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#REDIRECT [[RS-18-009, License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System]]
| number = ML18024A275
| issue date = 01/24/2018
| title = LaSalle County Station, Units 1 and 2 - License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System
| author name = Gullott D M
| author affiliation = Exelon Generation Co, LLC
| addressee name =
| addressee affiliation = NRC/Document Control Desk, NRC/NRR
| docket = 05000373, 05000374
| license number = NPF-011, NPF-018
| contact person =
| case reference number = RS-18-009
| document type = Letter, License-Application for Facility Operating License (Amend/Renewal) DKT 50, Technical Specification, Bases Change
| page count = 41
| project =
| stage = Request
}}
 
=Text=
{{#Wiki_filter:~- 4300 Winfield Road Warrenville, IL 60555 AMMUMIr Amo - Exe Lon  G  630 657 2000 Office RS-18-009 10 CFR 50.90 January 24, 2018 U.S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555-001 LaSalle County Station, Units 1 and 2 Renewed Facility Operating License Nos. NPF-11 and NPF-18 NRC Docket Nos. 50-373 and 50-374
 
==Subject:==
License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System In accordance with 10 CFR 50.90, "Application for amendment of license, construction permit, or early site permit," Exelon Generation Company, LLC (EGC), requests an amendment to Renewed Facility Operating License Nos. NPF-11 and NPF-18 for LaSalle County Station (LSCS), Units 1 and 2, respectively.
The proposed changes modify Technical Specifications (TSs) 3.7.2, "Diesel Generator Cooling Water (DGCW) System;" 3.8.1, "AC Sources-Operating;" and the associated TS Bases. The proposed changes allow an extended period to install isolation valves to support replacing degraded Core Standby Cooling System piping. provides an evaluation of the proposed change. Attachment 2 provides supporting figures for the evaluation. Attachment 3 provides the existing TS pages marked up to show the proposed changes. Attachment 4 provides the existing TS Bases pages marked up to show the proposed changes. The proposed Bases changes are provided for information only. EGC requests approval of the proposed license amendment by January 24, 2019 in advance of LSCS Refueling Outage L2R17. Once approved, the amendment shall be implemented within 30 days. The proposed changes have been reviewed and approved by the LSCS Plant Operations Review Committee in accordance with the requirements of the EGC Quality Assurance Program.
January 24, 2018 U.S. Nuclear Regulatory Commission Page 2 In accordance with 10 CFR 50.91, "Notice for public comment; State consultation," paragraph (b), EGC is notifying the State of Illinois of this application for license amendment by transmitting a copy of this application, with attachments, to the designated Illinois Official.
There are no regulatory commitments contained within this letter. Should you have any questions concerning this letter, please contact Ryan Sprengel at (630) 657-2814.
1 declare under penalty of perjury that the foregoing is true and correct. Executed on the 24'h day of January 2018.
Respectfully, David M. Gullott Manager - Licensing Exelon Generation Company, LLC Attachments:
: 1. Evaluation of Proposed Changes
: 2. Supporting Figures
: 3. Proposed Technical Specification Changes for LaSalle County Station, Units 1 and 2
: 4. Proposed Technical Specification Bases Changes for LaSalle County Station, Units 1 and 2 cc: NRC Regional Administrator, Region III, USNRC NRC Senior Resident Inspector - LaSalle County Station Illinois Emergency Management Agency - Division of Nuclear Safety ATTACHMENT 1 Evaluation of Proposed Changes Page 1 of 17 
 
==Subject:==
License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System  1.0
 
==SUMMARY==
DESCRIPTION
 
===2.0 DETAILED===
DESCRIPTION
 
===2.1 SYSTEM===
DESIGN AND OPERATION
 
===2.2 CURRENT===
TECHNICAL SPECIFICATIONS REQUIREMENTS
 
===2.3 DESCIPTION===
OF THE PROPOSED CHANGE
 
===2.4 REASON===
FOR THE PROPOSED CHANGE
 
==3.0 TECHNICAL EVALUATION==
 
3.1 DEFENSE-IN-DEPTH  3.2 CONFIGURATION RISK MANAGEMENT PROGRAM
 
===3.3 DIESEL===
GENERATOR IMPACT
 
==4.0 REGULATORY EVALUATION==
 
===4.1 APPLICABLE===
REGULATORY REQUIREMENTS/CRITERIA  4.2 PRECEDENT  4.3 NO SIGNIFICANT HAZARDS CONSIDERATION DETERMINATION
 
==4.4 CONCLUSION==
S
 
==5.0 ENVIRONMENTAL CONSIDERATION==
 
==6.0 REFERENCES==
 
ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 2 of 17  1.0
 
==SUMMARY==
DESCRIPTION In accordance with 10 CFR 50.90, "Application for amendment of license, construction permit, or early site permit," Exelon Generation Company, LLC (EGC), requests an amendment to Renewed Facility Operating License Nos. NPF
-11 and NPF
-18 for LaSalle County Station (LSCS), Units 1 and 2, respectively.
 
The proposed changes modify Technical Specification s (TS s) 3.7.2, "Diesel Generator Cooling Water (DGCW) System;" 3.8.1, "AC Sources
-Operating;" and the associated TS Bases. The proposed changes allow an extended period to install isolation valves to support replacing degraded Core Standby Cooling System (CSCS) piping.
 
===2.0 DETAILED===
DESCRIPTION The proposed changes modify TS 3.7.2 to include a 7 day Completion Time (CT) when one or more required DGCW subsystem(s) are inoperable.
The proposed changes to TS 3.8.1 include a 7 day CT when a Division 2 Diesel Generator (DG) and the required opposite unit Division 2 DG are inoperable.
Th e proposed change s will only be used during four refueling outages, two for Unit 1 prior to July 1, 2024, and two for Unit 2 prior to July 1, 2023.
The current planned schedule, subject to change, is L2R17 (2019), L1R18 (2020), L2R18 (2021), and L1R19 (2022).
The TS 3.8.1 changes would only be applicable for Division 2 work and would only be used during two refueling outages, one for Unit 1 prior to July 1, 2024, and one for Unit 2 prior to July 1, 2023. The current planned schedule for the Division 2 work, subject to change, is L2R17 (2019) and L1R19 (2022).
 
===2.1 SYSTEM===
DESIGN AND OPERATION The function of the Core Standby Cooling System (CSCS) is to circulate lake water from the ultimate heat sink for cooling of the Residual Heat Removal (RHR) heat exchangers, DG coolers, CSCS cubicle area cooling coils, RHR pump seal coolers, and Low-Pressure Core Spray (LPCS) pump motor cooling coils.
This system also provides a source of emergency makeup water for fuel pool cooling and provides containment flooding water for post-accident recovery.
CSCS is equivalent in purpose to the essential service water cooling systems at other stations. The CSCS for each unit consists of three independent piping subsystems corresponding to the three essential electrical power supply divisions for each unit. All pumps and strainers are located in the basements of the buildings within watertight cubicles to provide separation between divisions and flood protection. Outdoor CSCS piping is buried to provide tornado and missile protection.
CSCS subsystems take a suction from the service water tunnel located in the basement of the Lake Screen House. The service water tunnel is kept full by six inlet lines which connect to the circulating water pump forebays
. Division 1 of each unit includes two RHR service water (RHRSW) pumps which supply cooling water to the Division 1 RHR heat exchanger and RHR pump seal cooler. The fuel pool emergency makeup pump in Division 1 of each unit supplies a source of emergency makeup ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 3 of 17  water to the spent fuel pool. Also included in Division 1 of Unit 1 is a DG CW pump which supplies cooling water to the Division 1 DG, Unit 1 and 2 LPCS pump motor coolers, and Units 1 and 2 Division 1 CSCS area coolers. Electrical power for operation of these pumps is supplied from Division 1 essential power.
Two RHRSW pumps are also provided in Division 2 of each unit to supply cooling water to the Division 2 RHR heat exchanger and the two Division 2 RHR pump seal coolers. The DGCW pump in Division 2 of each unit supplies cooling water to the Division 2 DG and to the Division 2 CSCS area cooler. The Division 2 fuel pool emergency makeup pump provides a redundant source of emergency makeup water to the spent fuel pool and provides a source of containment flooding water to the RHR system for post
-accident recovery.
Electrical power for these pumps is supplied from Division 2 essential power.
Both the High Pressure Core Spray (HPCS) DG and the Division 3 CSCS area cooler are supplied with cooling water by the Division 3 HPCS DG CW pump. Electrical power for this pump is supplied from Division 3 essential power.
Each of the six CSCS divisions across the two units is configured with a separate suction pipe from the service water tunnel. The CSCS discharge pipes are combined into a common discharge for identical divisions of both Units 1 and 2. The discharge pipe outlets at the CSCS cooling pond are located above the normal cooling lake level.
Redundancy is provided by designing the CSCS system as m u l t i p l e independent subsystems. Separation between subsystems assures that no single failure can affect more than one subsystem. Therefore, assuming a single failure in any subsystem including the subsystem shared between units, two subsystems in each unit will remain unaffected. These two subsystems can supply the minimum required cooling water for safe shutdown of a unit or mitigate the consequences of an accident.
Each Engineered Safety Features (ESF) Division has a DG that serves as an independent onsite power source in the event of the simultaneous occurrence of a total Loss of Offsite Power (LOOP) and a loss of the unit auxiliary power system. The DGs have ample capacity to supply all power required for the safe shutdown of both units in the event of a total loss of offsite power, a Loss of Coolant Accident (LOCA) on one unit concurrent with the shutdown of a unit without a LOCA, or a concurrent shutdown of both units without LOCAs.
 
The RHR system has three functional modes, each of which contributes towards satisfying the design basis of the system.
The different modes of RHR operation include:
* Shutdown Cooling Reactor Pressure Vessel Head Spray
* Low Pressure Coolant Injection (LPCI) Mode
* Containment Cooling Mode (Suppression Pool Cooling and Containment Spray)  The LPCS system's primary function is to provide low pressure core spray to mitigate the effects of an intermediate and large break LOCAs.
 
ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 4 of 17  2.2 CURRENT TECHNICAL SPECIFICATIONS REQUIREMENTS The current TS LCO 3.7.2 requires that three DGCW subsystems; and the opposite unit Division 2 DGCW subsystem be operable in Modes 1, 2, and 3
. Condition A currently requires that with one or more DGCW subsystems inoperable, immediately declare the supported component(s) inoperable
. The current TS LCO 3.8.1 requires two qualified circuits, three DGs , and the required opposite unit DG be operable in Modes 1, 2, and 3.
Condition B currently allows one Division 2 DG or the required opposite unit Division 2 DG to be inoperable with a CT of 14 days. Condition C currently allows both units' Division 2 DGs to be inoperable with a CT of 72 hours. Condition F currently allows both units' Division 2 DGs to be inoperable with a CT of 2 hours.
 
==2.3 DESCRIPTION==
OF THE PROPOSED CHANGE The proposed change adds two notes to TS 3.7.2 Condition A stating that the Condition is not applicable to Division 1 or 2, respectively, during the installation of CSCS isolation valves during Unit 1 refueling outages prior to July 1, 2024, and during Unit 2 refueling outages prior to July 1, 2023. For Unit 1, the two uses, once for Division 1 and once for Division 2, would occur during Refueling Outages 18, 19, or 20. For Unit 2, the two uses, once for Division 1 and once for Division 2, would occur during Refueling Outages 17, 18, or 19. Either Division 1 or Division 2 CSCS isolation valve installation will be performed on the outage unit during a single refueling outage and the note may not be used in subsequent outages for the same unit and division. Two new Conditions are added to TS 3.7.2 to facilitate the requested CT. The first new Condition addresses the inoperability of one or more DGCW subsystems with a CT of 7 days (for Division 1 and 2 CSCS isolation valve installations
). This proposed CT of 7 days will only be applicable during two Unit 1 Refueling Outages prior to July 1, 2024, and two Unit 2 Refueling Outages prior to July 1, 2023. The applicability is described in two notes to the proposed TS 3.7.2 Condition B. The second new Condition added to TS 3.7.2, Condition C, is to address if the Required Action and associated CT previously discussed is not met. The proposed Required Action and CT is to be in Mode 3 and Mode 4, in 12 and 36 hours, respectively.
The two notes added to TS 3.7.2 Condition A and the proposed Condition B restrict the applicability and use of the extended CT requested to install CSCS isolation valves. The period of applicability is only during the refueling outages prior to identified cutoff dates, to be used once for each division on each unit (four times in total), and is during the periods when the DGCW is inoperable due to use of a nonconforming line stop. The two notes added to TS 3.7.2 Condition A and proposed Condition B are not intended for use when any DGCW subsystem is inoperable for any other reason. This intent and direction is included in the associated TS Bases for the proposed Condition B (Attachment 4). In accordance with TS LCO 3.0.1 the components supported by inoperable DGCW subsystems will be declared inoperable; however, the CTs of the LCO Required Actions of the supported systems are not of sufficient duration to allow completion of the work evolution. TS LCO 3.0.6 requires entry into the supported system Conditions and Required Actions pursuant to TS LCO 3.0.2 when the support system's Required Actions direct the supported system to be declared inoperable. By adding the proposed 7 day CT for one or more inoperable DGCW subsystem s ,
ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 5 of 17  the allowances of TS LCO 3.0.6 can be utilized to defer entry into the supported system Conditions and Required Actions and the duration of the inoperability will be controlled by the support system LCO Actions. The proposed Condition B and C added to TS 3.7.2 supplements the CT by adding an end state for the proposed Required Action CTs.
The proposed change adds a note to TS 3.8.1 Condition C stating that the respective Condition s are not applicable to the Division 2 DGs during the installation of CSCS isolation valves during a Unit 1 refueling outage prior to July 1, 2024, and during a Unit 2 refueling outage prior to July 1, 2023. For Unit 1, the use would occur during Refueling Outages 18, 19, or 20. For Unit 2 use would occur during Refueling Outages 17, 18, or 19.
The proposed change adds a note to TS 3.8.1 Condition F stating that the respective Conditions are not applicable during the installation of CSCS isolation valves during a refueling outage for each unit prior to the cutoff dates. A new Condition is added to TS 3.
8.1 to facilitate the requested CT. The new proposed Condition G addresses the inoperability of both units' Division 2 DGs with a CT of 7 days (for Division 2 CSCS isolation valve installations). This proposed CT of 7 days will only be applicable during a single Unit 1 Refueling Outage prior to July 1, 2024, and a single Unit 2 Refueling Outage prior to July 1, 2023
. The applicability is described i n a note to the proposed TS 3.7.2 Condition G. The current Conditions G and H, and corresponding Required Actions, are proposed to be re
-numbered as H and I, respectively
. The two notes added to TS 3.8.1 Conditions C and F, and proposed new Condition G restrict the applicability and use of the extended CT requested to install CSCS isolation valves. The period of applicability is only during the refueling outages prior to identified cutoff dates, to be used one-time for each unit, and is during the periods when the Division 2 DGs are inoperable due to use of a nonconforming line stop. The two notes added to TS 3.8.1 Conditions C and F, and proposed new Condition G are not intended for use when both Division 2 DG s are inoperable for any other reason. This intent and direction is included in the associated TS Bases for TS 3.8.1 Conditions C and F, and proposed new Condition G.
Describing each change:
The existing Condition A for TS 3.7.2 is modified by note s which state: 1. Not applicable to Division 1 during installation of the Division 1 CSCS isolation valves during a single Unit 1 Refueling Outage completed prior to July 1, 2024, and during a single Unit 2 Refueling Outage completed prior to July 1, 2023 while the outage unit is in MODE 4,5, or defueled.
: 2. Not applicable to Division 2 during installation of the Division 2 CSCS isolation valves during a single Unit 1 Refueling Outage completed prior to July 1, 2024, and during a single Unit 2 Refueling Outage completed prior to July 1, 2023, while the outage unit is in MODE 4,5, or defueled.
A new Condition B for TS 3.7.2 is added. The Condition states "One or more DGCW subsystems inoperable
."  The new Condition B is modified by note s which state:
: 1. Only applicable to Division 1 during installation of the Division 1 CSCS isolation valves during a single Unit 1 Refueling Outage completed prior to July 1, 2024, and during a single Unit 2 Refueling Outage completed prior to July 1, 2023, while the outage unit is in MODE 4,5, or defueled.
 
ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 6 of 17  2. Only applicable to Division 2 during installation of the Division 2 CSCS isolation valves during a single Unit 1 Refueling Outage completed prior to July 1, 2024, and during a single Unit 2 Refueling Outage completed prior to July 1, 2023, while the outage unit is in MODE 4,5, or defueled.
Required Action B.1 requires restoring DGCW subsystem to Operable status with a 7 day CT. A new Condition C for TS 3.7.2 is added. The Condition states "Required Action and associated Completion Time of Condition B not met."  Required Action C.1 requires being in Mode 3 within 12 hours. Required Action C.2 requires being in Mode 4 within 36 hours. The two Required Actions are linked with the logical connector "AND."  The existing Condition C for TS 3.8.1 is modified by a note which state s: 1. Not applicable to the Division 2 DG and the opposite unit Division 2 DG during installation of the Division 2 CSCS isolation valve s during a single Unit 1 Refueling Outage completed prior to July 1, 2024, and during a single Unit 2 Refueling Outage completed prior to July 1, 2023, while the outage unit is in MODE 4,5, or defueled.
The existing Condition F for TS 3.8.1 is modified by a note which state s: 1. Not applicable during installation of the Division 2 CSCS isolation valve s during a single Unit 1 Refueling Outage completed prior to July 1, 2024, and during a single Unit 2 Refueling Outage completed prior to July 1, 2023, while the outage u nit is in MODE 4,5, or defueled
. A new Condition G for TS 3.8.1 is added. The Condition states "Division 2 DG and the required opposite unit Division 2 DG inoperable."  The new Condition G is modified by a note which state s: 1. Only applicable during installation of the Division 2 CSCS isolation valve s during a single Unit 1 Refueling Outage completed prior to July 1, 2024, and during a single Unit 2 Refueling Outage completed prior to July 1, 2023, while the outage unit is in MODE 4,5, or defueled.
Required Action G.1 requires restoring required Division 2 DG to Operable status with a 7 day CT. The current Condition G is modified to Condition H. The corresponding Required Action G.1 is modified to H.1.
The current Condition H is modified to Condition I. The corresponding Required Action H.1 is modified to I.1.
The proposed changes to the TS are shown in the mark
-up pages (Attachment 3
). In addition, an informational copy of t he associated TS Bases pages with marked
-up changes is provided (Attachment 4).
ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 7 of 17  2.4 REASON FOR THE PROPOSED CHANGE The portion of DGCW return piping to be replaced is directly connected to the lake and below normal cooling lake level, replacement will require isolation. Isolation will be accomplished by hot tapping, installing temporary line stops (stopples), and then installing new isolation valves. The replacement of DGCW piping is a prudent and proactive action to enhance the reliability of the Unit 1 and Unit 2 CSCS.
Based on historical data and best work planning estimates, completing installation of new isolation valves for a Division of CSCS cannot be assured with the existing CTs for applicable TS. The requested CTs of 7 days will allow sufficient time to complete the installation of new isolation valves. After installing and testing the isolation valves, the pressure boundary will be conforming and Operability will be restored, after which the DGCW return piping replacement will continue upstream of the new isolation valves.
 
==3.0 TECHNICAL EVALUATION==
 
The CSCS is classified as Code Class 3 and is subject to American Society of Mechanical Engineers (ASME) Boiler & Pressure Vessel (B&PV) Code Section III, Class 3 requirements.
However, the line stop s (stopples) that will be utilized to provide isolation until the new isolation valves are installed are non
-Code, see Attachment 2 Figures 5 and 6
. During the time the non-Code line stops are used to provide isolation, the affected DGCW subsystem along with the connected RHRSW subsystem will be declared inoperable, see Attachment 2 Figures 1 through 4. The operating unit's subsystems will also be declared inoperable due to common discharge lines within each division. Although inoperable, the use of non
-Code line stops is intended to maintain availability of the affected CSCS subsystem, including the Emergency Core Cooling System (ECCS) and DG systems support ed in both units. Attachment 2 Figures 1 through 4 are simplified sketches identifying which lines and components will be inoperable and available.
The portions of the hot tap hardware permanently attached to the piping will meet Code requirements.
The portion of the DGCW return piping which will be replaced will be inoperable and unavailable until replacement and testing is completed , th e line s to be replaced and the connected Cooler(s) are shown in Attachment 2 Figures 1 through 4
. The non-Code line stops being used to isolate the system during the specified refueling outages are being designed to the same o r g r e a t e r pressure rating and seismic requirements as the CSCS piping. Attachment 2 Figure 5 shows a representative image of a branch line stop (stopple), planned for use on Unit 2 Division 1. Attachment 2 Figure 6 shows a representative image of a through wall line stop (stopple), planned for use on Unit 1 Division 1, Unit 1 Division 2, and Unit 2 Division 2.
The figures in Attachment 2 represent the a n t i c i p a t e d line stop placements, if t h e p r e f e r r e d through wall line stop becomes impractical, a branch line stop may be used. The planned maintenance will result in the inoperability of:
* The DGCW subsystem
, and will require entry into TS 3.7.2 Condition A.
* DGs , and will require entry into TS 3.8.1 Condition B, Condition C and Condition F, as applicable, due to the inoperability of both units' Division DGs. Only one divisional DG per unit will be inoperable at any time.
* The RHRSW subsystem and will require entry into TS 3.7.1 Condition A.
 
ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 8 of 17
* RHRSW supported Suppression Pool cooling and pool spray systems and will require entry into TS 3.6.2.3 Condition A and TS 3.6.2.4 Condition A.
* DGCW supported ECCS systems and will require entry into TS 3.5.1 Condition A and Condition B.
* DGCW supported Reactor Core Isolation Cooling system (RCIC) and will require entry into TS 3.5.3 Condition A (Division 1 only)
. The planned maintenance will be performed during scheduled refueling outages. The current CTs for TS 3.7.1 Condition A and TS 3.8.1 Condition B are sufficient to permit the planned work.
Because the affected DGCW and RHRSW subsystems of CSCS will remain available there is no impact on the LSCS risk profile.
3.1 DEFENSE-IN-DEPTH  During the individual CSCS work windows, the at
-power unit is considered to have adequate defense-in-depth. Although the use of non
-Code line stops will require that the DGCW and RHRSW subsystems of CSCS be considered inoperable, they will remain available.
The CSCS defense-in-depth can be illustrated by a review of the affected subsystems and the systems/equipment available to fulfill safety functions (refer to Table 1). As can be seen from this review, only one division of DGs and ECCS subsystems per unit will be affected.
Even though inoperable, they will remain available.
Only the area cooler serviced by the line being replaced will be inoperable and unavailable.
Table 2 identifies the supported systems impacted during work affecting each division. As shown, a maximum of two ECCS systems per operating unit will be inoperable at any time.
 
ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 9 of 17  Table 1 - Defense-in-Depth Assessment of Planned CS CS Maintenance Outage Planned Work Affected Subsystems (Inoperable/Available)
System/Equipment Remaining (Operable)
Unit 1, Division 1 Install new isolation valve in line 1DG23B
-6" adjacent to line 1RH83BA-24". U-0, Div-1 DGCW U-0, Div-1 DG 0DG01A U-1, Div-1 RHRSW  U-0, Div-1 DGCW U-0, Div-1 DG 0DG01A U-2, Div-1 RHRSW U-1, Div-2 DGCW U-1, Div-2 DG 1DG01A U-1, Div-2 RHRSW U-2, Div-2 DGCW U-2, Div-2 DG 2DG01A U-2, Div-2 RHRSW Unit 1, Division 2 Install new isolation valve in line 1DG06A
-4" adjacent to line 1RH83BB-24". U-1, Div-2 DGCW U-1, Div-2 DG 1DG01A U-1, Div-2 RHRSW  U-2, Div-2 DGCW U-2, Div-2 DG 2DG01A U-2, Div-2 RHRSW U-0, Div-1 DGCW U-0, Div-1 DG 0DG01A U-1, Div-1 RHRSW U-0, Div-1 DGCW U-0, Div-1 DG 0DG01A U-2, Div-1 RHRSW Unit 2, Division 1 Install new isolation valve in line 2DG23B
-6" adjacent to line 2RH83BA-24". U-0, Div-1 DGCW U-0, Div-1 DG 0DG01A U-2, Div-1 RHRSW  U-0, Div-1 DGCW U-0, Div-1 DG 0DG01A U-1, Div-1 RHRSW U-2, Div-2 DGCW U-2, Div-2 DG 2DG01A U-2, Div-2 RHRSW U-1, Div-2 DGCW U-1, Div-2 DG 1DG01A U-1, Div-2 RHRSW Unit 2, Division 2 Install new isolation valve in line 2DG06A
-4" adjacent to line 2RH83BB-24". U-2, Div-2 DGCW U-2, Div-2 DG 2DG01A U-2, Div-2 RHRSW  U-1, Div-2 DGCW U-1, Div-2 DG 1DG01A U-1, Div-2 RHRSW U-0, Div-1 DGCW U-0, Div-1 DG 0DG01A U-2, Div-1 RHRSW U-0, Div-1 DGCW U-0, Div-1 DG 0DG01A U-1, Div-1 RHRSW ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 10 of 17  Table 2 -Supported Systems Work Affecting Subsystem Provides Cooling Water to Supported Systems Division 1 DGCW Unit 1&2, Division 1
- Common DG - LPCS Motor Cooler
- ECCS Room Coolers Unit 1&2, Division 1
- A-LPCI - LPCS - RCIC RHRSW Unit 1&2, Division 1
- A-RHR Heat Exchanger
- A-RHR Pump Seal Cooler Unit 1&2, Division 1
- A-LPCI - A-Suppression Pool Cooling
- A-Suppression Pool Spray Division 2 DGCW Unit 1&2, Division 2
- DG (1A and 2A)
- ECCS Room Coolers Unit 1&2, Division 2
- B-LPCI - C-LPCI RHRSW Unit 1&2, Division 2
- B-RHR Heat Exchanger
- B-RHR Pump Seal Cooler
- C-RHR Pump Seal Cooler Unit 1&2, Division 2
- B-LPCI - C-LPCI - B-Suppression Pool Cooling
- B-Suppression Pool Spray
 
===3.2 CONFIGURATION===
RISK MANAGEMENT PROGRAM
 
In addition to this review of the plant capability, LSCS has a disciplined Configuration Risk Management Program (CRMP)
(Reference 1) that plans the work windows and manages emerging conditions such that defense-in-depth is maintained. The CRMP dictates the urgency for resolution of plant conditions resulting in reduced defense
-in-depth and identifies the systems to be protected and prioritized for return to service.
The LSCS CRMP includes a protective equipment program to minimize risk to both the online and outage unit. This program administers and controls (restricts) access to and work performed on protected equipment. Access to other equipment considered important to managing overall plant risk will also be controlled. The equipment having access restrictions associated with the planned CSCS maintenance work would typically consist of:
* Switchyard
* Division 1 and Division 2 Switchgear for online unit
* Division 1 and Division 2 Switchgear for outage unit
* Division 1 and Division 2 DG for Both units
* Division 3 Switchgear for operating unit
* Division 3 DG for operating unit
* Division 1 and 2 RHR for operating unit
* LPCS for operating unit
* RCIC for operating unit
* HPCS for operating unit
* Division 1, 2 and 3 CSCS for operating unit
* Unaffected portions of Division 1 and 2 CSCS for the outage unit
* Control Room and Auxiliary Equipment Room Ventilation (VC/VE) - Both trains
* Standby Gas Treatment System (VG) - Both trains
 
ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 11 of 17  In addition:
* Grid operator is contacted for any potential grid instabilities.
* Weather is monitored for conditions that could threaten offsite power reliability.
* Testing on restricted access equipment is suspended in accordance with the Protected Equipment Program.
 
===3.3 DIESEL===
GENERATOR IMPACT The DGCW subsystem provides cooling water to the supported Division 1 or 2 DGs. The work being performed on a specific DGCW subsystem will necessitate the DGCW subsystem being declared inoperable because non
-Code line stops will be utilized to provide isolation until new Code isolation valves have been installed and tested. The DGCW subsystems will remain available and fully capable of providing cooling water to the supported DGs.
The planned maintenance will not affect how the DGs are operated or controlled, and will not affect DG loading.
 
NRC Branch Technical Position (BTP) 8
-8 (Reference 2) establishes the Staff's position on requests by Licensee's for Allowed Outage Time (AOT) extensions to perform online maintenance. This BTP is not applicable to this License Amendment Request (LAR) due to the following:
a) The BTP addresses AOT extensions necessary to perform maintenance on Emergency Diesel Generators (E DG s) and offsite power sources where such maintenance would result in an EDG or offsite power source being inoperable and unavailable.
The planned maintenance is not for an EDG or offsite power source.
Though it will result in EDGs being declared inoperable they will remain available and fully capable of supplying their design electrical loads. There will be no additional loads included in the EDG electrical loading. The EDG control circuitry and automatic start logic will not be changed. All EDG support systems will remain available for EDG operation. No additional operator action will be required for operation of the EDGs.
b) The planned maintenance will result in DGCW subsystems being declared inoperable.
A total of four DGCW subsystems will be affected
, only one DGCW subsystem will be worked on at a time.
Because each unit's Division 1 DGCW subsystem share s a common discharge line, work on one unit will affect the other
. The same is true for Division 2. Although the affected DGCW subsystems will be declared inoperable
, they will remain available and fully capable of providing cooling water to their respective EDGs.
Cooling water and its flow path through the EDGs will remain available.
The reason for declaring a DGCW subsystem and its associated EDG inoperable is that non
-Code line stops will be utilized to provide isolation on a separate branch of the DGCW subsystem. DGCW is subject to the requirements of the ASME B&PV Code Section III. The use of non
-Code line stops results in Code requirements not being met. Until new Code isolation valves have been installed and tested, they cannot be credited; hence the non-Code line stop will be relied upon for isolation.
 
ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 12 of 17  c) Since the DGCW subsystems, EDGs, and offsite power sources will remain available and fully capable of performing their design functions (except for the portion of the DGCW return piping which will be replaced on the outage unit), the LaSalle PRA is not affected and hence was not revised.
 
==4.0 REGULATORY EVALUATION==
 
===4.1 APPLICABLE===
REGULATORY REQUIREMENTS/CRITERIA  The following NRC requirements and guidance documents are applicable to the proposed change. The regulations at Title 10 of the Code of Federal Regulations (10 CFR) Part 50.36 "Technical specifications," establish the requirements related to the content of the TS
: s. Section 50.36(c)(2)(ii) states:  Limiting conditions for operation.
Limiting conditions for operation are the lowest functional capability or performance levels of equipment required for safe operation of the facility.
When a limiting condition for operation of a nuclear reactor is not met, the licensee shall shut down the reactor or follow any remedial action permitted by the technical specifications until the condition can be met.
The regulatory requirements in 10 CFR 50.36 are not specific regarding the actions to be followed when TS requirements are not met other than a plant shut down.
The proposed change provides an extended CT in the Technical Specifications to be followed when the Limiting Condition for Operation is not met. Therefore, the proposed change is consistent with the requirements of 10 CFR 50.36.
Appendix A of 10 CFR 50 provides General Design Criteria (GDC) for nuclear power plants.
Plant-specific design criteria are described in the plant's Updated Final Safety Analysis Report (UFSAR). Criterion 1 7 states:  Criterion 17-Electric power systems. An onsite electric power system and an offsite electric power system shall be provided to permit functioning of structures, systems, and components important to safety. The safety function for each system (assuming the other system is not functioning) shall be to provide sufficient capacity and capability to assure that (1) specified acceptable fuel design limits and design conditions of the reactor coolant pressure boundary are not exceeded as a result of anticipated operational occurrences and (2) the core is cooled and containment integrity and other vital functions are maintained in the event of postulated accidents.
 
The onsite electric power supplies, including the batteries, and the onsite electric distribution system, shall have sufficient independence, redundancy, and testability to perform their safety functions assuming a single failure.
Electric power from the transmission network to the onsite electric distribution system shall be supplied by two physically independent circuits (not necessarily on separate rights of way) designed and located so as to minimize to the extent practical the ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 13 of 17  likelihood of their simultaneous failure under operating and postulated accident and environmental conditions. A switchyard common to both circuits is acceptable. Each of these circuits shall be designed to be available in sufficient time following a loss of all onsite alternating current power supplies and the other offsite electric power circuit, to assure that specified acceptable fuel design limits and design conditions of the reactor coolant pressure boundary are not exceeded. One of these circuits shall be designed to be available within a few seconds following a loss-of-coolant accident to assure that core cooling, containment integrity, and other vital safety functions are maintained.
Provisions shall be included to minimize the probability of losing electric power from any of the remaining supplies as a result of, or coincident with, the loss of power generated by the nuclear power unit, the loss of power from the transmission network, or the loss of power from the onsite electric power supplies.
Appendix A of 10 CFR 50 provides GDC for nuclear power plants. Plant-specific design criteria are described in the plant's UFSAR. Criterion 35 states:
 
Criterion 35
-Emergency core cooling. A system to provide abundant emergency core cooling shall be provided. The system safety function shall be to transfer heat from t he reactor core following any loss of reactor coolant at a rate such that (1) fuel and clad damage that could interfere with continued effective core cooling is prevented and (2) clad metal
-water reaction is limited to negligible amounts.
Suitable redundancy in components and features, and suitable interconnections, leak detection, isolation, and containment capabilities shall be provided to assure that for onsite electric power system operation (assuming offsite power is not available) and for offsite electric power system operation (assuming onsite power is not available) the system safety function can be accomplished, assuming a single failure.
Appendix A of 10 CFR 50 provides General Design Criteria (GDC) for nuclear power plants. Plant-specific design criteria are described in the plant's UFSAR. Criterion 44 states:
Criterion 44
-Cooling water. A system to transfer heat from structures, systems, and components important to safety, to an ultimate heat sink shall be provided. The system safety function shall be to transfer the combined heat load of these structures, systems, and components under normal operating and accident conditions.
Suitable redundancy in components and features, and suitable interconnections, leak detection, and isolation capabilities shall be provided to assure that for onsite electric power system operation (assuming offsite power is not available) and for offsite electric power system operation (assuming onsite power is not available) the system safety function can be accomplished, assuming a single failure.
Branch Technical Position 8
-8 provides guidance from a deterministic perspective for license amendment requests for Allowed Outage Time (AOT) extensions for Emergency DGs and offsite power sources. BTP 8
-8 states:
ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 14 of 17  The Electrical Engineering Branch (EEB) staff evaluates AOT extension requests for onsite or offsite power sources to allow on
-line maintenance on EDGs that would normally be performed during refueling outages or maintenance of offsite power source(s) such as a transformer or bus. The on
-line maintenance can help reduce the risk for loss of power during plant refueling outages when refueling activities are conducted. The staff evaluates the licensee's request for AOT extension from deterministic as well as PRA perspectives.
The proposed change s ha ve no effect on the design of the CSCS and DGs. The proposed change is to extend C Ts for systems which will remain available during the specified refueling outage periods.
BT P 8-8 present s guidance related to Onsite Power Sources (EDGs). The proposed changes restrict the use of the extended CTs to specified refueling outage periods when the Division 2 DGs will be declared inoperable due to the non
-Code line stops resulting in the Division 2 DGCW systems on both units being declared inoperable. In the period s of applicability, the Division 2 DGCW systems and the Division 2 DGs on both units will be available and capable of performing the design functions.
No maintenance will be performed on the Division 2 DGs during the periods of applicability
. The proposed change does not affect plant compliance with these regulations or guidance and will ensure that the lowest functional capabilities or performance levels of equipment required for safe operation are met.
 
===4.2 PRECEDENT===
 
The NRC has previously approved similar changes for:
* LaSalle County Station in Amendment 180 for Unit 1 and Amendment 167 for Unit 2, both issued on 1/29/07.
* LaSalle County Station in Amendment 175 for Unit 1 and Amendment 161 for Unit 2, both issued on 2/23/06.
* The Braidwood Station in Amendment No. 130 and Byron Station in Amendment No. 136, both issued on 3/18/2004. This previous LaSalle work was more extensive than the current work scope.
Specifically:
* The previous scope impacted more components.
* The previous scope resulted in times where the RHRSW subsystems and DGCW to the affected diesel generator were inoperable and unavailable.
The current scope results in the DGCW and RHRSW subsystems being inoperable, but available (except for the portion of DGCW being replaced in the outage unit).
* The previous scope required installation of temporary DGCW jumpers to ensure the availability of the Division 2 diesel generators; the current scope does not.
 
4.3 NO SIGNIFICANT HAZARDS DETERMINATION EGC requests a proposed change to the TSs for LaSalle County Station, Unit Nos. 1 and 2. The proposed changes modify TS 3.7.2 to include a 7 day CT when one or more required DGCW subsystem(s) are inoperable. The proposed changes to TS 3.8.1 include a 7 day CT ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 15 of 17  when a Division 2 DG and the required opposite unit Division 2 DG are inoperable. The proposed changes will only be used during four refueling outages, two for Unit 1 prior to July 1, 2024, and two for Unit 2 prior to July 1, 2023. The current planned schedule, subject to change, is L2R17 (2019), L1R18 (2020), L2R18 (2021), and L1R19 (2022). The TS 3.8.1 changes would only be applicabl e for Division 2 work and would only be used during two refueling outages, one for Unit 1 prior to July 1, 2024, and one for Unit 2 prior to July 1, 2023. The current planned schedule for the Division 2 work, subject to change, is L2R17 (2019) and L1R19 (2022).
 
EGC has evaluated whether or not a significant hazards consideration is involved with the proposed amendment(s) by focusing on the three standards set forth in 10 CFR 50.92, "Issuance of amendment," as discussed below:
: 1. Does the proposed amendment involve a significant increase in the probability or consequences of an accident previously evaluated?
 
Response: No The previously analyzed accidents are initiated by the failure of plant structures, systems, or components. The proposed change does not have a detrimental impact on the integrity of any plant structure, system, or component that initiates an analyzed event. No active or passive failure mechanisms that could lead to an accident are affected. Non
-Code line stops required to provide isolation will maintain the availability of the online unit's CSCS. The non-Code line stops being used to isolate the system during the specified refueling outages are being designed to the same o r g r e a t e r pressure rating and seismic requirements as the CSCS piping.
Redundancy is provided by designing the CSCS as multiple independent subsystems. Divisional separation between subsystems assures that no single failure can affect more than one division's subsystem. Therefore, assuming a single failure in any division's subsystem including the subsystem shared between units, two other divisional subsystems in each unit will remain unaffected. This ensures adequate redundancy to supply the minimum required cooling water for safe shutdown of the operating unit or mitigate the consequences of an accident.
The proposed limited use of increased CT's of the operating unit's CSCS maintains the design basis assumptions. Therefore, the proposed change does 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 previously evaluated?
Response: No The proposed change involves the temporary installation of new equipment (mechanical line stops) that will be designed and installed to the same o r g r e a t e r pressure rating and seismic design as the CSCS piping. The currently installed equipment will not be ATTACHMENT 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 16 of 17  operated in a new or different manner. No new or different system interactions are created and no new processes are introduced. The proposed changes will not introduce any new failure mechanisms, malfunctions, or accident initiators not already considered in the design and licensing bases.
Therefore, the proposed change does not create the possibility of a new or different kind of accident from any previously evaluated.
: 3. Does the proposed amendment involve a significant reduction in a margin of safety?
 
Response: No The proposed change does not alter any existing setpoints at which protective actions are initiated and no new setpoints or protective actions are introduced. The design and operation of the CSCS remains unchanged. The proposed change provides a limited period to restore inoperable DGCW subsystems and Division 2 DGs instead of interrupting plant operations, possibly requiring an orderly plant shutdown of the operating unit. The potential to avoid a plant transient in conjunction with maintaining availability of the DGCW subsystems and Division 2 DGs offsets any risk associated with the limited CT. The proposed change does not impact a design basis, limiting safety system setting, or safety limit specified in TS
: s. Therefore, the proposed change does not involve a significant reduction in a margin of safety. Based on the above, EGC concludes that the proposed changes do not involve a significant hazards consideration as set for i n 10 CFR 50.92(c), "Issuance of Amendment." 
 
==4.4 CONCLUSION==
S In conclusion, based on the considerations discussed above, (1) there is reasonable assurance that the health and safety of the public will not be endangered by operation in the proposed manner, (2) such activities will be conducted in compliance with the Commission's regulations, and (3) the issuance of the amendment will not be inimical to the common defense and security or to the health and safety of the public.
 
==5.0 ENVIRONMENTAL CONSIDERATION==
 
The proposed amendment meets the eligibility criterion for categorical exclusion set forth in 10 CFR 51.22(c)(9). 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 effluents that may be released offsite, or (iii) a significant increase in individual or cumulative occupational radiation exposure. 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 1 Evaluation of Proposed Changes License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Page 17 of 17 
 
==6.0 REFERENCES==
: 1. LSCS Technical Requirements Manual (TRM), Section 5.0e, "Configuration Risk Management Program (CRMP)" 2. NRC Branch Technical Position 8
-8, "Onsite (Emergency Diesel Generators) and Offsite Power Sources Allowed Outage Time Extensions," February 2002
 
ATTACHMENT 2 Supporting Figures ATTACHMENT 2 Supporting Figures License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System LaSalle Lake Service Water Tunne l Unit 2    Unit 1 DGCW Pmp 0DG01P 1DG23B-6" RHR SW PMPS 1E12-C300A,B Figure 1:  Unit 2, Division 1 Simplified Sketch Notes The Division 1 DGCW subsystem of CSCS is common to both Unit 1 & Unit 2 Not all components are shown Yellow, Inoperable/Available Red, Inoperable/Unavailable 2DG23B-6" Rx Bldg                    Buried Off Gas Filter Bldg Rx Bldg Buried    New Isolation Valve  Line to be replaced 2DG032  Typical Line Stop (Stopple) 1DG032 Off Gas Filter Bldg    Diesel Gen Bldg Buried    DG Cooler 0A 0DG01A Strainer A RHR PMP Seal Cooler Strainer Strainer A RHR PMP Seal Cooler 1A RHR HT EXH 2A RHR HT EXH RHR SW PMPS 2E12-C300A,B LPCS Pmp Cooler  RM Cooler 2VY04A  Rm Cooler 2VY01A LPCS Pmp Cooler  RM Cooler 1VY04A  RM Cooler 1VY01A ATTACHMENT 2 Supporting Figures License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System LaSalle Lake Service Water Tunne l Unit 2    Unit 1 DGCW Pmp 0DG01P 1DG23B-6" RHR SW Pmps 1E12-C300A,B Figure 2:  Unit 1, Division 1 Simplified Sketch Notes The Division 1 DGCW subsystem of CSCS is common to both Unit 1 & Unit 2 Not all components are shown Yellow, Inoperable/Available Red, Inoperable/Unavailable 2DG23B-6" Rx Bldg                    Buried Off Gas Filter Bldg Rx Bldg Buried    2DG032 Line to be replaced  New Isolation Valve Through Wall Stopple 1DG032 Off Gas Filter Bldg    Diesel Gen Bldg Buried    Strainer A RHR PMP Seal Cooler Strainer Strainer A RHR PMP Seal Cooler 1A RHR HT EXH 2A RHR HT EXH RHR SW Pmps 2E12-C300A,B DG Cooler 0A 0DG01A LPCS Pmp Cooler  RM Cooler 1VY04A  RM Cooler 1VY01A LPCS Pmp Cooler  RM Cooler 2VY04A  Rm Cooler 2VY01A ATTACHMENT 2 Supporting Figures License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System Through Wall Stopple  New Isolation Valve  Line to be replaced 1DG06A-4"    Diesel Gen Bldg                  Buried    Strainer DGCW Pmp 1DG01P 1DG007 1RH83BB-24" Rx Bldg Buried    Figure 3:  Unit 1, Division 2 Simplified Sketch Note: not all components are shown Yellow, Inoperable/Available Red, Inoperable/Unavailable LaSalle Lake Service Water Tunnel RHRSW Pmps 1E12-C300C,D Strainer RM Cooler 1VY03A B RHR HT EXH DG Cooler 1A 1DG01A B & C RHR PMP Seal Cooler s From Unit 2 Division 2
 
ATTACHMENT 2 Supporting Figures License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System
 
RM Cooler 2VY03A Figure 4:  Unit 2, Division 2 Simplified Sketch Note: not all components are shown Yellow, Inoperable/Available Red, Inoperable/Unavailable 2DG06A-4"    Diesel Gen Bldg                Buried    DGCW Pmp 2DG01P 2DG007 Service Water Tunnel  Through Wall Stopple  New Isolation Valve  Line being Replaced LaSalle Lake 2RH83BB-24" Rx Bldg Buried    Strainer Strainer B RHR HT EXH DG Cooler 2A 2DG01A RHRSW Pmps 2E12-C300C,D B & C RHR PMP Seal Cooler s From Unit-1 Division 2
 
ATTACHMENT 2 Supporting Figures License Amendment Request for Temporary Extensions to Technical Specifications Supporting Maintenance on Portions of the Core Standby Cooling System
 
Figure 6: Through Wall Line Stop (representative)
Figure 5: Branch Connection Line Stop (representative)
Hot Tap Hardware Not Shown Line 2DG23B-6" 24" Line Hot Tap Hardware Not Shown 4" or 6" Line 24" Line Full Throat Valve Full Throat Valve
 
ATTACHMENT 3 Proposed Technical Specification Changes for LaSalle County Station, Units 1 and 2
 
DGCW System
 
====3.7.2 LaSalle====
1 and 2 3.7.2-1 Amendment N
: o. 200/187 3.7  PLANT SYSTEMS
 
====3.7.2 Diesel====
Generator Cooling Water (DGCW) System
 
LCO  3.7.2 The following DGCW subsystems shall be OPERABLE:
: a. Three DGCW subsystems; and
: b. The opposite unit Division 2 DGCW subsystem.
 
APPLICABILITY:
MODES 1, 2, and 3.
 
ACT IONS  --------------------------------
-----NOTE--------------------------------
----- Separate Condition entry is allowed for each DGCW subsystem.
 
------------------------------------------------------------------------------
 
DGCW System
 
====3.7.2 LaSalle====
1 and 2 3.7.2-2 Amendment N
: o. 200/187 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. --------NOTES-------- 1. Not applicable to Divi sion 1 during installation of the Division 1 CSCS isolation valves during a single Unit 1 Refueling Outage completed prior to July 1, 20 24 , and during a single Unit 2 Refueling Outage completed prior to July 1, 2023 , while the o utage u nit is in MODE 4,5, o r defueled. 2. Not applicable to Division 2 during installation of the Division 2 CSCS isolation valves during a single Unit 1 Refueling Outage completed prior to July 1, 20 24 , and during a single Unit 2 Refueling Outage completed prior to July 1, 2023 , w hile the o utage u nit is in MODE 4,5, or defueled.    ---------------------
One or more DGCW subsystems inoperable.
A.1 Declare supported component(s) inoperable.
Immediately (continued)
 
DGCW System
 
====3.7.2 LaSalle====
1 and 2 3.7.2-3 Amendment N
: o. 200/187 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME B.  --------NOTES-------- 1. Only applicable to Division 1 during installation of the Division 1 CSCS isolation valves during a single Unit 1 Refueling Outage completed prior to July 1, 20 24 , and during a single Unit 2 Refueling Outage completed prior to July 1, 2023 , while the o utage u nit is in MODE 4,5, or defueled. 2. Only applicable to Division 2 during installation of the Division 2 CSCS isolation valves during a single Unit 1 Refueling Outage completed prior to July 1, 20 24 , and during a single Unit 2 Refu eling Outage completed prior to July 1, 2023 , while the o utage u nit is in MODE 4,5, or defueled.    ---------------------
One or more DGCW subsystems inoperable.
B.1 Restore DGCW subsystem to OPERABLE status. 7 days  (continued)
 
DGCW System
 
====3.7.2 LaSalle====
1 and 2 3.7.2-4 Amendment N
: o. 200/187 ACTIONS CONDITIO N REQUIRED ACTION COMPLETION TIME C. Required Action and associated Completion Time of Condition B not met. C.1 Be in MODE
: 3. AND  C.2 Be in MODE
: 4. 12 hours    36 hours    SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY  SR  3.7.2.1 Verify each DGCW subsystem manual, power operated, and automatic valve in the flow path, that is not locked, sealed, or otherwise secured in position, is in the correct position.
In accordance with the Surveillance Frequency Control Program SR  3.7.2.2 Verify each DGCW pump starts automatically on each required actual or simulated
 
initiation signal.
 
In accordance with the Surveill ance Frequency Control Program
 
AC Sources
-Operating 3.8.1    LaSalle 1 and 2 3.8.1-4 Amendment No.
194/181 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME C. --------NOTE--------- 1. Not applic able to the Division 2 DG and the opposite unit Division 2 DG during installation of Division 2 CSCS isolation valve s during a single Unit 1 Refueling Outage completed prior to July 1, 2024 , and during a single Unit 2 Refuelin g Outage completed prior to Ju ly 1, 2023
, while the outage u nit is in MODE 4, 5, or defueled.    ---------------------
Required Division 3 DG inoperable.
OR  One required Division 1, 2, or 3 DG inoperable and the required opposite unit Division 2 DG
 
inoperable.
C.1 Perform SR 3.8.1.1 for OPERABLE required
 
offsite circuit(s).
 
AND C.2 Declare required feature(s), supported by the inoperable DG(s), inoperable
 
when the redundant required feature(s) are inoperable.
 
AND  C.3.1 Determine OPERABLE DG(s) are not inoperable due to common cause failure.
OR  C.3.2 Perform SR 3.8.1.2 for OPERABLE DG(s).
AND  C.4 Restore required DG(s) to OPERABLE status. 1 hour  AND Once per 8 hours thereafter 4 hours from discovery of Condition C concurrent with inoperability
 
of redundant requi red feature(s)
 
24 hours
 
24 hours 72 hours AND 17 days from discovery of failure to meet LCO 3.8.1.a or b  (continued)
 
AC Sources
-Operating 3.8.1    LaSalle 1 and 2 3.8.1-6 Amendment No.
200/187 ACTIONS CON DITION REQUIRED ACTION COMPLETION TIME F. --------NOTE--------- 1. Not applicable during installation of the Division 2 CSCS isolation valve s during a single Unit 1 Refueling Outage completed pr ior to July 1, 20 24 , and during a single Unit 2 Refueling Ou tage completed prior to July 1, 20 23 , while the outage u nit is in MODE 4,5, or defueled.    ---------------------
 
Two required Division 1, 2, or 3 DGs
 
inoperable.
OR  Division 2 DG and the required opposite unit Division 2 DG inoperable.
 
F.1 Resto re one required DG to OPERABLE status.
2 hours  OR 72 hours if Division 3 DG is inoperable (continued)
 
AC Sources
-Operating 3.8.1    LaSalle 1 and 2 3.8.1-7 Amendment No.
200/187 ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME G. --------NOTE---------- 1. Only applicable during installation of Division 2 CSCS isolation valve s during a single Unit 1 Refueling Outage completed prior to July 1, 20 24 , and during a single Unit 2 Refuelin g Outage completed prior to July 1, 2023 , while the o utage u nit is in MODE 4,5, or defueled. ----------------------
Division 2 DG and the require d opposite unit Division 2 DG inoperable.
G.1 Restore required Division 2 DG to OPERABLE status.
7 days  H. Required Action and associated Completion Time of Condition A, B, C, D, E, F or G not met. H.1 Be in MODE
: 3. 12 hours  I. Three or more requ ired AC sources inoperable.
I.1 Enter LCO 3.0.3.
Immediately
 
ATTACHMENT 4 Proposed Technical Specification Bases Changes for LaSalle County Station, Units 1 and 2 DGCW System B 3.7.2    LaSalle 1 and 2 B 3.7.2-3 Revision 42 BASES  LCO subsystem is based on having an OPERABLE pump and an (continued)
OPERABLE flow path capable of taking suction from the CSCS
 
water tunnel and transferring cooling water to the associated diesel generator, LPCS pump motor cooling coils, and ECCS cubicle area cooling coils, as required.
An adequate suction source is not addressed in this LCO
 
since the minimum net positive suction head of the DGCW pump and the maximum suction source temperature are covered by the requirements specified in LCO 3.7.3, "Ultimate Heat Sink (UHS)."    APPLICABILITY In MODES 1, 2, and 3, the DGCW subsystems are required to support the OPERABILITY of equipment serviced by the DGCW
 
subsystems and required to be OPERABLE in these MODES.
In MODES 4 and 5, the OPERABILITY requirements of the DGCW subsys tems are determined by the systems they support.
 
Therefore, the requirements are not the same for all facets of operation in MODES 4 and 5. Thus, the LCOs of the systems supported by the DGCW subsystems will govern DGCW System OPERABILITY requirements in MODES 4 and 5.
 
ACTIONS The ACTIONS Table is modified by a Note indicating that separate Condition entry is allowed for each DGCW subsystem.
 
This is acceptable, since the Required Actions for the Condition provide appropriate compensatory actions for each
 
inoperable DGCW subsystem. Complying with the Required Actions for one inoperable DGCW subsystem may allow for continued operation, and subsequent inoperable DGCW subsystem(s) are governed by separate Condition entry and application of associated Require d Actions.
A.1  Condition A is modified by two Notes indicating that this Condition is not applicable during installation of Division 1 and Division 2 CSCS isolation valves during Unit 1 refueling outage s prior to July 1, 2024
, and during Unit 2 refuelin g outages prior to July 1, 2023, while the outage unit is in MODE 4, 5, or defueled. For Unit 1, the u se of this N ote , on c e for Division 1 and on c e for  (continued)
 
DGCW System B 3.7.2    LaSalle 1 and 2 B 3.7.2-4 Revision 42 BASES  ACTIONS A.1  (continued)
Division 2, will occur during Refueling Outages 18 , 19, or 20. For Unit 2, the use of this N ote , on c e for Division 1 and on c e for Division 2, will occur during Refueling Outages 17, 18, or 19. Either Division 1 or Division 2 CSCS isolation valve installation is performed on the outage unit during a sing le refueling o utage and this note may not be used in subsequent outages for the same unit and division. When the specified DGCW subsystem(s) are inoperable during the CSCS isolation valve installation, Condition B provides appropriate Required Actions.
If one or more DGCW subsystems are inoperable, the associated DG(s) and ECCS components supported by the affected DGCW loop, including LPCS pump motor cooling coils or ECCS cubicle area cooling coils, as applicable, cannot perform their intended function a nd must be immediately
 
declared inoperable. In accordance with LCO 3.0.6, this also requires entering into the Applicable Conditions and Required Actions for LCO 3.4.9, "RHR Shutdown Cooling System
-Hot Shutdown," LCO 3.5.1, "ECCS
-Op erating," LCO 3.5.3, "RCIC System," LCO 3.6.2.3, "RHR Suppression Pool Cooling,"
 
LCO 3.6.2.4, "RHR Suppression Pool Spray," and LCO 3.8.1, "AC Sources----Operating," as appropriate.
B.1  Condition B is modified by two Notes indi cating that this Condition is only applicable during installation of Division 1 and Division 2 CSCS isolation valves during Unit 1 refueling outages prior to July 1, 2024
, and during Unit 2 refueling outages prior to July 1, 2023, while the outage unit is in MODE 4, 5, or defueled. For Unit 1, the use of this N ote , on c e for Division 1 and on c e for Division 2, will occur during Refueling Outages 18, 19, or
: 20. For Unit 2, the use of this N ote , on c e for Division 1 and on c e for Division 2, will occur during Refueling Outages 17, 18, or
: 19. Either Division 1 or Division 2 CSCS isolation valve installation is performed on the outage unit during a single refueling o utage and this note may not be used in subsequent outages for the same unit and division
.  (conti nued)
DGCW System B 3.7.2    LaSalle 1 and 2 B 3.7.2-5 Revision 42 BASES  ACTIONS B.1  (continued)
Required Action B.1 is intended to handle the inoperability of one DGCW subsystem during installation of CSCS isolation valves. The Completion Time of 7 days is allowed to restore the DGCW subsystem to OPERABLE status. During installation of each CSCS isolation valve a mechanical line stop will be used to maintain availability of the CSCS system and DGCW subsystem for the online Unit. The line stops are designed to the same or g reater pressure rating and seismi c design as the CSCS piping.
If the DGCW subsystem for the online Unit is not maintained available while in this Condition, Condition A should be entered immediately.
C.1 and C.2 If the Required Action and associated Completion Time of Condition B is n ot met, the unit must be placed in a MODE in which the LCO does not apply. To achieve this status, the unit must be placed in at least MODE 3 within 12 hours and in MODE 4 within 36 hours. The allowed Completion Times are reasonable, based on operating e xperience, to reach the required unit conditions from full power conditions in an orderly manner and without challenging unit systems.
  (continued)
A C Sources-Operating B 3.8.1 LaSalle 1 and 2 B 3.8.1-13 Revision 42 BASES ACTIONS B.4  (continued) failure to meet the LCO, to restore the offsite circuit. At this time, another offsite circuit could become inoperable, the DG restored OPERABLE, and an additional 72 hours (for a
 
total of 20 days) allowed prior to complete restoration of the LCO. The 17 day Completion Time provides a limit on the time allowed in a specified condition after discovery of
 
failure to meet LCO 3.8.1.a or b. This limit is considered reasonable for situations in which Conditions are entered concur rently for combinations of Conditions A, B, and C.
The " AND" connector between the 14 day and 17 day Completion Times means that both Completion Times apply simultaneously, and the more restrictive Completion Time must be met.
Simil ar to Required Action B.2, the Completion Time of Required Action B.4 allows for an exception to the normal "time zero" for beginning the allowed outage time "clock." 
 
This exception results in establishing the "time zero" at
 
the time the LCO was initially not met, instead of the time Condition B was entered.
Condition C Condition C is modified by a Note indicating that this Condition is not applicable to the Division 2 DG and the opposite unit Division 2 DG during installation of Division 2 CSCS isolation valves during a single Unit 1 refueling outage completed prior to July 1, 2024, and during a single Unit 2 refueling outage completed prior to July 1, 2023, while the outage unit is in MODE 4, 5, or defueled.
For Unit 1 , the one-time use of this N ote will occur during Refueling Outage 18, 19, or 20. For Unit 2, the one
-time use of this Note will occur during Refueling Outage 17, 18, or 19. When the Division 2 DGs are inoperable during the CSCS isolation valve maintenance, Conditions B and G provide ap propriate Required Actions.
C.1 To ensure a highly reliable power source remains, it is
 
necessary to verify the availability of the remaining
 
required offsite circuit on a more frequent basis. Since
 
the Required Action only specifies "perform," a failu re of SR 3.8.1.1 acceptance criteria does not result in a Required (continued)
 
A C Sources-Operating B 3.8.1  LaSalle 1 and 2 B 3.8.1-19 Revision 42 BASES  ACTIONS E.1 and E.2 (continued) provide requirements for the loss of an offsite circuit and one required unit DG without regard to whether a division is de-energized. LCO
 
====3.8.7 provides====
the appropriate restrictions for a de
-energized division.
According to Regulatory Guide 1.93 (Ref.
6), operation may continue in Condition E for a period that should not exceed 12 hours. In Condition E, individual redundancy is lost in both the offsite electrical power system and the onsite AC
 
electrical power system. Since power system redundancy is provided by two diverse sources of power, however, the reliability of the power systems i n this Condition may appear higher than that in Condition D (loss of both required offsite circuits). This difference in reliability is offset by the susceptibility of this power system configuration to a single bus or switching failure. The 12 hour Compl etion Time takes into account the capacity and capability of the remaining AC sources, reasonable time for
 
repairs, and low probability of a DBA occurring during this period. Condition F Condition F is modified by a Note indicating that this Condition is not applicable during installation of Division 2 CSCS isolation valves during a single Unit 1 Refueling Outage completed prior to July 1, 2024
, and during a single Unit 2 Refueling Outage completed prior to July 1, 2023
, while the Outage Unit is in MODE 4 , 5, or defueled.
For Unit 1, the one
-time use of this Note will occur during Refueling Outage 18, 19, or 20. For Unit 2, the one
-time use of this Note will occur during Refueling Outage 17, 18, or 19. When the Division 2 DGs are inoperable during the C SCS isolation valve maintenance, Condit i on s B and G provide appropriate Required Actions.
F.1  With two required unit DGs inoperable or both required Division 2 DGs inoperable, there is no more than two remaining standby AC sources. Thus, with an assumed loss of offsite electrical power, sufficient standby AC sources may
 
not be available to power the minimum required ESF functions. Since the offsite electrical power system is the only source of AC power for the majority of ESF equipment at (continued)
 
A C Sources-Operating B 3.8.1  LaSalle 1 and 2 B 3.8.1-21 Revision 51 BASES  ACTIONS Condition G (continued)
Condition G is modified by a Note indicating that this Condition is only applicable during installation of Divisi on 2 CSCS isolation valves during a single Unit 1 Refueling Outage completed prior to July 1, 2024
, and during a single Unit 2 Refueling Outage completed prior to July 1, 2023 , while the Outage Unit is in MODE 4, 5, or defueled
. For Unit 1, the one
-time u se of this Note will occur during Refueling Outage 18, 19, or 20. For Unit 2, the one-time use of this Note will occur during Refueling Outage 17, 18, or 19. G.1  With both required Division 2 DGs inoperable, there are no more than two remaining OPERABLE standby AC sources. Thus, with an assumed loss of offsite electrical power, sufficient standby AC sources may not be available to power the minimum required Division 2 ESF functions. Since the offsite electrical power system is the only source of AC pow er for the Division 2 ESF equipment at this level of degradation, the risk associated with continued operation during the Division 2 CSCS valve replacement maintenance must be mitigated by the use of mechanical line stops to maintain the availability of th e Division 2 CSCS system for the online Unit. The line stops are designed to the same or greater pressure rating and seismic design as the CSCS piping. At least one required Division 2 DG must be rest ored to OPERABLE status within 7 d ays of entry into Co ndition G.
If at least one Division 2 DG is not maintained available while in this Condition, Condition H should be entered immediately.
If, at any time when in this Condition (both required Division 2 DGs inoperable
), a n additional required DG subsequen tly becomes inoperable, Condition I should be entered immediately
. H.1  If the inoperable AC electrical power sources cannot be restored to OPERABLE status within the associated Completion
 
Time, the unit must be brought to a MODE in which the overall plan t risk is minimized. To achieve this status,    (continued)
 
AC Sources
-Operating B 3.8.1  LaSalle 1 and 2 B 3.8.1-22 Revision 42 BASES  ACTIONS H.1  (continued) the unit must be brought to MODE 3 within 12 hours. Remaining in the Applicability of the LCO is acceptable because the plant risk in MODE 3 is similar to or lower than the risk in MODE 4 (Ref. 11) and because the time spent in MODE 3 to perform the necessary repairs to restore the system to OPERABLE status will be short. However, voluntary entry into MODE 4 may be made as it is also an acceptable low
-risk state. The allowed Completion Time is reasonable, based on operating
 
experience, to reach the required plant conditions from full power conditions in an orderly manner and without challenging plant systems.
I.1  Condition I corresponds to a level of degra da tion in which all redundancy in the AC electrical power supplies has been lost. At this severely degraded level, any further losses in the AC electrical power system will cause a loss of function. Therefore, no additional time is justified for continued operation. The unit is required by LCO 3.0.3 to commence a controlled shutdown.
 
SURVEILLANCE The AC sources are designed to permit inspection and REQUIREMENTS testing of all important areas and features, especially those that have a standby function, in accordance with 10 CFR 50, GDC 18 (Ref. 8). Periodic component tests are supplemented by extensive functional tests during refueling outages under simulated accident conditions. The SRs for
 
demonstrating the OPERABILITY of the DGs are consistent with th e recommendations of Regulatory Guide 1.9 (Ref. 3) and Regulatory Guide 1.137 (Ref.
9).
The Surveillances are modified by two Notes to clearly identify how the Surveillances apply to the given unit and opposite unit's Division 2 DGs. Note 1 states that S R 3.8.1.1 through SR 3.8.1.20 are applicable only to the given unit AC electrical power sources and Note 2 states that SR 3.8.1.21 is applicable to the opposite unit's Division 2 DG. These Notes are necessary since the opposite unit AC electrical power so urce is not required to meet all of the requirements of the given unit AC electrical power sources (e.g., the opposite unit DG is not required to start on the opposite unit's ECCS initiation signal to support (continued)}}

Latest revision as of 04:02, 14 April 2019

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