Text

Technical Requirements Manual
	ML22326A108
Person / Time
Site:	Vogtle
Issue date:	10/31/2022
From:	; Southern Nuclear Operating Co
To:	; Office of Nuclear Reactor Regulation
Shared Package
ML22326A145	List: ML22326A059; ML22326A060; ML22326A062; ML22326A063; ML22326A064; ML22326A065; ML22326A066; ML22326A067; ML22326A107; ML22326A108; ML22326A109; ML22326A113; ML22326A114; ML22326A116; ML22326A117; ML22326A119; ML22326A120; ML22326A121; NL-22-0810, 4 to the Updated Final Safety Analysis Report, Technical Specification Bases Changes, Technical Requirements Manual Changes, 10 CFR 50.59 Summary Report and Revised NRC Commitments Report;
References
	NL-22-0810
	Download: ML22326A108 (1)
	v • d • e

Table of Contents Table of Contents TRM section TRM Section Title Page Applicable Tables & Figures Page 11.0 USE AND APPLICATION 11.0-1 11.1 Definitions 11.0-1 11.2 Logical Connectors 11.0-1 11.3 Completion Times 11.0-1 11.4 Frequency 11.0-1 11.5 TR and TRS Implementation 11.0-1 11.6 Technical Requirement Manual Revisions 11.0-2 11.7 Alternative Actions 11.0-2 13.0 TR APPLICABILITY 13.0-1 13.1 REACTIVITY CONTROL SYSTEMS 13.1-1 13.1.1 Shutdown Margin - Modes 1 and 2 13.1-1 13.1.2 Boration Flowpath - Shutdown 13.1-2 13.1.3 Boration Flowpath - Operating 13.1-4 13.1.4 Boration Flow Path Pump - Shutdown 13.1-6 13.1.5 Charging Pumps - Operating 13.1-7 13.1.6 Borated Water Sources - Shutdown 13.1-9 13.1.7 Borated Water Sources - Operating 13.1-11 13.1.8 Position Indicating System - Shutdown 13.1-13 13.1.9 Test Exception Position Indicating System 13.1-14 13.3 INSTRUMENTATION 13.3-1 13.3.1 Moveable Incore Detectors 13.3-1 13.3.2 Seismic Monitoring Instrumentation (Common) 13.3-5 Table 13.3.2-1, Seismic Monitoring Instrumentation 13.3-8 13.3.3 Meteorological Instrumentation (Common) 13.3-10 Table 13.3.3-1, Meteorological Monitoring Instrumentation 13.3-11 13.3.4 High Energy Line Break Isolation Sensors 13.3-12 Table 13.3.4-1, High Energy Line Break Instrumentation 13.3-14 13.3.5 Turbine Overspeed Protection 13.3-16 13.3.6 Fuel Handling Building Post Accident Ventilation Actuation 13.3-19 Instrumentation Table 13.3.6-1, Fuel Handling Building Post Accident 13.3-20 Ventilation Actuation Instrumentation 13.3.7 Ultrasonic Mode Calorimetric 13.3-21 13.3-8 Loose Part Detection System 13.3-24 13.3-9 Power Distribution Monitoring System (PDMS) 13.3-25 Vogtle Units 1 and 2 1 REVISION 62 Technical Requirement

Table of Contents Table of Contents (continued)

B 13.3.7 Ultrasonic Mode Calorimetric B 13.3-1 13.4 REACTOR COOLANT SYSTEM 13.4-1 13.4.1 Chemistry 13.4-1 Table 13.4.1-1, RCS Chemistry Limits 13.4-3 13.4.2 Pressurizer 13.4-4 13.4.3 RCS Vents 13.4-6 13.5 EMERGENCY CORE COOLING SYSTEM 13.5-1 13.5.1 Emergency Core Cooling System 13.5-1 Table 13.5.1-1, Assumed Instrument Accuracies for 13.5-4 TRS 13.5.1.3 13.7 PLANT SYSTEMS 13.7-1 13.7.1 SG Pressure/Temperature Limitation 13.7-1 13.7.2 Snubbers 13.7-3 Table 13.7.2-1, Transient Event Inspection 13.7-6 Table 13.7.2-2, Functional Tests 13.7-7 13.7.3 Sealed Source Contamination 13.7-8 13.7.4 RCP Thermal Barrier Cooling Water Isolation 13.7-11 13.7-5 Area Temperature Monitoring 13.7-12 Table 13.7.5-1, Units 1 and 2 Area Temperature 13.7-14 Monitoring Requirements 13.7.6 Main Steam Isolation Valves 13.7-17 Table 13.7.6-1, Main Steam Isolation Valves 13.7-17 Figure 13.7.6-1, Main Steam Isolation Valves 13.7.7 Feedwater Isolation Valves and Feedwater Control Valves and 13.7-18 Associated Bypass Valves Table 13.7.7, Feedwater Isolation Valves and Feedwater 13.7-18 Control Valves and Associated Bypass Valves 13.8 ELECTRICAL POWER SYSTEMS 13.8-1 13.8.1 Containment Penetration Conductor Overcurrent Protective 13.8-1 Devices Table 13.8.1-1, Containment Penetration Conductor 13.8-6 Overcurrent Protective Devices and Isolation Devices for Class 1E to Non-Class 1E Feeds 13.8.2 Safety-Related Motor-Operated Valves Thermal Overload 13.8-36 Protection and Bypass Devices Table 13.8.2-1, Safety-Related Motor-Operated Valves 13.8-37 Thermal Overload Protection Bypass Devices 13.8.3 Emergency Diesel Generator Test Schedule (Deleted) 13.8-41 Vogtle Units 1 and 2 2 REVISION 62 Technical Requirement

Table of Contents Table of Contents (continued) 13.9 REFUELING OPERATIONS 13.9-1 13.9.1 Decay Time 13.9-1 13.9.2 Communications 13.9-2 13.9.3 Refueling Machine 13.9-3 13.9.4 Crane Travel - Spent Fuel Storage Areas 13.9-5 13.9.5 FHB P/A Ventilation System (Common) 13.9-6 13.9.6 Source Range Monitor Audible Indication 13.9-10 13.12 EXPLOSIVE GAS AND STORAGE TANK RADIOACTIVITY 13.12-1 MONITORING PROGRAM (EGSTRAM) 13.12.1 Explosive Gas Monitoring Instrumentation 13.12-1 13.12.2 Explosive Gas Mixture 13.12-4 13.12.3 Gas Decay Tanks 13.12-6 13.12.4 Liquid Holdup Tanks 13.12-8 13.13 EMERGENCY RESPONSE FACILITIES 13.13-1 13.13.1 Emergency Response Facilities 13.13-1 B 13.13.1 Emergency Response Facilities B 13.13.1 15.0 ADMINISTRATIVE CONTROLS 15.1-1 15.1.1 Requirement for SRO to observe core alterations 15.1-1 15.1.2 Minimum shift crew composition 15.1-1 Table 15.1.2-1, Minimum Shift Crew Composition Two 15.1-2 Units with a Common Control Room Vogtle Units 1 and 2 3 REVISION 62 Technical Requirement

List of Effective Pages TRM Page Number Revision Number Revision Date Table of Contents 1 35 Table of Contents 2 50 Table of Contents 3 50 11.0-1 1 10/31/07 11.0-2 35 11.0-3 35 13.0-1 35 13.0-2 35 13.0-3 35 13.0-4 2 11/23/05 13.1-1 1 12/12/05 13.1-2 56 13.1-3 56 13.1-4 35 13.1-5 56 13.1-6 35 13.1-7 35 13.1-8 0 12/26/96 13.1-9 35 13.1-10 0 12/26/96 13.1-11 35 13.1-12 42 13.1-13 35 13.1-14 35 13.1-15 0 12/26/96 13.3-1 60 13.3-2 35 13.3-3 32 13.3-4 32 13.3-5 54 13.3-6 54 13.3-7 59 13.3-8 31 13.3-9 31 13.3-10 54 13.3-11 39 13.3-12 35 13.3-13 53 13.3-14 31 13.3-15 31 13.3-16 35 13.3-17 57 Vogtle Units 1 and 2 1 REVISION 62 Technical Requirement

List of Effective Pages (continued)

TRM Page Number Revision Number Revision Date 13.3-18 57 13.3-19 55 13.3-20 31 13.3-21 35 13.3-22 35 13.3-23 53 13.3-24 54 13.3-25 60 13.3-26 60 13.3-27 60 B 13.3-1 36 B 13.3-2 36 B 13.3-3 36 13.4-1 35 13.4-2 43 13.4-3 0 12/26/96 13.4-4 61 13.4-5 61 13.4-6 61 13.4-7 61 13.4-8 61 03/17/00 13.4-9 61 13.5-1 0 12/26/96 13.5-2 1 10/3/97 13.5-3 (Unit 1 Only) 37 13.5-3 (Unit 2 Only) 37 13.5-4 1 4/16/08 13.7-1 36 13.7-2 1 8/24/07 13.7-3 35 13.7-4 45 13.7-5 33 13.7-6 1 9/12/08 13.7-7 1 9/12/08 13.7-8 1 9/12/08 13.7-9 1 9/12/08 13.7-10 2 9/12/08 13.7-11 35 13.7-12 35 13.7-13 35 13.7-14 35 13.7-15 35 Vogtle Units 1 and 2 2 REVISION 62 Technical Requirement

List of Effective Pages (continued)

TRM Page Number Revision Number Revision Date 13.7-16 62 13.7-17 62 13.7-18 62 13.8-1 35 13.8-2 35 13.8-3 35 13.8-4 35 13.8-5 59 13.8-6 35 13.8-7 35 13.8-8 35 13.8-9 59 13.8-10 59 13.8-11 35 13.8-12 35 13.8-13 35 13.8-14 59 13.8-15 35 13.8-16 59 13.8-17 35 13.8-18 59 13.8-19 59 13.8-20 59 13.8-21 35 13.8-22 35 13.8-23 35 13.8-24 35 13.8-25 35 13.8-26 35 13.8-27 35 13.8-28 59 13.8-29 59 13.8-30 35 13.8-31 35 13.8-32 35 13.8-33 35 13.8-34 59 13.8-35 35 13.8-36 35 13.8-37 35 13.8-38 35 13.8-39 35 13.8-40 35 13.8-41 35 Vogtle Units 1 and 2 3 REVISION 62 Technical Requirement

List of Effective Pages (continued)

TRM Page Number Revision Number Revision Date 13.9-1 35 13.9-2 0 12/26/96 13.9-3 44 13.9-4 35 13.9-4a 35 13.9-4b 1 10/29/97 13.9-5 35 13.9-6 35 13.9-7 55 13.9-7a 1 6/3/98 13.9-7b 1 6/3/98 13.9-8 0 12/26/96 13.9-9 0 12/26/96 13.9-10 35 13.12-1 35 13.12-2 54 13.12-3 41 13.12-4 0 12/26/96 13.12-5 35 13.12-6 0 12/26/96 13.12-7 0 12/26/96 13.12-8 0 12/26/96 13.12-9 0 12/26/96 13.13-1 48 13.13-2 38 B 13.13-1 48 B 13.13-2 52 B 13.13-3 52 B 13.13-4 52 B 13.13-5 52 15.1-1 0 12/26/96 15.1-2 0 12/26/96 Vogtle Units 1 and 2 4 REVISION 62 Technical Requirement

Use and Application 11.0 11.0 Use and Application 11.1 Definitions FUNCTIONAL/FUNCTIONALITY - FUNCTIONALITY is an attribute of Structures, Systems and Components (SSCs) that is not controlled by Technical Specifications (TSs). An SSC is FUNCTIONAL or has FUNCTIONALITY when it is capable of performing its specified function, as set forth in the Current Licensing Basis (CLB).

FUNCTIONALITY does not apply to specified safety functions, but does apply to the ability of non-TS SSCs to perform other specified functions that have a necessary support function.

The definitions contained in the Technical Specifications Section 1.1, Definitions apply to the Technical Requirements contained in this manual. In the Technical Requirements, defined terms are shown in all capital letters, consistent with the Technical Specifications.

11.2 Logical Connectors The guidance provided for the use and application of logical connectors in Section 1.2, Logical Connectors of the Technical Specifications is applicable to the Technical Requirements contained in this manual.

11.3 Completion Times The guidance provided for the use and application of Completion Times in Section 1.3, Completion Times of the Technical Specifications is applicable to the Technical Requirements contained in this manual.

11.4 Frequency The guidance provided for the use and application of Frequency requirements in Section 1.4, Frequency of the Technical Specifications is applicable to the Technical Requirements contained in this manual.

11.5 TR and TRS Implementation TRs and TRSs are implemented the same as Technical Specifications (see 13.0).

However, TRs and TRSs are treated as plant procedures and are not part of the Technical Specifications. Therefore the following exceptions apply:

a. Violations of the Action or Surveillance requirements in a TR are not reportable as conditions prohibited by, or deviations from, the Technical Specifications per 10 CFR 50.72 or 10 CFR 50.73, unless specifically required by the TR.

b. Power reductions or plant shutdowns required to comply with the Actions of a TR or as a result of the application of TR 13.0.3 are not reportable per 10 CFR 50.72 or 10 CFR 50.73.

Vogtle Units 1 and 2 11.0 -1 Rev. 1 Technical Requirement 10/31/07

Use and Application 11.0 11.0 Use and Application (continued)

c. Violations of TR or TRS requirements, except as provided for in Section 13.0 of this manual, shall be treated the same as plant procedure violations.

11.6 Technical Requirement Manual Revisions Changes to this manual are controlled in accordance with 10 CFR 50.59.

11.7 Alternative Actions (e.g., Initiate a Condition Report, Continue Action to Restore, Determination of Alternate Course of Action)

Alternate Actions, such as initiating a condition report or management determination of alternate course of action are provided for selected TRs as alternatives to performing a plant shutdown if the nonfunctional TR cannot be restored within the allowed Completion Time. To ensure safe operation of the plant, priority should be on restoration of the nonfunctional TR to FUNCTIONAL within the allowed Completion Time. The alternative Actions to restoration of the TR to FUNCTIONAL are to provide allowances for a course of action that would continue to ensure the safe operation of the plant. Alternative Actions would allow for evaluation of the specific circumstances and plant conditions present at the time to determine if a safe alternative to a shutdown exists. Alternative Actions may be appropriate for situations where continued cooperation can be justified; for example, if the specified limits in the TR (e.g., RCS Chemistry or Pressurizer) were only slightly exceeded and sufficient margin is available, or if a Completion Time or Surveillance Frequency extension would allow the restoration of the limits or component FUNCTIONALITY, or if an alternate means for determining the FUNCTIONALITY of a component can be identified.

If the Alternative Action includes operation beyond the stated Completion Time, a plan for restoring the TR should be documented.

The plan for restoring the TR should consider:

The technical basis of the requirement,

The safety significance of continued operation beyond the stated completion time,

A qualitative or quantitative evaluation of the operational risk associated with the TR not being met (e.g., Online or Outage risk assessments or engineering technical justifications),

If required, compensatory actions put in place during the time the TR is not met, and

Approval by the appropriate level of management prior to expiration of the Completion Time.

If the Alternate Action is taken it should be documented in a CR, ODMI, or other appropriate means and should contain the following:

Vogtle Units 1 and 2 11.0 -2 REVISION 35 Technical Requirement

Use and Application 11.0

The reason the TR could not be restored within the allowed Completion Time,

The results of the evaluation of operational risk,

Any compensatory measures, and

The operational conditions necessary to restore the TR to Functional.

The appropriate level of management is, as a minimum, the Shift Manager. However, the Shift Manager should consider the safety significance and operational risks associated with the nonfunctional TR and engage senior management in the decision to implement the alternative Action, as required.

Vogtle Units 1 and 2 11.0 -3 REVISION 35 Technical Requirement

TR Applicability 13.0 13.0 Technical Requirement (TR) Applicability TR 13.0.1 TRs shall be met during the MODES or other specified conditions in the Applicability, except as provided in TR 13.0.2.

TR 13.0.2 Upon discovery of a failure to meet a TR, the Required Actions of the associated Conditions shall be met, except as provided in TR 13.0.5.

If the TR is met or is no longer applicable prior to expiration of the specified Completion Time(s), completion of the Required Action(s) is not required unless otherwise stated.

TR 13.0.3 When a TR is not met, and the associated ACTIONS are not met, or an associated ACTION is not provided, the unit shall be placed in a safe condition as determined by plant management. A Condition Report shall be initiated immediately.

TR 13.0.4 When a TR is not met, entry into a MODE or other specified condition in the Applicability shall only be made:

a. When the associated ACTIONS to be entered permit continued operation in the MODE or other specified condition in the Applicability for an unlimited period of time; or

b. After performance of a risk assessment addressing nonfunctional systems and components, consideration of the results, determination of the acceptability of entering the MODE or other specified condition in the Applicability, and establishment of risk management actions, if appropriate; exceptions to this requirement are stated in the individual TRs; or

c. When an allowance is stated in the individual value, parameter, or other requirement.

This TR shall not prevent changes in MODES or other specified conditions in the Applicability that are required to comply with ACTIONS or that are part of a shutdown of the unit.

(continued)

Vogtle Units 1 and 2 13.0 - 1 REVISION 35 Technical Requirement

TR Applicability 13.0 13.0 TR Applicability (continued)

TR 13.0.5 Equipment removed from service or declared nonfunctional to comply with ACTIONS may be returned to service under administrative control solely to perform testing required to demonstrate its FUNCTIONALITY or the OPERABILITY or FUNCTIONALITY of other equipment. This is an exception to TR 13.0.2 for the system returned to service under administrative control to perform the testing required to demonstrate OPERABILITY or FUNCTIONALITY.

TR 13.0.7 Test Exception TR 13.1.9 allows TR 13.1.8, Position Indication -

Shutdown to be changed to permit performance of special tests and operations. Unless otherwise specified, all other TR requirements remain unchanged. Compliance with the Test Exception TR is optional. When the Test Exception TR is desired to be met but is not met, the ACTIONS of the Test Exception TR shall be met. When the Test Exception TR is not desired to be met, entry into a MODE or other specified condition in the Applicability shall be made in accordance with the other applicable TRs.

TR 13.0.8 Unless specifically noted, all the information provided in the TR including the associated ACTION requirements shall apply to each unit individually.

In those cases where a specification makes reference to systems or components which are shared by both units, the affected systems or components will be clearly identified in parentheses or footnotes declaring the reference to be "common." Whenever the TR refers to systems or components which are common, the ACTION requirements will apply to both units simultaneously. (This will be indicated in the ACTION section.)

Whenever certain portions of a specification refer to systems, components, operating parameters, setpoints, etc., which are different for each unit, this will be identified in parentheses or footnotes or in the Applicability section as appropriate.

Vogtle Units 1 and 2 13.0 - 2 REVISION 35 Technical Requirement

TRS Applicability 13.0 13.0 Technical Requirement Surveillance(TRS) Applicability TRS 13.0.1 TRSs shall be met during the MODES or other specified conditions in the Applicability for individual TRs, unless otherwise stated in the TRS.

Failure to meet a Surveillance, whether such failure is experienced during the performance of the Surveillance or between performances of the Surveillance, shall be failure to meet the TR. Failure to perform a Surveillance within the specified Frequency shall be failure to meet the TR except as provided in TRS 13.0.3. Surveillances do not have to be performed on nonfunctional equipment or variables outside specified limits.

TRS 13.0.2 The specified Frequency for each TRS is met if the Surveillance is performed within 1.25 times the interval specified in the Frequency, as measured from the previous performance or as measured from the time a specified condition of the Frequency is met.

For Frequencies specified as "once," the above interval extension does not apply.

If a Completion Time requires periodic performance on a "once per . . ."

basis, the above Frequency extension applies to each performance after the initial performance.

Exceptions to this requirement are stated in the individual TRSs.

TRS 13.0.3 If it is discovered that a Surveillance was not performed within its specified Frequency, then compliance with the requirement to declare the TR not met may be delayed, from the time of discovery, up to 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months or up to the limit of the specified Frequency, whichever is greater. This delay period is permitted to allow performance of the Surveillance. A risk evaluation shall be performed for any Surveillance delayed greater than 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months and the risk impact shall be managed.

If the Surveillance is not performed within the delay period, the TR must immediately be declared not met, and the applicable Condition(s) must be entered. When the Surveillance is performed within the delay period and the Surveillance is not met, the TR must immediately be declared not met, and the applicable Condition(s) must be entered.

TRS 13.0.4 Entry into a MODE or other specified condition in the Applicability of a TR shall only be made when the TR's Surveillances have been met within their specified Frequency, except as provided by TRS 13.0.3. When a TR is not met due to Surveillances not having been met, entry into a (continued)

Vogtle Units 1 and 2 13.0 - 3 REVISION 35 Technical Requirement

TRS Applicability 13.0 13.0 TRS Applicability TRS 13.0.4 MODE or other specified condition in the Applicability shall only be made (continued) in accordance with TR 13.0.4.

This provision shall not prevent entry into MODES or other specified conditions in the Applicability that are required to comply with ACTIONS or that are part of a shutdown of the unit.

Vogtle Units 1 and 2 13.0 - 4 Rev.2 Technical Requirement 11/23/05

SDM MODES 1 and 2 TR 13.1.1 13.1 Reactivity Control Systems TR 13.1.1 SHUTDOWN MARGIN (SDM)

TR 13.1.1 SDM shall be the limit specified in the COLR.

APPLICABILITY: MODES 1 and 2 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. SDM not within limit. A.1 Initiate boration to restore 15 minutes SDM to within limit.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.1.1.1 Verify SDM within limit with the control banks at the Prior to initial maximum insertion limit specified in the COLR and operation above 5%

considering the following factors: RTP after each fuel loading.

1) RCS boron concentration,

2) Control rod position,

3) RCS average temperature,

4) Fuel burnup based on gross thermal energy generation,

5) Xenon concentration, and

6) Samarium concentration Vogtle Units 1 and 2 13.1 - 1 Rev.1 Technical Requirement 12/12/05

Boration Flow Path - Shutdown TR 13.1.2 13.1 Reactivity Control Systems TR 13.1.2 Boration Flow Path - Shutdown TR 13.1.2 One of the following boron injection flow paths shall be FUNCTIONAL:

a. A flow path from a FUNCTIONAL boric acid storage tank via a boric acid transfer pump and a charging pump, in accordance with TR 13.1.4, to the RCS, or

b. A flow path from the FUNCTIONAL RWST via a charging pump, in accordance with TR 13.1.4, to the RCS.

APPLICABILITY: MODE 5 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Required Flow Path A.1 Suspend positive reactivity Immediately nonfunctional. additions.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.1.2.1 ---------------------------------NOTE--------------------------------

Only required to be performed when the flow path from the boric acid storage tank is required FUNCTIONAL.

Verify that ambient temperatures in applicable rooms of 92 days the auxiliary building containing boron flow paths are 65 F. If installed indication is used (TISL 12410 or TISL 12411, TISL 12412 or TISL 12413, TISL 12414 or TISL 12415, TISL 12416 or TISL 12417, TISL 20900 or TISL 20901, TISL 20902 or TISL 20903, and TISL 20904 or TISL 20905), it must read 72 F due to the inaccuracy of the instrumentation.

Vogtle Units 1 and 2 13.1 - 2 REVISION 56 Technical Requirement

Boration Flow Path - Shutdown TR 13.1.2 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

SURVEILLANCE FREQUENCY TRS 13.1.2.2 Verify that each manual, power operated, and 9 months automatic valve in the flow path that is not locked, sealed, or otherwise secured in position, is in its correct position.

Vogtle Units 1 and 2 13.1 - 3 REVISION 56 Technical Requirement

Boration Flow Paths - Operating TR 13.1.3 13.1 Reactivity Control Systems TR 13.1.3 Boration Flow Paths - Operating TR 13.1.3 Two of the following boron injection flow paths shall be FUNCTIONAL.

a. One or more flow paths from the boric acid storage tank via a boric acid transfer pump and a charging pump to the RCS, or

b. One or more flow paths from the RWST via charging pumps to the RCS.

APPLICABILITY: MODES 1, 2, 3, and 4 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One required flow path A.1 Restore at least two required 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months nonfunctional in MODE 1 flow paths to FUNCTIONAL or 2. status.

B. One required flow path B.1 Restore at least two required 7 days nonfunctional in MODE 3 flow paths to FUNCTIONAL or 4. Status.

C. Required Actions and C.1 Initiate a Condition Report. Immediately associated Completion Time not met. AND C.2 Continue action to restore Immediately the required flow path(s) to FUNCTIONAL status.

Vogtle Units 1 and 2 13.1 - 4 REVISION 35 Technical Requirement

Boration Flow Paths - Operating TR 13.1.3 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.1.3.1 ---------------------------------NOTE--------------------------------

Only required to be performed when one or more flow paths from the boric acid storage tank are required FUNCTIONAL.

Verify that ambient temperature in applicable rooms of 92 days the auxiliary building containing boron flow paths are 65 F. If installed indication is used (TISL 12410 or TISL 12411, TISL 12412 or TISL 12413, TISL 12414 or TISL 12415, TISL 12416 or TISL 12417, TISL 20900 or TISL 20901, TISL 20902 or TISL 20903, and TISL 20904 or TISL 20905), it must read 72 F due to the inaccuracy of the instrumentation.

TRS 13.1.3.2 Verify that each manual, power operated, and automatic 9 months valve in the flow path that is not locked, sealed, or otherwise secured in position, is in its correct position.

TRS 13.1.3.3 Verify required flow paths from boric acid storage tank 18 months deliver 30 gpm to the RCS.

Vogtle Units 1 and 2 13.1 - 5 REVISION 56 Technical Requirement

Boration Flow Path Pump - Shutdown TR 13.1.4 13.1 Reactivity Control Systems TR 13.1.4 Boration Flow Path Pump - Shutdown TR 13.1.4 A charging pump in the boron injection flow path required by TR 13.1.2 shall be FUNCTIONAL.

APPLICABILITY: MODE 5 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Required pump A.1 Suspend operations Immediately nonfunctional. involving positive reactivity changes.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.1.4.1 Verify the flow path required by TR 13.1.2 is capable of 18 months delivering 30 gpm of 7000 ppm boric acid solution or equivalent to the RCS.

Vogtle Units 1 and 2 13.1 - 6 REVISION 35 Technical Requirement

Charging Pumps - Operating TR 13.1.5 13.1 Reactivity Control Systems TR 13.1.5 Charging Pumps - Operating TR 13.1.5 Two charging pumps shall be FUNCTIONAL.

APPLICABILITY: MODES 1, 2, 3, and 4 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One required charging A.1 Restore at least two 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months pump nonfunctional in charging pumps to MODE 1 or 2. FUNCTIONAL status.

B. One required charging B.1 Restore at least two 7 days pump nonfunctional in charging pumps to MODE 3 or 4. FUNCTIONAL status.

C. Required Action and C.1 Initiate a Condition Report. Immediately associated Completion Time not met. AND C.2 Continue action to restore Immediately the required charging pump(s) to FUNCTIONAL status.

Vogtle Units 1 and 2 13.1 - 7 REVISION 35 Technical Requirement

Charging Pumps - Operating TR 13.1.5 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.1.5.1 Verify that the flow path required by TR 13.1.3 delivers 18 months 30 gpm or equivalent to the RCS.

Vogtle Units 1 and 2 13.1 - 8 Rev. 0 Technical Requirement 12/26/96

Borated Water Source - Shutdown TR 13.1.6 13.1 Reactivity Control Systems TR 13.1.6 Borated Water Source - Shutdown TR 13.1.6 One of the following borated water sources shall be FUNCTIONAL:

a. A boric acid storage tank, or

b. The refueling water storage tank (RWST).

APPLICABILITY: MODE 5 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Required borated water A.1 Suspend positive reactivity Immediately source nonfunctional. additions.

TECHNICAL REQUIREMENT SURVEILLANCES

NOTES----------------------------------------------------------

1. TRS 13.1.6.1, TRS 13.1.6.2, and TRS 13.1.6.3 are only required to be performed when the RWST is the required borated water source.

2. TRS 13.1.6.4, TRS 13.1.6.5, and TRS 13.1.6.6 are only required to be performed when the boric acid storage tank is the required borated water source.

(continued)

Vogtle Units 1 and 2 13.1 - 9 REVISION 35 Technical Requirement

Borated Water Source - Shutdown TR 13.1.6 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

SURVEILLANCE FREQUENCY TRS 13.1.6.1 --------------------------------NOTE---------------------------------

Only required to be performed when the outside air temperature is < 40 °F.

Verify RWST solution temperature 44 °F (TI-10982). 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months TRS 13.1.6.2 Verify the RWST boron concentration is between 2,400 7 days ppm and 2,600 ppm.

TRS 13.1.6.3 Verify RWST borated water volume is 99,404 gallons 7 days (9% instrument span) (LI-0990A&B, LI-0991A&B, LI-0992A, LI-0993A).

TRS 13.1.6.4 ----------------------------------NOTE-------------------------------

Only required to be performed if the ambient temperature of the boric acid storage tank room (TISL-20902, TISL-20903) is 72 °F.

Verify the boric acid storage tank solution temperature 7 days is 65 °F (TI-0103).

TRS 13.1.6.5 Verify the boron concentration of the boric acid tank 7 days solution is between 7,000 ppm and 7,700 ppm.

TRS 13.1.6.6 Verify the contained borated water volume in the boric 7 days acid storage tank is 9,504 gallons (19% of instrument span, LI-102A, LI-104A).

Vogtle Units 1 and 2 13.1 - 10 Rev. 0 Technical Requirement 12/26/96

Borated Water Sources - Operating TR 13.1.7 13.1 Reactivity Control Systems TR 13.1.7 Borated Water Sources - Operating TR 13.1.7 The following borated water source(s) shall be FUNCTIONAL as required by TR 13.1.3:

a. Boric acid storage tank

b. The refueling water storage tank (RWST).

APPLICABILITY: MODES 1, 2, 3, and 4.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Required boric acid A.1 Restore boric acid tank to 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months storage tank nonfunctional FUNCTIONAL status.

in MODE 1 or 2.

B. Required boric acid B.1 Restore the boric acid tank 7 days storage tank nonfunctional to FUNCTIONAL status.

in MODE 3 or 4.

C. Required Actions and C.1 Initiate a Condition Report. Immediately associated Completion Times of Condition A or B AND not met.

C.2 Continue action to restore Immediately the required boric acid tank to FUNCTIONAL status.

(continued)

Vogtle Units 1 and 2 13.1 - 11 REVISION 35 Technical Requirement

Borated Water Sources - Operating TR 13.1.7 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME D. RWST nonfunctional. D.1 Enter applicable Conditions Immediately of RWST Technical Specification 3.5.4.

TECHNICAL REQUIREMENT SURVEILLANCES

NOTES--------------------------------------------------------

1. TRS 13.1.7.1 is only required to be performed when the RWST is the required borated water source.

2. TRS 13.1.7.2, TRS 13.1.7.3, and TRS 13.1.7.4 are only required to be performed when the boric acid storage tank is the required borated water source.

SURVEILLANCE FREQUENCY TRS 13.1.7.1 When the RWST is required to be FUNCTIONAL, the In accordance with SRs of Technical Specification 3.5.4 are applicable. applicable SRs.

TRS 13.1.7.2 ----------------------------------NOTE-------------------------------

Only required to be performed if the ambient temperature of the boric acid storage tank room (TISL-20902, TISL-20903) is 72 F.

Verify the boric acid storage tank solution temperature 7 days is 65 F (TI-0103).

TRS 13.1.7.3 Verify the boron concentration of the boric acid tank 31 days solution is between 7,000 ppm and 7,700 ppm.

TRS 13.1.7.4 Verify the contained borated water volume in the boric 7 days acid storage tank is 36,674 gallons (83% of instrument span, LI-102A, LI-104A).

Vogtle Units 1 and 2 13.1 - 12 REVISION 42

Position Indication System - Shutdown TR 13.1.8 13.1 Reactivity Control Systems TR 13.1.8 Position Indication System - Shutdown TR 13.1.8 The digital rod position indication (DRPI) shall be FUNCTIONAL and capable of determining the control rod position within +/- 12 steps for each shutdown or control rod not fully inserted.

APPLICABILITY: When the reactor trip breakers are closed in MODES 3, 4, or 5.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Required DRPI for one or A.1 Open the reactor trip Immediately more shutdown or control breakers.

rods nonfunctional.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.1.8.1 Verify each required DRPI agrees within 12 steps of the 18 months group demand position for the full indicated range of rod travel.

Vogtle Units 1 and 2 13.1 - 13 REVISION 35 Technical Requirement

Test Exception for Position Indication System - Shutdown TR 13.1.9 13.1 Reactivity Control Systems TR 13.1.9 Test Exception for Position Indication System - Shutdown TR 13.1.9 The requirements of TR 13.1.8, Position Indication System - Shutdown may be suspended during the performance of individual shutdown and control rod drop time measurements provided:

a. Only one shutdown or control bank is withdrawn from the fully inserted position at a time, or

b. Multiple shutdown or control banks are withdrawn from the fully inserted position in their proper withdrawal sequence.

c. The digital rod position indication (DRPI) is FUNCTIONAL during the withdrawal of the rods in a and b.

APPLICABILITY: During performance of rod drop time measurements in MODES 3, 4, or 5.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One or more required A.1 Open the reactor trip Immediately DRPI nonfunctional during breakers.

rod withdrawal.

Vogtle Units 1 and 2 13.1 - 14 REVISION 35 Technical Requirement

Test Exception for Position Indication System - Shutdown TR 13.1.9 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.1.9.1 Verify the demand position indication and DRPI agree: Within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months prior to initiation of rod

a. Within 12 steps when the rods are stationary, and drop time measurements

b. Within 24 steps during rod motion.

AND 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months thereafter Vogtle Units 1 and 2 13.1 - 15 Rev.0 Technical Requirement 12/26/96

Movable Incore Detectors TR 13.3.1 13.3 Instrumentation TR 13.3.1 Movable Incore Detectors TR 13.3.1 The movable incore detection system shall be FUNCTIONAL with:

1. 44 detector thimbles, with 2 detector thimbles per core quadrant as identified in Figure 13.3.1-1, OR

2. 37 and < 44 detector thimbles, with 3 detector thimbles per core quadrant as identified in Figures 13.3.1-1 and 13.3.1-2, OR

3. 29 and < 37 detector thimbles, with 4 detector thimbles per core quadrant as identified in Figures 13.3.1-1 and 13.3.1-2.

AND Sufficient movable detectors, drives, and readout equipment to map these thimbles.

NOTES------------------------------------------------

1. 44 detector thimbles, with 2 detector thimbles per core quadrant as identified in Figure 13.3.1-1 are required during the initial startup after a refueling outage up to and including performance of the first flux map at 100% RTP. An exception is that for the performance of SR 3.3.1.3, WCAP-8648-A, EXCORE Detector Recalibration Using Quarter-Core Flux Maps, provides an acceptable method of measuring axial offset using incore detectors. However, a flux map with 44 detector thimbles, with 2 detector thimbles per core quadrant as identified in Figure 13.3.1-1 is still required prior to reaching 50% RTP to detect a core misload event. This Note does not have to be met for Vogtle Unit 1, Cycle 17 based on the successful performances of the flux map at 30% RTP.

2. If a detector thimble is located on either the major axes of Figure 13.3.1-1 or minor axes of Figure 13.3.1-2, the detector thimble can be included in both core quadrants that are divided by the axis for the purpose of determining the minimum number of detector thimbles per core quadrant.

3. Refer to TR 13.3.9 for movable incore detector requirements for the BEACON Power Distribution Monitoring System (PDMS).

Vogtle Units 1 and 2 13.3 - 1 REVISION 60 Technical Requirement

Movable Incore Detectors TR 13.3.1 APPLICABILITY: When the movable incore detection system is used for:

a. Recalibration of the excore neutron flux detection system, or

b. Monitoring QPTR, or

c. Measurement of FNH , FQ (Z) and Fxy .

ACTIONS

NOTE--------------------------------------------------------

TR 13.0.3 is not applicable CONDITION REQUIRED ACTION COMPLETION TIME A. One or more required A.1 Restore the incore detection Prior to using the movable incore detection system to FUNCTIONAL system for the system component(s) status. above listed nonfunctional. monitoring and calibration functions.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.3.1.1 Verify movable incore system FUNCTIONALITY by Within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months prior irradiating each required detector and determining the to using the system acceptability of its voltage curve. for the above listed monitoring and calibration functions Vogtle Units 1 and 2 13.3 - 2 REVISION 35 Technical Requirement

Movable Incore Detectors TR 13.3.1 Vogtle Units 1 and 2 13.3 - 3 REVISION 32 Technical Requirement

Movable Incore Detectors TR 13.3.1 Vogtle Units 1 and 2 13.3 - 4 REVISION 32 Technical Requirement

Seismic Monitoring Instrumentation TR 13.3.2 13.3 Instrumentation TR 13.3.2 Seismic Monitoring Instrumentation (common system)

TR 13.3.2 The seismic monitoring instrumentation identified in Table 13.3.2-1 shall be FUNCTIONAL.

APPLICABILITY: At all times.

ACTIONS

NOTE----------------------------------------------------------

TR 13.0.3 is not applicable.

CONDITION REQUIRED ACTION COMPLETION TIME

NOTE-----------------

Separate Condition entry is allowed for each seismic monitoring instrument.

A. One or more required A.1 Restore instrumentation to 30 days seismic monitoring FUNCTIONAL status.

instruments nonfunctional.

B. Required ACTION and B.1 Initiate a Condition Report. Immediately associated Completion Time of Condition A not AND met.

B.2 Continue action to restore Immediately the required instruments to FUNCTIONAL status.

(continued)

Vogtle Units 1 and 2 13.3 - 5 REVISION 54 Technical Requirement

Seismic Monitoring Instrumentation TR 13.3.2 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME C. One or more required C.1 Evaluate data retrieved from 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months seismic monitoring actuated free-field instruments actuated instrumentation.

during a seismic event 0.01g. AND C.2 --------------NOTE---------------

The CHANNEL OPERATIONAL TEST conducted after a seismic event shall be supplemented by the instrument evaluation described in section 4.3 of NRC Regulatory Guide 1.166.

Conduct a CHANNEL 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months OPERATIONAL TEST on actuated free-field instrumentation.

AND C.3 Evaluate data retrieved from 14 days remaining actuated instrumentation.

AND C.4 --------------NOTE---------------

The CHANNEL OPERATIONAL TEST conducted after a seismic event shall be supplemented by the instrument evaluation described in section 4.3 of NRC Regulatory Guide 1.166.

Perform a CHANNEL 14 days OPERATIONAL TEST on remaining actuated instrumentation.

Vogtle Units 1 and 2 13.3 - 6 REVISION 54 Technical Requirement

Seismic Monitoring Instrumentation TR 13.3.2 TECHNICAL REQUIREMENT SURVEILLANCES

NOTE-----------------------------------------------------------

Refer to Table 13.3.2-1 to determine which SRs apply for each seismic monitoring instrument.

SURVEILLANCE FREQUENCY TRS 13.3.2.1 Perform CHANNEL CHECK. 18 months TRS 13.3.2.2 Perform CHANNEL OPERATIONAL TEST. 18 months TRS 13.3.2.3 Perform CHANNEL CALIBRATION. 36 months Vogtle Units 1 and 2 13.3 - 7 REVISION 59 Technical Requirement

Seismic Monitoring Instrumentation TR 13.3.2 Table 13.3.2-1 (page 1 of 2)

Seismic Monitoring Instrumentation Instruments and Sensor Locations Measurement Range Required Number Surveillance or Setting of Instruments and Requirements Tag Number

1. Triaxial Time-History Accelerograph with Internal Force Balance Accelerometer

a. Free Field ( 2000 ft from -1g to + 1g 1 TRS 13.3.2.1 containment) (AXR-19931) TRS 13.3.2.2 TRS 13.3.2.3

2. Triaxial Force Balance Accelerometers

a. Field ( 225 ft from -1g to + 1g 1 TRS 13.3.2.1 containment) (AXT-19900) TRS 13.3.2.2 TRS 13.3.2.3

b. Unit 1 Containment Gallery -1g to + 1g 1 TRS 13.3.2.1 (basemat) (AXT-19901) TRS 13.3.2.2 TRS 13.3.2.3

c. Unit 1 Containment -1g to + 1g 1 TRS 13.3.2.1 Operating Floor (AXT-19902) TRS 13.3.2.2 TRS 13.3.2.3

d. Unit 1 Containment -1g to + 1g 1 TRS 13.3.2.1 Bioshield Wall (AXT-19903) TRS 13.3.2.2 TRS 13.3.2.3

e. Auxiliary Building Level 1 -1g to + 1g 1 TRS 13.3.2.1 (AXT-19905) TRS 13.3.2.2 TRS 13.3.2.3

f. Auxiliary Building Basemat -1g to + 1g 1 TRS 13.3.2.1 (AXT-19906) TRS 13.3.2.2 TRS 13.3.2.3

g. Diesel Generator Building -1g to + 1g 1 TRS 13.3.2.1 Slab Floor (AXT-19925) TRS 13.3.2.2 TRS 13.3.2.3 Vogtle Units 1 and 2 13.3 - 8 REVISION 31 Technical Requirement

Seismic Monitoring Instrumentation TR 13.3.2 Table 13.3.2-1 (page 2 of 2)

Seismic Monitoring Instrumentation Instruments and Sensor Locations Measurement Range Required Number of Surveillance or Setting Instruments and Tag Requirement Number s

3. Triaxial Time-History Accelerographs (Recorders)

a. Control Room -1g to + 1g 4 TRS 13.3.2.1 (AXR-19928A) TRS 13.3.2.2 (AXR-19928B)

(AXR-19928C)

(AXR-19928D)

4. Central Controlling Unit to include a computer, keyboard, LCD display, printer, alarm panel, and uninterruptible power supply.

a. Control Room N/A 6 TRS 13.3.2.1 (A-2414-Q5-SIP-CP1) TRS 13.3.2.2 (A-2414-Q5-SIP-KB1)

(AXI-19928)

(A-2414-Q5-SIP-PR1)

(AXA-19928)

(A-2414-Q5-SIP-UPS)

Vogtle Units 1 and 2 13.3 - 9 REVISION 31 Technical Requirement

Meteorological Instrumentation TR 13.3.3 13.3 Instrumentation TR 13.3.3 Meteorological Instrumentation (common system)

TR 13.3.3 The meteorological monitoring instrumentation channels identified in Table 13.3.3-1 shall be FUNCTIONAL.

APPLICABILITY: At all times.

ACTIONS

NOTE-----------------------------------------------------------

1. TR 13.0.3 is not applicable.

2. Separate Condition entry is allowed for each meteorological monitoring instrument channel.

CONDITION REQUIRED ACTION COMPLETION TIME A. One or more required A.1 Restore instrumentation to 7 days meteorological monitoring FUNCTIONAL status.

instrument channels nonfunctional.

B. Required ACTION and B.1 Initiate a Condition Report. Immediately associated Completion Time of Condition A not AND met.

B.2 Continue action to restore Immediately the required instrument channels to FUNCTIONAL status.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.3.3.1 Perform a CHANNEL CHECK on each meteorological 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months monitoring channel identified in Table 13.3.3-1.

TRS 13.3.3.2 Perform a CHANNEL CALIBRATION on each 184 days meteorological monitoring channel identified in Table 13.3.3-1.

Vogtle Units 1 and 2 13.3 - 10 REVISION 54 Technical Requirement

Meteorological Instrumentation TR 13.3.3 Table 13.3.3 - 1 Meteorological Monitoring Instrumentation (Common to Units 1 and 2)

Instrument Location Required Channels

1. Wind Speed

a. Lower, Primary Instrument Nominal Elevation 10m 1 Lower, Secondary Instrument

b. Upper, Primary Instrument Nominal Elevation 60m 1 Upper, Secondary Instrument

2. Wind Direction

a. Lower, Primary Instrument Nominal Elevation 10m 1 Lower, Secondary Instrument

b. Upper, Primary Instrument Nominal Elevation 60m 1 Upper, Secondary Instrument

3. Air Temperature - T

a. Primary Instrument Nominal Elevation 10m - 60m 1 Secondary Instrument Vogtle Units 1 and 2 13.3 - 11 REVISION 39 Technical Requirement

High-Energy Line Break Isolation Sensors TR 13.3.4 13.3 Instrumentation TR 13.3.4 High-Energy Line Break Isolation Sensors TR 13.3.4 The high-energy line break instrumentation channels listed in Table 13.3.4-1 shall be FUNCTIONAL.

APPLICABILITY: According to Table 13.3.4-1.

ACTIONS

NOTE-----------------------------------------------------------

Separate Condition entry is allowed for each isolation Function.

CONDITION REQUIRED ACTION COMPLETION TIME A. One or more required A.1 Restore the nonfunctional 7 days steam generator channel to FUNCTIONAL blowdown line or letdown status.

line isolation instrumentation channels nonfunctional.

B. Required Action and B.1 Initiate a Condition Report. Immediately associated Completion Time of Condition A not AND met.

B.2 Continue action to restore Immediately the required channel(s) to FUNCTIONAL status.

Vogtle Units 1 and 2 13.3 - 12 REVISION 35 Technical Requirement

High-Energy Line Break Isolation Sensors TR 13.3.4 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.3.4.1 Perform a COT on each required instrument channel 36 months listed in Table 13.3.4-1.

Vogtle Units 1 and 2 13.3 - 13 REVISION 53 Technical Requirement

High-Energy Line Break Isolation Sensors TR 13.3.4 Table 13.3.4-1 (page 1 of 2)

High-Energy Line Break Instrumentation Isolation Function Instrument Number and Location Required Applicable MODES Channels

1. Steam Generator Unit 1 Unit 2 Blowdown Line isolation TE 15212A (RB08) TE 15212A (RB131) 1 TE 15216A (RB08) TE 15216A (RB131)

TE 15212B (RC106) TE 15212B (RC03) 1 TE 15216B (RC106) TE 15216B (RC03)

TE 15212C (RC107) TE 15212C (RC01) 1 TE 15216C (RC107) TE 15216C (RC01)

TE 15212D (RC108) TE 15212D (RC02) 1 TE 15216D (RC108) TE 15216D (RC02)

MODES 1, 2, 3 and 4 FT 15212A (Loop 1) FT 15212A (Loop 1) 1 FT 15216A (Loop 1) FT 15216A (Loop 1)

FT 15212B (Loop 2) FT 15212B (Loop 2) 1 FT 15216B (Loop 2) FT 15216B (Loop 2)

FT 15212C (Loop 3) FT 15212C (Loop 3) 1 FT 15216C (Loop 3) FT 15216C (Loop 3)

FT 15212D (Loop 4) FT 15212D (Loop 4) 1 FT 15216D (Loop 4) FT 15216D (Loop 4)

Vogtle Units 1 and 2 13.3 - 14 REVISION 31 Technical Requirement

High-Energy Line Break Isolation Sensors TR 13.3.4 Table 13.3.4-1 (page 2 of 2)

High-Energy Line Break Instrumentation Isolation Function Instrument Number and Location Required Applicable MODES Channels

2. Letdown line Unit 1 Unit 2 isolation TE 15214A (A07) TE 15214A (A100) 1 TE 15215A (A07) TE 15215A (A100)

TE 15214B (A08) TE 15214B (A101) 1 MODES 1, 2, 3 and 4 TE 15215B (A08) TE 15215B (A101)

TE 15214C (A09) TE 15214C (A103) 1 TE 15215C (A09) TE 15215C (A103)

Vogtle Units 1 and 2 13.3 - 15 REVISION 31 Technical Requirement

Turbine Overspeed Protection TR 13.3.5 13.3 Instrumentation TR 13.3.5 Turbine Overspeed Protection TR 13.3.5 The turbine overspeed protection system shall be FUNCTIONAL.

APPLICABILITY: MODE 1 MODES 2 and 3 except when all main steam line isolation valves and associated bypass valves are closed and all other steam flow paths to the turbine are isolated.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One or more high A.1 Restore nonfunctional 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months pressure turbine stop or valve(s) to FUNCTIONAL control valves status.

nonfunctional.

OR 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months A.2 Isolate the affected steampath(s).

OR A.3 Plant management to 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months determine an alternate course of action that continues to assure the safe operation of the plant.

B. One or more low pressure B.1 Restore nonfunctional 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months turbine intermediate stop valve(s) to FUNCTIONAL or intercept valves status.

nonfunctional.

OR 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months B.2 Isolate the affected steampath(s).

(continued)

Vogtle Units 1 and 2 13.3 - 16 REVISION 35 Technical Requirement

Turbine Overspeed Protection TR 13.3.5 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME B. (continued) OR B.3 Plant management to 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months determine an alternate course of action that continues to assure the safe operation of the plant.

C. Required Action and C.1 Isolate the turbine from the 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months associated Completion steam supply.

Time of Condition A or B not met. OR OR Plant management to 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months determine an alternate Turbine overspeed course of action that protection nonfunctional continues to assure the safe for reasons other than operation of the plant.

Condition A or B.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.3.5.1 ------------------------------NOTE-----------------------------------

1. Only required to be performed in MODE 1 and MODE 2 with the turbine operating.

Cycle each of the following valves through at least one In accordance with complete cycle from the running position.

GET-8039 but not to

a. Four high pressure turbine stop valves exceed 6 months

b. Six low pressure turbine intermediate stop valves.

c. Six low pressure turbine intercept valves, and

d. Four high pressure turbine control valves (continued)

Vogtle Units 1 and 2 13.3 - 17 REVISION 57 Technical Requirement

Turbine Overspeed Protection TR 13.3.5 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

TRS 13.3.5.2 Perform a CHANNEL CALIBRATION. 18 months TRS 13.3.5.3 Disassemble each of the above valves and perform a 126 months visual and surface inspection of valve seats, disks, and stems to verify no unacceptable flaws or corrosion.

Vogtle Units 1 and 2 13.3 - 18 REVISION 57 Technical Requirement

Fuel Handling Building Post Accident Ventilation Actuation Instrumentation TR 13.3.6 13.3 Instrumentation TR 13.3.6 Fuel Handling Building Post Accident Ventilation Actuation Instrumentation (common system).

TR 13.3.6 The fuel handling building (FHB) post accident ventilation actuation instrumentation identified in Table 13.3.6-1 shall be FUNCTIONAL.

APPLICABILITY: Whenever irradiated fuel is in either storage pool.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One or more required A.1 Apply Required Actions of In accordance with FHB ventilation actuation TR 13.9.5. TR 13.9.5.

instruments nonfunctional.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.3.6.1 Perform CHANNEL CHECK 31 days TRS 13.3.6.2 Perform COT 18 months TRS 13.3.6.3 Perform ACTUATION LOGIC TEST 184 days TRS 13.3.6.4 Perform CHANNEL CALIBRATION 18 months TRS 13.3.6.5 Perform TADOT 18 months Vogtle Units 1 and 2 13.3 - 19 REVISION 55 Technical Requirement

Fuel Handling Building Post Accident Ventilation Actuation Instrumentation TR 13.3.6 Table 13.3.6-1 FHB Post Accident Ventilation Actuation Instrumentation Surveillance Instruments Required Channels Requirements Trip Setpoint

1. Manual Initiation 1 TRS 13.3.6.5 NA

2. FHB Exhaust Duct 1 TRS 13.3.6.1 (a)

Radiation Signal TRS 13.3.6.2 (ARE-2532 A&B TRS 13.3.6.4 ARE-2533 A&B)

3. Automatic 1 TRS 13.3.6.3 NA Actuation Logic and Actuation Relays (a) Setpoints will not exceed the limits of TS 5.5.4.g.

Vogtle Units 1 and 2 13.3 - 20 REVISION 31 Technical Requirement

Ultrasonic Mode Calorimetric TR 13.3.7 13.3 Instrumentation TR 13.3.7 Ultrasonic Mode Calorimetric TR 13.3.7 The Ultrasonic Mode Calorimetric shall be FUNCTIONAL with:

a. The Caldon LEFM CheckPlus system FUNCTIONAL, and

b. The Integrated Plant Computer (IPC) calorimetric (UQ1118)

FUNCTIONAL.

APPLICABILITY: MODE 1 with THERMAL POWER > 3565 MWt.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. LEFM CheckPlus system A.1 Switch UQ1118 calorimetric Immediately nonfunctional. display from the Ultrasonic Mode (Ccal) to the Normalized Venturi Mode (Ncal).

AND A.2 Restore the LEFM 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months CheckPlus system to FUNCTIONAL status.

B. Required Actions and B.1 Switch UQ1118 calorimetric Immediately associated Completion display from the Normalized Times of Condition A not Venturi Mode (Ncal) to the met. non-normalized Venturi Mode (Vcal).

AND B.2 Reduce reactor core power Immediately to < 3565 MWt.

(continued)

Vogtle Units 1 and 2 13.3 - 21 REVISION 35 Technical Requirement

Ultrasonic Mode Calorimetric TR 13.3.7 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME C. IPC Calorimetric C.1 Verify reactor core power 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months (UQ1118) nonfunctional. < 3625.6 MWt by ensuring the higher of average Power Range NIS or Delta-T indications < 100% RTP.

AND C.2 Restore the IPC Calorimetric Prior to performing (UQ1118) to FUNCTIONAL the next required status. power range channel calorimetric heat balance comparison per SR 3.3.1.2.

D. Required Actions and D.1 Reduce reactor core power Immediately associated Completion to < 3565 MWt ensuring the Times of Condition C not higher of average Power met. Range NIS or Delta-T indications < 98.3% RTP.

Vogtle Units 1 and 2 13.3 - 22 REVISION 35 Technical Requirement

Ultrasonic Mode Calorimetric TR 13.3.7 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.3.7.1 Verify that the most recent performance of SR 3.3.1.2 is Prior to exceeding based on an Ultrasonic Mode Calorimetric (Ccal). 3565 MWt.

TRS 13.3.7.2 Locally verify LEFM CheckPlus system FUNCTIONAL. With LEFM CheckPlus system FUNCTIONAL, once within 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months with the Main Control Board (MCB) LEFM trouble annunciator illuminated or nonfunctional.

AND Every 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months thereafter.

TRS 13.3.7.3 Perform LEFM CheckPlus electronics and system Once per 18 months maintenance in accordance with plant procedures.

TRS 13.3.7.4 --------------------------NOTE------------------------------------

Does not apply to steam line pressure Perform calibration of instrumentation and IPC Once per 18 months computer points to support calorimetric (UQ1118) in accordance with plant procedures.

TRS 13.3.7.5 For Steam Line Pressure, perform calibration of Once per 72 months instrumentation and IPC computer points to support calorimetric (UQ1118) in accordance with plant procedures.

Vogtle Units 1 and 2 13.3 - 23 REVISION 53 Technical Requirement

Loose Part Detection System TR 13.3.8 13.3 Instrumentation TR 13.3.8 Loose Part Detection System TR 13.3.8 The Loose Part Detection System shall be FUNCTIONAL.

APPLICABILITY: MODES 1 and 2 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. All channels or one or A.1 Restore nonfunctional 30 days more collection regions channel(s) to FUNCTIONAL nonfunctional. status.

B. Required Action and B.1 Initiate a Condition Report. Immediately associated Completion Time of Condition A not AND met.

B.2 Continue action to restore Immediately the required channels or collection regions to FUNCTIONAL status.

SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY TRS 13.3.8.1 Perform a CHANNEL CHECK. 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months TRS 13.3.8.2 Perform a COT. 31 days TRS 13.3.8.2 Perform a CHANNEL CALIBRATION. 18 months Vogtle Units 1 and 2 13.3 - 24 REVISION 54 Technical Requirement

Power Distribution Monitoring System (PDMS)

TR 13.3.9 13.3 INSTRUMENTATION TR 13.3.9 Power Distribution Monitoring System (PDMS)

TR 13.3.9 The PDMS shall be Functional with the minimum inputs in Table 13.3.9-1.

APPLICABILITY: In MODE 1 25% RTP.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. TR not met. A.1 Suspend the use of the Immediately PDMS.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.3.9.1 Perform a CHANNEL CHECK. 31 days TRS 13.3.9.2 Perform a calibration of the PDMS using the movable Once after each incore detector system with at least 75% of the detector refueling prior to thimbles and at least 2 detector thimbles per quadrant, THERMAL POWER using the minimum thermocouple coverage, and with exceeding 75% RTP THERMAL POWER > 25% RTP.

TRS 13.3.9.3 Perform calibration of the PDMS using the movable 31 EFPD with incore detector system with at least 50% of the detector minimum thimbles and at least 2 detector thimbles per quadrant, thermocouple using the minimum thermocouple coverage, and with coverage THERMAL POWER > 25% RTP.

OR 180 EFPD with optimum thermocouple coverage.

Vogtle Units 1 and 2 13.3 - 25 REVISION 60 Technical Requirement

Power Distribution Monitoring System (PDMS)

TR 13.3.9 BASES TRS 13.3.9.3 For PDMS calibration, the quantity and the coverage distribution of core exit thermocouples used as data input must meet certain criteria. With respect to thermocouple coverage, the available core exit thermocouple coverage can be optimum or minimum as described below. This criterion affects the TRS Frequency:

Optimum thermocouple coverage satisfies the minimum thermocouple Functionality requirement in Table 13.3.9-1 with the added requirement that the Functional pattern covers all internal fuel assemblies (no face along a baffle) within a chessboard knight move (an adjacent plus a diagonal square away).

Minimum thermocouple coverage satisfies thermocouple minimum Functionality requirements of Table 13.3.9-1 but does not meet the knight move pattern discussed above.

Vogtle Units 1 and 2 13.3 - 26 REVISION 60 Technical Requirement

Power Distribution Monitoring System (PDMS)

TR 13.3.9 Table 13.3.9-1 (Page 1 of 1)

Power Distribution Monitoring System Table 13.3.6-1 FUNCTION MINIMUM REQUIRED INPUTS

1. Control Bank Position 4 control banks (a)

2. RSC Cold Leg 2 RCS Loops (b)

Temperature T-cold 1 (c)

3. Reactor Power Level

4. Power Range Excore 3 (d)

Detector Signals

5. Core Exit 25% with 2 per Thermocouple quadrant Temperatures (a) Determined from either valid demand position indication or the average of individual DRPI indications.

(b) Either narrow range or wide range RTDs.

(c) Either valid secondary calorimetric, average power range neutron flux power, or average RSC loop T.

(d) An input is a channel which consists of corresponding upper and lower detector sections.

Vogtle Units 1 and 2 13.3 - 27 REVISION 60 Technical Requirement

Ultrasonic Mode Calorimetric B TR 13.3.7 B TR 13.3.7 Ultrasonic Mode Calorimetric BASES The reactor core power levels discussed in this Technical Requirement (TR) are based on the reactor core power level assumed in the reactor safety analysis and the magnitude of the calorimetric power determination uncertainty which is a function of the calorimetric method.

Operation at indicated core power levels above 3565 MWt requires a calorimetric power uncertainty determination of less than 2.0%. This is only possible if the Ultrasonic Mode calorimetric is functional. The Ultrasonic Mode calorimetric (Ccal) is unique in that it receives feedwater mass flow, feedwater temperature, and feedwater pressure inputs directly from the Caldon LEFM CheckPlus system. The LEFM system measures and transmits this data with lower uncertainty than the functionally equivalent instrumentation from the feedwater Venturi Mode calorimetric. The reduced uncertainty that is characteristic of the Ultrasonic Mode calorimetric requires a FUNCTIONAL LEFM System to provide the feedwater parameters listed above as well as a FUNCTIONAL IPC Calorimetric (UQ1118) for performing the thermal power calculations. The Normalized Venturi calorimetric (Ncal) will support operation above 3565 MWt and the required Power Range NIS channel adjustments for power level monitoring for up to 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months while the LEFM system is nonfunctional (Condition A). Upon the expiration of the 48-hour allowed outage time, reactor core power is reduced to < 3565 MWt (Condition B). Use of a non-normalized venturi-based calorimetric does not support operation above 3565 MWt.

Conditions A and B address situations when the Caldon LEFM CheckPlus System is not FUNCTIONAL. Conditions C and D address situations when the IPC Calorimetric is not FUNCTIONAL. If both the Caldon LEFM CheckPlus System and the IPC calorimetric (UQ1118) are concurrently non-FUNCTIONAL, then their respective Conditions are entered and Completion Times tracked separately in accordance with TRM Section 11.3.

(continued)

Vogtle Units 1 and 2 B 13.3 - 1 REVISION 36 Technical Requirement Bases

Ultrasonic Mode Calorimetric B TR 13.3.7 BASES (continued)

FUNCTIONALITY REQUIREMENTS LEFM CheckPlus System FUNCTIONAL is defined as the ability of the system to calculate and communicate feedwater mass flow, feedwater temperature and pressure at the required uncertainty level to be used as input for the IPC Ultrasonic Mode calorimetric calculation (Ccal). The LEFM electronics package and the IPC/LEFM data link application, which perform extensive self monitoring and diagnostics to ensure proper operation, are required for the LEFM CheckPlus system to be FUNCTIONAL. Conditions which impact the LEFM status, LEFM/IPC communication status, or electronics cabinet internal temperature will trigger a MCB annunciator. An available IPC screen may be reviewed to determine what condition has caused the annunciator to alarm.

More detailed diagnostic information is available locally at the LEFM electronics cabinet display screen.

MCB Annunciator Discussion LEFM System Status Condition LEFM/IPC Data The data from the LEFM cabinet are not nonfunctional communication communicating properly to the IPC. The IPC link has failed Ultrasonic Mode for calorimetric determination is impacted. Alarm condition.

LEFM meter in The LEFM system has experienced a failure nonfunctional non-normal affecting the uncertainty requirements for the status Ultrasonic Mode Calorimetric. Specific cause of the status is available locally at the LEFM (Alert or Failure electronics display.

status)

LEFM Electronics The temperature of the LEFM electronics cabinet FUNCTIONAL cabinet internal is above the high temperature setpoint. The temperature is LEFM system can continue to meet the above the high uncertainty requirements for the Ultrasonic Mode setpoint. Calorimetric. MCB annunciator will be triggered when High Temperature limit has been exceeded to allow monitoring and corrective action prior to exceeding the Hi-Hi limit.

Failure to restore the LEFM CheckPlus system to FUNCTIONAL status requires entry into Condition B which requires reducing the reactor core power to < 3565 MWt.

(continued)

Vogtle Units 1 and 2 B 13.3 - 2 REVISION 36 Technical Requirement Bases

RCS Chemistry TR 13.4.1 13.4 Reactor Coolant System (RCS)

TR 13.4.1 Chemistry TR 13.4.1 RCS chemistry shall be maintained within the limits specified in Table 13.4.1-1.

APPLICABILITY: At all times, except for dissolved oxygen when Tavg 250 F.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One or more chemistry A.1 Restore parameter to within 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months parameters steady- steady-state limit.

state limit and transient limit in MODES 1, 2, 3, or 4.

B. One or more chemistry B.1 Plant management to 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months parameters transient determine an alternate limit in MODES 1, 2, 3, or course of action that

4. continues to assure the safe operation of the plant.

OR OR Required Action and associated Completion B.2.1 Be in Mode 3. 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months Time of Condition A not met. AND B.2.2 Be in Mode 5. 36 hours4.166667e-4 days 0.01 hours 5.952381e-5 weeks 1.3698e-5 months (continued)

Vogtle Units 1 and 2 13.4 - 1 REVISION 35 Technical Requirement

RCS Chemistry TR 13.4.1 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME C. --------------NOTE------------ C.1 Initiate action to reduce the Immediately All Required Actions must pressurizer pressure to be completed whenever 500 psig.

this Condition is entered.

AND Chloride or fluoride C.2 Perform an engineering Prior to increasing concentration steady- evaluation to determine the pressurizer pressure state limit for 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months in effects of the out-of-limit 500 psig.

any condition other than condition on the structural MODES 1, 2, 3, or 4. integrity of the RCS. OR OR Prior to entering MODE 4.

Chloride or fluoride concentration transient AND limit in any condition other than MODES 1, 2, 3, or 4. C.3 Determine that the RCS Prior to increasing remains acceptable for pressurizer pressure continued operation. 500 psig.

OR Prior to entering MODE 4.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.4.1.1 ---------------------------------NOTES-------------------------------

Not required to be performed for dissolved oxygen when Tavg 250 F.

Not required for chloride and fluoride until 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months after Mode 6 entry from defueled conditions.

Verify RCS chemistry within limits specified on Table 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months 13.4.1-1.

Vogtle Units 1 and 2 13.4 - 2 REVISION 43 Technical Requirement

RCS Chemistry TR 13.4.1 Table 13.4.1-1 RCS Chemistry Limits PARAMETER STEADY-STATE LIMIT TRANSIENT LIMIT Dissolved Oxygen (a) 0.10 ppm 1.00 ppm Chloride 0.15 ppm 1.50 ppm Fluoride 0.15 ppm 1.50 ppm (a)

Limits not applicable when Tavg 250 F.

Vogtle Units 1 and 2 13.4 - 3 Rev. 0 Technical Requirement 12/26/96

RCS Chemistry TR 13.4.1 13.4 Reactor Coolant System TR 13.4.2 Pressurizer TR 13.4.2 The pressurizer temperature (TI-0453, TI-0454) shall be limited to:

a. A maximum heatup of 100 F in any 1-hour period,

b. A maximum cooldown of 200 F in any 1-hour period, and

c. A maximum auxiliary spray water temperature differential of 625 F (TI-0126)

APPLICABILITY: At all times.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. ------------NOTES------------

1. All Required Actions must be completed whenever this Condition is entered.

2. Heatup and cooldown limits do not apply to the pressurizer surge line.

Pressurizer temperature A.1 Restore pressurizer 30 minutes not within limits. temperature to within limits.

AND A.2 Perform an engineering 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months evaluation to determine the effects of the out-of-limit condition on the structural integrity of the pressurizer.

(continued)

Vogtle Units 1 and 2 13.4 - 4 REVISION 61 Technical Requirement

RCS Chemistry TR 13.4.1 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. (continued) AND A.3 Determine that the 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months pressurizer remains acceptable for continued operation.

B. Required Action and B.1 Plant management to 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months associated Completion determine an alternate Time not met. course of action that continues to assure the safe operation of the plant.

OR B.2.1 Be in MODE 3. 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months AND B.2.2 Reduce pressurizer pressure 36 hours4.166667e-4 days 0.01 hours 5.952381e-5 weeks 1.3698e-5 months to 500 psig.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.4.2.1 --------------------------------NOTE---------------------------------

Only required to be performed during system heatup and cooldown.

Verify pressurizer heatup and cooldown rates are within 30 minutes limits.

(continued)

Vogtle Units 1 and 2 13.4 - 5 REVISION 61 Technical Requirement

RCS Chemistry TR 13.4.1 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

SURVEILLANCE FREQUENCY TRS 13.4.2.2 ---------------------------------NOTE--------------------------------

Only required to be performed during auxiliary spray operation.

Verify the auxiliary spray water temperature differential 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months is within limit.

Vogtle Units 1 and 2 13.4 - 6 REVISION 61 Technical Requirement

RCS Vents TR 13.4.3 13.4 Reactor Coolant System (RCS)

TR 13.4.3 RCS Vents TR 13.4.3 Two reactor vessel head vent paths each consisting of two vent valves and a control valve powered from emergency busses, shall be FUNCTIONAL and closed.

APPLICABILITY: MODES 1, 2, 3, and 4.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One or more reactor -------------------Note---------------------

vessel head vent valves in 1. Power may be temporarily a vent path nonfunctional. restored to the actuator of an nonfunctional vent valve under administrative control provided that both control valves are FUNCTIONAL and closed, or power is removed from the control valve actuator(s).

A.1 Initiate action to maintain the Immediately nonfunctional vent path closed with power removed from the vent valve actuators.

AND 30 days A.2 Restore vent valve(s) to FUNCTIONAL status.

(continued)

Vogtle Units 1 and 2 13.4 - 7 REVISION 61 Technical Requirement

RCS Vents TR 13.4.3 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME B. One reactor vessel head B.1 Verify all vent valves for both 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months vent path control valve vent paths are closed.

nonfunctional.

AND Once per 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months thereafter.

AND B.2 Restore control valve to 30 days FUNCTIONAL status.

C. Two reactor vessel head C.1 Restore one vent path to 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months vent paths nonfunctional. FUNCTIONAL status.

D. Required Action and D.1 Initiate a Condition Report. Immediately associated Completion Time not met. AND D.2 Continue action to restore Immediately the required vent path(s) to FUNCTIONAL status.

Vogtle Units 1 and 2 13.4 - 8 REVISION 61 Technical Requirement

RCS Vents TR 13.4.3 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.4.3.1 Verify all manual isolation valves in each vent path are 18 months locked in the open position.

TRS 13.4.3.2 Verify each vent and control valve operates through one 18 months complete cycle of full travel from the control room.

TRS 13.4.3.3 Verify flow through the RCS vent paths during venting. 18 months Vogtle Units 1 and 2 13.4 - 9 REVISION 61 Technical Requirement

ECCS TR 13.5.1 13.5 Emergency Core Cooling System TR 13.5.1 Emergency Core Cooling System (ECCS)

TR 13.5.1 The ECCS subsystems required OPERABLE in accordance with Technical Specifications 3.5.2 and 3.5.3 shall maintain:

a. Unrestricted containment sump suctions,

b. Throttle valves in correct position, and

c. Flow balanced.

APPLICABILITY: MODES 1, 2, 3, and 4 ACTIONS CONDITION REOUIRED ACTION COMPLETION TIME A. One or more ECCS A. 1 Refer to Technical Immediately subsystems inoperable. Specification 3.5.2 or 3.5.3, as applicable, and associated Required Actions.

TECHNICAL REOUIREMENT SURVEILLANCES SURVEILLANCE FREOUENCY TRS 13.5.1.1 Perform a visual inspection of accessible areas of Once prior to entry containment to verify that no loose debris (rags, trash. into MODE 4 from clothing, etc.) is present in the containment which MODE 5 could be transported to the containment emergency sump and cause restriction of the pump suctions AND during LOCA conditions.

Thereafter at the completion of each containment entry.

(continued)

Vogtie Units 1 and 2 13.5-1 Rev. 0 Technical Requirement 12/26/96

ECCS TR 13.5.1 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

SURVEILLANCE FREQUENCY TRS 13.5.1.2 Verify correct position of each electrical and/or Once within 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months mechanical position stop for the following ECCS following valve throttle valves: stroking or maintenance 1204-U4-022 1204-U4-139 1204-U4-023 1204-U4-140 AND 1204-U4-024 1204-U4-141 1204-U4-025 1204-U4-142 18 months.

1204-U4-116 1204-U4-118 1204-U4-117 1204-U4-119 TRS 13.5.1.3 NOTE

1. Centrifugal charging pump flow shall not exceed the following:

555 gpm with non-boosted suction (e.g., cold leg injection alignment).

570 gpm with boosted suction (e.g., cold leg recirculation alignment).

2. Safety injection pump flow shall not exceed the following:

660 gpm with non-boosted suction (e.g., cold leg injection alignment).

675 gpm with boosted suction (e.g., cold leg recirculation alignment).

(continued)

Vogtie Units 1 and 2 13.5-2 Rev. 1 Technical Requirement 10/3/97

ECCS TR 13.5.1 THIS PAGE APPLICABLE TO UNIT 1 ONLY.

TECHNICAL REQUIREMENT SURVEILLANCES TRS 13.5.1.3 (continued)

Perform a flow balance test, during shutdown, and Once following verify that: completion of modifications to the a) For centrifugal charging pump lines (cold leg ECCS subsystem(s) injection) with a single pump running: that alter the i) Simulated seal flow rate subsystem(s) flow Isolated (1) characteristics.

ii) Pump discharge resistance a) Train A: 0.0107 - 0.0123 ft/gpm2 (2) (3) b) Train B: 0.0097 - 0.0123 ft/gpm2 (2) (3) iii) Maximum branch line imbalance 800 WC (2) b) For safety injection pump lines (cold leg injection) with a single pump running:

i) Miniflow Isolated ii) Pump discharge resistance 0.0043 - 0.0056 ft/gpm2 (2) (4) iii) Maximum branch line imbalance 90 WC (2) c) For safety injection pump lines (hot leg injection) with a single pump running:

i) Miniflow Isolated ii) Pump discharge resistance 0.0043 - 0.0058 ft/gpm2 (2) iii) Maximum branch line imbalance 500 WC (2) d) For RHR pump lines, with a single pump running, the sum of the injection line flow rates is > 3788 gpm.

(1)

Normal seal injection of approximately 32 gpm can be provided by the charging pump during the test.

(2)

Corrected for test measurement accuracy based on the instruments listed in Table 13.5.1-1.

(3)

Backflow through check valve 1208-U6-129 combined with backflow through either check valve 1208-U6-142 or 1208-U6-149 must be confirmed as not exceeding five gpm.

(4)

Backflow through check valves 1204-U6-098 and 1204-U6-099 must be confirmed as not exceeding five gpm.

Vogtle Units 1 and 2 13.5 - 3 REVISION 37 Technical Requirement

ECCS TR 13.5.1 THIS PAGE APPLICABLE TO UNIT 2 ONLY.

TECHNICAL REQUIREMENT SURVEILLANCES TRS 13.5.1.3 (continued)

Perform a flow balance test, during shutdown, and Once following verify that: completion of modifications to the a) For centrifugal charging pump lines (cold leg ECCS subsystem(s) injection) with a single pump running: that alter the i) Simulated seal flow rate subsystem(s) flow Isolated (1) characteristics.

ii) Pump discharge resistance 0.0097 - 0.0123 ft/gpm2 (2) (3) iii) Maximum branch line imbalance 800 WC (2) b) For safety injection pump lines (cold leg injection) with a single pump running:

i) Miniflow Isolated ii) Pump discharge resistance 0.0043 - 0.0056 ft/gpm2 (2) (4) iii) Maximum branch line imbalance 90 WC (2) c) For safety injection pump lines (hot leg injection) with a single pump running:

i) Miniflow Isolated ii) Pump discharge resistance 0.0043 - 0.0058 ft/gpm2 (2) iii) Maximum branch line imbalance 500 WC (2) d) For RHR pump lines, with a single pump running, the sum of the injection line flow rates is > 3788 gpm.

(1)

Normal seal injection of approximately 32 gpm can be provided by the charging pump during the test.

(2)

Corrected for test measurement accuracy based on the instruments listed in Table 13.5.1-1.

(3)

Backflow through check valve 1208-U6-129 combined with backflow through either check valve 1208-U6-142 or 1208-U6-149 must be confirmed as not exceeding five gpm.

(4)

Backflow through check valves 1204-U6-098 and 1204-U6-099 must be confirmed as not exceeding five gpm.

Vogtle Units 1 and 2 13.5 - 3 REVISION 37 Technical Requirement

ECCS TR 13.5.1 Table 13.5.1-1 Assumed Instrument Accuracies forTRS 13.5.1.3 Instruments Description Accuracy

1. DPGaugeforFE-917 250-1250 inch WC 6 inch WC

2. Flow Channel for FE-918 0 - 800 gpm 7 gpm

3. Flow Channel for FE-922 0 - 800 gpm 7 gpm

4. DP Gauges for 0 - 7000 inch WC 50 inch WC FE-924/925/926/927

5. DP Gauges for 750-1250 inch WC 6.5 inch WC FE 980/981/982/983

6. DP Gauges for 1500-3000 inch WC 15 inch WC FE-984/985/986/987

7. CCP Discharge Pressure 0 - 3000 psig 7.5 psi

8. SIP Discharge Pressure 0 - 2000 psig 5 psi

9. FE-917 2.2341 inch bore diameter 0.0004 inch

10. FE-918 2.6909 inch bore diameter 0.0005 inch

11. FE-922 2.6909 inch bore diameter 0.0005 inch Vogtie Units 1 and 2 13.5-4 Rev. 1 Technical Requirement 4/16/08

Steam Generator Pressure/Temperature Limitation TR 13.7.1 13.7 Plant Systems TR 13.7.1 Steam Generator (SG) Pressure/Temperature Limitation TR 13.7.1 The pressure of the reactor and secondary coolants in the SG shall be 200 psig.

APPLICABILITY: Whenever the temperature of the reactor or secondary coolant in any SG is 70 °F and the primary or secondary systems are capable of being pressurized.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. -------------NOTE-------------

All Required Actions must be completed whenever this Condition is entered.

SG pressure not within A.1 Reduce the pressure of the 30 minutes limits. applicable SG side to 200 psig.

AND A.2 Perform an engineering Prior to increasing evaluation to determine the the SG coolant effect of the over- temperatures >

pressurization on the 200 °F structural integrity of the SG.

AND A.3 Determine that the SG Prior to increasing remains acceptable for the SG coolant continued operation. temperatures >

200 °F Vogtle Units 1 and 2 13.7 -1 REVISION 36 Technical Requirement

Steam Generator Pressure/Temperature Limitation TR 13.7.1 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.7.1.1 Verify the pressure in each side of the SG is < 200 psig. 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months Vogtle Units 1 and 2 13.7 -2 Rev.1 Technical Requirement 8/24/07

Snubbers TR 13.7.2 13.7 Plant Systems TR 13.7.2 Snubbers TR 13.7.2 All required snubbers utilized on safety-related systems shall be FUNCTIONAL.

Snubbers utilized on non-safety-related systems shall be FUNCTIONAL if the failure of that snubber or the non-safety-related system would have an adverse effect on any safety-related system.

APPLICABILITY: MODES 1, 2, 3, and 4.

MODES 5 and 6 for required snubbers located on systems required OPERABLE or FUNCTIONAL in those MODES.

ACTIONS

NOTES---------------------------------------------------------

1. Separate Condition entry is allowed for each affected system.

2. Removal of a snubber from attached system does not result in the snubber becoming nonfunctional.

CONDITION REQUIRED ACTION COMPLETION TIME A. One or more required A.1 Refer to Technical Immediately snubbers removed from Specification LCO 3.0.8, as attached system. applicable, and associated Required Actions.

OR One or more required snubbers nonfunctional while in place.

B. One or more required B.1 Perform an engineering 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months snubbers nonfunctional. evaluation on the supported component in accordance with ASME OM Code, Subsection ISTD.

C. Required Action and C.1 Declare attached system Immediately associated Completion inoperable or nonfunctional Time of Condition B not as appropriate.

met.

Vogtle Units 1 and 2 13.7 - 3 REVISION 35 Technical Requirement

Snubbers TR 13.7.2 TECHNICAL REQUIREMENT SURVEILLANCES

NOTE--------------------------------------------------------

Each required snubber shall be demonstrated FUNCTIONAL by performance of an inservice examination and testing program in accordance with the ASME OM Code, Subsection ISTD.

SURVEILLANCE FREQUENCY TRS 13.7.2.1 Perform visual examinations in accordance with the ASME In accordance with OM Code, Subsection ISTD. the site Snubber Program.

TRS 13.7.2.2 Perform an inspection of all required snubbers attached to Within 6 months sections of systems that have experienced unexpected, following the event potentially damaging transients in accordance with table 13.7.2-1.

TRS 13.7.2.3 Perform a functional test on a representative sample of Each Fuel Cycle snubbers in accordance with ASME OM Code, Subsection ISTD. For applicability to Repaired and Replaced snubbers reference table 13.7.2-2.

(continued)

Vogtle Units 1 and 2 13.7 - 4 REVISION 45 Technical Requirement

Snubbers TR 13.7.2 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

TRS 13.7.2.4 Snubber service life will be monitored in accordance Each Fuel Cycle with ASME OM Code, Subsection ISTD.

Vogtle Units 1 and 2 13.7 - 5 REVISION 33 Technical Requirement

Snubbers TR 13.7.2 Table 13.7.2-1 Transient Event Inspection

1. An inspection shall be performed of all snubbers attached to sections of systems that have experienced unexpected, potentially damaging transients as determined from a review of operational data and a visual inspection of the systems within 6 months following such an event.

2. In addition to satisfying the visual inspection acceptance criteria, freedom-of-motion of mechanical snubbers shall be verified using at least one of the following:

a) Manually induced snubber movement; or b) Evaluation of in-place snubber piston setting; or c) Stroking the mechanical snubber through its full range of travel.

Vogtle Units 1 and 2 13.7 - 6 Rev. 1 Technical Requirement 9/12/08

Snubbers TR 13.7.2 Table 13.7.2-2 Functional Tests Functional Testing of Repaired and Replaced Snubbers Snubbers which fail the visual inspection or the functional test acceptance criteria shall be repaired or replaced. Where applicable, repair and replacement of snubbers shall be performed in accordance with the requirements of ASME Code,Section XI, except where relief has been granted by the NRC. Replacement snubbers and snubbers which have repairs which might affect the functional test results shall be tested to meet the functional test criteria before installation in the unit. Mechanical snubbers shall have met the acceptance criteria subsequent to their most recent service, and the freedom-of-motion test must have been performed within 12 months before being installed in the unit.

Vogtle Units 1 and 2 13.7 - 7 Rev. 1 Technical Requirement 9/12/08

Sealed Source Contamination TR 13.7.3 13.7 Plant Systems TR 13.7.3 Sealed Source Contamination TR 13.7.3 The removable contamination shall be < 0.005 microcuries for each sealed source containing radioactive material >100 microcuries of beta and/or gamma emitting material or > 5 microcuries of alpha emitting material.

APPLICABILITY: At all times.

ACTIONS

NOTE-----------------------------------------------------------

TR 13.0.3 is not applicable CONDITION REQUIRED ACTION COMPLETION TIME A. Sealed source A.1 Remove sealed source from Immediately contamination not within use.

limit.

AND A.2.1 Decontaminate and repair Prior to returning the the sealed source sealed source to use OR A.2.2 Dispose of sealed source in In accordance with accordance with NRC NRC regulations regulations.

Vogtle Units 1 and 2 13.7 - 8 Rev. 1 Technical Requirement 9/12/08

Sealed Source Contamination TR 13.7.3 TECHNICAL REQUIREMENT SURVEILLANCES

NOTES----------------------------------------------------------

1. The licensee, other persons specifically authorized by the NRC, or an Agreement State shall perform the Technical Requirement Surveillances.

2. The test methods shall have a detection sensitivity of at least 0.005 microcuries per test sample.

SURVEILLANCE FREQUENCY TRS 13.7.3.1 -------------------------------NOTES--------------------------------

1. Not applicable to startup sources and fission detectors previously subjected to core flux.

2. Only applicable to sources in use with:

a. Half-lives > 30 days, excluding Hydrogen 3, and

b. In any form other than gas.

Verify removable contamination is within limit for each 6 months sealed source.

TRS 13.7.3.2 ---------------------------------NOTES------------------------------

1. Only applicable to sources not in use.

2. Sealed sources and fission detectors transferred without a certificate indicating the last test date shall be tested prior to being placed into use.

Verify the removable contamination is within limit for Within 6 months each sealed source and fission detector. prior to use or transfer to another licensee.

(continued)

Vogtle Units 1 and 2 13.7 - 9 Rev. 1 Technical Requirement 9/12/08

Sealed Source Contamination TR 13.7.3 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

SURVEILLANCE FREQUENCY TRS 13.7.3.3 --------------------------------NOTE---------------------------------

Only applicable to startup sources and fission detectors not in use.

Verify the removable contamination is within limit for Within 31 days prior each startup source and fission detector. to being installed in the core or being subjected to core flux.

AND Following repair or maintenance to the source.

Vogtle Units 1 and 2 13.7 - 10 Rev. 2 Technical Requirement 9/12/08

RCP Thermal Barrier Cooling Water Isolation TR 13.7.4 13.7 Plant Systems TR 13.7.4 Reactor Coolant Pump (RCP) Thermal Barrier Cooling Water Isolation TR 13.7.4 The RCP thermal barrier isolation function shall be FUNCTIONAL.

APPLICABILITY: MODES 1, 2, 3, and 4.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. RCP thermal barrier A.1 Restore to FUNCTIONAL 7 days isolation function status.

nonfunctional.

B. Required Action and B.1 Initiate a Condition Report. Immediately associated Completion Time not met. AND B.2 Continue action to restore Immediately the required isolation function to FUNCTIONAL status.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.7.4.1 Verify valve HV-2041 automatically closes on thermal 18 months on a barrier outlet high header pressure and high header STAGGERED TEST flow test signals. BASIS.

TRS 13.7.4.2 Verify valves HV-19051, HV-19053, HV-19055, and HV- 18 months 19057 automatically close on thermal barrier outlet high flow test signals.

Vogtle Units 1 and 2 13.7 - 11 REVISION 35 Technical Requirement

Area Temperature Monitoring TR 13.7.5 13.7 Plant Systems TR 13.7.5 Area Temperature Monitoring TR 13.7.5 The area temperatures listed in Table 13.7.5-1 shall be maintained within the limits specified in Table 13.7.5-1.

NOTE-----------------------------------------------------------

The area temperature may exceed the limit specified in Table 13.7.5-1 for 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months provided the temperature is maintained 150°F.

APPLICABILITY: Whenever the equipment in an affected area is required to be OPERABLE or FUNCTIONAL.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. With one or more areas A.1 Prepare an analysis to 30 days exceeding the specified determine the effect on temperature limit for more equipment OPERABILITY or than 8 hours9.259259e-5 days 0.00222 hours 1.322751e-5 weeks 3.044e-6 months . FUNCTIONALITY and qualified life.

B. With one or more areas B.1.1 Restore the temperature to 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months exceeding 150°F. less than the specified limit for each affected area.

AND B.1.2 Prepare an evaluation to 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months demonstrate equipment OPERABILITY or FUNCTIONALITY.

OR B.2 Declare the equipment in the 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months affected area(s) inoperable or nonfunctional.

Vogtle Units 1 and 2 13.7 - 12 REVISION 35 Technical Requirement

Area Temperature Monitoring TR 13.7.5 SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY TRS 13.7.5.1 ---------------------------------NOTES------------------------------

1. Only required to be performed when the associated area normal HVAC system is not in service.

2. The area normal HVAC is defined as the minimum HVAC components specified in Table 13.7.5-1 which, shown through analysis or empirical data, are sufficient to maintain the area temperature below the limits specified in Table 13.7.5-1.

3. A stable temperature must be achieved if using empirical data to justify discontinuing or exempting an area from temperature monitoring.

Verify the temperature in each area is within the 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months specified limit.

Vogtle Units 1 and 2 13.7 - 13 REVISION 35 Technical Requirement

Area Temperature Monitoring TR 13.7.5 TABLE 13.7.5-1 (SHEET 1 OF 2)

UNITS 1 AND 2 AREA TEMPERATURE MONITORING REQUIREMENTS UNIT 1 AREA TEMPERATURE LIMITS Building Room NO. Temperature Limit(°F)

AUX 212 100 AUX A047 100 AUX B017 100 AUX B023 100 AUX C083 100 AUX C113 100 AUX D053 100 AUX D067 100 AUX D072 100 AUX D073 100 AUX D119 100 AUX D121 100 CONTROL A055 100 CONTROL B065 100 CONTROL B074 100 CONTROL B078 100 EQUIPMENT 117 120 EQUIPMENT 125 120 FHB B008 104 UNIT 1 MINIMUM NORMAL HVAC COMPONENTS Building Equipment Description Tag Number AUX (1 of 2) Supply Fans AND 1-1551-A7-001, -002 (2 of 3) Continuous Exhaust Fans 1-1553-N7-001, -002, -003 CONTROL (1 of 1) Wing Area Normal AC Unit AND 1-1553-A7-001 (1 of 1) Wing Area Normal Exh and Return Fan 1-1553-B7-001 FHB(a) (1 of 2) Supply Fans AND A-1541-A7-001, -002 (1 of 2) Normal Exhaust Filtration Unit A-1541-N7-001, -002 EQPT (0 of 2) Fans 1-1526-B7-001, -002 Vogtle Units 1 and 2 13.7 - 14 REVISION 35 Technical Requirement

Area Temperature Monitoring TR 13.7.5 TABLE 13.7.5-1 (SHEET 2 OF 2)

UNIT 2 AREA TEMPERATURE LIMITS Building Room NO. Temperature Limit(°F)

AUX 221 100 AUX A082 100 AUX B113 100 AUX C010 100 AUX D106 100 AUX D107 100 AUX D113 100 AUX D123 100 CONTROL A002 100 CONTROL A010 100 CONTROL B002 100 CONTROL B010 100 CONTROL B019 100 EQUIPMENT 117 120 EQUIPMENT 125 120 FHB B006 104 UNIT 2 MINIMUM NORMAL HVAC COMPONENTS Building Equipment Description Tag Number AUX (1 of 2) Supply Fans AND 2-1551-A7-001, -002 (2 of 3) Continuous Exhaust Fans 2-1553-N7-001, -002, -003 CONTROL (1 of 1) Wing Area Normal AC Unit AND 2-1553-A7-001 (1 of 1) Wing Area Normal Exh and Return Fan 2-1553-B7-001 FHB(a) (1 of 2) Supply Fans AND A-1541-A7-001, -002 (1 of 2) Normal Exhaust Filtration Unit A-1541-N7-001, -002 EQPT (0 of 2) Fans 2-1526-B7-001, -002

a. Whenever less than the minimum normal HVAC components for the fuel handling building are in service, the area temperatures must be verified for applicable rooms of both Units 1 and 2.

Vogtle Units 1 and 2 13.7 - 15 REVISION 35 Technical Requirement

Main Steam Isolation Valves TR 13.7.6 13.7 Plant Systems TR 13.7.6 Main Steam Isolation Valves (MSIVs)

(NOTE)----------------------------------------------------------

This Technical Requirement contains a listing of the MSIVs subject to Technical Specification SR 3.7.2.1.

Table 13.7.6-1 Main Steam Isolation Valves VALVE NUMBER ISOLATION TIME (SECONDS) 1HV-3006A 5 1HV-3006B 5 1HV-3016A 5 1HV-3016B 5 1HV-3026A 5 1HV-3026B 5 1HV-3036A 5 1HV-3036B 5 2HV-3006A time shown in Figure 13.7.6-1(1) 2HV-3006B 5 2HV-3016A time shown in Figure 13.7.6-1(1) 2HV-3016B 5 2HV-3026A time shown in Figure 13.7.6-1(1) 2HV-3026B 5 2HV-3036A time shown in Figure 13.7.6-1(1) 2HV-3036B 5 (1)

Times shown in Figure 13.7.6-1 are for the non-flowing condition Vogtle Units 1 and 2 13.7 - 16 REVISION 62 Technical Requirement

Main Steam Isolation Valves TR 13.7.6 Figure 13.7.6-1 Main Stream Isolation Valves Vogtle Units 1 and 2 13.7 - 17 REVISION 62 Technical Requirement

FIVs and FCVs and Associated Bypass Valves TR 13.7.7 13.7 Plant Systems TR 13.7.7 Feedwater Isolation Valves (FIVs) and Feedwater Control Valves (FCVs) and Associated Bypass Valves

NOTE--------------------------------------------------------------

This Technical Requirement contains a listing of the FIVs, FCVs, and Associated Bypass Valves subject to Technical Specification SR 3.7.3.1.

Table 13.7.7-1 Feedwater Isolation Valves and Feedwater Control Valves and Associated Bypass Valves VALVE NUMBER ISOLATION TIME (SECONDS)

HV-5227 5 HV-5228 5 HV-5229 5 HV-5230 5 FV-0510 5 FV-0520 5 FV-0530 5 FV-0540 5 LV-5242 5 LV-5243 5 LV-5244 5 LV-5245 5 Vogtle Units 1 and 2 13.7 - 18 REVISION 62 Technical Requirement

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 13.8 Electrical Power Systems TR 13.8.1 Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 Containment penetration conductor overcurrent protective devices and feeder breakers to isolation transformers between 480V Class 1E busses and non Class 1E equipment as specified in Table 13.8.1-1 shall be FUNCTIONAL.

APPLICABILITY: MODES 1, 2, 3, and 4.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One or more containment A.1 Restore the protective device 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months penetration conductor or feeder breaker to overcurrent protective FUNCTIONAL status.

device(s) or feeder breakers to isolation OR transformers between 480V Class 1E busses A.2.1 Deenergize the circuit(s) by 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months and non Class 1E racking out, locking open, or equipment nonfunctional. removing the nonfunctional circuit breaker or protective device and tripping the associated backup circuit breaker.

AND A.2.2 Declare the affected system 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months or component inoperable or nonfunctional as appropriate.

AND A.2.3 Verify the nonfunctional Once per 31 days circuit breaker or protective device racked out, locked open or removed.

(continued)

Vogtle Units 1 and 2 13.8 - 1 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. (continued) OR A.3.1 Deenergize the circuit(s) by 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months racking out, locking open, or removing the nonfunctional circuit breaker or protective device.

AND A.3.2 Declare the affected system 72 hours8.333333e-4 days 0.02 hours 1.190476e-4 weeks 2.7396e-5 months or component inoperable or nonfunctional as appropriate.

AND A.3.3 Verify the nonfunctional Once per 7 days circuit breaker or protective device racked out, locked open or removed.

B. Required Action and B.1 Initiate a Condition Report. Immediately associated Completion Time not met. AND B.2 Continue action to restore Immediately the required circuit breaker(s) or protective device(s) to FUNCTIONAL status.

Vogtle Units 1 and 2 13.8 - 2 REVISION 35 Technical Requirement

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.8.1.1 Verify 13.8 kV circuit breaker FUNCTIONALITY by 18 months selecting, on a rotating basis, at least one of the circuit breakers, and performing the following:

a. A CHANNEL CALIBRATION,

b. An integrated system functional test which includes simulated automatic actuation of the system and verification that each required (phase or ground overcurrent) relay and associated circuit breakers and control circuits function as designed. Three out of the four phase and ground overcurrent relays are required for Containment Penetration Protection, and

c. For each circuit breaker found nonfunctional during the above required functional tests (a and b), an additional representative sample of at least one of the circuit breakers of the nonfunctional type shall also be functionally tested until no more failures are found or all circuit breakers of that type have been functionally tested. This requirement will also apply to any failure of a phase or ground overcurrent relay associated with the breaker being tested.

(continued)

Vogtle Units 1 and 2 13.8 - 3 REVISION 35 Technical Requirement

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

SURVEILLANCE FREQUENCY TRS 13.8.1.2 --------------------------------NOTES-------------------------------

1. Circuit breakers selected for functional testing shall be selected on a rotating basis.

2. The functional test shall consist of injecting a current for each over current trip on the breaker and measuring the response time. The measured response time will be compared to the manufacturers data to ensure that it is within the tolerances specified by the manufacturer.

3. For each circuit breaker found nonfunctional during these functional tests, an additional representative sample of 10% of all the circuit breakers of the nonfunctional type shall also be functionally tested until no more failures are found or all circuit breakers of that type have been functionally tested.

Perform a functional test on a representative sample of 18 months 10% of each type of lower voltage circuit breakers.

TRS 13.8.1.3 Inspect and perform preventive maintenance on each 72 months circuit breaker in accordance with site procedures.

Vogtle Units 1 and 2 13.8 - 4 REVISION 35 Technical Requirement

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (This page intentionally left blank)

Vogtle Units 1 and 2 13.8 - 5 REVISION 59 Technical Requirement

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 (SHEET 1 OF 30)(a)

CONTAINMENT PENETRATION CONDUCTOR OVERCURRENT PROTECTIVE DEVICES AND ISOLATION DEVICES FOR CLASS 1E TO NON-CLASS 1E FEEDS Protective Device Powered Number Equipment

1. 13.8 kV LOADS 1/2NAA08(b) REACTOR COOLANT PUMP 1/2AAA(b) MOTOR # 1 (1/2-1201-P6-001-M01) 1/2NAB06(b) REACTOR COOLANT PUMP 1/2BAB(b) MOTOR #2 (1/2-1201-P6-002-M01) 1/2NAA07(b) REACTOR COOLANT PUMP 1/2CAC(b) MOTOR #3 (1/2-1201-P6-003-M01) 1/2NAB07(b) REACTOR COOLANT PUMP 1/2DAD(b) MOTOR #4 (1/2-1201-P6-004-M01)

2. 480 V ac FROM LOAD CENTERS 1/2NB0106 CTB CAVITY COOLING FAN MOTOR #1 (1/2-1511-B7-001-M01) 1/2AB0404 CTB COOLING UNIT MOTOR #1 (HI-SPEED)

(1/2-1501-A7-001-M01)

Vogtle Units 1 and 2 13.8 -6 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 2 OF 30) 1/2AB0405 (LO-SPEED) 1/2AB0408 CTB COOLING UNIT MOTOR #2 (HI-SPEED)

(1/2-1501-A7-002-M01) 1/2AB0409 (LO-SPEED) 1/2BB0604 CTB COOLING UNIT MOTOR #3 (HI-SPEED)

(1/2-1501-A7-003-M01) 1/2BB0605 (LO-SPEED) 1/2BB0608 CTB COOLING UNIT MOTOR #4 (HI-SPEED)

(1/2-1501-A7-004-M01) 1/2BB0609 (LO-SPEED) 1/2AB0412 CTB COOLING UNIT MOTOR #5 (HI-SPEED)

(1/2-1501-A7-005-M01) 1/2AB0413 (LO-SPEED) 1/2AB0416 CTB COOLING UNIT MOTOR #6 (HI-SPEED)

(1/2-1501-A7-006-M01) 1/2AB0417 (LO-SPEED) 1/2BB0612 CTB COOLING UNIT MOTOR #7 (HI-SPEED)

(1/2-1501-A7-007-M01) 1/2BB0613 (LO-SPEED) 1/2BB0616 CTB COOLING UNIT MOTOR #8 (HI-SPEED)

(1/2-1501-A7-008-M01)

Vogtle Units 1 and 2 13.8 -7 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 3 OF 30) 1/2BB0617 (LO-SPEED) 1/2AB0508 CTB HYDROGEN RECOMBINER POWER PANEL #1 (1/2-1513-H7-001-H01) 1/2BB0708 CTB HYDROGEN RECOMBINER POWER PANEL #2 (1/2-1513-H7-002-H01) 1/2NB0804 CTB PRE-ACCESS FILTER FAN MOTOR #1 (1/2-1504-N7-001-M01) 1/2NB0904 CTB PRE-ACCESS FILTER FAN MOTOR #2 (1/2-1504-N7-002-M01) 1/2NB0805 CTB PRE-ACCESS FILTER UNIT HEATER #1 (1/2-1504-N7-001-H01) 1/2NB0905 CTB PRE-ACCESS FILTER UNIT HEATER #2 (1/2-1504-N7-002-H01) 1/2NB0806 CTB AUXILIARY COOLING UNIT FAN MOTOR #1 (1/2-1515-A7-001-M01) 1/2NB0906 CTB AUXILIARY COOLING UNIT FAN MOTOR #2 (1/2-1515-A7-002-M01) 1/2NB1006 CTB CAVITY COOLING UNIT FAN MOTOR #2 (1/2-1511-B7-002-M01) 1/2NB0902 CTB OUTAGE POWER FEEDER (1/2-1805-D3-B09DB)

Vogtle Units 1 and 2 13.8 -8 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (SHEET 4 OF 30) 1/2NB0914 CTB OUTAGE POWER FEEDER (1/2-1805-D3-B09DA) 1/2NB1705 CTB POLAR CRANE (1/2-2101-R4-001)

3. 480 V ac FROM MCCs NOTE: 1/2ABC07-2 and 1/2ABC07-1 indicate two breakers in series at MCC cubicle, 1/2ABC-07 (Typical for all 480 V ac from MCCs).

1/2ABC07-2 CTB COOLING UNIT 1/2ABC07-1 A7005 (1/2HV-2584A) 1/2ABC08-2 CTB COOLING UNIT 1/2ABC08-1 A7006 (1/2HV-2584B) 1/2BBC07-2 CTB COOLING UNIT 1/2BBC07-1 A7007 (1/2HV-2585A) 1/2BBC08-2 CTB COOLING UNIT 1/2BBC08-1 A7008 (1/2HV-2585B) 1/2ABC13-2 CTB NORM PURGE 1/2ABC13-1 EXH ISO (1/2HV-2628A) 1/2ABC15-2 CHARGE TO REAC COOL 1/2ABC15-1 SYSTEM ISO (1/2HV-8146) 1BBC15-2 2BBC15-FU-A/B/C CHARGE TO REAC COOL 1BBC15-1 2BBC15-1 SYSTEM ISO (1/2HV-8147)

Vogtle Units 1 and 2 13.8 -9 REVISION 59

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (SHEET 5 OF 30)

Breaker coordination is provided between 1/2AB0505 and the following:

1/2ABC20 ISOLATION TRANSFORMER 2ABC20X, 1ABC20RX (2-1807-Y3-RX11)

(1-1807-Y3-RX25) 1/2ABC23 ISOLATION TRANSFORMER 2ABC23X, 1ABC23RX (2-1808-T3-103)

(1-1808-T3-112)

Breaker coordination is provided between 1/2BB0705 and the following:

1/2BBC20 ISOLATION TRANSFORMER 2BBC20X, 1BBC20RX (2-1807-Y3-RX12)

(1-1807-Y3-RX26) 1/2BBC23 ISOLATION TRANSFORMER 1/2BBC23X (1/2-1808-T3-104)

Breaker coordination is provided between 1/2AB0514 and the following:

1/2ABF13 ISOLATION TRANSFORMER 1/2ABF13X (1/2-1808-T3-105)

Breaker coordination is provided between 1/2BB0714 and the following:

1/2BBF13 ISOLATION TRANSFORMER 2BBF13X, 1BBF13RX (2-1808-T3-106)

(1-1808-T3-115) 1/2ABC19-2 ACCUMULATOR LOOP #3 1/2ABC19-1 (1/2HV-8808C) 1BBC19-2 2BBC19-FU-A/B/C ACCUMULATOR LOOP #2 1BBC19-1 2BBC19-1 (1/2HV-8808B)

Vogtle Units 1 and 2 13.8 -10 REVISION 59

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 6 OF 30) 1/2ABC32-2 THERMAL BARRIER CW 1/2ABC32-1 RCP 003 (1/2HV-19055) 1/2ABC33-2 THERMAL BARRIER CW 1/2ABC33-1 RCP 004 (1/2HV-19057) 1/2NBE08-2 + TOL RCP OIL LIFT 1/2NBE08-1 PUMP MOTOR #1 (1/2-1201-P6-001-M02) 1/2NBE05-2 + TOL RCP OIL LIFT 1/2NBE05-1 PUMP MOTOR #2 (1/2-1201-P6-002-M02) 1/2NBF08-2 + TOL RCP OIL LIFT 1/2NBF08-1 PUMP MOTOR #3 (1/2-1201-P6-003-M02) 1/2NBF05-2 + TOL RCP OIL LIFT 1/2NBF05-1 PUMP MOTOR #4 (1/2-1201-P6-004-M02) 1/2NBE06-2 + TOL CTB LWR LVL 1/2NBE06-1 AIR CIRC FAN MOT #1 (1/2-1503-B7-001-M01) 1/2NBE09-2 + TOL CTB LWR LVL 1/2NBE09-1 AIR CIRC FAN MOT #2 (1/2-1503-B7-002-M01) 1/2NBE12-2 + TOL CTB LWR LVL 1/2NBE12-1 AIR CIRC FAN MOT #3 (1/2-1503-B7-003-M01) 1/2NBE15-2 + TOL CTB LWR LVL 1/2NBE15-1 AIR CIRC FAN MOT #4 (1/2-1503-B7-004-M01) 1/2NBF06-2 + TOL CTB LWR LVL AIR 1/2NBF06-1 CIRC FAN MOT #5 (1/2-1503-B7-005-M01)

Vogtle Units 1 and 2 13.8 -11 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 7 OF 30) 1/2NBF09-2 + TOL CTB LWR LVL AIR 1/2NBF09-1 CIRC FAN MOT #6 (1/2-1503-B7-006-M01) 1/2NBF12-2 + TOL CTB LWR LVL AIR 1/2NBF12-1 CIRC FAN MOT #7 (1/2-1503-B7-007-M01) 1/2NBF15-2 + TOL CTB LWR LVL AIR 1/2NBF15-1 CIRC FAN MOT #8 (1/2-1503-B7-008-M01) 1/2NBE07-2 + TOL WET LAYUP RECIRC 1/2NBE07-1 PUMP MOTOR (1/2-1301-P4-010-M01) 1/2NBF51-2 + TOL WET LAYUP RECIRC 1/2NBF51-1 PUMP MOTOR (1/2-1301-P4-011-M01) 1/2NBE43-2 + TOL WET LAYUP RECIRC 1/2NBE43-1 PUMP MOTOR (1/2-1301-P4-012-M01) 1/2NBF54-2 + TOL WET LAYUP RECIRC 1/2NBF54-1 PUMP MOTOR (1/2-1301-P4-013-M01) 1/2NBE10-2 FEEDER FOR LIGHTING 1/2NBE10-1 XFMR 1NBE10X (1/2-1808-T3-009) 1/2NBE13-2 LIGHTING XFMR-1/2NBE13X 1/2NBE13-1 (1/2-1808-T3-076) 1/2NBE14-2 + TOL CTMT SUMP 1/2NBE14-1 PUMP MOTOR (1/2-1214-P4-013-M01) 1/2NBF29-2 + TOL CTMT SOUTH SUMP 1/2NBF29-1 PUMP MOTOR (1/2-1214-P4-014-M01)

Vogtle Units 1 and 2 13.8 -12 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 8 OF 30) 1/2NBF14-2 + TOL CTMT NORTH SUMP 1/2NBF14-1 PUMP MOTOR (1/2-1214-P4-015-M01) 1/2NBE29-2 + TOL CTMT SUMP 1/2NBE29-1 PUMP MOTOR (1/2-1214-P4-016-M01) 1/2NBE16-2 INCORE DETECTOR DRIVE 1/2NBE16-1 UNIT (1/2-1612-M6-001) 1/2NBE17-2 INCORE DETECTOR DRIVE 1/2NBE17-1 UNIT (1/2-1612-M6-002) 1/2NBE20-2 INCORE DETECTOR DRIVE 1/2NBE20-1 UNIT (1/2-1612-M6-003) 1/2NBE39-2 INCORE DETECTOR DRIVE 1/2NBE39-1 UNIT (1/2-1612-M6-004) 1/2NBE40-2 INCORE DETECTOR DRIVE 1/2NBE40-1 UNIT (1/2-1612-M6-005) 1/2NBE34-2 INCORE DETECTOR DRIVE 1/2NBE34-1 UNIT (1/2-1612-M6-006) 1/2NBE19-2 TEMPORARY POWER 30 AMP 1/2NBE19-1 DISCONNECT CTB-EL.210-COL.6 1/2NBE22-2 REACTOR COOLANT PUMP 1/2NBE22-1 MOTOR HEATER #1 (1/2-1201-P6-001-H01) 1/2NBE26-2 REACTOR COOLANT PUMP 1/2NBE26-1 MOTOR HEATER #2 (1/2-1201-P6-002-H01)

Vogtle Units 1 and 2 13.8 -13 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (SHEET 9 OF 30) 1/2NBF22-2 REACTOR COOLANT PUMP 1/2NBF22-1 MOTOR HEATER #3 (1/2-1201-P6-003-H01) 1/2NBF26-2 REACTOR COOLANT PUMP 1/2NBF26-1 MOTOR HEATER #4 (1/2-1201-P6-004-H01) 1/2NBE28-2 POWER RECEPTACLES 1/2NBE28-1 (1/2-1805-R3-E12)

(1/2-1805-R3-E10) 1/2NBE46-2 POWER RECEPTACLES 1/2NBE46-1 (1/2-1805-R3-E08)

(1/2-1805-R3-G13) 1/2NBF27-2 POWER RECEPTACLES 1/2NBF27-1 (1/2-1805-R3-E09) 1/2NBF36-2 POWER RECEPTACLES 1/2NBF36-1 (1/2-1805-R3-G11)

(1/2-1805-R3-E11) 1NBE30-FU-A/B/C 2NBE30-2 + TOL REAC COOL DRAIN TANK 1NBE30-1 2NBE30-1 PUMP MOTOR #1 (1/2-1901-P6-001-M01) 1/2NBF30-2 + TOL REAC COOL DRAIN TANK 1/2NBF30-1 PUMP MOTOR #2 (1/2-1901-P6-002-M01) 1/2NBE23-2 REAC HD CABLE TRAY 1/2NBE23-1 WINCHES (1/2-2101-R4-007/010-M01) 1/2NBE75-2 REAC HD CABLE TRAY 1/2NBE75-1 WINCHES (1/2-2101-R4-008/009-M01) 1/2NBE54-2 RCP JIB CRANE 1/2NBE54-1 HOIST/TROLLEY (1/2-2101-R4-003-M01, 2)

Vogtle Units 1 and 2 13.8 -14 REVISION 59

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 10 OF 30) 1/2NBE60-2 RCP JIB CRANE 1/2NBE60-1 HOIST/TROLLEY (1/2-2101-R4-004-M01, 2) 1/2NBF38-2 CTMT FUEL XFER HITCH 1/2NBF38-1 HOIST/TROLLEY (1/2-2101-R4-011-M01, 2) 1/2NBF39-2 PRESSURIZER HOIST/

1/2NBF39-1 TROLLEY (1/2-2101-R4-012-M01, 2) 1/2NBF45-2 POWER RECEPTACLES 1/2NBF45-1 (1/2-1805-R3-G14)

(1/2-1805-R3-G15) 1/2NBF69-2 HOIST/TROLLEY 1/2NBF69-1 (1/2-2101-R4-005-M01, 2) 1/2NBF70-2 HOIST/TROLLEY 1/2NBF70-1 (1/2-2101-R4-006-M01, 2) 1/2NBE33-2 + TOL REAC CAVITY SUMP 1/2NBE33-1 PUMP MOTOR (1/2-1214-P4-017-M01) 1/2NBF33-2 + TOL REAC CAVITY SUMP 1/2NBF33-1 PUMP MOTOR (1/2-1214-P4-018-M01) 1/2NBE37-2 EQPT HATCH & ASSY 1/2NBE37-1 (1/2-2101-R2-016) 1/2NBE62-2 FDR TO LGT XFMR 1/2NBE62-1 1NBE62X (1/2-1808-T3-068) 1/2NBE73-2 FDR TO LGT XFMR 1/2NBE73-1 1NBE73X (1/2-1808-T3-074) 1/2NBF62-2 FDR TO LGT XFMR 1/2NBF62-1 1NBF62X (1/2-1808-T3-066)

Vogtle Units 1 and 2 13.8 -15 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (SHEET 11 OF 30) 1/2NBF78-2 FDR TO LGT XFMR 1/2NBF78-1 1NBF78X (1/2-1808-T3-072) 1/2NBF79-2 FDR TO LGT XFMR 1/2NBF79-1 1NBF79X (1/2-1808-T3-075) 1/2NBF10-2 LIGHTING XFMR 1/2NBF10-1 1NBF10X (1/2-1808-T3-012) 1/2NBF11-2 + TOL CTB WALKWAY 1/2NBF11-1 CIRCULATION MOT (1/2-1503-B7-010-M01) 1/2NBF13-2 LIGHTING XFMR 1/2NBF13-1 1NBF13X (1/2-1808-T3-010) 1/2NBF16-2 REACTOR VESSEL DISC 1/2NBF16-1 PLATE ASSEMBLY, (1/2-2207-S6-001-R02) &

POWER RECEPTACLE (1/2-1805-R3-B11) 1NBF17 + FU-A/B/C REFUELING M/C 2NBF17 + FU-A/B/C (1/2-2101-R6-003) 1/2NBF19-2 REFUELING E & H 1/2NBF19-1 CTL CONSOLE #1 (1/2-2203-P5-RE1) &

(1/2-2203-P6-001-M01) 1/2NBF23-2 CTMT BLDG 1/2NBF23-1 ELEVATOR (1/2-2101-P1-001) 1/2NBPC01-2 PRESSURIZER CONTROL 1/2NBPC01-1 HEATER GROUP A 1/2NBPC02-2 PRESSURIZER CONTROL 1/2NBPC02-1 HEATER GROUP B Vogtle Units 1 and 2 13.8 -16 REVISION 59

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 12 OF 30) 1/2NBPC03-2 PRESSURIZER CONTROL 1/2NBPC03-1 HEATER GROUP C 1/2NBPC04-2 PRESSURIZER CONTROL 1/2NBPC04-1 HEATER GROUP D 1/2NBPC05-2 PRESSURIZER CONTROL 1/2NBPC05-1 HEATER GROUP E 1/2NBPC06-2 PRESSURIZER CONTROL 1/2NBPC06-1 HEATER GROUP F 1/2NBPB101-2 PRESSURIZER BACKUP 1/2NBPB101-1 HEATER GROUP 1A 1/2NBPB102-2 PRESSURIZER BACKUP 1/2NBPB102-1 HEATER GROUP 1B 1/2NBPB103-2 PRESSURIZER BACKUP 1/2NBPB103-1 HEATER GROUP 1C 1/2NBPB104-2 PRESSURIZER BACKUP 1/2NBPB104-1 HEATER GROUP 1D 1/2NBPB105-2 PRESSURIZER BACKUP 1/2NBPB105-1 HEATER GROUP 1E 1/2NBPB106-2 PRESSURIZER BACKUP 1/2NBPB106-1 HEATER GROUP 1F 1/2NBPB107-2 PRESSURIZER BACKUP 1/2NBPB107-1 HEATER GROUP 1G 1/2NBPB201-2 PRESSURIZER BACKUP 1/2NBPB201-1 HEATER GROUP 2A 1/2NBPB202-2 PRESSURIZER BACKUP 1/2NBPB202-1 HEATER GROUP 2B 1/2NBPB203-2 PRESSURIZER BACKUP 1/2NBPB203-1 HEATER GROUP 2C 1/2NBPB204-2 PRESSURIZER BACKUP 1/2NBPB204-1 HEATER GROUP 2D Vogtle Units 1 and 2 13.8 -17 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (SHEET 13 OF 30) 1/2NBPB205-2 PRESSURIZER BACKUP 1/2NBPB205-1 HEATER GROUP 2E 1/2NBPB206-2 PRESSURIZER BACKUP 1/2NBPB206-1 HEATER GROUP 2F 1/2NBPB207-2 PRESSURIZER BACKUP 1/2NBPB207-1 HEATER GROUP 2G 1/2NBPB301-2 PRESSURIZER BACKUP 1/2NBPB301-1 HEATER GROUP 3A 1/2NBPB302-2 PRESSURIZER BACKUP 1/2NBPB302-1 HEATER GROUP 3B 1/2NBPB303-2 PRESSURIZER BACKUP 1/2NBPB303-1 HEATER GROUP 3C 1/2NBPB304-2 PRESSURIZER BACKUP 1/2NBPB304-1 HEATER GROUP 3D 1/2NBPB305-2 PRESSURIZER BACKUP 1/2NBPB305-1 HEATER GROUP 3E 1/2NBPB306-2 PRESSURIZER BACKUP 1/2NBPB306-1 HEATER GROUP 3F 1/2ABE10-2 THERM BARRIER CW 1/2ABE10-1 RCP 001 VALVE (1/2HV-19051) 1/2ABE11-2 THERM BARRIER CW 1/2ABE11-1 RCP 002 VALVE (1/2HV-19053) 1/2ABE13-2 PRESSURIZER POWER 1/2ABE13-1 RELIEF ISO VLV (1/2HV-8000A) 1BBE15-2 2BBE15-FU-A/B/C PRESSURIZER POWER 1BBE15-1 2BBE15-1 RELIEF ISO VLV (1/2HV-8000B)

Vogtle Units 1 and 2 13.8 -18 REVISION 59

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (SHEET 14 OF 30) 1/2ABE14-2 CTB POST LOCA PURGE 1/2ABE14-1 EXH ISO VLV (1/2HV-2624A) 1BBE14-2 2BBE14-FU-A/B/C CTB POST LOCA 1BBE14-1 2BBE14-1 PURGE EXH ISO VLV (1/2HV-2624B) 1BBE07-2 2BBE07-FU-A/B/C REACTOR COOLANT SYSTEM 1BBE07-1 2BBE07-1 HOT LEG SAMPLE (1/2HV-3548) 1/2ABE15-2 RHR LOOP 1 INLET 1/2ABE15-1 ISO VALVE (1/2HV-8701A) 1/2ABE16-2 REACTOR COOLANT PUMP 1/2ABE16-1 SEAL WTR ISO VALVE (1/2HV-8112) 1/2ABE17-2 CTMT ATM UNIT 1/2ABE17-1 SERVICE AIR VLV (1/2HV-9380A) 1/2BBE17-2 CTMT ATM UNIT 1/2BBE17-1 SERVICE AIR VLV (1/2HV-9380B) 1/2ABE19-2 ACCUMULATOR ISO 1/2ABE19-1 LOOP #1 VLV (1/2HV-8808A) 1BBE19-2 2BBE19-FU-A/B/C ACCUMULATOR ISO 1BBE19-1 2BBE19-1 LOOP #4 VLV (1/2HV-8808D) 1/2ABE24-2 CTB NORM PURGE SPLY 1/2ABE24-1 ISO VALVE (1/2HV-2626A) 1/2ABE26-2 CTB CLG UNIT A7001 VLV 1/2ABE26-1 (1/2HV-2582A) 1/2ABE27-2 CTB CLG UNIT A7002 VLV 1/2ABE27-1 (1/2HV-2582B)

Vogtle Units 1 and 2 13.8 -19 REVISION 59

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (SHEET 15 OF 30) 1/2BBE26-2 CTB CLG 1/2BBE26-1 UNIT A7003 VLV (1/2HV-2583A) 1/2BBE27-2 CTB CLG 1/2BBE27-1 UNIT A7004 VLV (1/2HV-2583B) 1/2ABE29-2 + TOL CTB LOCA CAV 1/2ABE29-1 PUMP UNIT MOTOR #1 (1/2-1516-B7-001-M01) 1BBE29-2 + TOL 2BBE29-FU-A/B/C CTB POST LOCA 1BBE29-1 2BBE29-1 CAV PURGE UNIT MOTOR #2 (1/2-1516-B7-002-M01) 1BBE13-2 2BBE13-FU-A/B/C RHR LOOP 2 INLET 1BBE13-1 2BBE13-1 ISO VALVE (1/2HV-8702B) 1BBE24-2 2BBE24-FU-A/B/C AUX COMP CW RETURN 1BBE24-1 2BBE24-1 ISO VLV (1/2HV-1974) 1BBE25-2 2BBE25-FU-A/B/C AUX COMP CW SPLY ISO 1BBE25-1 2BBE25-1 VLV (1/2HV-1978) 1BBE37-2 2BBE37-FU-A/B/C THERMAL BARRIER CW 1BBE37-1 2BBE37-1 RETURN VALVE (1/2HV-2041) 1/2NBR05-2 + TOL CTB CRDM CLG UNIT 1/2NBR05-1 FAN 002 (1/2-1509-B7-002-M01) 1/2NBS05-2 + TOL CTB CRDM CLG UNIT 1/2NBS05-1 FAN 001 (1/2-1509-B7-001-M01) 1/2NBR09-2 + TOL RCS HOT LEG 1/2NBR09-1 SAMPLE VLV (1/2HV-3500)

Vogtle Units 1 and 2 13.8 -20 REVISION 59

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 16 OF 30) 1/2NBS06-2 + TOL CTB CRDM CLG UNIT 1/2NBS06-1 FAN 003 (1/2-1509-B7-003-M01) 1/2NBR06-2 + TOL CTB CRDM CLG UNIT 1/2NBR06-1 FAN 004 (1/2-1509-B7-004-M01) 1/2NBR13-2 + TOL CTB REAC SUPPORT CLG 1/2NBR13-1 UNIT B7002 (1/2HV-12645) 1/2NBR16-2 + TOL CTB REAC SUPPORT CLG 1/2NBR16-1 UNIT B7004 (1/2HV-12647) 1/2NBS07-2 + TOL CTB REAC SUPPORT CLG 1/2NBS07-1 UNIT B7003 (1/2HV-12646) 1/2NBS13-2 + TOL CTB REAC SUPPORT CLG 1/2NBS13-1 UNIT B7001 (1/2HV-12644) 1/2NBR14-2 CTMT LEV 1 LTG XFMR 1/2NBR14-1 1/2NBR14X (1/2-1808-T3-026) 1/2NBS23-2 LTG XFMR 1/2NBS23X 1/2NBS23-1 (1/2-1808-T3-069) 1/2NBS17-2 + TOL CTB REAC SUPPORT CLG 1/2NBS17-1 CTB REAC SUPPORT CLG UNIT MOTOR #1 (1/2-1512-B7-001-M01) 1/2NBR17-2 + TOL CTB REAC SUPPORT 1/2NBR17-1 CLG UNIT MOTOR #2 (1/2-1512-B7-002-M01) 1/2NBS19-2 + TOL CTB REAC SUPPORT CLG 1/2NBS19-1 UNIT MOTOR #3 (1/2-1512-B7-003-M01)

Vogtle Units 1 and 2 13.8 -21 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 17 OF 30) 1/2NBR19-2 + TOL CTB REAC SUPPORT 1/2NBR19-1 CLG UNIT MOTOR #4 (1/2-1512-B7-004-M01) 1/2NBS41-2 + TOL EXCESS LETDOWN HEXCH 1/2NBS41-1 INLET VLV (1/2HV-8098) 1/2CD1I5N RHR ISO VLV (1/2HV-8701B) 1/2DD1I6N RHR ISO VLV (1/2HV-8702A)

4. 125 Vdc CIRCUITS 1/2AD1M04-2 PRESSURIZER PORV 1/2AD1M04-1 (1/2PV-455A) 1/2BD1M04-2 PRESSURIZER PORV 1/2BD1M04-1 (1/2PV-456A)

5. 120 Vac CIRCUITS 1/2NYC203-2 ROD POSITION INDICATION 1/2NYC203-1 CONTAINMENT CABINET PWR #1 (1/2-1608-P5-RPA) 1/2NYC204-2 ROD POSITION INDICATION 1/2NYC204-1 CONTAINMENT CABINET PWR #2 (1/2-1608-P5-RPB)

Backup Protection is provided by 1/2ABC44 for the following 1/2AYC118 CB AUX RELAY RM A/C MOTOR HTR (1/2-1539-A7-001-H01)

Vogtle Units 1 and 2 13.8 -22 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 18 OF 30) 1/2AYC124 CBSF BATT RM EXH FAN MOTOR HTRS (1/2-1532-B7-001-H01)

(1/2-1532-B7-003-H01) 2AYC134 CBSF ELEC EQUIP RM ACU MOTOR HTR (2-1532-A7-001-H01)

Backup electrical isolation is provided by the following: (primary isolation is provided by fuses in the monitor light 24 V ac circuit).

1/2AYC131 MONITOR LIGHT BOX TRAIN A (TERM CAB 1/2ACPT05) 1/2AYC132 MONITOR LIGHT BOX TRAIN A (TERM CAB 1/2ACPT27) 1/2AYC133 MONITOR LIGHT BOX TRAIN A (TERM CAB 1/2ACPT07) 1/2AYC135 MONITOR LIGHT BOX TRAIN A (TERM CAB 1/2ACPT11) 1/2AYC136 MONITOR LIGHT BOX TRAIN A (TERM CAB 1/2ACPT15)

Backup protection is provided by 1/2BBC43 for the following:

2BYC122 CBSF ELECT EQUIP RM A/C MOTOR HTR (2-1532-A7-002-H01) 1/2BYC124 CBSF BATT RM EXH FAN MOTOR HTRS (1/2-1532-B7-002-H01)-

(1/2-1532-B7-004-H01)

Vogtle Units 1 and 2 13.8 -23 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 19 OF 30)

Backup protection is provided by 1/2NBE71 for the following:

1/2NYE103 CTB LWR LVL AIR CIRC FAN MOT HTR (1/2-1503-B7-001-H01) 1/2NYE104 CTB LWR LVL AIR CIRC FAN MOT HTR (1/2-1503-B7-002-H01) 1/2NYE105 CTB LWR LVL AIR CIRC FAN MOT HTR (1/2-1503-B7-003-H01) 1/2NYE106 CTB LWR LVL AIR CIRC FAN MOT HTR (1/2-1503-B7-004-H01) 1NYE109 CTB AUX CLG UNIT FAN MOT HTR (1-1515-B7-001-H01) 2NYE107 CTB AUX CLG UNIT FAN MOT HTR (2-1515-B7-001-H01) 1/2NYE122 WET LAYUP RECIRC PMP MTR HTRS (1/2-1301-P4-010-H01)

(1/2-1301-P4-012-H01)

Backup protection is provided by 1/2NBF65 for the following:

1/2NYF101 CTB AUX CLG UNIT FAN MOT HTR (1/2-1515-A7-002-H01) 1/2NYF103 CTB LWR LVL AIR CIRC FAN MOT HTR (1/2-1503-B7-005-H01) 1/2NYF104 CTB LWR LVL AIR CIRC FAN MOT HTR (1/2-1503-B7-006-H01)

Vogtle Units 1 and 2 13.8 -24 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 20 OF 30) 1/2NYF105 CTB WALKWAY CIRC MOT HTR (1/2-1503-B7-010-H01) 1/2NYF106 CTB LWR LVL AIR CIRC FAN MOT HTR (1/2-1503-B7-007-H01) 1/2NYF107 CTB LWR LVL AIR CIRC FAN MOT HTR (1/2-1503-B7-008-H01) 1/2NYF109 CTMT PREACCESS FILTER FAN MOT HTR (1/2-1504-N7-001-H02) 1/2NYF113 RFL E&H CSL #1 CONT PWR (1/2-2203-P5-RE1) 1/2NYF115 ROD DROP TEST EQUIP IN DRPI CAB (1/2-1608-P5-RPB) 1/2NYF116 ROD DROP TEST EQUIP IN DRPI CAB (1/2-1608-P5-RPA) 1/2NYF120 WET LAYUP RECIRC PUMP MTR HTR (1/2-1301-P4-011-H01)

(1/2-1301-P4-013-H01) 1/2NYF121 CTB PREACCESS FILTER UNIT MTR HTR (1/2-1504-N7-002-H02)

Backup protection is provided by fuses for the following:

1/2NYF114 PERSONNEL LOCK DOOR MOTOR (1/2-2101-R2-014)

Vogtle Units 1 and 2 13.8 -25 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 21 OF 30) 1/2NYE121 HVAC MISC. LOADS (1/2NYJB1423) 1/2AY2A10 TRAIN A SYSTEM STATUS MONITORING PANEL (1/2-1823-05-BPS) 1/2BY2B10 TRAIN B SYSTEM STATUS MONITORING PANEL (1/2-1823-05-BPS) 1/2NAA08-BRKR.AX REACTOR COOLANT SYSTEM (1/2-1201-P6-001-M01) 1/2NAB06-BRKR.AX REACTOR COOLANT SYSTEM (1/2-1201-P6-002-M01) 1/2NAA07-BRKR.AX REACTOR COOLANT SYSTEM (1/2-1201-P6-003-MO1) 1/2NAB07-BRKR.AX REACTOR COOLANT SYSTEM (1/2-1201-P6-004-M01) 1/2NCQMDFB-CB2 (LOCATED IN INCORE FLUX MAPPING FLUX MAPPING CONSOLE) CONSOLE CONTROL POWER (1/2-1612-Q5-MDF)

Backup protection is provided by 1/2ABE52 for the following:

1AYE118 CTB COOLING UNIT MOTOR HTR (1-1501-A7-001-H01) 1AYE119 CTB COOLING UNIT MOTOR HTR (1-1501-A7-002-H01) 1AYE120 CTB COOLING UNIT MOTOR HTR (1-1501-A7-005-H01)

Vogtle Units 1 and 2 13.8 -26 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 22 OF 30) 1AYE121 CTB COOLING UNIT MOTOR HTR (1-1501-A7-006-H01) 1/2AYE132 CTB POST LOCA CAVITY PURGE UNIT MOT HTR (1/2-1516-B7-001-H01) 1/2AYE112 AUX FDW PMP MOTOR HTR (1/2-1302-P4-003-H01) 1/2AYE122 RHR PMP MOTOR HTR (1/2-1205-P6-001-H01) 1/2AYE131 SI PMP MOTOR HTR (1/2-1204-P6-003-H01) 1/2AYE134 CS PMP MOTOR HTR (1/2-1206-P6-001-H01) 1/2AYE136 CVCS CNTR CHG PMP MOTOR HTR (1/2-1208-P6-002-H01)

Backup protection is provided by 1/2BBE55 for the following:

1BYE120 CTB COOLING UNIT MOTOR HTR (1-1501-A7-003-H01) 1BYE121 CTB COOLING UNIT MOTOR HTR (1-1501-A7-004-H01) 1BYE122 CTB COOLING UNIT MOTOR HTR (1-1501-A7-007-H01) 1BYE123 CTB COOLING UNIT MOTOR HTR (1-1501-A7-008-H01)

Vogtle Units 1 and 2 13.8 -27 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (SHEET 23 OF 30) 1/2BYE132 CTB POST LOCA CAV PURGE UNIT MOT HTR (1/2-1516-B7-002-H01) 1/2BYE126 CS PMP MOTOR HTR (1/2-1206-P6-002-H01) 1/2BYE128 RHR PUMP MOTOR HTR (1/2-1205-P6-002-H01) 1/2BYE136 CVCS CNTR CHG PMP MOTOR HTR (1/2-1208-P6-003-H01)

Backup protection is provided by 1/2NBR43 for the following:

1/2NYR102 CTB CRDM CLG UNIT FAN MOT HTR (1/2-1509-B7-002-H01) 1/2NYR103 CTB CRDM CLG UNIT FAN MOT HTR (1/2-1509-B7-004-H01) 1/2NYR104 CTMT CAVITY CLG UNIT FAN MOT HTR (1/2-1511-B7-002-H01) 1/2NYR105 CTB REAC SUPP COOL UNIT MOT HTR (1/2-1512-B7-002-H01) 1/2NYR106 CTB REAC SUPP COOL UNIT MOT HTR (1/2-1512-B7-004-H01)

Vogtle Units 1 and 2 13.8 -28 REVISION 59

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (SHEET 24 OF 30)

Backup protection is provided by 1/2NBS53 for the following:

1/2NYS102 CTB CRDM CLG UNIT FAN MOT HTR (1/2-1509-B7-001-H01) 1/2NYS103 CTB CRDM CLG UNIT FAN MOT HTR (1/2-1509-B7-003-H01) 1/2NYS104 CTB REAC SUPP CLG UNIT MOT HTR (1/2-1512-B7-001-H01) 1NYS105 CTB REAC SUPP CLG UNIT MOT HTR (1-1512-B7-003-H01) 1/2NYS116 CTB CAVITY CLG UNIT FAN MOT HTR (1/2-1511-B7-001-H01)

Backup protection is provided by 1/2ABD54 for the following:

1/2AYD103 RHR PMP RM CLR MOT HTR (1/2-1555-A7-007-H01) 1/2AYD131 SIS PMP RM CLR MOT HTR

& CHG PMP RM CLR MOTOR HTR (1/2-1555-A7-013-H01)

(1/2-1555-A7-015-H01)

Vogtle Units 1 and 2 13.8 -29 REVISION 59

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 25 OF 30) 1/2AYD134 ELEC SWGR RM COOL MOTOR HTRS (1/2-1555-A7-001-H01)

(1/2-1555-A7-009-H01) 1/2AYD136 ELEC SWGR RM COOL MOTOR HTR (1/2-1555-A7-003-H01)

Backup protection is provided by 1/2BBD56 for the following:

1/2BYD103 RHR PUMP RM COOLER MOTOR HTR (1/2-1555-A7-008-H01) 1/2BYD129 CONT SPRAY RM COOL MTR HTR (1/2-1555-A7-010-H01) 1/2BYD132 CHG PMP RM COOL MTR HTRS (1/2-1555-A7-014-H01)

(1/2-1555-A7-016-H01) 1/2BYD136 ELEC SWGR RM COOL MTR HTRS (1/2-1555-A7-002-H01, 1/2-1555-A7-004-H01)

Backup protection is provided by 1/2ABB02 for the following:

1/2AYB107 MCC RM COOL MTR HTR (1/2-1555-A7-005-H01) 1/2AYB110 PIPING PEN FLTR MTR HTR (1/2-1561-N7-001-H02)

TB AB ELECT TUNNEL 1/2AYB111 VENT FAN MOT HTR (1/2-1540-B7-005-H01) 1/2AYB114 CCW PMP RM COOL MTR HTR (1/2-1555-A7-011-H01) 1/2AYB115 SFP PMP RM COOL MTR HTR (1/2-1555-A7-017-H01)

Vogtle Units 1 and 2 13.8 -30 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 26 OF 30) 1/2AYB118 NSCW PUMP MTR HTR (1/2-1202-P4-008-H01) 1/2AYB119 NSCW CLG TWR FAN MTR HTR (1/2-1202-W4-001-H01) 1/2AYB120 NSCW CLG TWR FAN MTR HTR (1/2-1202-W4-001-H02) 1/2AYB121 NSCW CLG TWR FAN MOTOR HTR (1/2-1202-W4-001-H03) 1/2AYB122 NSCW CLG TWR FAN MTR HTR (1/2-1202-W4-001-H04) 1/2AYB136 NSCW TWR CABLE TUNNEL VENT FAN MOTOR HTR (1/2-1540-B7-003-H01)

Backup protection is provided by 1BBB45 for Unit 1, and 2BBB02 for Unit 2 for the following:

1/2BYB107 MCC RM COOLER MOTOR HTR (1/2-1555-A7-006-H01) 1/2BYB110 PIPING PEN FILTER MOTOR HTR (1/2-1561-N7-002-H02) 1/2BYB115 CCW PMP RM COOL MOTOR HTR (1/2-1555-A7-012-H01) 1/2BYB118 NSCW PMP MOTOR HTR (1/2-1202-P4-007-H01) 1/2BYB119 NSCW CLG TWR FAN MOTOR HTR (1/2-1202-W4-002-H01) 1/2BYB120 NSCW CLG TWR FAN MOTOR HTR (1/2-1202-W4-002-H02)

Vogtle Units 1 and 2 13.8 -31 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 27 OF 30) 1/2BYB121 NSCW CLG TWR FAN MOTOR HTR (1/2-1202-W4-002-H03) 1/2BYB122 NSCW CLG TWR FAN MOTOR HTR (1/2-1202-W4-002-H04) 1/2BYB124 SI PUMP MOTOR HTR (1/2-1204-P6-004-H01) 1/2BYB128 SFP PMP RM COOL MOTOR HTR (1/2-1555-A7-018-H01) 1/2BYB135 NSCW TOWER CABLE TUNNEL VENT FAN MOTOR HTR (1/2-1540-B7-004-H01)

Backup protection is provided by 1ABA29 for Unit 1 and 2ABA02 for Unit 2 for the following:

1AYA103 FHB PA FILTER EXH MOTOR HTR (A-1542-N7-001-H02 1/2AYA105 CB ESF CHILLER WTR PMP MOTOR HTR (1/2-1592-P7-001-H01) 1/AYA110 CB NORMAL A/C UNIT FAN MOTOR HTR (1-1539-A7-005-H01) 1/2AYA112 CB CR CHILLER RM VENT FAN MOTOR HTR (1/2-1531-B7-002-H01) 1/2AYA118 AUX CCW PMP MOTOR HTR (1/2-1217-P4-001-H01) 1/2AYA125 CCW PMP MOTOR HTR (1/2-1203-P4-005-H01) 1/2AYA127 CCW PMP MOTOR HTR (1/2-1203-P4-001-H01)

Vogtle Units 1 and 2 13.8 -32 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 28 OF 30) 1/2AYA129 CCW PMP MOTOR HTR (1/2-1203-P4-003-H01) 1/2AYA131 NSCW PMP MOTOR HTR (1/2-1202-P4-001-H01) 1/2AYA133 NSCW PMP MOTOR HTR (1/2-1202-P4-003-H01) 1/2AYA135 NSCW PMP MOTOR HTR (1/2-1202-P4-005-H01)

Backup protection is provided by 1BBA29 for Unit 1 and 2BBA02 for Unit 2 for the following:

1/2BYA105 ESF CHILLED WTR PMP MOTOR HTR(1/2-1592-P7-002-H01) 1/2BYA110 CB AUX RELAY RM A/C MTR HTR (1/2-1539-A7-002-H01) 1BYA112 CB ELEC EQUIP RM ESF A/C MOTOR HTR (1-1539-A7-006-H01) 1/2BYA114 CB CR CHILLER RM VENT FAN MOTOR HTR (1/2-1531-B7-004-H01) 1/2BYA119 NSCW PMP MOTOR HTR (1/2-1202-P4-002-H01) 1/2BYA121 NSCW PUMP MOTOR HTR (1/2-1202-P4-004-H01) 1/2BYA123 NSCW PMP MOTOR HTR (1/2-1202-P4-006-H01) 1BYA125 AUX CCW PMP MOTOR HTR (1-1217-P4-002-H01)

Vogtle Units 1 and 2 13.8 -33 REVISION 35

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 (SHEET 29 OF 30) 1/2BYA126 CCW PMP MOTOR HTR (1/2-1203-P4-002-H01) 1/2BYA128 CCW PMP MOTOR HTR (1/2-1203-P4-004-H01) 1/2BYA130 CCW PMP MOTOR HTR (1/2-1203-P4-006-H01) 2BYA113 AUX CCW PUMP MOTOR HTR (2-1217-P4-002-H01)

Backup electrical isolation is provided by the following: (Primary isolation is provided by fuses in the monitor light box 24-V-ac circuits.)

1BYA127 MONITOR LIGHT BOX 2BYA117 (TERMINATION CAB 20 1/2BCPT20) 1/2BYA129 MONITOR LIGHT BOX (TERMINATION CAB 08 1/2BCPT08) 1/2BYA131 MONITOR LIGHT BOX (TERMINATION CAB 06 1/2BCPT06) 1/2BYA133 MONITOR LIGHT BOX (TERMINATION CAB 14 1/2BCPT14) 1/2CY1A06 MONITOR LIGHT BOX (TERMINATION CAB 19 1/2CCPT19) 1/2BYA135 MONITOR LIGHT BOX (TERMINATION CAB 10 1/2BCPT10)

Backup protection is provided by 1/2ABF29 for the following:

1/2AYF111 DGB VENT FAN MOTOR HTR (1/2-1566-B7-001-H01)

Vogtle Units 1 and 2 13.8 -34 REVISION 59

Containment Penetration Conductor Overcurrent Protective Devices TR 13.8.1 TABLE 13.8.1-1 Protective Device Powered Number Equipment (SHEET 30 OF 30) 1/2AYF114 DGB VENT FAN MOTOR HTR (1/2-1566-B7-003-H01) 1/2AYF115 AUX FW PMP HSE FAN MTR HTR (1/2-1593-B7-001-H01) 1/2AYF117 DIESEL TUNNEL 1T4A VENT FAN MOTOR HTR (1/2-1540-B7-001-H01)

Backup protection is provided by 1/2BBF29 for the following:

1/2BYF109 AUX FW PMP MOTOR HTR (1/2-1302-P4-002-H01) 1/2BYF113 DGB VENT FAN MOTOR HTR (1/2-1566-B7-002-H01) 1/2BYF114 DGB VENT FAN MOTOR HTR (1/2-1566-B7-004-H01) 1/2BYF115 AUX FW PP HSE FAN MTR HTR (1/2-1593-B7-002-H01) 1/2BYF117 DIESEL TUNNEL 1T4B VENT FAN MTR HTR (1/2-1540-B7-002-H01) 1/2NYR09 INCORE RACK NO. 2 1/2NCQMDFB - CB3 (LOCATED IN FLUX DEHUMIDIFIER MAPPING CONSOLE 1/2-1612-Q5-MDF) 1/2NYS09 INCORE RACK NO. 2 1/2NCQMDFB - CB1 (LOCATED IN FLUX DEHUMIDIFIER MAPPING CONSOLE 1/2-1612-Q5-MDF)

a. Protective device and powered equipment designations have been changed to begin with 1/2 to denote Units 1 and 2 applicability.

b. Any three of four protective relays (three-phase-overcurrent and one ground- overcurrent) operable satisfies this requirement.

Vogtle Units 1 and 2 13.8 -35 REVISION 35

Safety-Related Motor-Operated Valves Thermal Overload Protection and Bypass Devices TR 13.8.2 13.8 Electrical Power Systems TR 13.8.2 Safety-Related Motor-Operated Valves Thermal Overload Protection and Bypass Devices TR 13.8.2 The thermal overload protection bypass devices of each safety-related motor-operated valve in Table 13.8.2-1 shall be FUNCTIONAL.

APPLICABILITY: Whenever the motor-operated valve is required to be OPERABLE or FUNCTIONAL.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One or more safety- A.1 Declare the affected valve(s) Immediately related motor-operated inoperable or nonfunctional valve(s) with as appropriate and enter the nonfunctional thermal appropriate Technical overload protection Specification Condition or bypass device(s). Technical Requirement Condition and follow the applicable Required Actions for the affected valve(s).

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.8.2.1 Verify the required thermal overload protection bypass Following maintenance devices FUNCTIONAL. on the valve motor starter AND Following periodic testing during which the thermal overload device was temporarily placed in force AND 18 months Vogtle Units 1 and 2 13.8 - 36 REVISION 35 Technical Requirement

Safety-Related Motor-Operated Valves Thermal Overload Protection and Bypass Devices TR 13.8.2 Table 13.8.2-1 (Page 1 of 4)

Safety-Related Motor-Operated Valves Thermal Overload Protection Bypass Devices Valve Number Function 1/2LV-0112C, B VCT Discharge Header 1/2LV-0112E, D SIS RWST Discharge to Chg/SI Pump Suction 1/2FV-0610 RHR Miniflow 1/2FV-0611 RHR Miniflow 1/2HV-1668A Nuclear Service Clg. Twr. A Return 1/2HV-1668B Nuclear Service Clg. Twr. A Fans Bypass 1/2HV-1669A Nuclear Service Clg. Twr. B Return 1/2HV-1669B Nuclear Service Clg. Twr. B Fans Bypass 1/2HV-1806 CTMT Air Cool A7001/A7002 CW Inlet 1/2HV-1807 CTMT Air Cool A7003/A7004 CW Inlet 1/2HV-1808 CTMT Air Cool A7005/A7006 CW Inlet 1/2HV-1809 CTMT Air Cool A7007/A7008 CW Inlet 1/2HV-1822 CTMT Air Cool A7001/A7002 CW Outlet 1/2HV-1823 CTMT Air Cool A7003/A7004 CW Outlet 1/2HV-1830 CTMT Air Clr A7005/A7006 CW Outlet 1/2HV-1831 CTMT Air Clr A7007/A7008 CW Outlet 1/2HV-1974 Aux Comp CW Trn B Return Iso 1/2HV-1975 Aux Comp CW Trn A Return Iso 1/2HV-1978 Aux Comp CW Trn B Supply Iso 1/2HV-1979 Aux Comp CW Trn A Supply Iso 1/2HV-2041 Reactor Coolant Pumps Thermal Barrier ACCWS Outlet Header 1/2HV-2134 Reactor Cavity Clg Coil E7001 Inlet Iso 1/2HV-2135 Reactor Cavity Clg Coil E7002 Inlet Iso 1/2HV-2138 Reactor Cavity Clg Coil E7001 Outlet Iso 1/2HV-2139 Reactor Cavity Clg Coil E7002 Outlet Iso 1/2PV-2550A Piping Penetration Room to Atmosphere 1/2PV-2551A Piping Penetration Room to Atmosphere 1/2HV-2582A CTB Cooling Unit A7001 1/2HV-2582B CTB Cooling Unit A7002 1/2HV-2583A CTB Cooling Unit A7003 1/2HV-2583B CTB Cooling Unit A7004 1/2HV-2584A CTB Cooling Unit A7005 1/2HV-2584B CTB Cooling Unit A7006 1/2HV-2585A CTB Cooling Unit A7007 1/2HV-2585B CTB Cooling Unit A7008 1/2HV-2624A CTB Post LOCA Purge Exhaust Iso 1/2HV-2624B CTB Post LOCA Purge Exhaust Iso 1/2HV-2626A CTMT Bldg Norm Purge Supply Iso 1/2HV-2627A CTB Norm Purge Supply Iso (continued)

Vogtle Units 1 and 2 13.8 - 37 REVISION 35 Technical Requirement

Safety-Related Motor-Operated Valves Thermal Overload Protection and Bypass Devices TR 13.8.2 Table 13.8.2-1 (Page 2 of 4)

Safety-Related Motor-Operated Valves Thermal Overload Protection Bypass Devices Valve Number Function 1/2HV-2628A CTMT Bldg Norm Purge Exhaust Iso 1/2HV-2629A CTB Norm Purge Exhaust Iso 1/2HV-3009 TDAFP Steam Supply Isolation 1/2HV-3019 TDAFP Steam Supply Isolation 1/2HV-3548 RCS Hot Leg Sample 1/2HV-5106 Aux FDW Pump Turbine 1/2HV-5113 Conds Stor TK V4002 to Pump P4001 1/2HV-5118 Conds Stor TK V4002 to Pump P4002 1/2HV-5119 Conds Stor TK V4002 to Pump P4003 1/2HV-5120 Aux FDW Pump P4001 Discharge Trn C 1/2HV-5122 Aux FDW Pump P4001 Discharge Trn C 1/2HV-5125 Aux FDW Pump P4001 Discharge Trn C 1/2HV-5127 Aux FDW Pump P4001 Discharge Trn C 1/2HV-5132 Aux FDW Pump P4002 Discharge Trn B 1/2HV-5134 Aux FDW Pump P4002 Discharge Trn B 1/2HV-5137 Aux FDW Pump P4003 Discharge Trn A 1/2HV-5139 Aux FDW Pump P4003 Discharge Trn A 1/2FV-5154 Aux FDW Pump P4002 Miniflow 1/2FV-5155 Aux FDW Pump P4003 Miniflow 1/2HV-8000A, B PORV Blockline 1/2HV-8100 No 1 Seal Leakoff 1/2HV-8103A, B, C, D RCP No 1 Seal from Chg 1/2HV-8104 CVCS Boric Acid Filter to Charging Pump Suction 1/2HV-8105 Chg Pump to RCS Isolation 1/2HV-8106 Chg Pump to RCS Isolation 1/2HV-8110 Chg Pump Miniflow 1/2HV-8111A, B Chg Pump Miniflow 1/2HV-8112 No 1 Seal Leakoff 1/2HV-8116 Charging Pump Discharge Boron Injection 1/2HV-8146 Reg. Hx Tube Outlet to RCS Normal Chg 1/2HV-8147 Reg. Hx Tube Outlet to RCS Alternate Chg 1/2HV-8438 Charging Pump B Discharge 1/2HV-8471A Alt Charging Pump A Suction 1/2HV-8471B Alt Charging Pump B Suction 1/2HV-8485A Charging Pump A Discharge 1/2HV-8485B Charging Pump B Discharge 1/2HV-8508A, B Charging Pump Miniflow Iso to RWST 1/2HV-8509A, B Charging Pump Miniflow Iso to RWST 1/2HV-8701A, B RHR Suction from RCS Hot Legs 1, 4 (continued)

Vogtle Units 1 and 2 13.8 - 38 REVISION 35 Technical Requirement

Safety-Related Motor-Operated Valves Thermal Overload Protection and Bypass Devices TR 13.8.2 Table 13.8.2-1 (Page 3 of 4)

Safety-Related Motor-Operated Valves Thermal Overload Protection Bypass Devices Valve Number Function 1/2HV-8702A, B RHR Suction from RCS Hot Legs 1, 4 1/2HV-8716A, B RHR Cross Connect 1/2HV-8801A, B BIT Discharge 1/2HV-8802A, B SI Pump Discharge Header 1/2HV-8804A RHR Hx No. 1 Outlet to Charge Pump 1/2HV-8804B RHR Hx No. 2 Outlet to SI Pumps 1/2HV-8806 RWST Discharge Header to SI Pumps 1/2HV-8807A, B HHSI Suction to Chg/SI Suction 1/2HV-8808A, B, C, D Accumulator Discharge 1/2HV-8809A, B RHR Discharge Header 1/2HV-8811A, B Containment Emergency Sump Isolation 1/2HV-8812A, B RHR Suction from RWST 1/2HV-8813 SI Pump Miniflow 1/2HV-8814 SI Pump Miniflow 1/2HV-8821A, B SI Pump Crosschannel 1/2HV-8835 SI Pump Discharge to Cold Legs 1/2HV-8840 RHR Pump Discharge to Hot Legs 1/2HV-8920 Safety-Injection Pump Miniflow Isolation 1/2HV-8923A, B SI Pump Suction Isolation 1/2HV-8924 HHSI Suction to Chg/SI Suction 1/2HV-9001A, B Spray Pump Discharge Header 1/2HV-9002A, B Spray Pump Containment Emergency Sump Isolation 1/2HV-9003A, B Spray Pump Containment Emergency Sump Isolation 1/2HV-9017A, B Spray Pump Suction from RWST 1/2HV-9380A CTMT ATM Unit 1 SVCE Air 1/2HV-9380B CTMT ATM Unit 1 SVCE Air 1/2HV-11600 NSCW Pump Discharge Isolation 1/2HV-11605 NSCW Pump Discharge Isolation 1/2HV-11606 NSCW Pump Discharge Isolation 1/2HV-11607 NSCW Pump Discharge Isolation 1/2HV-11612 NSCW Pump Discharge Isolation 1/2HV-11613 NSCW Pump Discharge Isolation 1/2HV-12005 Trn B Aux FDW Pump Rm Inlet Damper 1/2HV-12006 Trn A Aux FDW Pump Rm Inlet Damper 1/2HV-12050 DGB Exh Fan B7001 Disch Damper (Trn A) 1/2HV-12051 DGB Exh Fan B7003 Disch Damper (Trn A) 1/2HV-12052 DGB Exh Fan B7005 Disch Damper (Trn A) 1/2HV-12053 DGB Exh Fan B7002 Disch Damper (Trn B) 1/2HV-12054 DGB Exh Fan B7004 Disch Damper (Trn B)

(continued)

Vogtle Units 1 and 2 13.8 - 39 REVISION 35 Technical Requirement

Safety-Related Motor-Operated Valves Thermal Overload Protection and Bypass Devices TR 13.8.2 Table 13.8.2-1 (Page 4 of 4)

Safety-Related Motor-Operated Valves Thermal Overload Protection Bypass Devices Valve Number Function 1/2HV-12055 DGB Exh Fan B7006 Disch Damper (Trn B) 1/2HV-12114 CR Outside Air Intake Iso 1/2HV-12115 CR Outside Air Intake Iso 1/2HV-12118 CB CR Filter Units N7001 Inlets 1/2HV-12119 CB CR Filter Units N7002 Inlets 1/2HV-12128 CB CR Filter Units N7001 Outlets 1/2HV-12129 CB CR Filter Units N7002 Outlets 1/2HV-12130 CB CR Return Air Fans B7005 Inlets 1/2HV-12131 CB CR Return Air Fans B7006 Inlets 1/2HV-12727 CB SR Battery Rm Exh B7002 Damper 1/2HV-12742 CB SF Battery Rm Exh B7001 Damper 1/2HV-12748 CB SF Battery Rm Exh B7003 Damper 1/2HV-12749 CB SF Battery Rm Exh B7004 Damper 1/2PV-15129 TDAFP Trip and Throttle Valve 1/2HV-19051 Thermal Barrier Cooling Wtr RCP 001 1/2HV-19053 Thermal Barrier Cooling Wtr RCP 002 1/2HV-19055 Thermal Barrier Cooling Wtr RCP 003 1/2HV-19057 Thermal Barrier Cooling Wtr RCP 004 Vogtle Units 1 and 2 13.8 - 40 REVISION 35 Technical Requirement

Emergency Diesel Generator Test Schedule TR 13.8.3 13.8 Electrical Power Systems TR 13.8.3 Emergency Diesel Generator (DG) Test Schedule Emergency Diesel Generator (DG) Test Schedule deleted Vogtle Units 1 and 2 13.8 -41 REVISION 35 Technical Requirement

Decay Time TR 13.9.1 13.9 Refueling Operations TR 13.9.1 Decay Time TR 13.9.1 The Reactor shall be subcritical for 90 hours0.00104 days 0.025 hours 1.488095e-4 weeks 3.4245e-5 months .

APPLICABILITY: During movement of irradiated fuel in the reactor vessel.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Reactor subcritical for A.1 Suspend all operations Immediately

< 90 hours0.00104 days 0.025 hours 1.488095e-4 weeks 3.4245e-5 months . involving movement of irradiated fuel in the reactor vessel.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.9.1.1 Verify the reactor has been subcritical for 90 hours0.00104 days 0.025 hours 1.488095e-4 weeks 3.4245e-5 months by Prior to movement of confirming the date and time of subcriticality. irradiated fuel in the reactor vessel.

Vogtle Units 1 and 2 13.9 - 1 REVISION 35 Technical Requirement

Communications TR 13.9.2 13.9 Refueling Operations TR 13.9.2 Communications TR 13.9.2 Direct Communications shall be maintained between the control room and personnel at the refueling station.

APPLICABILITY: During CORE ALTERATIONS ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Direct communications A.1 Suspend all CORE Immediately between control room and ALTERATIONS.

refueling station not maintained.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.9.2.1 Verify direct communication exists between control Once within 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months room and refueling station. prior to start of CORE ALTERATIONS AND 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months thereafter Vogtle Units 1 and 2 13.9 - 2 Rev. 0 Technical Requirement 12/26/96

Refueling Machine TR 13.9.3 13.9 Refueling Operations TR 13.9.3 Refueling Machine TR 13.9.3 The refueling machine shall be used for movement of fuel assemblies and/or rod control cluster assemblies or thimble plug assemblies, and the auxiliary hoist shall be used for latching and unlatching, or handling of control rod drive shafts.

The refueling machine and auxiliary hoist shall be FUNCTIONAL with:

a. The refueling machine having:

1) A design rated load of 3028 pounds and

2) An overload cutoff limit less than or equal to the design rated load.

b. The auxiliary hoist having:

1) A minimum capacity of 3000 pounds, and

2) A load indicator which shall be used to administratively prevent lifting loads in excess of 1000 pounds.

APPLICABILITY: During movement of fuel assemblies, rod control cluster assemblies, thimble plug assemblies, or control rod drive shafts within the reactor vessel.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Refueling machine A.1 Suspend use of refueling Immediately nonfunctional. machine from operations involving the movement of fuel assemblies, rod control cluster assemblies, thimble plug assemblies, or control rod drive shafts within the reactor vessel.

(continued)

Vogtle Units 1 and 2 13.9 - 3 REVISION 44 Technical Requirement

Refueling Machine TR 13.9.3 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME B. Auxiliary hoist B.1 Suspend use of auxiliary Immediately nonfunctional. hoist from operations involving the movement of fuel assemblies, rod control cluster assemblies, thimble plug assemblies, or control rod drive shafts within the reactor vessel.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.9.3.1 ------------------------------- NOTE --------------------------------

Only required to be performed once per refueling (or other event in which the core is removed or replaced).

Verify refueling machine FUNCTIONALITY by: Once within 100 hours0.00116 days 0.0278 hours 1.653439e-4 weeks 3.805e-5 months prior to the

a. Performing a load test of 125% of the design start of movement of rated load, and fuel assemblies, rod control cluster

b. Demonstrating operation of the automatic load assemblies, thimble cutoff prior to the load exceeding the design plug assemblies, or rated load. control rod drive shafts within the reactor vessel (continued)

Vogtle Units 1 and 2 13.9 - 4 REVISION 35 Technical Requirement

Refueling Machine TR 13.9.3 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

TRS 13.9.3.2 ------------------------------- NOTE ------------------------------

Only required to be performed once per refueling (or other event in which the core is removed or replaced).

Once within 100 Verify auxiliary hoist FUNCTIONAL by performance of a hours prior to the load test 1250 pounds. start of movement of fuel assemblies, rod control cluster assemblies, thimble plug assemblies, or control rod drive shafts within the reactor vessel.

Vogtle Units 1 and 2 13.9 - 4a REVISION 35 Technical Requirement

Refueling Machine TR 13.9.3 (This page intentionally left blank.)

Vogtle Units 1 and 2 13.9 - 4b Rev. 1 Technical Requirement 10/29/97

Crane Travel - Spent Fuel Storage Areas TR 13.9.4 13.9 Refueling Operations TR 13.9.4 Crane Travel - Spent Fuel Storage Areas TR 13.9.4 Loads > 2300 pounds shall be prohibited from travel over fuel assemblies in the storage pool.

APPLICABILITY: With fuel assemblies in the storage pool.

NOTES--------------------------------------------------------

TR 13.0.3 is not applicable.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Technical Requirement A.1 Place the crane load in a Immediately not met. safe condition.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.9.4.1 Verify crane interlocks and physical stops which prevent Once within 7 days crane travel with loads > 2300 pounds over fuel prior to crane use assemblies are FUNCTIONAL.

AND 7 days thereafter during crane operation Vogtle Units 1 and 2 13.9 - 5 REVISION 35 Technical Requirement

Fuel Handling Building Post Accident Ventilation System TR 13.9.5 13.9 Refueling Operations TR 13.9.5 Fuel Handling Building Post Accident Ventilation System (common system)

TR 13.9.5 Two independent Fuel Handling Building Post Accident Ventilation Systems shall be FUNCTIONAL.

APPLICABILITY: Whenever irradiated fuel is in either storage pool.

NOTE---------------------------------------------------------

TR 13.0.3 is not applicable.

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. One Fuel Handling A.1 Place the remaining Fuel 7 days Building Post Accident Handling Building Post Ventilation System Accident Ventilation System nonfunctional. in operation discharging through at least one train of HEPA filters and charcoal adsorbers.

OR (continued)

Vogtle Units 1 and 2 13.9 - 6 REVISION 35 Technical Requirement

Fuel Handling Building Post Accident Ventilation System TR 13.9.5 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME A.2 Suspend all operations 7 days involving movement of irradiated fuel in the fuel handling building, movement of new fuel over irradiated fuel in the fuel handling building, or crane operation with loads over irradiated fuel in the fuel handling building until Required Action A.1 above is met.

B. Two Fuel Handling B.1 Suspend all operations Immediately Building Post Accident involving movement of Ventilation Systems irradiated fuel in the fuel nonfunctional. handling building, movement of new fuel over irradiated fuel in the fuel handling building, or crane operation with loads over irradiated fuel in the fuel handling building until Required Action A.1 above is met.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.9.5.1 Verify system operation by initiating each system from 92 days the control room with flow through the HEPA filters and charcoal adsorbers and operating each system for 15 minutes with the heater circuit energized.

(continued)

Vogtle Units 1 and 2 13.9 - 7 REVISION 55 Technical Requirement

Fuel Handling Building Post Accident Ventilation System TR 13.9.5 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

SURVEILLANCE FREQUENCY TRS 13.9.5.2 Verify the cleanup system satisfies the in-place testing 18 months acceptance criteria of 99.0% filter retention while operating the system at a flow rate of 5000 cfm +/- 10%, AND (FI-12551, FI-12552) and performing the following tests:

After any structural

a. A visual inspection of the system shall be made maintenance on the before each DOP test or activated carbon adsorber HEPA filter or section leak test in accordance with Section 5 of charcoal adsorber ANSI N510-1980. housings

b. An in-place DOP test for the HEPA filters shall be AND performed in accordance with Section 10 of ANSI N510-1980. Following painting, fire, or chemical

c. A charcoal adsorber section leak test with a release in any gaseous halogenated hydrocarbon refrigerant shall ventilation zone be performed in accordance with Section 12 of communicating with ANSI N510-1980. the system (continued)

Vogtle Units 1 and 2 13.9 - 7a Rev. 1 Technical Requirement 6/3/98

Fuel Handling Building Post Accident Ventilation System TR 13.9.5 (This page intentionally left blank.)

Vogtle Units 1 and 2 13.9 - 7b Rev. 1 Technical Requirement 6/3/98

Fuel Handling Building Post Accident Ventilation System TR 13.9.5 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

SURVEILLANCE FREQUENCY TRS 13.9.5.3 Verify within 31 days of removal, that a laboratory 18 months analysis of a representative carbon sample obtained in accordance with Section 13 of ANSI N510, meets the AND laboratory testing criteria of 90.0% when tested with methyl iodide at 30 °C and 95% relative humidity in After any structural accordance with ASTM D3803-89. maintenance on the HEPA filter or charcoal adsorber housings AND Following painting, fire, or chemical release in any ventilation zone communicating with the system TRS 13.9.5.4 Verify system flow rate of 5000 cfm +/- 10% during 18 months system operation when tested in accordance with Section 8 of ANSI N510-1980. AND After any structural maintenance on the HEPA filter or charcoal adsorber housings AND Following painting, fire, or chemical release in any ventilation zone communicating with the system (continued)

Vogtle Units 1 and 2 13.9 - 8 Rev. 0 Technical Requirement 12/26/96

Fuel Handling Building Post Accident Ventilation System TR 13.9.5 TECHNICAL REQUIREMENT SURVEILLANCES (continued)

SURVEILLANCE FREQUENCY TRS 13.9.5.5 Verify, within 31 days after removal, that a laboratory After every 720 analysis of a representative carbon sample obtained in hours of charcoal accordance with Section 13 of ANSI N510-1980 meets adsorber operation the laboratory testing criteria of 90.0% when tested with methyl iodide at 30 °C and 95% relative humidity in accordance with ASTM D3803-89.

TRS 13.9.5.6 Verify the pressure drop across the combined HEPA 18 months filters and charcoal adsorber banks is < 6 inches water gauge while operating the system at a flow rate of 5000 cfm +/- 10%.

TRS 13.9.5.7 Verify that on a high radiation test signal, the system 18 months automatically starts (unless already operating) and directs its exhaust flow through the HEPA filters and charcoal adsorber banks.

TRS 13.9.5.8 Verify the system maintains the spent fuel storage pool 18 months area at a slightly negative pressure relative to the outside atmosphere during system operation.

TRS 13.9.5.9 Verify the heaters dissipate 16 kW when tested in 18 months accordance with Section 14 of ANSI N510-1980.

TRS 13.9.5.10 Verify the HEPA filter banks remove 99% of the DOP After each complete when tested in-place in accordance with Section 10 of or partial ANSI N510-1980 while operating the system at a flow replacement of a rate of 5000 cfm +/- 10%. HEPA filter bank TRS 13.9.5.11 Verify the charcoal absorbers remove 99% of a After each complete halogenated hydrocarbon refrigerant test gas when they or partial are tested in-place in accordance with Section 12 of replacement of a ANSI N510-1980 while operating the system at a flow charcoal adsorber rate of 5000 cfm +/- 10%. bank Vogtle Units 1 and 2 13.9 - 9 Rev. 0 Technical Requirement 12/26/96

Source Range Monitor Audible Indication TR 13.9.6 13.9 Refueling Operations TR 13.9.6 Source Range Monitor Audible Indication TR 13.9.6 At least one source range monitor shall provide audible indication in the containment and control room.

APPLICABILITY: MODE 6 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. Required source range A.1 Initiate a Condition Report. Immediately monitor audible indication nonfunctional or not AND operating.

A.2 Continue action to restore Immediately source range monitor audible indication.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.9.6.1 Perform CHANNEL CHECK 12 hours1.388889e-4 days 0.00333 hours 1.984127e-5 weeks 4.566e-6 months TRS 13.9.6.2 ------------------------------- NOTE ------------------------------

Neutron detectors are excluded from CHANNEL CALIBRATION.

Perform CHANNEL CALIBRATION 18 months Vogtle Units 1 and 2 13.9 - 10 REVISION 58 Technical Requirement

Explosive Gas Monitoring Instrumentation TR 13.12.1 13.12 Explosive Gas and Storage Tank Radioactivity Monitoring (EGSTRAM) Program TR 13.12.1 Explosive Gas Monitoring Instrumentation TR 13.12.1 The following explosive gas monitoring instrumentation shall be FUNCTIONAL with:

a. One inlet hydrogen monitor per recombiner,

b. Two oxygen monitors per recombiner, and

c. Alarm/trip setpoints are set to ensure that the limits of TR 13.12.2 are not exceeded.

APPLICABILITY: During gaseous waste processing system operation.

ACTIONS

NOTE----------------------------------------------------------

TR 13.0.3 is not applicable.

CONDITION REQUIRED ACTION COMPLETION TIME A. Inlet oxygen monitor for A.1 Verify inlet hydrogen Once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

one or more recombiners monitor(s) FUNCTIONAL.

nonfunctional.

B. Outlet oxygen monitor for B.1 Analyze grab samples. Once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

one or more recombiners nonfunctional. AND B.2 Verify oxygen concentration Once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months ..

remains less than one percent.

C. Required Actions and C.1 Suspend operation of Immediately associated Completion gaseous waste processing Times of Conditions A or system.

B not met.

(continued)

Vogtle Units 1 and 2 13.12 - 1 REVISION 35 Technical Requirement

Explosive Gas Monitoring Instrumentation TR 13.12.1 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME D. Required hydrogen D.1 Suspend oxygen supply to Immediately monitor for one or more the recombiner(s).

recombiners nonfunctional. AND OR D.2 Analyze grab samples during Once per 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months addition of waste gas. during degassing Both oxygen channels for operations.

one or more recombiners nonfunctional. OR OR Once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months during other Both the inlet oxygen operations.

monitor and inlet hydrogen monitor for one AND or more recombiners nonfunctional. D.3 Verify oxygen concentration Once per 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months remains less than 1 percent. during degassing operations.

OR Once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months during other operations.

E. Required Actions and E.1 Suspend addition of waste Immediately.

associated Completion gas to the system.

Times of Condition D not met.

F. Any required oxygen or F.1 Initiate a Condition Report. Immediately hydrogen monitor(s) for one or more recombiners AND nonfunctional for more than 30 days. F.2 Continue action to restore Immediately the required nonfunctional monitor(s) to FUNCTIONAL status.

Vogtle Units 1 and 2 13.12 - 2 REVISION 54 Technical Requirement

Explosive Gas Monitoring Instrumentation TR 13.12.1 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE REQUIREMENTS FREQUENCY TRS 13.12.1.1 Perform CHANNEL CHECK 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months TRS 13.12.1.2 Perform COT 92 days TRS 13.12.1.3 -------------------------------NOTES--------------------------------

1. For the hydrogen monitors, the CHANNEL CALIBRATION shall include the use of standard gas samples in accordance with the manufacturers recommendations. In addition, a standard gas sample of nominal four volume percent hydrogen, balance nitrogen shall be used in the calibration to check linearity of the hydrogen analyzer.

2. For the oxygen monitors, the CHANNEL CALIBRATION shall include the use of standard gas samples in accordance with the manufacturers recommendations. In addition, a standard gas sample of nominal four volume percent oxygen, balance nitrogen shall be used in the calibration to check linearity of the oxygen analyzer.

Perform CHANNEL CALIBRATION 92 days Vogtle Units 1 and 2 13.12 - 3 REVISION 41 Technical Requirement

Explosive Gas Mixture TR 13.12.2 13.12 Explosive Gas and Storage Tank Radioactivity Monitoring (EGSTRAM) Program TR 13.12.2 Explosive Gas Mixture TR 13.12.2 The concentration of oxygen in the gaseous waste processing system shall be limited to less than or equal to 2% by volume whenever the hydrogen concentration exceeds 4% by volume.

APPLICABILITY: At all times.

ACTIONS

NOTE----------------------------------------------------------

TR 13.0.3 is not applicable.

CONDITION REQUIRED ACTION COMPLETION TIME A. Concentration of oxygen A.1 Reduce oxygen 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months in the gaseous waste concentration to within limit.

processing system > 2%

by volume but 4% by volume.

AND Hydrogen concentration >

4% by volume.

(continued)

Vogtle Units 1 and 2 13.12 - 4 Rev. 0 Technical Requirement 12/26/96

Explosive Gas Mixture TR 13.12.2 ACTIONS (continued)

CONDITION REQUIRED ACTION COMPLETION TIME B. Concentration of oxygen B.1 Suspend oxygen addition to Immediately in the gaseous waste the gaseous waste processing system > 4% processing system.

by volume.

AND AND B.2 Suspend all additions of Immediately Hydrogen concentration > waste gases to the gaseous 4% by volume. waste processing system.

AND B.3 Reduce oxygen Immediately concentration to 4% by volume.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.12.2.1 Monitor hydrogen and oxygen concentrations in the Continuously by use gaseous waste processing system. of the hydrogen and oxygen montors required FUNCTIONAL by TR 13.12.1.

Vogtle Units 1 and 2 13.12 - 5 REVISION 35 Technical Requirement

Gas Decay Tanks TR 13.12.3 13.12 Explosive Gas and Storage Tank Radioactivity Monitoring (EGSTRAM) Program TR 13.12.3 Gas Decay Tanks TR 13.12.3 The quantity of radioactivity contained in each gas decay tank shall be limited to 2.0 x 105 curies of noble gases (considered as Xe-133 equivalent).

APPLICABILITY: At all times.

ACTIONS

NOTE----------------------------------------------------------

TR 13.0.3 is not applicable.

CONDITION REQUIRED ACTION COMPLETION TIME A.1 Quantity of radioactive A.1 Suspend all additions of Immediately material in any gas decay radioactive material to the tank exceeding limit. tank.

AND A.2 Reduce the tank contents to 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months within the limit.

AND A.3 Describe the events leading In accordance with to this condition in the next TS 5.6.3 Annual Radioactive Effluent Release Report Vogtle Units 1 and 2 13.12 - 6 Rev. 0 Technical Requirement 12/26/96

Gas Decay Tanks TR 13.12.3 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.12.3.1 Verify quantity of radioactive material contained in Once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months each gas decay tank to be less than the limit. when radioactive material has been added to the tanks during the previous 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months .

Vogtle Units 1 and 2 13.12 - 7 Rev. 0 Technical Requirement 12/26/96

Liquid Holdup Tanks TR 13.12.4 13.12 Explosive Gas and Storage Tank Radioactivity Monitoring (EGSTRAM) Program 13.12.4 Liquid Holdup Tanks 13.12.4 The quantity of radioactive material contained in each outside temporary tank shall be limited to 10 curies, excluding tritium and dissolved or entrained noble gases.

APPLICABILITY: At all times.

ACTIONS

NOTE----------------------------------------------------------

TR 13.0.3 is not applicable.

CONDITION REQUIRED ACTION COMPLETION TIME A. Quantity of radioactive A.1 Suspend addition of Immediately material in any outside radioactive material to the temporary tank in excess tank.

of the limit.

AND A.2 Reduce quantity of 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months radioactive material to within limit.

AND A.3 Describe the events leading In accordance with to this condition in the next Technical Radioactive Effluent Release Specification 5.6.3.

Report pursuant to Technical Specification 5.6.3.

Vogtle Units 1 and 2 13.12 - 8 Rev. 0 Technical Requirement 12/26/96

Liquid Holdup Tanks TR 13.12.4 TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.12.4.1 Verify quantity of radioactive material in each outdoor 7 days when temporary tank by analysing a representative sample radioactive material of the tank contents or each batch to be added to the is being added to a tank. tank.

OR Prior to addition of a batch of material to a tank.

Vogtle Units 1 and 2 13.12 - 9 Rev. 0 Technical Requirement 12/26/96

Emergency Response Facilities TR 13.13.1 13.13 Emergency Response Facilities TR 13.13.1 Emergency Response Facilities TR 13.13.1 The Technical Support Center, the Operations Support Center, and the Emergency Operations Facility shall be FUNCTIONAL.

NOTE--------------------------------------------------------

If an emergency response facility (ERF) can be returned to service within 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months , the ERF is FUNCTIONAL and the condition statement may be exited.

APPLICABILITY: At all times.

ACTIONS

NOTES--------------------------------------------------------

1. Separate condition entry is allowed for each facility.

2. TR 13.0.3 is not applicable.

3. If an ERF will be removed from service for greater than 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months , contact Emergency Preparedness to ensure adequate compensatory measures are in place. Entry into Condition A is required when the affected ERF becomes nonfunctional.

CONDITION REQUIRED ACTION COMPLETION TIME A. One or more emergency A.1 Restore emergency 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months facilities nonfunctional. facilities to FUNCTIONAL status.

AND

NOTE----------

Alternate facilities are applicable only to OSC and TSC.

A.2 Verify availability of Immediately alternate facilities.

B. Required Action A and B.1 Initiate compensatory Immediately associated Completion actions, as necessary, to Time not met. provide emergency response functions.

(continued)

Vogtle Units 1 and 2 13.13 - 1 REVISION 48 Technical Requirement

Emergency Response Facilities TR 13.13.1 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME B. (continued) AND B.2 Proceed with actions to Immediately return ERFs to FUNCTIONAL status with a high priority.

TECHNICAL REQUIREMENT SURVEILLANCES SURVEILLANCE FREQUENCY TRS 13.13.1.1 Perform testing to ensure FUNCTIONALITY of an ERF. In accordance with applicable procedures.

TRS 13.13.1.2 Perform inventory to ensure FUNCTIONALITY of an In accordance with ERF. applicable procedures.

Vogtle Units 1 and 2 13.13 - 2 REVISION 38 Technical Requirement

Emergency Response Facilities B TR 13.13.1 B TR 13.13.1 Emergency Response Facilities BASES A note modifies the technical requirements when it is determined that the primary ERF can at any time during its out-of-service period be returned to service within 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months . In that case, the ERF is considered FUNCTIONAL and the condition statement may be exited. Similarly, if the ERF is to be deliberately taken out of service but will be capable of being returned to service at any time within 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months , the ERF is considered FUNCTIONAL and the condition statement is not required to be entered.

APPLICABILITY This TR is applicable to the Technical Support Center (TSC), the Operations Support Center (OSC), and the Emergency Operations Facility (EOF).

Emergency events could occur during all modes of operation; consequently, the emergency response facilities (ERFs) shall be FUNCTIONAL at all times.

CONDITIONS Condition A The 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months out-of-service time is acceptable since alternate facilities are available to provide the emergency response functions during the time the primary ERF is nonfunctional. If the alternate facilities are not available, then Condition B is immediately entered.

A.2 is modified by a NOTE which states: Alternate facilities are applicable only to OSC & TSC.

This action does not apply to the EOF since it does not have an alternate facility.

Condition B If the alternate facilities for the TSC and OSC are available, then no compensatory actions may be needed, provided the necessary compensatory actions are encompassed in the procedures for the alternate facilities. If the alternate facilities are not available, then compensatory actions must immediately be put in place.

Notification to the NRC may be required per procedure NMP-AD-031 if the ERF is discovered out of service and is expected to remain out of service for greater than 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months , or is taken out of service and remains out of service for longer than 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months .

As indicated on Note 3 of the ACTIONS section, if the ERF will deliberately be taken out of service for a period longer than 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months , Emergency Preparedness will be contacted. If Emergency Preparedness determines a 50.54(g) screening or evaluation is required, the screening/evaluation will determine if the effectiveness of the emergency plan is decreased. If the effectiveness of the emergency plan is decreased, then the evaluation must be completed and submitted to NRC Headquarters (HQ) for prior approval, and that approval must be received prior to the ERF being taken out of service.

(continued)

Vogtle Units 1 and 2 B 13.13 - 1 REVISION 48 Technical Requirement Bases

Emergency Response Facilities B TR 13.13.1 BASES (continued)

Admittedly, the term high priority is subjective. Consequently, the following clarification is provided: In the context of this TR, high priority is taken to mean that returning the primary ERF to FUNCTIONAL status will be the overriding objective. Priority is not given to, for example, staying within budgetary or scheduling constraints.

FUNCTIONALITY REQUIREMENTS TSC The following are required for FUNCTIONALITY of the TSC:

The ventilation system for filtration and radiological control.

Offsite dose projection capability.

Communication capability between control room, TSC, OSC, EOF, Field Monitoring Teams and offsite agencies.

Event assessment capability.

Capability to automatically or manually energize the TSC from the security diesel generator within a time no greater than allowed by TR 13.13.1 CONDITION A.

If any of the following are out of service, the impact of their loss shall be evaluated in determining the ability of the TSC to perform its required function:

Temperature Control System.

Communication devices capable of performing the indicated function as provided below:

Communication Function VEGP TSC Management with EOF Commercial Telephone Lines TSC/EOF/OSC Conference Bridge Radio Resource Management Commercial Telephone Lines (Offsite Premises Extension) OPX Radiological Monitoring Southern LINC Plant Radio System The Emergency Notification Network ENN (ENN) and Offsite Protective Action Commercial Telephone Lines Recommendations (PAR)

The Emergency Notification System (ENS) for NRC notifications.

Availability of plant procedures and plant drawings. For example:

(continued)

Vogtle Units 1 and 2 B 13.13 - 2 REVISION 52 Technical Requirement Bases

Emergency Response Facilities B TR 13.13.1 BASES (continued)

Technical Specifications, EOPs, plant operating procedures, emergency implementing procedures, system piping and instrumentation drawings, and elementary diagrams.

Emergency supplies and equipment as delineated in the SNC Standard Emergency Plan, section H Technical data displays for event assessment.

OSC The following is required for FUNCTIONALITY of the OSC:

Communication capability with the TSC and control room.

If any of the following are out of service, the impact of their loss shall be evaluated in determining the ability of the OSC to perform its required function:

Emergency equipment supplies as delineated in the SNC Standard Emergency Plan, section H.

Communication devices capable of performing the indicated function as provided below:

Communication Function VEGP OSC Management with TSC Commercial Telephone Lines TSC/EOF/OSC Conference Bridge Radio Resource Management Commercial Telephone Lines OPX Radiological Monitoring Southern LINC Plant Radio System EOF The following are required for FUNCTIONALITY of the EOF:

Offsite dose projection capability.

Communication capability between control room, TSC, OSC, EOF and offsite agencies.

If any of the following are out of service, the impact of their loss shall be evaluated in determining the ability of the EOF to perform its required function:

Technical data displays.

Availability of procedural information for EOF positions.

Communication devices capable of performing the indicated function as provided below:

(continued)

Vogtle Units 1 and 2 B 13.13 - 3 REVISION 52 Technical Requirement Bases

Emergency Response Facilities B TR 13.13.1 BASES (continued)

Communication Function VEGP TSC Management with EOF Commercial Telephone Lines TSC/EOF/OSC Conference Bridge Radio Resource Management Commercial Telephone Lines OPX Radiological Monitoring Southern LINC Plant Radio System Offsite (PARs) ENN Commercial Telephone TECHNICAL REQUIREMENT SURVEILLANCES Procedure 28645-C, Technical Support Center HVAC System Test A-1563-N7-001 and A-1563-N7-002, requires FUNCTIONAL testing of the TSC ventilation and filtration system. A suitable environment must be maintained in the TSC for personnel occupancy and equipment operation during radiological events. To accomplish this, the TSC ventilation and filtration system provides an adequate supply of filtered, conditioned fresh air during accident conditions, as well as minimizing airborne radioactivity in the TSC during and after an accident. FUNCTIONAL testing of the ventilation system is therefore performed to ensure the TSC remains habitable.

Procedure 91702-C, Emergency Equipment and Supplies, requires that inventories be performed of equipment in the TSC once per calendar quarter. Procedure 91705-C, Inventory and Testing of Emergency Preparedness Material/Equipment which are not Part of the Emergency Kits, requires that inventories be performed in the TSC each half of a calendar year.

This TRS also ensures the availability of emergency equipment supplies that are normally kept in the OSC. This surveillance ensures that the ERFs are maintained in a state of readiness with respect to the equipment and items necessary for emergency response. If some items are not in place, they shall be immediately replaced. However, if certain items cannot be replaced, Emergency Preparedness personnel shall evaluate their loss with respect to the FUNCTIONALITY of the respective ERF.

(continued)

Vogtle Units 1 and 2 B 13.13 - 4 REVISION 52 Technical Requirement Bases

Emergency Response Facilities B TR 13.13.1 BASES (continued)

Communication equipment capable of performing the indicated functions provided below shall be available. Availability of any combination of equipment to perform the desired function is acceptable to maintain ERF FUNCTIONALITY for communications.

Communication Function VEGP TSC Management with EOF and EOF Commercial Telephone Lines Management with TSC TSC/EOF/OSC Conference Bridge Radio Resource Management Commercial Telephone Lines OPX Radiological Monitoring Southern LINC Plant Radio System Offsite (PARs) ENN Commercial Telephone For onsite ERFs, Procedure 91204-C requires FUNCTIONAL testing of the ENN and ENS offsite notification systems every calendar month. The multiline ERF phones require FUNCTIONAL testing each calendar quarter and provide communications within the plant during an emergency to facilitate event diagnosis, the assignment and dispatch of emergency personnel, and information updates of plant conditions. The ENN and ENS systems are the primary methods of notifying State and local authorities and the NRC and, as such, these systems should remain FUNCTIONAL. ENN and ENS equipment are available in both the TSC and EOF. Testing of EOF communication equipment is performed quarterly in accordance with NMP-EP-300.

A single nonfunctional communications system will not necessarily indicate a nonfunctional ERF. Emergency Preparedness shall evaluate each case in determining the FUNCTIONALITY of the particular ERF.

Procedure 91204-C requires FUNCTIONAL testing of offsite dose projection equipment once per calendar month. Initial offsite dose projections are often made from the TSC. Followup projections are usually made from the EOF. Consequently, it is appropriate that both facilities retain FUNCTIONAL offsite dose projection equipment. The calendar month frequency is appropriate since, realistically, the offsite dose projection equipment will be also tested during the three or four drills that are held each year at Plant Vogtle.

Vogtle Units 1 and 2 B 13.13 - 5 REVISION 52 Technical Requirement Bases

Unit Staff TR15.1 15.0 Administrative Controls TR15.1 Unit Staff TR 15.1.1 All CORE ALTERATIONS shall be observed and directly supervised by either a licensed Senior Operator or licensed Senior Operator Limited to Fuel Handling who has no other concurrent responsibilities during this operation.

TR 15.1.2 Each on-duty shift shall be composed of at least the minimum shift crew composition shown in Table 15.1.2-1.

Vogtie Units 1 and 2 15.1-1 Rev. 0 Technical Requirement 12/26/96

Unit Staff TR15.1 Table 15.1.2-1 MINIMUM SHIFT CREW COMPOSITION TWO UNITS WITH A COMMON CONTROL ROOM Position Number of Individuals Required to Fill Position One Unit in M0DE1,2, 3, or4and Both Units in One Unit in Both Units in MODE 5 or 6 or MODE 5 or 6 or MODE 1,2, 3, or 4 DEFUELED DEFUELED SS SRO None' RO j(2) 5(2) j(2)

NLO ?(2) ?(2) ?(2) l(3) l(3)

STA None (1) At least one licensed Senior Operator or licensed Senior Operator Limited to Fuel Handling who has no other concurrent responsibilities must be present during CORE ALTERATIONS on either unit.

(2) At least one of the required individuals must be assigned to the designated position for each unit.

(3) SeeTS5.2.2.g.

SS - Shift Superintendent with a Senior Operator License.

SRO - Individual with a Senior Operator License.

RO - Individual with an Operator License.

NLO - Non-licensed operator.

STA - Shift Technical Advisor.

Vogtie Units 1 and 2 15.1 -2 Rev. 0 Technical Requirement 12/26/96

ML22326A108

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