
5.1 The Nuclear Plant Supervisor is responsible for: 5.1.1 Classifying and declaring any emergency that may occur at the site+".5.1.2 Initiating the Emergency Plans when appropriate.
 
/R9 5.1.3 Initiating the evacuation of any area in which the criteria for evacuation, as expressed in steps 8.1 8.2 are met./R9 5.2 The Nuclear Plant Supervisor shall act as Emergency Coordinator after declaration of an emergency.
Page 4 ot 13 FLORIDA POWER 6 LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE
5.3 The Emergency Coordinator is responsible for advising the Security Team Leader of a local evacuation or an Owner Controlled Area evacuation.
                                  //3100026E, REV. 9
This notification will be by the alarm or the PA system.Information needed by the Security Force to properly fulfill their responsibilities during the evacuation shall be provided to the Security Team Leader by the Emergency Coordinator.(See E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator).
 
/R9 5.4 The Security Guard Force is under the supervision of the Plant Security Supervisor.
==4.0 Precautions==
He serves as the Primary Security Team.Leader.The Security Force Shift Supervisor is the Interim Security Team Leader.5.5 The responsibilities of individuals acting as escorts are contained in Sections 5.12 and 8.4;5 of this procedure.
(Continued) 4.6   Health Physics personnel exiting the RAB as necessitated by an emergency condition of possible radiological nature shall pick up suitable portable radiation monitoring equipment which would be required for re-entry monitoring.
5.6 All personnel permanently or temporarily assigned to St.Lucie plant shall familiarize themselves with: 5.6.1'he instructions given in this procedure.
5.0 Res onsibilities:
5.6.2 The access routes to the work location to which they are assigned.*The statement applies to Unit 2 upon initial fuel load.  
5.1   The Nuclear Plant Supervisor is responsible for:
~H~
5.1.1   Classifying   and   declaring any emergency that   may occur at /R9 the site+".
Page 5 ot 13 FLORIDA POWER&LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE//3100026E, REV.9 5.0 Res onsibilities:
5.1.2   Initiating the Emergency Plans when appropriate.
5.6 (Continued) 5.6.3 The locations of the evacuation assembly areas: a.The Radiation Control Point in the Auxiliary Building.b.The Site Assembly Station.c.The Jaycee Public Park on Route AlA, north of the plant site./R9 5.7 It shall be the responsibility of each supervisor and depart-ment foreman not involved in the emergency response to report to the assembly area to assist in accounting for all personnel under his supervision.
5.1.3 Initiating the evacuation of any area in which the criteria for evacuation, as expressed in steps 8.1 8.2 are met.                                                     /R9 5.2   The Nuclear Plant Supervisor shall act       as Emergency Coordinator after declaration of     an emergency.                                   /R9 5.3   The Emergency Coordinator       is responsible for advising the Security Team Leader of a       local evacuation or an Owner Controlled Area evacuation. This notification will be by the alarm or the PA system. Information needed         the Security Force to properly fulfilltheir responsibilities by      during the evacuation shall be provided to the Security Team Leader by the Emergency Coordinator.
5.8 Security Department Responsibilities are defined in Security Procedure 0006123.5.9 The Control Point Guard shall maintain accurate records of all personnel entering or leaving the controlled area and make the records available when required.5.10 The Main Gate Guard shall maintain accurate records of~''personnel entering or leaving the protected area an/make the records available when required./R9 5.11 The Assembly Area Supervisor shall be responsible to ensure that personnel accounting at assembly area is being done and liason between the assembly area and the Emergency Coordinator.
(See E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator).
/R9 5.12 Tour Guides are assigned to escort groups of visitors during tours of the plant site.In an emergency, Tour Guides are responsible for personnel accountability of their respective groups and the evacuation of their group to the Site Assembly Station in cooperation with the Security Force.F 13 Prior to fuel loading, Unit 2 responsibilities are defined in ASP, 5.0.
5.4   The Security Guard Force is under the supervision of the Plant Security Supervisor. He serves as the Primary Security Team.
Page 6 of 13 FLORIDA POWER&LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE!/3100026E, REV.9 6.0  
Leader. The Security Force Shift Supervisor is the Interim Security Team Leader.
5.5   The responsibilities of individuals acting as escorts are contained in Sections 5.12 and 8.4;5 of this procedure.
5.6   All personnel   permanently or temporarily assigned to St. Lucie plant shall familiarize themselves with:
5.6.1'he instructions         given in this procedure.
5.6.2   The access   routes to the work location to which they are assigned.
* The statement applies to Unit       2 upon initial fuel load.
 
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Page 5 ot 13 FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE
                                //3100026E, REV. 9 5.0 Res onsibilities:
5.6   (Continued) 5.6.3   The locations of the evacuation assembly areas:
: a. The Radiation Control Point in the Auxiliary Building.
: b. The Site Assembly Station.
: c. The Jaycee   Public Park on Route AlA, north of the plant site.                                                 /R9 5.7   It shall be the responsibility of each supervisor and depart-ment foreman not involved in the emergency response to report to the assembly area to assist in accounting for all personnel under his supervision.
5.8   Security Department Responsibilities are defined       in Security Procedure 0006123.
5.9   The Control Point Guard shall maintain accurate records of all personnel entering or leaving the controlled area and make the records available when required.
5.10 The Main Gate Guard shall maintain accurate records of       ~''
personnel entering or leaving the protected area an/                     /R9 make the records available when required.
5.11 The Assembly Area Supervisor shall be responsible to ensure that personnel accounting at assembly area is being done and liason between the assembly area and the Emergency Coordinator.               /R9 5.12 Tour Guides are assigned     to escort groups of visitors during tours of the plant site.     In an emergency, Tour Guides are responsible for personnel     accountability of their respective groups and the evacuation     of their group to the Site Assembly Station in cooperation with the Security Force.
F 13 Prior to fuel loading, Unit     2 responsibilities are defined in ASP, 5.0.
 
Page 6 of 13 FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE
                        !/3100026E, REV. 9 6.0  


==References:==
==References:==


6.1 St.Lucie Plant Radiological Emergency Plan.6.2 St.Lucie Plant Security Plan.6.3 E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator.
6.1   St. Lucie Plant Radiological Emergency Plan.
6.4 HP207 Personnel Monitoring following an Evacuation.
6.2   St. Lucie Plant Security Plan.
6.5 HP208 Personnel Decontamination.
6.3   E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator.
7.0 Records and Notifications:
6.4   HP207 Personnel Monitoring following an Evacuation.
7.1 A list of all persons assembled at Jaycee Public Park shall be prepared by a member of the Plant Staff who will travel to that location with evacuees./R9 7.2 Records showing that all personnel in the area affected by the emergency were accounted for shall be kept as part of the records of the emergency and recorded by the Emergency Coordinator.
6.5   HP208 Personnel Decontamination.
I t~
7.0 Records and   Notifications:
Page 7 of 13 FLORIDA POWER 6 LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE f/3100026E, REV.9 8.0 Ins true tions: 8.1 Criteria for Local Area Evacuation If an incident involves a high radiation field or has caused the release of radioactive material to the environ-ment, the need to evacuate the affected area shall be determined in accordance with the following criteria: Evacuate the affected local area in which any of the following conditions occur: 8.1.1 Area Radiation Monitor Alarm.8.1.2 Containment Evacuation Alarm.8.1.3 Direct radiation dose rate reading,d.n..excess of 100mRem/hour, from an.unevaluated source.-9 8.1.4 Airborne radioactivity concentration in excess of 1 x 10~micro Ci/cc, from an unevaluated source./R9 8.1.5 Removable radioactive surface contamination in an unposted area in excess of 1000 dpm/100 cm beta-gamma over an area of 100 ft 8.1.6 Removable radioactive surface contamination in an unposted area in excess of 50 dpm/100cm alpha over an area of 100 ft2.8.1.7 The Emergency Coordinator determines that a situation exists for which local evacuation is appropriate.
7.1   A list of all persons assembled at Jaycee Public Park shall /R9 be prepared by a member of the Plant Staff who will travel to that location with evacuees.
8.2 Criteria for Owner Controlled Area Evacuation The Owner Controlled Area shall be evacuated in the following circumstances:
7.2   Records showing that all personnel in the area affected by the emergency were accounted for shall be kept as part of the records of the emergency and recorded by the Emergency Coordinator.
8'.1 Site Area Emergency, 8.2.2 General Emergency, 8.2.3 If the Emergency Coordinator determines that the entire owner controlled area should be evacuated.
 
/R9  
I t ~
~f~
Page 7 of 13 FLORIDA POWER 6 LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE f/3100026E, REV. 9
Page 8 of 13 FLORIDA POWER 6 LIGHT COMi ANY EtiERGENCY PLAN DiPLEMENTING PROCEDURE//3100026E, REV.9 8.0 Instructions: (Continued) 8.3 Evacuation Pre aredness 8.3.1 All visitors shall have adequate transportation available on-site to evacuate all members of their respective groups.8.3.2 Escorts shall maintain control of groups or individuals to which they are assigned to enable all members of the groups to be located, notified and evacuated.
: 8. 0 Ins true tions:
8.4 Local Area Evacuation Im lementation 8.4.1 When the Emergency Coordinator (Nuclear Plant Supervisor) determines that a local area evacuation is necessary, he shall, in following Emergency Procedure Duties of the Emergency Coordinator, announce an evacuation using the PA system, giving the area affected, the assembly area and other instructions as required./R9 8.4.2 All personnel in the evacuated area shall stop work, turn off potentially hazardous equipment, such as cutting torches, and leave the area by the same route taken to enter the area, unless otherwise instructed by the Emergency Coordinator.
8.1   Criteria for Local     Area Evacuation If an incident involves a high radiation field or has caused the release of radioactive material to the environ-ment, the need to evacuate the affected area shall be determined in accordance with the following         criteria:
8.4.3 8.4.4 All personnel in the evacuated area shall report to the Radiation Control Point in the Auxiliary Building for monitoring and accountability, unless otherwise directed'y the Emergency Coordinator.
Evacuate the affected     local area in which   any of the following conditions occur:
The Radiation Team shall monitor evacuated personnel for contamination, (for areas where contamination may be present)./R9 8.4.5 Injured personnel shall be treated as discussed in E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator.
8.1.1   Area Radiation Monitor Alarm.
If an injured person is evacuated from the plant site, the person's TLD, selfreading dosimeter, identification badge, and keycard should be removed and given to the First Aid and Personnel Decontamination Team Leader.8.4.6 The Control Point Guard shall make available to the Emergency Coordinator his records showing the personnel who are in the Radiation Controlled Area./R9 Page 9 of 13 FLORIDA POWER&LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE//3100026E, REV.9 8.0 Instructions (Continued) 8.4 Local Area Evacuation Im lementation (Continued) 8.4.7 The Emergency Coordinator, department supervisors and foremen having personnel working in the evacuated area shall verify that all personnel in the evacuated area are accounted for.8.4.8 The Emergency Coordinator shall initiate a search for the personnel who have not been accounted for.8.5 Owner Controlled Area Evacuation Im lementation 8.5.1 When the Emergency Coordinator (Nuclear Plant Supervisor) determines that an evacuation of the Owner Controlled Area is necessary, he will order an evacuation using the PA system and the evacuation alarm as described in E-Plan Implementating Procedure 3100021E, Duties of Emergency Coordinator.
8.1.2   Containment Evacuation Alarm.
8.5.2 All personnel in the evacuated area shall stop work, turn off potentially hazardous equipment, such as cutting torches, and leave the area.All personnel not needed to place the affected unit*in a safe con-dition and not on an emergency team or otherwise required on site, shall evacuate to the appropriate Offsite Assembly Area.Emergency Teams shall report to the OSC for assignment.
8.1.3     Direct radiation dose rate reading,d.n..excess       of 100mRem/hour, from an.unevaluated   source.
8.5.3 Injured personnel shall be treated as discussed in E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator.
                                                                                      -9 8.1.4     Airborne radioactivity concentration in excess of         1 x 10
If an injured person is evacuated from the plant site, the person's TLD, self-reading dosimeter, identification badge, and keycard should be removed and given to the First Aid and Personnel Decontamination Team Leader.8.5.4 Personnel shall remove protective clothing prior to leaving the Radiation Controlled Area.8.5.5 Personnel shall proceed to the Main Guard Station by the most direct route, unless an alternate route is specified by the Emergency Coordinator.
                    ~ micro Ci/cc, from an unevaluated source.                               /R9 8.1.5   Removable   radioactive surface contamination in       an unposted area in excess of 1000 dpm/100       cm beta-gamma   over an area of 100   ft 8.1.6   Removable   radioactive surface contamination in       an unposted area in excess of 50 dpm/100cm       alpha over an area of 100   ft2.
8.5.6 Each person shall then proceed to the appropriate Site Assembly Area (see Figure 2), unless otherwise directed by the Emergency Coordinator.
8.1.7   The Emergency Coordinator determines       that a situation exists for which local evacuation is appropriate.
*Applicable upon initial fuel load of Unit 2.R9  
8.2   Criteria for     Owner Controlled Area Evacuation The Owner     Controlled Area shall   be evacuated   in the following circumstances:
~W~
8 '.1   Site Area   Emergency, 8.2.2   General Emergency, 8.2.3   If the   Emergency Coordinator determines that the       entire owner   controlled area should   be evacuated.                         /R9
Page 10 of 13 FLORIDA POWER&LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE f/3100026E, REV.8.0 Instructions: (Continued) 8.5 (Continued) 8.5.7 Assemble by department for accounting and monitoring, and remain at the assembly area until given instruc-tions by the Assembly Area Supervisor.
 
8.5.8 If the conditions associated with the emergency are such that the site assembly station area is untenable, the Emergency Coordinator shall direct all personnel to report to the Jaycee Public Park or other suitable alternative and specify the route to be followed.R9 8.5.9 The department supervisors and foremen shall account for their personnel and report the results to the Assembly Area Supervisor.
~ f ~
8.5.10 The Assembly Area Supervisor shall assure that all personnel are monitored for contamination prior to leaving the Assembly Area.8.5.11 The Assembly Area Supervisor, the Security Force Shift Supervisor and the department supervisors and foreman shall examine all the personnel records available to determine if any personnel are unaccounted for.8.5.12 The Emergency Coordinator shall initiate a search for the personnel who have not been accounted for.8.6 Securit Force Evacuation Im lementation 8.6.1 Upon notification of an evacuation, the Security Force Shift Supervisor (Interim Security Team Leader)shall advise by radio all other guards on duty that an evacuation is in progress.The Security Force will proceed with the evacuation of persons and with personnel accountability activities.
Page 8 of 13 FLORIDA POWER 6 LIGHT COMi ANY EtiERGENCY PLAN DiPLEMENTING PROCEDURE
8.6.2 The Control Point Guard and the Main Gate Guard shall immediately review logs and badge records to determine what persons are in the affected area.These guards shall be prepared to brief the Emergency Coordinator.
                          //3100026E, REV. 9
The Control Point Guard shall verify that all personnel have evacuated the area and report to the Security Team Leader for further instructions.
 
The Control Point Guard shall then R9 R9 Page ll of 13 FLORIDA POWER&LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE f/3100026E, REV.9 8.0 Instructions:
==8.0 Instructions==
Continued 8.6 (Continued) 8.6.2 go to the Hain Gate with his personnel records and await instructions from the Security Team Leader.8.6.3 The Security Team shall: 1~Sweep the plant site to verify that all personnel have evacuated.
(Continued) 8.3 Evacuation Pre aredness 8.3.1   All visitors shall   have adequate   transportation available on-site to evacuate     all members of their respective groups.
2.Notify any Special Guards on duty.3.Perform additional duties as specified in the Security Guard Force Post and Force Orders.8.6.4 The Security Team Leader, after completion of sweeps by members of the Security Team shall instruct guards concerning special assignments which may be required as a result of the evacuation.
8.3.2   Escorts shall maintain control of groups or individuals to which they are assigned to enable all members of the groups to be located, notified and evacuated.
He shall advise the FPL Off-Site Emergency Security Manager of any circumstances which require his attention or assistance.
8.4 Local Area Evacuation Im lementation 8.4.1   When the Emergency Coordinator (Nuclear Plant Supervisor) determines that a local area evacuation is necessary, he shall, in following Emergency Procedure Duties of the Emergency           /R9 Coordinator, announce an evacuation using the PA system, giving the area affected, the assembly area and other instructions   as required.
R9'9 l'p.
8.4.2   All personnel in the evacuated area shall       stop work, turn off potentially hazardous equipment, such       as cutting torches, and leave the area by the same route taken to enter the area, unless otherwise instructed by the Emergency Coordinator.
FLORA, POWER 6.LEGS COMPANY EMERGENCY PLAN IMPLEHENTXHG PROCEDURE 83100026E, REV.4 ZXGURZ 1 St.Luc~e P~t Owner Contro1led Area Z.C'0 7 0 PLORXDA POWER h.LZGEZ COMPANY EMERGENCY PLAN QPLZK2iTXHG PROCEDURE f3100026E, REV.9 Sita Assemb1y Ares+4 IJ II Cov~O JAYCEE;PARK OP-SITE hSS LT hREh W R9 JVIOIOI fk PVC pf ogcv)C 0 VI'I 4 C AT'LAMTIC octet S~hSSEHBLT hREA.'Met T wer)o~>If ST+LUC PC Rl-+owli+~~~Z,O'C.is Neer&4 vlf'oT}}
8.4.3   All personnel in   the evacuated area shall report to the Radiation Control Point in the Auxiliary Building for monitoring and accountability, unless otherwise directed
                'y   the Emergency Coordinator.
8.4.4  The Radiation Team shall monitor evacuated                         /R9 personnel for contamination, (for areas where contamination may be present).
8.4.5   Injured personnel shall   be treated as discussed in E-Plan Implementing Procedure   3100021E, Duties of Emergency Coordinator. If an injured person is evacuated from the plant site, the person's TLD, selfreading dosimeter, identification badge, and keycard should be removed and given to the       First Aid and Personnel Decontamination Team Leader.
8.4.6   The Control Point Guard shall make available to the Emergency Coordinator his records showing the personnel who are in the   Radiation Controlled Area.                           /R9
 
Page 9 of 13 FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE
                        //3100026E, REV. 9 8.0 Instructions (Continued) 8.4   Local Area Evacuation Im lementation (Continued) 8.4.7   The Emergency Coordinator, department     supervisors and foremen having personnel working     in the evacuated area shall verify that all personnel in the     evacuated area are accounted for.
8.4.8   The Emergency   Coordinator shall initiate a search for the personnel who have not been accounted for.
8.5   Owner Controlled Area Evacuation Im lementation 8.5.1   When the Emergency Coordinator (Nuclear Plant Supervisor) determines that an evacuation of the Owner Controlled Area is necessary, he will order an evacuation using the PA system and the evacuation alarm as described in E-Plan Implementating Procedure 3100021E, Duties of Emergency Coordinator.
8.5.2   All personnel in the   evacuated area shall stop work, turn off potentially   hazardous equipment, such as cutting torches, and leave the area. All personnel not needed to place the affected unit*in a safe con-dition and not on an emergency team or otherwise required on site, shall evacuate to the appropriate Offsite Assembly Area. Emergency Teams shall report to the OSC for assignment.
8.5.3   Injured personnel shall be treated as discussed in E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator.     If an injured person is evacuated from the plant site, the person's TLD, self-reading dosimeter, identification badge, and keycard should be removed and given to the First Aid and Personnel Decontamination Team Leader.
8.5.4   Personnel shall remove protective clothing       prior to leaving the Radiation Controlled Area.
8.5.5   Personnel shall proceed to the Main Guard Station by the most direct route, unless an alternate route is specified by the Emergency Coordinator.
8.5.6   Each person shall then proceed to the appropriate Site Assembly Area (see Figure 2), unless otherwise directed by the Emergency Coordinator.
* Applicable     upon initial fuel load of Unit 2.
R9
 
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Page 10 of 13 FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE f/3100026E, REV.
 
==8.0 Instructions==
(Continued) 8.5 (Continued) 8.5.7   Assemble by department for accounting and monitoring, and remain at the assembly area until given instruc-tions by the Assembly Area Supervisor.
8.5.8   If the conditions associated with the emergency are such that the site assembly station area is untenable, the Emergency Coordinator shall direct all personnel to report to the Jaycee   R9 Public Park or other suitable alternative and specify the route to be followed.
8.5.9   The department   supervisors and foremen shall account for their personnel   and report the results to the Assembly Area Supervisor.
8.5.10 The Assembly Area Supervisor shall assure that all personnel are monitored for contamination prior to leaving the Assembly Area.
8.5.11 The Assembly Area Supervisor, the Security Force Shift Supervisor and the department supervisors and foreman shall examine all the personnel records available to determine   if any personnel are unaccounted for.
8.5.12 The Emergency Coordinator shall initiate a search for the personnel who have not been accounted for.
8.6 Securit   Force Evacuation Im lementation 8.6.1   Upon notification of an evacuation, the Security Force Shift Supervisor (Interim Security Team Leader) shall advise by radio all other guards on duty that an evacuation is in progress. The Security Force will proceed with the evacuation of persons and with personnel accountability activities.
8.6.2   The Control Point Guard and the Main Gate Guard shall immediately review logs and badge records to determine what persons are in the affected area. These guards shall       R9 be prepared to brief the Emergency Coordinator.     The Control Point Guard shall verify that all personnel have evacuated the area and report to the Security Team Leader for further instructions. The Control Point Guard shall then     R9
 
Page ll of 13 FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE f/3100026E, REV. 9
 
==8.0 Instructions==
Continued 8.6   (Continued) 8.6.2   go to the Hain Gate with his personnel records and await instructions from the Security Team Leader.
8.6.3   The Security Team shall:
1~   Sweep the plant site to verify that   all personnel have evacuated.
: 2. Notify any Special Guards on duty.
: 3. Perform additional duties as specified in the Security Guard Force Post and Force Orders.
8.6.4   The Security Team Leader, after completion of sweeps by members   of the Security Team shall instruct guards concerning special assignments which may be required as a result of the evacuation.     He shall advise the FPL Off- R9 Site Emergency Security Manager of any circumstances             '9 which require his attention or assistance.
 
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Latest revision as of 14:08, 4 February 2020

Rev 8 to Emergency Plan Implementing Procedure 3100033E, Offsite Dose Calculations.
ML17214A683
Person / Time
Site: Saint Lucie  NextEra Energy icon.png
Issue date: 01/09/1984
From: Schmidt A
FLORIDA POWER & LIGHT CO.
To:
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ML17214A680 List:
References
3100033E, NUDOCS 8402070388
Download: ML17214A683 (96)


Text

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~g 1 of 10 pp FLORIDA POWER & LIGHT COMPANY ST. LUCIE.PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100032E REVISION(:, 4

1.0 Title

ON-SITE SUP RT CENTERS 2.0 ~Aroval:

Reviewed by FP4ilit Revie~ Group /l l gr cfog > 4- l.5 19+~

Approved by / V. P Power. Resource Rev. 4 reviewed FRG 1982 Approved by 1982 3."0 ~Eco a:

3. 1 Purpose This procedure provides guideli es and responsibilities for activation .and use of the on-sit Technical and Operational Support Centers. This procedure d scribes interim facilities and shall be revised when permanent acilities are operational.

3.2 Discussion The activities of plant management, techn'cal and engineering /R4 support personnel are an important part of the overall site response to an accident, and must be proper defined and logistically supported. The need for additio al operational support personnel, other than those required a d allowed in the Control Room, is also recognized as vitally important in properly responding to an emergency.

The intent of, providing Technical and Operational Su ort Centers

,is to provide bases where post-accident emergency pl ning can be conducted and required operational support personn can assemble for potential duty. Both centers will be in ose communication with the Control Room via the PAX phone s tern, without disrupting, congesting, or confusing the activiti s in the Control Room by the physical presence of additional pe sonnel,

e Page 2 of 10 EHERGENCY PLAN IMPLEHENTING PROCEDURE NO. 3100032E, REV 4 ON-SITE SUPPORT CENTERS 3.3 Description 3.3.1 Technical Support Center (TSC)

The TSC's located in the training classroom area, adjacent to the Unit 81 Control Room. Emergency supplies available near the TSC are listed in Table 1. Documents and drawings available are listed in Table 2.

3.3.2 Operational Support Center (OSC)

The OSC is maintained in the first floor maintenance area of the Service Building.

3.3.3 Communications Equipment The Control Room contains necessary telephone and public address systems for communications within and outside the plant. The Control Room al" o contains NAMAS and Local Government Radio for communications with state and county ~

agencies. Use of these systems is described in the Appendix.

The*TSC contains necessary telephones to communicate with the Control Room, OSC, the General Office Emergency Center, the Emergency Operations Facility and. outside agencies.

It also contains an ENS dedicated telephone to the NRC Operations Center and the NRC Region XX Office. /R4 I

3.4 Authority This procedure implements the St Lucie Plant Radiological Emergency Plan.

4.0 Precautions

4.1 The TSC and OSC shall be activated upon the direction of the Emergency Coordinator or his designated alternate only.

4.2 Radiological conditions in the on-site Technical and Operational Support Center shall be monitored when required to be 'in use.

Radiation levels in the TSC should be monitored using available (control room) portable instruments. /R4 4.3 The Emergency Coordinator shall recommend a suitable location other than the designated areas such actions.

if radiological conditions warrant

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Page 3 of 10 EMERGENCY PLAN ItPLEHENTING PROCEDURE NO. 3100032E, REV "

ON-SITE SUPPORT CENTERS 5.0 Res onsibilities:

5.1 The Emergency Cooxdinator is responsible for activating the TSC, activating the OSC, and arranging, for staffing through the Duty Call Supervisor.

5.2 The TSC Supervisor will be the most senior person available to remain at the TSC of the following:

Primary: Technical Supervisor Alternate Off duty Shift Technical Advisor (See 3100023E, Emexgency Roster)

He is responsible for supervising TSC activities, reporting to the Emergency Coordinator, and communicating with the Emergency Operations Facility.

5.3 Each department head or designated alternate is responsible for reporting to the TSC when called.

5.4 Those reporting to the Operational Support Center are responsible for being prepared to carry out support functions designated by.

the Emergency Coordinator.

5.5 The Emergency Coordinator has the overall responsibility for the conduct of emergency operations and activities and should work closely with the TSC to ensure all information is used in making accident recovery decisions.

5.6 The gC department is responsible for ensuring that records, documents, and prints are maintained in the TSC or are available for immediate use in the Document Control vault.

5.7 .Health Physics Dept shall provide a portable monitor -to the Technicial Support Center for radioiodine .monitoring. This monitor can also be used for'monitoring the control room.

6.0 References

/R4 6.2 E-Plan Implementing Procedure 3100021,"Duties of the Emergency Coordiantor".

6.3 E-Plan Implementing Procedure 3100033E, "Off Site Dose Calculations".

6.4 E-Plan Implementing Procedure 3100022E, "Classification of Emergencies".

7.0 Records

A record of actions taken at the TSC shall be maintained by the TSC Supervisor.

II, )

Page 4 of 10 EMERGENCY PLAN IIPL~r KNTING PROCEDURE NO. 3100032E, REV 4 ON-SITE SUPPORT CENTERS

8.0 Instructions

8.1 Activation The Emergency Coordinator shall activate the TSC and the OSC for an emergency condition classified as Alert, Site Area Emergency, or General Emergency.

8.2 Staffing The Emergency Coordinator shall arrange for staffing through the Duty Call Supervisor, Table 3 identifies the TSC staffing requirements.

J 8.3 Use of the Technical Support Center The TSC shall be used to provide plant management and technical support to plant operations personnel during emergency conditions. A primary task shall be to relieve the Emergency Coordinator of off-site communications to the state and local agencies, NRC and the FPL Off-Site Emergency Organization.

~

This task becomes the responsibility of the EOF when they are manned and fully operational. The TSC staff shall piovide technical support as requested by the Emergency Coordinator and shall /R4 direct itself toward determining current and projected plant status and providing in-depth diagnostic and engineering assistance, as required.

8.4 Use of the Operational Support Center The Emergency Coordinator shall assign available plant staff not needed in the TSC or Control Room to the OSC. The OSC Supervisor (Assistant Superintendent Mechanical Maintenance or designated alternate) shall maintain communications with the TSC and report as directed by the Emergency Coordinator or TSC Supervisor.

8.5 Deactivation It is the responsibility of the Emergency Coordinator or his designee to deactivate and secure the TSC and OSC when the emergency dondition no longer exists.

8.6 Alternate OSC In the event that the OSC becomes untenable, the Emergency Coordinator shall designate an alternate location.

NOTE: The Steam Generator Blowdown Building is outfitted to be an alternate OSC. /R4 l

1 Page 5 of 10 EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100032E, REV 4 ON-SITE SUPPORT CENTERS TABLE 1 RADIOLOGICAL EKRGENCY EQUIPMENT ST LUCIE PLANT CONTROL ROOM STORAGE LOCKER (ALSO FOR TSC USE)

1. Coveralls
2. Hood
3. Gloves
4. Shoe Covers
5. Self Contained Breathing Apparatus
6. Full Face Respirators and Filters
7. Pocket Dosimeters
8. Dosimeter Chargers
9. TLD's
10. Portable Count Rate Instrumentation
11. Portable Dose Rate Instrumentation
12. Contamination Smears
13. Envelopes
14. Radiation Tape/Rope
15. Radiological Signs
16. Industrial First Aid Kit
17. Step-Off Pads
18. Plastic Bags

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Page 6 of 10 EMERGENCY PLAN INPLEHENTING PROCEDURE NO. 3100032E, REV 4 ON-SITE SUPPORT CENTERS TABLE 2 EMERGENCY DATA, DRAWINGS AND,DOCEfENTS MAINTAINED AT THE TSC ST 1UCIE PLANT

1. Plant Technical Specifications C
2. Plant Operating Procedures
3. Emergency Operating Pro'cedures
4. Emergency Plan and Implementing Procedures
5. Final Safety Analysis Report
6. Drawings, Schematics and Diagrams

Page 7 of la EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100032E, REV 4 ON-SITE SUPPORT CENTERS TABLE 3 TECHNICAL SUPPORT CENTER STAFFING ST LUCIE PLANT TSC Supervisor Primary: Technical Supervisor Alternate Off duty STA (per 3100023E, Emergency Rost'er)

Operations Representative (Off duty Duty Call Supervisor or NPS)

Health Physics Supervisor (Radiation Team Leader) /R4 Chemistry Supervisor Reactor Engineering Supervisor Maintenance Superintendent Quality Control Supervisor Support Staff as determined by these supervisors

Page 8 of 10 K!ERGENCY PLAN IMPLFJfENTING PROCEDURE NO. 3100032E, REV 4 ON-SITE SUPPORT CENTERS APPENDIX CO~i ICATIONS EQUIPMEHT A. Use of the NAWAS System

1. The NAWAS is used for announcing the initial warning to the State Warning Point at the Bureau of Disaster Preparedness (BDP) and St. Lucie Disaster Preparedness Coordinator of all

.four Emergency Classes.

2. The NAWAS is a direct, protected telephone land line with the handset installed in the Control Room.
3. Picking up the handset from its cradle activates a response at the State Warning Point and St. Lucie and Martin County Disaster Preparedness Offices. The Nuclear Plant Supervisor (Emergency Coordinator) will advise the personnel on the other end of the system, in a coded message, of the conditions at the plant. He then places the handset back on its cradle, as this is the only use for it during an emergency. His message will activate the required state and local emergency teams.
4. The procedure for reporting an emergency via NAWAS is summarized in E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator, and described in detail below.

A. (1) "S'tate Warning Point Tallahssee, this= is St. Lucie aslant

'(State War'ning Point will give a go-ahead)

"State'Warning Point Tallahssee, this is St. Lucie Plant /R4

  • tBPRRt Time "Acknowledge, over."

(ALTERNATE METHOD) If NAWAS is unavailable-telephone State Warning Point at PHONE NO. 1-904-488-1320 or Florida Marine Patrol-Alternate, State Warning Point 1-904-488-5757.

State Warning Point will call via Phone to validate the notification. After validation, transfer the information on the State of Florida Fixed Nuclear Facility Notification Message Form via NAWAS or ALTERNATE METHOD. /R4 State Warning Point Message Validation Time

  • Announce the class as indicated by EPIP 3100022E "Classification of Emergencies"

Page 9 of 10 EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100032E, REV .4 ON-SITE SUPPORT CENTERS APPENDIX (cont)

A. Use of the NAWAS System (cont)

Classifications The classes of Radiological Emergencies are described in E-Plan Implementing Procedure 3100022E, Classification of Emergencies.

3, Plume Exposure Pathway A. The Plume Exposure Pathway will extend outward from-'each nuclear power plant for a radius of ten (lQ) miles, and /R4 shall be segmented into 22-1/2 arcs and will be lettered A through R (excluding I and 0) for the 360 of the compass.

B. Each area is divided into SECTORS beginning at the ce"ter and extending outward in mile increments One through ten. /R4 Contaminated area, extending outward from the nuclear plant, will be located and reported as discussed in E-Plan Implementing Procedure 3lQQQ33F;-"Off-Site Dose Calculations."

B. Use of the Local Government Radio (LGR)

1. The LGR is used, unless inoperative or unavailable, for maintaining communications with various state and local disaster preparedness personnel. Messages are transmitted and received on frequencies allocated by the state Bureau of Disaster Preparedness.
2. The LGR control unit is installed in the Control Room, and TSC.

C. Use of the ENS Telephone Network /R4

1. Within one hour of the, time that the Emergency Plan or any part of the Emergency Plan is implemented the NRC shall be notified and an open, continuous communications channel established using the NRC ENS circuit (red phone). The Nuclear Plant Supervisor (Emergency Coordinator) shall be responsible for assuring that this notification is made.
2. To initiate a signal to the NRC Operations Center, remove the handset from the receiver.
3. When the NRC Duty Officer answers, identify yourself as "Florida Power 6 Light, St Lucie Plant".

Page 10 of 10 EMERGENCY PLAN IMPLEMENTING PROCEDURE HO. 3100032E, REV "4 ON-SITE SUPPORT CENTERS APPENDIX (cont)

C. Use of the ENS Telephone Network (cont) /R4

4. Make the notification.
5. Maintain the line open and manned until allowed to terminate the call by the NRC Duty Officer.

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Page 1 of 6 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN DPLEMENTING PROCEDURE NO. 3100050E REVISION 6

l. 0

Title:

MAINTAINING EMERGENCY PREPAREDNESS EMERGENCY EXERCISES, DRILLS, TESTS, AND EVALUATIONS.

2. 0 ~Avovels:

Reviewed by Facility Review Group July 25, 19 75 Approved by K. N. Harris Plant Manager'uly 293 19~

Rev. 4 Review by FRG l~ t 19 P C Approved by V, P. Power Resources 19~

Rev. 6 Review v Facility Rev Group ~ca ~ e NV 19' Approved by Ms 3.0 ~Soo e:

3.1 Purpose This procedure provides instructions for conducting periodic emergency exercises, drills, and tests.

3.2 Discussion Periodic exercises and drills will be conducted in order to test the state of emergency preparedness of participating personnel, organizations, and agencies. Each exercise or drill will be conducted to:

1) Ensure that participants are familiar with their respective duties and responsibilities.
2) Verify the adequacy of the Emergency Plan and emergency procedures;
3) Test the communication network and systems.
4) Check the availability of emergency supplies and equipment.
5) Verify the operability of emergency equipment.

These exercises and drills will simulate emergency conditions and may be scheduled such that two or more exercises or drills are conducted simul-taneously. R6 The results of the exercises will form the basis for corrective action to eliminate identified deficiencies, and will be discussed during a post-exercise evaluation. R6

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C Page 2 of 6 FLORIDA POWER 6 LIGHT COMPANY'T.

LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100050E REVISION 6 3.0 ~Sco e: (cont'd) 3.3 Authority This procedure implements the St. Lucie Plant Radiological Emergency Plan.

4.0 Precautions

4.1 Every emergency alarm,or announcement shall be assumed to be true unless an announcement is made to the contrary.

5.0 Res onsibilities:

5.1 The FPL Emergency Planning Supervisor shall be responsible for planning, scheduling, and coordinating all major emergency drills or exercises involving off site agencies. When an exercise is to be conducted, the Emergency Planning Supervisor shall:

a) Schedule a date for the exercise in coordination with the Health Physics Supervisor- and the primary State and county emergency response agencies. R6 b) Request that the Health Physics Supervisor assign personnel to assist the Emergency Planning Supervisor prepare a scenario. -

R6 c) Coordinate all FPL efforts with other participating personnel, organizations, and agencies.

d) Obtain the approval of the Plant Manager.

e) Offer federal, state and local observers the opportunity to evaluate the exercise.

f) Discuss and evaluate the exercise with observers and principal participants. I for all identified deficiencies, corrective I

g) Ensure that measures are recommended.

h) Prepare and retain documentation for record keeping.

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Page 3 of 6 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100050E REVISION 6 5.0 Res onsibilities: (Cont'd) 5.2 When an exercise or a major drill is to be conducted, the Health Physics Supervisor shall assure that the following is accomplished:

a) Assign personnel to prepare a scenario.

b) Coordinate through the Emergency Planning Supervisor all activities which involve off-site personnel organizations or agencies.

c) Schedule a date for this activity in coordination with the Emergency Planning Supervisor and assign observers.

d) Obtain approval of Plant Manager.

e) Review evaluations of exercise or drill with the observers and the Facility Review Group.

f) Ensure that deficiencies which are identified are addressed with corrective measures.

g) Prepare and submit documentation to the Emergency Planning Supervisor for record keeping.

6.0 References 6.1 St. Lucie Plant Radiological Emergency plan 6.2 NUREG 0654 7.0 Records and Notifications 7.1 Log Entries 7.2 Written evaluation to FRG, Plant Manager, and Emergency Planning Supervisor by the Health Physics Supervisor.

7.3 Consolidated exercise summary by the Emergency Planning Supervisor.

I

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Page 4'f 6 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100050E REVISION 6 8.0 Instructions 8.1 The following emergency exercises, drills, and tests shall be conducted-at the frequency indicated:

a) Exercises (Inte rated Drills)

A major radiological emer'gency response exercise shall be conducted at least once every twelve (12) months (plus or minus three months)-to demonstrate the effectiveness of the Emergency Plan. This exercise shall be conducted as a Site Area Emergency or General Emergency and will provide for the coordination with and,participation of off-site emergency response personnel organizations and agencies including those of federal, state, and local governments. The emergency scenario shall be varied from year to year.

Provisions shall be made to start at least one exercise between 6:00 PM and midnight, and at least one exercise between midnight and 6:00 A.M., every six years. The "Affected Unit" in the exercise should be changed from year to year. R6 This emergency response exercise shall be critiqued by Florida Power & Light Company observers/evaluators and other observers as appropriate from federal, state, and local agencies. R6 b) Radiolo ical Monitorin 'rill A radiological monitoring drill shall be conducted at least once every twelve (12) months (plus or minus three months). These drills will include collection and analysis of sample media (e.g. water, air).

This drill should include testing of communications and understanding of communications between the RTL and the teams.

c) Health Ph sics Drills R6 Thc Health Physics Department shall conduct health physics drills semi-annually and one of the semi-annual"drills may be incorporated into the radiological monitoring drill.

d) Medical Emer enc Drill A medical emergency drill involving a-simulated contaminated individual, with provisions for activation of the plant First Aid and Personnel Decontamination Team and participation by local support services (i.e., ambulance and off-site medical treatment facility), shall be conducted at least once every twelve (12) months (plus or minus three months).

Page 5 of 6 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN IMPLEMENTING PROCEDURE NO. 3100050E REVISION 6 8.0 Instructions (cont'd) 8.1 (Cont'd) e) Fire Emer enc Drill Fire drills are conducted in accordance with Technical Specifications to test the operational readiness (personnel, equipment and procedures) to control and extinguish a fire onsite. The drills also serve to evaluate and document the response of onsite personnel and participating off-site agencies to varying fire situations. The communication links and notification procedures are tested at least semi-annually during fire emergency drills. A post-drill cr'itique is held after each fire drill completed to identify possible areas for improvement in equipment and/or procedures.

f) Communications Tests Communications with the Bureau of Emergency Management, Department of Health and Rehabilitative Services, and St.

Lucie and Martin County Disaster Preparedness Coordinators within the plume exposure pathway Emergency Planning Zone (EPZ) will be tested monthly.

8.2 Conducting Drills 8.2.1 The Nuclear Plant Supervisor (NPS) shall evaluate the plant conditions and ascertain that the drill will not adversely affect plant equipment or operations.

8.2.2 The Health Physics Supervisor shall designate specific members of the plant staff to act as controllers and evaluators during the drill. These controllers and evaluators shall be familiar with the procedures and proper actions to;be taken associated with their post during the drill. Additionally, briefings shall be, conducted to indicate what purpose the drill will service and what specific areas the controllers and evaluators should be concerned with.

These controllers and evaluators shall be posted throughout the plant area to observe and record the actions of plant personnel during the drill and to verify alarm audibility.

8.2.3 After receiving a signal of alarm indicating that an emergency condition exists, which has been initiated as part of the drill, the NPS shall take action as required by the Emergency Plan.

R6

I Page 6 of 6 FLORIDA POWER 6 LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN Il'PLEHENTING PROCEDURE NO. 3100050E REVISION 6 8.0 Instructions (cont'd) 8.2 (cont'd) 8.2.4 At the termination of the drill, the NPS shall announce over the PA system that the drill is over. This shall be repeated along with any required instructions.

8.3 Evaluation of Drills and Exercises 8.3.1 Following a drill the Health Physics Supervisor shall R6 assimilate all information and data concerning the .

emergency procedure drill and hold a critique on the drill, and present a summary of the critique to the FRG. R6 The FRG shall recommend changes to the Emergency Plan Implementing Procedures as necessary. R6 8.3.2 Following an exercise, the Emergency Planning Supervisor, plant management, FPL controllers and evaluators and R6 principal participants in the exercise will meet to discuss and evaluate the exercise.

The evaluation shall be based on the ability of participants to follow emergency procedures, the adequacy of emergency procedures, and the adequacy of emergency equipment and supplies. Plant management shall be responsible for necessary changes in the Plant Emergency Procedures and for recommending and/or submitting changes in the Emergency Plan to the Emergency Planning Supervisor.

8.3.3 The FRG shall submit a written evaluation following an exercise.to the Emergency Planning Supervisor. These comments will be incorporated, with comments from other principal participants and controllers and evaluators, into a consolidated exercise summary. The summary will be dis-tributed as described in the "Duties and Responsibilities of the Emergency Planning. Supervisor" procedure. R6

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Page 1 of 30 FLORIDA POWER 6 LIGHT COMPANY ST ~ LUCIE PLANT E>>PLAN IMPLEMENTING PROCEDURE NO ~ 3100033E REVISION 8

1.0 TITLE

Off-Site Dose Calculations 2.0 REVIEW AND APPROVAL:

Reviewed by Facility Review Group March 20 and 25 1981 Approved by A. D; Schmidt V.P. Power Resources March 26 1981 Revision 8 Revi by P. R G Approved by V.P. Nuc Energy 19++

3.0 SCOPE

3.1

Purpose:

3.1.1 This procedure provides a method for estimating'hole body and thyroid dose rates and integrated whole body and thyroid dose for the area surrounding the site out to 12 miles.

3 '.2 This procedure provides a method of comparing. dose estimates, release rates, and radiati'on levels in containment to Emergency Classifications Guidelines.

3.2 Discussion

3.2.1 This procedure is applicable to both Unit 1 and Unit- 2.

Provisions have been made to sum the releases from both Units should both be releasing radioactive materials during an emergency.

3.2.2 The Chemistry Department representative should use the computer dose calculation model, if available, for estimating off-site whole body and thyroid dose rates and integrated doses when releases of radioactive materials occur during an emergency. This model closely parallels this procedure.

This procedure provides the means for hand calculation of offsite dose rates and integrated doses.

'DR 8402070388 840202 PDR ADOCK 05000335 F

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Page 2 of 30 ST ~ LUCIE PLANT .

E PLAN IMPLEMENTING PROCEDURE 3100033EP REVISION 8 OPF-SITE DOSE CALCULATIONS

3.0 SCOPE

(continued) 3.2 (continued) 3.2.3 The Emergency Coordinator will use these off-site dose estimates, release rates, and radiation levels in containment for emergency classification of off-site protective action recommendations. The'mergency Coordinator or his designee will perform these off-site dose calculations if the Chemistry Department representative is unavailalle to do so.

3 '.4 This activity may be duplicated by the dose assessment group.

in the EOF when it is manned and operational. This serves as a redundant/check for off-site dose data.

3.3 Authoritv

This procedure implements the St. Lucie Plant Radiological Emergency Plan.

4.0 PRECAUTIONS

None 5 ' RESPONSIBILITIFS:

5.1 The Emergency Coordinator or his designee shall assure that whole body and thyroid dose rates and integrated doses are calculated, following releases of radioactive material during an emergency.

5.2 The Chemistry Department representative shall make the estimates upon arrival at the Technical Support Center at the direction of the Emergency Coordinator or his designee.

6 ' REPERENCES:

6.1 St. Lucie Plant Radiological Emergency Plan 6.2 St. Lucie Plant Radiation Protection Manual 6.3 "Duties of the Emergency Coordinator," EPIP 3100021E 6.4 "Classification of Emergencies," EPIP 3100022E 6.5 "Bases for Accident Dose Calculations for St. Lucie Nuclear Power Plant" (Bases prepared by HMM Associates of Waltham, Massachusetts.)

6.6 "Criteria for Preparation and Evaluation of Radiological Emergency Response Plans and Preparedness in Support of Nuclear Power Plants,"

NUREG-0654, Revision 1 6.7 St ~ Lucie Unit 1 FSAR 6.8 St. Lucie Unit 2 FSAR

P:ge 3 of 30 ST ~ LUCIE PLANT E-PLAN IMPLEMENTING PROCFDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS 7.0 RECORDS AND NOTIFICATIONS:

The attached worksheets shall be retained as qualitv records.

Notifications are made per EPIP 3100021E.

Page 4 of 30 ST ~ LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100 )33E, REVISION 8 OFF-SITE DOSE CALCULAT:ONS 8 ' INSTRUCTIONS:

8.1 Upon the initiation of an event which has resulted in or could result in releases of radioactive material, the Containment High Range Radiation Monitors (if inoperable, use Post LOCA) reading should be compared to the Action Guidelines for supplemental classification of the event.

8.2 Determine the release rate for Noble gases and Iodines. If both Units are releasing radioactive material during an emergency, determine the release rates for both plants separately and add the results as requested.

Four methods for release rate determination are available. If Chemistry grab sample analysis data is available, METHOD A (Al for Unit 1, A2 for Unit 2) should be used. METHOD B (Bl for Unit 1, B2 for Unit 2) is used when grab sample data is not yet available and effluent monitors are operable. METHOD C (applicable to both Units), CHRRM method, is used if. METHOD B can't be used. As a default, METHOD D (applicable to both Units), Post LOCA monitors, may be used for release rate determination.

4 8.2.1 For the affected Unit(s), complete a RELEASE RATE'WORKSHEET using the appropriate method for release rate determination. /R8 8.3 Determine the current meteorological data using the, METEOROLOGY WORKSHEET. Three methods for meteorological data determination are available. METHOD A (Site Meteorology Tower) uses the 15 minute average met data from the Control Room met data recorders. Method A serves as the primary source of data. METHOD B (West Palm Beach NOAA or Vero Airport FSS) serves as a backup. Manipulation of data from these sources is handled in Appendix C. METHOD C (default) serves as the secondary backup source of data.

8.3.1 For the affected Unit, complete a METEOROLOGY WORKSHEET using the appropriate method (use only one method).

Page 5 of 30 ST ~ LUCIE PLANT E-PLAN IMPLLMENTING PROCEDURE 3'100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS

8.0 INSTRUCTIONS

(continued) 8.4 Calculate Off-site Doses using the POSE CALCULATION WORKSHEET 8.4.1 If both plants are releasing radioactive material during an emergency, total the Noble gas and Iodine release rates.

8.4.2 Multiply total NOBLE GAS RELEASE RATE (Ci/sec) by WHOLE BODY DOSE FACTOR (mRem/hr/Ci/sec) to determine WHOLE BODY DOSE RATE. /R8 NOTE: The whole body dose rate conversion factor is determined from Dose Factor Tables and is based on precalculated dose rates at 1, 2, 5, and 10 miles from the plant; meteorological conditions (stability and w.'.nd speed), and a 1 Ci/sec release rate.

8 ' ' Multiply TOTAL IODINE RELEASE RATE (Ci/sec) by THYROID DOSE FACTOR (nRem/hr/Ci/sec) to determine THYROID DOSE RATE. /R8 NOTE: The thyroid dose rate conversion factor is determined from Dose Factor Tables and is based on precalculated dose rates at 1, 2, 5, and 10 miles from the plant; meteorological conditions (stability and wind speed),

and a 1 Ci/sec release rate.

8.4.4 Enter the dose rate results in part 6A. Noting wind direction, record dose rate results in the i'ndicated sector and the adiacent sectors (on each side) in part 6B.

8.5 The Emergency Coordinator or his designee shall monitor release rates and meteorological conditions to determine how frequently to update the dose rate estimates. Dose rate estimates shall be updated if any of the'ollowing averages change by the amounts

.indicated below over a period not to exceed 30 minutes:

1. Release rates increase by more than 25T.
2. Wind speed decreases by two classes or more.

3.'tmospheric stability becomes more stable by more than one class (e.g., stability D to F).

4. Wind direction changes by more than 22.5 (i.e., plume centerline is more than one sector away from prior location).

In any case, the estimates shall be revised at least hourly for the first 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> after the accident unless it is determined that releases of radioactivity have been terminated.

Page 6 of 30 ST. LUCIE PLANT .

'- E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS 8 o INSTRUCTIONS: (continued) 8.6 The Emergency Coordinator or his designee shall track integrated thyroid and whole body dose once each hour for the duration of the event as follows:

S.d. 1 The average thyroid anB whole body Bose rates shell be determined for each sector from the DOSE CALCULATION WORKSHEETS completed for the hour of interest.

8.6.2 Update step 9 of the DOSE CALCULATION WORKSHEETS by adding the thyroid and whole body dose rate determined from 6.A for each applicable sector/distance block to the integrated dose from event initiation to the present for that sector/distance block. /R8 8 '.3 Doses for sector/distance blocks with zero estimated dose rate for the current hour remain unchanged.

8.7 Proiections of doses and dose rates should be made on the basis that the most recently estimated dose rates and their distribution will for two hours. Pro)ecting dose rates for periods othhr than 'ersist two hours should be made on an ad hoc basis using best available data on release rate estimates and subsequent meteorological conditions.

8e8 The results of TOTAL RELEASE RATE, DOSE RATES, and ACCUMULATED DOSE should be compared to applicable Table 3, Page 19 ACTION GUIDELINES. The Emergency Coordinator, if not performing the actual calculations, shall be informed of all dose estimates. The Emergency Coordinator shall evaluate the results and declare a new status as applicable. 'R8 8.9 Dose conversion tables for distances 1 to 12 miles, by 1 mile increments, are attached as Appendix A for calculations of dose at other than 1, 2, 5, and 10 miles.

Page 7 of 30 ST. LUCIEN PL'ANT .

-" "-E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS RELEASE RATE WORKSHEET Al METHOD Al CHEMISTRY GRAB SAMPLE UNIT 1 NOTE: Read Unit 1 CHRRM and compare with ACTION GUIDE 1A, Page 19.

1. Date and Time of Data / /
2. Acquire sample assay data. Enter the gross Noble gas and Iodine-131 Deq concentrations in uCi/cc in the table below.
3. Determine pathway flow. If available, use the Unit 1 effluent monitor channel'hown. Alternatively, use the flow based on exhaust fan status, figured below. Default flows are listed if exhaust fan status is not available.
4. Calculate Release Rates.

FLOW CONVERSION CALCULATED Ci SEC I PATHWAY TYPE uC/cc X SCFM X VALUE NOBLE GAS IODINE I I I P ant No e Gas 4.72 E-4 Vent I Iodine Fuel Noble Gas 4.72 E-4 o ne S o le Gas 4 ~ 72 E-'4 A Iodine ECCS Noble Gas 4.72 E-4

! B o ne Total Total Noble Gas Iodine

5. Compare Noble gas release rate with ACTION GUIDE 2A, Page 19.
6. Take total Noble gas and Iodine release rates, in Ci/sec, to the DOSE CALCULATION WORESHEET; Page 14.

UNIT 1 PATHWAY FLOW DATA Plant Vent,'hannel 01-10 Fuel Building, Channel 04-10 Default 86050 SCFM Default 23800 SCFM Plant Vent by Exhaust Fan Status Fuel Building by Exhaust Fan Status Check fans that are "ON" Check fans that are "ON" 10A 74050 HVE 16A 10350 1 HVE 74050 1 HVE 16B 10350 1 HVE 10B 6A 6000 1

1 HVE 17 5000 1 HVE HVE 6B 6000 1 HVE 15 8450 1

HVE 8A 42000 1

1 HVE 8B 42000 Total Fuel Bldg. (SCFM)

.1 HVE 7A 500 1 HVE 7B 500 ECCS, Default Value is 30000 SCFM Total of "ON" Plant Vent (SCFM) ECCS-A Channel 02-10, 1 HVE 9A 30000 SCF1 ECCS-B Channel 03-10, 1 HVE 9B 30000 SCB

/R1

F Page 8 of 30 ST. LUCIE,PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OPP-SITE DOSE CALCUL'ATIONS RELEASE RATE WORKSHEET A2 METHOD A2 - CHEMISTRY GRAB SAMPLE - UNIT 2

'OTE: Read Unit 2 CHRRM and compare with ACTION GUIDE 1A, Page 19

/ /

Date and Time of Data 2~ Acquire sample assay data. Enter the gross Noble gas and Iodine-131 Deq concentrations in uCi/cc in the table below.

3. Determine pathway flow. If available, use the Unit 2 effluent monitor channel listed below. Alternatively, use the flow based on exhaust fan flow, figured below. Default flows are listed if exhaust fan status is not available.
4. Calculate Release Rates.

I GROSS FLOW CONVERSION CALCULATED Ci SEC I PATHWAY I TYPE uC/cc X SCFM X VALUE NOBLE GAS IODIN I P ant No le Gas 4.72 E-4 Vent Iodine I ECCS 'oble Gas 4.72 E-4-"'

! A o ne I

I B I o e Gas Iodine

'2 E-4

'Total Total Noble Gas Iodine

5. Compare Noble gas release rate with ACTION GUIDE 2A, Page 19.
6. Take total Noble gas and Iodine release rates, in Ci/sec, to the DOSE CALCULATION WQRKSHEET, Page 14.

UNIT 2 PATHWAY PLOW DATA Plant Vent, (Grid 5) Channel 421 or 431 (Redundant Samplers), utilize "PROC FLOW N" (SCFM)

Default 96500 SCFM Plant Vent by Exhaust Pan Status ECCS, no monitored flow rate Check Pans that are "ON" Default Value is 30000 SCFM 2 HVE 10A 84500 ECCS A, 2 HVE 9A 30000 SCFM 2 HVE 10B 84500 ECCS B, 2 HVE 9B 30000 SCFM 2 HVE 6A 6000 2 HVE 6B 6000 2 HVE 8'A 42000 HVE SB 42000 16A 10000 2

2 HVE 2 HVE 16B 10000 2 HVE 17 6000 2 HVE 15 9700 2 HVE 7A 2000 2 HVE 7B 2000 Total of "ON" Fans (SCFM) /RS

Page 9 of 30 ST. LUCIE PL'ANT

. E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISI01 8 OFF-SITE DOSE CALCULATIONS RELEASE RATE WORKSHEET Bl METHOD Bl - UNIT 1 EFFLUENT MONITOR NOTE- Read Unit 1 CHRRM and compare to ACTION GUIDE 1A, Page 19.

1. Date and Time of Data / /
2. Determine gross Noble gas concentrations via Eberline Control Terminal A or B.

i) Enable keyboard, turn keyswitch on.

Press HIST MIN. 'i) iii) Enter the applicable pathway channel number.

iv) Press ENTER.

v) Enter the next-to-last data point from the lowest non-'alarming range into the table below under monitor data.

3. Determine pathway flow via Eberline Control Terminal A or BE Alternatively use fan status or default figured on RELEASE RATE WORKSHEET Al, METHOD Al. Enter the flow, in SCFM, into the table below.

EBERLINE CONTROL TERMINAL CHANNEL DATA PATIMAY HI RANGE FLOW Plant Vent 0105 0107 0109 0110 ECCS-A 0205 0207 I 0209 02 10 ECCS-B 0305 0307 0309'409 0310 Fuel Bldg. 0405 0407 0410 Steamline A N/A 0501 N/A N/A Steamline B N/A 0502 N/A N/A 4~ Select IODINE FACTOR, use factors shown for pathway for accident type.

Enter in table below.

ACCIDENT APE WASTE FUEL PATHWAY LOCA SGTR MSLB GAP TR HANDLING CASK DROP Plant Vent 0 F 01 1.0 E-6 1.0 4 E-5 N/A N/A ECCS A, B 0.01 N/A N/A N/A N/A N/A Fuel Bldg. N/A N/A N/A N/A 0.0 1.3 Steamline A,B! N/A 1 ~ 0 E-3 N/A N/A N/A N/A

5. Calculate Noble gas and Iodine release rates for each pathway, then add up the, Noble gas and Iodine rates to get total release rates.

MONITOR X FLOW X FLOW 'NOBLE GAS X IODINE IODINE

! PAT1MAY DATA SCFM FACTOR Ci/SEC FACTOR Ci/SEC iPlant Vent I I 472E4 I iECCS-A I I 4.72 E-4 I I I ECCS-B I I 4.72 E-4 I I I

)Fuel Bld  ! I I 4.72 E-4 I I iSteamline A 1 I 1.24 E-2 I

/Steamline B I 1 I 1.24E-2 ( I I Totals, Ci/sec Noble Gas Iodine

6. Compare the total Noble gas release rate with ACTION GUIDE 2A, Page 19 '

~ Take the total Noble gas and Iodine release rates, in Ci/sec, to the DOSE CALCULATION WORKSHEET, Page 14. /R8

Page 10 of 30 ST. LUC E PLANT E-PLAN IMPLEMENTING PROCF 3URE 3100033F., REVISION 8 OFF-SITE DOSF. CALCULATIONS RELEASE RATE WORKSHEET B2 METHOD B2 UNIT 2 EFFLUENT MONITOR NOTE: Read Unit 2 CHRRM and compare with ACTION GUIDE 1A, Page 19.

1. Date and Time of Data. / /
2. -Determine gross Noble gas release rate via the General Atomics Console for the applicable pathway.

i) Press GRID 4.

ii) Press the channel number shown in the table below.

iii) Press SEL.

iv) Press TREND 10 MIN.

v) Record the value, shown in upper right corner of CRT, into the table below under data.

3. Select Iodine factor for the pathway based on accident type. Fnter into table below under Iodine Factor.

ACCIDENT TYPE PATHWAY LOCA SGTR MSLB WASTE GAS FUEL HANDLING CASK DROP Plant Vent Fuel Bldg 0.01 1.0 E-6 1.0 4E-5 0. 04 1.3 ECCS-A or B 0.01 N A N A N A N A N A Steamline AorB N/A 1 ~ 0 E-3 N/A N/A N/A N/A 4~ Calculate Noble gas and Iodine release rates for each pathway, then add up the release rates to get total Noble gas and Iodine.

NOBLE GAS IODINE IODINE DATA Z CONVERSION Ci/SEC X FACTOR PATHWAY CHANNEL g Plant Vent 1E-6 Fuel Bld I ECCS A 604 lE-6 l ECCS B 614 1E-6 Steamline 2A Data ~ (CH 631) (CH 633) NET SL2A

)Steamline NET SL A 1.2 E-Steamline 2B Data (CH 632) (CH 633) NET SL2B jSteamline 2B NET SL2B 1 ~ 24 E-2 Totals, Ci/sec Noble Gas Iodine

5. Compare the total Noble gas release rate with ACTION GUIDE 2A, Page 19.
6. Take the total Noble gas and Iodine release rates to the DOSE CALCULATION WORKSHEET, Page 14.

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Page 12 of 30 STe LUCIE. PLANT

. E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS RELEASE RATE WORKSHEET D METHOD D POST LOCA MONITORS APPLICABLE TO UNIT 1 OR UNIT 2 1~ Read Post LOCA Monitor.

Circle values used:

TOTAL POST LOCA MONITOR NOBLE GAS RELEASE TOTAL IODINE RELEASE RATE (Ci/sec)

READING (mR/hr) RATE (Ci/sec) WITH SAFEGUARDS NO SAFEGUARDS

< 60 NEGLIGIBLE

> 60 to 100 l 2~0 0 03 0.1 I

> 100.to 1000 I 10.0 0.14 0.4 I 1000 40. 0 0. 60 1.6 NOTE: Post LOCA Monitor readings must be verified by HP survey.

2. Compare Post LOCA Monitor readings to ACTION GUIDE 1B, Page 19.

4

3. Take Noble gas and Iodine release rate to the DOSE CALCULATION WORKSHEET, Page 14.

0 Page 13 of 30 ST ~ LUCIE'LANT F.-PLAN IMPLEMFNTING PROCEDIJRE 31'00033E, REVISION 8 OFF-SITE DOSE CALCULATIONS METEOROLOGY WORKSHEET Date and Time of Data: / /

Meteorolo ical Data NOTE: Three methods are offered for use. Method A is preferred to all others and Method B is preferable to Method C. "

)

METHOD A )

Site Meteorology Tower NOTE: Unit 2 Control Room has to contact Unit 1 Control Room for this data.

Wind Speed mph) (Lo~~r Sensor, Upper Sensor ~ Alternate)

Wind Direction )Prom (Lower Sensor, Upper Sensor ~ Alternate)

Delta T F) (Strip Chart Recorder, Digital ~ Alternate)

Prom Table below, convert Delta T to stability class METEOROLOGICAL STABILITY CLASSES STEP 2 I DELTA T RANGES F STABILITY CLASS DEFINITION

< -1.6 Extremel unstable

-1 6 to

~ < -1 ~ 5 B Moderately unstable

-1.5 to < -1.3 Slightl unstable

-1 3 to

~ < -0 ' Neutral

-0.4 to < +1.3 E Sli htl stable

+1.3 to < +3.5 Moderately stable

) +3.5 G Extremely stable Take Stability Class and Wind Speed to the DOSE CALCULATION WORKSHEET, Page 14.

METHOD B )

West Palm Beach Airport NOAA Center Alt Vero Plight Service Station Go to Appendix C, Page 28.

METHOD C )

Default Values DAY NIGHT Wind Speed Stability Class Take Stability Class and Wind Speed to the DOSE CALCULATION WORKSHEET, Page 14.

Page j4 of 30 ST. LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033K, REVISION 8 OFF-SITE DOSE CALCULATIONS DOSE CALCULATION WORKSHEET

1. Date and Time of Calculation / /
2. Sum release rates. Enter release rates from the affected Unit(s).

~ Add, if applicable, to get total release rate from site.

I UNIT NOBLE GAS Ci SEC IODINE Ci SEC METHOD j 2

Total Enter totals in Dose Calculation Table below.

3. Fnter from the METEOROLOGY WORKSHEET the, MET Data.

Wind from Speed mph, Stability

4. Enter in the Dose Calculation Table the WB and THY Dose Factor (DF) for the Stability Class and Wind Speed group. The factors are listed on Pages 17 and 18. Dose factors for distances other than 1, 2, 5, and 10 miles are listed in Appendix A.

Check for Sea Breeze effect. If any one of the following conditions do 4

5.

not exist, the Sea Breeze Factor (SBF) is one (1), and go to Step 6.

Conditions:

1. Stability Class A, B, or C.
2. Time of day 6 am to 7 pm.
3. Wind is (from) between 0 and 180 .
4. Air temperature ) surface water temperature.

HISTORICAL MONTHLY AVERAGE SURFACE WATER TEMPERATURES, F JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC 69 65 69 73 76 7 80 .81 81 79 7 . 71 Select the appropriate Sea Breeze Factor (SBF) and enter it into Step 6.

STABILITY SEA BREEZE FACTORS CLASS DISTANCE (MILES) 10 A 12 ~ 3 8.8 5.6 3.9 2.3 3~ 5 ' 3.9 C 1 ~ 2 1.6 2.3 3.0

/R8

Page 15 of 30 ST. LUCIE 'PLANT

, E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS DOSE CALCULATION WORKSHEET (continued) 6.A Complete Dose Calculation Table.

WHOLE BODY THYROID RANGE NOBLE GAS IODINE THY MILES CI/SFC (X) DF (X) SBF (~) MREM/HR CI/SEC (X) DF (X) SBF (~) MREM/HR I

2 5

IO 6.B ENTER DOSE RATE RESULTS FOR INDICATED SECTOR & ADJACENT SECTOR ON EACH SIDE:

WIND AFFECTED mRem hr WHOLE BODY (t MILE mRem hr THYROID 9 MILE FROM DIR SECTOR 10 10 168.5-191 ' ALPHA 191 '-213 ' NNE BRAVO 213 '-236.5 NE CHARLIE 236.5-258 ' ENE DELTA 258 '-281.5 ECHO 281 5-303.5 ESE FOXTROT 303.5-326 ' SE GOLF 326. 5-348. 5 SSE HOTEL 8

'- 11 33 '

'1 SSW JULIET KILO 56 '-

33.5- 56.5 78 '

78.5-101 '

WSW MIKE NOVEMBER 101.5-123 ' WNW PAPA 123.5-1 6.5 NW OUEBEC 1 6.5-168 ' NNW ROMEO

7. Compare the WB and THY dose rates with ACTION GUIDE 3A and 3B, respectively, Page 19.
8. Inform the Emergency Coordinator of the data and assist in including this data in the PLANT/RADIOLOGICAL CHECKLIST, EPIP 3100021E, Page 8.
9. On a form similar to Page 16, track the Dose Accumulation for Appropriate Sectors (half hour updates).
10. On a form similar to Page 16, track the Dose Projection for Appropriate Sectors.

/R8

Page 16 of 30 ST. LUCIE. PLANT E-PL'AN IMPLEMENT NG PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS DOSF. CALCULATION WORKSHEET (continued)

This is (check appropriate box) f J A Dose Accumulation Worksheet, Time of Applicability

[ ] A Dose Pro)ection Worksheet, Applicable to DOWNWIND WHOLE BODY mRem 8 MILES THYROID mRem 8 MILES DIRECTION 1 2 5 10 10 N ALPHA

)

NNE BRAVO NE CHARLIE ENE DELTA E ECHO I ESE FOXTROT I SSE GOLF SE HOTEL I S JULIET SSW KILO I SW LIMA WSW MIKE j W NOVEMBER

)

WNW PAPA I NW OUEBEC

)

NNW ROMEO

Page 17 of 30 ST. LUCIE PLANT

-,.- E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS DOSE FACTOR TABLES mRem/hr per Ci/Sec STABILITY CLASS A WIND SPEED GROUPS, MPH

>0 to 2 >2 to to 9 >9 to 18 >18 to 36 MILES WB THY WB THY WB THY WB THY WB 1 1.25 2990 .416 998 ) . 208 499 . 104 250 I .052 125 I I 2 )

.668 1600 .223 534 )

.111 267 .0556 134 I .0278 66.8 )

) 5 ) .360 863 I 120 288 I 0599 144 ) ~ 0300 71.9 I .015 36 l 1O) .360 863 .120 288 )

.0599 144 .03OO .015 STABILITY CLASS B

/

WIND SPEED GROUPS, MPH

>Oto 2 >2 to 4 to 9 >9 to 18 >18 to 36 MILES WB THY WB THY WB THY WB THY i 1) 8.9 21400 )

2.97 7120 I 1 ~ 48 3560 I .742 1780 .371'90 l 2.26 5410 )

.7S2 1800 ) .376 902 )

.188 451 ~ A94 226 l S I .388 932 l 129 311 )

.O6S 155 I .032 77.6 )

.O16 38.8,)

1O .360 ,863 I .120 288 I ~ 059 144 .030 71.4 ) .015 36.0 STABILITY CLASS C WIND SPEED GROUPS, MPH RANGE >0 to 2 >2 to to >9 to 18 >18 to 36 MILE$ WB THY WB THY WB THY WB THY I 1 I 22.5 54100 I 7.51 18000 ) 3.75 9010 1.88 '510 .939 2250 2 I 6. 54 15700 )

2. 18 5240 ) 1. 09 2620 I .545 1310 I 273 654 5 )

1.25 3000 .417 1000 ) .208 500 .104 250 ~ 052 125 I 10 ) .468 1120 ) .156 374 I .078 187 I ~ 039 93.6 ) ~ 020 46 ' I STABILITY CLASS D WIND SPEED GROUPS, MPH

>0 to 2 >2 to to 9 >9 to 18 >18 to 36 MILES TFY WB THY WB THY WB THY l 1 )

46.2 1.1E+5) 15.4 3.7E+4) 9.'14 2.2E+4) 5 '0 1 'E+4) 2.70 6480 I l 2 ) 18 ' 4 'K+4) 6.31 1.5E+4) 3.51 8410 I 1.96 4710 .982 2360

) 5 ) 5 ' 1.3E+4) 1 ~ 83 4400 I 964 2310 l .511 1230 .255 613 1O 2.1 5030 I ~ 70 1680 I ~ 36 863 ) ~ 186 446 ) ~ 093 223 I

Page 18 of 30 ST. LUCIE PLANT.

E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS DOSE FACTOR TALBES mRem/hr per Ci/sec (continued)

STABILITY CLASS E llew WIND SPEED GROUPS, MPH

>0 to 2 >2 to 4 >4 to 9 >9 to 18 >18 to 36 MILES WB THY WB THY WB THY WB , THY WB THY I 1 I 70.6 1.7E+5I 23.5 5 'E+4I 15.9 3 'E+4I 10 ' ' 'E+4l 5.1 1.2E+4I I 2 I 33 ' 7 'E+4I 0 2. 7E+4l 6 '3 1 6E+4l 4.05 9710 I 2.02 4860 I 11. 6 2 ~ 8E+4 I 3.87 9280 I 2 ~ 15 5150 I 1. 18 '840 I ~ 592 1420 I 10 5.07 1.2E+4I 4050 I .897 2150 .475 1140 I .237 570 STABILITY CLASS F WIND SPEED GROUPS, MPH

'ANGE >0 to 2 >2 to to 9 >9 to 18 >18 to 36 MILES WB THY WB THY . WB THY WB THY WB ~ THY I 1 I 125 3E+5 I 42 lE+5 I 31 7 ~ 4E+4 I 19 4.5E+4I 9.5 2.3E+4 I 2 I 64 1 ~ 5E+Sl 5.1E+4I 14.' 'E+4I 8.53 2E+4 4.3 1E+4 I 5 I 25 ' 6E+4 I 8 ' 2E+4 I 5 ' 1 ~ 2E+4I 2.9 '660 3330 10 I 12.1 2.9E+4I 4.0 9670 I 2.2 5300 1. 2 2840 I .60 1420 STABILITY CLASS G WIND SPEED GROUPS, MPH RANGE >Oto 2 >2 to to 9 >9 to 18 >18 to 36 MILES WB THY WB THY WB THY WB THY WB I 1 I 196 4.7E+5I 65.3 l. 6E+5 I 57 1.4E+5 I 31 '

'E+4I 15.4 3.7E+4I I 2 I 111 2.7E+5I 37 8.9E+4I 28 6.7E+4l 17 4 'E+4l 8' 2.0E+4I I 5 I 52 1.3E+5I 17 4 ~ 1E+4 I 11 2 ~ 7E+4 I 6 ' 1.5E+4l 3 ' 7540 10 27.5 6.6E+4I + I 5 ' 1.3E+4 2 ' 6980 I 1 5 3490

Page 19 of 30 ST ~ LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS TABLE 3 ACTION GUIDELINES In-Plant Systems A. Containment High Range Radiation (CHRRM)

INSTANTANEOUS READING EVENT CLASSIFICATION

< 7.3 E + 03 R hr No Emergency Classification

> 7.3 E + 03 R hr Site Area Emergency

> 1.47 E + 05 R hr General Emergency B. Post LOCA Monitors (Backup to CHRRM) Verified by Survey INSTANTANEOUS READING EVENT CLASSIFICATION

< 1000 mR hr No Emergency Classification

> 1000 mR hr General Emergency

2. Release Rates:

A. Noble Gas Releases INSTANTANEOUS READING EVENT CLASSIFICATION

< 0.083 Ci sec No Action Within Tech. Spec. Limits

> 0.083 Ci sec to < 0.83 Ci sec Unusual Event

> 0.83 Ci sec Alert

3. Dose Calculations A. Whole Body Dose Rate at 1 Mile:

INSTANTANEOUS 2 MINUTE HALF HOUR VALUE DURATION DURATION EVENT CLASSIFICATION Not applicable > 500 mRem hr > 50 mRem hr Site Area Emergency

> 1000 mRem hr Not applicable Not applicable General Emergency B. Thyroid Dose Rate at 1 Mile:

MINUTE HALF HOUR DURATION DURATION EVENT CLASSIFICATION Not applicable > 2500 mRem/hr > 250 mRem/hr Site Area Emergency C. Integrated Thyroid Dose at 1 Mile:

l ACCUMULATED DOSE EVENT CLASSIFICATION

> 5000 MREM GENERAL EMERGENCY

0 Page 20 of 30 STf LUCIE PLANT..

A '.E-PLAN IMPLEHENTING PROCEDURE 3100033Et REVISION 8 OFF-SITE DOSE CALCULATIONS APPENDIX A DOSE FACTORS FOR STABILITY CLASS A

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Page 26 of 30 ST+ LUCIE'PLANT ~

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Page 27 of 30 ST. LUCIE PLANT IMPLEMENTING FROCEDURE 3100033E, REVISION 8

                           '-'LAN OFF-SITE DOSE CALCULATIONS THIS  PAGE  INTENTIONALLY LEFT BLANK

4 Page 28 of 30 ST ~ LUCIE PLANT'-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS APPENDIX B BACKUP METEOROLOGY WORKSHEET In the event data is unavailable from the meteorological "strip chart recorder, use the following procedure: A. Gather Data

1. Date: Time e
2. Phone the West Palm Beach Airport NOAA Center at 64-305'-684-3633 or (alternate) Vero Flight Service Station (Stuart f) 287-8021. /R8
3. Copy current weather:

Time of observation: Eastern (Standard) (Daylight) Wind Direction.'ind Degrees Speed: Knots Sky Condition: Clear or Scattered Broken Overcast *

  • If broken or overcast, copy ceiling height: ft.
4. If daytime (1 hour after sunrise to 1 hour before sunset) go to Section C (next page) ~

B. Nightime Calculations

1. Determine Solar Radiation Characteristics:

Sk Condition I OVERCAST I )I

                                                     ~Cei 1 in
                                                     < 7 000                 I
                                                                               ~es       )I Radiation NIL     I BROKEN                 I                                                            WEAK LOSS       I GLAR   OR SCATTERED                 )                                                 STRONG LOSS        I
2. Choose Stability Category (D through G)

Solar Wind Speed (knots) Radiation 01 2,3 4 5 6 7 8,9 10 11 )11 Nil D D D D D D D D D Weak Loss F F E ~ E D D D D Strong Loss G F F E E E D D

3. Go to Section D.

I Page 29 of 30 P ST ~ LUCIE PLANT E-PLAN IMPLEMENTING PROCEDURE 3100033E, REVISION 8 OFF-SITE DOSE CALCULATIONS APPENDIX B BACKUP METEOROLOGY WORKSHEET C. Daytime Calculations:

1. Determine solar altitude (angle of sun above horizon) using Graph C-l.
2. Determine Solar Radiation Characteristics: (Nil, Weak, Slight, Moderate or Strong).

SOLAR ALTITUDE Sky Condi tion Ceiling Ft. I < 15 15 < 35 35 60 > 60

                           < 7000                  NIL                                  NIL           NIL 7K  to   16K            Weak                                 Weak         Slight
                           >16000                  Weak          Weak                 Slight        Moderate
                           <  7000                 Weak          Weak                   Weak         Slight "Broken"                   7K  to   16K            Weak          Weak                 Slight        Moderate
                           > 16000           I     Weak         Slight              Moderate         Strong I

"Clear or Scattered" N/A Weak Slight Moderate Strong

3. Choose Stability Category (A through D)

Solar Wind Speed (knots) Radiation 0,1 2,3 4 5 6 7 8,9 10 ll >11 Strong A A A B. B B C .C C Moderate A B B B B C C C D SliRht B B C C C C D D D Weak C C D D D D D D D Nil D D D D D D D D D D. Input to Dose Calculation System Take information to the DOSE CALCULATION WORKSHEET, Page 14.

1. Wind Direction (from Step A.3) degrees
2. Wind Speed 1.15 x (knots) mph
3. Atmospheric Stability (Circle One):

(From Step B.2 or C.3) A B C D E F G

ADRISrED FOR DAValaitr SOLAR ALTITUDEBY TIME OF DAY CORREClED EOII ST. LUCIE PLANT N AVIIIO rIME wolANT I WVICII T JNC ALT ~I Sl tltI40C 0 OCIOOSO IRIS IWl0 r LOIIQITIJOE COCCI TOO 0

                                                                                                                      <16 16'-36'~

10 10 36'0' I Tt 11 (h M g 12 i2 aw i ',I o rnnop+o I

               'I I

I WWM a

            'i.

sP nQ 40 I 2 I i I I Pfl M CO 35'- 40' M O CO 16'~ ~ 3 64 I I IO I!~,"I sAMW ni52I25 OlnIAkT 0 5 tOtS IIAncII I ZITIk .. IO I 20th S 5 202 Illf

                                                         ', OIIheu 0 5202 AIIC 0 IS 2025 AAT C~lt Ugl. ILEhb T1HEI 0 I 20 25 NJQUSI 5   0   202 SIJII40III IO     20 25 oc I oLo 0 OI$ 102$

Hovl 4ul 0 I 5 1015 202$ Io cl Qol 0 O m

Page 1 of 13 FLORIDA POWER & LIGHT COMPANY ST. LUCIE PLANT EMERGENCY PLAN DiPLEMENTING PROCEDURE 83100026E, REV. 9

1.0 TITLE

CRITERIA FOR AND CONDUCT OF EVACUATIONS

2.0 APPROVAL

Reviewed by Facility Review Group Jul 25, 1975 Approved by K. N. Harris Revision Approved by 5

                      'e iewe    by Fac    ity Review  Group March 20 V.P. Pwr. Res.
                                                                         & 25 l~

19~8 Revision 6 R ed b Faci Review Group a 2. 8 19 8 l Approved by V.P. Pwr. Res. z 19&~ Revision 7 Rev ~ d by Facil 1 Review Group Z 1982. Approved by 1982. Revision 9 Revie 'y Faciiit Review Group. 5~Pl- 8 1982. Approved by .P., Nucl. Energy

3.0 SCOPE

3.1 ~Per ese This procedure provides criteria for determining if evacuation of a local area on-site or the Owner Controlled Area should be carried out. It provides instructions for effecting an ordered, rapid and safe evacuation of a local area or the Owner Controlled Area in order to prevent or minimize radiation exposure to personnel. It also provides instructions for personnel account-ability. 3.2 Discussion 3.2.1 Accurate classification of emergencies that may occur at the Plant is necessary to enable the Nuclear Plant Supervisor to take the proper corrective action and to know when to initiate the Emergency Plans. For those emergencies involving high radiation and/or the release of radioactive material to the environment, it is necessary to provide the Nuclear Plant Supervisor (Emergency Coordinator) with guidelines that will enable him to know when to order a local area evacuation or"evacuation of the Owner Controlled Area.

Page 2 of 13 FLORIDA POWER & LIGHT COMPANY'MERGENCY PLAN IMPLEMENTING PROCEDURE

                               //3100026E, REV. 9

3.0 SCOPE

Continued 3.2 Discussion Continued 3.2.2 'A local area evacuation or evacuation of the Owner Controlled Area may be necessitated by the occurrence /R9 of any of several events where evacuation of personnel would be necessary to minimize their exposure to radiation. An Owner Controlled Area evacuation will be conducted for any Site Area Emergency or General Emergency. This procedure implements the St. Lucie Plant Radiological /R9 Emergency Plan.

3.4 Definitions

The location to which evacuation personnel report. In a local evacuation, personnel evacuate and assemble in a location designated by the Emergency Coordinator. In an evacuation of the Owner Controlled Area, evacuating FPL personnel from the Protected Area go to the Site Assembly Station on Highway A1A near the north entrance to plant property, while non-FPL personnel and FPL personnel from outside the Protected Area assemble at Jaycee Public Park on Highway AlA, 7< miles north of the plant. If necessary, other assembly areas can be specified by the Emergency Coordinator. /R9 3.4.2 Escort An individual specifically assigned to accompany other persons who are required by the Security Plan or Health Physics Manual to be escorted. 3.4.3 Local Area Evacuation An evacuation of some portion of, but not all of, the Owner Controlled Area. It may include evacuation of a room, building, group of buildings, generating station area, or other portion of the Owner Controlled Area. I

Page S ol FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN DPLE>KNTING PROCEDURE

                              //3100026E, REV. 9
3. 0 SCOPE: Continued)

3.4 Definitions

Continued) 3.4.4 Owner Controlled Area That portion of FPL property surrounding and including the plant which is subject to limited access and control as deemed appropriate by FPL (indicated by the line on the attached Florida Power & Light property plan, Figure 1 of this procedure). 3.4.5 Owner Controlled Area Evacuation The evacuation from the Owner Controlled Area of all personnel except those required to place the plant in a safe condition, the emergency teams, and the guards necessary to fulfill their evacuation responsibilities. 3.4.6 Radiation Control Point Located in the Auxiliary Building, it is likely to be used as an assembly area during a local evacuation.

4.0 Precautions

4.1 Every effort shall be made to minimize personnel exposure to radiation. 4.2 Personnel who have been in the area of the emergency shall remain in a group, and shall not mix with the other personnel in the Radiation Control Point or other assembly area until they have been monitored for possible contamination, unless they are injured. Injured personnel shall be treated as discussed in E-Plan Imple-menting Procedure 3100021E, Duties of the Emergency Coordinator. 4.3 Except as discussed in 4.2 above, personnel reporting to the Radiation Control Point or other assembly area shall group according to departments in order to facilitate personnel accountability and monitoring. 4.4 When reporting to the assembly area, take the most direct route possible, but do not use any route or area that has been declared part of the emergency area, or that could result in excessive individual exposure or injury. 4.5 If an area or building is evacuated, any records regarding the persons in the area shall be removed and taken to the assembly area.

Page 4 ot 13 FLORIDA POWER 6 LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE

                                  //3100026E, REV. 9

4.0 Precautions

(Continued) 4.6 Health Physics personnel exiting the RAB as necessitated by an emergency condition of possible radiological nature shall pick up suitable portable radiation monitoring equipment which would be required for re-entry monitoring. 5.0 Res onsibilities: 5.1 The Nuclear Plant Supervisor is responsible for: 5.1.1 Classifying and declaring any emergency that may occur at /R9 the site+". 5.1.2 Initiating the Emergency Plans when appropriate. 5.1.3 Initiating the evacuation of any area in which the criteria for evacuation, as expressed in steps 8.1 8.2 are met. /R9 5.2 The Nuclear Plant Supervisor shall act as Emergency Coordinator after declaration of an emergency. /R9 5.3 The Emergency Coordinator is responsible for advising the Security Team Leader of a local evacuation or an Owner Controlled Area evacuation. This notification will be by the alarm or the PA system. Information needed the Security Force to properly fulfilltheir responsibilities by during the evacuation shall be provided to the Security Team Leader by the Emergency Coordinator. (See E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator). 5.4 The Security Guard Force is under the supervision of the Plant Security Supervisor. He serves as the Primary Security Team. Leader. The Security Force Shift Supervisor is the Interim Security Team Leader. 5.5 The responsibilities of individuals acting as escorts are contained in Sections 5.12 and 8.4;5 of this procedure. 5.6 All personnel permanently or temporarily assigned to St. Lucie plant shall familiarize themselves with: 5.6.1'he instructions given in this procedure. 5.6.2 The access routes to the work location to which they are assigned.

  • The statement applies to Unit 2 upon initial fuel load.

~ H ~ Page 5 ot 13 FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE

                               //3100026E, REV. 9 5.0 Res  onsibilities:

5.6 (Continued) 5.6.3 The locations of the evacuation assembly areas:

a. The Radiation Control Point in the Auxiliary Building.
b. The Site Assembly Station.
c. The Jaycee Public Park on Route AlA, north of the plant site. /R9 5.7 It shall be the responsibility of each supervisor and depart-ment foreman not involved in the emergency response to report to the assembly area to assist in accounting for all personnel under his supervision.

5.8 Security Department Responsibilities are defined in Security Procedure 0006123. 5.9 The Control Point Guard shall maintain accurate records of all personnel entering or leaving the controlled area and make the records available when required. 5.10 The Main Gate Guard shall maintain accurate records of ~ personnel entering or leaving the protected area an/ /R9 make the records available when required. 5.11 The Assembly Area Supervisor shall be responsible to ensure that personnel accounting at assembly area is being done and liason between the assembly area and the Emergency Coordinator. /R9 5.12 Tour Guides are assigned to escort groups of visitors during tours of the plant site. In an emergency, Tour Guides are responsible for personnel accountability of their respective groups and the evacuation of their group to the Site Assembly Station in cooperation with the Security Force. F 13 Prior to fuel loading, Unit 2 responsibilities are defined in ASP, 5.0.

Page 6 of 13 FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE

                       !/3100026E, REV. 9 6.0 

References:

6.1 St. Lucie Plant Radiological Emergency Plan. 6.2 St. Lucie Plant Security Plan. 6.3 E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator. 6.4 HP207 Personnel Monitoring following an Evacuation. 6.5 HP208 Personnel Decontamination. 7.0 Records and Notifications: 7.1 A list of all persons assembled at Jaycee Public Park shall /R9 be prepared by a member of the Plant Staff who will travel to that location with evacuees. 7.2 Records showing that all personnel in the area affected by the emergency were accounted for shall be kept as part of the records of the emergency and recorded by the Emergency Coordinator.

I t ~ Page 7 of 13 FLORIDA POWER 6 LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE f/3100026E, REV. 9

8. 0 Ins true tions:

8.1 Criteria for Local Area Evacuation If an incident involves a high radiation field or has caused the release of radioactive material to the environ-ment, the need to evacuate the affected area shall be determined in accordance with the following criteria: Evacuate the affected local area in which any of the following conditions occur: 8.1.1 Area Radiation Monitor Alarm. 8.1.2 Containment Evacuation Alarm. 8.1.3 Direct radiation dose rate reading,d.n..excess of 100mRem/hour, from an.unevaluated source.

                                                                                      -9 8.1.4     Airborne radioactivity concentration in excess of         1 x 10
                   ~ micro Ci/cc, from an unevaluated source.                               /R9 8.1.5   Removable    radioactive surface contamination in       an unposted area in excess of 1000 dpm/100       cm  beta-gamma    over an area of 100    ft 8.1.6    Removable   radioactive surface contamination in        an unposted area in excess of 50 dpm/100cm        alpha over an area of 100   ft2.

8.1.7 The Emergency Coordinator determines that a situation exists for which local evacuation is appropriate. 8.2 Criteria for Owner Controlled Area Evacuation The Owner Controlled Area shall be evacuated in the following circumstances: 8 '.1 Site Area Emergency, 8.2.2 General Emergency, 8.2.3 If the Emergency Coordinator determines that the entire owner controlled area should be evacuated. /R9

~ f ~ Page 8 of 13 FLORIDA POWER 6 LIGHT COMi ANY EtiERGENCY PLAN DiPLEMENTING PROCEDURE

                          //3100026E, REV. 9

8.0 Instructions

(Continued) 8.3 Evacuation Pre aredness 8.3.1 All visitors shall have adequate transportation available on-site to evacuate all members of their respective groups. 8.3.2 Escorts shall maintain control of groups or individuals to which they are assigned to enable all members of the groups to be located, notified and evacuated. 8.4 Local Area Evacuation Im lementation 8.4.1 When the Emergency Coordinator (Nuclear Plant Supervisor) determines that a local area evacuation is necessary, he shall, in following Emergency Procedure Duties of the Emergency /R9 Coordinator, announce an evacuation using the PA system, giving the area affected, the assembly area and other instructions as required. 8.4.2 All personnel in the evacuated area shall stop work, turn off potentially hazardous equipment, such as cutting torches, and leave the area by the same route taken to enter the area, unless otherwise instructed by the Emergency Coordinator. 8.4.3 All personnel in the evacuated area shall report to the Radiation Control Point in the Auxiliary Building for monitoring and accountability, unless otherwise directed

               'y   the Emergency Coordinator.

8.4.4 The Radiation Team shall monitor evacuated /R9 personnel for contamination, (for areas where contamination may be present). 8.4.5 Injured personnel shall be treated as discussed in E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator. If an injured person is evacuated from the plant site, the person's TLD, selfreading dosimeter, identification badge, and keycard should be removed and given to the First Aid and Personnel Decontamination Team Leader. 8.4.6 The Control Point Guard shall make available to the Emergency Coordinator his records showing the personnel who are in the Radiation Controlled Area. /R9

Page 9 of 13 FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE

                        //3100026E, REV. 9 8.0 Instructions (Continued) 8.4   Local Area Evacuation Im lementation (Continued) 8.4.7    The Emergency Coordinator, department     supervisors and foremen having personnel working     in the  evacuated area shall verify that all personnel in the      evacuated area are accounted for.

8.4.8 The Emergency Coordinator shall initiate a search for the personnel who have not been accounted for. 8.5 Owner Controlled Area Evacuation Im lementation 8.5.1 When the Emergency Coordinator (Nuclear Plant Supervisor) determines that an evacuation of the Owner Controlled Area is necessary, he will order an evacuation using the PA system and the evacuation alarm as described in E-Plan Implementating Procedure 3100021E, Duties of Emergency Coordinator. 8.5.2 All personnel in the evacuated area shall stop work, turn off potentially hazardous equipment, such as cutting torches, and leave the area. All personnel not needed to place the affected unit*in a safe con-dition and not on an emergency team or otherwise required on site, shall evacuate to the appropriate Offsite Assembly Area. Emergency Teams shall report to the OSC for assignment. 8.5.3 Injured personnel shall be treated as discussed in E-Plan Implementing Procedure 3100021E, Duties of Emergency Coordinator. If an injured person is evacuated from the plant site, the person's TLD, self-reading dosimeter, identification badge, and keycard should be removed and given to the First Aid and Personnel Decontamination Team Leader. 8.5.4 Personnel shall remove protective clothing prior to leaving the Radiation Controlled Area. 8.5.5 Personnel shall proceed to the Main Guard Station by the most direct route, unless an alternate route is specified by the Emergency Coordinator. 8.5.6 Each person shall then proceed to the appropriate Site Assembly Area (see Figure 2), unless otherwise directed by the Emergency Coordinator.

  • Applicable upon initial fuel load of Unit 2.

R9

~ W ~ Page 10 of 13 FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE f/3100026E, REV.

8.0 Instructions

(Continued) 8.5 (Continued) 8.5.7 Assemble by department for accounting and monitoring, and remain at the assembly area until given instruc-tions by the Assembly Area Supervisor. 8.5.8 If the conditions associated with the emergency are such that the site assembly station area is untenable, the Emergency Coordinator shall direct all personnel to report to the Jaycee R9 Public Park or other suitable alternative and specify the route to be followed. 8.5.9 The department supervisors and foremen shall account for their personnel and report the results to the Assembly Area Supervisor. 8.5.10 The Assembly Area Supervisor shall assure that all personnel are monitored for contamination prior to leaving the Assembly Area. 8.5.11 The Assembly Area Supervisor, the Security Force Shift Supervisor and the department supervisors and foreman shall examine all the personnel records available to determine if any personnel are unaccounted for. 8.5.12 The Emergency Coordinator shall initiate a search for the personnel who have not been accounted for. 8.6 Securit Force Evacuation Im lementation 8.6.1 Upon notification of an evacuation, the Security Force Shift Supervisor (Interim Security Team Leader) shall advise by radio all other guards on duty that an evacuation is in progress. The Security Force will proceed with the evacuation of persons and with personnel accountability activities. 8.6.2 The Control Point Guard and the Main Gate Guard shall immediately review logs and badge records to determine what persons are in the affected area. These guards shall R9 be prepared to brief the Emergency Coordinator. The Control Point Guard shall verify that all personnel have evacuated the area and report to the Security Team Leader for further instructions. The Control Point Guard shall then R9

Page ll of 13 FLORIDA POWER & LIGHT COMPANY EMERGENCY PLAN IMPLEMENTING PROCEDURE f/3100026E, REV. 9

8.0 Instructions

Continued 8.6 (Continued) 8.6.2 go to the Hain Gate with his personnel records and await instructions from the Security Team Leader. 8.6.3 The Security Team shall: 1~ Sweep the plant site to verify that all personnel have evacuated.

2. Notify any Special Guards on duty.
3. Perform additional duties as specified in the Security Guard Force Post and Force Orders.

8.6.4 The Security Team Leader, after completion of sweeps by members of the Security Team shall instruct guards concerning special assignments which may be required as a result of the evacuation. He shall advise the FPL Off- R9 Site Emergency Security Manager of any circumstances '9 which require his attention or assistance.

l' p.

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