{{#Wiki_filter:REV 64  3/15  

VOGTLE ELECTRIC GENERATING PLANT UNIT 1 AND UNIT 2 EMERGENCY PLAN

JUSTIFICATIONS FOR CHANGES - REVISION 64 Change Justification 6-1; Added "ETE population reviews will be conducted annually." Added to reflect the process for annual population reviews in accordance with 10 CFR 50 Appendix E. 9-2; Deleted "91304-C, Estimating Offsite Dose" Dose Assessment was standardized throughout the Fleet with NMP-EP-104, Dose Assessment. Site specific procedures were deleted. 9-3; Deleted "NMP-EP-303, Drill and Exercise Standards" The listed procedure was deleted because they had inaccurately been added to the list of Emergency Plan Implementing Procedures. D-31, RG1; Editorial. Deleted misplaced "-" from RE-12444E reading The negative sign (-) had inaccurately been added to the Emergency Plan. I-3, I.3; replaced "91304-C with NMP-EP-104, Dose Assessment" Dose Assessment was standardized throughout the Fleet with NMP-EP-104, Dose Assessment. Site specific procedures were deleted. Figure J-2; Deleted Follow Up Protective Action Recommendations Flowchart and replaced with current Flowchart to add statement to consider use of KI with each PAR This addition was made to ensure that every PAR given reflects the consideration for the use of KI. This statement was already reflected in initial PAR flowchart. Index of Effective pages; Updated Revision Number Updated to reflect current version number i REV 51  10/08 TABLE OF CONTENTS   Section  Title  Page    PREFACE  xix   

D.4 Definitions  D-15 ii REV 43  5/06 TABLE OF CONTENTS (Continued)   Section  Title  Page  E NOTIFICATION METHODS AND PROCEDURES  E-1  

E.1 Notification of Personnel  E-1 E.2 Notification of State and Local Response Personnel  E-2  

F.2 Communications With the State of South Carolina and Aiken, Barnwell, and Allendale Counties F-2 F.3 Communications With the Savannah River Site F-2  

iii REV 57  06/12 TABLE OF CONTENTS (Continued)   Section  Title  Page    G.2 Joint Information Center Operations  G-3 G.3 Offsite Agency Coordination  G-4  

iv REV 21  10/94 TABLE OF CONTENTS (Continued)   Section  Title  Page    K.2 Onsite Radiation Protection Program  K-2  

v REV 46  7/07 TABLE OF CONTENTS (Continued)   Appendix  Title  1 GLOSSARY  

2 LETTERS OF AGREEMENT AND MEMORANDUMS OF UNDERSTANDING 3 MEANS FOR PROVIDING PROMPT ALERTING AND NOTIFICATION OF THE PUBLIC  

6 EVACUATION TIME ESTIMATES FOR THE VOGTLE ELECTRIC GENERATING PLANT PLUME EXPOSURE PATHWAY EMERGENCY PLANNING ZONE 7 EMERGENCY OPERATIONS FACILITY  

9 INDEX OF VEGP ADMINISTRATIVE, NUCLEAR MANAGEMENT AND EMERGENCY PLAN IMPLEMENTING PROCEDURES CROSS-REFERENCED TO SECTIONS OF THE VEGP EMERGENCY PLAN 10 FSAR-POSTULATED TRANSIENTS  

vi REV 27  02/98 LIST OF TABLES   Table  Title   A-1 Responsible Individuals of Primary Response Organizations  

D-1 Hazards and Other Conditions Affecting Plant Safety for All Modes D-2 System Malfunction Emergency Action Levels  

vii REV 63  10/14 LIST OF TABLES (Continued)   Table  Title   J-1 Use of Protective Equipment and Supplies   J-4 Evacuation Time Estimate Summary  

viii REV 38  05/05 LIST OF FIGURES   Figure  Title  i  General Vicinity Map  

iii Vogtle Electric Generating Plant 10-Mile EPZ (Plume Exposure Pathway) iv Vogtle Electric Generating Plant & Savannah River Site 50-Mile EPZ (Ingestion Pathway) v 1987 Permanent Population Within the Vogtle Electric Generating Plant Plume Exposure EP2 vi Transient and Special Facility Population (Employees, Visitors to Recreational Areas and Schools) Within the Vogtle Electric Generating Plant Plume Exposure EP2  

A-2 State of Georgia Operating in a Declared Radiological Emergency A-3 Operational Relationships Among Burke County Response Organizations A-4 State of South Carolina Operating in a Declared Radiological Emergency A-5 Aiken County, S.C., Emergency Response Organization  

ix REV 63  10/14 LIST OF FIGURES (Continued)   Figure  Title   E-1 Example of Initial Emergency Message For State and Local Response Agencies E-2 Example of NRC Operations Center Event Notification Worksheet J-1 Initial Protective Action Recommendations   J-2 Follow Up Protective Action Recommendations H-1 TSC Layout Plan  

P-1 Emergency Preparedness Organizations VEGP EMERGENCY PLAN LIST OF EFFECTIVE PAGES WITH REVISIONS   PAGE REV. x REV 64  3/15 Table of Contents (i)51 ii 43 iii 57 iv 21 v 46 vi 27 vii 63 viii 38 ix 63 x 64 xi 64 xii 60 xiii 64 xiv 64 xv 64 xvi 60 xvii 60 xviii  64 Preface xix 39 xx 41 Figure i 5 Figure ii 27 Figure iii 14 Figure iv 23 Figure v NONE Figure vi 12 A-1 56 A-2 30 A-3 23 A-4 30 A-5 30 A-6 30 A-7 23 A-8 18 A-9 61 A-10 61 A-11 35 A-12 35 A-13 31 A-14 23 A-15 35 A-16 61 A-17 56 A-18 23 A-19 35 A-20 38 A-21 24 Table A-1 (1 of 2)35 Table A-1 (2 of 2)14 Figure A-1 35 VEGP EMERGENCY PLAN LIST OF EFFECTIVE PAGES WITH REVISIONS   PAGE REV. xi REV 64  3/15 Figure A-2 22 Figure A-3 2 Figure A-4 35 Figure A-5 35 Figure A-6 35 Figure A-7 35 B-1 61 B-2 61 B-3 57 B-4 57 B-5 37 B-6 37 B-7 61 B-8 38 B-9 56 B-10 19 Table B-1 (1 of 2)60 Table B-1 (2 of 2)60 Table B-2 (1 of 2)60 Table B-2 (2 of 2)43 Figure B-1 50 Figure B-2 43 Figure B-3 43 C-1 61 C-2 61 C-3 61 C-4 61 C-5 61 Table C-1 (1 of 2)2 Table C-1 (2 of 2)28 Table C-2 56 Section D (pp D-1 to D-5)48 D-6 56 D-7 48 D-8 48 D-9 48 D-10 48 D-11 48 D-12 48 D-13 48 D-14 to D-16 57 D-17 62 D-18 57 D-19 to D-21 57 D-22 62 D-23 to D-25 62 D-26 to D-28 57 D-29 62 D-30 57 D-31 64 D-32 57 D-33 48 VEGP EMERGENCY PLAN  LIST OF EFFECTIVE PAGES WITH REVISIONS  PAGE REV. xii REV 62  10/14 D-34 56 D-35 56 D-36 48 D-37 48 D-38 48 D-39 48 D-40 48 D-41 48 D-42 48 D-43 62 D-44 48 D-45 62 D-46 to D-49 48 D-50 62 D-51 48 D-52 62 D-53 48 D-54 62 D-55 to D-56 48 D-57 to D-58 60 D-59 48 D-60 62 D-61  48 D-62 62 D-63 62 D-64 53 D-65 48 D-66 62 D-67 62 D-68 to D-71 48 D-72 56 D-73 48 D-74 to D-75 55 D-76 to D-83 48 D-84 to D-85 55 D-86 to D-89 48 D-90 to D-92 55 D-93  48 D-93a  60 D-94 to D-97 48 D-98 62 D-99 48 D-100 48 D-101 48 D-102 to D-116 48 E-1 61 E-2 60 E-3 56 E-4 56 Table E-1 (1 of 2)35 Table E-1 (2 of 2)25 Table E-2 (1 of 2)33 Table E-2 (2 of 2)33 VEGP EMERGENCY PLAN  LIST OF EFFECTIVE PAGES WITH REVISIONS  PAGE REV. xiii REV 64  3/15 Figure E-1  43 Figure E-2 (1 of 3) -DELETED21 Figure E-2 (1 of 2)35 Figure E-2 (2 of 2) 35 F-1 56 F-2 43 F-3 30 F-4 28 F-5 57 F-6 60 F-7 43 Table F-1 60 G-1 24 G-2 41 G-3 60 G-4 60 H-1 51 H-2 23 H-3 57 H-4 30 H-5 61 H-6 38 H-7 38 H-8 57 H-9 38 H-10 35 H-11 35 H-12 56 H-13 56 H-14 38 H-15 38 H-16 22 H-17 34 H-18 57 Table H-1 34 Figure H-1 34 Figure H-2 57 I-1 56 I-2 57 I-3 64 I-4 25 I-5 38 I-6 61 I-7 38 I-8 57 I-9 57 I-10 21 J-1 35 J-2 39 J-3 61 J-4 38 J-5 63 J-6 11 VEGP EMERGENCY PLAN  LIST OF EFFECTIVE PAGES WITH REVISIONS  PAGE REV. xiv REV 64  3/15 Table J-1 22 Table J-2  63 Table J-3 63 Table J-4 61 Table J-5 (1 of 2)39 Table J-5 (2 of 2)

: 1) Nuclear Power Plant Assistance Agree. (16 pgs.)DELETED21 2) Electric Utilities Assist Agreement (15 pages) DELETED21 Appendix 8 (Emergency Commun. Plan) 57 Table of Contents (i)57 ii 57 iii 57 1 57 2 57 3 57 4 57 5 57 6 57 7 57 8 57 9 57 10 57 11 57 12 60 13 60 14 60 15 57 16 60 17 60 18 57 19 57 20 57 21 57 22 57 23 57 24 57 25(TABLE 1) 57 26 60 27 60 VEGP EMERGENCY PLAN  LIST OF EFFECTIVE PAGES WITH REVISIONS  PAGE REV. xviii REV 64  3/15  28 57 29 60 30 60 Appendix 9 57 9-1 57 9-2 64 9-3 64 Appendix 10 1 Sheet 1 of 2 21 Sheet 2 of 2 21 Appendix 11 6 GEMA Letter dated 9-7-84 0 xix REV  39  11/04  PREFACE    The Vogtle Electric Generating Plant (VEGP) is a two-unit pressurized water reactor operated by Southern Nuclear Operating Company (SNC). The plant is on a 3169-acre site located in the eastern portion of Burke County, Georgia, approximately 23 river mi upstream from the intersection of the Savannah River with U.S. Highway 301, as shown on figure i.

This Emergency Plan is applicable to VEGP, Units 1 and 2, and to its environs as specified by the emergency planning zones (EPZs):  a plume exposure pathway EPZ, which nominally consists of the area within approximately 10 mi of the plant, and an ingestion exposure pathway EPZ, which extends to 50 mi. These distances are reckoned from a point midway between the centers of the Unit 1 and Unit 2 containment buildings for the 10 mile EPZ map. The two EPZs are shown in figures iii and iv. 

Because of the location of VEGP, the emergency planning and/or protective action responsibilities at the state level involves two states, Georgia and South Carolina. Both Georgia and South Carolina, as well as the counties (Burke County in Georgia and Aiken, Barnwell, and Allendale Counties in South Carolina) within the plume exposure pathway EPZ, have prepared plans for a response to an emergency at VEGP. These plans describe their respective responsibilities, authorities, capabilities, and emergency functions. The major portion of the plume exposure pathway EPZ in South Carolina is within the Department of Energy's Savannah River Site (SRS). The Department of Energy, Savannah River Operations Office (DOE-SR), pursuant to a memorandum of agreement between Georgia Power Company (GPC), as assigned to SNC, and DOE-SR provided in appendix 5, will be responsible for all emergency response actions on the SRS whenever an emergency occurs at VEGP.

Small areas of Georgia within a 10-mi radius of the plant have been excluded from the detailed state and local planning. The area in Richmond County has been excluded because it is a low-lying swampland with no residences, no access routes, and limited recreational use. A letter documenting this provision is included in appendix 11.

Within the plume exposure pathway EPZ, Burke County in the State of Georgia has the largest resident population. However, even here the population is small and dispersed. The areas in South Carolina that are not federally owned or controlled are along the Savannah River lowlands in Aiken, Allendale, and Barnwell Counties. The segment in Aiken County, approximately 8 to 10 mi NNW from VEGP, is part of the Cowden Plantation

xx REV 41  12/05 and has no resident population. The segments to the ESE, Barnwell and Allendale Counties (approximately 9 to 10 mi from VEGP), are largely comprised of portions of the Creek Plantation, a horse farm. Within the South Carolina portion of the plume exposure pathway EPZ, the only housing occurs within the Creek Plantation in Barnwell County, where there are only a limited number of permanent residences. Figure v presents the permanent population within the plume exposure pathway EPZ. 

Appropriate criteria from NUREG-0654, Revision 1, Criteria for Preparation and Evaluation of Radiological Emergency Response Plans and Preparedness in Support of Nuclear Power Plants, are addressed approximately in the sequence presented in that document. 

Although this Plan is designed to stand on its own, two appendices expand on matters mentioned here:  the Emergency Operations Facility (appendix 7) and the Emergency Communication Plan (appendix 8). It is to be recognized that this is only a plan and not a prescriptive document. Each incident is a unique event; therefore this Plan is designed to incorporate the flexibility to tailor the response and meet the emergency.

This Plan is supported by a set of implementing procedures. A listing of these procedures is included as appendix 9.  

FIGURE ii Vogtle Electric Generating Plant Site Plan  FIGURE iii Vogtle Electric Generating Plant 10-Mile EPZ (Plume Exposure Pathway) FIGURE iv Vogtle Electric Generating Plant & Savannah River Site 50-Mile EPZ (Ingestion Pathway)  These figures are available in hard copy only. See Christopher E. Boone, Emergency Planning Coordinator (205) 992-6635 

A-1 REV 56    09/10 A. ASSIGNMENT OF RESPONSIBILITIES In the event of a situation at the Vogtle Electric Generating Plant (VEGP) which requires activation of the emergency response organizations, various State, local, Federal, and private sector organizations may be required to contribute to the emergency response. This section describes the responsibilities of these organizations. Table A-1 lists primary response organizations and the emergency title of the individual in charge.

A.2.1 PRINCIPAL AGENCIES OF THE STATE OF GEORGIA The following State agencies are assigned lead responsibility for radiation emergencies and for overall State preparedness, respectively: 

: 1. GEORGIA EMERGENCY MANAGEMENT AGENCY a. GEMA is responsible for general State emergency planning and exercises overall direction and control of emergency or disaster operations as assigned by Executive order. b. The director of emergency management as the State disaster coordinator coordinates emergency activities of DNR with overall State response efforts.

A-4 REV 30    07/00 c. During an emergency, the State of Georgia, acting through GEMA, and the State of South Carolina, acting through the South Carolina Emergency Preparedness Division, will coordinate their emergency response efforts including such matters as radiological dose assessment, protective action decisions, and activation of the prompt notification system for alerting the public. d. On behalf of the Governor, activate all or portions of the GEOP to provide the necessary overall coordinated response. e. Provide communications for the State Operations Center (SOC), as required, through 24-hour radio network, commercial telephone, National Warning System (NAWAS), or other communications systems. Communication links will be established in accordance with existing procedures with the SOC in Atlanta as well as with additional State and local emergency response personnel within the plume exposure pathway and ingestion EPZs. These functions will initially be handled from the SOC and will then be transferred to the Forward Emergency Operations Center (FEOC) once activated. f. Establish the FEOC if necessary. The FEOC will be established at the Burke County Emergency Operations Center (EOC) Building, on the corner of Georgia Highway 24 and Perimeter Road in Waynesboro. Upon the decision of the GEMA director to activate the FEOC, the GEMA Mobile Communications Vehicle (MCV)may be dispatched to Burke County and arrive within driving time plus 30 min for mobilization. When dispatched, it may be used to transport certain State responders.

The GEMA MCV will be located adjacent to the Burke County EOC and will provide support services to State agencies at the FEOC. The Burke County EOC has the necessary electrical hook-ups to provide long term electrical services to the vehicle. In addition to providing backup for the communications described in the preceding paragraph, the MCV provides backup communications for State agencies other than GEMA (Department of Transportation, the Georgia State Patrol, the Georgia Department of Natural Resources - Law Enforcement Section, and the Georgia Forestry Commission). In addition, the MCV has an on-board weather station that can provide wind speed and direction, barometric pressure and relative humidity. It also has micro down-link capabilities and a video camera system.

A-5 REV 30    07/00 g. Maintain liaison with DNR radiation emergency coordinator (REC). h. Activate public emergency warning and/or evacuation procedures, as needed, pursuant to the GEOP. i. Assist radiological monitoring and provide instrumentation. j. Provide radiological monitoring training assistance. k. Assist in area security and control; request National Guard assistance if needed. l. Provide for the coordination of land and air transportation for emergency personnel as requested. m. Coordinate public information releases in cooperation with State and local agencies. n. Communication links will be established with the state of South Carolina Emergency Preparedness Division and DOE-SRS to ensure efficient coordination of emergency response activities. 2. DEPARTMENT OF NATURAL RESOURCES a. DNR is assigned primary responsibility by Executive Order for implementation and administration of the State radiological emergency response function. DNR will: (1) Dispatch radiation emergency teams as needed. (2) Perform radiation survey and monitoring. 

(3) Provide radiation safety training.

(4) Direct recovery/reentry operation and provide health physics control of contaminated areas. b. A radiation emergency coordinator (REC) in the Environmental Protection Division (EPD) interacts with appropriate State, local, and Federal agencies and private organizations to direct all necessary radiation control actions. The REC is on call 24 h and will be notified by the GEMA duty officer. c. In situations beyond local government control, DNR provides program assistance in the application of available personnel, equipment, and technical expertise as required. d. DNR requests State support agency(s) and Federal assistance pursuant to the GEOP as required.

A-6 REV 30    07/00 e. DNR will provide for health physics escort of media and other personnel within the plume exposure pathway emergency planning zone (EPZ) as conditions allow if access controls have been established. A.2.2 State Support Agencies in Georgia

The following State agencies are prepared to provide related support of this function as indicated pursuant to the GEOP:  1. DEPARTMENT OF HUMAN RESOURCES  Coordinate emergency health and social assistance pursuant to the GEOP. 2. DEPARTMENT OF PUBLIC SAFETY a. As applicable, assume control over the onsite situation until the arrival of radiation safety personnel. b. Maintain liaison with DNR REC. c. Provide communication linkage as required. 

: d. Provide land or air transportation or escort as available for radiation safety personnel, other necessary personnel, or equipment. e. Assist in radiological monitoring as required. f. Provide law enforcement assistance for area security or recovery of lost or stolen radioactive material. g. Coordinate with DNR law enforcement and local police. h. Assist in public warning or evacuation as required. 3. DEPARTMENT OF AGRICULTURE a. Collect samples of food products, livestock, produce, and dairy products, as necessary. b. Restrict the sale, production, distribution, and warehousing of livestock, produce, dairy, and processed food products contaminated beyond safe consumption. c. Assist in disposal of contaminated products.

A-7 REV 23    4/96 d. Coordinate these activities with United States Department of Agriculture (USDA) personnel. e. Maintain liaison with DNR REC for assessing degree of contamination. 4. DEPARTMENT OF TRANSPORTATION a. Assist in traffic control and routing, accident assessment, and recovery operations in transportation incidents. b. As requested, provide land, air, or water transportation for radiation safety personnel, other necessary personnel, or equipment. c. Provide communications linkage as required. d. Assist State Patrol and DNR law enforcement in security and radioactive material escort as requested. e. Provide heavy equipment and personnel as required. 5. FORESTRY COMMISSION a. Provide land or air transportation as requested for radiation safety personnel, other necessary personnel, or equipment. b. Provide personnel and heavy equipment as required to assist in recovery operations. c. Provide communication linkage as necessary. 6. DEPARTMENT OF ADMINISTRATIVE SERVICES a. Provide for expeditious approval and purchase of equipment and supplies essential to emergency operations. b. Provide land transportation vehicles for emergency personnel. c. Provide emergency communications equipment and repair.

A-8 REV 18    5/93 A.3 BURKE COUNTY, GEORGIA All the area within the plume exposure pathway EPZ in the State of Georgia falls within Burke County. The responsibility for overall radiological emergency response planning rests with the chairman, Burke County Board of Commissioners. It is the chairman's responsibility to initiate actions and provide direction and control at a level consistent with the specific incident. Agencies within Burke County which have a primary role in radiological emergency planning and response include the Emergency Management Agency and the Sheriff's Department. A detailed discussion of the Burke County response is contained in Annex D to the Georgia Radiological Emergency Response Plan. 

The chairman, Burke County Board of Commissioners, or his predesignated alternate (the vice chairman, any of three other commissioners, the county administrator, or the EMA director), may declare an emergency and implement offsite protective actions. However, upon the declaration of an emergency situation or the decision to implement protective actions the emergency management agency director is authorized to represent the chairman, Burke County Board of Commissioners. 

A.3.1 Emergency Management Agency

: 1. Receive notification from VEGP and GEMA. 2. Maintain communications with VEGP on emergency situation status. 3. Provide information to other Burke County response elements, to the media, and to the public. 4. Activate the public notification system, if required. 6. Coordinate Burke County emergency response activities. 7. Activate and direct operations at the designated reception and care facility. 8. Implement protective action recommendations as requested by GEMA or the chairman of the Burke County Board of Commissioners or his predesignated designee.

A-9 REV 61 06/14 A.3.2 Sheriff's Department Principal activities include the following: 

: 1. Provide backup public notification. 2. Control access to the plume exposure pathway EPZ.

A.4 STATE OF SOUTH CAROLINA  The State of South Carolina has developed the South Carolina Radiological Emergency Response Plan (SCORERP) which provides guidance to state and local governments on procedures, organization, and responsibilities for preventing and mitigating the effects of a nuclear power plant incident or disaster. The SCORERP provides for the radiological emergency response in the event of a radiological accident at a fixed nuclear facility located in the state or in states contiguous to South Carolina. The SCORERP describes the South Carolina Radiological Emergency Response Organization, which consists of the Office of the Adjutant General (Emergency Management Division (EMD), the Department of Health and Environmental Control (Bureau of Solid and Hazardous Waste, Nuclear Emergency Planning (NEP) Section),

and those state resources available to local government(s) during a fixed nuclear facility radiological accident. State radiological emergency response forces will be operational upon notification of a radiological emergency. The response functions of involved agencies are described in the SCORERP A-10 REV 61  06/14 and the South Carolina Technical Radiological Emergency Response Plan (SCTRERP). A VEGP Site Specific Radiological Emergency Response Plan (Part 5 to SCORERP) addresses those matters that pertain directly to VEGP.

Upon being advised by EMD that a radiological emergency exists, the Governor or his designated representative declares an emergency condition. Under the Governor's direction, the total and combined efforts of the state and local governments will be utilized to nullify or reduce the effects of offsite radiological hazards resulting from a nuclear plant accident. As deemed necessary, the Governor may transfer the direction, personnel, or functions of state agencies. All radiological emergency response organizations are prepared to react on a 24-h basis, and they are capable of continuous operations for a protracted period. Directors of state agencies, departments, and commissions are responsible for ensuring that their agencies' radiological emergency response responsibilities are accomplished.

: 1. South Carolina Constitution, Article IV, Annex 17, Appendix A 2. South Carolina Code of Laws ANN, 25-1-420 through 25-1-460 3. Regulation 58-1, Local Government Preparedness Standards; and Regulation 58-101, State Emergency Preparedness Standards, South Carolina Code of Regulations. 4. The South Carolina Emergency Operations Plan (SCEOP). 5. The South Carolina Operational Radiological Emergency Response Plan (SCORERP). 6. The South Carolina Technical Radiological Emergency Response Plan (SCTRERP).

A-11 REV 35    6/02 The duties and responsibilities of the principal and support agencies of the State of South Carolina are summarized below.

The following state agencies are assigned primary responsibilities for overall state radiological emergency management and response operations. 1. Office of the Governor a. Upon being advised that a radiological emergency exists, the Governor declares an emergency condition which results in the activation of EMD, DHEC, and other state agencies to deal with the situation, in accordance with their emergency response plans. b. The Governor's press secretary or authorized representative will direct and control public information service activities and serve as the Governor's official representative/spokesperson regarding the preparation and release of emergency information by state government. 2. Office of the Adjutant General  Emergency Management Division a. The EMD is assigned the responsibility for coordinating the emergency planning efforts of all state, county, and municipal agencies in developing a State emergency plan; conducting a preparedness program to assure capability of the government to execute the plan; establishing and maintaining a State EOC and providing support of the State emergency staff and work force; and establishing an effective system for reporting, analyzing, and disseminating emergency information. b. The director of EMD is the principal advisor to the Governor for emergency response. He coordinates with DHEC the recommended protective measures based on DHEC evaluation and assessment of the radiological emergency at VEGP.

A-12 REV 35    6/02 3. Department of Health and Environmental Control a. The Department of Health and Environmental Control (DHEC) maintains a radiological hazard assessment capability and provides technical support, coordination, and guidance for the State and local governments. It will conduct and/or coordinate radiological surveillance and monitoring in coordination with DOE-SRS and VEGP.

DHEC will obtain and coordinate radiological assistance resources from the Federal Government, other states, and the nuclear industry as required. b. The Bureau of Solid and Hazardous Waste, Nuclear Emergency Planning (NEP) Section within DHEC has the direct responsibility to provide technical assistance and resources necessary to evaluate and assess the consequences of a radiological incident and to provide protective action guidance to State and local authorities. NEP is responsible for radiological surveying and monitoring of the environment, including the collection and analyses of samples of soil, air, water, milk, and crops. c. The Manager, Nuclear Emergency Planning Section is the individual responsible for implementing the SCTRERP; providing EMD with recommended protective actions as well as recovery and reentry guidelines. NEP has 24-h accident response capability with EMD. A.4.2 State Support Agencies in South Carolina

A-14 REV 23    04/96 b. Coordinate all emergency welfare services to evacuees such as feeding, clothing, and information. c. Administer and maintain individual and family assistance program. d. Augment public information service to evacuees. 6. Clemson University Cooperative Extension Service a. Maintain updated agricultural data required for radiological assessment in support of DHEC. b. Assist in locating contaminated livestock, feed, milk, and other farm products for disposal or decontamination by DHEC. 7. Department of Agriculture a. Restrict the sale, production, distribution, and warehousing of livestock, produce, dairy and processed food products contaminated beyond safe consumption. b. Assist DHEC in disposal of contaminated products. d. Coordinate these activities with the United States Department of Agriculture (USDA). A.5 AIKEN, BARNWELL, AND ALLENDALE COUNTIES, SOUTH CAROLINA Most of the plume exposure pathway EPZ within South Carolina falls within the site boundary of the Savannah River Site (SRS). The United States Department of Energy is responsible for the direction and control of all emergency response actions on the SRS.

There are limited portions of Aiken, Barnwell, and Allendale counties which are outside of the SRS but within the plume exposure pathway EPZ of VEGP. These counties are similarly organized, with the responsibility for overall radiological emergency response planning resting with the chairman of the county council in each case. It is the chairman's responsibility to initiate actions and provide direction and control at a level consistent with the specific incident.

A-15 REV 35    6/02 Agencies within these counties which have a primary role in radiological emergency planning and response include the Emergency (Disaster) Preparedness Agency (EPA) and the Sheriff's Department. A detailed discussion of the county response is contained in Annex Q2 to each county's emergency operations plan.  

The chairman of the county council, or his predesignated alternate (the vice chairman, county administrator, or EPA director) may declare an emergency within his respective county and implement offsite protective actions. The chairman or his designee is available 24 h per day.

The locations of the county EOCs are indicated in Table C-2.

: f. Activate and direct operations at the designated reception facility. g. Implement protective actions as requested by South Carolina EMD or the chairman, county council, or his predesignated designee. A.5.2 Sheriff's Department  a. In Barnwell and Aiken Counties, receive notification from VEGP and South Carolina EMD, as primary warning points. This function is performed by the Allendale County Central Dispatch. b. Provide backup public notification. c. Provide traffic control and law enforcement in the event of an evacuation.

A-16 REV 61  06/14 d. Coordinate access to the plume exposure pathway EPZ. e. Provide security at EOC. Other county resources, including Fire Department, Public Works Department, Emergency Medical Services, and Department of Social Services, may be mobilized as described in the county emergency operations plan.

The United States Department of Energy - Savannah River Operations consists of lands owned or leased by the Federal government. As such, DOE-SR is responsible for the direction and control of all emergency response actions on the SRS.

See memorandum of agreement between DOE - Savannah River Operations Office and Georgia Power Company, as assigned to SNC, (appendix 5).

A.7 MEDICAL SUPPORT VEGP has established agreements with the Burke County EMA to provide ambulance service for the transportation of injured personnel, including people who may be radioactively contaminated, to hospital facilities for treatment.

Agreements with Burke Medical Center in Waynesboro, Georgia, and Doctors Hospital in Augusta, Georgia, have also been established for treatment of injured and contaminated individuals. Support provided includes, but is not limited to, Emergency medical services, ambulances, and emergency medical technicians. Request for medical support will be made by the control room or site security to the Burke County EMAs of the Incident Command Post, as applicable, based on the nature and timing of the event. Copies of these agreements are maintained in the SNC document management system and are included in Appendix 2. For radiological medical emergency training, agreements have been established with Tetra Tech.

A.8 PRIVATE SECTOR ORGANIZATIONS 1. BECHTEL POWER CORPORATION  GPC/SNC has established an agreement with Bechtel Power Corporation to obtain engineering and construction services which may be required following an accident. Bechtel's assistance will not be required during the early stages of the emergency response but is more likely to be requested during recovery activities.

A-17 REV 56    09/10 2. WESTINGHOUSE  SNC has established an agreement with Westinghouse to obtain general services related to nuclear steam supply system (NSSS) operations during and following an accident situation. Westinghouse provides a capability to respond on a 24-hour-a-day basis. 3. VOLUNTARY ASSISTANCE GROUP  SNC is a signatory to two comprehensive agreements among electric utility companies:  the Nuclear Power Plant Emergency Response Voluntary Assistance Agreement and the Voluntary Assistance Agreement By and Among Electric Utilities Involved in Transportation of Nuclear Materials. Copies of these agreements are included in the INPO Emergency Resources Manual. A.9 FEDERAL GOVERNMENT SUPPORT The resources of the Federal agencies appropriate to the emergency condition would be made available in accordance with the National Response Plan. The emergency director is specifically authorized to request Federal assistance on behalf of VEGP under the provisions of the National Response Plan. In addition to the NRC, other agencies which may become involved are the DOE, the Federal Emergency Management Agency, the Environmental Protection Agency, the Department of Health and Human Services, the Department of Transportation, and the Department of Agriculture.

A-18 REV 23    4/96 A.10.1 Continuous Communication Capability The emergency director will initiate the activation of the emergency response organization by contacting the states of Georgia and South Carolina, counties within the plume exposure pathway EPZ, the SRS, and the NRC. All these organizations can be contacted 24 h a day. The state and local agencies have continuously manned communication links for the purpose of receiving notification of a radiological emergency. The SRS is a continuously operating facility and can be contacted at all times. The Federal agencies which may be requested by VEGP to provide assistance can be notified by contacting the NRC on a dedicated communication link, the Emergency Notification System (ENS) line. 

The State of Georgia and Burke County response is conducted in accordance with the following framework as presented in the Georgia Radiological Emergency Response Plan:

: 1. DNR is the lead State Agency for responding to peacetime radiation emergencies. The DNR radiation emergency coordinator (REC) is responsible for directing DNR's response. The response required may be of varying magnitudes depending upon the nature of the emergency. 2. In the case of occurrences of limited severity and complexity, direction and control of response and recovery operations will be assumed by the DNR REC; GEMA will be kept informed of conditions in order to facilitate GEMA response and EOP activation as deemed necessary. 3. When necessitated by the magnitude and severity of an occurrence, GEMA will activate the EOP and coordinate overall response and recovery operations, with the DNR REC coordinating radiation protection activities through the State disaster coordinator (GEMA). 4. The State is notified of an emergency at VEGP by the VEGP emergency director who has a plant communicator call the GEMA EOC communications center on the emergency notification network telephone. The GEMA EOC 24-h duty officer notifies the GEMA director and the DNR radiation emergency coordinator. Each of these individuals can cause the declaration of an emergency and activation of the EOC. The GEMA director has authority to activate directly; the REC may recommend activation to the A-19 REV 35    6/02  Governor or the GEMA director who makes the emergency declaration. In either case, the DNR radiation emergency coordinator is responsible for the technical direction of the offsite radiological response. If the EOC has been activated, he reports to the State disaster coordinator (GEMA). Recommendations and decisions to declare a state of emergency are based upon DNR's ability to effectively protect the public with little assistance, or, in contrast, the need for a coordinated, multiagency effort. 5. As the designated agency to administer NRC Agreement State Programs, DNR will be the principal radiation emergency response support agency due to the probable requirements for special techniques, equipment, and expert personnel. 6. To the extent available, local resources, personnel authority, and emergency plans will be employed in response to radiation emergencies. 7. When requested to assist in response and recovery efforts to radiation emergencies, personnel from local and other State agencies will normally be expected to perform functions and activities in which they have expertise but may perform limited radiation safety functions under the guidance of the DNR REC. The organizational structures for State and county operations are illustrated on figures A-2 and A-3, respectively. The Georgia Radiological Emergency Response Plan and Annex D to the Plan provide the bases for 24-h-per-day radiological emergency response capability for extended periods. 

A.10.3 State of South Carolina and County Operations

: 1. The Emergency Management Division (EMD) is responsible for establishing and directing the State EOC; coordinating offsite support from state, federal, and other support agencies; determining and directing protective actions, and providing for a 24-h notification capability.

A-20 REV 38    05/05 2. The Department of Health and Environmental Control (DHEC) is responsible for providing 24-h accident response capability, providing radiological technical support, conducting or coordinating offsite monitoring, and making recommendations to EMD for protective action. 3. The state and counties are notified of an emergency at VEGP by the VEGP emergency director who has a plant communicator call the South Carolina warning point and the county warning points (sheriff or central dispatchers) on the emergency notification network. The South Carolina warning point notifies EMD and DHEC 24-h duty officers by telephone or beeper. The EMD then contacts the counties to ensure warning messages have been received and contacts the governor's office for direction, control, and guidance. As necessary EMD alerts state response forces, activates the state EOC and dispatches representatives to the SNC EOF and ENC. DHEC verifies with VEGP the information received from the South Carolina warning point; confirms the information with EMD; and after an assessment of the emergency situation, recommends protective measures for the state of South Carolina and affected county/counties, through the EMD. The Governor or his designated representative (the Governor's executive assistant, the director of the Governor's Emergency Management Office, or the emergency management coordinator) can declare an emergency and order protective actions. 4. The SEOC will coordinate the offsite emergency response activities of State agencies, local governments, Federal agencies, and the State of Georgia. The director of EMD will be in charge of SEOC. 5. If the immediacy of the emergency is such that the SEOC is not yet operational, and there is insufficient time for DHEC to confirm the VEGP's assessment, local government will initiate those protective actions recommended by VEGP. 6. To the extent available, local resources will be employed in response to emergencies at VEGP. The State arranges for emergency response capabilities that are not available at the local government level. 7. The State and county governments will activate their radiological emergency response plans as warranted by the emergency action levels.

A.10.4 Savannah River Site

The DOE-SR will provide the necessary response within the SRS reservation in accordance with the SRS Emergency Plan. The DOE will exercise overall responsibility, jurisdiction, and authority for conducting on-plant response operations to protect the health and safety of SRS personnel. DOE will provide for emergency notification and, as needed, evacuation, monitoring, decontamination, and immediate life saving medical treatment of non SRS personnel on plant. DOE will also provide access control for SRS areas.  

DOE will provide initial radiological monitoring and assessment support to the State of South Carolina under the DOE Radiological Assistance Program (RAP). This includes projected release dispersion information and offsite radiological monitoring and assessment assistance. SRS will also coordinate public affairs activities with the State of South Carolina, SNC and GPC.

B.1 NORMAL PLANT ORGANIZATION The organizational structure shown on figure B-1 represents the pool of personnel available on site during normal working hours. Approximately 700 people are stationed at the site during the standard workday.

The normal operating crew for two units includes a shift supervisor, licensed plant operators, and non-licensed plant operators. A shift manager is also on shift during operation (as defined in the Technical Specifications). Personnel from the Chemistry and Health Physics, Maintenance, and Security Departments are also on site continuously. Refer to table B-1 of this section for minimum staffing requirements.

If the event is classified as an Alert, the technical support center (TSC), operations support center (OSC), and Emergency Operations Facility (EOF) will be activated.

For a Site Area Emergency or General Emergency, the emergency organization and EOF will be fully activated. The organization will be as shown in figure B-3.

During hostile action, ERO members would likely not have access to the onsite emergency response facilities. A security related emergency may delay the ordering of facility activation in order to protect plant personnel from the security threat. The decision to delay activation of the facilities will be made by the Emergency Director. In such cases offsite ERO personnel will be directed to an alternative facility to minimize delays in overall site response by permitting ERO assembly without exposing responders to the danger of hostile action. 

Relationships among the VEGP emergency organization and other elements of emergency response are shown on figure A-1.  

B.2.1 Emergency Organization Responsibilities Following an Alert or higher emergency declaration, the positions shown on figures B-2 and B-3 will be filled by VEGP or SNC personnel as discussed below. 1. EMERGENCY DIRECTOR  Plant personnel that may be designated as emergency directors are listed in table B-2 of this plan. They will receive training as specified in table 0-2 of this plan prior to becoming qualified to fill this position. Their nonemergency positions provide them plant knowledge and supervisory skills necessary to fill the emergency director position. The emergency director has the authority, management ability, and knowledge to assume the overall responsibility for directing VEGP staff in an emergency situation. Initially this position will be filled by the shift manager or the shift supervisor if the shift manager can not be located expeditiously. The responsibility for emergency direction will be transferred to qualified senior management personnel designated in procedure 91101-C after receiving an appropriate B-3 REV 57  06/12 briefing and becoming familiar with the current status of events. Turnover with the accompanying briefing will include, but is not limited to, the following: 1. Review of logs and status boards. 2. Discussion with the incumbent including emergency classification, summary of events, offsite notifications, plant status, equipment status, outstanding orders, any noted deficiencies and completed checklist items. 3. Discussion with staff, as needed. Following relief, announcement will be made to staff of the transfer of responsibility.  (See Procedure 91102-C for specifics.)  The primary and alternates for the position of emergency director are shown on table B-2. The emergency director manages the following activities for the duration of the emergency:

* Notification and communication: directs the notification of VEGP, SNC and GPC personnel and notifies and maintains open communications with offsite authorities regarding all aspects of emergency response.

* Emergency operations:  has authority over those actions taken to mitigate the emergency condition or reduce the threat to the safety of plant personnel or the public, including the recommendation of protective actions to offsite authorities.

* Emergency services:  provides overall direction for management of procurement of site needed materials, equipment, and supplies; documentation; accountability; and security functions.

* Emergency operations planning:  provides overall direction for the management of planning for procedure, equipment, and system development to support emergency operations.

* Discretionary authority:  can modify emergency implementing procedures; may tailor the emergency organization to fit the specific staffing needs on a case by case basis. The emergency director may not delegate the following responsibilities:

* Authorization for plant personnel to exceed 10 CFR 20 radiation exposure limits.

* Direction of onsite emergency personnel involved in restoration of the plant to a safe condition.

firefighting, search and rescue, first aid, repair, etc.) to prescribed areas of the plant or site. The OSC manager directs composition of the teams to ensure that appropriately qualified personnel are assigned. In particular, he will ensure that proper health physics coverage is provided. The OSC manager will provide specific instructions to the team leaders. He will also maintain communications with the teams that remain assigned to the OSC and monitor the status of their activities. b. OSC Personnel  Selected emergency response personnel will report to the OSC as directed. Depending on the nature of the emergency, personnel from the Maintenance, Operations, Chemistry and Health Physics Departments will be directed to report to the OSC. The following emergency teams will be formed as necessary:

B-9 REV 56  09/10 B.2.2 Emergency Organization Assignments Table B-2 identifies by title the individuals who will fill the key emergency positions. 

A sufficient number of people are identified to ensure that all emergency positions on table B-2 will be filled. 

: 1. CONTRACTOR SUPPORT  Arrangements have been made to obtain support services from Bechtel Power Corporation and Westinghouse, if required. These organizations will initially be contacted by the EOF support coordinator to arrange for the required assistance. 2. MEDICAL ASSISTANCE  Agreements are in place with Tetra Tech, Burke Medical Center, Doctors Hospital, and Burke County Emergency Management Agency to provide assistance and training for injured personnel, including cases involving radioactive contamination. This assistance will be requested whenever necessary in accordance with plant procedures.

B-10 REV 19    1/94 3. AGENCY SUPPORT  Assistance may be requested from Burke County, the State of Georgia, or Federal agencies. Section A of this Plan describes the assistance that may be requested. Any requests for aid will be made by the emergency director. B.2.4 Interfaces Among Response Groups

Section A, figure A-1, illustrates the integrated organization for response to an emergency at VEGP. 

- Emergency direction and control (emergency director) Overall management of emergency organization Shift supervisor; shift manager  1(b) - Notification/communication Notification of VEGP, State, local, and Federal personnel Shift trained personnel 2(b) 2 Radiological accident assessment and support of operational accident assessment EOF direction Offsite dose assessment Corporate Management; HP/Chemistry Shared foreman -

REV 60  07/13 TABLE B-1 (SHEET 2 OF 2)  MINIMUM STAFFING FOR POWER OPERATION  Major Functional Area  Major Tasks  Position Title or Expertise  On Shift  Augmentation in 60 min Firefighting  Fire brigade per FSAR Local support Rescue operations and first aid  2(b) Local support Site access control and personnel accountability Security, firefighting communications, personnel accountability Security personnel Per Security Plan        Totals 24(d)    14 

: c. Required unless shift manager or the individual with a senior operator license meets the qualification for the STA as required by the NRC. d. Does not include positions footnoted with a (b) or (c). e. Four of the seven system operators may be assigned to the Fire Brigade. f. One SO may be assigned to FMT.

REV 60  07/13 TABLE B-2 (SHEET 1 OF 2)  EMERGENCY ORGANIZATION ASSIGNMENTS Emergency Position Designees Emergency Director Operations Director; Maintenance Manager; Work Management Director; Engineering Director; Manager of Site Projects; Engineering Programs Manager or other qualified senior management personnel. EOF Staff Corporate Staff as defined in Appendix 7 TSC Manager Supervision from onsite staff as designated in procedure 91101-C  TSC Support Coordinator Onsite staff as designated in procedure 91101-C TSC Engineering Supervisor Supervision from onsite staff as designated in procedure 91101-C TSC Maintenance Supervisor Supervision from onsite staff as designated in procedure 91101-C TSC Operations Supervisor Supervision from onsite staff as designated in procedure 91101-C TSC Health Physics Supervisor Supervision from onsite staff as designated in procedure 91101-C TSC Chemistry Supervisor Supervision from onsite staff as designated in procedure 91101-C Engineers Plant engineers TSC Security Supervisor Supervision from onsite staff as designated in procedure 91101-C REV 43    05/06 TABLE B-2 (SHEET 2 OF 2)  Emergency Position Designees OSC manager Supervision from on-site staff as designated in procedure 91101-C Dosimetry team Qualified health physics personnel  Communicators (Offsite for Control Room, TSC and EOF) Plant engineers; nuclear specialist; administrative assistants; operations personnel, corporate staff Clerks Administrative assistants In-plant radiation monitoring team Selected emergency response personnel Post accident sampling team Selected emergency response personnel Damage control/assessment/

EMERGENCYDIRECTOREOF STAFFAS DESCRIBED INAPPENDIX 7 OF THIS PLANTSCMANAGERSHIFTMANAGER(CONTROL ROOM)SHIFTSUPERVISOROSCSYSTEMOPERATORSPLANTOPERATORSTSC SUPPORT COORDINATORTSC SECURITY SUPERVISORTSC HEALTH PHYSICS SUPERVISORTSC CHEMISTRY SUPERVISOR TSC MAINTENANCE SUPERVISOR TSC OPERATIONS SUPERVISOR TSC ENGINEERING SUPERVISORVogtle Electric Generating PlantFIGURE B-2RESPONSE ORGANIZATION FOR ALERTREV 43  05/06TSC ENGINEERS FEDERAL, STATEAND OTHER OFFSITEAGENCIESCOORDINATIONAUTHORITYEMERGENCYDIRECTORTSCMANAGEREOFMANAGEROSCMANAGERSHIFTMANAGERSHIFTSUPERVISORPLANTOPERATORSDAMAGE CONTROL/ASSESSMENT/REPAIR TEAMSEARCH AND RESCUE TEAMBACKUP FIRE BRIGADEFIRST AIDHEALTH PHYSICS SUPERVISOR--IN-PLANT MONITORING TEAMOPERATIONS SUPERVISORCHEMISTRY SUPERVISORMAINTENANCE SUPERVISORENGINEERING SUPERVISORTSC SECURITY SUPERVISORTSC SUPPORT COORDINATORREV 43  05/06SITE AREA OR GENERALEMEGENCY RESPONSE ORGANIZATIONFIGURE B-3SYSTEMOPERATORSVogtle Electric Generating PlantEOF STAFF AS DESCRIBED IN APPENDIX 7 OF THIS PLAN C-1 REV 61  06/14 C. EMERGENCY RESPONSE SUPPORT AND RESOURCES  C.1 STATE AND LOCAL GOVERNMENTAL SUPPORT The State of Georgia through the Georgia Emergency Management Agency (GEMA) has the lead agency responsibility for responding to emergency situations throughout Georgia. Under the procedure established by the Georgia Emergency Operations Plan (EOP), which was developed pursuant to the Governor's Executive Order, the Department of Natural Resources (DNR) radiological emergency response team in coordination with GEMA assesses the radiological conditions at the site of an incident and determines whether a state of emergency should be declared. The Governor of the State of Georgia or GEMA can declare an emergency based upon the assessment made by GEMA and/or DNR.

The South Carolina agencies responsible for responding to a radiological emergency are the Office of the Adjutant General, Emergency Management Division (EMD) and the Department of Health and Environmental Control (DHEC). The Nuclear Emergency Planning Section within DHEC is given the primary role in responding to the technical aspects of a nuclear accident: assessment of the radiological consequences and provision of protective action guidelines to state and local authorities, through the EMD. The EMD is assigned primary responsibility for the planning effort and for coordinating the state response operations. Jointly with DHEC, EMD determines whether a state of emergency should be declared. Upon EMD's advising the Governor of South Carolina that a radiological emergency exists, the Governor declares an emergency.

The concept of the operations for which the State and local governments are responsible, together with a discussion of responsibilities assigned to various state/county governmental agencies are contained in the respective Radiological Emergency Response Plan. For a complete discussion of authority, assigned responsibilities, C-2 REV 61  06/14 capabilities, and activation and communication arrangements, refer to these plans.

Representatives from the states of Georgia and South Carolina will be dispatched to the emergency operations facility (EOF) and the Joint Information Center (JIC). As requested, Vogtle Electric Generating Plant (VEGP) will send representatives to the offsite government centers. Table C-2 lists the state and county EOCs with their addresses.

C.2 FEDERAL GOVERNMENTAL SUPPORT In addition to coordination with State/county governmental entities in an emergency situation, VEGP may require assistance from certain Federal agencies in the areas of communications, radiological monitoring and laboratory analysis, transportation, and disaster relief. Requests for Federal assistance are directed as needed by the emergency director, and usually these requests are channeled through GEMA. The exceptions to this procedure are direct contacts between the VEGP Emergency Organization, the Nuclear Regulatory Commission (NRC), and Department of Energy, Savannah River (DOE-SR). 

In the event of an incident in which Federal assistance is needed to supplement county and State emergency response capabilities, principal points of contact for State government are as follows:

FEMA is assigned lead responsibility for Federal offsite nuclear emergency planning and response (per Title 44 CFR 351). FEMA is also delegated responsibility for development and promulgation of the Federal Radiological Emergency Response Plan (FRERP). The FRERP assumes that states will be responsible for overall management of offsite emergency response. The Federal government's role consists of providing technical and/or logistical resource support at the request of State emergency management.  

Federal emergency response consists of technical and nontechnical components. The NRC and FEMA jointly coordinate federal emergency response actions. The NRC coordinates technical aspects, and FEMA coordinates nontechnical aspects of Federal response.

C-3    REV 61  06/14 The NRC and FEMA have stated that they each expect to have representatives at the Vogtle Electric Generating Plant (VEGP) within about 3 h after receiving notification. DOE can give assistance within about 2 h.

GEMA has the overall responsibility for making arrangements to support the Federal offsite response. County emergency management directors in whose area Federal government response personnel are to be housed or whose county is otherwise affected by the Federal response will cooperate with the Federal government and GEMA in planning for and making the necessary support arrangements.  

Suitable quarters for lodging Federal government personnel include commercially available hotel/motel accommodations, dormitory, military billets, or similar accommodations. Such facilities exist in the greater Augusta area. Twenty-four hour food service is also available in the area. Commercial auto rentals are available at Bush Field and in the Augusta area. 

Within several hours of notification, Federal response personnel will begin arriving at or near VEGP. A Federal Response Center (FRC) will be established for the coordination and exchange of information among various Federal agencies during an emergency at VEGP. The Federal Radiological Monitoring and Assessment Center (FRMAC) will be established for the coordination of Federal monitoring and assessment assistance with State and local governments. Upon activation of the Federal Radiological Emergency Response Plan (per 44 CFR 351), DOE is tasked with providing telecommunications support to Federal agencies assisting in offsite radiological monitoring. The DOE has a communications pod which has telephone, VHF radio, microwave, and video receiving and transmission capability. Up to 20 telephone lines may be initially installed. The pod has radio-to-telephone patch capability and microwave capability for about 60 miles. The DOE has written agreements with all telephone companies to provide additional telephone communications, including satellite capability, within 24 to 48 hs. This capability will be used to supplement communications among the FRC, FRMAC, EOF, and States of Georgia EOC/FEOC and South Carolina EOC. Airfields in the plant vicinity that may be used to support the Federal response, as well as that of other response groups, include a commercial airport with scheduled service and nearby municipal airports that can accommodate small aircraft. Characteristics of four selected airports in the vicinity of VEGP are presented in Table C-1. Bush Field (Augusta, Georgia) is the closest major airport capable of providing services for large aircraft. The field is a scheduled commercial air carrier facility capable of handling large C-4 REV 61  06/14 multiengine jet aircraft. It is also a military air headquarters for the U.S. Army operating out of Ft. Gordon, Georgia. Daniel Field (Augusta, Georgia) and Aiken Municipal (Aiken, South Carolina) are air fields capable of servicing and maintaining medium-size jet and propeller aircraft. The Burke County Airport (Waynesboro, Georgia) is the nearest airport to the VEGP and is used only by small general aviation aircraft. C.3 VEGP SUPPORT VEGP provides space, telephone communications, and administrative services for NRC and FEMA personnel at the TSC and EOF. Up to five NRC representatives can be accommodated at the TSC. In the EOF, space is provided for nine NRC personnel and one FEMA representative. NRC representatives may also be present in the control room. Emergency notification system (ENS) telephones and commercial telephones are available in the control room, TSC, and EOF.

Health physics network (HPN) telephones are available in the TSC and the EOF. C.4 OTHER SUPPORT The onsite laboratory is equipped to analyze all normal in-plant samples. The equipment includes an ion chromatograph, gas chromatograph, gamma spectrometer, and other analytical support equipment.

These teams will take direct radiation readings and will collect air samples, soil samples, vegetation samples, and water samples as directed by the dose assessment manager.

The samples will be scanned with field instrumentation and will then be taken to VEGP for laboratory analyses. If necessary, samples will be transported to the Georgia Power Company (GPC) Environmental Laboratory located in Smyrna, Georgia, or to Plant Hatch for more refined analyses.

Environmental samples will be collected by corporate personnel. These samples will be obtained from the current fixed environmental program which is described in section I.

In-plant samples such as effluent and air samples will be analyzed using a gamma spectrometer located in the counting room. Post-accident sampling is described in section I of the plan.

C-5 REV 61 06/14

SNC serves as the primary engineering and design organization for the plant. The nuclear steam supply systems for the plant were purchased from Westinghouse. Westinghouse continues to provide operations support to the company in plant modifications, licensing, and engineering. 

As a member of INPO, SNC is provided with INPO's emergency response manual. This manual identifies the quantity of personnel that various organizations (utilities, service companies, and reactor vendors) could reasonably be expected to make available in response to a request for emergency support.

REV 2  11/85 TABLE C-1  AIRPORT CHARACTERISTICS (SHEET 1 OF 2)  Bush Field  Augusta, Georgia Daniel Field Augusta, Georgia Aiken Municipal Aiken, South Carolina Burke Co. Airport Waynesboro, Georgia Runway length and type (Runway 17-35) 8,001 ft x 150 ft; asphalt (Runway 05-23) 3,877 ft x 150 ft; asphalt (Runway 06-24) 5,000 ft x 100 ft; asphalt (Runway 07-25) 3,200 ft x 75 ft; asphalt  (Runway 08-26) 6,001 ft x 150 ft; asphalt (Runway 10-28) 3,773 ft x 150 ft; asphalt (Runway 18-36) 3,800 ft x 75 ft; asphalt  Runway bearing(a) Capacity (1000's lbs.) (Runway 17-35) 130(S) 166(D) 358(DT) Unknown (Runway 06-24) 22(s) 40(D) (Runway 07-25) 29(S)  Runway 08-26) 52(S) 71(D) 126(DT)  (Runway 18-36) 22(s)  Approach systems(b) ILS, VOR, NDB, (R) VOR, RNA NDB VFR Fuel Aviation gas, 100 LL Jet A Aviation gas, 100 LL Jet A1 Aviation gas, 100 LL Jet A Aviation gas, 100 LL Hours  Attended continuously Attended daylight hours Attended continuously Attended Monday-Saturday daylight hours; attended Sunday noon to dusk Runway lighting intensity High Medium Medium Low Maintenance and facilities Major airframe and major power plant repairs; hangars; electrical hookups; tiedowns. One hangar is leased by the U.S.

can be accommodated by this hangar. Major airframe and major power plant repairs; two hangars; electrical hook-ups; tiedowns. Each hangar can accommodate one or more large travel trailers (e.g., "Air Stream"). Major airframe and major power plant repairs; five hangars(small aircraft); electrical hook-ups; tiedowns; 1 telephone in office, 1 in a hangar (both extensions of the same line). No repairs No hangars No space left for tiedowns; electrical hook-ups; one telephone in office REV 28  3/99 TABLE C-1  AIRPORT CHARACTERISTICS (SHEET 2 OF 2)  Bush Field  Augusta, Georgia Daniel Field Augusta, Georgia Aiken Municipal Aiken, South Carolina Burke Co. Airport Waynesboro, Georgia Communications In the U.S. Army hangar; four phone lines (1 commercial, 1 autovon, 2 dedicated lines to Ft.

Gordon); two radios (VHF-all frequencies, FM with tactical military frequencies). Three telephones(1 in airport office, 1 in each of 2 hangars-all extensions of the same line). One telephone in office, 1 in a hangar, (both extensions of the same line). One telephone in office Accommodations One motel at airport; two restaurants, 24-h day in the area; rental cars available Motel 3 mi. from airport; one restaurant; taxi One restaurant 1/4 MI from airport; rental cars (must radio ahead) None at airport; no taxi; managers vehicle may be available; no rental cars; several motels in Waynesboro; no restaurant at airport Remarks Commercial scheduled service; Military Air Headquarters U.S. Army, Ft. Gordon  Possible runway extension of 700 ft; date unknown Possible runway extension of 1000 to 1,300 ft; possible construction at aircraft shelters (date unknown) Distance from Plant Vogtle (MI)      Air:  17 23 35 16 Road: 26 35 50 18 a. (S) Single-wheel type gear (DC-3). b. ILS Instrument landing system.  (D) Dual-wheel type gear (DC-6). VOR VHF navigation facility, omnidirectional.  (DT) Dual-tandem type gear (707). NDB Nondirectional beacon. RNA Random area navigation. VFR Visual flight rules.    (R) Radar. Source: Airport Facility Directory, U.S. Department of Commerce, September 26, 1985 and facility manager

REV 56    09/10 TABLE C-2  STATE AND COUNTY EMERGENCY OPERATION CENTERS (EOC)  Organization EOC Location Georgia State EOC(SEOC) 935 E. Confederate Ave. Atlanta, GA Georgia Forward EOC Burke County EMA Building 277 GA Hwy 24 and Perimeter Road  Waynesboro, GA Burke County EOC Burke County EMA Building 277 GA Hwy 24 and Perimeter Road Waynesboro, GA South Carolina SEOC 1100 Fish Hatchery Road West Columbia, SC 29172 Aiken County EOC 420 Hampton Ave, NE Aiken County Sheriff's Department Building Aiken, SC  29801  Allendale County EOC 292 Barnwell HWY Allendale, SC 29810 Barnwell County EOC Barnwell County Office 57 Wall Street Barnwell, SC D-1 REV 48  03/08 D. EMERGENCY CLASSIFICATION SYSTEM  D.1 SUMMARY OF EMERGENCY CLASSIFICATION LOGIC The classification system for the Emergency Plan for the Vogtle Electric Generating Plant (VEGP) is based on four emergency classes. The classes determine initial steps to be taken by VEGP on site and by corporate emergency response elements and the actions which are taken by the offsite support organizations. An emergency classification is indicative of the status of the plant.

Inputs to the emergency classification system include the status of various plant systems, radiation levels in and around plant areas, and the rate of release of radioactivity from the plant. 

Subsequent actions by these authorities are based on projected or potential radiation exposures to individuals in the population. The actions recommended by these authorities have been identified as part of their emergency planning efforts. The projected or potential exposures are based on predictions made by VEGP from parameters such as status of reactor core and core cooling systems, effluent release rates, effluent radioactivity levels, containment radiation levels, containment pressure, actual meteorological conditions, or measurements of offsite levels of radioactivity made by VEGP and/or State radiological response teams.

D.2 EMERGENCY CLASS DESCRIPTION AND RESPONSE EMERGENCY CLASS: One of a minimum set of names or titles, established by the Nuclear Regulatory Commission (NRC), for grouping off-normal nuclear power plant conditions according to (1) their relative radiological seriousness, and (2) the time-sensitive onsite and off-site radiological emergency preparedness actions necessary to respond to such conditions. The existing radiological emergency classes, in ascending order of seriousness, are called:

* Alert.

* General Emergency. The NUE and Alert classes give early notification of minor events that could lead to more serious consequences or that might indicate more serious conditions which have not yet fully developed. A Site Area Emergency reflects conditions where some significant releases are likely or are occurring but where core melt is not likely to occur. In this situation, onsite and offsite VEGP emergency personnel and monitoring teams are fully mobilized. A General Emergency involves actual or imminent substantial core degradation or melting with the potential for loss of containment. The immediate action for this class is to recommend evacuation.

Emergency class descriptions are provided below. Also included are the actions to be carried out by VEGP.

D-12 REV 48  03/08 For discrete (discontinuous) events, the approach will have to be somewhat different. Typically, in this category are internal and external hazards such as FIRE or earthquake. The purpose for including hazards in EALs is to assure that station personnel and offsite emergency response organizations are prepared to deal with consequential damage these hazards may cause. If, indeed, hazards have caused damage to safety functions or fission product barriers, this should be confirmed by symptoms or by observation of such failures. Therefore, it may be appropriate to enter an Alert status for events approaching or exceeding design basis limits such as Operating Basis Earthquake, design basis wind loads, FIRE within VITAL AREAs, etc. This would give the operating staff additional support and improved ability to determine the extent of plant damage. If damage to barriers or challenges to Critical Safety Functions (CSFs) have occurred or are identified, then the additional support can be used to escalate or terminate the Emergency Class based on what has been found. Of course, security events must reflect potential for increasing security threat levels. Plant emergency operating procedures (EOPs) are designed to maintain and/or restore a set of CSFs which are listed in the order of priority for restoration efforts during accident conditions. While the actual nomenclature of the CSFs may vary among plants, generally the PWR CSF set includes:  Subcriticality  Core cooling  Heat sink  Pressure-temperature-stress (RCS integrity)  Containment  RCS inventory  There are diverse and redundant plant systems to support each CSF. By monitoring the CSFs instead of the individual system component status, the impact of multiple events is inherently addressed, e.g., the number of operable components available to maintain the critical safety function. The EOPs contain detailed instructions regarding the monitoring of these functions and provides a scheme for classifying the significance of the challenge to the functions. In providing EALs based on these schemes, the emergency classification can flow from the EOP assessment rather than being based on a separate EAL assessment. This is desirable as it reduces ambiguity and reduces the time necessary to classify the event. As an example, consider that the Westinghouse Owner's Group (WOG) Emergency Response Guidelines (ERGs) classify D-13 REV 48  03/08 challenges as YELLOW, ORANGE, and RED paths. If the core exit thermocouples exceed 1200 degrees F or 711 degrees F with low reactor vessel water level, a RED path condition exists. The ERG considers a RED path as "... an extreme challenge to a plant function necessary for the protection of the public ..." This is almost identical to the present NRC NUREG-0654 description of a site area emergency "... actual or likely failures of plant functions needed for the protection of the public ..." It reasonably follows that if any CSF enters a RED path, a site area emergency exists. A general emergency could be considered to exist if core cooling CSF is in a RED path and the EOP function restoration procedures have not been successful in restoring core cooling. Although the majority of the EALs provide very specific thresholds, the Emergency Director must remain alert to events or conditions that lead to the conclusion that exceeding the EAL threshold is imminent. If, in the judgment of the Emergency Director, an imminent situation is at hand, the classification should be made as if the thresholds has been exceeded. While this is particularly prudent at the higher emergency classes (as the early classification may provide for more effective implementation of protective measures), it is nonetheless applicable to all emergency classes. Multiple Events and Emergency Class Upgrading  The SNC Classification procedures are written to classify events based on meeting the Initiating Condition (IC) and a Threshold Value (TV) for an EAL considering each Unit independently. Two IC Matrices are used, one for Hot ICs and one for Cold ICs. The temperature criteria of the Cold Shutdown Mode determines if the unit should use the Hot or Cold Matrix. The IC Matrices are human factored to read from top to bottom General Emergency to Notification of Unusual Event within a category or subcategory to eliminate the higher classifications before reaching a lower classification. This arrangement lessens the possibility of under-classifying a condition. During events, the ICs and TVs are monitored and if conditions meet another higher EAL, that higher emergency classification is declared and appropriate notifications made. Notifications are made on a site basis. If both units are in concurrent classifications, the highest classification would be used for the notification and the other unit classification noted on the notification form. There are six EALs which specifically state that if the condition cannot be mitigated and is imminent, the Emergency D-14 REV 57 06/12 Director should not wait for the time to elapse and should classify immediately (RG1, RS1, RA1, RU1, CA4, CU4). These six EALs are conditions which indicate a loss of control of radioactive materials, or could lead to a significant radioactive release or core damage situation and therefore, by making the anticipatory classification, onsite and offsite protective actions associated with the emergency classification level can then be initiated as quickly as possible.

At all times, when conditions present themselves that are not explicitly provided in the EAL scheme the Emergency Director has discretion to declare an event based on his knowledge of the emergency classes and judgment of the situation or condition. Specific EALs (HU5, HA6, HS3, HG2) are provided within the scheme to allow these discretionary classifications.

Classification Timeliness  The emergency declaration process starts with information being available to plant operators to recognize an off-normal plant condition via indications on plant instrumentation including alarms, or via reports from other plant personnel (e.g., reports of fire) or from persons outside of the plant (e.g., severe weather warnings). The plant operators assess the validity of these indications or reports by checking instruments, comparing indications on redundant instruments, or dispatching personnel to confirm reports. After validating the indication or report, the plant operators then compare the off-normal condition to the EAL thresholds in the emergency classification scheme. Not all off-normal conditions are immediately obvious, and not all indications are unambiguous. While some conditions can be classified upon recognition, others require further assessment. The capability to assess, classify, and declare an emergency condition within 15 minutes after the availability of indications to plant operators that an EAL has been exceeded has been established and is outlined in applicable procedures. Emergency conditions are classified promptly upon identification that an emergency action leve3l (EAL) threshold has been exceeded. The 15-minute period encompasses all assessment, classification, and declaration actions associated with making an emergency declaration form the first availability of a plant indication or receipt of a report of an off-normal condition by plant operators up to and including the declaration of the emergency. If classifications and declarations are performed away from the CR, all delays incurred in transferring information from the CR (where the alarms, indications, and reports are first received) to the D-15 REV 57  06/12 ERF (at which declarations are made) are included within the 15-minute criterion.

Termination criteria contained in the Emergency Plan Implementing Procedures shall be completed for an event to be terminated. At termination, on an event specific basis, the site can either enter normal operating conditions or enter a recovery condition with a recovery organization established for turnover from the ERO. 

The NEI 99-01 EAL development philosophy stated in Section 3.6 "-The approach taken in the development of these EALs is based on risk assessment to set the boundaries of the emergency classes and assure that all EALs that trigger that emergency class are in the same range of relative risk.

Using this philosophy, if an IC and TV are met, the threat associated with the emergency class is present and should therefore be classified. If a condition existed for a short period of time, but is no longer present, the associated threat is no longer applicable. Therefore, classification of these events is not appropriate in that the actions taken associated with the threat level are no longer needed. To that end, the condition should be reported using the guidance of NUREG 1022, Rev 1, Section 3.1.1 which states in part:

"Occasionally, a licensee may discover that an event or condition had existed which met the emergency plan criteria but that no emergency had been declared and the basis for the emergency class no longer exists at the time of this discovery. This may be due to a rapidly concluded event or an oversight in the emergency classification made during the event or it may be determined during a post-event review.

Frequently, in cases of this nature, which were discovered after the fact, licensees have declared the emergency class, immediately terminated the emergency class and then made the appropriate notifications. However, the staff does not consider actual declaration of the emergency class to be necessary in these circumstances; an ENS notification (or an ENS update if the event was previously reported but misclassified) within one hour of the discovery of the undeclared (or misclassified) event will provide an acceptable alternative. Notification of the State and local emergency response organizations should be made in D-16 REV 57 06/12 accordance with the arrangements made between the licensee and offsite organizations."

Many of the Threshold Values associated with EALs are based on a time period for their condition to be met. Generally these are 15 minutes, but 30 and 60 minutes are also used.

D.4 DEFINITIONS  D.4.1 HOSTILE ACTION An act toward a nuclear power plant (NPP) or its personnel that includes the use of violent force to destroy equipment, takes hostages, and /or intimidates the licensee to achieve an end. This includes attack by air, land, or water using guns, explosives, projectiles, vehicles, or other devices used to deliver destructive force. Other acts that satisfy the overall intent may be included. HOSTILE ACTION should not be construed to include acts of civil disobedience or felonious acts that are not part of a concerted attack on the NPP. Non-terrorism-based EALs should be used to address such activities, (e.g., violent acts between individuals in the owner controlled area.)

One or more individuals who are engaged in a determined assault, overtly or by stealth and deception, equipped with suitable weapons capable of killing, maiming, or causing destruction.   

D-17 REV 62  10/14 ABNORMAL RAD LEVELS/RADIOLOGICAL EFFLUENT RU1 Initiating Condition -- NOTIFICATION OF UNUSUAL EVENT  Any UNPLANNED Release of Gaseous or Liquid Radioactivity to the Environment that Exceeds Two Times the Radiological Effluent Technical Specifications for 60 Minutes or Longer.

Operating Mode Applicability: All  Threshold Values: (1 OR 2)  Note: The Emergency Director should not wait until 60 minutes has elapsed, but should declare the event as soon as it is determined that the release duration has or will likely exceed 60 minutes. 1. VALID reading on any of the following effluent monitor that exceeds two times the alarm setpoint established by a current radioactivity discharge permit for 60 minutes OR longer. Liquid Radwaste Effluent Line (RE-0018) SG Blowdown Effluent Line (RE-0021) Turbine Bldg Effluent Line (RE-0848) Gaseous Radwaste (ARE-0014) Turbine Bldg Vent, SJAE (RE-12839) Plant Vent (RE-12442C or RE-12444C)  2. Confirmed sample analyses for gaseous OR liquid releases indicates concentrations OR release rates, with a release duration of 60 minutes OR longer, in excess of two times Technical Specification 5.5.4, as confirmed by the ODCM. Basis:  UNPLANNED, as used in this context, includes any release for which a radioactivity discharge permit was not prepared, or a release that exceeds the conditions (e.g., minimum dilution flow, maximum discharge flow, alarm setpoints, etc.) on the applicable permit. The Emergency Director should not wait until 60 minutes has elapsed, but should declare the event as soon as D-18 REV 57 06/12 it is determined that the release duration has or will likely exceed 60 minutes. Also, if an ongoing release is detected and the starting time for that release is unknown, the Emergency Director should, in the absence of data to the contrary, assume that the release has exceeded 60 minutes. 

Nuclear power plants incorporate features intended to control the release of radioactive effluents to the environment. Further, there are administrative controls established to prevent unintentional releases, or control and monitor intentional releases. These controls are located in the Offsite Dose Calculation Manual (ODCM). The occurrence of extended, uncontrolled radioactive releases to the environment is indicative of a degradation in these features and/or controls. 

Threshold Value #1 addresses radioactivity releases, that for whatever reason, cause effluent radiation monitor readings to exceed two times the Technical Specification limit and releases are not terminated within 60 minutes. This alarm setpoint may be associated with a planned batch release, or a continuous release path. In either case, the setpoint is established by the ODCM to warn of a release that is not in compliance with the TS 5.5.4. Indexing the Threshold Value to the ODCM setpoints in this manner ensures that the Threshold Value will never be less than the setpoint established by a specific discharge permit.

Threshold Value #2 is intended for effluent monitoring on non-routine release pathways for which a discharge permit would not normally be prepared. The ODCM establishes a methodology for determining effluent radiation monitor setpoints. The ODCM specifies default source terms and, for gaseous releases, prescribes the use of pre-determined annual average meteorology in the most limiting downwind sector for showing compliance with the regulatory commitments. These monitor reading Threshold Values are determined using this methodology.

Threshold Value #3 addresses uncontrolled releases that are detected by sample analyses, particularly on unmonitored pathways, e.g., spills of radioactive liquids into storm drains, heat exchanger leakage in river water systems, etc. 

Operating Mode Applicability: All  Threshold Values: (1 OR 2)  1. a. VALID indication of uncontrolled water level lowering in the reactor refueling cavity, as indicated by spent fuel pool, OR fuel transfer canal with all irradiated fuel assemblies remaining covered by water by any of the following:  Personnel report of low water level LSHL-0625 offscale low (ALB05 E02) Personnel report of cavitation OR low discharge pressure for SFP  (1/2-1213-P6-002 OR -005) AND/OR RHR (1/2-1205-P6-001 OR -002) Pumps  AND  b. UNPLANNED VALID Direct Area Radiation Monitor readings rise on any of the following:  RE-0008 in the fuel building RE-0002, -0003, -0004 in containment RE-0011 at the seal table RE-0005, -0006 in containment 

VALID:  an indication, report, or condition, is considered to be VALID when it is verified by (1) an instrument channel check, or (2) indications on related or redundant indicators, or (3) by direct observation by plant personnel, such that doubt related to the indicator's operability, the D-20 REV 57 06/12 condition's existence, or the report's accuracy is removed. Implicit in this definition is the need for timely assessment.

This IC addresses raised radiation levels as a result of water level lowering above the RPV flange or events that have resulted, or may result, in unexpected rises in radiation dose rates within plant buildings. These radiation rises represent a loss of control over radioactive material and may represent a potential degradation in the level of safety of the plant. 

In light of Reactor Cavity Seal failure incidents at two different PWRs and loss of water in the Spent Fuel Pit/Fuel Transfer Canal at a BWR, explicit coverage of these types of events via Threshold Value #1 is appropriate given their potential for raised doses to plant staff.

Classification as a NOUE is warranted as a precursor to a more serious event. Indications include instrumentation such as water level and local area radiation monitors, equipment parameters and personnel (e.g., refueling crew) reports. If available, video cameras may allow remote observation. Depending on available level instrumentation, the declaration threshold may need to be based on indications of water makeup rate or lowering in refueling water storage tank level.

Threshold Value 1a primary indicator is visual observation.

Threshold Value 1b limits: The dose above the fuel in the core or storage racks is 1.27 x 104 mR/hr with eight feet of water shielding and a reduction of 1.27 x 104 / 6.38 x 102  20 per two feet of water. . These monitors do not directly see the fuel, but see the dose reflected from the fuel building ceiling or containment dome. A conservative reduction on reflection is 1.14 x 10-2.

For the containment monitors, the distance from the approximate midline of the dome to the operating deck is 140 ft, so the just covered dose for RE-0005 and -0006 would be 1.8 x 106 R/hr x 0.0114 x  (13.7/2)2 ft2 / 1402 ft2  162 R/hr. To remain on-scale, RE-0002, -0003 (range of 5.4 x 103 mR/hr,) equivalent reading at the pool surface would be 5.4 x 103 x (1.8 x 106/162)  6.0 x 104 R/hr. This requires a dose reduction of 1.8 x 106 / 6.0 x 104  30 or 24 x (ln 30 / ln 20)  27" water cover, and RE-0004 (range of 1 x 104 mR/hr,) requires about 22" of water cover. 

In the fuel handling building, the rack dose will be reflected from the ceiling at elevation 261'-8" or about 40 ft from the floor yielding a just covered dose rate of 1.8 x 106 R/hr x 0.0114 x  (13.7/2)2 ft2 / (40)2 ft2  1.9 x 103 R /hr. This will require a dose reduction of 1.9 x 106/ 1 x 104  189 or 24 x (ln 189 / ln 20)  42" water cover to stay on scale.  

The dose at RE-0008 would be D-21 REV 57 06/12 1.45 x 2.5 mR/hr x 2010/2 x 0.0114 x  (6.5)2 ft2 / 402 ft2 = 1.1 x 104 mR/hr. To remain on-scale, RE-0008 requires 24 x ln (1.1 x 104 / 1.0 x 104) / ln 20  1" water. While other radiation monitors could detect a rise in dose rate due to a drop in the water level, it might not be a reliable indication of whether or not the fuel is covered. For example, the reading on an area radiation monitor located on the refueling bridge may raise due to planned evolutions such as head lift, or even a fuel assembly being raised in the manipulator mast.

Generally, raised radiation monitor indications will need to be combined with another indicator (or personnel report) of water loss. For refueling events where the water level drops below the RPV flange classification would be via CU2. This event escalates to an Alert per IC AA2 if irradiated fuel outside the reactor vessel is uncovered. For events involving irradiated fuel in the reactor vessel, escalation would be via the Fission Product Barrier Matrix for events in operating modes 1-4.  

Threshold Value #2 addresses UNPLANNED rises in in-plant radiation levels that represent a degradation in the control of radioactive material, and represent a potential degradation in the level of safety of the plant. This event escalates to an Alert per IC AA3 if the increase in dose rates impedes personnel access necessary for safe operation.  

D-22 REV 62  10/14 ABNORMAL RAD LEVELS/RADIOLOGICAL EFFLUENT RA1 Initiating Condition -- ALERT  Any UNPLANNED Release of Gaseous or Liquid Radioactivity to the Environment that Exceeds 200 Times the Radiological Effluent Technical Specifications for 15 Minutes or Longer.

Operating Mode Applicability: All  Threshold Values: (1 OR 2) Note: The Emergency Director should not wait until 15 minutes has elapsed, but should declare the event as soon as it is determined that the release duration has or will likely exceed 15 minutes. 1. VALID reading on any of the following effluent monitor that exceeds 200 times the alarm setpoint established by a current radioactivity discharge permit for 15 minutes OR longer. Monitor Liquid Radwaste Effluent Line (RE-0018) SG Blowdown Effluent Line (RE-0021) Turbine Bldg Effluent Line (RE-0848) Gaseous Radwaste (ARE-0014) Turbine Bldg Vent, SJAE (RE-12839)D-22 Plant Vent (RE-12444C or RE-12442C)  2. Confirmed sample analyses for gaseous or liquid releases indicates concentrations OR release rates in excess of 200 times Technical Specification 5.5.4 as confirmed by the ODCM , with a release duration of 15 minutes OR longer. Basis:

D-23 REV 62  10/14 UNPLANNED: a parameter change or an event that is not the result of an intended evolution and requires corrective or mitigative actions.

VALID:  an indication, report, or condition, is considered to be VALID when it is verified by (1) an instrument channel check, or (2) indications on related or redundant indicators, or (3) by direct observation by plant personnel, such that doubt related to the indicator's operability, the condition's existence, or the report's accuracy is removed. Implicit in this definition is the need for timely assessment.

Nuclear power plants incorporate features intended to control the release of radioactive effluents to the environment. Further, there are administrative controls established to prevent unintentional releases, or control and monitor intentional releases. These controls are located in the Offsite Dose Calculation Manual (ODCM). The occurrence of extended, uncontrolled radioactive releases to the environment is indicative of a degradation in these features and/or controls.

The Radiological Effluent Control Plan (RECP) multiples are specified in ICs RU1 and RA1 only to distinguish between non-emergency conditions, and from each other. While these multiples obviously correspond to an offsite dose or dose rate, the emphasis in classifying these events is the degradation in the level of safety of the plant, NOT the magnitude of the associated dose or dose rate. Releases should not be prorated or averaged. 

UNPLANNED, as used in this context, includes any release for which a radioactivity discharge permit was not prepared, or a release that exceeds the conditions (e.g., minimum dilution flow, maximum discharge flow, alarm setpoints, etc.) on the applicable permit. The Emergency Director should not wait until 15 minutes has elapsed, but should declare the event as soon as it is determined that the release duration has or will likely exceed 15 minutes. Also, if an ongoing release is detected and the starting time for that release is unknown, the Emergency Director should, in the absence of data to the contrary, assume that the release has exceeded 15 minutes.

Threshold Value #1 addresses radioactivity releases that for whatever reason cause effluent radiation monitor readings that exceed two hundred times the alarm setpoint established by the radioactivity discharge permit. This alarm setpoint may be associated with a planned batch release, or a continuous release path. In either case, the setpoint is established by the ODCM to warn of a release that is not in compliance with the RECP. Indexing the Threshold Value threshold to the ODCM setpoints in this manner ensures that the Threshold Value threshold will never be less than the setpoint established by a specific discharge permit. Setpoints are 100 times those of RU1 or the maximum range of the monitor. 

D-24 REV 62  10/14  Threshold Value #2 addresses uncontrolled releases that are detected by sample analyses, particularly on unmonitored pathways, e.g., spills of radioactive liquids into storm drains, heat exchanger leakage in river water systems, etc. 

Threshold Value #1 directly correlates with the IC since annual average meteorology is required to be used in showing compliance with the RECP and is used in calculating the alarm setpoints.

Thus, there will likely be a numerical inconsistency. However, the fundamental basis of this IC is NOT a dose or dose rate, but rather the degradation in the level of safety of the plant implied by the uncontrolled release.

D-25 REV 62  10/14 ABNORMAL RAD LEVELS/RADIOLOGICAL EFFLUENT RA2 Initiating Condition -- ALERT  Damage to Irradiated Fuel OR Loss of Water Level that Has or Will Result in the Uncovering of Irradiated Fuel Outside the Reactor Vessel. Operating Mode Applicability: All  Threshold Values: (1 OR 2)  1. UNPLANNED VALID alert alarm on any of the following radiation monitors:

Fuel Handling Building RE-008 CNMT BLDG Low Range** RE-002/003 **Mode 6 only during fuel transfer Fuel Handling BLDG EFFL. ARE-2532 A/B Fuel Handling BLDG EFFL. ARE-2533 A/B  2. Loss of water level that has or will result in the uncovering of irradiated fuel outside the Reactor Vessel as indicated by ANY of the following:  Personnel report during fuel assembly movements. Spent Fuel Pool Storage Less than El 193'-5" Transfer Canal Transit Elevation Less than El 187'-2" Reactor Core Elevation Less than El 181'-10" (63% on Full Range RVLIS) Basis: UNPLANNED:  a parameter change or an event that is not the result of an intended evolution and requires corrective or mitigative actions.

VALID:  an indication, report, or condition, is considered to be VALID when it is verified by (1) an instrument channel check, or (2) indications on related or redundant indicators, or (3) by direct observation by plant personnel, such that doubt related to the indicator's operability, the condition's existence, or the report's accuracy is removed. Implicit in this definition is the need for timely assessment.

This IC addresses specific events that have resulted, or may result, in unexpected rises in radiation dose rates within plant buildings, and may be a precursor to a radioactivity release to the environment. These events represent a loss of control over radioactive material and represent a degradation in the level of safety of the plant. These events escalate from IC RU2 in that fuel activity has been released, or is anticipated due to fuel heatup. This IC applies to D-26 REV 57  06/12 spent fuel requiring water coverage and is not intended to address spent fuel which is licensed for dry storage.

Threshold Value #1 addresses radiation monitor indications of fuel uncovery and/or fuel damage. Raised readings on ventilation monitors may be indication of a radioactivity release from the fuel, confirming that damage has occurred. Raised background at the monitor due to water level lowering may mask raised ventilation exhaust airborne activity and needs to be considered. While a radiation monitor could detect a rise in dose rate due to a drop in the water level, it might not be a reliable indication of whether or not the fuel is covered. For example, the monitor could in fact be properly responding to a known event involving transfer or relocation of a source, stored in or near the fuel pool or responding to a planned evolution such as removal of the reactor head. Application of these Initiating Conditions requires understanding of the actual radiological conditions present in the vicinity of the monitor. Information Notice No. 90-08, "KR-85 Hazards from Decayed Fuel" should be considered in establishing radiation monitor Threshold Values. 

In Threshold Value #2, indications include water level and personnel reports. Visual observation will be the primary indicator for spent fuel pool and fuel movement activities. Personnel report of personnel during fuel assembly movements is included to ensure that reports of actual or potential fuel uncovery is classified. If available, video cameras may allow remote observation.

This IC addresses raised radiation levels that impede necessary access to operating stations, or other areas containing equipment that must be operated manually or that requires local monitoring, in order to maintain safe operation or perform a safe shutdown. It is this impaired ability to operate the plant that results in the actual or potential substantial degradation of the level of safety of the plant. The cause and/or magnitude of the rise in radiation levels is not a concern of this IC. The Emergency Director must consider the source or cause of the raised radiation levels and determine if any other IC may be involved. For example, a dose rate of 15 mR/hr in the control room may be a problem in itself. However, the rise may also be indicative of high dose rates in the containment due to a LOCA. In this latter case, an SAE or GE may be indicated by the fission product barrier matrix ICs.

D-28 REV 57  06/12  At multiple-unit sites, the Threshold Values could result in declaration of an Alert at one unit due to a radioactivity release or radiation shine resulting from a major accident at the other unit. This is appropriate if the rise impairs operations at the operating unit.

This IC is not meant to apply to raises in the containment dome radiation monitors as these are events which are addressed in the fission product barrier matrix ICs. Nor is it intended to apply to anticipated temporary rises due to planned events (e.g., incore detector movement, radwaste container movement, depleted resin transfers, etc.)

Areas requiring continuous occupancy includes the control room and the central alarm station.

The value of 15mR/hr is derived from the GDC 19 value of 5 rem in 30 days with adjustment for expected occupancy times. Although Section III.D.3 of NUREG-0737, "Clarification of TMI Action Plan Requirements", provides that the 15 mR/hr value can be averaged over the 30 days, the value is used here without averaging, as a 30 day duration implies an event potentially more significant than an Alert.

For areas requiring infrequent access, the 1 R/hr (Locked High Rad Area) is be based on radiation levels which result in exposure control measures intended to maintain doses within normal occupational exposure guidelines and limits (i.e., 10 CFR 20), and in doing so, will impede necessary access. As used here, impede, includes hindering or interfering provided that the interference or delay is sufficient to significantly threaten the safe operation of the plant. 

D-29 REV 62  10/14 ABNORMAL RAD LEVELS/RADIOLOGICAL EFFLUENT RS1 Initiating Condition -- SITE AREA EMERGENCY  Offsite Dose Resulting from an Actual or Imminent Release of Gaseous Radioactivity Exceeds 100 mR TEDE OR 500 mR Thyroid CDE for the Actual or Projected Duration of the Release.

Operating Mode Applicability: All  Threshold Values: (1 OR 2 OR 3)  Note: If dose assessment results are available at the time of declaration, the classification should be based on Threshold Value #2 instead of Threshold Value #1.While necessary declarations should not be delayed awaiting results, the dose assessment should be initiated / completed in order to determine if the classification should be subsequently escalated. Note: The Emergency Director should not wait until 15 minutes has elapsed, but should declare the event as soon as it is determined that the release duration has or will likely exceed 15 minutes. 1. VALID reading on any of the following radiation monitors that exceeds OR is expected to exceed the reading shown for 15 minutes OR longer:  RE-12839E 5 Ci/cc  RE-12444E 1 x 102 Ci/cc  2. Dose assessment using actual meteorology indicates doses greater than 100 mR TEDE OR 500 mR thyroid CDE at OR beyond the site boundary. 

: 3. Field survey results indicate closed window dose rates exceeding 100 mR/hr expected to continue for more than one hour; OR analyses of field survey samples indicate thyroid CDE of 500 mR for one hour of inhalation, at OR beyond the site boundary. Basis:  VALID:  an indication, report, or condition, is considered to be VALID when it is verified by (1) an instrument channel check, or (2) indications on related or redundant indicators, or (3) by direct observation by plant personnel, such that doubt related to the indicator's operability, the D-30 REV 57  06/12 condition's existence, or the report's accuracy is removed. Implicit in this definition is the need for timely assessment.

This IC addresses radioactivity releases that result in doses at or beyond the site boundary that exceed a small fraction of the EPA Protective Action Guides (PAGs). Releases of this magnitude are associated with the failure of plant systems needed for the protection of the public. While these failures are addressed by other ICs, this IC provides appropriate diversity and addresses events which may not be able to be classified on the basis of plant status alone, e.g., fuel handling accident in spent fuel building.

The TEDE dose is set at 10% of the EPA PAG, while the 500 mR thyroid CDE was established in consideration of the 1:5 ratio of the EPA PAG for TEDE and thyroid CDE.  

The Emergency Director should not wait until 15 minutes has elapsed, but should declare the event as soon as it is determined that the release duration has or will likely exceed 15 minutes. 

The site specific monitor list in Threshold Value #1 includes monitors on all potential release pathways. 

The monitor reading Threshold Values are determined using a dose assessment method that back calculates from the dose values specified in the IC. The meteorology and source term (noble gases, particulates, and halogens) used is the same as those used for determining the monitor reading Threshold Values in ICs RU1 and RA1. This protocol maintains intervals between the Threshold Values for the four classifications. Since doses are generally not monitored in real-time, a release duration of one hour is assumed, and that the Threshold Values be based on a site boundary (or beyond) dose of 100 mR/hour whole body or 500 mR/hour thyroid, whichever is more limiting (as was done for Threshold Value #3).

The release rates which result in site boundary doses of 100 mR TEDE are in excess of the range of the monitors listed in RU1 and RA1. 

Since dose assessment is based on actual meteorology, whereas the monitor reading Threshold Values are not, the results from these assessments may indicate that the classification is not warranted, or may indicate that a higher classification is warranted. For this reason, emergency implementing procedures should call for the timely performance of dose assessments using actual meteorology and release information. If the results of these dose assessments are available when the classification is made (e.g., initiated at a lower classification level), the dose assessment results override the monitor reading Threshold Values. Classification should not be delayed pending the results of these dose assessments.

D-31 REV 64  3/15 ABNORMAL RAD LEVELS/RADIOLOGICAL EFFLUENT RG1 Initiating Condition -- GENERAL EMERGENCY  Offsite Dose Resulting from an Actual or Imminent Release of Gaseous Radioactivity Exceeds 1000 mR TEDE OR 5000 mR Thyroid CDE for the Actual or Projected Duration of the Release Using Actual Meteorology.

Operating Mode Applicability: All  Threshold Values: (1 OR 2 OR 3)  Note: If dose assessment results are available at the time of declaration, the classification should be based on Threshold Value #2 instead of Threshold Value #1.While necessary declarations should not be delayed awaiting results, the dose assessment should be initiated / completed in order to determine if the classification should be subsequently escalated. Note: The Emergency Director should not wait until 15 minutes has elapsed, but should declare the event as soon as it is determined that the release duration has or will likely exceed 15 minutes. 1. VALID reading on any of the following radiation monitors that exceeds OR expected to exceed the reading shown for 15 minutes OR longer:    RE-12839E 50 Ci/cc  RE-12444E 2.1 x 103 Ci/cc 

: 3. Field survey results indicate closed window dose rates exceeding 1000 mR/hr expected to continue for more than one hour; OR analyses of field survey samples indicate thyroid CDE of 5000 mR for one hour of inhalation, at OR beyond site boundary. Basis: VALID:  an indication, report, or condition, is considered to be VALID when it is verified by (1) an instrument channel check, or (2) indications on related or redundant indicators, or (3) by direct observation by plant personnel, such that doubt related to the indicator's operability, the D-32 REV 57  06/12 condition's existence, or the report's accuracy is removed. Implicit in this definition is the need for timely assessment.

This IC addresses radioactivity releases that result in doses at or beyond the site boundary that exceed the EPA Protective Action Guides (PAGs). Public protective actions will be necessary. Releases of this magnitude are associated with the failure of plant systems needed for the protection of the public and likely involve fuel damage. While these failures are addressed by other ICs, this IC provides appropriate diversity and addresses events which may not be able to be classified on the basis of plant status alone. It is important to note that, for the more severe accidents, the release may be unmonitored or there may be large uncertainties associated with the source term and/or meteorology.

The Emergency Director should not wait until 15 minutes has elapsed, but should declare the event as soon as it is determined that the release duration has or will likely exceed 15 minutes. 

The site specific monitor list in Threshold Value #1 includes monitors on all potential release pathways.

The monitor reading Threshold Values are determined using a dose assessment method that back calculates from the dose values specified in the IC. The meteorology and source term (noble gases, particulates, and halogens) used are the same as those used for determining the monitor reading Threshold Values in ICs RU1 and RA1. This protocol will maintain intervals between the Threshold Values for the four classifications. Since doses are generally not monitored in real-time, a release duration of one hour is assumed, and that the Threshold Values are based on a site boundary (or beyond) dose of 1000 mR/hour whole body or 5000 mR/hour thyroid, whichever is more limiting. 

Since dose assessment is based on actual meteorology, whereas the monitor reading Threshold Values are not, the results from these assessments may indicate that the classification is not warranted, or may indicate that a higher classification is warranted. For this reason, emergency implementing procedures call for the timely performance of dose assessments using actual meteorology and release information. If the results of these dose assessments are available when the classification is made (e.g., initiated at a lower classification level), the dose assessment results override the monitor reading Threshold Values. Classification should not be delayed pending the results of these dose assessments.

D-33 REV 48  03/08 SYSTEM MALFUNCTION CU1 Initiating Condition -- NOTIFICATION OF UNUSUAL EVENT  RCS Leakage. Operating Mode Applicability: Cold Shutdown  Threshold Values:  1. Unable to establish or maintain pressurizer level greater than 17%. Basis:  This IC is included as a NOUE because it is considered to be a potential degradation of the level of safety of the plant. The inability to establish and maintain level is indicative of loss of RCS inventory. Prolonged loss of RCS Inventory may result in escalation to the Alert level via either IC CA1 (Loss of RCS) or CA4 (Inability to Maintain Plant in Cold Shutdown with Irradiated Fuel in the RPV). The difference between CU1 and CU2 deals with the RCS conditions that exist between cold shutdown and refueling mode applicability. In cold shutdown the RCS will normally be intact and RCS inventory and level monitoring means such as Pressurizer level indication and makeup volume control tank levels are normally available. In the refueling mode the RCS is not intact and RPV level and inventory are monitored by different means.

D-34 REV 56  09/10 SYSTEM MALFUNCTION CU2 Initiating Condition -- NOTIFICATION OF UNUSUAL EVENT  UNPLANNED Loss of RCS Inventory with Irradiated Fuel in the RPV. Operating Mode Applicability: Refueling  Threshold Values: (1 OR 2)  1. UNPLANNED RCS level lowering below 194' (RPV flange) for greater than or equal to 15 minutes  2. a. RPV level CANNOT be monitored  AND  b. A loss of RCS inventory may be occurring as indicated by unexplained level rise in ANY of the following:  Containment sump Reactor Coolant Drain Tank (RCDT) Waste Holdup Tank (WHT)  Basis:  UNPLANNED:  a parameter change or an event that is not the result of an intended evolution and requires corrective or mitigative actions.

This IC is included as a NOUE because it may be a precursor of more serious conditions and, as result, is considered to be a potential degradation of the level of safety of the plant. Refueling evolutions that lower RCS water level below the RPV flange are carefully planned and procedurally controlled. An UNPLANNED event that results in water level decreasing below the RPV flange warrants declaration of a NOUE due to the reduced RCS inventory that is available to keep the core covered. The allowance of 15 minutes was chosen because it is reasonable to assume that level can be restored within this time frame using any of the redundant means of refill that should be available. If level cannot be restored in this time frame then it may indicate a more serious condition exists. Continued loss of RCS Inventory will result in escalation to the Alert level via either IC CA2 (Loss of RPV Inventory with Irradiated Fuel in the RPV) or CA4 (Inability to Maintain Plant in Cold Shutdown with Irradiated Fuel in the RPV).

The difference between CU1 and CU2 deals with the RCS conditions that exist between cold shutdown and refueling modes. In cold shutdown the RCS will normally be intact and standard RCS inventory and level monitoring means are available. In the refueling mode the RCS is not intact and RPV level and inventory are monitored by different means.

In the refueling mode, normal means of core temperature indication and RCS level indication may not be available. Redundant means of RPV level indication will normally be installed D-35 REV 56  09/10 (including the ability to monitor level visually) to assure that the ability to monitor level will not be interrupted. However, if all level indication were to be lost during a loss of RCS inventory event, the operators would need to determine that RPV inventory loss was occurring by observing sump and tank level changes. Sump and tank level rises must be evaluated against other potential sources of leakage such as cooling water sources inside the containment to ensure they are indicative of RCS leakage. Escalation to Alert would be via either CA2 or RCS heatup via CA4.

Threshold Value 1 involves a lowering in RCS level below the top of the RPV flange that continues for 15 minutes due to an UNPLANNED event. This Threshold Value is not applicable to lowering levels in flooded reactor cavity level (covered by RU2 Threshold Value1) until such time as the level lowers to the level of the vessel flange. Drawing AX4DR023 provides the RPV flange level at 194' 11/2" rounded to 194' for the threshold Value. If RPV level continues to lower and reaches the Bottom ID of the RCS Loop then escalation to CA2 would be appropriate. Note that the Bottom ID of the RCS Loop Setpoint should be the level equal to the bottom of the RPV loop penetration (not the low point of the loop).

D-36 REV 48  03/08 SYSTEM MALFUNCTION CU3 Initiating Condition -- NOTIFICATION OF UNUSUAL EVENT  Loss of All Offsite Power to Essential Busses for Greater Than 15 Minutes. Operating Mode Applicability: Cold Shutdown  Refueling  Threshold Value:  1. a. Loss of power to OR from transformers 1(2)NXRA AND 1(2)NXRB resulting in loss of all off-site electrical power to BOTH 1(2)AA02 AND 1(2)BA03 for greater than 15 minutes. AND  b. At least one emergency diesel generator supplying power to EITHER AA02 OR BA03. Basis:  Prolonged loss of AC power reduces required redundancy and potentially degrades the level of safety of the plant by rendering the plant more vulnerable to a complete Loss of AC Power (e.g., Station Blackout). Fifteen minutes was selected as a threshold to exclude transient or momentary power losses. Capability to cross-tie AC power from a companion unit may take credit for the redundant power source in the associated Threshold Value for this IC. Inability to effect the cross-tie within 15 minutes warrants declaring a NOUE.

D-41 REV 48  03/08 SYSTEM MALFUNCTION CU7 Initiating Condition -- NOTIFICATION OF UNUSUAL EVENT  UNPLANNED Loss of Required DC Power for Greater Than 15 Minutes. Operating Mode Applicability:  Cold Shutdown Refueling  Threshold Value:  1. a. UNPLANNED loss of Vital DC power to 125 VDC Buses AD1, BD1, CD1, AND DD1 indicated by bus voltage indications less than 105 VDC  AND  b. Failure to restore power to at least one required DC bus within 15 minutes from the time of loss. Basis:  UNPLANNED:  a parameter change or an event that is not the result of an intended evolution and requires corrective or mitigative actions. The purpose of this IC and its associated Threshold Values is to recognize a loss of DC power compromising the ability to monitor and control the removal of decay heat during Cold Shutdown or Refueling operations. This Threshold Value is intended to be anticipatory in as much as the operating crew may not have necessary indication and control of equipment needed to respond to the loss. UNPLANNED is included in this IC and Threshold Value to preclude the declaration of an emergency as a result of planned maintenance activities. Routinely plants will perform maintenance on a Train related basis during shutdown periods. It is intended that the loss of the operating (operable) train is to be considered. If this loss results in the inability to maintain cold shutdown, the escalation to an Alert will be per CA4 "Inability to Maintain Plant in Cold Shutdown with Irradiated Fuel in the RPV."  105 VDC bus voltage is based on the minimum bus voltage necessary for the operation of safety related equipment. This voltage value incorporates a margin of at least 15 minutes of operation before the onset of inability to operate those loads.

Operating Mode Applicability: Cold Shutdown  Threshold Values: (1 OR 2)  1. Loss of RCS inventory as indicated by RPV level less than elevation 185'-10" (73% on Full Range RVLIS)  2. a. RCS level CANNOT be monitored for greater than 15 minutes  AND  b. A loss of RCS inventory may be occurring as indicated by unexplained level rise in ANY of the following:  Containment sump Reactor Coolant Drain Tank (RCDT) Waste Holdup Tank (WHT)  Basis:  These Threshold Values serve as precursors to a loss of ability to adequately cool the fuel. The magnitude of this loss of water indicates that makeup systems have not been effective and may not be capable of preventing further RPV level lowering and potential core uncovery. This condition will result in a minimum classification of Alert. The Bottom ID of the RCS Loop Setpoint was chosen because at this level remote RCS level indication may be lost and loss of suction to decay heat removal systems has occurred. The inability to restore and maintain level after reaching this setpoint would therefore be indicative of a failure of the RCS barrier.

In cold shutdown the decay heat available to raise RCS temperature during a loss of inventory or heat removal event may be significantly greater than in the refueling mode. Entry into cold shutdown conditions may be attained within hours of operating at power or hours after refueling is completed. Entry into the refueling mode procedurally may not occur for typically 100 hours or longer after the reactor has been shutdown. Thus the heatup threat and therefore the threat to damaging the fuel clad may be lower for events that occur in the refueling mode with irradiated fuel in the RPV (note that the heatup threat could be lower for cold shutdown conditions if the entry into cold shutdown was following a refueling). The above forms the basis for needing both a cold shutdown specific IC (CA1) and a refueling specific IC (CA2)

In the cold shutdown mode, normal RCS level and RPV level instrumentation systems will normally be available. However, if all level indication were to be lost during a loss of RCS inventory event, the operators would need to determine that RPV inventory loss was occurring by observing sump and tank level changes. Sump and tank level rises must be evaluated D-44 REV 48  03/08 against other potential sources of leakage such as cooling water sources inside the containment to ensure they are indicative of RCS leakage. The 15-minute duration for the loss of level indication was chosen because it is half of the CS1 Site Area Emergency Threshold Value duration. The 15-minute duration allows CA1 to be an effective precursor to CS1. Significant fuel damage is not expected to occur until the core has been uncovered for greater than 1 hour per the analysis referenced in the CG1 basis. Therefore this Threshold Value meets the definition for an Alert. The difference between CA1 and CA2 deals with the RCS conditions that exist between cold shutdown and refueling mode applicability. In cold shutdown the RCS will normally be intact and standard RCS inventory and level monitoring means are available. In the refueling mode the RCS is not intact and RPV level and inventory are monitored by different means. If RPV level continues to lower then escalation to Site Area will be via CS1 (Loss of Inventory Affecting Core Decay Heat Removal Capability with Irradiated Fuel in the RPV)

In the refueling mode, normal means of RPV level indication may not be available. Redundant means of RPV level indication will be normally installed (including the ability to monitor level visually) to assure that the ability to monitor level will not be interrupted. However, if all level D-46 REV 48  03/08 indication were to be lost during a loss of RCS inventory event, the operators would need to determine that RPV inventory loss was occurring by observing sump and tank level changes. Sump and tank level rises must be evaluated against other potential sources of leakage such as cooling water sources inside the containment to ensure they are indicative of RCS leakage. The 15-minute duration for the loss of level indication was chosen because it is half of the CS2 Site Area Emergency Threshold Value duration. The 15-minute duration allows CA2 to be an effective precursor to CS2. Significant fuel damage is not expected to occur until the core has been uncovered for greater than 1 hour per the analysis referenced in the CG1 basis. Therefore this Threshold Value meets the definition for an Alert. The difference between CA1 and CA2 deals with the RCS conditions that exist between cold shutdown and refueling mode applicability. In cold shutdown the RCS will normally be intact and standard RCS inventory and level monitoring means are available. In the refueling mode the RCS is not intact and RPV level and inventory are monitored by different means.

D-47 REV 48  03/08 SYSTEM MALFUNCTION CA3 Initiating Condition -- ALERT  Loss of All Offsite Power AND Loss of All Onsite AC Power to Essential Busses. Operating Mode Applicability: Cold Shutdown  Refueling  Defueled  Threshold Value:  1. a. Loss of power to OR from transformers 1(2)NXRA  AND 1(2)NXRB resulting in loss of all off-site electrical power to BOTH 1(2)AA02 AND 1(2)BA03. AND  b. Failure of emergency diesel generators to supply power to emergency busses. AND  c. Failure to restore power to at least one emergency bus within 15 minutes from the time of loss of both offsite and onsite AC power. Basis:  Loss of all AC power compromises all plant safety systems requiring electric power including RHR, ECCS, Containment Heat Removal, Spent Fuel Heat Removal and the Ultimate Heat Sink. When in cold shutdown, refueling, or defueled mode the event can be classified as an Alert, because of the significantly reduced decay heat, lower temperature and pressure, increasing the time to restore one of the emergency busses, relative to that specified for the Site Area Emergency Threshold Value. Escalating to Site Area Emergency IC SS1, if appropriate, is by Abnormal Rad Levels / Radiological Effluent, or Emergency Director Judgment ICs. Fifteen minutes was selected as a threshold to exclude transient or momentary power losses. Consideration should be given to operable loads necessary to remove decay heat or provide Reactor Vessel makeup capability when evaluating loss of AC power to essential busses. Even though an essential bus may be energized, if necessary loads (i.e., loads that if lost would inhibit decay heat removal capability or Reactor Vessel makeup capability) are not operable on the energized bus then the bus should not be considered operable.

OR  b. RPV level CANNOT be monitored for greater than 30 minutes with a possible loss of RPV inventory as indicated by EITHER of the following:  Unexplained Containment sump level rise. Erratic Source Range Monitor Indication  Basis: CONTAINMENT CLOSURE: Per Operating Procedure 14210-1, Containment Building Penetrations Verification - Refueling.

Under the conditions specified by this IC, continued lowering in RPV level is indicative of a loss of inventory control. Inventory loss may be due to an RPV breach, pressure boundary leakage, or continued boiling in the RPV.

Explosive mixture inside containment greater than OR equal to 6% H2 Containment Pressure greater than OR equal to 13 psig WITH CONTAINMENT CLOSURE establishedgreater than OR equal to 52 psig WITH Tech Spec containment integrity intact CONTAINMENT CLOSURE NOT established D-55 REV 48  03/08  Basis: CONTAINMENT CLOSURE: Per Operating Procedure 14210-1, Containment Building Penetrations Verification - Refueling. For Threshold Value 1 in the cold shutdown mode, normal RCS level and RPV level instrumentation systems will normally be available. However, if all level indication were to be lost during a loss of RCS inventory event, the operators would need to determine that RPV inventory loss was occurring by observing sump and tank level changes. Sump and tank level rises must be evaluated against other potential sources of leakage such as cooling water sources inside the containment to ensure they are indicative of RCS leakage. For Threshold Value 1 in the refueling mode, normal means of RPV level indication may not be available. Redundant means of RPV level indication will be normally installed (including the ability to monitor level visually) to assure that the ability to monitor level will not be interrupted. However, if all level indication were to be lost during a loss of RCS inventory event, the operators would need to determine that RPV inventory loss was occurring by observing sump and tank level changes. For both cold shutdown and refueling modes sump and tank level rises must be evaluated against other potential sources of leakage such as cooling water sources inside the containment to ensure they are indicative of RCS leakage. Threshold Value 2 represents the inability to restore and maintain RPV level to above the top of active fuel. Fuel damage is probable if RPV level cannot be restored, as available decay heat will cause boiling, further reducing the RPV level. As water level in the RPV lowers, the dose rate above the core will rise. The dose rate due to this core shine should result in up-scaled Containment High Range Monitor indication and possible alarm. Post-TMI studies indicated that the installed nuclear instrumentation will operate erratically when the core is uncovered and that this should be used as a tool for making such determinations. Threshold Values 2a and 2b values are included in the CS2 basis above. The GE is declared on the occurrence of the loss or imminent loss of function of all three barriers. Based on the above discussion, RCS barrier failure resulting in core uncovery for 30 minutes or more may cause fuel clad failure. With the CONTAINMENT breached or challenged then the potential for unmonitored fission product release to the environment is high. This represents a direct path for radioactive inventory to be released to the environment. This is consistent with the definition of a GE. In the context of Threshold Value 3, CONTAINMENT CLOSURE is the action taken to secure containment and its associated structures, systems, and components as a functional barrier to fission product release under existing plant conditions. CONTAINMENT CLOSURE should not be confused with refueling containment integrity as defined in technical specifications. Site shutdown contingency plans typically provide for re-establishing CONTAINMENT CLOSURE following a loss of heat removal or RCS inventory functions. If the closure is re-established prior to exceeding the temperature or level thresholds of the RCS Barrier and Fuel Clad Barrier Threshold Values, escalation to GE would not occur.

* The ability to escalate to higher emergency classes as an event deteriorates must be maintained. For example, RCS leakage steadily increasing would represent an increasing risk to public health and safety.

D-60  REV 62 10/14 Vogtle Fission Product Barrier Evaluation General Emergency Site Area Emergency Alert Unusual Event FG1 Loss of ANY Two Barriers AND Loss or Potential Loss of Third Barrier FS1 Loss or Potential Loss of ANY Two Barriers FA1 ANY Loss or ANY Potential Loss of EITHER Fuel Clad OR RCS FU1 ANY Loss or ANY Potential Loss of Containment Fuel Clad Barrier Loss Potential Loss 1. Critical Safety Function Status Core-Cooling RED  1. Critical Safety Function Status Core Cooling-ORANGE OR Heat Sink-RED  2. Primary Coolant Activity Level Indications of RCS Coolant Activity greater than 300 µCi/gm Dose Equivalent I-131 2. Primary Coolant Activity Level Not Applicable 3. Core Exit Thermocouple Readings Core Exit TCs greater than 1200°F 3. Core Exit Thermocouple Readings Core Exit TCs greater than 711°F 4. Reactor Vessel Water Level Not Applicable 4. Reactor Vessel Water Level RVLS LEVEL less than 63% 5. Containment Radiation Monitoring Containment Radiation Monitor RE-005 OR 006  2 6E+5 mR/hr 5. Containment Radiation Monitoring Not Applicable 6. Other Indications Not applicable 6. Other Indications Not applicable 7. Emergency Director Judgment Judgment by the ED that the Fuel Clad Barrier is lost. Consider conditions not addressed and inability to determine the status of the Fuel Clad Barrier 7. Emergency Director Judgment Judgment by the ED that the Fuel Clad Barrier is potentially lost. Consider conditions not addressed and inability to determine the status of the Fuel Clad Barrier. RCS Barrier Loss Potential Loss 1. Critical Safety Function Status Not Applicable 1. Critical Safety Function Status RCS Integrity-RED OR  Heat Sink-RED  2. RCS Leak Rate RCS subcooling less than 24°F {less than 38° F Adverse} due to an RCS leak greater than Charging / RHR capacity 2. RCS Leak Rate Non-isolable RCS leak (including SG tube Leakage) greater than 120 gpm 3. SG Tube Rupture SGTR resulting in an SI actuation 3. SG Tube Rupture Not Applicable 4. Containment Radiation Monitoring CTMT Rad Monitor RE-005 OR 006  8.7E+2 mR/hr 4. Containment Radiation Monitoring Not Applicable 5. Other Indications Not applicable 5. Other Indications Unexplained level rise in ANY of the following: Containment sump Reactor Coolant Drain Tank (RCDT)

: 1. Critical Safety Function Status ______________________________________________________________________ NOTE Heat Sink CSF should not be considered -RED if total AFW flow is less than 570 gpm due to operator action. ______________________________________________________________________  RED path indicates an extreme challenge to the safety function. ORANGE path indicates a severe challenge to the safety function.

Core Cooling - ORANGE indicates subcooling has been lost and that some clad damage may occur. Heat Sink - RED indicates the ultimate heat sink function is under extreme challenge and thus these two items indicate potential loss of the Fuel Clad Barrier.

Core Cooling - RED indicates significant superheating and core uncovery and is considered to indicate loss of the Fuel Clad Barrier.  

This amount of radioactivity indicates significant clad damage and thus the Fuel Clad Barrier is considered lost. 

: 3. Core Exit Thermocouple Readings  Core Exit Thermocouple Readings are included in addition to the Critical Safety Functions to include conditions when the CSFs may not be in use (initiation after SI is blocked).

The "Loss" Threshold Value of  1200 degrees F corresponds to significant superheating of the coolant. This value corresponds to the temperature reading that indicates core cooling - RED in Fuel Clad Barrier Threshold Value #1.

: 5. Containment Radiation Monitoring  The  2.6E+5 mR/hr reading is a value which indicates the release of reactor coolant, with elevated activity indicative of fuel damage, into the containment. The reading is calculated assuming the instantaneous release and dispersal of the reactor coolant noble gas and iodine inventory associated with a concentration of 300 µCi/gm dose equivalent I-131 into the containment atmosphere. Reactor coolant concentrations of this magnitude are several times larger than the maximum concentrations (including iodine spiking) allowed within technical specifications and are therefore indicative of fuel damage. This value is higher than that specified for RCS barrier Loss Threshold Value #4. Thus, this Threshold Value indicates a loss of both the fuel clad barrier and a loss of RCS barrier.

RCS BARRIER Threshold Values:  The RCS Barrier includes the RCS primary side and its connections up to and including the pressurizer safety and relief valves, and other connections up to and including the primary isolation valves. 

: 1. Critical Safety Function Status ____________________________________________________________________________ NOTE Heat Sink CSF should not be considered -RED if total AFW flow is less than 570 gpm due to operator action. ____________________________________________________________________________  This Threshold Value uses the Critical Safety Function Status Tree (CSFST) monitoring and functional restoration procedures. An RCS Integrity RED path indicates an extreme challenge to the safety function derived from appropriate instrument readings, and these CSFs indicate a potential loss of RCS barrier.

D-63 REV 62  10/14 2. RCS Leak Rate  The "Loss" Threshold Value addresses conditions where leakage from the RCS is greater than available inventory control capacity such that a loss of subcooling has occurred. The loss of subcooling is the fundamental indication that the inventory control systems are inadequate in maintaining RCS pressure and inventory against the mass loss through the leak.

The "Potential Loss" Threshold Value is based on the inability to maintain normal liquid inventory within the Reactor Coolant System (RCS) by normal operation of the Chemical and Volume Control System which is considered as one centrifugal charging pump discharging to the charging header. A second charging pump being required is indicative of a substantial RCS leak providing the 120 GPM value. 

: 3. SG Tube Rupture  This Threshold Value is intended to address the full spectrum of Steam Generator (SG) tube rupture events in conjunction with Containment Barrier "Loss" Threshold Value #4 and Fuel Clad Barrier Threshold Values. The "Loss" Threshold Value addresses RUPTURED SG(s) for which the leakage is large enough to cause actuation of ECCS (SI). This is consistent to the RCS Barrier "Potential Loss" Threshold Value #2. This condition is described by SGTR resulting in an SI actuation. By itself, this Threshold Value will result in the declaration of an Alert.

However, if the SG is also FAULTED (i.e., two barriers failed), the declaration escalates to a Site Area Emergency per Containment Barrier "Loss" Threshold Value #4. 

: 4. Containment Radiation Monitoring  The RE-005 OR 006  8.7E+2 mR/hr value indicates the release of reactor coolant to the containment. The reading is calculated assuming the instantaneous release and dispersal of the reactor coolant noble gas and iodine inventory associated with normal operating concentrations (i.e., within T/S) into the containment atmosphere. This value is less than that specified for Fuel Clad Barrier Threshold Value #5. Thus, this Threshold Value would be indicative of a RCS leak only. If the radiation monitor reading rise to that specified by Fuel Clad Barrier Threshold Value

An unexplained level rise in the containment sump, Reactor Coolant Drain Tank or the Waste Holdup Tank could indicate a RCS leak and is therefore included as a Potential Loss of the RCS Barrier. Sump and tank level rises should be evaluated against known or controlled processes which are under way, i.e. draining, filling, venting, etc.

D-64  REV  53 09/09  6. Emergency Director Judgment  This Threshold Value addresses any other factors that are to be used by the Emergency Director in determining whether the RCS barrier is lost or potentially lost. In addition, the inability to monitor the barrier should also be incorporated in this Threshold Value as a factor in Emergency Director judgment that the barrier may be considered lost or potentially lost.  (See also IC SG1, "Prolonged Loss of All Offsite Power and Prolonged Loss of All Onsite AC Power",

for additional information.)

CONTAINMENT BARRIER Threshold Values:  The Containment Barrier includes the containment building, its connections up to and including the outermost containment isolation valves. This barrier also includes the main steam, feedwater, and blowdown line extensions outside the containment building up to and including the outermost secondary side isolation valve.

: 1. Critical Safety Function Status  This Threshold Value uses Critical Safety Function Status Tree (CSFST) monitoring and functional restoration procedures. Containment RED path indicates an extreme challenge to the safety function derived from appropriate instrument readings and/or sampling results, and thus represents a potential loss of containment. Conditions leading to a containment RED path result from RCS barrier and/or Fuel Clad Barrier Loss. Thus, this Threshold Value is primarily a discriminator between Site Area Emergency and General Emergency representing a potential loss of the third barrier.

: 2. Containment Pressure  Rapid unexplained loss of pressure (i.e., not attributable to containment spray or condensation effects) following an initial pressure rise indicates a loss of containment integrity. Containment pressure and sump levels should rise as a result of the mass and energy release into containment from a LOCA. Thus, sump level or pressure not increasing indicates containment bypass and a loss of containment integrity.

The 52 PSIG for potential loss of containment is based on the containment design pressure. Existence of an explosive mixture means a hydrogen and oxygen concentration of at least the lower deflagration limit (greater than 6%) curve exists. The indications of potential loss under this Threshold Value corresponds to some of those leading to the RED path in Threshold Value

but not including containment venting strategies) are either lost or performing in a degraded D-65 REV 48  03/08 manner, as indicated by containment pressure greater than the setpoint at which the equipment was supposed to have actuated. 3. Core Exit Thermocouples  In this Threshold Value, the function restoration procedures are those emergency operating procedures that address the recovery of the core cooling critical safety functions. The procedure is considered effective if the temperature is decreasing or if the vessel water level is increasing. For units using the CSF status trees a direct correlation to those status trees can be made if the effectiveness of the restoration procedures is also evaluated as stated below. Severe accident analyses (e.g., NUREG-1150) have concluded that function restoration procedures can arrest core degradation within the reactor vessel in a significant fraction of the core damage scenarios, and that the likelihood of containment failure is very small in these events. Given this, it is appropriate to provide a reasonable period to allow function restoration procedures to arrest the core melt sequence. Whether or not the procedures will be effective should be apparent within 15 minutes. The Emergency Director should make the declaration as soon as it is determined that the procedures have been, or will be ineffective. The reactor vessel level chosen should be consistent with the emergency response guides applicable to the facility. The conditions in this potential loss Threshold Value represent an imminent core melt sequence which, if not corrected, could lead to vessel failure and an raised potential for containment failure. In conjunction with the Core Cooling and Heat Sink criteria in the Fuel and RCS barrier columns, this Threshold Value would result in the declaration of a General Emergency -- loss of two barriers and the potential loss of a third. If the function restoration procedures are ineffective, there is no "success" path. There is no "Loss" Threshold Value associated with this item. 4. SG Secondary Side Release With Primary To Secondary Leakage  This "loss" Threshold Value recognizes that SG tube leakage can represent a bypass of the containment barrier as well as a loss of the RCS barrier. The "loss" Threshold Value addresses the condition in which a RUPTURED steam generator is also FAULTED. This condition represents a bypass of the RCS and containment barriers. In conjunction with RCS Barrier "loss" Threshold Value #3, this would always result in the declaration of a Site Area Emergency. The other leakage "loss" Threshold Value addresses SG tube leaks that exceed 10 gpm in conjunction with a nonisolable release path to the environment from the affected steam generator. The threshold for establishing the nonisolable secondary side release is intended to be a prolonged release of radioactivity from the RUPTURED steam generator directly to the environment. This could be expected to occur when the main condenser is unavailable to accept the contaminated steam (i.e., SGTR with concurrent loss of offsite power and the RUPTURED steam generator is required for plant cooldown or a stuck open relief valve). If the main condenser is available, there may be releases via air ejectors, gland seal exhausters, and other similar controlled, and often monitored, pathways. These pathways do not meet the intent of a nonisolable release path to the environment. These minor releases are assessed using Abnormal Rad Levels / Radiological Effluent ICs.

The use of the modifier "direct" in defining the release path discriminates against release paths through interfacing liquid systems. The existence of an in-line charcoal filter does not make a release path indirect since the filter is not effective at removing fission noble gases. Typical filters have an efficiency of 95-99% removal of iodine. Given the magnitude of the core inventory of iodine, significant releases could still occur. In addition, since the fission product release would be driven by boiling in the reactor vessel, the high humidity in the release stream can be expected to render the filters ineffective in a short period.

There is no "Potential Loss" Threshold Value associated with this item.  

: 6. Significant Radioactive Inventory in Containment  The  1.3E+7 mR/hr value indicates significant fuel damage well in excess of the Threshold Values associated with both loss of Fuel Clad and loss of RCS Barriers. As stated in Section 3.8, a major release of radioactivity requiring offsite protective actions from core damage is not possible unless a major failure of fuel cladding allows radioactive material to be released from the core into the reactor coolant.  

Regardless of whether containment is challenged, this amount of activity in containment, if released, could have such severe consequences that it is prudent to treat this as a potential loss of containment, such that a General Emergency declaration is warranted. NUREG-1228, "Source Estimations During Incident Response to Severe Nuclear Power Plant Accidents,"

There is no "Loss" Threshold Value associated with this item.  

: 7. Other Indications  This Threshold Value covers other leakage pathways that indicate loss of the containment barrier. Leakage from the Containment would be routed through various ventilation systems where the specific monitors would indicate a release. Increased activity on RE-2562C in conjunction with an alarm on RE-12444C OR RE-12442C would indicate a breach in containment. An alarm on RE-2562-C alone would indicate increased activity in containment but not necessarily a breach in containment. An alarm on RE-12444C OR RE-12442C alone would indicate activity being released to the environment but not necessarily from containment. This threshold demonstrates a breach in containment by establishing radioactivity in containment and a clear release path to the environment.

D-67 REV 62  10/14 8. Emergency Director Judgment  This Threshold Value addresses any other factors that are to be used by the Emergency Director in determining whether the Containment barrier is lost or potentially lost. In addition, the inability to monitor the barrier should also be incorporated in this Threshold Value as a factor in Emergency Director judgment that the barrier may be considered lost or potentially lost.  

(See also IC SG1, "Prolonged Loss of All Offsite Power and Prolonged Loss of All Onsite AC Power", for additional information.)

D-71 REV 48  03/08 HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY HU2 Initiating Condition -- NOTIFICATION OF UNUSUAL EVENT  FIRE Within PROTECTED AREA Boundary Not Extinguished Within 15 Minutes of Detection. Operating Mode Applicability: All  Threshold Value:  1. FIRE in buildings OR areas contiguous to any of the following areas NOT extinguished within 15 minutes of control room notification OR verification of a control room alarm unless disproved by personnel observation within  15 minutes of the alarm:  Containment Building NSCW Cooling Towers Diesel Generator Building Auxiliary Building Fuel Handling Building Control Building Diesel Fuel Oil Storage Tank Pumphouse Auxiliary Feedwater Pumphouse  Basis:  FIRE:  is combustion characterized by heat and light. Sources of smoke such as slipping drive belts or overheated electrical equipment do not constitute FIREs. Observation of flame is preferred but is NOT required if large quantities of smoke and heat are observed. PROTECTED AREA: the area which normally encompasses all controlled areas within the security protected area fence. The purpose of this IC is to address the magnitude and extent of FIREs that may be potentially significant precursors to damage to safety systems. As used here, Detection is visual observation and report by plant personnel or sensor alarm indication. The 15 minute time period begins with a credible notification that a FIRE is occurring, or indication of a VALID fire detection system alarm. Verification of a fire detection system alarm includes actions that can be taken with the control room or other nearby site-specific location to ensure that the alarm is not spurious. A verified alarm is assumed to be an indication of a FIRE unless it is disproved within the 15 minute period by personnel dispatched to the scene. In other words, a personnel report from the scene may be used to disprove a sensor alarm if received within 15 minutes of the alarm, but shall not be required to verify the alarm.

D-73 REV 48  03/08 HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY HU3 Initiating Condition - NOTIFICATION OF UNUSUAL EVENT  Release of Toxic, Asphyxiant, or Flammable Gases Deemed Detrimental to Normal Operation of the Plant. Operating Mode Applicability: All  Threshold Values: (1 OR 2)  1. Report OR detection of toxic, asphyxiant, OR flammable gas that has OR could enter the Owner Controlled Area in amounts greater than life threatening OR flammable concentrations that can affect NORMAL PLANT OPERATIONS. 2. Report by Local, County, OR State Officials for evacuation OR sheltering of site personnel based on an offsite toxic, asphyxiant, OR flammable gas event. Basis:  NORMAL PLANT OPERATIONS: activities at the plant site associated with routine testing, maintenance, or equipment operations, in accordance with normal operating or administrative procedures. Entry into abnormal or emergency operating procedures, or deviation from normal security or radiological controls posture, is a departure from NORMAL PLANT OPERATIONs. This IC is based on the existence of uncontrolled releases of toxic, asphyxiant, or flammable gas that may enter the Owner Controlled Area and affect normal plant operations. It is intended that releases of toxic or flammable gases are of sufficient quantity, and the release point of such gases is such that normal plant operations would be affected. Offsite events are included through a warning by local officials as the resultant affect on NORMAL PLANT OPERATIONS would be the same. This would preclude small or incidental releases, or releases that do not impact structures needed for plant operation. The Threshold Values are not intended to require significant assessment or quantification. The IC assumes an uncontrolled process that has the potential to affect plant operations, or personnel safety.

D-75 REV 55  03/10 A higher initial classification could be made based upon the nature and timing of the security threat and potential consequences. The licensee shall consider upgrading the emergency response status and emergency classification level in accordance with the site's Safeguards Contingency Plan and Emergency Plan. In Threshold 1, reference is made to security shift supervision because these individuals are the designated personnel on-site qualified and trained to confirm that a security event is occurring or has occurred. Training on security event classification confirmation is closely controlled due to the strict secrecy controls placed on the plant Safeguards Contingency Plan. This threshold is based on site specific security plans. Site specific Safeguards Contingency Plans are based on guidance provided by NEI 03-12. 

The intent of Threshold Value 2 is to ensure that appropriate notifications for the security threat are made in a timely manner. This includes information of a CREDIBLE THREAT.

The intent of Threshold Value 3 is to ensure that notifications for the security threat are made in a timely manner and that Offsite Response Organizations and plant personnel are at a state of heightened awareness regarding the credible threat. It is not the intent of this EAL to replace existing non-hostile related EALs involving aircraft. This Threshold Value is met when a plant receives information regarding an aircraft threat from the NRC. Validation is performed by calling the NRC or by other approved methods of authentication. Only the plant to which the specific threat is made need declare the Unusual Event. The NRC Headquarters Operations Officer (HOO) will communicate to the licensee if the threat involves an airliner (airliner is meant to be a large aircraft with the potential for causing significant damage to the plant). The status and size of the plane may be provided by NORAD through the NRC. Escalation to Alert emergency classification level would be via HA4 would be appropriate if the threat involves an airliner within 30 minutes of the plant.

D-76 REV 48  03/08 HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY HU5 Initiating Condition - NOTIFICATION OF UNUSUAL EVENT  Other Conditions Existing Which in the Judgment of the Emergency Director Warrant Declaration of a NOUE. Operating Mode Applicability: All  Threshold Value:  1. Other conditions exist which in the judgment of the Emergency Director indicate that events are in process OR have occurred which indicate a potential degradation of the level of safety of the plant OR indicate a security threat to facility protection has been initiated. No releases of radioactive material requiring offsite response OR monitoring are expected unless further degradation of safety systems occurs. Basis:  This Threshold Value is intended to address unanticipated conditions not addressed explicitly elsewhere but that warrant declaration of an emergency because conditions exist which are believed by the Emergency Director to fall under the NOUE emergency class. From a broad perspective, one area that may warrant Emergency Director judgment is related to likely or actual breakdown of site-specific event mitigating actions. Examples to consider include inadequate emergency response procedures, transient response either unexpected or not understood, failure or unavailability of emergency systems during an accident in excess of that assumed in accident analysis, or insufficient availability of equipment and/or support personnel.

D-77 REV 48  03/08 HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY HA1 Initiating Condition -- ALERT  Natural and Destructive Phenomena Affecting the Plant VITAL AREA. Operating Mode Applicability: All  Threshold Values:  (1 OR 2 OR 3 OR 4 OR 5 OR 6)  1. Seismic monitoring system confirms seismic event greater than OBE Earthquake acceleration of 0.12 g. 2. Tornado OR high winds greater than 100 mph within the PROTECTED AREA boundary AND resulting in VISIBLE DAMAGE to any of the following plant structures/equipment OR the Control Room has indication of degraded performance of those systems: Containment Building Fuel Handling Building NSCW Cooling Towers Control Building Diesel Generator Building Diesel Fuel Oil Storage Tank Pumphouse Auxiliary Building Auxiliary Feedwater Pumphouse  3. Vehicle crash within PROTECTED AREA boundary AND resulting in VISIBLE DAMAGE to any of the following plant structures OR equipment therein OR control indication of degraded performance of those systems: Containment Building Fuel Handling Building NSCW Cooling Towers Control Building Diesel Generator Building Diesel Fuel Oil Storage Tank Pumphouse Auxiliary Building Auxiliary Feedwater Pumphouse  4. Turbine failure-generated missiles result in any VISIBLE DAMAGE to OR penetration of any area containing safety-related equipment, their controls OR their power supplies. Containment Building Fuel Handling Building NSCW Cooling Towers Control Building Diesel Generator Building Diesel Fuel Oil Storage Tank Pumphouse Auxiliary Building Auxiliary Feedwater Pumphouse  5. Uncontrolled flooding in areas of the plant that creates an industrial safety hazard (e.g., electric shock) that precludes access necessary to operate or monitor safety equipment. 6. Sustained hurricane winds greater than 74 mph onsite resulting in VISIBLE DAMAGE to plant structures within the PROTECTED AREA boundary containing equipment necessary for safe shutdown, or has caused damage as evidenced by control room indication of degraded performance of those systems.

D-78 REV 48  03/08  Basis:  PROTECTED AREA: the area which normally encompasses all controlled areas within the security protected area fence. VISIBLE DAMAGE:  is damage to equipment or structure that is readily observable without measurements, testing, or analysis. Damage is sufficient to cause concern regarding the continued operability or reliability of affected safety structure, system, or component. Example damage includes: deformation due to heat or impact, denting, penetration, rupture, cracking, paint blistering. Surface blemishes (e.g., paint chipping, scratches) should not be included. The Threshold Values in this IC escalate from the NOUE Threshold Values in HU1 in that the occurrence of the event has resulted in VISIBLE DAMAGE to plant structures or areas containing equipment necessary for a safe shutdown, or has caused damage to the safety systems in those structures evidenced by control indications of degraded system response or performance. The occurrence of VISIBLE DAMAGE and/or degraded system response is intended to discriminate against lesser events. The initial "report" should not be interpreted as mandating a lengthy damage assessment prior to classification. No attempt is made in this Threshold Value to assess the actual magnitude of the damage. The significance here is not that a particular system or structure was damaged, but rather, that the event was of sufficient magnitude to cause this degradation. Escalation to higher classifications occur on the basis of other ICs (e.g., System Malfunction). Threshold Value #1 is based on the OBE earthquake FSAR design basis of 0.12g horizontal acceleration. Seismic events of this magnitude can result in a plant VITAL AREA being subjected to forces beyond design limits, and thus damage may be assumed to have occurred to plant safety systems. See EPRI-sponsored "Guidelines for Nuclear Plant Response to an Earthquake", dated October 1989, for information on seismic event categories. Threshold Value #2 is based on the FSAR design basis. Wind loads greater than 110 mph can cause damage to safety functions. 100 mph was used for the Threshold Value because it is the highest reading available in the Control Room. Threshold Value #3 addresses crashes of vehicle types large enough to cause significant damage to plant structures containing functions and systems required for safe shutdown of the plant. Threshold Value #4 addresses the threat to safety related equipment imposed by missiles generated by main turbine rotating component failures. This list of areas includes all areas containing safety-related equipment, their controls, and their power supplies. This Threshold Value is, therefore, consistent with the definition of an ALERT in that if missiles have damaged or penetrated areas containing safety-related equipment the potential exists for substantial degradation of the level of safety of the plant. Threshold Value #5 addresses the effect of internal flooding that has created industrial safety hazards (e.g., electrical shock) that preclude necessary access to operate or monitor safety equipment. The inability to operate or monitor safety equipment represents a potential for substantial degradation of the level of safety of the plant. This flooding may have been caused D-79 REV 48  03/08 by internal events such as component failures, equipment misalignment, or outage activity mishaps. The site-specific areas include those areas that contain systems required for safe shutdown of the plant, that are not designed to be wetted or submerged. Threshold Value #6 covers site-specific phenomena of a hurricane. The Threshold Value is based on damage attributable to the wind.

D-80 REV 48  03/08 HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY HA2 Initiating Condition -- ALERT  FIRE OR EXPLOSION Affecting the Operability of Plant Safety Systems Required to Establish or Maintain Safe Shutdown. Operating Mode Applicability: All  Threshold Value:  1. FIRE OR EXPLOSION AND affected system parameter indications show degraded performance OR plant personnel report VISIBLE DAMAGE to permanent structures OR safety related equipment in any of the following VITAL AREAs: . Containment Building Fuel Handling Building NSCW Cooling Towers Control Building Diesel Generator Building Diesel Fuel Oil Storage Tank Pumphouse Auxiliary Building Auxiliary Feedwater Pumphouse  Basis:  FIRE:  is combustion characterized by heat and light. Sources of smoke such as slipping drive belts or overheated electrical equipment do not constitute FIREs. Observation of flame is preferred but is NOT required if large quantities of smoke and heat are observed. EXPLOSION: is a rapid, violent, unconfined combustion, or catastrophic failure of pressurized equipment that imparts energy of sufficient force to potentially damage permanent structures, systems, or components. VITAL AREA: any area, normally within the PROTECTED AREA, which contains equipment, systems, components, or material, the failure, destruction, or release of which could directly or indirectly endanger the public health and safety by exposure to radiation. VISIBLE DAMAGE:  is damage to equipment or structure that is readily observable without measurements, testing, or analysis. Damage is sufficient to cause concern regarding the continued operability or reliability of affected safety structure, system, or component. Example damage includes: deformation due to heat or impact, denting, penetration, rupture, cracking, paint blistering. Surface blemishes (e.g., paint chipping, scratches) should not be included. The areas listed contain functions and systems required for the safe shutdown of the plant to determine if the FIRE or EXPLOSION is potentially affecting any redundant trains of safety systems. Escalation to a higher emergency class, if appropriate, will be based on System D-81 REV 48  03/08 Malfunction, Fission Product Barrier Degradation, Abnormal Rad Levels / Radiological Effluent, or Emergency Director Judgment ICs. This Threshold Value addresses a FIRE / EXPLOSION and not the degradation in performance of affected systems. System degradation is addressed in the System Malfunction Threshold Values. The reference to damage of systems is used to identify the magnitude of the FIRE / EXPLOSION and to discriminate against minor FIREs / EXPLOSIONs. The reference to safety systems is included to discriminate against FIREs / EXPLOSIONs in areas having a low probability of affecting safe operation. The significance here is not that a safety system was degraded but the fact that the FIRE / EXPLOSION was large enough to cause damage to these systems. Thus, the designation of a single train was intentional and is appropriate when the FIRE / EXPLOSION is large enough to affect more than one component. This situation is not the same as removing equipment for maintenance that is covered by a plant's Technical Specifications. Removal of equipment for maintenance is a planned activity controlled in accordance with procedures and, as such, does not constitute a substantial degradation in the level of safety of the plant. A FIRE / EXPLOSION is an UNPLANNED activity and, as such, does constitute a substantial degradation in the level of safety of the plant. In this situation, an Alert classification is warranted. The inclusion of a "report of VISIBLE DAMAGE" should not be interpreted as mandating a lengthy damage assessment prior to classification. No attempt is made in this Threshold Value to assess the actual magnitude of the damage. The occurrence of the EXPLOSION with reports of evidence of damage is sufficient for declaration. The declaration of an Alert and the activation of the Technical Support Center will provide the Emergency Director with the resources needed to perform these damage assessments. The Emergency Director also needs to consider any security aspects of the EXPLOSIONs, if applicable.

D-82 REV 48  03/08 HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY HA3 Initiating Condition -- ALERT  Release of Toxic, Asphyxiant or Flammable Gases Within or Contiguous to a VITAL AREA Which Jeopardizes Operation of Systems Required to Maintain Safe Operations or Establish or Maintain Safe Shutdown. Operating Mode Applicability: All  Threshold Values:  (1 OR 2)  1. Report OR detection of toxic OR asphyxiant gas within OR contiguous to a VITAL AREA in concentrations that may result in an atmosphere IMMEDIATELY DANGEROUS TO LIFE AND HEALTH (IDLH). 2. Report OR detection of flammable gases in concentration greater than the LOWER FLAMMABILITY LIMIT within OR contiguous to a VITAL AREA. Basis:  VITAL AREA: any area, normally within the PROTECTED AREA, which contains equipment, systems, components, or material, the failure, destruction, or release of which could directly or indirectly endanger the public health and safety by exposure to radiation. IMMEDIATELY DANGEROUS TO LIFE AND HEALTH (IDLH):  A condition that either poses an immediate threat to life and health or an immediate threat of severe exposure to contaminants which are likely to have adverse delayed effects on health. LOWER FLAMMABILITY LIMIT (LFL):  The minimum concentration of a combustible substance that is capable of propagating a flame through a homogenous mixture of the combustible and a gaseous oxidizer. This IC is based on gases that affect the safe operation of the plant. This IC applies to buildings and areas contiguous to plant VITAL AREAs or other significant buildings or areas (i.e., service water pump house). The intent of this IC is not to include buildings (e.g., warehouses) or other areas that are not contiguous or immediately adjacent to plant VITAL AREAs. It is appropriate that augmented monitoring be done to ascertain whether consequential damage has occurred. Escalation to a higher emergency class, if appropriate, will be based on System Malfunction, Fission Product Barrier Degradation, Abnormal Rad Levels / Radioactive Effluent, or Emergency Director Judgment ICs. Threshold Value #1 is met if measurement of toxic gas concentration results in an atmosphere that is IDLH within a VITAL AREA or any area or building contiguous to VITAL AREA.

D-84 REV 55  03/10 HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY HA4 Initiating Condition -- ALERT  HOSTILE ACTION within the OWNER CONTROLLED AREA or airborne attack threat. Operating Mode Applicability: All  Threshold Values:    1. A HOSTILE ACTION is occurring or has occurred within the OWNER CONTROLED AREA as reported by security shift supervision. 2. A validated notification from NRC of an airliner attack threat within 30 minutes of the site. Basis: Note:  Timely and accurate communication between Security Shift Supervision and the Control Room is crucial for the implementation of effective Security EALs. HOSTILE ACTION: An act toward an NPP or its personnel that includes the use of violent force to destroy equipment, take hostages, and /or intimidate the licensee to achieve an end. This includes attack by air, land, or water using weapons, explosives, projectiles, vehicles, or other devices used to deliver destructive force. Other acts that satisfy the overall intent may be included. HOSTILE ACTION should not be construed to include acts of civil disobedience or felonious acts that are not part of a concerted attack on the NPP. Non-terrorism-based EALs should be used to address such activities, (e.g., violent acts between individuals in the owner controlled area.)  OWNER CONTROLED AREA - The utility owned property around the plant where access is controlled during declared emergencies by the plant security force. These EALs address the contingency for a very rapid progression of events, such as that experienced on September 11, 2001. They are not premised solely on the potential for a radiological release. Rather the issue includes the need for rapid assistance due to the possibility for significant and indeterminate damage from additional air, land or water attack elements. The fact that the site is under serious attack or is an identified attack target with minimal time available for further preparation or additional assistance to arrive requires a heightened state of readiness and implementation of protective measures that can be effective (such as on-site evacuation, dispersal or sheltering).

D-85 REV 55  03/10 Threshold 1 addresses the potential for a very rapid progression of events due to a HOSTILE ACTION. It is not intended to address incidents that are accidental events or acts of civil disobedience, such as small aircraft impact, hunters, or physical disputes between employees within the OCA. Those events are adequately addressed by other EALs. Note that this EAL is applicable for any HOSTILE ACTION occurring, or that has occurred, in the OWNER CONTROLLED AREA. This includes ISFSI's that may be outside the PROTECTED AREA but still within the OWNER CONTROLLED AREA. Threshold 2 addresses the immediacy of an expected threat arrival or impact on the site within a relatively short time. The intent of this EAL is to ensure that notifications for the airliner attack threat are made in a timely manner and that OROs and plant personnel are at a state of heightened awareness regarding the credible threat. Airliner is meant to be a large aircraft with the potential for causing significant damage to the plant. This EAL is met when a plant receives information regarding an airliner attack threat from NRC and the airliner is within 30 minutes of the plant. Only the plant to which the specific threat is made need declare the Alert. The NRC Headquarters Operations Officer (HOO) will communicate to the licensee if the threat involves an airliner (airliner is meant to be a large aircraft with the potential for causing significant damage to the plant). The status and size of the plane may be provided by NORAD through the NRC.

D-87 REV 48  03/08 HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY HA6 Initiating Condition -- ALERT  Other Conditions Existing Which in the Judgment of the Emergency Director Warrant Declaration of an Alert. Operating Mode Applicability: All  Threshold Value:  1. Other conditions exist which in the judgment of the Emergency Director indicate that events are in process OR have occurred which involve actual OR likely potential substantial degradation of the level of safety of the plant OR a security event that involves probable life threatening risk to site personnel or damage to site equipment because of intentional malicious dedicated efforts of HOSTILE ACTION. Any releases are expected to be limited to small fractions of the EPA Protective Action Guideline exposure levels. Basis: HOSTILE ACTION: An act toward an NPP or its personnel that includes the use of violent force to destroy equipment, take hostages, and /or intimidate the licensee to achieve an end. This includes attack by air, land, or water using weapons, explosives, projectiles, vehicles, or other devices used to deliver destructive force. Other acts that satisfy the overall intent may be included. HOSTILE ACTION should not be construed to include acts of civil disobedience or felonious acts that are not part of a concerted attack on the NPP. Non-terrorism-based EALs should be used to address such activities, (e.g., violent acts between individuals in the owner controlled area.)  This Threshold Value is intended to address unanticipated conditions not addressed explicitly elsewhere but that warrant declaration of an emergency because conditions exist which are believed by the Emergency Director to fall under the Alert emergency class.

D-88 REV 48  03/08    HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY HS2 Initiating Condition - SITE AREA EMERGENCY  Control Room Evacuation Has Been Initiated AND Plant Control Cannot Be Established. Operating Mode Applicability: All  Threshold Value:  1. a. Control Room evacuation has been initiated  AND    b. Control of the plant CANNOT be established per 18038 - Operation From the Remote Shutdown Panels, within 15 minutes. Basis:  Expeditious transfer of safety systems has not occurred but fission product barrier damage may not yet be indicated. The intent of this IC is to capture those events where control of the plant cannot be reestablished in a timely manner. Site-specific time for transfer based on analysis or assessments as to how quickly control must be reestablished without core uncovering and/or core damage. This time should not exceed 15 minutes without additional justification. The determination of whether or not control is established at the remote shutdown panel is based on Emergency Director (ED) judgment. The ED is expected to make a reasonable, informed judgment within the site-specific time for transfer that the licensee has control of the plant from the remote shutdown panel. The intent of the Threshold Value is to establish control of important plant equipment and knowledge of important plant parameters in a timely manner. Primary emphasis should be placed on those components and instruments that supply protection for and information about safety functions. These safety functions are reactivity control, RCS inventory, and secondary heat removal.

This condition represents an escalated threat to plant safety above that contained in the Alert in that a HOSTILE FORCE has progressed from the OWNER CONTROLLED AREA to the PROTECTED AREA. This EAL addresses the contingency for a very rapid progression of events, such as that experienced on September 11, 2001. It is not premised solely on the potential for a radiological release. Rather the issue includes the need for rapid assistance due to the possibility for significant and indeterminate damage from additional air, land or water attack elements. The fact that the site is under serious attack with minimal time available for further preparation or additional assistance to arrive requires ORO readiness and preparation for the implementation of protective measures. This EAL addresses the potential for a very rapid progression of events due to a HOSTILE ACTION. It is not intended to address incidents that are accidental events or acts of civil disobedience, such as small aircraft impact, hunters, or physical disputes between employees within the PROTECTED AREA. Those events are adequately addressed by other EALs.

D-93 REV 48  03/08 HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY HG2 Initiating Condition - GENERAL EMERGENCY  Other Conditions Existing Which in the Judgment of the Emergency Director Warrant Declaration of General Emergency. Operating Mode Applicability: All  Threshold Value:  1. Other conditions exist which in the judgment of the Emergency Director indicate that events are in process OR have occurred which involve actual OR imminent substantial core degradation OR melting with potential for loss of containment integrity OR HOSTILE ACTION that results in an actual loss of physical control of the facility.. Releases can be reasonably expected to exceed EPA Protective Action Guideline exposure levels offsite for more than the immediate site area. Basis: HOSTILE ACTION: An act toward an NPP or its personnel that includes the use of violent force to destroy equipment, takes hostages, and /or intimidates the licensee to achieve an end. This includes attack by air, land, or water using guns, explosives, projectiles, vehicles, or other devices used to deliver destructive force. Other acts that satisfy the overall intent may be included. HOSTILE ACTION should not be construed to include acts of civil disobedience or felonious acts that are not part of a concerted attack on the NPP. Non- terrorism-based EALs should be used to address such activities, (e.g., violent acts between individuals in the owner controlled area.)  This Threshold Value is intended to address unanticipated conditions not addressed explicitly elsewhere but that warrant declaration of an emergency because conditions exist which are believed by the Emergency Director to fall under the General Emergency class.

D-93a REV 60  07/13 HAZARDS AND OTHER CONDITIONS AFFECTING PLANT SAFETY E-HU1 Initiating Condition  Damage to a loaded cask CONFINEMENT BOUNDARY. Operating Mode Applicability:  Not Applicable  Threshold Value:    (1)  1. Damage to a loaded dry fuel storage cask CONFINEMENT BOUNDARY due to natural phenomena events, accident conditions OR any condition in the opinion of the emergency director that affects OR causes a loss of loaded dry fuel storage cask CONFINEMENT BOUNDARY. Basis:  CONFINEMENT BOUNDARY:  is the barrier(s) between areas containing radioactive substances and the environment. A NOUE in this IC is categorized on the basis of the occurrence of an event of sufficient magnitude that a loaded cask CONFINEMENT BOUNDARY is damaged or violated. This includes classification based on a loaded fuel storage cask CONFINEMENT BOUNDARY loss leading to the degradation of the fuel during storage or posing an operational safety problem with respect to its removal from storage. Any condition, which, in the judgment of the Emergency Director, is a potential degradation in the level of safety of the ISFSI. Emergency director judgment is to be based on known conditions and the expected response to mitigating activities within a short time period. 

D-94 REV 48 03/08 SYSTEM MALFUNCTION SU1 Initiating Condition -- NOTIFICATION OF UNUSUAL EVENT  Loss of All Offsite Power to Essential Busses for Greater Than 15 Minutes. Operating Mode Applicability: Power Operation  Startup  Hot Standby  Hot Shutdown  Threshold Value:  1. a. Loss of power to OR from transformers 1(2)NXRA  AND 1(2)NXRB resulting in loss of all off-site electrical power to BOTH 1(2)AA02 AND 1(2)BA03 for greater than 15 minutes  AND  b. Emergency diesel generators supplying power to BOTH 1(2)AA02 AND 1(2)BA03. Basis:  Prolonged loss of AC power reduces required redundancy and potentially degrades the level of safety of the plant by rendering the plant more vulnerable to a complete Loss of AC Power (e.g., Station Blackout). Fifteen minutes was selected as a threshold to exclude transient or momentary power losses. Plants that have the capability to cross-tie AC power from a companion unit may take credit for the redundant power source in the associated Threshold Value for this IC. Inability to effect the cross-tie within 15 minutes warrants declaring a NOUE.

D-95 REV 48 03/08 SYSTEM MALFUNCTION SU2 Initiating Condition -- NOTIFICATION OF UNUSUAL EVENT  Inability to Reach Required Shutdown Within Technical Specification Limits. Operating Mode Applicability: Power Operation  Startup  Hot Standby  Hot Shutdown  Threshold Value:  1. Plant is NOT brought to required operating mode within Technical Specifications LCO Action Statement Time limit. Basis:  Limiting Conditions of Operation (LCOs) require the plant to be brought to a required shutdown mode when the Technical Specification required configuration cannot be restored. Depending on the circumstances, this may or may not be an emergency or precursor to a more severe condition. In any case, the initiation of plant shutdown required by the site Technical Specifications requires a one hour report under 10 CFR 50.72 (b) Non-emergency events. The plant is within its safety envelope when being shut down within the allowable action statement time in the Technical Specifications. An immediate NOUE is required when the plant is not brought to the required operating mode within the allowable action statement time in the Technical Specifications. Declaration of a NOUE is based on the time at which the LCO-specified action statement time period elapses under the site Technical Specifications and is not related to how long a condition may have existed. Other required Technical Specification shutdowns that involve precursors to more serious events are addressed by other System Malfunction, Hazards, or Fission Product Barrier Degradation ICs.

D-96 REV 48 03/08 SYSTEM MALFUNCTION SU3 Initiating Condition -- NOTIFICATION OF UNUSUAL EVENT  UNPLANNED Loss of Most or All Safety System Annunciation or Indication in the Control Room for Greater Than 15 Minutes  Operating Mode Applicability: Power Operation  Startup  Hot Standby  Hot Shutdown  Threshold Value:  1. UNPLANNED loss of most OR all of the MCB annunciators OR indicators associated with safety systems for greater than 15 minutes. Basis:  UNPLANNED:  a parameter change or an event that is not the result of an intended evolution and requires corrective or mitigative actions. This IC and its associated Threshold Value are intended to recognize the difficulty associated with monitoring changing plant conditions without the use of a major portion of the annunciation or indication equipment. Recognition of the availability of computer based indication equipment is considered (e.g., SPDS, plant computer, etc.). Quantification of "Most" is arbitrary, however, it is estimated that if approximately 75% of the safety system annunciators or indicators are lost, there is a greater risk that a degraded plant condition could go undetected. It is not intended that plant personnel perform a detailed count of the instrumentation lost but use the value as a judgment threshold for determining the severity of the plant conditions. It is further recognized that most plant designs provide redundant safety system indication powered from separate uninterruptible power supplies. While failure of a large portion of annunciators is more likely than a failure of a large portion of indications, the concern is included in this Threshold Value due to difficulty associated with assessment of plant conditions. The loss of specific, or several, safety system indicators should remain a function of that specific system or component operability status. This will be addressed by the specific Technical Specification. The initiation of a Technical Specification imposed plant shutdown related to the instrument loss will be reported via 10 CFR 50.72. If the shutdown is not in compliance with the Technical Specification action, the NOUE is based on SU2 "Inability to Reach Required Shutdown Within Technical Specification Limits."  The annunciators or indicators for this Threshold Value include those identified in the Abnormal Operating Procedures, in the Emergency Operating Procedures, and in other Threshold Values (e.g., area, process, and/or effluent rad monitors, etc.).

This IC is included as a NOUE because it is considered to be a potential degradation in the level of safety of the plant and a potential precursor of more serious problems. EALThreshold Value #1 addresses the site specific radiation monitor reading that provides indication of loss of fuel clad integrity.

The Threshold Value #2 addresses coolant samples exceeding coolant technical specifications for iodine spike. Escalation of this IC to the Alert level is via the Fission Product Barrier Degradation Monitoring ICs. Though the referenced Technical Specification limits are mode dependent, it is appropriate that the Threshold Value's be applicable in all modes, as they indicate a potential degradation in the level of safety of the plant. The companion IC to SU4 for the Cold Shutdown/Refueling modes is CU5. 

D-104 REV 48  03/08 SYSTEM MALFUNCTION SA4 Initiating Condition -- ALERT  UNPLANNED Loss of Most or All Safety System Annunciation or Indication in Control Room With EITHER (1) a SIGNIFICANT TRANSIENT in Progress, OR (2) Compensatory Non-Alarming Indicators are Unavailable. Operating Mode Applicability: Power Operation  Startup  Hot Standby  Hot Shutdown  Threshold Value: (1 AND EITHER 2.a OR b.)    1. UNPLANNED loss of most OR all MCB annunciators OR indicators associated with safety systems for greater than 15 minutes  AND EITHER  2. a. A SIGNIFICANT TRANSIENT is in progress    OR    b. Compensatory non-alarming indications are NOT available  Basis: UNPLANNED:  a parameter change or an event that is not the result of an intended evolution and requires corrective or mitigative actions. SIGNIFICANT TRANSIENT:  is an UNPLANNED event involving one or more of the following: (1) automatic turbine runback >25% thermal reactor power, (2) electrical load rejection >25% full electrical load, (3) Reactor Trip, (4) Safety Injection Activation, or (5) thermal power oscillations >10%. This IC and its associated Threshold Values are intended to recognize the difficulty associated with monitoring changing plant conditions without the use of a major portion of the annunciation or indication equipment during a transient. Recognition of the availability of computer based indication equipment is considered (e.g., SPDS, plant computer, etc.).  "Planned" loss of annunciators or indicators includes scheduled maintenance and testing activities. Quantification of "Most" is arbitrary, however, it is estimated that if approximately 75% of the safety system annunciators or indicators are lost, there is a greater risk that a degraded plant condition could go undetected. It is not intended that plant personnel perform a detailed count of the instrumentation lost but use the value as a judgment threshold for determining the severity of the plant conditions. It is D-105 REV 48  03/08 also not intended that the Shift Supervisor be tasked with making a judgment decision as to whether additional personnel are required to provide augmented monitoring of system operation. It is further recognized that most plant designs provide redundant safety system indication powered from separate uninterruptible power supplies. While failure of a large portion of annunciators is more likely than a failure of a large portion of indications, the concern is included in this Threshold Value due to difficulty associated with assessment of plant conditions. The loss of specific, or several, safety system indicators should remain a function of that specific system or component operability status. This will be addressed by the specific Technical Specification. The initiation of a Technical Specification imposed plant shutdown related to the instrument loss will be reported via 10 CFR 50.72. If the shutdown is not in compliance with the Technical Specification action, the NOUE is based on SU2 "Inability to Reach Required Shutdown Within Technical Specification Limits."  The annunciators or indicators for this Threshold Value include those identified in the Abnormal Operating Procedures, in the Emergency Operating Procedures, and in other Threshold Values (e.g., area, process, and/or effluent rad monitors, etc.).  "Compensatory non-alarming indications" in this context includes computer based information such as SPDS. This should include all computer systems available for this use depending on specific plant design and subsequent retrofits. If both a major portion of the annunciation system and all computer monitoring are unavailable, the Alert is required. Due to the limited number of safety systems in operation during cold shutdown, refueling and defueled modes, no IC is indicated during these modes of operation.

D-108 REV 48  03/08 SYSTEM MALFUNCTION SS2 Initiating Condition -- SITE AREA EMERGENCY  Failure of Reactor Protection System Instrumentation to Complete or Initiate an Automatic Reactor Trip Once a Reactor Protection System Setpoint Has Been Exceeded AND Manual Trip Was NOT Successful. Operating Mode Applicability: Power Operation  Startup Threshold Value:  ______________________________________________________________________ NOTE A successful manual trip for purposes of declaration is any action taken from the Main Control Board (MCB) that rapidly inserts the control rods, this can be accomplished by tripping the reactor using the Reactor Trip switches on the MCB OR by de-energizing both Rod Drive Motor Generator sets from the MCB. ______________________________________________________________________  1. Indications exist that a reactor protection system setpoint was exceeded and automatic trip did not occur, and a manual trip did not result in the reactor being made subcritical.(NOTE)  Basis:  Automatic and manual trip are not considered successful if action away from the reactor control console was required to trip the reactor. The Reactor should be considered subcritical when reactor power level has been reduced to less than 5% power and SUR is negative. Under these continued power generation conditions, the reactor may be producing more heat than the maximum decay heat load for which the safety systems are designed. A Site Area Emergency is indicated because conditions exist that may lead to imminent loss or potential loss of both fuel clad and RCS. Although this IC may be viewed as redundant to the Fission Product Barrier Degradation IC, its inclusion is necessary to better assure timely recognition and emergency response. Escalation of this event to a General Emergency would be via Fission Product Barrier Degradation or Emergency Director Judgment ICs.

D-110 REV 48  03/08 SYSTEM MALFUNCTION SS4 Initiating Condition -- SITE AREA EMERGENCY  Complete Loss of Heat Removal Capability. Operating Mode Applicability: Power Operation  Startup  Hot Standby  Hot Shutdown  Threshold Value: _____________________________________________________________________ NOTE Heat Sink CSF should not be considered -RED if total AFW flow is less than 570 gpm due to operator action. _____________________________________________________________________  1. Complete Loss of Heat Removal Capability as indicated by:  a. Core Cooling CSF - ORANGE   AND  b. Heat Sink CSF - RED  Basis:  This Threshold Value addresses complete loss of functions, including ultimate heat sink (NSCW), required for hot shutdown with the reactor at pressure and temperature. Reactivity control is addressed in other Threshold Values. Under these conditions, there is an actual major failure of a system intended for protection of the public. Thus, declaration of a Site Area Emergency is warranted. Escalation to General Emergency would be via Abnormal Rad Levels / Radiological Effluent, Emergency Director Judgment, or Fission Product Barrier Degradation ICs.

D-111 REV 48  03/08 SYSTEM MALFUNCTION SS6 Initiating Condition -- SITE AREA EMERGENCY  Inability to Monitor a SIGNIFICANT TRANSIENT in Progress. Operating Mode Applicability: Power Operation  Startup  Hot Standby  Hot Shutdown  Threshold Value: 1. a. SIGNIFICANT TRANSIENT in progress  AND  b. Loss of most OR all of the MCB annunciators OR indicators associated with safety systems    AND  c. Compensatory non-alarming indications are NOT available    AND  d. Indications needed to monitor the Critical Safety Function Status Tree parameters are NOT available  Basis: SIGNIFICANT TRANSIENT:  is an UNPLANNED event involving one or more of the following: (1) automatic turbine runback >25% thermal reactor power, (2) electrical load rejection >25% full electrical load, (3) Reactor Trip, (4) Safety Injection Activation, or (5) thermal power oscillations >10%. This IC and its associated Threshold Value are intended to recognize the inability of the control room staff to monitor the plant response to a transient. A Site Area Emergency is considered to exist if the control room staff cannot monitor safety functions needed for protection of the public. The annunciators for this Threshold Value are limited to include those identified in the Abnormal Operating Procedures, in the Emergency Operating Procedures, and in other Threshold Values (e.g., rad monitors, etc.)  "Compensatory non-alarming indications" in this context includes computer based information such as SPDS. The indications needed to monitor safety functions necessary for protection of the public must include control room indications, computer generated indications and dedicated annunciation capability. The specific indications are those used to determine such functions as the ability to shut down the reactor, D-112 REV 48  03/08 maintain the core cooled, to maintain the reactor coolant system intact, and to maintain containment intact.  "Planned" and "UNPLANNED" actions are not differentiated since the loss of instrumentation of this magnitude is of such significance during a transient that the cause of the loss is not an ameliorating factor. Quantification of "Most" is arbitrary, however, it is estimated that if approximately 75% of the safety system annunciators or indicators are lost, there is a greater risk that a degraded plant condition could go undetected. It is not intended that plant personnel perform a detailed count of the instrumentation lost but use the value as a judgment threshold for determining the severity of the plant conditions. It is also not intended that the Shift Supervisor be tasked with making a judgment decision as to whether additional personnel are required to provide augmented monitoring of system operation.

D-113 REV 48  03/08 SYSTEM MALFUNCTION SG1  Initiating Condition -- GENERAL EMERGENCY  Prolonged Loss of All Offsite Power AND Prolonged Loss of All Onsite AC Power to Essential Busses. Operating Mode Applicability: Power Operation  Startup  Hot Standby  Hot Shutdown  Threshold Value: (1 AND EITHER 2 OR 3)  1. Loss of ALL AC power indicated by:  a. Loss of power to OR from transformers 1(2)NXRA  AND 1(2)NXRB resulting in loss of all off-site electrical power to BOTH 1(2)AA02 AND 1(2)BA03 for greater than 15 minutes    AND  b. Failure of emergency diesel generators to supply power to emergency busses. AND EITHER  2. Restoration of at least one 4160V ESF bus, AA02 OR BA03, within 4 hr. of time of loss is NOT likely    OR  3. Fuel Clad Barrier Evaluation indicates continuing degradation (Loss or Potential Loss) due to core cooling  Basis:  Loss of all AC power compromises all plant safety systems requiring electric power including RHR, ECCS, Containment Heat Removal and the Ultimate Heat Sink. Prolonged loss of all AC power will lead to loss of fuel clad, RCS, and containment. The 4 hours to restore AC power is based on a site blackout coping analysis performed in conformance with 10 CFR 50.63 and Regulatory Guide 1.155, "Station Blackout". Appropriate allowance for offsite emergency response including evacuation of surrounding areas should be considered. Although this IC may be viewed as redundant to the Fission Product Barrier Degradation IC, its inclusion is necessary to better assure timely recognition and emergency response.

D-114 REV 48  03/08  This IC is specified to assure that in the unlikely event of a prolonged station blackout, timely recognition of the seriousness of the event occurs and that declaration of a General Emergency occurs as early as is appropriate, based on a reasonable assessment of the event trajectory. The likelihood of restoring at least one emergency bus should be based on a realistic appraisal of the situation since a delay in an upgrade decision based on only a chance of mitigating the event could result in a loss of valuable time in preparing and implementing public protective actions. In addition, under these conditions, fission product barrier monitoring capability may be degraded. Although it may be difficult to predict when power can be restored, it is necessary to give the Emergency Director a reasonable idea of how quickly (s)he may need to declare a General Emergency based on two major considerations:  1. Are there any present indications that core cooling is already degraded to the point that Loss or Potential Loss of Fission Product Barriers is imminent?  2. If there are no present indications of such core cooling degradation, how likely is it that power can be restored in time to assure that a loss of two barriers with a potential loss of the third barrier can be prevented?  Thus, indication of continuing core cooling degradation must be based on Fission Product Barrier monitoring with particular emphasis on Emergency Director judgment as it relates to imminent Loss or Potential Loss of fission product barriers and degraded ability to monitor fission product barriers.

D-116 REV 48  03/08  Another consideration is the inability to initially remove heat during the early stages of this sequence. If emergency feedwater flow is insufficient to remove the amount of heat required by design from at least one steam generator, an extreme challenge should be considered to exist. This Threshold Value equates to a Heat Sink RED condition. In the event either of these challenges exist at a time that the reactor has not been brought below the power associated with the safety system design (typically 3 to 5% power) a core melt sequence exists. In this situation, core degradation can occur rapidly. For this reason, the General Emergency declaration is intended to be anticipatory of the fission product barrier matrix declaration to permit maximum offsite intervention time.

E-1 REV 61  06/14 E. NOTIFICATION METHODS AND PROCEDURES This section describes the plan for notification of onsite and offsite Vogtle Electric Generating Plant (VEGP) response personnel and State, local, and Nuclear Regulatory Commission (NRC) emergency response centers. Actual methods and sequencing of notifications are covered in appropriate implementation procedures (NMP-EP-111, Emergency Notifications, and Procedure 91204-C, Emergency Response Communications). Tables E-1 and E-2 and figure E-1 present the initial notification concept.

The primary means for notification of personnel within the protected area is the public address (PA) system. Upon declaration of a Notification of Unusual Event (NUE), an Alert, a Site Area Emergency, or a General Emergency, the emergency director will order an announcement of the emergency 

The tone signals for each of these classes of emergency conditions, as well as for a fire, are as follows:

* NUE:  announcement only, no tone signal.

* Alert:  warble tone.

* Site Area Emergency: warble tone.

* General Emergency:  warble tone.

* Fire: siren tone. During security related events the ED may elect to not sound a warning tone and, in such cases, will provide event specific instructions for onsite personnel over the PA system as well as other available communications means as needed.

The supervisor nuclear security is responsible for notifying Plant Wilson, the training center, the visitors center, and recreation park staff. All visitors at the visitors center will leave the site if directed by the emergency director or if a Site Area or General Emergency is declared. Security will activate the site siren to notify personnel on site, outside the protected area of an evacuation order.

E-2 REV 60  07/13 The Security Department will also be responsible for evacuating all visitors and nonessential personnel from the Plant Vogtle Recreational Park and for the verification of the evacuation of all nonessential personnel from Plant Wilson, the training center, and the remaining areas inside the owner controlled area.

Visitors within the protected area are escorted by a permanently badged individual. This individual is responsible for informing the visitors of emergencies when they occur and for taking action to evacuate the visitors from the site, as necessary. 

Plant and contractor personnel will be trained on actions to be taken in an emergency prior to their work assignment.

Otherwise, they must be escorted by an individual who has been trained in emergency procedures. The training includes instructions on the methods of personnel notification and the required personnel actions in the event of an emergency. 

E.2 NOTIFICATION OF STATE AND LOCAL RESPONSE PERSONNEL The emergency director is responsible for the completion of the Initial Message Form (see figure E-1 for a sample form) and for the notification of the following within 15 min of the declaration of an emergency:

* Department of Energy-Savannah River (DOE SR) Operations Center communicator. These agencies will be responsible for notifying appropriate response personnel in accordance with their emergency plans and procedures. A dedicated telephone system, known as the Emergency Notification Network (ENN), will normally be used to accomplish these notifications. Section F describes the ENN and backup means of communication. Figure E-1 presents the sample initial message form for making notifications to these response centers. This form has been developed in conjunction with appropriate offsite agencies. The message form may be transmitted electronically or verbally. E.3 NOTIFICATION OF FEDERAL AGENCIES The emergency director is responsible for ordering notification calls to the DOE-SR Operations Center by ENN and to the NRC Operations Center by the Emergency Notification System (ENS) or commercial telephone as backup within prescribed time constraints from the declaration of an emergency. Examples of the type of Initial Emergency Message Form used to provide the initial notification to the SRS Operations Center, and the NRC Operations Center Event Notification Form used for the NRC notification, are shown in figures E-1 and E-2, respectively.

In the event that an emergency is declared at the Vogtle Electric Generating Plant (VEGP), DOE-SR has agreed to provide for the prompt notification of all persons on the SRS within VEGP's plume exposure pathway EPZ. See appendix 5. 

E-4 REV 56    09/10 E.5 FOLLOWUP EMERGENCY MESSAGES The emergency director is responsible for the completion of a followup emergency message.  (See figure E-1, sample form.)

The appropriate support coordinator will ensure the emergency communicator(s) periodically provide followup messages to the appropriate offsite Federal, State, and local authorities.

E.6 VERIFICATION OF NOTIFICATION MESSAGES All notification messages must be verified. When the ENN is used, verification is accomplished by roll call. This is a suitable mechanism, since the ENN is a multiparty dedicated telephone line. When commercial telephone or radio is used for notification, the called party will contact the Vogtle Electric Generating Plant to verify the validity of the message or use the authentication system provided by the State of South Carolina EPD. When electronic notifications are performed, verification is accomplished by roll call.

REV 35  6/02 TABLE E-1 (SHEET 1 OF 2)  INITIAL NOTIFICATION SYSTEM NORMAL WORKING HOURS    Responsible Communicator Primary Notification System  Party Notified Control Room Staff PA system 1. Protected area and Admin. Bldg. personnel  PA system telephone, pager  2. Vogtle duty manager  Autodialer system and beeper system 3. Recall for emergency response personnel not on site Security Department Plant 1. Visitors center personnel  telephone 2. Training center personnel  system 3. Personnel onsite, outside protected area  4. Personnel at Plant Wilson  Direct contact Recreation area occupants ENN Communicator ENN 1. GEMA Operations Center communicator  2. Burke County EOC communicator  3. SRS Operations Center communicator  4. South Carolina Warning Point  5. Aiken County sheriff dispatcher  6. Barnwell County sheriff dispatcher  7. Allendale County Central Dispatcher REV 58    09/12 TABLE E-1 (SHEET 2 OF 2)    Responsible Communicator Primary Notification System  Party Notified Operations Staff ENS NRC Operations Center    Vogtle duty manager telephone Nuclear Duty Officer   

REV 58  09/12 TABLE E-2 (SHEET 1 OF 2)  INITIAL NOTIFICATION SYSTEM BACKSHIFT HOURS    Responsible Communicator Primary Notification System  Party Notified Control Room Staff Public 1. Protected area  address  personnel  system  Telephone 2. Vogtle duty manager  and  pager  Autodialer system and beeper system 3. Recall for emergency response personnel not on site ENN Communicator ENN 1. GEMA Operations Center    communicator  2. Burke County EOC    communicator  3. SRS communicator      4. South Carolina Warning    Point  5. Aiken County sheriff    dispatcher  6. Barnwell County    sheriff dispatcher  7. Allendale County    Central dispatcher Operations Staff ENS 1. NRC Operations Center    Vogtle duty manager Telephone 1. Nuclear Duty Officer    VEGP security Plant 1. Visitors center personnel  telephone  system 2. Training center personnel      3. Personnel onsite,    outside protected area  4. Plant Wilson   

F-1 REV 56    09/10 F. EMERGENCY COMMUNICATIONS This section describes the provisions for communication among the principal response organizations and among the Vogtle Electric Generating Plant (VEGP) Emergency Response Facilities (ERF). See Procedure 91204-C, Emergency Response Communications, for details of communication systems and operation. The communications described in this section are summarized in table F-1.

F.1 COMMUNICATIONS WITH THE STATE OF GEORGIA AND BURKE COUNTY F.1.1 State of Georgia The primary means of communication between the VEGP and the State of Georgia is the Emergency Notification Network (ENN), a dedicated telephone system from the plant to the State Emergency Operating Center (EOC) at Georgia Emergency Management Agency (GEMA) headquarters in Atlanta, Georgia. There is also an ENN terminal at GEMA's FEOC. Extensions for this system are located in the control room, technical support center (TSC), emergency operations facility (EOF). The ENN system is available and manned 24 h per day. Commercial telephones and a Southern Company Communications in Atlanta provide backup for the dedicated telephone circuits. The plant telephone backup power is supplied by a battery system.

The primary means of communication between VEGP and Burke County is the ENN, a dedicated telephone system from the plant to the Burke County EOC. Commercial telephones and Southern Company Communications provide backups for the ENN.

The ENN is available and manned 24 h per day. At the plant, the emergency director is in charge of communications to the Burke County EOC. Actual communications may be completed by others as designated by the emergency director. At the Burke County EOC, the Burke County emergency management director is in charge of communications.

the South Carolina Warning Point (the State emergency operations center (SEOC)) which is manned 24 h per day. Commercial telephones provide the backup for the ENN.

The ENN system is available and manned 24 h per day. Commercial telephones provide a backup for the ENN.

F-3 REV 30    07/00  At VEGP, the emergency director is in charge of communications to the SRS Operations Centers. Actual communications may be completed by others as designated by the emergency director. At the SRS Operations Center, the DOE duty officer is in charge of communications with VEGP. F.4 COMMUNICATIONS WITH NUCLEAR REGULATORY COMMISSION AND OTHER FEDERAL AGENCIES  The primary means of communication between VEGP and the Nuclear Regulatory Commission (NRC) is the emergency notification system (ENS). The ENS phone service is provided by the Federal Telecommunications System (FTS).

Emergency notification system phones are located in the control room, TSC, and EOF. The NRC also provides the health physics network (HPN). The HPN phone service is also provided by the FTS. Health physics network phones are located in the TSC and EOF. In the TSC, the HPN telephone is located in the communications room and will be attended by VEGP personnel until an NRC representative arrives. The NRC Region II office in Atlanta, Georgia, may also be connected on the ENS through Rockville, Maryland.

Commercial telephone lines and the Southern Company Communications serve as backups to the ENS and HPN. Communications with other Federal emergency response organizations will be by telephone. F.5 COMMUNICATIONS AMONG VEGP EMERGENCY RESPONSE FACILITIES  Communications among the control room, TSC, OSC, and EOF can be completed using dedicated telephone circuits, normal plant telephones, and radio, using the plant network. The radio system is also used for communications with the radiological monitoring teams.

* Facsimile. F.6 MEDICAL SUPPORT FACILITY COMMUNICATIONS  Communications with Doctors Hospital or the Burke Medical Center will be by commercial telephone. Radio contact through the Burke County EOC serves as a backup. The Burke County Ambulance Service is equipped with a radio for communications with the hospitals. The ambulance service and hospitals within the state are interconnected in a statewide hospital radio network. Vogtle Electric Generating Plant can communicate with the ambulances by contacting the hospitals, which have radio communications with the ambulances.

F-7 REV 43    05/06 F.7 ALERTING EMERGENCY RESPONSE PERSONNEL  As described in section E, notification of onsite personnel at VEGP will be completed through a combination of public address system announcements, tone signals, and proceduralized telephone calls. After normal working hours, VEGP personnel not on site at the time of the emergency will be notified by beeper (for plant management) or by telephone call using an autodialer system. F.8 COMMUNICATIONS SYSTEM TESTS  Communication channels with the State of Georgia, Burke County, the State of South Carolina, Aiken County, Barnwell County, Allendale County, SRS, and the NRC will be tested monthly, using the extensions in the control room, TSC, and EOF. Communications systems that link the control room, TSC, EOF, State EOC's and GEMA FEOC, County EOC's and SRS EOC are tested quarterly. The communication system for communicating between the TSC, EOF, and VEGP field monitoring teams is tested quarterly. Communications procedures and systems are also tested biennially during a communications drill. This drill is normally conducted during the biennial exercise.

F-8  REV 60  07/13 TABLE F-1 EMERGENCY RESPONSE COMMUNICATIONS SUMMARY  CONTROL ROOM TSC OSC EOF JOINT INFORMATION CENTER CORPORATE OFFICE BURKE COUNTY EOC GEMA FEOC GEMA EOC SRS NRC OPERATIONS CENTER NRC REGION II OFFICE ATLANTA SC STATE EOC SC COUNTY EOC'S SC COUNTY WARNING POINTS ENN                ENS            (a)    VEGP DIAL                DEDICATED DIAL                BELL DIAL                IN-PLANT RADIO                PLANT PAGE SYSTEM (PA)                                SOUTHERN COMPANY COMMUNICATIONS                HPN                FACSIMILE                FIELD TEAM RADIO                DNR RADIO                SC EMD RADIO                ADMINISTRATIVE DECISION LINE                ERDS                  (a)  ENS available when bridged with NRC Operations Center G-1 REV 24    03/97 G. PUBLIC EDUCATION AND INFORMATION The detailed planning for public information actions during an emergency, including rumor control, is contained in the Emergency Communications Plan (appendix 8). A general description of the public education and information program follows.

Georgia Power Company (GPC) and Southern Nuclear Operating Company (SNC) in coordination with State and local officials will provide information to the public at least annually regarding how they will be notified and what their actions should be in an emergency. All materials used to provide emergency planning information to the public (information brochures, advertisements, signs and notices, etc.) will be reviewed by GPC and SNC on an annual basis. All materials will be updated as necessary and printed material distributed annually.

Information is distributed annually to residents in the plume exposure pathway emergency planning zone (EPZ) through an emergency information calendar entitled, "The Plant Vogtle Emergency Information Calendar". The text of the calendar addresses the following subjects:

G-2 REV 41  12/05  Where to get more information or other help. What radiation is. Special needs card. A joint message from Southern Nuclear Operating Company, the states of Georgia and South Carolina, and Burke, Aiken, Allendale, and Barnwell counties explaining the contents of the calendar, asking that they read the emergency information, requesting that they keep it in a handy place, and giving contacts for further information. In addition, public information personnel provide public education programs to the community. These programs typically focus on plant operational concepts, plant safety considerations, and radiation.

G.1 INFORMATION FOR TRANSIENTS  Signs and notices providing information to transients are placed in public recreation areas as well as other public places in the plume EPZ such as siren poles, the Plant Vogtle Visitors Center, and in commercial establishments; for example, motels, restaurants, and gas stations. This material will include the following information:  How people will be warned of an emergency. What to do if warned of an emergency. A list of radio and television stations to tune to for further information.

G-3 REV 60  07/13  Finally, a Vogtle emergency information brochure will be made available within the EPZ to transients at commercial establishments, churches, motels, hunting clubs, Creek and Cawden Plantations, the Plant Vogtle Visitors Center, and through residents whose land is used by nonresidents (e.g., the occasional nonresident hunter). Outside the EPZ, the brochure will be made available to timber company offices for distribution to their employees who enter the EPZ on Company business, and to the Waynesboro Office of the Agriculture Stabilization & Conservation Service for distribution to farmers who farm, but do not reside, in the EPZ. G.2 JOINT INFORMATION CENTER OPERATIONS  The joint information center (JIC) will be the principal point of contact with the news media during an emergency. The JIC will accommodate public information representatives from SNC, GPC, State, local and Federal response agencies. News releases and media briefings will be coordinated to the maximum extent possible.

GPC will utilize the Corporate Headquarters Building at 241 Ralph McGill Boulevard, NE, Atlanta, Georgia, to serve as a temporary information center until the JIC in Waynesboro is activated. Once activated, the JIC becomes the principal location for dissemination of information about the emergency. This facility is located approximately 15 miles from the plant and can accommodate a large number of reporters.

Principal GPC and SNC contacts for the media will be the public information director and the designated Company spokesperson. The Company spokesperson position is filled by individuals who, under normal operations, hold supervisory positions on the SNC Corporate or plant staff and are technically and professionally qualified to perform this important function. The Company spokesperson has access to all information and telephone contact with the emergency director through the EOF Manager. He briefs the media on plant status and Company emergency activities. In addition, technical briefers have been designated who can provide general and background information, as appropriate, to reporters at the JIC.

Further information on the public information organization and information flow to the public during an emergency is available in appendix 8.

G-4 REV 60  07/13 G.3 OFFSITE AGENCY COORDINATION  GPC and SNC will provide timely and accurate information to local, State and federal agencies and will seek reciprocal information from these agencies. Efforts will be made to coordinate periodic press briefings and to issue public statements in conjunction with these Government agencies. A joint public information center operation at the Joint Information Center will provide ample opportunity for all parties represented to review all information prior to public release. G.4 RUMOR CONTROL  Providing timely, accurate, and consistent information to the public is considered the best way to dispel rumors. Rumors are controlled by having a single source of information. In an emergency, a rumor control network will be activated. News media will be monitored to detect and respond to misinformation. The public will be instructed to listen to their radio or TV.

Offsite information is the responsibility of offsite agencies; however, rumor control will be coordinated between the states, SNC, and GPC. The states, SNC, and GPC provide information jointly to the rumor control desk at the JIC. G.5 MEDIA EDUCATION  GPC will offer an annual program to acquaint the news media with the methodology for obtaining information about overall emergency preparedness at Vogtle.

Training will include information about the plant, radiation, and the role of the emergency news center.

H-1 REV 51    10/08 H. EMERGENCY FACILITIES AND EQUIPMENT Following the declaration of an emergency, response activities will be coordinated at a number of facilities.

These Emergency Response Facilities (ERF) and the equipment which will be used for accident assessment and monitoring functions are described in this section.

H.1 EMERGENCY FACILITIES 1. TECHNICAL SUPPORT CENTER (TSC)  The TSC has been established consistent with NUREG 0696, as described below. The TSC is shared by both units and is located adjacent to the Unit 1 control room at el 220 ft. The layout of the TSC and location of key personnel are shown in figure H-1.

Walking time from the TSC to the control room is less than 2 min. The TSC covers about 5900 ft2 and can accommodate 25 people. It is an integral part of the Seismic Category I control building structure. The TSC provides plant management and technical support personnel (including five Nuclear Regulatory Commission (NRC) personnel) with a facility from which they can assist plant operating personnel located in the control room during an emergency.

The emergency director and NRC director will be located in close proximity to ensure proper communications. The TSC is equipped with a computer system, which provides source term and meteorological data and technical data displays to allow TSC personnel to perform detailed analysis and diagnosis of abnormal plant conditions, including assessment of any significant release of radioactivity to the environment. In addition, the TSC has ready access to plant records, some of which are stored in the TSC and some in the control room. The TSC structure and ventilation system are designed to ensure that the TSC personnel are protected from radiological hazards. The TSC ventilation is a separate system and not a part of the control room ventilation system. The air supply is filtered by high efficiency particulate air (HEPA) and charcoal filters. During accident conditions the filtration system provides filtered cooling air meeting the following exposure design criteria:  5 rem - whole body; 30 rem -

H-2 REV 23    4/96  The air filtration system will be placed in service when required by Procedure 91110-C, Duties of the Health Physics Supervisor (TSC). The ventilation system can be manually controlled from the TSC. The air filtration system will also be placed in the filtration mode automatically whenever the control room HVAC is isolated. The air filtration system, when activated, automatically processes all of the outdoor air together with approximately 25 percent of the recirculated air through the filtration unit. In the initial actuation of the air filtration system, a parallel signal is initiated to deenergize the onsite technical support center battery room and toilet exhaust fans and dampers. The continuous influx of outdoor air with no positive exhaust is designed to pressurize the area to 0.125 in. WG. After the filtration process, the filtered air is mixed with the balance of recirculated air for further conditioning by the normal supply system. When the TSC is activated, there will be a portable radiation monitor placed in the TSC to alert personnel of the presence of high radiation levels. In addition, portable radiation monitors are available for personnel in transit from the TSC to other areas.

Portable air breathing apparatus and anti-contamination clothing are provided in the TSC. The TSC normal lighting is supplied from normal offsite power through a motor control center backed up by the security diesel generator. The TSC essential lighting is supplied from the essential lighting system. Self-contained, battery-operated emergency lighting is provided as a backup to the normal lighting for ingress and egress only and is located in the TSC hallway. Power for TSC vital equipment is provided from either the motor control center backed up by the security diesel generator or from a battery-backed uninterruptible power supply system. Power to the dc system is provided via battery chargers, one of which is powered from this same motor control center. The records storage is shared by the control room and the TSC. Separate copies of the following documents will be stored in the control room complex and in the TSC: