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Table L Less Restrictive Changes Section 1.0 - Use and Application ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 1.0 L.1 The CTS definition of CHANNEL FUNCTIONAL TEST requires the use of a 1.0 Definitions 1.11 Specific CTS 1.0 simulated signal when performing the test. The ISTS CHANNEL OPERATIONAL TEST (COT) definition allows the use of an actual or simulated signal when performing the tests. This changes the CTS by allowing the use of an actual signal instead of a simulated signal to perform the Surveillance if sufficient information is collected to satisfy the surveillance test requirements.

ITS 1.0 L.2 The CTS definition for SHUTDOWN MARGIN (SDM) specifies that the single 1.0 Definitions 1.13 Specific CTS 1.0 rod cluster assembly of highest reactivity worth is assumed to be fully withdrawn for calculating the SDM. The ISTS definition for SDM provides an exception to this requirement. The ISTS definition allows the following relaxation "with all RCCAs verified fully inserted by two independent means, it is not necessary to account for a stuck RCCA in the SDM calculation. The CTS definition is revised to incorporate the ISTS relaxation.

ITS 1.0 L.3 The CTS average Coolant Temperatures specified in Table 1.1 for Refueling is 1.0 Definitions Table 1.1 2 CTS 1.0 revised consistent with the ISTS. The CTS Table specifies 140°F for this Mode of operation. The corresponding ISTS Table 1.1-1 does not specify a temperature for Refueling Mode and "NA" is used instead of a temperature.

As CTS Table 1.1 specifies the conditions of Applicable Modes, this change is considered a relaxation of Applicability.

ITS 1.0 L.4 Unit 2 Only. The CTS requirement for actuation logic test is revised to be 1.1 Definitions Unit 2 - 3.4.3.2 Specific CTS 1.0 consistent with the ISTS definition of ACTUATION LOGIC TEST. The CTS (ESFAS) and ISTS requirements are effectively the same with the exception of the ISTS allowance to use "simulated or actual" input combinations. The CTS is revised to incorporate the ISTS relaxation. This changes the CTS by allowing the use of an actual signal instead of a simulated signal to perform the Surveillance if sufficient information is collected to satisfy the surveillance test requirement.

ITS 1.0 L.5 Unit 2 only. The CTS requirement for slave relay testing is revised consistent 1.1 Definitions Unit 2 - 3.4.3.2 6 CTS 1.0 with the ISTS definition of SLAVE RELAY TEST. The CTS requires that "a (ESFAS) continuity check of associated actuation devices that are not testable" be performed during each SLAVE RELAY TEST. The less restrictive change introduced by the ISTS definition requirement is the allowance to only " include a continuity check of associated required testable actuation devices". This changes the CTS by not requiring a continuity check of actuation devices that are not testable.

BVPS Units 1 and 2 Page 1 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 1.0 - Use and Application ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 1.0 L.6 Unit 1 only. The CTS Section 1.0 definitions of ENGINEERED SAFETY 1.1 Definitions 1.22, 1.23 6 CTS 1.0 FEATURE RESPONSE TIME and REACTOR TRIP SYSTEM RESPONSE TIME require measurement of the response time from the sensor through the actuated equipment. The ITS definitions of ENGINEERED SAFETY FEATURE (ESF) RESPONSE TIME and REACTOR TRIP SYSTEM (RTS)

RESPONSE TIME are modified to state, " In lieu of measurement, response time may be verified for selected components provided that the components and methodology for verification have been previously reviewed and approved by the NRC." This changes the CTS by allowing the response time for selected components to be administratively verified rather than measuring the response time by testing provided BVPS has obtained NRC review and approval as specified in the statement added to the definition.

• Change Categories:

1 - Relaxation of LCO Requirements 2 - Relaxation of Applicability 3 - Relaxation of Completion Time 4 - Relaxation of Required Action 5 - Deletion of Surveillance Requirement 6 - Relaxation of Surveillance Requirement Acceptance Criteria 7 - Relaxation of Surveillance Frequency 8 - Deletion of Reporting Requirement Specific NSHC used when a change does not fit the above Categories.

BVPS Units 1 and 2 Page 2 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 2.0 - Safety Limits ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• NONE

• Change Categories:

1 - Relaxation of LCO Requirements 2 - Relaxation of Applicability 3 - Relaxation of Completion Time 4 - Relaxation of Required Action 5 - Deletion of Surveillance Requirement 6 - Relaxation of Surveillance Requirement Acceptance Criteria 7 - Relaxation of Surveillance Frequency 8 - Deletion of Reporting Requirement Specific NSHC used when a change does not fit the above Categories.

BVPS Units 1 and 2 Page 3 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.0 - LCO and SR Applicability ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.0 L.1 Not used.

CTS 3/4.0 ITS 3.0 L.2 The CTS 3.0.5 two-hour Completion Time allowed for the verification of 3.8.1 (Actions) 3.0.5 3 CTS 3/4.0 redundant system/component OPERABILITY is revised consistent with the ISTS LCO 3.8.1 Actions to 4 hours0.167 days <br />0.0238 weeks <br />0.00548 months <br /> for an inoperable Diesel Generator (DG),

24 hours1 days <br />0.143 weeks <br />0.0329 months <br /> for an inoperable offsite circuit and 12 hours0.5 days <br />0.0714 weeks <br />0.0164 months <br /> for two inoperable offsite circuits.

ITS 3.0 L.3 A new LCO 3.0.6 is added to the CTS to conform to the ISTS. LCO 3.0.6 LCO 3.0.6 NA Specific CTS 3/4.0 specifies that when a support system is inoperable only the support system's ACTIONS are applicable. LCO 3.0.6 provides the allowance that the supported systems' ACTIONS are not applicable and need not be entered unless specifically directed by the support system's ACTIONS.

ITS 3.0 L.4 CTS 4.0.2 contains a provision for extending the intervals associated with SR 3.0.2 4.0.2 3 CTS 3/4.0 Surveillance Requirements. The corresponding ITS SR 3.0.2 expands the CTS provision for an interval extension to include some Action Completion Times.

• Change Categories:

1 - Relaxation of LCO Requirements 2 - Relaxation of Applicability 3 - Relaxation of Completion Time 4 - Relaxation of Required Action 5 - Deletion of Surveillance Requirement 6 - Relaxation of Surveillance Requirement Acceptance Criteria 7 - Relaxation of Surveillance Frequency 8 - Deletion of Reporting Requirement Specific NSHC used when a change does not fit the above Categories.

BVPS Units 1 and 2 Page 4 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.1 & L.1 CTS 3.1.1.1 Actions state that when the SDM is less than the limit, boration 3.1.1 Action A 3.1.1.1 Actions 3 3.1.2 must be initiated immediately. ITS 3.1.1 Action A states that when SDM is CTS 3.1.1.1 less than the limit, boration must be initiated within 15 minutes. This changes the CTS by relaxing the Completion Time to initiate boration from immediately to 15 minutes.

ITS 3.1.1 & L.2 CTS 3.1.1.1 Actions state that when the SDM is not within its limit, boration 3.1.1 Action A 3.1.1.1 Actions 4 3.1.2 must be initiated and continued 30 gpm of 7000 ppm boric acid solution or CTS 3.1.1.1 equivalent until the required SDM is restored. ITS 3.1.1 Action A states that with the SDM not within limit, initiate boration to restore SDM to within limit.

This changes the CTS by eliminating from the Required Action the specific values of flow rate and boron concentration used to restore compliance with the LCO.

ITS 3.1.1 & L.3 CTS Surveillance 4.1.1.1.1.c requires that SDM be verified at least once SR 3.1.6.1 4.1.1.1.1.c 7 3.1.2 during control rod withdrawal and at least once per hour thereafter with Keff <

CTS 3.1.1.1 1.0 (## footnote). The corresponding ISTS surveillance (SR 3.1.6.1) specifies that estimated critical control bank position be verified within the limits specified in the COLR within 4 hours0.167 days <br />0.0238 weeks <br />0.00548 months <br /> prior to achieving criticality. The CTS surveillance is revised to conform to the ISTS. This changes the CTS by moving the surveillance to the Control Bank Insertion Limits TS, eliminating the need for the ## footnote, and reducing the number of times that the surveillance is required to be performed during the approach to criticality.

ITS 3.1.1 & L.4 CTS Surveillance 4.1.1.1.1.d requires verification that SDM is within its limit, NA 4.1.1.1.1.d 5 3.1.2 Prior to initial operation above 5% RATED THERMAL POWER after each fuel CTS 3.1.1.1 loading, by consideration of the factors of e below, with the control banks at the maximum insertion limit of Specification 3.1.3.6. The ITS does not contain a similar requirement. The CTS is revised to conform to the ISTS.

ITS 3.1.1 & L.5 Not Used.

3.1.2 CTS 3.1.1.1 BVPS Units 1 and 2 Page 5 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.1 & L.6 CTS Surveillance 4.1.1.1.2 requires the overall core reactivity balance to be SR 3.1.2.1 4.1.1.1.2 7 3.1.2 compared with the predicted value once per 31 EFPD. The CTS also requires CTS 3.1.1.1 the predicted reactivity values to be adjusted (normalized) to the actual core conditions prior to exceeding a fuel burnup of 60 EFPD after each fuel loading.

ITS SR 3.1.2.1 also requires the measured core reactivity to be compared to the predicted values every 31 EFPD, but the ITS SR is only required after 60 EFPD of core burnup. The ITS also allows the adjustment of the predicted values to the actual values prior to exceeding a fuel burnup of 60 EFPD after each fuel loading. This changes the CTS by not requiring the at-power core reactivity comparison until core burnup reaches 60 EFPD.

ITS 3.1.1 & L.7 CTS 3.1.1.1 addresses the requirement to maintain SDM within the required 3.1.2 Actions 3.1.1.1 Actions 4 3.1.2 limits and contains requirements that pertain to the core reactivity balance.

CTS 3.1.1.1 However, CTS 3.1.1.1 does not contain specific Actions that address the condition of the core reactivity balance requirements not met. Therefore, if the core reactivity balance Surveillance was not met, LCO 3.0.3 may be determined to be applicable. In the ISTS, a separate specification (ITS 3.1.2) is created for core reactivity that contains specific Actions designed for the condition of not meeting the core reactivity balance requirements. The new ITS Actions change the CTS by providing 7 days to evaluate and provide compensatory measures for not meeting the core reactivity balance requirements and then requiring entry into MODE 3 instead of requiring a relatively immediate shutdown and entry into MODE 5.

ITS 3.1.1 & L.8 The CTS SDM Surveillance 4.1.1.1.2 requires the overall core reactivity 3.1.2 Applicability 3.1.1.1 2 3.1.2 balance be compared to predicted values to demonstrate agreement within +/- Applicability CTS 3.1.1.1 1% k/k. The CTS SDM specification was applicable in Modes 1 through 4.

ITS LCO 3.1.2 requires "the measured core reactivity shall be within +/-1% k/k of predicted values." The CTS is revised to conform to the ITS. This changes the CTS by creating a new LCO, for core reactivity requirements, that is applicable only in Modes 1 and 2 instead of Modes 1-4.

ITS 3.1.1 L.1 CTS 3.1.1.2 Actions state that when the SDM is less than the limit, boration 3.1.1 Action A 3.1.1.2 Actions 3 CTS 3.1.1.2 must be initiated immediately. ITS 3.1.1 Action A states that when SDM is less than the limit, boration must be initiated within 15 minutes. This changes the CTS by relaxing the Completion Time to initiate boration from immediately to 15 minutes.

BVPS Units 1 and 2 Page 6 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.1 L.2 CTS 3.1.1.2 Actions state that when the SDM is not within its limit, boration 3.1.1 Action A 3.1.1.2 Actions 4 CTS 3.1.1.2 must be initiated and continued 30 gpm of 7000 ppm boric acid solution or equivalent until the required SDM is restored. ITS 3.1.1 Action A states that with the SDM not within limit, initiate boration to restore SDM to within limit.

This changes the CTS by eliminating from the Required Action the specific values of flow rate and boron concentration used to restore compliance with the LCO.

ITS-NA NONE CTS 3.1.1.3 ITS 3.1.3 L.1 CTS 3.1.1.4 Actions specify that when any of the MTC limits are not met the 3.1.3 Action 3.1.1.4 Actions 4 CTS 3.1.1.4 unit must be placed in Hot Standby (Mode 3) within 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br />. The corresponding ISTS Actions address each MTC limit separately. The CTS Actions are revised consistent with the ISTS Actions. This changes the CTS by 1) Not requiring a 6-hour shutdown to Mode 3 when the MTC limit is not met and providing 24 hours1 days <br />0.143 weeks <br />0.0329 months <br /> in which to establish administrative rod withdrawal limits to maintain MTC within the required limit, and 2) If the first Action is not complete within 24 hours1 days <br />0.143 weeks <br />0.0329 months <br /> and a reduction in power is required, the unit is only required to be placed in Mode 2 with Keff < 1.0 instead of Mode 3.

ITS 3.1.8 L.1 CTS 3.1.2.9 Action 1 states: "Immediately suspend all operations involving 3.1.8 Action 3.1.2.9 Action 4 CTS 3.1.2.9 positive reactivity changes, CORE ALTERATIONS or any use of the Primary Grade Water System with the Charging System." The corresponding BVPS specific ITS Action states that CORE ALTERATIONS and positive reactivity additions be suspended immediately. The proposed BVPS ITS Action is more consistent with the corresponding ISTS Actions. This changes the CTS by eliminating the Action requirement to immediately suspend any use of the primary grade water system with the charging system.

ITS 3.1.8 L.2 CTS 3.1.2.9 Action statement 3 requires that SDM be verified within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. 3.1.8 Action 3.1.2.9 Action 3 CTS 3.1.2.9 The corresponding ISTS Action allows up to 4 hours0.167 days <br />0.0238 weeks <br />0.00548 months <br /> for SDM to be verified.

The CTS Action is revised to allow 4 hours0.167 days <br />0.0238 weeks <br />0.00548 months <br /> to verify SDM consistent with the ISTS.

BVPS Units 1 and 2 Page 7 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.4 L.1 Unit 1 only. The CTS LCO 3.1.3.1 for rod alignment limits and rod operability 3.1.4 LCO and SR 3.1.3.1 and 1,7 CTS 3.1.3.1 states "all full length shutdown and control rods shall be OPERABLE and 3.1.3.2 positioned within +/- 12 steps (indicated position, as determined in accordance with Specification 3.1.3.2) of their group step counter demand position". The CTS LCO references Specification 3.1.3.2 for determining rod positions. The allowances provided by the notes in CTS 3.1.3.2 for the Unit 1 analog rod position indication system accuracy are simplified and moved into ITS Specification 3.1.4 for rod operability and rod alignment limits. The CTS notes are modified in two ways; 1) To clearly apply the one hour thermal soak time to all power levels instead of less than 50% and 2) The exception to +/-12 step requirement during rod insertion and withdrawal provided by the Mode 2 footnote is simplified to apply "during rod motion". A similar exception is proposed for the associated surveillance requirement. The standard TS in the ISTS for rod operability and alignment limits and rod position indication systems do not contain similar notes.

ITS 3.1.4 L.2 CTS 3.1.3.1, Actions require satisfying the SHUTDOWN MARGIN (SDM) 3.1.4 Action 3.1.3.1 Action 4 CTS 3.1.3.1 requirement. The corresponding ISTS Actions require verification that the SDM is within the limit or initiation of boration to restore SDM to within the limit. This changes the CTS by providing the additional option to initiate action to establish compliance with the SDM requirement within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />.

ITS 3.1.4 L.3 CTS Action "c" states in part "with one full length rod trippable but inoperable 3.1.4 Action 3.1.3.1 Action 4 CTS 3.1.3.1 due to causes other than addressed by ACTION a above, or misaligned from its group step counter demand position." The corresponding ISTS Action states "one rod not within alignment limits". The CTS Action is revised to conform to the ISTS Action. This changes the CTS Action by eliminating references to rods that are trippable but inoperable for causes other than addressed by Action "a". CTS Action "a" addresses untrippable rods. By eliminating the condition of inoperable for causes other than untrippable, the focus of the CTS 3.1.3.1 is narrowed to address only untrippable and misaligned rods. As such CTS Action "c" is revised to only address a misaligned rod and references to inoperable rods are deleted from all sections of CTS Action c.

ITS 3.1.4 L.4 CTS 3.1.3.1, Action c.3.a) states in part that with one rod misaligned, 3.1.4 Action 3.1.3.1 Action 3 CTS 3.1.3.1 THERMAL POWER must be reduced to 75% of RATED THERMAL POWER within the hour. The corresponding ISTS 3.1.4 Action (B.2.2), requires THERMAL POWER to be reduced to 75% RTP within 2 hours0.0833 days <br />0.0119 weeks <br />0.00274 months <br />. The CTS Action Completion Time is revised to conform to the ISTS. This changes the CTS by changing the Completion Time from one hour to two hours.

BVPS Units 1 and 2 Page 8 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.4 L.5 CTS 3.1.3.1, Action c.3.a) requires that with one rod misaligned, THERMAL 3.1.4 Action 3.1.3.1 Action 4 CTS 3.1.3.1 POWER be reduced to 75% of RATED THERMAL POWER and that the high neutron flux trip setpoint be reduced to 85% of RTP within the next 4 hours0.167 days <br />0.0238 weeks <br />0.00548 months <br />. The corresponding ISTS 3.1.4, Required Action B.2.2, requires THERMAL POWER to be reduced to 75% RTP, but does not require the high neutron flux trip setpoint to be reduced. The CTS is revised to conform to the ISTS. This changes the CTS by eliminating the Required Action to reduce the high neutron flux trip setpoint.

ITS 3.1.4 L.6 CTS 3.1.3.1, Action c.3.d), states that when a rod is misaligned, POWER 3.1.4 Action 3.1.3.1 Action 4 CTS 3.1.3.1 OPERATION may continue if a reevaluation of each accident analysis of Table 3.1-1 is performed within 5 days. This re-evaluation shall confirm that the previous analyzed results of these accidents remain valid for the duration of operation under these conditions. The corresponding ISTS Action states that when one rod misaligned, re-evaluate the safety analyses and confirm results remain valid for the duration of operation under these conditions. The CTS is revised to conform with the ISTS. This changes the CTS by eliminating the specific list of accident analyses (Table 3.1-1) that must be re-evaluated. The ISTS Bases for this Action describes that the applicable safety analyses in the UFSAR must be re-evaluated.

ITS 3.1.4 L.7 CTS 3.1.3.1 Action d states in part " With more than one rod trippable but NA 3.1.3.1 Action 4 CTS 3.1.3.1 inoperable due to causes other than addressed by Action a above." CTS Action a addresses rods that are inoperable because they are untrippable.

The ISTS does not have an Action that corresponds to CTS Action d. The CTS is revised to conform to the ISTS. This change results in the deletion of CTS Action d. By eliminating the Action for rods inoperable for causes other than untrippable, the focus of the CTS 3.1.3.1 is narrowed to address only untrippable and misaligned rods.

ITS 3.1.4 L.8 CTS surveillance 4.1.3.1.1 requires the movement of rods +/- 10 steps every 31 SR 3.1.4.2 4.1.3.1.1 7 CTS 3.1.3.1 days to verify freedom of movement. The corresponding ISTS surveillance (SR 3.1.4.2) is only required to be performed every 92 days. The CTS surveillance is revised to conform to the ISTS. This changes the CTS by extending the surveillance interval for verifying rod movement from 31 days to 92 days.

BVPS Units 1 and 2 Page 9 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.7.2 L.1 CTS 3.1.3.2 Action a states that "with a maximum of one digital rod position 3.1.7.2 Action 3.1.3.2 Action 4 CTS 3.1.3.2 indicator per bank inoperable." The corresponding ISTS Action states "one DRPI inoperable per group." The CTS Action is revised to be consistent (Unit 2) with the ISTS Action. This changes the CTS by allowing one inoperable rod indicator per group instead of one inoperable rod indicator per bank.

ITS 3.1.7.2 L.2 CTS 3.1.3.2 does not have an action for more than one Rod Position Indicator 3.1.7.2 Action 3.1.3.2 Action 4 CTS 3.1.3.2 Channel inoperable per group. CTS 3.0.3 would be entered in this condition.

CTS 3.0.3 requires a shutdown to MODE 3 within 7 hours0.292 days <br />0.0417 weeks <br />0.00959 months <br />. ITS 3.1.7.2, (Unit 2) Condition B, applies when more than one RPI per group is inoperable and requires the rods to be placed under manual control immediately, monitoring and recording of RCS Tavg once per hour, verification of rod position using the movable incore detectors once per 8 hours0.333 days <br />0.0476 weeks <br />0.011 months <br />, and restoration of all but one RPI to OPERABLE status within 24 hours1 days <br />0.143 weeks <br />0.0329 months <br />. This changes the CTS by allowing operation for an additional 24 hours1 days <br />0.143 weeks <br />0.0329 months <br /> with more than one RPI per group inoperable.

ITS 3.1.7.2 L.3 CTS 4.1.3.2.1 specifies that "each digital rod position indicator shall be NA 4.1.3.2.1 5 CTS 3.1.3.2 determined to be OPERABLE by verifying that the Demand Position Indication System and the Digital Rod Position Indication System agree within 12 steps (Unit 2) at least once per 12 hours0.5 days <br />0.0714 weeks <br />0.0164 months <br />". The ISTS does not contain a corresponding surveillance. The CTS is revised consistent with the ISTS by deleting CTS 4.1.3.2.1.

ITS 3.1.7.2 L.4 CTS 4.1.3.2.2 requires that "each digital rod position indicator shall be SR 3.1.7.2.1 4.1.3.2.2 7 CTS 3.1.3.2 determined to be OPERABLE by verifying that the digital rod position indicators agree with the demand position indicators within 12 steps over the (Unit 2) full-range of indicated rod travel at least once per 18 months". The corresponding ISTS surveillance (ITS SR 3.1.7.2.1) requires that this surveillance be performed "once prior to criticality after each removal of the reactor head." The CTS surveillance frequency is revised to conform to the ISTS surveillance frequency. This changes the CTS by removing the fixed surveillance interval of 18 months and providing a frequency that requires the surveillance to be performed each time the reactor vessel head is removed.

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Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.7.1 L.1 CTS 3.1.3.2 contains a footnote to the LCO requirement that states; " 3.1.7.1 3.1.3.2 LCO Note 8 CTS 3.1.3.2 Malfunctions of the group demand counters or analog RPI, providing no actual rod misalignment existed during the malfunction, shall be reported". The (Unit 1) corresponding ISTS does not contain any reporting requirements. The CTS is revised to conform to the ISTS. This changes the CTS by deleting the reporting requirement in the footnote.

ITS 3.1.7.1 L.2 In CTS 3.1.3.2, the LCO requirement for the individual rod position indication 3.1.7.1 LCO, 3.1.3.2 LCO, 1, 4, 7 CTS 3.1.3.2 system accuracy and the corresponding Action and surveillance requirements Action, SR Action, SR are modified by Notes that state " During the first hour following rod motion, (Unit 1) the group demand counter is the primary indicator of precise rod position information, with the analog channels displaying general rod movement information. For power levels below 50%, a 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> thermal soak time is allowed before the analog channels are required to perform within the specified accuracy". In addition, the Mode 2 applicability requirement for CTS 3.1.3.2 Position Indicating Systems - Operating includes another note (#

footnote) that provides a further exception to meeting the +/-12 step requirement during reactor startup and shutdown operations when the rods are being withdrawn or inserted.

The CTS notes are modified in two ways; 1) To clearly apply the one hour thermal soak time to all power levels instead of those less than 50%. This is accomplished by revising the LCO and surveillance note to simply state that the verification of individual rod positions within the required +/- 12 steps is not required for up to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> following rod motion and, 2) The exception to +/-12 step requirement during rod insertion and withdrawal provided by the Mode 2 footnote is revised to simply apply "during rod motion". A similar exception is proposed for the alignment limit surveillance which also requires this level of indication accuracy. The ISTS does not have corresponding requirements.

ITS 3.1.7.1 L.3 CTS 3.1.3.2 Action b.1 states "Verify that all rod position indicators for the 3.1.7.1 Action 3.1.3.2 Action 4 CTS 3.1.3.2 affected bank are OPERABLE and that the most withdrawn rod and the least withdrawn rod of the bank are within a maximum of 12 steps (indicated (Unit 1) position) of each other at least once per 8 hours0.333 days <br />0.0476 weeks <br />0.011 months <br />." The corresponding ISTS Action does not specify that "indicated position" be used. The CTS Action is modified to delete the requirement to use "indicated position" consistent with the ISTS.

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Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.7.1 L.4 CTS 3.1.3.2 Action "c" is applicable " With a maximum of one analog rod 3.1.7.1 Action 3.1.3.2 Action 4 CTS 3.1.3.2 position indicator per bank inoperable." The corresponding ISTS Action allows one rod position indicator per group to be inoperable. The CTS is (Unit 1) revised to incorporate the ISTS allowance for one rod per group to be inoperable. This changes the CTS by allowing more inoperable rod position indicators at any given time.

ITS 3.1.7.1 L.5 CTS 3.1.3.2 Actions c.1.a-e specify the requirements that must be met for 3.1.7.1 Actions 3.1.3.2 Actions 4 CTS 3.1.3.2 each inoperable rod position indicator. The CTS Actions require that the rod position be verified by measuring primary voltage immediately and every 4 (Unit 1) hours if rods are not fully inserted and once every 24 hours1 days <br />0.143 weeks <br />0.0329 months <br /> if the affected rods are fully inserted or withdrawn. In addition, the CTS Actions contain provisions to use the incore instrumentation to determine rod position if the rod position can not be determined by primary voltage measurements. When using the incore instrumentation the affected rod position must be determined once per 8 hours0.333 days <br />0.0476 weeks <br />0.011 months <br /> and immediately after movement exceeding 24 steps in one direction since the last determination of rod position. The corresponding ISTS Actions for an inoperable indicator require that rod position be verified using incore instrumentation every 8 hours0.333 days <br />0.0476 weeks <br />0.011 months <br /> and within 4 hours0.167 days <br />0.0238 weeks <br />0.00548 months <br /> after rod movement in excess of 24 steps in one direction since the last determination of rod position.

The CTS Actions c.1.a-e are revised to be more consistent with the ISTS Actions. The CTS Actions are replaced with proposed ITS Actions B.1 and D.1.

ITS 3.1.7.1 L.6 CTS 3.1.3.2 does not have an action for more than one Rod Position Indicator 3.1.7.1 Actions 3.1.3.2 Actions 4 CTS 3.1.3.2 Channel is inoperable per group. CTS 3.0.3 would be entered in this condition. CTS 3.0.3 requires a shutdown to MODE 3 within 7 hours0.292 days <br />0.0417 weeks <br />0.00959 months <br />. ITS (Unit 1) 3.1.7.1, Condition C, applies when more than one RPI per group is inoperable and requires the rods to be placed under manual control immediately, monitoring and recording of RCS Tavg once per hour, verification of rod position using the movable incore detectors once per 8 hours0.333 days <br />0.0476 weeks <br />0.011 months <br />, and restoration of all but one RPI to OPERABLE status within 24 hours1 days <br />0.143 weeks <br />0.0329 months <br />. This changes the CTS by allowing operation for an additional 24 hours1 days <br />0.143 weeks <br />0.0329 months <br /> with more than one RPI per group inoperable.

BVPS Units 1 and 2 Page 12 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.7.1 L.7 CTS 3.1.3.2 Action c.1.f states "If the position of more than one rod cannot be 3.1.7.1 Actions 3.1.3.2 Actions 4 CTS 3.1.3.2 determined by either the direct reading of the rod position indicators or by reading primary detector voltage measurements, then Specification 3.0.3 is (Unit 1) applicable." The ISTS does not have an Action that corresponds exactly with CTS Action c.1.f. The ISTS does, however, contain a default Action Condition (i.e., an Action that applies when the other Actions were not met within their required Completion Times). The ISTS default Action states "Required Action and associated Completion Time not met. Be in Mode 3 in 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br />." The CTS Action c.1.f is replaced with the standard ISTS default Action for this TS. This changes the CTS by eliminating the reference to LCO 3.0.3 and only requiring the plant to be removed from the applicable Modes of the TS when the Actions and associated Completion Times are not met.

ITS 3.1.7.1 L.8 CTS surveillance 4.1.3.2.1.a states "Each of the group demand counters shall NA 4.1.3.2.1 5 CTS 3.1.3.2 be determined to be OPERABLE by performing a CHANNEL CHECK by the group demand counters within a bank." The ISTS does not include this (Unit 1) surveillance requirement. The CTS is revised to conform to the ISTS. This changes the CTS by deleting surveillance 4.1.3.2.1.a.

ITS 3.1.7.1 L.9 CTS surveillance 4.1.3.2.2.a requires that the rod position indicators be NA 4.1.3.2.2.a 5 CTS 3.1.3.2 verified operable by " Performing a CHANNEL CHECK by intercomparison**

between each analog rod position indicator and its corresponding group (Unit 1) demand counter at least once per 12 hours0.5 days <br />0.0714 weeks <br />0.0164 months <br />. The ** footnote provides a one hour thermal soak time below 50% power to allow the rod position indication (RPIs) to stabilize. The surveillance is performed to verify the LCO requirement for the RPIs to indicate within +/- 12 steps of the demand position indicators. The ISTS does not include a corresponding surveillance in the RPI TS. The CTS is revised to conform to the ISTS. This changes the CTS by deleting surveillance 4.1.3.2.2.a.

ITS 3.1.7.1 L.10 The CTS 3.1.3.2 # footnote to the Mode 2 applicability contains procedural 3.1.7.1 3.1.3.2 # footnote 2 CTS 3.1.3.2 guidance that is intended to assist in stabilizing the rod position indication Applicability within the one hour thermal soak time. The guidance states that "To attain (Unit 1) thermal equilibrium during the one hour soak time, the absolute value of rod motion shall not exceed 6 steps." The corresponding ISTS does not contain any similar requirements or footnotes. The proposed change revises the statement in the BVPS specific footnote so that it reads "To attain thermal equilibrium during the one hour soak time, the absolute value of rod motion SHOULD not exceed 6 steps." This changes the CTS by relaxing the requirement to restrict rod motion during the one hour thermal soak period.

BVPS Units 1 and 2 Page 13 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.7.1 L.11 CTS surveillance 4.1.3.2.2.b requires " Verifying that the analog rod position SR 3.1.7.1.2 4.1.3.2.2.b 7 (1)

CTS 3.1.3.2 indicators agree with the demand position indicators within 12 steps over the full-range of indicated rod travel at least once per 18 months." The (Unit 1) corresponding ISTS surveillance (ITS SR 3.1.7.1.2) requires that this surveillance be performed "once prior to criticality after each removal of the reactor head." The CTS surveillance frequency is revised to conform to the ISTS surveillance frequency. This changes the CTS by removing the fixed surveillance interval of 18 months and providing a frequency that requires the surveillance to be performed each time the reactor vessel head is removed.

ITS 3.1.4 L.1 CTS 3.1.3.4 contains the specific requirements for rod drop time testing. The 3.1.4 Surveillance 3.1.3.4 LCO 1 CTS 3.1.3.4 CTS specifies an RCS (Tavg) temperature of 541°F. The corresponding ISTS requirement specifies a Tavg of 500°F. The CTS temperature requirement is revised to conform to the ISTS requirement. This changes the CTS by lowering the required temperature at which rod drop time must be verified. This change will allow drop time testing to begin earlier during a startup following a refueling outage.

ITS 3.1.4 L.2 CTS 3.1.3.4 contains the requirements for rod drop testing. CTS 3.1.3.4 3.1.4 Applicability 3.1.3.4 2 CTS 3.1.3.4 specifies the Mode of Applicability for rod drop testing as Mode 3. The Applicability corresponding ISTS (3.1.4) specifies an Applicability requirement of Modes 1 and 2. The CTS is revised to conform to the ISTS. This changes the CTS by requiring the rod drop time requirement to be met in Modes 1 and 2 and not in Mode 3.

ITS 3.1.4 L.3 CTS 4.1.3.4 requires the rod drop time of full length rods to be demonstrated NA 4.1.3.4 5 CTS 3.1.3.4 through measurement prior to reactor criticality for specifically affected individual rods following any maintenance on or modification to the control rod drive system which could affect the drop time of those specific rods. The ISTS does not include this testing requirement. The CTS is revised to conform to the ISTS. This change deletes the CTS surveillance.

ITS 3.1.4 L.4 CTS 4.1.3.4 requires the rod drop time of full length rods to be demonstrated SR 3.1.4.3 4.1.3.4.c 7 CTS 3.1.3.4 through measurement prior to reactor criticality at least once per 18 months.

The ISTS does not include the 18-month testing requirement. The CTS is revised to conform to the ISTS. This eliminates the CTS requirement 4.1.3.4.c to verify rod drop times every 18 months.

BVPS Units 1 and 2 Page 14 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.1.5 L.1 CTS LCO 3.1.3.5 states, All shutdown rods shall be within the insertion limits 3.1.5 LCO and 3.1.3.5 LCO and 1,4 CTS 3.1.3.5 specified in the CORE OPERATING LIMITS REPORT. CTS 3.1.3.5, Action Actions Actions a, applies when one shutdown rod is inserted beyond the insertion limits and requires, within one hour, restoration of the rod to within the insertion limits or declare the rod to be inoperable and apply Specification 3.1.3.1. ISTS LCO 3.1.5 states, Each shutdown bank shall be within insertion limits specified in the COLR. The Actions for ISTS 3.1.5 address one or more shutdown banks not within the limit. The CTS LCO and corresponding Actions are revised to be consistent with the ISTS. This changes the CTS by allowing more than one rod to be outside the insertion limits and including the appropriate Actions in the insertion limit specification instead of referencing Specification 3.1.3.1.

ITS 3.1.5 L.2 The CTS 3.1.3.5 Actions allow one hour to restore the affected rod to within 3.1.5 Action 3.1.3.5 Action 3 CTS 3.1.3.5 the insertion limits or to declare the rod inoperable which will result in the verification of SDM within the following hour and provide actions that allow for continued operation. Under the CTS, more than one rod not within the insertion limits would result in an CTS 3.0.3 entry. CTS 3.0.3 allows one hour to prepare for a shutdown and requires the plant to be in MODE 3 within the following 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br />. ISTS 3.1.5, Condition A, applies with one or more shutdown banks not within limits and requires SDM to be verified within one hour and allows 2 hours0.0833 days <br />0.0119 weeks <br />0.00274 months <br /> to restore the bank to within the insertion limits or requires the plant to be in MODE 3 in the following 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br />. The CTS Actions are revised to conform to the ISTS Actions. This changes the CTS by allowing an extension of the Action time for restoring the out of limit condition (i.e., from 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> in the CTS to 2 hours0.0833 days <br />0.0119 weeks <br />0.00274 months <br /> in the ISTS).

ITS 3.1.5 L.3 CTS Surveillance 4.1.3.5 requires that the rods be verified within the insertion NA 4.1.3.5 5 CTS 3.1.3.5 limits "within 15 minutes prior to withdrawal of any rods in control banks A, B, C, or D during an approach to reactor criticality." ITS 3.1.5 does not require verification that the shutdown rods are above the insertion limits within 15 minutes prior to criticality. This changes the CTS by eliminating the requirement that the shutdown banks be verified to be above the insertion limit within 15 minutes prior to criticality.

ITS 3.1.6 L.1 The CTS 3.1.3.6 default Action statement c, (applicable when other Actions 3.1.6 Action C 3.1.3.6 Action c 4 CTS 3.1.3.6 are not met) requires that the plant be placed in Mode 3 within 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br />. The corresponding ISTS default Action (Condition C) requires that the plant be in Mode 2 with Keff < 1.0. The CTS is revised to conform to the ISTS. This changes the CTS by reducing slightly the shutdown Action requirements.

BVPS Units 1 and 2 Page 15 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS - NA NONE CTS 3.10.1, 3.10.2, &

3.10.3 (U1)

ITS 3.1.9 L.1 ITS 3.1.9 states that the number of required channels for LCO 3.3.1, "RTS 3.1.9 LCO 3.10.3 and 3.10.4 1 CTS 3.10.3 Instrumentation," Functions 2, 3, 6, and 18.d, may be reduced to "3" required LCO (Unit 2) channels, during the performance of PHYSICS TESTS. The CTS (3.10.3 or 3.10.4) does not contain this allowance. The CTS is revised to conform to the CTS 3.10.4 ISTS. This changes the CTS by reducing LCO requirements for the number of (Unit 1) Power Range Neutron Flux channels from "4" to "3" during PHYSICS TESTS initiated in MODE 2.

ITS 3.1.9 L.2 CTS 4.10.3.2 requires that tests be performed on each Intermediate and SR 3.1.9.1 4.10.3.2 7 CTS 3.10.3 Power Range channel within 12 hours0.5 days <br />0.0714 weeks <br />0.0164 months <br /> prior to initiating PHYSICS TESTS.

(Unit 2) The corresponding ISTS surveillance (ITS SR 3.1.9.1) requires that the testing be performed prior to initiation of PHYSICS TESTS in accordance with CTS 3.10.4 the existing instrumentation TS (3.3.1) surveillances (ITS SR 3.3.1.6 and ISTS (Unit 1) SR 3.3.1.7). The CTS is revised to conform to the ISTS. This changes the CTS by eliminating the additional test required within a specific time prior to the initiation of PHYSICS TESTS.

ITS 3.1.9 L.3 CTS 3.10.4, PHYSICS TESTS, provides exceptions to several LCOs in order 3.1.9 LCO 3.10.4 LCO 1 CTS 3.10.3 to perform routine post refueling outage physics testing. The corresponding (Unit 2) ISTS PHYSICS TEST Exception (ITS 3.1.9) contains one additional exception that is not included in CTS 3.10.4. The ISTS Test Exception provides an CTS 3.10.4 exception to LCO 3.4.2, Minimum Temperature for Criticality. The ISTS also (Unit 1) contains Action and surveillance requirements to verify and maintain the RCS temperature within the required limit. The Unit 1 CTS 3.10.4 is revised to conform with the ISTS test exceptions. This changes CTS 3.10.4 by adding the exception to the LCO minimum temperature for criticality.

ITS 3.1.10 NONE CTS - NA BVPS Units 1 and 2 Page 16 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.1 - Reactivity Control Systems

• Change Categories:

1 - Relaxation of LCO Requirements 2 - Relaxation of Applicability 3 - Relaxation of Completion Time 4 - Relaxation of Required Action 5 - Deletion of Surveillance Requirement 6 - Relaxation of Surveillance Requirement Acceptance Criteria 7 - Relaxation of Surveillance Frequency 8 - Deletion of Reporting Requirement Specific NSHC used when a change does not fit the above Categories.

BVPS Units 1 and 2 Page 17 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.2 - Power Distribution Limits ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.2.3 NONE CTS 3.2.1 ITS 3.2.1 NONE CTS 3.2.2 ITS 3.2.2 L.1 CTS 3.2.3, Action a states that when FNH exceeds its limit, reduce THERMAL 3.2.2 Actions 3.2.3 Actions 3 CTS 3.2.3 POWER to less than 50% RTP within 2 hours0.0833 days <br />0.0119 weeks <br />0.00274 months <br /> and reduce the Power Range Neutron Flux - High trip setpoints to less than 55% of RTP within the next 4 hours0.167 days <br />0.0238 weeks <br />0.00548 months <br />. The corresponding ISTS 3.2.2, Actions A.1 and A.2 state that with FNH not within this limit, reduce THERMAL POWER to < 50% RTP within 4 hours0.167 days <br />0.0238 weeks <br />0.00548 months <br /> and reduce the Power Range Neutron Flux - High trip setpoints to 55% RTP within 72 hours3 days <br />0.429 weeks <br />0.0986 months <br />. The CTS is revised to conform to the ISTS. This changes the CTS by allowing a 4-hour Completion Time to reduce power to < 50% RTP and 72 hours3 days <br />0.429 weeks <br />0.0986 months <br /> to reduce the trip setpoint.

ITS 3.2.2 L.2 CTS 3.2.3, Action b requires that if FNH is not verified to be within the limit, 3.2.2 Action B 3.2.3 Action b 3 CTS 3.2.3 THERMAL POWER must be reduced to less than 5% within the next 2 hours0.0833 days <br />0.0119 weeks <br />0.00274 months <br />.

The corresponding ISTS 3.2.2, Action B states that with the Required Action and associated Completion Time not met, be in MODE 2 within 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br />. The CTS Action is revised to conform to the ISTS. This changes the CTS by allowing a 6 hour6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> Completion Time to reduce power to < 5% RTP instead of 2 hours0.0833 days <br />0.0119 weeks <br />0.00274 months <br />.

ITS 3.2.4 L.1 The CTS Action c requires the verification of peaking factors (perform 3.2.4 Action A.3 3.2.4 Action c 3 CTS 3.2.4 surveillances 4.2.2.2, 4.2.2.3, and 4.2.3.1) within 24 hours1 days <br />0.143 weeks <br />0.0329 months <br /> and once per 7 days thereafter. The corresponding ISTS Action A.3 requires that the peaking factors be verified 24 hours1 days <br />0.143 weeks <br />0.0329 months <br /> after achieving equilibrium condition from a thermal power reduction per Required Action A.1 and once per 7 days thereafter. The CTS Action is revised to conform to the ISTS Action.

BVPS Units 1 and 2 Page 18 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.2 - Power Distribution Limits ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.2.4 L.2 The performance of CTS surveillance 4.2.4 is modified by two notes that SR 3.2.4.1 4.2.4 7 CTS 3.2.4 specify the power level at which QPTR may be verified by calculation or by the use of the movable incore detectors. The notes are only applicable when one or more power range channel inputs are inoperable. CTS Note 2 currently specifies that with one inoperable power range channel input, QPTR may be performed by calculation if the power level is less than 75% RTP. CTS Note 3 specifies that with less than four operable power range channel inputs QPTR must be verified using the movable incore detectors with power greater than or equal to 75% RTP. The corresponding ISTS surveillance notes allow QPTR to be determined by calculation at power levels less than or equal to 75% RTP with the input from one power range channel inoperable. Conversely the ISTS only requires the use of movable incore detectors when one or more power range channels are inoperable at power levels greater than 75% RTP. The CTS is revised to be consistent with the ISTS. This changes the CTS by allowing QPTR to be determined by calculation at power levels up to and including 75% RTP instead of only less than 75% RTP. As such, the proposed change reduces the frequency at which QPTR must be verified by use of the movable incore detectors.

ITS 3.2.4 L.3 CTS surveillance 4.2.4.a requires that QPTR be verified by calculation every 7 SR 3.2.4.1 4.2.4.a 7 CTS 3.2.4 days. The corresponding ISTS surveillance SR 3.2.4.1 is similar to CTS 4.2.4.a except it is modified by Note 2 that allows SR 3.2.4.2 to be performed in lieu of verifying QPTR by calculation. SR 3.2.4.2 requires that QPTR be verified by use of the movable incore detectors. The CTS is revised to conform to the ISTS. This changes the CTS by providing the allowance to use a flux map to verify QPTR in place of performing a calculation based on the excore detector indications. Thus, the proposed change may reduce the number of calculations that must be performed when a flux map is available to substitute for the calculation.

• Change Categories:

1 - Relaxation of LCO Requirements 2 - Relaxation of Applicability 3 - Relaxation of Completion Time 4 - Relaxation of Required Action 5 - Deletion of Surveillance Requirement 6 - Relaxation of Surveillance Requirement Acceptance Criteria BVPS Units 1 and 2 Page 19 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.2 - Power Distribution Limits 7 - Relaxation of Surveillance Frequency 8 - Deletion of Reporting Requirement Specific NSHC used when a change does not fit the above Categories.

BVPS Units 1 and 2 Page 20 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.3A - 3.3.1, Reactor Trip System Instrumentation ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.3.1 L.1 Unit 2 Only. The CTS requirement for actuation logic test is revised to be 1.1 Definitions 3.3.1.1 6 CTS 3.3.1.1 consistent with the ISTS definition of ACTUATION LOGIC TEST. The CTS Surveillance and ISTS requirements are effectively the same with the exception of the ISTS footnote 1 allowance to use "simulated or actual" input combinations. This changes the CTS by allowing the use of an actual signal instead of a simulated signal to perform the Surveillance if sufficient information is collected to satisfy the surveillance test requirement.

ITS 3.3.1 L.2 The following CTS RTS Functions: Function 9, Pressurizer Pressure Low, Table 3.3.1-1 Table 3.3-1 2 CTS 3.3.1.1 Function 11, Pressurizer Water level High, Function 13, Loss of Flow, Function Functions Functions 16, Undervoltage RCP Bus, Function 17, Under Frequency RCP Bus, and Function 20, RCP Breaker Position are interlocked with P-7. However, the Applicable Modes identified for these RTS Functions in Table 3.3-1 require that the Functions be maintained operable throughout Mode 1 operation and in some cases during Mode 2 as well. The corresponding Functions in ISTS Table 3.3.1-1 that are interlocked with P-7 have an Applicability specified that only requires the Functions to be operable in Mode 1 above the P-7 interlock.

The affected CTS Functions are revised to conform to the ISTS Applicability of Mode 1 above the P-7 interlock. This changes the CTS by eliminating the current Applicable Mode requirements below the P-7 interlock.

ITS 3.3.1 L.3 CTS table 3.3-1 Note (1) states that the "trip function may be manually bypassed Note (b) Note (1) 2 CTS 3.3.1.1 in this MODE above P-10." The CTS Note is used to modify the applicability for certain RTS Functions associated with the P-10 interlock. The corresponding ISTS Note (b) states; "Below the P-10 (Power Range Neutron Flux) interlocks.

The ISTS Note is also used to modify the Applicability of RTS Functions associated with the P-10 interlock. The CTS is revised to conform to the ISTS.

This changes the CTS by relaxing the Mode 1 applicability such that the RTS Functions are only required operable below the P-10 interlock.

ITS 3.3.1 L.4 The CTS Applicability for the Intermediate Range (IR) Neutron Flux RTS Function IR Applicability IR Applicability 2 CTS 3.3.1.1 requires the Function Operable in Mode 1 (<P-10), Mode 2, and in Modes 3, 4, and 5 with the reactor trip breakers in the closed position and the control rod drive system capable of rod withdrawal. The ISTS applicability for the RTS IR Function only requires that Function operable in Mode 1 (<P-10) and in Mode 2 >P-6 (ISTS Note (c) to the Applicability). The CTS applicability is revised to conform to the ISTS applicability. This changes the CTS applicability by eliminating the requirement for the IR RTS Function to be operable below the P-6 interlock and adding ITS Note (f) to the Mode 2 applicability.

BVPS Units 1 and 2 Page 21 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.3A - 3.3.1, Reactor Trip System Instrumentation ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.3.1 L.5 CTS table 3.3-1 Note (2) states that the "trip function may be manually bypassed Note (g) Note (2) 2 CTS 3.3.1.1 in this MODE above P-6." The CTS Note is used to modify the applicability for the Source Range Instrumentation RTS Function. The corresponding ITS Note (g) states; "Below the P-6 (Intermediate Range Neutron Flux) interlocks. The ISTS Note is also used to modify the Applicability of the Source Range RTS Function. The CTS is revised to conform to the ISTS. This changes the CTS by relaxing the Mode 2 applicability of the Source Range RTS Function such that it is only required operable below the P-6 interlock.

ITS 3.3.1 L.6 The CTS RTS Functions 18a and 18b, Turbine trip on low Emergency Trip Table 3.3.1-1 Table 3.3-1 2 CTS 3.3.1.1 Header pressure (Unit 2) or low Auto Stop Oil pressure (Unit 1) and Turbine footnote (i) Functions Stop Valve Closure (both units) are interlocked with P-9. The Applicable Modes identified for these RTS Functions in Table 3.3-1 require that the Functions be maintained operable throughout Mode 1 operation. The corresponding Functions in ISTS Table 3.3.1-1 that are interlocked with P-9 have an Applicability specified that only requires the Functions to be operable in Mode 1 above the P-9 interlock. The affected CTS Functions are revised to conform to the ISTS Applicability of Mode 1 above the P-9 interlock. This changes the CTS by eliminating the current Applicable Mode requirement below the P-9 interlock.

ITS 3.3.1 L.7 The Applicability for CTS Function 23a, Intermediate Range Neutron Flux P-6 footnote (g) Function 23a 2 CTS 3.3.1.1 interlock, is specified as Mode 2 on CTS Table 3.3-1. The Applicability of the Applicability corresponding ISTS P-6 interlock Function 18a on Table 3.3.1-1 is Mode 2 below the P-6 interlock. The ITS Mode 2 Applicability for the P-6 interlock is annotated by footnote (g) which specifies the interlock Function is only required operable in Mode 2 at power levels below the P-6 interlock. The CTS Applicability for the P-6 interlock is revised to conform to the ISTS Applicability. This changes the CTS by eliminating any requirements for the P-6 interlock to be operable in Mode 2 at power levels above the P-6 interlock setpoint.

BVPS Units 1 and 2 Page 22 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.3A - 3.3.1, Reactor Trip System Instrumentation ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.3.1 L.8 CTS Action 12, applicable to the manual reactor trip RTS Function, states " With Action B & C Action 12 3, 4 CTS 3.3.1.1 the number of channels OPERABLE one less than required by the Minimum Channels OPERABLE requirement, restore the inoperable channel to OPERABLE status within 48 hours2 days <br />0.286 weeks <br />0.0658 months <br /> or be in HOT STANDBY within the next 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br /> and/or open the reactor trip breakers." The single CTS Action is revised to conform to the ISTS dual Action requirements (B & C) for this RTS Function.

This changes the CTS by eliminating the requirement to open the reactor trip breakers in 48 hours2 days <br />0.286 weeks <br />0.0658 months <br /> from CTS Action 12 and allowing an additional 48 hours2 days <br />0.286 weeks <br />0.0658 months <br /> once in Mode 3 to repair the inoperable manual trip channel before requiring that all rods be fully inserted and the rod control system rendered incapable of rod withdrawal.

ITS 3.3.1 L.9 CTS Action 39, applicable to the reactor trip breaker and automatic trip logic RTS Action C Action 39 4 CTS 3.3.1.1 Functions in Modes 3, 4, and 5, states in part "restore the inoperable channel to OPERABLE status within 48 hours2 days <br />0.286 weeks <br />0.0658 months <br /> or open the reactor trip breakers within the next hour." The corresponding ISTS Action C requires that the inoperable channel be restored to operable status in 48 hours2 days <br />0.286 weeks <br />0.0658 months <br /> or initiate action to fully insert all rods and within the following hour (49 hours2.042 days <br />0.292 weeks <br />0.0671 months <br />) place the rod control system in a condition incapable of rod withdrawal. The CTS Action is revised to conform to the ISTS Action. This changes the CTS by allowing an alternate means (other than open the reactor trip beakers) to be used to ensure the rods can not be withdrawn.

ITS 3.3.1 L.10 CTS action 2.a.1 states "place the inoperable channel in trip within 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br /> and Action D Action 2.a.1 4 CTS 3.3.1.1 reduce THERMAL POWER to less than or equal to 75 percent RATED THERMAL POWER within the next 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br /> and perform SR 4.2.4." The corresponding ISTS Required Actions associated with Condition D only require that the channel be placed in trip in 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br /> and that power be reduced to 75% RTP in the following 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br />. The ISTS Actions do not specify the performance of any surveillance when power has been reduced to 75%

RTP. The ISTS only specifies the performance of a surveillance if the power has not been reduced. The CTS Action 2 is revised to be consistent with the corresponding ISTS Action Condition D. This changes the CTS by eliminating the Action reference to perform SR 4.2.4.

BVPS Units 1 and 2 Page 23 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.3A - 3.3.1, Reactor Trip System Instrumentation ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.3.1 L.11 CTS Action 3, for the Intermediate Range (IR) Neutron Flux channels states: Actions F & G Action 3 4 CTS 3.3.1.1 "With the number of channels OPERABLE one less than required by the Minimum Channels OPERABLE requirement and with the THERMAL POWER level: a) Below P-6, restore the inoperable channel to OPERABLE status prior to increasing THERMAL POWER above the P-6 setpoint, b) Above P-6 but below 5 percent of RATED THERMAL POWER, restore the inoperable channel to OPERABLE status prior to increasing THERMAL POWER above 5 percent of RATED THERMAL POWER, and c) Above 5 percent of RATED THERMAL POWER, POWER OPERATION may continue. The corresponding ISTS Action Conditions F and G specify the following Actions: Condition F for a single inoperable channel requires that power be reduced below P-6 or increased above P-10 in 24 hours1 days <br />0.143 weeks <br />0.0329 months <br />. Condition G for two inoperable channels requires that operations involving positive reactivity additions be suspended immediately and that power be reduced to below P-6 in two hours. The Actions for Condition G are modified by a Note that allows limited plant cooldown or boron dilution provided the change is accounted for in the Shutdown Margin (SDM). The CTS Actions are revised to conform to the ISTS Action Conditions F and G. This changes the CTS by 1) eliminating Action requirements for the IR channels below the P-6 interlock, 2) allowing the option to increase power above the P-10 interlock instead of holding power between P-6 and 5% RTP until the inoperable Channel is repaired, and 3) providing Actions for two inoperable IR channels.

ITS 3.3.1 L.12 CTS Action statement 4a for the Source Range RTS Function states "MODE 2 Action H Action 4.a 4 CTS 3.3.1.1 (Below P-6); with one source range neutron flux channel inoperable, immediately suspend operations involving positive reactivity additions." The corresponding ISTS Action Condition H contains the same requirements as CTS Action 4a to suspend positive reactivity additions immediately but the ISTS Condition is modified by a Note that states "Limited plant cooldown or boron dilution is allowed provided the change is accounted for in the calculated

[Shutdown Margin] SDM." The CTS Action is revised to conform to the ISTS Condition. This changes the CTS by allowing limited plant cooldown or boron dilution to take place while in an Action that requires suspension of positive reactivity additions.

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Table L Less Restrictive Changes Section 3.3A - 3.3.1, Reactor Trip System Instrumentation ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.3.1 L.13 CTS Action statement 4b for the Source Range RTS Function states "MODE 3, 4 Action J Action 4b 4 CTS 3.3.1.1 and 5; with one source range neutron flux channel inoperable, restore the inoperable channel to OPERABLE status within 48 hours2 days <br />0.286 weeks <br />0.0658 months <br /> or open the reactor trip breakers within the next hour. The corresponding ISTS Action Condition J requires that with one source range neutron flux channel inoperable, the inoperable channel be restored to OPERABLE status within 48 hours2 days <br />0.286 weeks <br />0.0658 months <br /> or initiate action to fully insert all rods and place the rod control system in a condition incapable of rod withdrawal in the next hour (49 hours2.042 days <br />0.292 weeks <br />0.0671 months <br />). The CTS is revised to conform to the ISTS Action Condition. This changes the CTS by allowing an alternate means, in lieu of opening the reactor trip breakers, to be used to maintain all the rods fully inserted.

ITS 3.3.1 L.14 CTS Action 8 applicable to the turbine trip (stop valve closure) RTS Function Action L Action 8 4 CTS 3.3.1.1 states; "With the number of OPERABLE channels one less than the Total Number of Channels and with the THERMAL POWER level above P-9, place the inoperable channel in the tripped condition within 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br />; operation may continue until performance of the next required CHANNEL FUNCTIONAL TEST." The corresponding ITS Action Condition L for the turbine trip RTS Functions also requires the inoperable channel be placed in the tripped condition. However, the ISTS Condition does not contain a limitation on operation until the performance of the next required Channel Functional Test.

In addition, the ITS Condition contains the allowance to bypass an inoperable channel to allow testing of the other channels. The CTS Action 8 is revised to conform to the ITS Action Condition L. This changes the CTS Action by eliminating the provision that operation is limited to the performance of the Channel Functional Test and adding the provision that an inoperable channel may be bypassed for surveillance testing of other channels.

ITS 3.3.1 L.15 CTS Action 11 specifies that the inoperable channel be placed in the trip Action K Action 11 4 CTS 3.3.1.1 condition. The corresponding ITS Action Condition K also requires the inoperable channel to be placed in the trip condition. However, the ITS Condition K includes a Note with the provision that the inoperable channel may be bypassed for up to 4 hours0.167 days <br />0.0238 weeks <br />0.00548 months <br /> for surveillance testing of other channels. The CTS Action is revised to conform with the ITS Action. This changes the CTS by allowing an inoperable channel to be bypassed to facilitate surveillance testing of the other channels.

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Table L Less Restrictive Changes Section 3.3A - 3.3.1, Reactor Trip System Instrumentation ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.3.1 L.16 CTS Action 40b contains the requirements for an inoperable reactor trip breakers Action N Action 40b 3 CTS 3.3.1.1 (RTBs). This CTS Action address RTBs that are inoperable for reasons other than a diverse trip feature. The CTS Action requires that the plant be placed in Mode 3 within 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br />. The CTS Action does not allow any time for restoration.

The corresponding ISTS Condition N applicable to the RTBs contains a 1-hour restoration time before requiring the plant to be placed in Mode 3. The CTS is revised to conform to the ISTS. This changes the CTS by allowing 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> to repair an inoperable RTB before requiring that a shutdown to Mode 3 begin.

ITS 3.3.1 L.17 Unit 1 only. CTS Action 3, for the P-6 RTS Interlock states: "With the number of Action O Action 3 4 CTS 3.3.1.1 channels OPERABLE one less than required by the Minimum Channels OPERABLE requirement and with the THERMAL POWER level: a) Below P-6, restore the inoperable channel to OPERABLE status prior to increasing THERMAL POWER above the P-6 setpoint, b) Above P-6 but below 5 percent of RATED THERMAL POWER, restore the inoperable channel to OPERABLE status prior to increasing THERMAL POWER above 5 percent of RATED THERMAL POWER, c) Above 5 percent of RATED THERMAL POWER, POWER OPERATION may continue. The corresponding ITS Action Condition O for the P-6 Interlock specifies the following Actions when one or more required channels are inoperable: Verify the interlock is in the required state for existing unit conditions within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> or be in Mode 3 in 7 hours0.292 days <br />0.0417 weeks <br />0.00959 months <br />. The CTS Action is revised to conform to the ITS Action Condition O. This changes the CTS by providing a simple action to verify the interlock status, which can be done by visual observation of panel status lights, and eliminating requirements for restoring channels to operable status or restricting power increases.

ITS 3.3.1 L.18 Unit 1 only. CTS Action 12, applicable to the Unit 1 P-8, P-9, P-10, and P-13 Action O & P Action 12 4 CTS 3.3.1.1 RTS Interlocks states: With the number of channels OPERABLE one less than required by the Minimum Channels OPERABLE requirement, restore the inoperable channel to OPERABLE status within 48 hours2 days <br />0.286 weeks <br />0.0658 months <br /> or be in HOT STANDBY within the next 6 hours0.25 days <br />0.0357 weeks <br />0.00822 months <br /> and/or open the reactor trip breakers. The corresponding ITS Action Condition O and P for the RTS Interlocks specifies the following Actions when one or more required channels are inoperable: Verify the interlock is in the required state for existing unit conditions within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> or ITS Condition O specifies be in Mode 3 in 7 hours0.292 days <br />0.0417 weeks <br />0.00959 months <br /> and ITS Condition P specifies be in Mode 2 in 7 hours0.292 days <br />0.0417 weeks <br />0.00959 months <br />. The CTS Action is revised to conform to the ITS Action Condition O. This changes the CTS by providing a simple action to verify the interlock status, which can be done by visual observation of panel status lights, and eliminating requirements for restoring channels to operable status or opening the reactor trip breakers.

BVPS Units 1 and 2 Page 26 of 109 Rev. 1.5

Table L Less Restrictive Changes Section 3.3A - 3.3.1, Reactor Trip System Instrumentation ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.3.1 L.19 CTS Table 4.3-1 specifies the surveillance requirements for the RTS Functions. Intermediate Table 4.3-1 2 CTS 3.3.1.1 As part of the surveillance requirements, CTS Table 4.3-1 specifies the required Range Function Intermediate modes for performing the surveillances. In the case of the Intermediate Range Applicability Range Function RTS Function, CTS Table 4.3-1 specifies Mode 1 for performing surveillances. Applicability The corresponding ISTS requirements for the RTS Function do not include a separate Table for surveillance requirements. All the requirements associated with an RTS Function are presented in ISTS Table 3.3.1-1. In addition the ISTS, does not require the Intermediate Range RTS Function to be operable above P-10 (approximately 10% RTP). CTS Table 3.3-1 which also contains Applicable Modes for the RTS Function specifies the Intermediate Range Function may be bypassed above P-10. The CTS applicable Mode specified in Table 4.3-1 for the Intermediate Range RTS Function is revised to conform to the ISTS and to be more consistent with the Mode specified on CTS Table 3.3-1. This changes the CTS by combining the requirements for the RTS Functions into a single Table and relaxing the current Mode 1 requirement for performing surveillances by the addition of Footnote (b) to Mode 1 which identifies that the Function is only required in Mode 1 below P-10.

ITS 3.3.1 L.20 CTS Table 4.3-1 specifies the surveillance requirements for the RTS Functions. Source Range Table 4.3-1 2 CTS 3.3.1.1 As part of the surveillance requirements, CTS Table 4.3-1 specifies the required Function Source Range modes for performing the surveillances. In the case of the Source Range RTS Applicability Function Function, CTS Table 4.3-1 specifies Mode 2 for performing surveillances. The Applicability corresponding ISTS requirements for the RTS Function do not include a separate Table for surveillance requirements. All the requirements associated with an RTS Function are presented in ISTS Table 3.3.1-1. In addition the ISTS, does not require the Source Range RTS Function to be operable above P-6 (approximately 9 X 10 -11 amps). CTS Table 3.3-1 which also contains Applicable Modes for the RTS Function specifies the source Range Function may be bypassed above P-6. The CTS applicable Mode specified in Table 4.3-1 for the Source Range RTS Function is revised to conform to the ISTS and to be more consistent with the Mode specified on CTS Table 3.3-1. This changes the CTS by combining the requirements for the RTS Functions into a single Table and relaxing the current Mode 2 requirement for performing surveillances by the addition of Footnote (d) to Mode 2 which identifies that the Function is only required in Mode 2 below P-6.

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Table L Less Restrictive Changes Section 3.3A - 3.3.1, Reactor Trip System Instrumentation ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.3.1 L.21 CTS Table 4.3-1 specifies the surveillance requirements for the RTS Functions. Turbine Trip Table 4.3-1 2 CTS 3.3.1.1 As part of the surveillance requirements, CTS Table 4.3-1 specifies the required Function Turbine Trip modes for performing the surveillances. In the case of the Turbine Trip RTS Function Function, CTS Table 4.3-1 specifies Mode 2 for performing surveillances. The corresponding ISTS requirements for the RTS Function do not include a separate Table for surveillance requirements. All the requirements associated with an RTS Function are presented in ISTS Table 3.3.1-1. In addition the ISTS, does not require the Turbine Trip RTS Function to be operable below P-9 (49% RTP). In addition, CTS Table 3.3-1 only specifies Mode 1 for this RTS Function. The CTS applicable Mode specified in Table 4.3-1 for the Turbine Trip RTS Function is revised to conform to the ISTS and to be more consistent with the "Above P-9" permissive noted in the Function title on Tables 3.3-1 and 4.3-1. This changes the CTS by combining the requirements for the RTS Functions into a single Table and deleting the current Mode 2 requirement for performing surveillances.

ITS 3.3.1 L.22 CTS Table 4.3-1 specifies the surveillance requirements for the RTS Functions. P-6 Function Table 4.3-1 P-6 2 CTS 3.3.1.1 As part of the surveillance requirements, CTS Table 4.3-1 specifies the required Applicability Function modes for performing the surveillances. In the case of the P-6 RTS Function, Applicability CTS Table 4.3-1 specifies Mode 1 for performing surveillances. The corresponding ISTS requirements for the RTS Function do not include a separate Table for surveillance requirements. All the requirements associated with an RTS Function are presented in ISTS Table 3.3.1-1. In addition the ISTS, does not require the P-6 RTS Function to be operable above the P-6 setpoint (approximately 9 X 10 -11 amps). CTS Table 3.3-1 which also contains Applicable Modes for the RTS Function only specifies that the P-6 Function be operable in Mode 2. The CTS applicable Mode specified in Table 4.3-1 for the P-6 RTS Function is revised to conform to the ISTS and to be more consistent with the Mode specified in CTS Table 3.3-1. This changes the CTS by combining the requirements for the RTS Functions into a single Table and deleting the current Mode 1 requirement for performing surveillances.

ITS 3.3.1 L.23 CTS Table 4.3-1 specifies a Channel Functional Test (CFT) be performed on the SR 3.3.1.12 Table 4.3-1 Note 1 7 CTS 3.3.1.1 Manual Reactor Trip Function prior to each startup, if not performed in the previous 31 days (Note 1) and once per Refueling Cycle. The corresponding ISTS requirement (SR 3.3.1.12) specifies that a TADOT be performed on this RTS Function once every 18 months. The ISTS surveillance requirement is modified by a note specifying verification of the setpoint is not required. The CTS surveillance requirements for the Manual Reactor Trip RTS Function are revised to conform to the ISTS. This changes the CTS by eliminating the requirement to perform a CFT on the Manual Reactor Trip Function prior to each startup if not performed within 31 days (Note 1).

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Table L Less Restrictive Changes Section 3.3A - 3.3.1, Reactor Trip System Instrumentation ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.3.1 L.24 The CTS surveillances for the Power Range Low setpoint and Intermediate SR 3.3.1.7 Table 4.3-1 Note 1 7 CTS 3.3.1.1 Range RTS Functions specified in Table 4.3-1 require a Channel Functional Test (CFT) to be performed Prior to Startup (S/U) if not performed in the previous 31 days (Note 1). The corresponding ISTS surveillance SR 3.3.1.8 (BVPS ITS SR 3.3.1.7) also requires a Channel Operational Test (COT) prior to reactor startup.

However, the ISTS Surveillance is modified by a Note that states the surveillance is only required if it has not been performed in the previous 92 days. The CTS surveillance requirements for these RTS Functions are revised to conform to the ISTS. This changes the CTS requirement to perform the surveillance prior to reactor startup such that the performance of the surveillance need not be repeated if it was performed within the previous 92 days instead of the previous 31 days.

ITS 3.3.1 L.25 The CTS surveillances for the Under Voltage and Under Frequency RTS Under Voltage & Table 4.3-1 Under 6 CTS 3.3.1.1 Functions specified in Table 4.3-1 require a quarterly Channel Functional Test Under Frequency Voltage & Under (CFT). The corresponding ISTS surveillance requirements for these RTS Surveillance Note Frequency Functions specify a quarterly Trip Actuating Device Operational Test (TADOT). Functions The ISTS TADOT requirement is modified by a note that specifies that surveillance "verification of setpoint is not required". The CTS surveillance is revised to conform to the ISTS. This changes the CTS by adding a specific exception for setpoint verification when performing the quarterly functional test.

ITS 3.3.1 L.26 The CTS surveillances for the Turbine Trip RTS Functions specified in Table 4.3- Turbine Trip Table 4.3-1 6, 7 CTS 3.3.1.1 1 require a Channel Functional Test (CFT) performed prior to each startup. The Surveillance Turbine Trip CTS surveillance is modified by a note that specifies the surveillance is only Surveillance required if not performed in the previous 31 days. The corresponding ISTS surveillance requirements for these RTS Functions specify a Trip Actuating Device Operational Test (TADOT) be performed prior to exceeding the P-9 interlock whenever the unit has been in Mode 3 if not performed in the previous 31 days. The ISTS TADOT requirement is modified by a note specifying "verification of setpoint is not required". The CTS surveillance is revised to conform to the ISTS. This changes the CTS by extending the frequency to perform the surveillance until the P-9 interlock (49% RTP) is reached instead of prior to startup and by adding a specific exception for setpoint verification when performing the functional test.

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Table L Less Restrictive Changes Section 3.3A - 3.3.1, Reactor Trip System Instrumentation ITS # DOC # Description of Change ITS Requirement CTS Category CTS # Requirement

• ITS 3.3.1 L.27 The CTS surveillances for the RTB RTS Function specified in Table 4.3-1 require SR 3.3.1.4 Table 4.3-1 RTB 7 CTS 3.3.1.1 a Channel Functional Test (CFT) performed on each train every other month and CFT prior to each startup if not performed in the previous 31 days (Note 1). The corresponding ISTS surveillance requirement for the RTB RTS Function (SR 3.3.1.4) only specifies a Trip Actuating Device Operational Test (TADOT) be performed every 31 days on a staggered Test Basis. The ISTS surveillance does not require an additional performance of the surveillance prior to each startup.