Similar Documents at Maine Yankee |
|---|
Category:TECHNICAL SPECIFICATIONS
MONTHYEARML20236T4781998-07-14014 July 1998
Proposed Tech Specs Revising Liquid & Gaseous Release Rate Limits to Reflect Replacement of Former 10CFR20.106 Requirements W/Existing 10CFR20.1302 Requirements
ML20216F8951998-04-13013 April 1998
Proposed Tech Specs Re Fuel Storage Pool Water Level
ML20216E1841998-03-10010 March 1998
Updated TS Pages 5-8 Through 5-14,which Includes Specifications Relating to Cold Weather Operations & Spent Fuel Pool Water Chemistry
ML20202H5041998-02-10010 February 1998
Proposed Tech Specs Page 5-8,including Specification Re Cold Weather Operations
ML20212A6211997-10-20020 October 1997
Proposed Tech Specs Re Permanently Defueled Status of Plant
ML20210M5871997-08-15015 August 1997
Proposed Tech Specs Revising Facility Staffing & Training Requirements
ML20137S8891997-04-0808 April 1997
Proposed Tech Specs Reducing RCS Flow
ML20136B5261997-03-0505 March 1997
Proposed Tech Specs,Requesting Approval of Alternative Sleeving Repair Process for SG Tubes at Plant
ML20134J6641997-02-0707 February 1997
Proposed Tech Specs Pages 3.12-1,3.12-2 & 3.12-3 Re 115 Kv Offsite Power Requirements
ML20134J6311997-02-0707 February 1997
Proposed Tech Specs 4.10.C.2 Re SG Tube Surveillance Requirements
ML20133N0471997-01-15015 January 1997
Proposed Tech Specs 4.4 Re Containment Testing
ML20133A7131996-12-19019 December 1996
Proposed Tech Specs 3.13 Re Refueling & Fuel Consolidation Operations & Table 4.2-1 Re Minimum Frequencies for Sampling Tests
ML20129F8831996-09-25025 September 1996
Proposed Tech Specs Re Organization Change Affecting Nuclear Safety Audit & Review Committee
ML20127P2471993-01-25025 January 1993
Proposed Tech Specs Change 177 Re Main Yankee Spent Fuel Pool Reracking
ML20126B6911992-12-15015 December 1992
Proposed TS 3.19 Re Position Restrictions on Loop Isolation Valves,Safety Injection Header Isolation Valves & Safety Injection Tank Isolation Valves
ML20198D0771992-05-0808 May 1992
Proposed Tech Spec 1.4.D, Containment Purge Sys
ML20141M1181992-03-24024 March 1992
Proposed TS Spec 1.3 Re Fuel Enrichment Limit in Reactor Core
ML20062D2851990-11-0505 November 1990
Proposed Tech Specs Re Removal of cycle-specific Operating Limits
ML20058B6071990-10-15015 October 1990
Proposed Tech Specs Modifying 3.22, Feedwater Trip Sys, by Adding Exception Specifically Addressing Operation of Emergency Feedwater Sys During Plant Startups & Shutdowns
ML20058L9311990-07-30030 July 1990
Proposed Tech Spec Page 5.2-2 Re Manager Qualification for Operations
ML20055G3121990-07-10010 July 1990
Proposed Tech Specs Consisting of Proposed Change 155 Re Safety Injection Actuation Sys
ML20055E0981990-07-0505 July 1990
Proposed Tech Specs Re Qualification Requirements for Operations Manager
ML20235H5581989-02-15015 February 1989
Proposed Tech Specs,Adding Primary Inventory Trend Sys for Reactor Vessel Level Indication & Core Exit Thermocouples Channel Operability & Surveillance Requirements to Sections 3.9 & 4.1
ML20196B5301988-11-22022 November 1988
Proposed Tech Specs Supporting Change 134 Re Main Steam Excess Flow Check Valve & Turbine Valve Testing Frequency
ML20206F2341988-11-0808 November 1988
Proposed Tech Spec 1.1, Fuel Storage
ML20206C2901988-10-26026 October 1988
Proposed Tech Specs,Deleting Offsite & Facility Organization Charts,Figures 5.2-1 & 5.2-2
ML20205M9751988-10-18018 October 1988
Proposed Tech Specs,Modifying Specified Surveillance Interval for Control Element Assembly Partial Movement Test Frequency,Per C-E STS
ML20207E2611988-08-0202 August 1988
Errata to Proposed Tech Specs Figure 3.10-4,showing Allowable Unrodded Radial Peak as Function of Cycle Average Burnup for Cycle 11 Operation
ML20150E9021988-06-30030 June 1988
Proposed Tech Specs,Consisting of Proposed Change 141,to Reflect Operating Parameters for Cycle 11
ML20150G0531988-03-28028 March 1988
Proposed Tech Specs,Increasing Max Nominal Fuel Enrichment from 3.5% to 3.7% U-235
ML20147G9011988-03-0101 March 1988
Proposed Tech Specs Reflecting Successional Change in Offsite Corporate Organization & Associated Changes in Functional Reporting Structure
ML20235A8321988-01-0606 January 1988
Proposed Tech Specs,Revising Offsite & Facility Organizational Charts
ML20236G5111987-07-30030 July 1987
Proposed Tech Specs,Consisting of Proposed Change 132, Replacing Page 3.10-4 Re Incore Monitoring Sys
ML20216B8871987-06-23023 June 1987
Revised Tech Spec Page 5.8-2 Re Process Control Program
ML20212D9851987-02-24024 February 1987
Proposed Tech Specs 5.9.1.6 & 5.9.1.7,allowing Addl Time for Filing of Supplemental Dose & Meteorological Summary Repts & Ensuring That Spec Refs Consistent W/Current Tech Specs, Respectively
ML20212K9901987-02-24024 February 1987
Proposed Tech Spec Change 130,reflecting Revised LOCA Limits
ML20212L1581987-01-13013 January 1987
Proposed Tech Specs Re RCS Emergency Vent Sys
ML20207P5301987-01-12012 January 1987
Proposed Tech Spec Pages 2.2-1,3.10-9,3.10-12 & 3.10-13,re Reactor Core Safety Limits & Power Dependent Insertion Limit,Supporting Proposed Change 128 for Cycle 10 Operation
ML20215C2431986-12-0808 December 1986
Proposed Tech Specs Re Limiting Overtime of Staff Personnel
ML20212C0281986-07-29029 July 1986
Proposed Tech Specs Re Reporting Requirements for Primary Coolant Sys Iodine Spikes
ML20203F1331986-07-16016 July 1986
Proposed Tech Specs Removing Cycle Reload Specific Parameters
ML20203Q3181986-05-0505 May 1986
Proposed Tech Specs,Incorporating Proposed Change 122, Substituting Table 4.2-2, Min Frequencies for Equipment Tests, for Existing Table Re Turbine Valve Test Frequencies
ML20204A3841986-05-0101 May 1986
Revised Tech Spec 3.11.5,adding Five Manual Isolation Valves of post-accident Hydrogen Purge & Analysis Sys to List of Manual Containment Isolation Valves That May Be Repositioned W/O Implementing Compensatory Measures
ML20151U4741986-02-0303 February 1986
Proposed Tech Spec,Adding Administrative Controls on Limiting Overtime of Personnel & Removing Offsite & Onsite Organizational Charts from Tech Spec 5.2
ML20137Q9061986-01-29029 January 1986
Proposed Tech Spec Change 115, Adopting Model for LER Reporting Requirements Re Iodine Spikes in Primary Coolant, Per Generic Ltr 85-19
ML20138M5971985-12-16016 December 1985
Proposed Tech Specs,Incorporating Limiting Condition for Operations for turbine-driven Auxiliary Feedwater Pump
ML20138P6361985-12-13013 December 1985
Suppl 1 to Proposed Change 110 Revising Tech Spec Pages 4.6-1,4.6-3 Through 4.6-6 & 4.1-9 Re Emergency Feedwater Sys
ML20138J3341985-12-0909 December 1985
Proposed Tech Spec Change 118,allowing Consideration of Fire Hazards in Vicinity of Affected Penetration When Determining Level of Compensatory Fire Protection
ML20133K5791985-10-16016 October 1985
Proposed Tech Spec,Deleting Present Requirement for Emergency Diesel Generator Testing in Event That Any Component in One Train of Cooling Sys Becomes Inoperable
ML20133F4341985-10-0707 October 1985
Proposed Change 114,Suppl 1,revising Tech Spec Pages 3.11-2 & 3.11-5 Re Containment Isolation Valves Under Administrative Controls
1998-07-14
[Table view]
Category:TECHNICAL SPECIFICATIONS & TEST REPORTS
MONTHYEARML20210M8251999-08-0303 August 1999
Draft License Termination/Amend Plan for Maine Yankee Atomic Power Co
ML20206D7981998-11-10010 November 1998
Revised Maine Yankee Odcm
ML20237D0671998-08-19019 August 1998
Rev 1 to Maine Yankee Certified Fuel Handler Training & Retraining Program
ML20236T4781998-07-14014 July 1998
Proposed Tech Specs Revising Liquid & Gaseous Release Rate Limits to Reflect Replacement of Former 10CFR20.106 Requirements W/Existing 10CFR20.1302 Requirements
ML20216F8951998-04-13013 April 1998
Proposed Tech Specs Re Fuel Storage Pool Water Level
ML20216E1841998-03-10010 March 1998
Updated TS Pages 5-8 Through 5-14,which Includes Specifications Relating to Cold Weather Operations & Spent Fuel Pool Water Chemistry
ML20202H5041998-02-10010 February 1998
Proposed Tech Specs Page 5-8,including Specification Re Cold Weather Operations
ML20212A6211997-10-20020 October 1997
Proposed Tech Specs Re Permanently Defueled Status of Plant
ML20210M5871997-08-15015 August 1997
Proposed Tech Specs Revising Facility Staffing & Training Requirements
ML20210L9601997-08-15015 August 1997
Certified Fuel Handler Training & Retraining Program
ML20137S8891997-04-0808 April 1997
Proposed Tech Specs Reducing RCS Flow
ML20135F7261997-03-0707 March 1997
Restart Readiness Plan
ML20136B5261997-03-0505 March 1997
Proposed Tech Specs,Requesting Approval of Alternative Sleeving Repair Process for SG Tubes at Plant
ML20134J6641997-02-0707 February 1997
Proposed Tech Specs Pages 3.12-1,3.12-2 & 3.12-3 Re 115 Kv Offsite Power Requirements
ML20134J6311997-02-0707 February 1997
Proposed Tech Specs 4.10.C.2 Re SG Tube Surveillance Requirements
ML20133N0471997-01-15015 January 1997
Proposed Tech Specs 4.4 Re Containment Testing
ML20133G3281996-12-23023 December 1996
Cycle 15 Startup Test Rept Suppl 5
ML20133A7131996-12-19019 December 1996
Proposed Tech Specs 3.13 Re Refueling & Fuel Consolidation Operations & Table 4.2-1 Re Minimum Frequencies for Sampling Tests
ML20129F8831996-09-25025 September 1996
Proposed Tech Specs Re Organization Change Affecting Nuclear Safety Audit & Review Committee
ML20138F4031996-04-11011 April 1996
Revised Maine Yankee Odcm
ML20148C6511994-12-31031 December 1994
Diagnostic Evaluation Team Managers Handbook,Dec 1994, Rev 1
ML20148C6581994-12-31031 December 1994
Guidelines for Diagnostic Evaluation,Dec 1994,Rev 4
ML20128D6761993-01-28028 January 1993
Co ISI Program for Third ISI Interval 921228-021228
ML20127P2471993-01-25025 January 1993
Proposed Tech Specs Change 177 Re Main Yankee Spent Fuel Pool Reracking
ML20126B6911992-12-15015 December 1992
Proposed TS 3.19 Re Position Restrictions on Loop Isolation Valves,Safety Injection Header Isolation Valves & Safety Injection Tank Isolation Valves
ML20198D0771992-05-0808 May 1992
Proposed Tech Spec 1.4.D, Containment Purge Sys
ML20141M1181992-03-24024 March 1992
Proposed TS Spec 1.3 Re Fuel Enrichment Limit in Reactor Core
ML20062D2851990-11-0505 November 1990
Proposed Tech Specs Re Removal of cycle-specific Operating Limits
ML20058B6071990-10-15015 October 1990
Proposed Tech Specs Modifying 3.22, Feedwater Trip Sys, by Adding Exception Specifically Addressing Operation of Emergency Feedwater Sys During Plant Startups & Shutdowns
ML20059N7671990-10-0101 October 1990
Cycle 12 Startup Test Rept
ML20058L9311990-07-30030 July 1990
Proposed Tech Spec Page 5.2-2 Re Manager Qualification for Operations
ML20055G3121990-07-10010 July 1990
Proposed Tech Specs Consisting of Proposed Change 155 Re Safety Injection Actuation Sys
ML20055E0981990-07-0505 July 1990
Proposed Tech Specs Re Qualification Requirements for Operations Manager
ML20055D4651990-02-20020 February 1990
Rev 3 to Procedure 0-07-1, Matl Receipt
ML20055D4691989-08-15015 August 1989
Rev 4 to Procedure 0-15-1, Nonconformance Repts (Ncr)
ML20235H5581989-02-15015 February 1989
Proposed Tech Specs,Adding Primary Inventory Trend Sys for Reactor Vessel Level Indication & Core Exit Thermocouples Channel Operability & Surveillance Requirements to Sections 3.9 & 4.1
ML20196B5301988-11-22022 November 1988
Proposed Tech Specs Supporting Change 134 Re Main Steam Excess Flow Check Valve & Turbine Valve Testing Frequency
ML20206F2341988-11-0808 November 1988
Proposed Tech Spec 1.1, Fuel Storage
ML20246H5281988-10-31031 October 1988
Reactor Containment Bldg Integrated Leak Rate Test for Oct 1988
ML20206C2901988-10-26026 October 1988
Proposed Tech Specs,Deleting Offsite & Facility Organization Charts,Figures 5.2-1 & 5.2-2
ML20205M9751988-10-18018 October 1988
Proposed Tech Specs,Modifying Specified Surveillance Interval for Control Element Assembly Partial Movement Test Frequency,Per C-E STS
ML20204G1191988-08-31031 August 1988
Rev 1 to Procedure 26.1, Offsite Dose Calculation Manual
ML20207E2611988-08-0202 August 1988
Errata to Proposed Tech Specs Figure 3.10-4,showing Allowable Unrodded Radial Peak as Function of Cycle Average Burnup for Cycle 11 Operation
ML20150E9021988-06-30030 June 1988
Proposed Tech Specs,Consisting of Proposed Change 141,to Reflect Operating Parameters for Cycle 11
ML20150G0531988-03-28028 March 1988
Proposed Tech Specs,Increasing Max Nominal Fuel Enrichment from 3.5% to 3.7% U-235
ML20147G9011988-03-0101 March 1988
Proposed Tech Specs Reflecting Successional Change in Offsite Corporate Organization & Associated Changes in Functional Reporting Structure
ML20155D3801988-02-0101 February 1988
Rev 3 to Procedure 18-340-1, Maine Yankee Simulator Work Order
ML20235A8321988-01-0606 January 1988
Proposed Tech Specs,Revising Offsite & Facility Organizational Charts
ML20237G2191987-08-10010 August 1987
Co Simulator Certification Test Plan
ML20236G5111987-07-30030 July 1987
Proposed Tech Specs,Consisting of Proposed Change 132, Replacing Page 3.10-4 Re Incore Monitoring Sys
1999-08-03
[Table view] |
Text
. _ _
MAINE YANKEE ATOMIC POWER COMPANY ATTACHWNT A Remedial Actions (Continted)
- 2. With no cooling mechanisms operable, suspend all operations involving positive reactivity changes, continuously monitor reactor coolant temperature, and restore one cooling mechanism to operation within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> or notify the NRC (using the Emergency Notification System) within the next hour of plans to restore decay heat removal.
B. The following conditions must be met for a steam generator to be considered operable for decay heat removal.
- 1. The reactor coolant system must be closed and pressurized to 100 psi above saturation pressure.
- 2. The steam generator must have both the cold and hot leg stop valves fully open.
- 3. The steam generator water level must be above the top of the tube bundle.
- 4. An inventory of over 100,000 gallons of primary grade feedwater must be available.
- 5. A feed pump must be operating or available for operation.
C. The steam generators shall be demonstrated operable in accordance with specification 4.10 before the reactor coolant system T. Ave. can be increased above 2100F.
D. The reactor shall not be in a power operation condition which generates steam at a rate in excess of the on-line steam generator relieving capacity in accordance with Figure 3.8-1.
E. The reactor shall not be maintained in a power operation condition ]
unless at least three independent steam generator auxiliary or emergency ]
feedwater pumps and associated flow paths are PERABLE to supply ]
emergency feedwater to all three steam generators with: ]
- a. Two emergency feedwater pumps, each capable of being automatically ]
powered from separate OPERABLE emergency busses, and ]
- b. One auxiliary feedwater pump capable of being powered from an ]
TERABLE steam supply system, and ]
- c. An inventory of over 100,000 gallons of primary grade feedwater. ]
REEDIAL ACTION:
l
- a. With one auxiliary or emergency feedwater pump inoperable, restore the ]
required feedwater pumps to OPERABLE status within 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> or be in at ]
least HOT STANDBY within the next 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in HOT SHUTDOWN within the ]
following 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />.
8512230056 851216 fR ADom 0500g 3.8-2 12/16/85 6812L-CDW
MAINE YANKEE ATOMIC POWER COMPAPSV
- b. With one emergency feedwater and one auxiliary feedwater pump inoperable, ]
be in HOT STANDBY in 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> and in HOT SHUTDOWN within the following ]
6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />. ]
- c. With two emergency feedwater pumps inoperable be in at least HOT STAtOBY ]
within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in HOT SHUTDOWN within the following 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />. ]
- d. With all three auxiliary and emergency feedwater pumps inoperable, immedjately ]
initiate corrective action to restore at least one pump to OPERABLE status ]
as soon as possible. ]
- e. With the emergency feedwater flow path to a steam generator out of service, ]
return the flow path to service within 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br />, or be in HOT STANDBY ]
within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and in HOT SHUTDOWN within the following 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />. ]
BASIS:
Specifications A and E assure that decay heat removal capability is always available.
A single steam generator is capable of removing core decay heat by natural or forced circulation provided the conditions specified in B are met.
A single cooling mechanism is sufficient to remove decay heat but single failure considerations require that two mechanisms be operable.
Specification C assures the structural integrity of the steam generator tubes which are a fission product barrier.
Specification D assures sufficient relieving capacity during power ]
operation.
Specification E assures sufficient feedwater to maintain an adequate heat sink following a loss of main feedwater. The emergency feed system, ]
including both motor driven pumps, piping, valves, and supply tanks are ]
designed to be safety class, seismic and meet applicable NRC requirements. ]
Each pump is powered from a separate emergency power bus and is capable of ]
supplying the total emergency feedwater flow following a complete loss of ]
main feedwater or any other design basis accident coincident with a loss of ]
all off-site power. An emergency feed pump may be out of service for up to ]
seven days because of the extremely low probability of a design basis ]
accident occurring coincident with a failure of the other emergency feed ]
pump and a complete loss of main feedwater system capability. ]
The remaining portions of the auxiliary feed system, including the turbine ]
driven auxiliary feed pump, are not designed to NRC requirements ]
applicable to emergency feed systems and not required to meet design ]
basis events. However, the turbine driven auxiliary feed pump is ]
capable of providing the required feedwater flow to the steam generator ]
following even lower probability events such as a failure of all ]
main feedwater and emergency feedwater capability. Such an event ]
may be postulated to occur as a result of a loss of all off-site and ]
on-site emergency power sources. This pump may be out of service for ]
up to seven days because of the extremely low probabilty of such an ]
event. ]
]
3.8-3 12/16/85 6812L-GDW
MAINE YANKEE ATOMIC POWER COMPANY A reactor shutdown from power requires removal of core decay heat.
Immediate decay heat removal requirements are normally satisfied by the steam bypass to the condenser. Therefore, core decay heat can be continuously dissipated via the steam bypass to the condenser as long as feedwater to the steam generators is available. Normally, the capability
'to suppply feedwater to the steam generators is'provided by operation of the feedwater system.
In the unlikely event of complete loss of electrical power to the station, decay heat removal is by steam discharge to the atmosphere via the main steam safety valves or the atmospheric steam dump valve. Either of the ]
two steam generator emergency feed pumps or the auxiliary feed pump can ]
supply sufficient feedwater for removal of decay heat from the plant.
3.8-4 12/16/85 6812L-GOW
M AINE Y ANKEE ATOMIC POWER COMPANY ATTACHMENT B SIGNIFICANT HAZARDS EVALUATION
- 1. Discussion of the Proposed Change:
' The proposed change adds a limiting condition for operation for the turbira driven auxiliary feedwater pump. Operation of the plant is allowr J for up to 168 hours0.00194 days <br />0.0467 hours <br />2.777778e-4 weeks <br />6.3924e-5 months <br /> with the pump out of service and for up to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> with the turbine driven auxiliary feedwater pump and one of the motor driven emergency feedwater pumps out of service. The current Technical Specifications do not address operability of the auxiliary feedwater pump.
-The proposed change also includes minor changes to the existing Technical Specifications on the motor-driven emergency feedwater pumps, in order to improve consistency with the standard spectifications for CE plants.
- 2. Does the proposed change involve a significant increase in the probability or the consequences of an accident previously analyzed?
No it does not. The only design basis accident potentially affected by this change is a postJiated loss of main feedwater. The probability of a loss of main feedwater is rat affected.
The proposed change increases the reliability of the feedwater supply and could decrease the consequences of certain loss of feedwater scenarios which are beyond the design basis of the plant.
- 3. Does the proposed change create the possibility of a new or different kind of accident from any accident prevously analyzed?
No it does not. The requirement for the turbine driven feedpump to be operable could mitigate a postulated loss of all AC power. The proposed change does not create the possibility of any non-design basis accident.
- 4. Does the proposed change involve a significant reduction in a margin of safety?
No it does not. The requirement for the auxiliary feedwater pump to be operable should result in an increase in the margin of safety.
- 5. Does the proposed change involve a significant hazards consideration as defined by 10 CFR 50.927 Based on the above, we have concluded that the proposed change does not involve a significant hazards consideration as defined by 10 CFR 50.92.
6812L-GOW