| title = Limerick Generating Station, Units 1 & 2, Application to Revise Technical Specifications to Adopt TSTF-542, Reactor Pressure Vessel Water Inventory Control, Rev. 2.

{{#Wiki_filter: 200 Exelon Way Kennett Square, PA 19348 www.exeloncorp.com   10 CFR 50.90

 

July 19, 2017  

 

U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555-0001 Limerick Generating Station, Units 1 and 2 Renewed Facility Operating License Nos. NPF-39 and NPF-85 NRC Docket Nos. 50-352 and 50-353  

Application to Revise Technical Specifications to Adopt TSTF-542, "Reactor Pressure Vessel Water Inventory Control," Revision 2   In accordance with 10 CFR 50.90, "Application for amendment of license, construction permit, or early site permit," Exelon Generation Company, LLC (Exelon) requests an amendment to the Technical Specifications (TS), Appendix A of Renewed Facility Operating License Nos. NFP-39 and NPF-85 for Limerick Generating Station (LGS), Units 1 and 2, respectively.

Exelon requests approval of the proposed amendment by February 28, 2018 in support of the Spring 2018 Unit 1 refueling outage. Once approved, the amendments shall be implemented within 90 days.  

U.S. Nuclear Regulatory Commission Application to Revise TS to Adopt TSTF-542 Docket Nos. 50-352 and 50-353 July 19, 2017 Page 2 In accordance with 1 O CFR 50.91, "Notice for public comment; State consultation," paragraph (b), Exelon is notifying the Commonwealth of Pennsylvania of this application for license amendment by transmitting a copy of this letter and its attachments to the designated State Official. If you have any questions or require additional information, please contact Glenn Stewart at (610) 765-5529. I declare under penalty of perjury that the foregoing is true and correct. Executed on the 191h day of July 2017. Respectfully, James Barstow Director, Licensing and Regulatory Affairs Exelon Generation Company, LLC Attachments: 1. Description and Assessment 2. Markup of Technical Specifications Pages 3. Markup of Technical Specifications Bases Pages (For Information Only) cc: USNRC Region I, Regional Administrator USNRC Senior Resident Inspector, LGS USNRC Project Manager, LGS R. R. Janati, Pennsylvania Bureau of Radiation Protection wl attachments II II II ATTACHMENT 1  Limerick Generating Station, Units 1 and 2  Renewed Facility Operating License Nos. NPF-39 and NPF-85  Docket Nos. 50-352 and 50-353  Application to Revise Technical Specifications to Adopt TSTF-542, "Reactor Pressure Vessel Water Inventory Control," Revision 2  Description and Assessment License Amendment Request  Attachment 1 Application to Revise TS to Adopt TSTF-542  Page 1 of 6 Docket Nos. 50-352 and 50-353 Description and Assessment  1.0 DESCRIPTION Exelon Generation Company, LLC (Exelon), requests an amendment to the Technical Specifications (TS), Appendix A of Renewed Facility Operating License Nos. NPF-39 and NPF-85 for Limerick Generating Station (LGS), Units 1 and 2, respectively.

The proposed changes replace existing TS requirements related to "operations with a potential for draining the reactor vessel" (OPDRVs) with new requirements on Reactor Pressure Vessel (RPV) Water Inventory Control (WIC) to protect Safety Limit 2.1.4. Safety Limit 2.1.4 requires reactor vessel water level to be greater than the top of active irradiated fuel.

2.0 ASSESSMENT 2.1 Applicability of Published Safety Evaluation  Exelon has reviewed the safety evaluation provided to the Technical Specifications Task Force on December 20, 2016 (Reference 1), as well as the information provided in TSTF-542 (Reference 2). Exelon has concluded that the justifications presented in TSTF-542 and the safety evaluation prepared by the Nuclear Regulatory Commission (NRC) staff are applicable to LGS, Units 1 and 2, and justify this amendment for the incorporation of the changes to the LGS TS.

The following LGS TS reference or are related to OPDRVs and are affected by the proposed changes: 1.0 Definitions 3.3.2 Isolation Actuation Instrumentation 3.3.3 Emergency Core Cooling System Actuation Instrumentation 3.3.7 Radiation Monitoring Instrumentation3.5.2 ECCS - Shutdown 3.5.3 Suppression Chamber3.6.5.1.2 Refueling Area Secondary Containment Integrity 3.6.5.2.2 Refueling Area Secondary Containment Automatic Isolation Valves 3.6.5.3 Standby Gas Treatment System-Common System3.7.2 Control Room Emergency Fresh Air Supply System -Common System3.8.1.2 A.C. Sources - Shutdown3.8.2.2 D.C. Sources - Shutdown 3.8.3.2 Distribution - Shutdown 2.2 Variations Exelon is proposing the following variations from the TS changes described in TSTF-542.

LGS TS are based on the previous version of the NRC's Standard TS (NUREG-0123, Revision 2) (Reference 3) and, therefore, the wording and format varies slightly from the NRC Improved Standard Technical Specifications (NUREG-1433) shown in TSTF-542, Revision 2, and the applicable parts of the NRC's safety evaluation. This minor variation is administrative in nature and does not affect the applicability of TSTF-542 to the LGS TS.

License Amendment Request  Attachment 1 Application to Revise TS to Adopt TSTF-542  Page 2 of 6 Docket Nos. 50-352 and 50-353 Description and Assessment In alignment with TSTF-542, Rev. 2, Proposed Safety Basis (Section 3.1.2), the existing LGS TS 3.5.2 requirement to suspend core alterations as an action for Emergency Core Cooling System (ECCS) inoperability is no longer warranted since there are no postulated events associated with core alterations that are prevented or mitigated by the proposed RPV water inventory control requirements. In addition, loss of RPV inventory events are not initiated by core alteration operations. Refueling Limiting Conditions for Operation (LCOs) provide requirements to ensure safe operation during core alterations, including required water level above the RPV flange. Therefore, LGS proposes to delete TS 3.5.2, Action 'b' in its entirety, including the action relating to core alterations.  

In alignment with NUREG-1433, Rev. 4, and consistent with TSTF-542, Rev. 2, LGS proposes to revise TS 3.5.3, "Suppression Chamber," to remove TS requirements associated with OPERATIONAL CONDITIONS (OPCONs) 4 and 5 since they are redundant to the requirements and intent of the newly proposed TS Section 3.5.2, "Reactor Pressure Vessel (RPV) Water Inventory Control (WIC)." For example, the existing LGS TS LCO 3.5.3.b contains conditions that allow the suppression chamber level to be less than the required 16 feet 0 inches in OPCONs 4 and 5 if the conditions are met, such as maintaining an operable flow path for the Core Spray System to take suction from the Condensate Storage Tank (CST) and ensuring there is sufficient level (29 feet) in the CST. These conditions are satisfied by the proposed LCO 3.5.2.a.2.b). In addition, existing LGS Surveillance Requirement (SR) 4.5.3.1.b requires verifying that the suppression chamber water level is 16 feet 0 inches. This is satisfied by proposed SRs 4.5.2.2 and 4.5.2.3. Because LGS, Unit 1 and Unit 2 TS are based on NUREG-0123, Revision 2, the current LGS TS in Table 3.3.3-1, "Emergency Core Cooling System Actuation Instrumentation," do not include requirements for the following functions that are listed in TSTF-542: "1b - Core Spray Pump Discharge Flow-Low (Bypass)" and "2b - Low Pressure Coolant Injection Pump Discharge Flow-Low (Bypass)." Therefore, to align with current LGS instrumentation TS, no requirements were added for these functions as part of the newly proposed TS Table 3.3.3.A-1.

TSTF-542, Table 3.3.5.2-1, "RPV Water Inventory Control Instrumentation," contains Function 2.a, Reactor Steam Dome Pressure - Low (Injection Permissive)," as a permissive for the injection function of the Low Pressure Coolant Injection (LPCI) system in Modes 4 and 5. The current LGS TS Table 3.3.3-1, "Emergency Core Cooling System Actuation Instrumentation," contains a similar Function 2.c, Reactor Vessel Pressure - Low; however, for LGS, this function is only required in OPCONs 1, 2, and 3, and is combined with the Drywell Pressure - High function to provide an automatic initiation signal for LPCI, which is separate from the injection logic. For LGS, the permissive for the injection function of LPCI in OPCONs 4 and 5 from TS Table 3.3.3-1 is Function 2.d, Injection Valve Differential Pressure - Low. This interlock, as determined by monitoring the differential pressure across the injection valve, is to prevent opening the injection valve if reactor pressure is greater than the Residual Heat Removal (RHR) system piping design maximum pressure. Therefore, the new proposed TS Table 3.3.3.A-1, "RPV Water Inventory Control (WIC) Instrumentation," for LGS will include Function 2.a, Injection Valve Differential Pressure - Low (Permissive), for the injection function of the LPCI mode of the RHR system rather than the Reactor Vessel Pressure - Low [Reactor Steam Dome Pressure - Low] function specified in TSTF-542. This variation is consistent with the current LGS TS and operation of the plant, and does not affect the applicability of TSTF-542 to the LGS TS.  

License Amendment Request Attachment 1 Application to Revise TS to Adopt TSTF-542 Page 3 of 6 Docket Nos. 50-352 and 50-353 Description and Assessment LGS TS include Amendment Nos. 216 for Unit 1 and 178 for Unit 2 (Reference 4) for TSTF-523, "Generic Letter 2008-01, Managing Gas Accumulation." As discussed in the Technical Evaluation of TSTF-542, Rev. 2, the changes in TSTF-523 are also applicable to the proposed SRs 4.5.2.4 and 4.5.2.5. Therefore, the following changes are being made to the proposed SRs 4.5.2.4 and 4.5.2.5 based on the changes made to the corresponding LGS SRs in the above referenced amendments that adopted TSTF-523. The following changes have no effect on the adoption of the TSTF-542 and are an acceptable variation in accordance with Section 3.2.4.4 of TSTF-542:

* SR 4.5.2.5 has been modified to retain the note: "Not required to be met for system vent flow paths opened under administrative control." During the development of this LAR to adopt TSTF-542, Rev.2, an administrative error was identified within the LGS Index. As part of LGS Amendment Nos. 174 for Unit 1 and 136 for Unit 2 (ADAMS Accession No. ML043220090), the 'E-AVERAGE DISINTEGRATION ENERGY ' definition was deleted. The LGS TS Index is being revised to reflect this deletion. This change is administrative in nature and does not affect the applicability of TSTF-542 to the LGS TS. The model application provided in TSTF-542 includes an attachment for typed, camera-ready (revised) TS pages reflecting the proposed changes. LGS is not including such an attachment due to the number of TS pages included in this submittal that have the potential to be affected by other unrelated license amendment requests. Providing only mark-ups of the proposed TS changes satisfies the requirements of 10 CFR 50.90, "Application for amendment of license, construction permit, or early site permit," in that the mark-ups fully describe the changes desired. This is administrative in nature and does not affect the applicability of TSTF-542 or the NRC's safety evaluation to the proposed license amendment.

The LGS TS contain a Surveillance Frequency Control Program (SFCP). Therefore, the SR frequencies for proposed TS 3.5.2 are "in accordance with the Surveillance Frequency Control Program," and the SR frequencies specified in TSTF-542 will be incorporated into the LGS SFCP upon implementation of the proposed amendment.

 

LGS TS pages 3/4 3-15, 3/4 3-64, and 3/4 3-66 are provided for information only since the table notations where the reference to operations with the potential for draining the reactor vessel are proposed to be deleted refer to the tables on these pages.

 

3.0 REGULATORY ANALYSIS 3.1 No Significant Hazards Consideration  Exelon Generation Company, LLC (Exelon), requests an amendment to the Technical Specifications (TS), Appendix A of Renewed Facility Operating License Nos. NPF-39 and NPF-85 for Limerick Generating Station (LGS), Units 1 and 2, respectively.  

: 1. Does the proposed amendment involve a significant increase in the probability or consequences of an accident previously evaluated?  Response: No.  

The proposed changes replace existing TS requirements related to OPDRVs with new requirements on RPV WIC that will protect Safety Limit 2.1.4. Draining of RPV water inventory in OPERATIONAL CONDITION 4 (i.e., cold shutdown) and OPERATIONAL CONDITION 5 (i.e., refueling), is not an accident previously evaluated and, therefore, replacing the existing TS controls to prevent or mitigate such an event with a new set of controls has no effect on any accident previously evaluated. RPV water inventory control in OPERATIONAL CONDITION 4 or 5 is not an initiator of any accident previously evaluated. The existing OPDRV controls or the proposed RPV WIC controls are not mitigating actions assumed in any accident previously evaluated. The proposed changes reduce the probability of an unexpected draining event (which is not a previously evaluated accident) by imposing new requirements on the limiting time in which an unexpected draining event could result in the reactor vessel water level dropping to the top of the active fuel (TAF). These controls require cognizance of the plant configuration and control of configurations with unacceptably short drain times.

These requirements reduce the probability of an unexpected draining event. The current TS requirements are only mitigating actions and impose no requirements that reduce the probability of an unexpected draining event. The proposed changes reduce the consequences of an unexpected draining event (which is not a previously evaluated accident) by requiring an Emergency Core Cooling System (ECCS) subsystem to be operable at all times in OPERATIONAL CONDITIONS 4 and 5. The current TS requirements do not require any water injection systems, ECCS or otherwise, to be Operable in certain conditions in OPERATIONAL CONDITION 5. The change in requirement from two ECCS subsystems to one ECCS subsystem in OPERATIONAL CONDITIONS 4 and 5 does not significantly affect the consequences of an unexpected draining event because the proposed Actions ensure equipment is available within the limiting drain time that is as capable of mitigating the event as the current requirements. The proposed controls provide escalating compensatory measures to be established as calculated drain times decrease, such as verification of a second method of water injection and additional confirmations that containment and/or filtration would be available if needed.  

License Amendment Request Attachment 1 Application to Revise TS to Adopt TSTF-542 Page 5 of 6 Docket Nos. 50-352 and 50-353 Description and Assessment The proposed changes reduce or eliminate some requirements that were determined to be unnecessary to manage the consequences of an unexpected draining event, such as automatic initiation of an ECCS subsystem and control room ventilation. These changes do not affect the consequences of any accident previously evaluated since a draining event in OPERATIONAL CONDITIONS 4 and 5 is not a previously evaluated accident and the requirements are not needed to adequately respond to a draining event. Therefore, the proposed changes do not involve a significant increase in the probability or consequences of an accident previously evaluated. 2. Does the proposed amendment create the possibility of a new or different kind of accident from any accident previously evaluated?  Response: No.  

The proposed changes replace existing TS requirements related to OPDRVs with new requirements on RPV WIC that will protect Safety Limit 2.1.4. The proposed changes will not alter the design function of the equipment involved. Under the proposed changes, some systems that are currently required to be operable during OPDRVs would be required to be available within the limiting drain time or to be in service depending on the limiting drain time. Should those systems be unable to be placed into service, the consequences are no different than if those systems were unable to perform their function under the current TS requirements. The event of concern under the current requirements and the proposed changes is an unexpected draining event. The proposed changes do not create new failure mechanisms, malfunctions, or accident initiators that would cause a draining event or a new or different kind of accident not previously evaluated or included in the design and licensing bases.

3. Does the proposed amendment involve a significant reduction in a margin of safety?  

Response: No.  

The proposed changes replace existing TS requirements related to OPDRVs with new requirements on RPV WIC. The current requirements do not have a stated safety basis and no margin of safety is established in the licensing basis. The safety basis for the new requirements is to protect Safety Limit 2.1.4. New requirements are added to determine the limiting time in which the RPV water inventory could drain to the TAF in the reactor vessel should an unexpected draining event occur. Plant configurations that could result in lowering the RPV water level to the TAF within one hour are now prohibited. New escalating compensatory measures based on the limiting drain time replace the current controls. The proposed TS establish a safety margin by providing defense-in-depth to ensure that the Safety Limit is protected and to protect the public health and safety. While some less restrictive requirements are proposed for plant License Amendment Request  Attachment 1 Application to Revise TS to Adopt TSTF-542  Page 6 of 6 Docket Nos. 50-352 and 50-353 Description and Assessment  configurations with long calculated drain times, the overall effect of the change is to improve plant safety and to add safety margin. Therefore, the proposed changes do not involve a significant reduction in a margin of safety. Based on the above, Exelon concludes that the proposed amendment presents no significant hazards consideration under the standards set forth in 10 CFR 50.92(c), and, accordingly, a finding of "no significant hazards consideration" is justified.

==4.0 ENVIRONMENTAL CONSIDERATION==

Exelon has determined that the proposed amendment would change a requirement with respect to installation or use of a facility component located within the restricted area, as defined in 10 CFR 20, "Standards for Protection Against Radiation," or would change an inspection or surveillance requirement. However, the proposed amendment does not involve (i) a significant hazards consideration, (ii) a significant change in the types or significant increase in the amounts of any effluent that may be released offsite, or (iii) a significant increase in individual or cumulative occupational radiation exposure. Accordingly, the proposed amendment meets the eligibility criterion for categorical exclusion set forth in 10 CFR 51.22(c)(9). Therefore, pursuant to 10 CFR 51.22(b), no environmental impact statement or environmental assessment need be prepared in connection with the proposed amendment.  

ATTACHMENT 2 Proposed Technical Specifications Changes (Mark-ups) Limerick Generating Station, Units 1 and 2 Renewed Facility Operating License Nos. NPF-39 and NPF-85 Docket Nos. 50-352 and 50-353 Application to Revise Technical Specifications to Adopt TSTF-542, "Reactor Pressure Vessel Water Inventory Control," Revision 2 Revised Proposed Technical Specifications Pages Unit 1 TS Pages i vii xii xviii xx 1-2 1-2a* 3/4 3-15 ** 3/4 3-16 3/4 3-31 3/4 3-33 3/4 3-35 3/4 3-36 3/4 3-40 3/4 3-41 3/4 3-41a* 3/4 3-41b* 3/4 3-41c* 3/4 3-41d*

3/4 3-41e* 3/4 3-64** 3/4 3-65 3/4 3-66** 3/4 3-67 3/4 5-6 3/4 5-6a* 3/4 5-7 3/4 5-8 3/4 5-9 3/4 6-47 3/4 6-50 3/4 6-52 3/4 7-6 3/4 7-7 3/4 8-9 3/4 8-14a 3/4 8-20  Unit 2 TS Pages i vii xii xviii xx 1-2 1-2a* 3/4 3-15** 3/4 3-16 3/4 3-31 3/4 3-33 3/4 3-35 3/4 3-36 3/4 3-40 3/4 3-41 3/4 3-41a* 3/4 3-41b* 3/4 3-41c* 3/4 3-41d*

3/4 3-41e* 3/4 3-64** 3/4 3-65 3/4 3-66** 3/4 3-67 3/4 5-6 3/4 5-6a* 3/4 5-7 3/4 5-8 3/4 5-9 3/4 6-47 3/4 6-50 3/4 6-52 3/4 7-6 3/4 7-6a 3/4 8-9 3/4 8-14a 3/4 8-19 3/4 8-20   

*New TS Page  

**Information Only TS Page  

INDEX   DEFINITIONS SECTION 1.0 DEFINITIONS PAGE 1.1 ACTION ....................................................... 1-1 1.2 AVERAGE PLANAR EXPOSURE ...................................... 1-1 1.3 AVERAGE PLANAR LINEAR HEAT GENERATION RATE ................... 1-1 1.4 CHANNEL CALIBRATION .......................................... 1-1 1.5 CHANNEL CHECK ................................................ 1-1 1.6 CHANNEL FUNCTIONAL TEST ...................................... 1-1 1.7 CORE ALTERATION .............................................. 1-2 1.7A CORE OPERATING LIMITS REPORT ................................. 1-2 1.8 CRITICAL POWER RATIO ......................................... 1-2 1.9 DOSE EQUIVALENT I-131 ........................................ 1-2 1.9a DOWNSCALE TRIP SETPOINT (DTSP) ............................... 1-2 1.9b DRAIN TIME ................................................... 1-2 1.10 E-AVERAGE DISINTEGRATION ENERGY(DELETED) ..................... 1-2a 1.11 EMERGENCY CORE COOLING SYSTEM (ECCS) RESPONSE TIME ........... 1-2a 1.12 END-OF-CYCLE RECIRCULATION PUMP TRIP SYSTEM RESPONSE TIME .... 1-3 1.13 (DELETED) .................................................... 1-3 1.14 (DELETED) .................................................... 1-3 1.15 FREQUENCY NOTATION ........................................... 1-3 1.15a HIGH (POWER) TRIP SETPOINT (HTSP) ............................ 1-3 1.16 IDENTIFIED LEAKAGE ........................................... 1-3 1.16a INTERMEDIATE (POWER) TRIP SETPOINT (ITSP) .................... 1-3 1.17 ISOLATION SYSTEM RESPONSE TIME ............................... 1-3 1.18 LIMITING CONTROL ROD PATTERN ................................. 1-3 1.19 LINEAR HEAT GENERATION RATE .................................. 1-3 1.20 LOGIC SYSTEM FUNCTIONAL TEST ................................. 1-4

LIMERICK - UNIT 1 i Amendment No. 33, 37, 66 INDEX LIMITING CONDITIONS FOR OPERATION AND SURVEILLANCE REQUIREMENTS                   SECTION PAGE INSTRUMENTATION (Continued) 3/4.3.2 ISOLATION ACTUATION INSTRUMENTATION .......................... 3/4 3-9 Table 3.3.2-1 Isolation Actuation Instrumentation .......................... 3/4 3-11 Table 3.3.2-2 Isolation Actuation   Instrumentation Setpoints ................ 3/4 3-18 Table 3.3.2-3 Isolation System Instrumen-   tation Response Time ..................... 3/4 3-23 Table 4.3.2.1-1 Isolation Actuation Instrumen-   tation Surveillance Requirements ........................... 3/4 3-27 3/4.3.3 EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION .............................................. 3/4 3-32 Table 3.3.3-1 Emergency Core Cooling System Actuation Instrumentation ................ 3/4 3-33 Table 3.3.3-2 Emergency Core Cooling System Actuation Instrumentation Setpoints ................................ 3/4 3-37 Table 3.3.3-3 Emergency Core Cooling System Response Times ........................... 3/4 3-39 Table 4.3.3.1-1 Emergency Core Cooling System Actuation Instrumentation Surveillance Requirements .............. 3/4 3-40 3/4.3.3.A REACTOR PRESSURE VESSEL (RPV) WATER INVENTORY CONTROL (WIC)   INSTRUMENTATION .............................................. 3/4 3-41a Table 3.3.3.A-1 RPV Water Inventory Control (WIC)

Instrumentation Surveillance Requirements 3/4 3-41e 3/4.3.4 RECIRCULATION PUMP TRIP ACTUATION INSTRUMENTATION  

 

ATWS Recirculation Pump Trip System Instrumentation .......... 3/4 3-42 Table 3.3.4.1-1 ATWS Recirculation Pump Trip System Instrumentation ................. 3/4 3-43 Table 3.3.4.1-2 ATWS Recirculation Pump Trip System Instrumentation Setpoints .............................. 3/4 3-44 Table 4.3.4.1-1 (Deleted) .............................. 3/4 3-45 End-of-Cycle Recirculation Pump Trip System Instrumentation .............................................. 3/4 3-46 LIMERICK - UNIT 1 vii Amendment No. 33, 186 INDEX  LIMITING CONDITIONS FOR OPERATION AND SURVEILLANCE REQUIREMENTS SECTION  PAGE  REACTOR COOLANT SYSTEM (Continued) 3/4.4.9 RESIDUAL HEAT REMOVAL

 

 

 

 

 

 

 

 

 

 

LEFT INTENTIONALLY BLANK ............................................... B 3/4 2-3 3/4.2.3 MINIMUM CRITICAL POWER RATIO................................ B 3/4 2-4  

3/4.2.4 LINEAR HEAT GENERATION RATE................................. B 3/4 2-5  

3/4.3  INSTRUMENTATION 3/4.3.1 REACTOR PROTECTION SYSTEM INSTRUMENTATION................... B 3/4 3-1  

 

 

 

 

 

 

 

 

 

 

 

LIMERICK - UNIT 1 xx Amendment No. 33, 199  Associated with Amendment 216 DEFINITIONS                                                                       CORE ALTERATION 1.7 CORE ALTERATION shall be the movement of any fuel, sources, or reactivity control components within the reactor vessel with the vessel head removed and fuel in the vessel. The following exceptions are not considered to be CORE ALTERATIONS: a) Movement of source range monitors, local power range monitors, intermediate range monitors, traversing incore probes, or special moveable detectors (including undervessel replacement); and b) Control rod movement, provided there are no fuel assemblies in the associated core cell.

CRITICAL POWER RATIO 1.8 The CRITICAL POWER RATIO (CPR) shall be the ratio of that power in the assembly which is calculated by application of the (GEXL) correlation to cause some point in the assembly to experience boiling transition, divided by the actual assembly operating power. DOSE EQUIVALENT I-131 1.9 DOSE EQUIVALENT I-131 shall be that concentration of I-131, microcuries per gram, which alone would produce the same inhalation committed effective dose equivalent (CEDE) as the quantity and isotopic mixture of I-131, I-132, I-133, I-134, and I-135 actually present. The inhalation committed effective dose equivalent (CEDE) conversion factors used for this calculation shall be those listed in Table 2.1 of Federal Guidelines Report 11, "Limiting Values of Radionuclide Intake and Air Concentration and Dose Conversion Factors for Inhalation, Submersion, and Ingestion," ORNL, 1989, as described in Regulatory Guide 1.183. The factors in the column headed "effective" yield doses corresponding to the CEDE. DOWNSCALE TRIP SETPOINT (DTSP) 1.9a The downscale trip setpoint associated with the Rod Block Monitor (RBM) rod block trip setting.

DRAIN TIME 1.9b The DRAIN TIME is the time it would take for the water inventory in and above the Reactor Pressure Vessel (RPV) to drain to the top of the active fuel (TAF) seated in the RPV assuming: a) The water inventory above the TAF is divided by the limiting drain rate; b) The limiting drain rate is the larger of the drain rate through a single penetration flow path with the highest flow rate, or the sum of the drain rates through multiple penetration flow paths LIMERICK - UNIT 1 1-2 Amendment No. 37, 66, 87, 174, 185 DEFINITIONS                                                                        DRAIN TIME (Continued) susceptible to a common mode failure (e.g., seismic event, loss of normal power, single human error), for all penetration flow paths below the TAF except:

EMERGENCY CORE COOLING SYSTEM (ECCS) RESPONSE TIME 1.11 The EMERGENCY CORE COOLING SYSTEM (ECCS) RESPONSE TIME shall be that time interval from when the monitored parameter exceeds its ECCS actuation set-point at the channel sensor until the ECCS equipment is capable of performing its safety function, i.e., the valves travel to their required positions, pump discharge pressures reach their required values, etc. Times shall include diesel generator starting and sequence loading delays where applicable. The response time may be measured by any series of sequential, overlapping or total steps such that the entire response time is measured.

LIMERICK - UNIT 1 1-2a Amendment No. 37, 66, 87, 174, 185 TABLE 3.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION               MINIMUM APPLICABLE ISOLATION     OPERABLE CHANNELS     OPERATIONAL TRIP FUNCTION SIGNAL (a),(c)   PER TRIP SYSTEM (b)   CONDITION ACTION

: 7. SECONDARY CONTAINMENT ISOLATION a. Reactor Vessel Water Level Low, Low - Level 2     B       2 1, 2, 3 25 b. Drywell Pressure - High     H       2 1, 2, 3 25 c.1. Refueling Area Unit 1 Ventilation Exhaust Duct Radiation - High R       2 *# 25 2. Refueling Area Unit 2 Ventilation Exhaust Duct Radiation - High R 2 *# 25 d. Reactor Enclosure Ventilation Exhaust Duct Radiation - High     S       2 1, 2, 3 25 e. Deleted  

 

 

LIMERICK - UNIT 1 3/4 3-15 Amendment No. 6, 23, 33, 40, 112 TABLE 3.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION ACTION STATEMENTS ACTION 20 - Be in at least HOT SHUTDOWN within 12 hours and in COLD SHUTDOWN within the next 24-hours.

ACTION 21 - Be in at least STARTUP with the associated isolation valves closed within 6 hours or be in at least HOT SHUTDOWN within 12 hours and in COLD SHUTDOWN within the next 24 hours.

ACTION 22 - Be in at least STARTUP within 6 hours.  

 

ACTION 23 - In OPERATIONAL CONDITION 1 or 2, verify the affected system isolation valves are closed within 1 hour and declare the affected system inoperable. In OPERATIONAL CONDITION 3, be in at least COLD SHUTDOWN within 12 hours.

ACTION 26 - Close the affected system isolation valves within 1 hour.  

 

* Required when (1) handling RECENTLY IRRADIATED FUEL in the secondary containment, or (2) during operations with a potential for draining the reactor vessel with the vessel head removed and fuel in the vessel.  

** May be bypassed under administrative control, with all turbine stop valves closed.  

 

  # During operation of the associated Unit 1 or Unit 2 ventilation exhaust system.  

 

(a) DELETED  

 

(b) A channel may be placed in an inoperable status for up to 6 hours for required surveillance without placing the trip system in the tripped condition provided at least one OPERABLE channel in the same trip system is monitoring that parameter. Trip functions common to RPS Actuation Instrumentation are shown in Table 4.3.2.1-1. In addition, for the HPCI system and RCIC system isolation, provided that the redundant isolation valve, inboard or outboard, as applicable, in each line is OPERABLE and all required actuation instrumentation for that valve is OPERABLE, one channel may be placed in an inoperable status for up to 8 hours for required surveillance without placing the channel or trip system in the tripped condition.

 

LIMERICK - UNIT 1 3/4 3-16 Amendment No. 23,40,53,69,146, 185 TABLE 4.3.2.1-1 (Continued)  ISOLATION ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS        CHANNEL      OPERATIONAL    CHANNEL FUNCTIONAL  CHANNEL CONDITIONS FOR WHICH TRIP FUNCTION  CHECK (a)  TEST (a)  CALIBRATION(a) SURVEILLANCE REQUIRED  7. SECONDARY CONTAINMENT ISOLATION  a. Reactor Vessel Water Level Low, Low - Level 2      1, 2, 3

 

 

 

 

 

 

 

 

 

 

(a) A channel may be placed in an inoperable status for up to 6 hours for required surveillance without placing the trip system in the tripped condition provided at least one OPERABLE channel in the same trip system is monitoring that parameter.

(b) Also provides input to actuation logic for the associated emergency diesel generators.

(c) One trip system. Provides signal to HPCI pump suction valves only.  

  (d) On 1 out of 2 taken twice logic, provides a signal to trip the HPCI pump turbine only.

(e) The manual initiation push buttons start the respective core spray pump and diesel generator. The "A" and "B" logic manual push buttons also actuate an initiation permissive in the injection valve opening logic.

(f) A channel as used here is defined as the 127 bus relay for Item 1 and the 127, 127Y, and 127Z feeder relays with their associated time delay relays taken together for Item 2.

* When the system is required to be OPERABLE per Specification 3.5.2.DELETED 

# Not required to be OPERABLE when reactor steam dome pressure is less than or equal to 100 psig.

** Required when ESF equipment is required to be OPERABLE.  

## Not required to be OPERABLE when reactor steam dome pressure is less than or equal to 200 psig.

### The injection functions of Drywell Pressure - High and Manual Initiation are not required to be OPERABLE with reactor steam dome pressure less than 550 psig.

LIMERICK - UNIT 1 3/4 3-35 Amendment No. 53, 224 TABLE 3.3.3-1 (Continued) EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION ACTION STATEMENTS ACTION 30 - With the number of OPERABLE channels less than required by the Minimum OPERABLE Channels per Trip Function requirement:

a. With one channel inoperable, place the inoperable channel in the tripped condition within 24 hours or declare the associated system inoperable.

b. With more than one channel inoperable, declare the associated system inoperable.

a. For one channel inoperable, place the inoperable channel in the tripped condition within 24 hours or declare the HPCI system inoperable.

b. With more than one channel inoperable, declare the HPCI system inoperable.

ACTION 36 - With the number of OPERABLE channels less than the Total Number of Channels, declare the associated emergency diesel generator and the associated offsite source breaker that is not supplying the bus inoperable and take the ACTION required by Specification 3.8.1.1 or 3.8.1.2, as appropriate.

LIMERICK - UNIT 1 3/4 3-36 Amendment No. 11, 53, 158 TABLE 4.3.3.1-1   EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS   

 

TRIP FUNCTION CHANNEL CHECK(a) CHANNEL FUNCTIONAL TEST(a) CHANNEL CALIBRATION(a)OPERATIONAL CONDITIONS FOR WHICH SURVEILLANCE REQUIRED

: 1. CORE SPRAY SYSTEM   a. Reactor Vessel Water Level -

Low Low Low, Level 1   1, 2, 3, 4*, 5* b. Drywell Pressure - High1, 2, 3 c. Reactor Vessel Pressure -Low1, 2, 3, 4*, 5* d. Manual Initiation N.A.N.A.1, 2, 3, 4*, 5*  

: 2. LOW PRESSURE COOLANT INJECTION MODE OF RHR SYSTEM a. Reactor Vessel Water Level -

Low Low Low, Level 1   1, 2, 3, 4*, 5* b. Drywell Pressure - High1, 2, 3 c. Reactor Vessel Pressure -Low1, 2, 3 d. Injection Valve Differential Pressure - Low (Permissive)   1, 2, 3, 4*, 5* e. Manual Initiation N.A.N.A.1, 2, 3, 4*, 5*

a. Reactor Vessel Water Level -

Low Low, Level 2   1, 2, 3 b. Drywell Pressure - High1, 2, 3 c. Condensate Storage Tank Level -

Low   1, 2, 3 d. Suppression Pool Water Level -

High   1, 2, 3 e. Reactor Vessel Water Level -

High, Level 8   1, 2, 3 f. Manual Initiation N.A.N.A.1, 2, 3

LIMERICK - UNIT 1 3/4 3-40 Amendment No. 53, 71, 186 TABLE 4.3.3.1-1 (Continued) EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS  

 

TRIP FUNCTION CHANNEL CHECK(a) CHANNEL FUNCTIONAL TEST(a) CHANNEL CALIBRATION(a)OPERATIONAL CONDITIONS FOR WHICH SURVEILLANCE REQUIRED

a. Reactor Vessel Water Level -

Low Low Low, Level 1   1, 2, 3 b. Drywell Pressure - High1, 2, 3 c. ADS Timer N.A.1, 2, 3 d. Core Spray Pump Discharge Pressure - High   1, 2, 3 e. RHR LPCI Mode Pump Discharge Pressure - High   1, 2, 3 f. Reactor Vessel Water Level -Low, Level 3   1, 2, 3 g. Manual Initiation N.A.N.A.1, 2, 3 h. ADS Drywell Pressure Bypass TimerN.A.1, 2, 3

: 5. LOSS OF POWER a. 4.16 kV Emergency Bus Under-voltage (Loss of Voltage)## N.A. N.A. 1, 2, 3, 4**, 5**

 

b. 4.16 kV Emergency Bus Under -

voltage (Degraded Voltage)   1, 2, 3, 4**, 5**

  (a) Frequencies are specified in the Surveillance Frequency Control Program unless otherwise noted in the table.

* When the system is required to be OPERABLE per Specification 3.5.2.DELETED  ** Required OPERABLE when ESF equipment is required to be OPERABLE.  

*** Not required to be OPERABLE when reactor steam dome pressure is less than or equal to 200 psig.  

   # Not required to be OPERABLE when reactor steam dome pressure is less than or equal to 100 psig.  

   ## Loss of Voltage Relay 127-11X is not field setable. LIMERICK - UNIT 1 3/4 3-41 Amendment No. 53, 186 INSTRUMENTATION  3/4.3.3.A  REACTOR PRESSURE VESSEL (RPV) WATER INVENTORY CONTROL (WIC) INSTRUMENTATION LIMITING CONDITION FOR OPERATION 3.3.3.A  The RPV Water Inventory Control (WIC) instrumentation channels shown in Table 3.3.3.A-1 shall be OPERABLE.

a. With one or more channels inoperable in a trip system, take the ACTION referenced in Table 3.3.3.A-1 for the trip system.

SURVEILLANCE REQUIREMENTS 4.3.3.1.A  Each RPV Water Inventory Control (WIC) instrumentation channel shall be demonstrated OPERABLE by performance of the CHANNEL CHECK, CHANNEL FUNCTIONAL TEST and LOGIC SYSTEM FUNCTIONAL TEST as shown in Table 4.3.3.A-1 and at the frequencies specified in the Surveillance Frequency Control Program unless otherwise noted in Table 4.3.3.A-1.  

TABLE 3.3.3.A-1 RPV WATER INVENTORY CONTROL (WIC) INSTRUMENTATION     MINIMUM OPERABLE      CHANNELS PER APPLICABLE        TRIP OPERATIONAL TRIP FUNCTION    FUNCTION CONDITIONS ACTION 1. CORE SPRAY SYSTEM a. Reactor Vessel Pressure - Low (Permissive) 6(a) 4, 5 39  b. Manual Initiation 2(a) 4, 5 40 2. LOW PRESSURE COOLANT INJECTION MODE OF RHR SYSTEM a. Injection Valve Differential Pressure - Low (Permissive) 1/valve(a) 4, 5 39  b. Manual Initiation 1(a) 4, 5 40 3. RHR SYSTEM SHUTDOWN COOLING MODE ISOLATION a. Reactor Vessel Water Level -

Low - Level 3   2 in one (b) 38 trip system  4. REACTOR WATER CLEANUP SYSTEM ISOLATION a. Reactor Vessel Water Level -

(a) Associated with an ECCS subsystem required to be OPERABLE by LCO 3.5.2, "REACTOR PRESSURE VESSEL (RPV) WATER INVENTORY CONTROL (WIC)."

(b) When automatic isolation of the associated penetration flow path(s) is credited in calculating DRAIN TIME.

LIMERICK - UNIT 1  3/4 3-41b  Amendment No.

TABLE 3.3.3.A-1 (Continued) RPV WATER INVENTORY CONTROL (WIC) INSTRUMENTATION ACTION STATEMENTS ACTION 38 - Declare the associated trip system for the penetration flow path(s) incapable of automatic isolation and calculate DRAIN TIME.

ACTION 39 - Within 1 hour, place channel in trip. Otherwise, declare associated low pressure ECCS injection/spray subsystem inoperable.

ACTION 40 - Within 24 hours, restore channel to OPERABLE status. Otherwise, declare associated low pressure ECCS injection/spray subsystem inoperable.

LIMERICK - UNIT 1 3/4 3-41c Amendment No.

 

 

TABLE 3.3.7.1-1 RADIATION MONITORING INSTRUMENTATION    MINIMUM CHANNELS APPLICABLE ALARM/TRIP  INSTRUMENTATION    OPERABLE CONDITIONS  SETPOINT  ACTION 

 

a. Criticality Monitors    1) Spent Fuel 2 (a)  5 mR/h and 20mR/h(b) 71    Storage Pool  b. Control Room Direct1 At All Times N.A.(b) 73  Radiation Monitor

 

 

TABLE 3.3.7.1-1 (Continued)  RADIATION MONITORING INSTRUMENTATION TABLE NOTATIONS   *When RECENTLY IRRADIATED FUEL is being handled in the secondary containment or during operations with a potential for draining the reactor vessel with the vessel head removed and fuel in the vessel.

(a) With fuel in the spent fuel storage pool.  

 

(b) Alarm only.  

 

ACTION STATEMENTS ACTION 70  - With one monitor inoperable, restore the inoperable monitor to the OPERABLE status within 7 days or, within the next 6 hours, initiate and maintain operation of the control room emergency filtration system in the radiation isolation mode of operation.

ACTION 71  - With one of the required monitor inoperable, assure a portable continuous monitor with the same alarm setpoint is OPERABLE in the vicinity of the installed monitor during any fuel movement.

ACTION 72  - With the required monitor inoperable, obtain and analyze at least one grab sample of the monitored parameter at least once per 24 hours.

ACTION 73  - With the required monitor inoperable, assure a portable alarming monitor is OPERABLE in the vicinity of the installed monitor or perform area surveys of the monitored area with portable monitor-ing instrumentation at least once per 24 hours.

LIMERICK - UNIT 1 3/4 3-65 Amendment No. 185 TABLE 4.3.7.1-1 RADIATION MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS             OPERATIONAL     CHANNEL   CONDITIONS FOR CHANNEL FUNCTIONAL   CHANNEL WHICH SURVEILLANCE INSTRUMENTATION   CHECK(c) TEST (c) CALIBRATION(c)   IS REQUIRED 1. Main Control Room Normal Fresh Air Supply Radiation Monitor   1, 2, 3, and

* 2. Area Monitors  

a. Criticality Monitors

1) Spent Fuel Storage    (a)

 

 

 

 

LIMERICK - UNIT 1 3/4 3-67 Amendment No. 185, 186 EMERGENCY CORE COOLING SYSTEMS 3/4 5.2  ECCS -- SHUTDOWN REACTOR PRESSURE VESSEL (RPV) WATER INVENTORY CONTROL (WIC)  LIMITING CONDITION FOR OPERATION 3.5.2 DRAIN TIME of RPV water inventory to the top of active fuel (TAF) shall be > 36 hours AND At least two one of the following shall be OPERABLE:    a. Core spray system (CSS) subsystems with a subsystem comprised of:    1. Two OPERABLE CSS pumps, and

 

 

 

APPLICABILITY:  OPERATIONAL CONDITIONS 4 and 5*. ACTION:

 

ACTION: c. With DRAIN TIME less than 36 hours and greater than or equal to 8 hours, within 4 hours: 1. Verify SECONDARY CONTAINMENT INTEGRITY is capable of being established in less than the DRAIN TIME, 2. Verify each secondary containment penetration flow path is capable of being isolated in less than the DRAIN TIME, and 3. Verify one standby gas treatment subsystem is capable of being placed in operation in less than the DRAIN TIME.

1. Initiate action to establish an additional method of water injection with water sources capable of maintaining RPV water level greater than TAF for greater than or equal to 36 hours,***  

: 2. Initiate action to establish SECONDARY CONTAINMENT INTEGRITY,   3. Initiate action to isolate each secondary containment penetration flow path or verify it can be manually isolated from the control room, and

: 4. Initiate action to verify one standby gas treatment subsystem is capable of being placed in operation.

: e. With required ACTION and associated allowed outage time for ACTIONs c. or d. not met, or DRAIN TIME less than 1 hour, initiate action to restore DRAIN TIME to greater than or equal to 36 hours.  

 

___________________________ ***The required injection/spray subsystem or an additional method of water injection shall be capable of operating without offsite electrical power.

 

LIMERICK - UNIT 1 3/4 5-6a Amendment No.

4.5.2.8 Verify the required ECCS injection/spray subsystem actuates on a manual initiation signal in accordance with the Surveillance Frequency Control Program.##  

*One LPCI subsystem may be considered OPERABLE during alignment and operation  for decay heat removal if capable of being manually realigned and not otherwise inoperableDELETED.  #Not required to be met for system vent flow paths open under administrative control.

^Except that an automatic valve capable of automatic return to its ECCS position when an ECCS signal is present may be in position for another mode of operation.  

##Vessel injection/spray may be excluded.

LIMERICK - UNIT 1 3/4 5-7 Amendment No. 95, 186 EMERGENCY CORE COOLING SYSTEMS  3/4.5.3 SUPPRESSION CHAMBER 

LIMITING CONDITION FOR OPERATION                                                  

3.5.3  The suppression chamber shall be OPERABLE:  

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

LIMERICK - UNIT 1 3/4 6-52 Amendment No. 29,40,185,186, 200 PLANT SYSTEMS 3/4.7.2 CONTROL ROOM EMERGENCY FRESH AIR SUPPLY SYSTEM - COMMON SYSTEM LIMITING CONDITION FOR OPERATION 3.7.2 Two independent control room emergency fresh air supply system subsystems shall be OPERABLE.  

 

NOTE: The main control room envelope (CRE) boundary may be opened intermittently under administrative control APPLICABILITY: All OPERATIONAL CONDITIONS and when RECENTLY IRRADIATED FUEL is being handled in the secondary containment, or during operations with a potential for draining the reactor vessel. ACTION:

a. In OPERATIONAL CONDITION 1, 2, or 3:

1. With one control room emergency fresh air supply subsystem inoperable for reasons other than Condition a.2, restore the inoperable subsystem to OPERABLE status within 7 days or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours.  

: 2. With one or more control room emergency fresh air supply subsystems inoperable due to an inoperable CRE boundary, a. Initiate action to implement mitigating actions immediately or be in HOT SHUTDOWN within 12 hours and in COLD SHUTDOWN within the following 24 hours; and

: b. Within 24 hours, verify mitigating actions ensure CRE occupant exposures to radiological and chemical hazards will not exceed limits and actions to mitigate exposure to smoke hazards are taken or be in HOT SHUTDOWN within 12 hours and in COLD SHUTDOWN within the following 24 hours; and

b. In OPERATIONAL CONDITION 4, 5, or when RECENTLY IRRADIATED FUEL is being handled in the secondary containment, or during operations with a potential for draining the reactor vessel:   1. With one control room emergency fresh air supply subsystems inoperable for reasons other than Condition b.3, restore the inoperable subsystem to OPERABLE status within 7 days or initiate and maintain operation of the OPERABLE subsystem in the radiation isolation mode of operation.

2. With both control room emergency fresh air supply subsystems inoperable for reasons other than Condition b.3, immediately suspend handling of RECENTLY IRRADIATED FUEL in the secondary containment and operations with a potential for draining the reactor vessel. The provisions of Specification 3.0.3 are not applicable.

LIMERICK - UNIT 1 3/4 7-6 Amendment No. 40,71,185,186, 188 PLANT SYSTEMS LIMITING CONDITION FOR OPERATION (Continued)

ACTION:  (Continued) 3. With one or more control room emergency fresh air subsystems inoperable due to an inoperable CRE boundary, immediately suspend handling of RECENTLY IRRADIATED FUEL in the secondary containment and operations with a potential for draining the reactor vessel. The provisions of Specification 3.0.3 are not applicable.

 

SURVEILLANCE REQUIREMENTS 4.7.2.1 Each control room emergency fresh air supply subsystem shall be demonstrated OPERABLE:  

 

a. In accordance with the Surveillance Frequency Control Program by verifying the control room air temperature to be less than or equal to 85°F effective temperature.

b. In accordance with the Surveillance Frequency Control Program on a STAGGERED TEST BASIS by initiating, from the control room, flow through the HEPA filters and charcoal adsorbers and verifying that the subsystem operates with the heaters OPERABLE.

c. In accordance with the Surveillance Frequency Control Program or (1) after any structural maintenance on the HEPA filter or charcoal adsorber housings, or (2) following painting, fire, or chemical release in any ventilation zone communicating with the subsystem by:

1. Verifying that the subsystem satisfies the in-place penetration and bypass leakage testing acceptance criteria of less than 0.05% and uses the test procedure guidance in Regulatory Positions C.5.a, C.5.c, and C.5.d of Regulatory Guide 1.52, Revision 2, March 1978, and the system flow rate is 3000 cfm +/- 10%.

2. Verifying within 31 days after removal that a laboratory analysis of a representative carbon sample obtained in accordance with Regulatory Position C.6.b of Regulatory Guide 1.52, Revision 2, March 1978, shows the methyl iodide penetration of less than 2.5%

 

LIMERICK - UNIT 1 3/4 7-7 Amendment No. 5,40,71,144,185, 186, 188 ELECTRICAL POWER SYSTEMS A.C. SOURCES - SHUTDOWN 

 

 

 

 

 

a. With less than the above required A.C. electrical power sources OPERABLE, suspend CORE ALTERATIONS, handling of irradiated fuel in the secondary containment, operations with a potential for draining the reactor vessel and crane operations over the spent fuel storage pool when fuel assemblies are stored therein. In addition, when in OPERATIONAL CONDITION 5 with the water level less than 22 feet above the reactor pressure vessel flange, immediately initiate corrective action to restore the required power sources to OPERABLE status as soon as practical.

b. The provisions of Specification 3.0.3 are not applicable.  

 

SURVEILLANCE REQUIREMENTS                                                      

 

4.8.1.2 At least the above required A.C. electrical power sources shall be demonstrated OPERABLE per Surveillance Requirements 4.8.1.1.1 and 4.8.1.1.2.  

                      *When handling irradiated fuel in the secondary containment.  

LIMERICK - UNIT 1 3/4 8-9 Amendment No. 32, 192, 193 ELECTRICAL POWER SYSTEMS LIMITING CONDITION FOR OPERATION (Continued)

 

 

 

 

LIMERICK - UNIT 1 3/4 8-14a Amendment No. 164 ELECTRICAL POWER SYSTEMS  LIMITING CONDITION FOR OPERATION (Continued)

a. With less than two divisions of the above required Unit 1 A.C. dis-tribution systems energized, suspend CORE ALTERATIONS and, handling of irradiated fuel in the secondary containment and operations with a potential for draining the reactor vessel. b. With less than two divisions of the above required Unit 1 D.C. dis-tribution systems energized, suspend CORE ALTERATIONS and, handling of irradiated fuel in the secondary containment and operations with a potential for draining the reactor vessel. c. With any of the above required Unit 2 and common AC and/or DC distribution system divisions not energized, declare the associated common equipment inoperable, and take the appropriate ACTION for that system.

d. The provisions of Specification 3.0.3 are not applicable.  

SURVEILLANCE REQUIREMENTS 4.8.3.2 At least the above required power distribution system divisions shall be determined energized in accordance with the Surveillance Frequency Control Program by verifying correct breaker alignment and voltage on the busses/MCCs/panels.  

 

LIMERICK - UNIT 1 3/4 8-20 Amendment No. 24, 186 INDEX   DEFINITIONS SECTION 1.0 DEFINITIONS  PAGE 1.1 ACTION ....................................................... 1-1 1.2 AVERAGE PLANAR EXPOSURE ...................................... 1-1 1.3 AVERAGE PLANAR LINEAR HEAT GENERATION RATE ................... 1-1 1.4 CHANNEL CALIBRATION .......................................... 1-1 1.5 CHANNEL CHECK ................................................ 1-1 1.6 CHANNEL FUNCTIONAL TEST ...................................... 1-1 1.7 CORE ALTERATION .............................................. 1-2 1.7A CORE OPERATING LIMITS REPORT ................................. 1-2 1.8 CRITICAL POWER RATIO ......................................... 1-2 1.9 DOSE EQUIVALENT I-131 ........................................ 1-2 1.9a DOWNSCALE TRIP SETPOINT (DTSP) ............................... 1-2 1.9b DRAIN TIME ................................................... 1-2 1.10 E-AVERAGE DISINTEGRATION ENERGY (DELETED) ................... 1-2a  1.11 EMERGENCY CORE COOLING SYSTEM (ECCS) RESPONSE TIME ........... 1-2a 1.12 END-OF-CYCLE RECIRCULATION PUMP TRIP SYSTEM RESPONSE TIME .... 1-3 1.13 (DELETED) .................................................... 1-3 1.14 (DELETED) .................................................... 1-3 1.15 FREQUENCY NOTATION ........................................... 1-3 1.15a HIGH (POWER) TRIP SETPOINT (HTSP) ............................ 1-3 1.16 IDENTIFIED LEAKAGE ........................................... 1-3 1.16a INTERMEDIATE (POWER) TRIP SETPOINT (ITSP) .................... 1-3 1.17 ISOLATION SYSTEM RESPONSE TIME ............................... 1-3 1.18 LIMITING CONTROL ROD PATTERN ................................. 1-3 1.19 LINEAR HEAT GENERATION RATE .................................. 1-3 1.20 LOGIC SYSTEM FUNCTIONAL TEST ................................. 1-4 

 

LIMERICK - UNIT 2 i Amendment No. 4, 48 INDEX  LIMITING CONDITIONS FOR OPERATION AND SURVEILLANCE REQUIREMENTS                   SECTION PAGE INSTRUMENTATION (Continued) 3/4.3.2 ISOLATION ACTUATION INSTRUMENTATION .......................... 3/4 3-9 Table 3.3.2-1 Isolation Actuation Instrumentation ...... 3/4 3-11   Table 3.3.2-2 Isolation Actuation Instrumentation Setpoints ................ 3/4 3-18   Table 3.3.2-3 Isolation System Instrumentation Response Time ............................ 3/4 3-23   Table 4.3.2.1-1 Isolation Actuation Instrumentation Surveillance Requirements .............. 3/4 3-27 3/4.3.3 EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION .............................................. 3/4 3-32 Table 3.3.3-1 Emergency Core Cooling System Actuation Instrumentation ................ 3/4 3-33 Table 3.3.3-2 Emergency Core Cooling System Actuation Instrumentation Setpoints ...... 3/4 3-37 Table 3.3.3-3 Emergency Core Cooling System Response Times ........................... 3/4 3-39 Table 4.3.3.1-1 Emergency Core Cooling System Actuation Instrumentation Surveillance Requirements .............. 3/4 3-40 3/4.3.3.A REACTOR PRESSURE VESSEL (RPV) WATER INVENTORY CONTROL (WIC) INSTRUMENTATION .............................................. 3/4 3-41a Table 3.3.3.A-1 RPV Water Inventory Control (WIC)

Instrumentation Surveillance Requirements 3/4 3-41e 3/4.3.4 RECIRCULATION PUMP TRIP ACTUATION INSTRUMENTATION ATWS Recirculation Pump Trip System Instrumentation .......... 3/4 3-42 Table 3.3.4.1-1 ATWS Recirculation Pump Trip System Instrumentation ................. 3/4 3-43 Table 3.3.4.1-2 ATWS Recirculation Pump Trip System Instrumentation Setpoints .............................. 3/4 3-44 Table 4.3.4.1-1 (Deleted) .............................. 3/4 3-45 End-of-Cycle Recirculation Pump Trip System Instrumentation .............................................. 3/4 3-46 LIMERICK - UNIT 2 vii Amendment No. 147 INDEX LIMITING CONDITIONS FOR OPERATION AND SURVEILLANCE REQUIREMENTS SECTION  PAGE  REACTOR COOLANT SYSTEM (Continued) 3/4.4.9 RESIDUAL HEAT REMOVAL

 

 

 

 

 

 

 

 

 

 

 

 

 

Drywell and Suppression Chamber Internal Pressure ................................................ B 3/4 6-2  

Drywell Average Air Temperature ........................... B 3/4 6-2  

Drywell and Suppression Chamber Purge System .............. B 3/4 6-2  

 

LIMERICK - UNIT 2 xx Amendment No. 160  Associated with Amendment 178 DEFINITIONS                                                                  _ CORE ALTERATION 1.7 CORE ALTERATION shall be the movement of any fuel, sources, or reactivity control components within the reactor vessel with the vessel head removed and fuel in the vessel. The following exceptions are not considered to be CORE ALTERATIONS:

a) Movement of source range monitors, local power range monitors, intermediate range monitors, traversing incore probes, or special moveable detectors (including undervessel replacement); and b) Control rod movement, provided there are no fuel assemblies in the associated core cell.

CRITICAL POWER RATIO 1.8 The CRITICAL POWER RATIO (CPR) shall be the ratio of that power in the assembly which is calculated by application of the (GEXL) correlation to cause some point in the assembly to experience boiling transition, divided by the actual assembly operating power. DOSE EQUIVALENT I-131 1.9 DOSE EQUIVALENT I-131 shall be that concentration of I-131, microcuries per gram, which alone would produce the same inhalation committed effective dose equivalent (CEDE) as the quantity and isotopic mixture of I-131, I-132, I-133, I-134, and I-135 actually present. The inhalation committed effective dose equivalent (CEDE) conversion factors used for this calculation shall be those listed in Table 2.1 of Federal Guidelines Report 11, "Limiting Values of Radionuclide Intake and Air Concentration and Dose Conversion Factors for Inhalation, Submersion, and Ingestion," ORNL, 1989, as described in Regulatory Guide 1.183. The factors in the column headed "effective" yield doses corresponding to the CEDE. DOWNSCALE TRIP SETPOINT (DTSP) 1.9a The downscale trip setpoint associated with the Rod Block Monitor (RBM) rod block trip setting.

DRAIN TIME 1.9b The DRAIN TIME is the time it would take for the water inventory in and above the Reactor Pressure Vessel (RPV) to drain to the top of the active fuel (TAF) seated in the RPV assuming: a) The water inventory above the TAF is divided by the limiting drain rate; b) The limiting drain rate is the larger of the drain rate through a single penetration flow path with the highest flow rate, or the sum of the drain rates through multiple penetration flow paths LIMERICK - UNIT 2 1-2 Amendment No. 4, 48, 49, 136, 146 DEFINITIONS                                                                       DRAIN TIME (Continued) susceptible to a common mode failure (e.g., seismic event, loss of normal power, single human error), for all penetration flow paths below the TAF except:  

: 1. Penetration flow paths connected to an intact closed system, or isolated by manual or automatic valves that are locked, sealed, or otherwise secured in the closed position, blank flanges, or other devices that prevent flow of reactor coolant through the penetration flow paths; 2. Penetration flow paths capable of being isolated by valves that will close automatically without offsite power prior to the RPV water level being equal to the TAF when actuated by RPV water level isolation instrumentation; or 3. Penetration flow paths with isolation devices that can be closed prior to the RPV water level being equal to the TAF by a dedicated operator trained in the task, who is in continuous communication with the control room, is stationed at the controls, and is capable of closing the penetration flow path isolation device without offsite power. c) The penetration flow paths required to be evaluated per paragraph b) are assumed to open instantaneously and are not subsequently isolated, and no water is assumed to be subsequently added to the RPV water inventory; d) No additional draining events occur; and e) Realistic cross-sectional areas and drain rates are used.

A bounding DRAIN TIME may be used in lieu of a calculated value. 1.10 (Deleted)

Times shall include diesel generator starting and sequence loading delays where applicable. The response time may be measured by any series of sequential, overlapping or total steps such that the entire response time is measured.  

 

LIMERICK - UNIT 2 1-2a Amendment No. 4, 48, 49, 136, 146 TABLE 3.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION                      MINIMUM APPLICABLE ISOLATION    OPERABLE CHANNELS OPERATIONAL TRIP FUNCTION SIGNAL(a),(c) PER TRIP SYSTEM (b)    CONDITION  ACTION 

 

 

 

 

 

 

 

 

 

TABLE 3.3.2-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION ACTION STATEMENTS ACTION 20 - Be in at least HOT SHUTDOWN within 12 hours and in COLD SHUTDOWN within the next 24 hours.

ACTION 21 - Be in at least STARTUP with the associated isolation valves closed within 6 hours or be in at least  HOT SHUTDOWN within 12 hours and in COLD SHUTDOWN within the next 24 hours.

ACTION 22  - Be in at least STARTUP within 6 hours.  

 

ACTION 23 - In OPERATIONAL CONDITION 1 or 2, verify the affected system isolation valves are closed within 1 hour and declare the affected system inoperable. In OPERATIONAL CONDITION  3, be in at least COLD SHUTDOWN within 12 hours.

ACTION 24 - Restore the manual initiation function to OPERABLE status within 8 hours or close the affected system isolation valves within the next hour and declare the affected system inoperable or be in at least HOT SHUTDOWN within the next 12 hours and in COLD SHUTDOWN within the following 24 hours.

ACTION 25 - Establish SECONDARY CONTAINMENT INTEGRITY with the standby gas treatment system operating within 1 hour.

ACTION 26 - Close the affected system isolation valves within 1 hour.  

* Required when (1) handling RECENTLY IRRADIATED FUEL in the secondary containment, or (2) during operations with a potential for draining the reactor vessel with the vessel head removed and fuel in the vessel.   ** May be bypassed under administrative control, with all turbine stop valves closed.  

# During operation of the associated Unit 1 or Unit 2 ventilation exhaust system.  

(a) DELETED

(b) A channel may be placed in an inoperable status for up to 6 hours for required surveillance without placing the trip system in the tripped condition provided at least one OPERABLE channel in the same trip system is monitoring that parameter. Trip functions common to RPS Actuation Instrumentation are shown in Table 4.3.2.1-1. In addition, for the HPCI system and RCIC system isolation, provided that the redundant isolation valve, inboard or outboard, as applicable, in each line is OPERABLE and all required actuation instrumentation for that valve is OPERABLE, one channel may be placed in an inoperable status for up to 8 hours for required surveillance without placing the channel or trip system in the tripped condition.   

LIMERICK - UNIT 2 3/4 3-16 Amendment No. 17, 32, 107, 146 TABLE 4.3.2.1-1 (Continued) ISOLATION ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS    CHANNEL      OPERATIONAL CHANNEL FUNCTIONAL   CHANNEL CONDITIONS FOR WHICH TRIP FUNCTION CHECK(a)  TEST(a)   CALIBRATION(a) SURVEILLANCE REQUIRED 

: 7. SECONDARY CONTAINMENT ISOLATION  a. Reactor Vessel Water Level Low, Low - Level 2     1, 2, 3

b. Drywell Pressure## - High    1, 2, 3  

 

 

 

d. Reactor Enclosure Ventilation Exhaust Duct Radiation - High    1, 2, 3  

 

 

 

g. Reactor Enclosure Manual Initiation N.A. N.A. 1, 2, 3

 

 

 

LIMERICK - UNIT 2 3/4 3-31 Amendment No. 17, 32, 52, 74, 146, 147 TABLE 3.3.3-1   EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION MINIMUM OPERABLE    CHANNELS PER APPLICABLE        TRIP OPERATIONAL TRIP FUNCTION FUNCTION(a) CONDITIONS  ACTION 

 

1. CORE SPRAY SYSTEM***

a. Reactor Vessel Water Level - Low Low Low, Level 1 2/pump(b) 1, 2, 3, 4*, 5* 30  b. Drywell Pressure - High 2/pump(b) 1, 2, 3, 30 c. Reactor Vessel Pressure - Low (Permissive) 6(b) 1, 2, 3 31      4*, 5* 32  d. Manual Initiation 2(e) 1, 2, 3, 4*, 5* 33  2. LOW PRESSURE COOLANT INJECTION MODE OF RHR SYSTEM***

a. Reactor Vessel Water Level - Low Low Low, Level 1 2 1, 2, 3, 4*, 5* 30  b. Drywell Pressure - High 2 1, 2, 3 30  c. Reactor Vessel Pressure - Low (Permissive) 2 1, 2, 3 31 d. Injection Valve Differential Pressure-Low 1/valve 1, 2, 3, 4*, 5* 31                                  (Permissive)  e. Manual Initiation 1 1, 2, 3, 4*, 5* 33  3. HIGH PRESSURE COOLANT INJECTION SYSTEM##

a. Reactor Vessel Water Level - Low Low, Level 2 4 1, 2, 3 34 b. Drywell Pressure - High### 4 1, 2, 3 34  c. Condensate Storage Tank Level - Low 2(c) 1, 2, 3 35  d. Suppression Pool Water Level - High 2 1, 2, 3 35 e. Reactor Vessel Water Level - High, Level 8 4(d) 1, 2, 3 31  f. Manual Initiation### 1/system 1, 2, 3 33 

 

LIMERICK - UNIT 2 3/4 3-33 Amendment No. 185 TABLE 3.3.3-1 (Continued)  EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION  TABLE NOTATIONS 

 

(a) A channel may be placed in an inoperable status for up to 6 hours for required surveillance without placing the trip system in the tripped condition provided at least one OPERABLE  channel in the same trip system is monitoring that parameter.

 

(e) The manual initiation push buttons start the respective core spray pump and diesel generator. The "A" and "B" logic manual push buttons also actuate an initiation permissive in the injection valve opening logic.

(f) A channel as used here is defined as the 127 bus relay for Item 1 and the 127, 127Y, and 127Z feeder relays with their associated time delay relays taken together for Item 2.

* When the system is required to be OPERABLE per Specification 3.5.2.DELETED  # Not required to be OPERABLE when reactor steam dome pressure is less than or equal to 100 psig. 

 

 

LIMERICK - UNIT 2 3/4 3-35 Amendment No. 17, 185 TABLE 3.3.3-1 (Continued)  EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION  ACTION STATEMENTS ACTION 30 - With the number of OPERABLE channels less than required by the Minimum OPERABLE Channels per Trip Function requirement:

ACTION 34 - With the number of OPERABLE channels less than required by the Minimum OPERABLE Channels per Trip Function requirement:

a. For one channel inoperable, place the inoperable channel in the tripped condition within 24 hours or declare the HPCI system inoperable.

LIMERICK - UNIT 2 3/4 3-36 Amendment No. 17, 120 TABLE 4.3.3.1-1   EMERGENCY CORE COOLING SYSTEM ACTUATION INSTRUMENTATION SURVEILLANCE REQUIREMENTS

 

CHANNEL OPERATIONAL CHANNEL FUNCTIONAL   CHANNEL CONDITIONS FOR WHICH TRIP FUNCTION CHECK(a) TEST (a) CALIBRATION(a) SURVEILLANCE REQUIRED

 

 

a. Reactor Vessel Water Level -

Low Low Low, Level 1   1, 2, 3 b. Drywell Pressure - High   1, 2, 3 c. ADS Timer N.A. 1, 2, 3 d. Core Spray Pump Discharge Pressure - High   1, 2, 3 e. RHR LPCI Mode Pump Discharge Pressure - High   1, 2, 3 f. Reactor Vessel Water Level - Low, Level 3   1, 2, 3 g. Manual Initiation N.A. N.A. 1, 2, 3 h. ADS Drywell Pressure Bypass Timer N.A. 1, 2, 3  

: 5. LOSS OF POWER a. 4.16 kV Emergency Bus Under voltage (Loss of Voltage)## N.A. N.A. 1, 2, 3, 4**, 5**  

 

b. 4.16 kV Emergency Bus Under-voltage (Degraded Voltage)   1, 2, 3, 4**, 5**                       (a) Frequencies are specified in the Surveillance Frequency Control Program unless otherwise noted in the table.

* When the system is required to be OPERABLE per Specification 3.5.2.DELETED  ** Required OPERABLE when ESF equipment is required to be OPERABLE. *** Not required to be OPERABLE when reactor steam dome pressure is less than or equal to 200 psig.  

   # Not required to be OPERABLE when reactor steam dome pressure is less than or equal to 100 psig.  

   ## Loss of Voltage Relay 127-11X is not field setable.