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{{#Wiki_filter:RENEWED CERTIFICATE OF COMPLIANCE NO. 1014 APPENDIX A TECHNICAL SPECIFICATIONS FOR THE HI-STORM 100 CASK SYSTEM AMENDMENT NO. 10
{{#Wiki_filter:RENEWED CERTIFICATE OF COMPLIANCE NO. 1014


TABLE OF CONTENTS 1.0     USE AND APPLICATION ............................................................................... 1.1-1 1.1             Definitions ............................................................................................ 1.1-1 1.2             Logical Connectors .............................................................................. 1.2-1 1.3             Completion Times ................................................................................ 1.3-1 1.4             Frequency ............................................................................................ 1.4-1 2.0     NOT USED ..................................................................................................... 2.0-1 3.0     LIMITING CONDITION FOR OPERATION (LCO) APPLICABILITY............... 3.0-1 3.0     SURVEILLANCE REQUIREMENT (SR) APPLICABILITY ............................. 3.0-2 3.1             SFSC INTEGRITY ............................................................................ 3.1.1-1 3.1.1                   Multi-Purpose Canister (MPC) ............................................... 3.1.1-1 3.1.2                   SFSC Heat Removal System ................................................. 3.1.2-1 3.1.3                   MPC Cavity Reflooding .......................................................... 3.1.3-1 3.1.4                   Supplemental Cooling System ............................................... 3.1.4-1 3.2             SFSC RADIATION PROTECTION ................................................... 3.2.1-1 3.2.1                   Deleted ................................................................................... 3.2.1-1 3.2.2                   TRANSFER CASK Surface Contamination ............................ 3.2.2-2 3.2.3                   Deleted ................................................................................... 3.2.3-1 3.3             SFSC CRITICALITY CONTROL ....................................................... 3.3.1-1 3.3.1                   Boron Concentration .............................................................. 3.3.1-1 Table 3-1       MPC Cavity Drying Limits .................................................................... 3.4-1 Table 3-2       MPC Helium Backfill Limits .................................................................. 3.4-2 Table 3-3       Regionalized Storage Cell Heat Load Limits ....................... ..3.4-3 Table 3-4       Uniform Storage Cell Heat Load Limit ...3.4-3 4.0     NOT USED                                 ....................................................................... 4.0-1 5.0     ADMINISTRATIVE CONTROLS.................................................................... 5.0-1 5.1             Deleted ................................................................................................ 5.0-1 5.2             Deleted ................................................................................................ 5.0-1 5.3             Deleted ................................................................................................ 5.0-1 5.4             Radioactive Effluent Control Program .................................................. 5.0-1 5.5             Cask Transport Evaluation Program .................................................... 5.0-2 5.6             Deleted ................................................................................................ 5.0-4 5.7             Radiation Protection Program .............................................................. 5.0-5 5.8             Aging Management Program ............................................................... 5.0-8 Table 5-1       TRANSFER CASK and Free Standing OVERPACK Lifting Requirements ............................................................................ 5.0-4 Certificate of Compliance No. 1014                                                   Renewed Amendment No. 10 Appendix A                                                 i
APPENDIX A
 
TECHNICAL SPECIFICATIONS
 
FOR THE HI-STORM 100 CASK SYSTEM
 
AMENDMENT NO. 10 TABLE OF CONTENTS
 
1.0 USE AND APPLICATION............................................................................... 1.1-1 1.1 Definitions............................................................................................ 1.1-1 1.2 Logical Connectors.............................................................................. 1.2-1 1.3 Completion Times................................................................................ 1.3-1 1.4 Frequency............................................................................................ 1.4-1
 
2.0 NOT USED..................................................................................................... 2.0-1
 
3.0 LIMITING CONDITION FOR OPERATION (LCO) APPLICABILITY............... 3.0-1 3.0 SURVEILLANCE REQUIREMENT (SR) APPLICABILITY............................. 3.0-2
 
3.1 SFSC INTEGRITY............................................................................ 3.1.1-1 3.1.1 Multi-Purpose Canister (MPC)............................................... 3.1.1-1 3.1.2 SFSC Heat Removal System................................................. 3.1.2-1 3.1.3 MPC Cavity Reflooding.......................................................... 3.1.3-1 3.1.4 Supplemental Cooling System............................................... 3.1.4-1
 
3.2 SFSC RADIATION PROTECTION................................................... 3.2.1-1 3.2.1 Deleted................................................................................... 3.2.1-1 3.2.2 TRANSFER CASK Surface Contamination............................ 3.2.2-2 3.2.3 Deleted................................................................................... 3.2.3-1
 
3.3 SFSC CRITICALITY CONTROL....................................................... 3.3.1-1 3.3.1 Boron Concentration.............................................................. 3.3.1-1
 
Table 3-1 MPC Cavity Drying Limits.................................................................... 3.4-1 Table 3-2 MPC Helium Backfill Limits.................................................................. 3.4-2 Table 3-3 Regionalized Storage Cell Heat Load Limits.........................3.4-3 Table 3-4 Uniform Storage Cell Heat Load Limit...3.4-3
 
4.0 NOT USED....................................................................... 4.0-1
 
5.0 ADMINISTRATIVE CONTROLS.................................................................... 5.0-1 5.1 Deleted................................................................................................ 5.0-1 5.2 Deleted................................................................................................ 5.0-1 5.3 Deleted................................................................................................ 5.0-1 5.4 Radioactive Effluent Control Program.................................................. 5.0-1 5.5 Cask Transport Evaluation Program.................................................... 5.0-2 5.6 Deleted................................................................................................ 5.0-4 5.7 Radiation Protection Program.............................................................. 5.0-5 5.8 Aging Management Program............................................................... 5.0-8
 
Table 5-1 TRANSFER CASK and Free Standing OVERPACK Lifting Requirements............................................................................ 5.0-4
 
Certificate of Compliance No. 1014 Appendix A i Definitions 1.1 1.0 USE AND APPLICATION
 
1.1 Definitions


Definitions 1.1 1.0 USE AND APPLICATION 1.1 Definitions
-----------------------------------------------------NOTE-----------------------------------------------------------
-----------------------------------------------------NOTE-----------------------------------------------------------
The defined terms of this section appear in capitalized type and are applicable throughout these Technical Specifications and Bases.
The defined terms of this section appear in capitalized type and are applicable throughout these Technical Specifications and Bases.
Term                                         Definition ACTIONS                                       ACTIONS shall be that part of a Specification that prescribes Required Actions to be taken under designated Conditions within specified Completion Times.
 
CASK TRANSFER FACILITY                         A CASK TRANSFER FACILITY is an optional (CTF)                                         aboveground or underground system used during the transfer of a loaded MPC between a transfer cask and a storage OVERPACK external to 10 CFR Part 50 controlled structures. The CASK TRANSFER FACILITY includes the following components and equipment: (1) a Cask Transfer Structure used to stabilize the OVERPACK, TRANSFER CASK and/or MPC during lifts involving spent fuel not bounded by the regulations of 10 CFR Part 50, and (2) Either a stationary lifting device or a mobile lifting device used in concert with the stationary structure to lift the OVERPACK, TRANSFER CASK, and/or MPC.
Term Definition ACTIONS ACTIONS shall be that part of a Specification that prescribes Required Actions to be taken under designated Conditions within specified Completion Times.
DAMAGED FUEL ASSEMBLY                         DAMAGED FUEL ASSEMBLIES are fuel assemblies with known or suspected cladding defects, as determined by a review of records, greater than pinhole leaks or hairline cracks, empty fuel rod locations that are not filled with dummy fuel rods, missing structural components such as grid spacers, whose structural integrity has been impaired such that geometric rearrangement of fuel or gross failure of the cladding is expected based on engineering evaluations, or that cannot be handled by normal means. Fuel assemblies that cannot be handled by normal means due to fuel cladding damage are considered FUEL DEBRIS.
 
CASK TRANSFER FACILITY A CASK TRANSFER FACILITY is an optional (CTF) aboveground or underground system used during the transfer of a loaded MPC between a transfer cask and a storage OVERPACK external to 10 CFR Part 50 controlled structures. The CASK TRANSFER FACILITY includes the following components and equipment: (1) a Cask Transfer Structure used to stabilize the OVERPACK, TRANSFER CASK and/or MPC during lifts involving spent fuel not bounded by the regulations of 10 CFR Part 50, and (2) Either a stationary lifting device or a mobile lifting device used in concert with the stationary structure to lift the OVERPACK, TRANSFER CASK, and/or MPC.
 
DAMAGED FUEL ASSEMBLY DAMAGED FUEL ASSEMBLIES are fuel assemblies with known or suspected cladding defects, as determined by a review of records, greater than pinhole leaks or hairline cracks, empty fuel rod locations that are not filled with dummy fuel rods, missing structural components such as grid spacers, whose structural integrity has been impaired such that geometric rearrangement of fuel or gross failure of the cladding is expected based on engineering evaluations, or that cannot be handled by normal means. Fuel assemblies that cannot be handled by normal means due to fuel cladding damage are considered FUEL DEBRIS.
(continued)
(continued)
Certificate of Compliance No. 1014                                                  Renewed Amendment No. 10 Appendix A                                                1.1-1


Definitions 1.1 1.1     Definitions (continued)
Certificate of Compliance No. 1014 Appendix A 1.1-1 Definitions 1.1
DAMAGED FUEL                     DFCs are specially designed enclosures for CONTAINER (DFC)                   DAMAGED FUEL ASSEMBLIES or FUEL DEBRIS which permit gaseous and liquid media to escape while minimizing dispersal of gross particulates.
 
1.1 Definitions (continued)
 
DAMAGED FUEL DFCs are specially designed enclosures for CONTAINER (DFC) DAMAGED FUEL ASSEMBLIES or FUEL DEBRIS which permit gaseous and liquid media to escape while minimizing dispersal of gross particulates.
DFCs authorized for use in the HI-STORM 100 System are as follows:
DFCs authorized for use in the HI-STORM 100 System are as follows:
: 1. Holtec Dresden Unit 1/Humboldt Bay design
: 1. Holtec Dresden Unit 1/Humboldt Bay design
: 2. Transnuclear Dresden Unit 1 design
: 2. Transnuclear Dresden Unit 1 design
: 3. Holtec Generic BWR design
: 3. Holtec Generic BWR design
: 4. Holtec Generic PWR design FUEL DEBRIS                       FUEL DEBRIS is ruptured fuel rods, severed rods, loose fuel pellets, containers or structures that are supporting these loose fuel assembly parts, or fuel assemblies with known or suspected defects which cannot be handled by normal means due to fuel cladding damage.
: 4. Holtec Generic PWR design
FUEL BUILDING                     The FUEL BUILDING is the site-specific power plant facility, governed by the regulations of 10 CFR Part 50, where the loaded OVERPACK or TRANSFER CASK is transferred to or from the transporter.
 
GROSSLY BREACHED                 Spent nuclear fuel rod with a cladding defect that SPENT FUEL ROD                   could lead to the release of fuel particulate greater than the average size fuel fragment for that particular assembly. A gross cladding breach may be confirmed by visual examination, through a review of reactor operating records indicating the presence of heavy metal isotopes, or other acceptable inspection means.
FUEL DEBRIS FUEL DEBRIS is ruptured fuel rods, severed rods, loose fuel pellets, containers or structures that are supporting these loose fuel assembly parts, or fuel assemblies with known or suspected defects which cannot be handled by normal means due to fuel cladding damage.
Certificate of Compliance No. 1014                           Renewed Amendment No. 10 Appendix A                                 1.1-2
FUEL BUILDING The FUEL BUILDING is the site-specific power plant facility, governed by the regulations of 10 CFR Part 50, where the loaded OVERPACK or TRANSFER CASK is transferred to or from the transporter.
GROSSLY BREACHED Spent nuclear fuel rod with a cladding defect that SPENT FUEL ROD could lead to the release of fuel particulate greater than the average size fuel fragment for that particular assembly. A gross cladding breach may be confirmed by visual examination, through a review of reactor operating records indicating the presence of heavy metal isotopes, or other acceptable inspection means.
 
Certificate of Compliance No. 1014 Appendix A 1.1-2 Definitions 1.1


Definitions 1.1 INTACT FUEL ASSEMBLY             INTACT FUEL ASSEMBLIES are fuel assemblies without known or suspected cladding defects greater than pinhole leaks or hairline cracks and which can be handled by normal means. Fuel assemblies without fuel rods in fuel rod locations shall not be classified as INTACT FUEL ASSEMBLIES unless dummy fuel rods are used to displace an amount of water greater than or equal to that displaced by the fuel rod(s) in the active region. INTACT FUEL ASSEMBLIES may contain integral fuel absorber rods (IFBA) in PWR fuel, or burnable poison rods in BWR fuel.
INTACT FUEL ASSEMBLY INTACT FUEL ASSEMBLIES are fuel assemblies without known or suspected cladding defects greater than pinhole leaks or hairline cracks and which can be handled by normal means. Fuel assemblies without fuel rods in fuel rod locations shall not be classified as INTACT FUEL ASSEMBLIES unless dummy fuel rods are used to displace an amount of water greater than or equal to that displaced by the fuel rod(s) in the active region. INTACT FUEL ASSEMBLIES may contain integral fuel absorber rods (IFBA) in PWR fuel, or burnable poison rods in BWR fuel.
(continued)
(continued)
Certificate of Compliance No. 1014                            Renewed Amendment No. 10 Appendix A                                1.1-3


Definitions 1.1 1.1     Definitions (continued)
Certificate of Compliance No. 1014 Amendment No. 10 Appendix A 1.1-3 Definitions 1.1
LOADING OPERATIONS               LOADING OPERATIONS include all licensed activities on an OVERPACK or TRANSFER CASK while it is being loaded with fuel assemblies.
 
1.1 Definitions (continued)
 
LOADING OPERATIONS LOADING OPERATIONS include all licensed activities on an OVERPACK or TRANSFER CASK while it is being loaded with fuel assemblies.
LOADING OPERATIONS begin when the first fuel assembly is placed in the MPC and end when the OVERPACK or TRANSFER CASK is suspended from or secured on the transporter. LOADING OPERATIONS does not include MPC TRANSFER.
LOADING OPERATIONS begin when the first fuel assembly is placed in the MPC and end when the OVERPACK or TRANSFER CASK is suspended from or secured on the transporter. LOADING OPERATIONS does not include MPC TRANSFER.
MINIMUM ENRICHMENT               MINIMUM ENRICHMENT is the minimum assembly average enrichment. Natural uranium blankets are not considered in determining minimum enrichment.
 
MULTI-PURPOSE CANISTER           MPCs are the sealed spent nuclear fuel canisters (MPC)                             which consist of a honeycombed fuel basket contained in a cylindrical canister shell which is welded to a baseplate, lid with welded port cover plates, and closure ring. The MPC provides the confinement boundary for the contained radioactive materials.
MINIMUM ENRICHMENT MINIMUM ENRICHMENT is the minimum assembly average enrichment. Natural uranium blankets are not considered in determining minimum enrichment.
MPC TRANSFER                     MPC TRANSFER begins when the MPC is lifted off the TRANSFER CASK bottom lid and ends when the MPC is supported from beneath by the OVERPACK or VVM (or the reverse).
 
NON-FUEL HARDWARE                 NON-FUEL HARDWARE is defined as Burnable Poison Rod Assemblies (BPRAs), Thimble Plug Devices (TPDs), Control Rod Assemblies (CRAs),
MULTI-PURPOSE CANISTER MPCs are the sealed spent nuclear fuel canisters (MPC) which consist of a honeycombed fuel basket contained in a cylindrical canister shell which is welded to a baseplate, lid with welded port cover plates, and closure ring. The MPC provides the confinement boundary for the contained radioactive materials.
 
MPC TRANSFER MPC TRANSFER begins when the MPC is lifted off the TRANSFER CASK bottom lid and ends when the MPC is supported from beneath by the OVERPACK or VVM (or the reverse).
 
NON-FUEL HARDWARE NON-FUEL HARDWARE is defined as Burnable Poison Rod Assemblies (BPRAs), Thimble Plug Devices (TPDs), Control Rod Assemblies (CRAs),
Axial Power Shaping Rods (APSRs), Wet Annular Burnable Absorbers (WABAs), Rod Cluster Control Assemblies (RCCAs), Control Element Assemblies (CEAs), Neutron Source Assemblies (NSAs), water displacement guide tube plugs, orifice rod assemblies, instrument tube tie rods (ITTRs),
Axial Power Shaping Rods (APSRs), Wet Annular Burnable Absorbers (WABAs), Rod Cluster Control Assemblies (RCCAs), Control Element Assemblies (CEAs), Neutron Source Assemblies (NSAs), water displacement guide tube plugs, orifice rod assemblies, instrument tube tie rods (ITTRs),
vibration suppressor inserts, and components of these devices such as individual rods.
vibration suppressor inserts, and components of these devices such as individual rods.
(continued)
(continued)
Certificate of Compliance No. 1014                            Renewed Amendment No. 10 Appendix A                                  1.1-4


Definitions 1.1 1.1 Definitions (continued)
Certificate of Compliance No. 1014 Amendment No. 10 Appendix A 1.1-4 Definitions 1.1 1.1 Definitions (continued)
OVERPACK                         OVERPACKs are the casks which receive and contain the sealed MPCs for interim storage on the ISFSI. They provide gamma and neutron shielding, and provide for ventilated air flow to promote heat transfer from the MPC to the environs. The term OVERPACK does not include the TRANSFER CASK.
 
PLANAR-AVERAGE INITIAL           PLANAR AVERAGE INITIAL ENRICHMENT is the ENRICHMENT                       average of the distributed fuel rod initial enrichments within a given axial plane of the assembly lattice.
OVERPACK OVERPACKs are the casks which receive and contain the sealed MPCs for interim stor age on the ISFSI. They provide gamma and neutron shielding, and provide for ventilated air flow to promote heat transfer from the MPC to the environs. The term OVERPACK does not include the TRANSFER CASK.
REPAIRED/RECONSTITUTED           Spent nuclear fuel assembly which contains dummy FUEL ASSEMBLY                     fuel rod(s) that displaces an amount of water greater than or equal to the original fuel rod(s) and/or which contains structural repairs so it can be handled by normal means.
 
SPENT FUEL STORAGE               SFSCs are containers approved for the storage of CASKS (SFSCs)                     spent fuel assemblies at the ISFSI. The HI-STORM 100 SFSC System consists of the OVERPACK/VVM and its integral MPC.
PLANAR-AVERAGE INITIAL PLANAR AVERAGE INITIAL ENRICHMENT is the ENRICHMENT average of the distributed fuel rod initial enrichments within a given axial plane of the assembly lattice.
STORAGE OPERATIONS               STORAGE OPERATIONS include all licensed activities that are performed at the ISFSI while an SFSC containing spent fuel is situated within the ISFSI perimeter. STORAGE OPERATIONS does not include MPC TRANSFER.
REPAIRED/RECONSTITUTED Spent nuclear fuel assembly which contains dummy FUEL ASSEMBLY fuel rod(s) that displaces an amount of water greater than or equal to the original fuel rod(s) and/or which contains structural repairs so it can be handled by normal means.
TRANSFER CASK                     TRANSFER CASKs are containers designed to contain the MPC during and after loading of spent fuel assemblies and to transfer the MPC to or from the OVERPACK/VVM. The HI-STORM 100 System employs either the 125-Ton or the 100-Ton HI-TRAC TRANSFER CASK.
SPENT FUEL STORAGE SFSCs are containers approved for the storage of CASKS (SFSCs) spent fuel assemblies at the ISFSI. The HI-STORM 100 SFSC System consists of the OVERPACK/VVM and its integral MPC.
 
STORAGE OPERATIONS STORAGE OPERATIONS include all licensed activities that are performed at the ISFSI while an SFSC containing spent fuel is situated within the ISFSI perimeter. STORAGE OPERATIONS does not include MPC TRANSFER.
 
TRANSFER CASK TRANSFER CASKs are containers designed to contain the MPC during and after loading of spent fuel assemblies and to transfer the MPC to or from the OVERPACK/VVM. The HI-STORM 100 System employs either the 125-Ton or the 100-Ton HI-TRAC TRANSFER CASK.
(continued)
(continued)
Certificate of Compliance No. 1014                            Renewed Amendment No. 10 Appendix A                                  1.1-5


Definitions 1.1 1.1     Definitions (continued)
Certificate of Compliance No. 1014 Amendment No. 10 Appendix A 1.1-5 Definitions 1.1 1.1 Definitions (continued)
TRANSPORT OPERATIONS             TRANSPORT OPERATIONS include all licensed activities performed on an OVERPACK or TRANSFER CASK loaded with one or more fuel assemblies when it is being moved after LOADING OPERATIONS           or     before       UNLOADING OPERATIONS. TRANSPORT OPERATIONS begin when the OVERPACK or TRANSFER CASK is first suspended from or secured on the transporter and end when the OVERPACK or TRANSFER CASK is at its destination and no longer secured on or suspended from the transporter.           TRANSPORT OPERATIONS includes MPC TRANSFER.
 
UNDAMAGED FUEL                   UNDAMAGED FUEL ASSEMBLY is: a) a fuel ASSEMBLY                         assembly without known or suspected cladding defects greater than pinhole leaks or hairline cracks and which can be handled by normal means; or b) a BWR fuel assembly with an intact channel, a maximum planar average initial enrichment of 3.3 wt% U-235, without known or suspected GROSSLY BREACHED SPENT FUEL RODS, and which can be handled by normal means. An UNDAMAGED FUEL ASSEMBLY may be a REPAIRED/
TRANSPORT OPERATIONS TRANSPORT OPERATIONS include all licensed activities performed on an OVERPACK or TRANSFER CASK loaded with one or more fuel assemblies when it is being moved after LOADING OPERATIONS or before UNLOADING OPERATIONS. TRANSPORT OPERATIONS begin when the OVERPACK or TRANSFER CASK is first suspended from or secured on the transporter and end when the OVERPACK or TRANSFER CASK is at its destination and no longer secured on or suspended from the transporter. TRANSPORT OPERATIONS includes MPC TRANSFER.
UNDAMAGED FUEL UNDAMAGED FUEL ASSEMBLY is: a) a fuel ASSEMBLY assembly without known or suspected cladding defects greater than pinhole leaks or hairline cracks and which can be handled by normal means; or b) a BWR fuel assembly with an intact channel, a maximum planar average initial enrichment of 3.3 wt% U-235, without known or suspected GROSSLY BREACHED SPENT FUEL RODS, and which can be handled by normal means. An UNDAMAGED FUEL ASSEMBLY may be a REPAIRED/
RECONSTITUTED FUEL ASSEMBLY.
RECONSTITUTED FUEL ASSEMBLY.
UNLOADING OPERATIONS             UNLOADING OPERATIONS include all licensed activities on an SFSC to be unloaded of the contained       fuel     assemblies.       UNLOADING OPERATIONS begin when the OVERPACK or TRANSFER CASK is no longer suspended from or secured on the transporter and end when the last fuel assembly is removed from the SFSC.
UNLOADING OPERATIONS UNLOADING OPERATIONS include all licensed activities on an SFSC to be unloaded of the contained fuel assemblies. UNLOADING OPERATIONS begin when the OVERPACK or TRANSFER CASK is no longer suspended from or secured on the transporter and end when the last fuel assembly is removed from the SFSC.
UNLOADING OPERATIONS does not include MPC TRANSFER.
UNLOADING OPERATIONS does not include MPC TRANSFER.
VERTICAL VENTILATED               The VVM is a subterranean type overpack which MODULE (VVM) (HI-STORM           receives and contains the sealed MPC for interim 100U SYSTEM ONLY)                 storage at the ISFSI. The VVM supports the MPC in a vertical orientation and provides air flow through cooling passages to promote heat transfer from the MPC to the environs.
VERTICAL VENTILATED The VVM is a subterranean type overpack which MODULE (VVM) (HI-STORM receives and contains the sealed MPC for interim 100U SYSTEM ONLY) storage at the ISFSI. The VVM supports the MPC in a vertical orientation and provides air flow through cooling passages to promote heat transfer from the MPC to the environs.
ZR                               ZR means any zirconium-based fuel cladding or fuel channel material authorized for use in a commercial nuclear power plant reactor.
ZR ZR means any zirconium-based fuel cladding or fuel channel material authorized for use in a commercial nuclear power plant reactor.
Certificate of Compliance No. 1014                             Renewed Amendment No. 10 Appendix A                                 1.1-6
 
Certificate of Compliance No. 1014 Amendment No. 10 Appendix A 1.1-6 LogicalConnectors 1.2 1.0 USE AND APPLICATION
 
1.2 Logical Connectors
 
PURPOSE The purpose of this section is to explain the meaning of logical connectors.


Logical Connectors 1.2 1.0 USE AND APPLICATION 1.2 Logical Connectors PURPOSE              The purpose of this section is to explain the meaning of logical connectors.
Logical connectors are used in Technical Specifications (TS) to discriminate between, and yet connect, discrete Conditions, Required Actions, Completion Times, Surveillances, and Frequencies. The only logical connectors that appear in TS are AND and OR. The physical arrangement of these connectors constitutes logical conventions with specific meanings.
Logical connectors are used in Technical Specifications (TS) to discriminate between, and yet connect, discrete Conditions, Required Actions, Completion Times, Surveillances, and Frequencies. The only logical connectors that appear in TS are AND and OR. The physical arrangement of these connectors constitutes logical conventions with specific meanings.
BACKGROUND           Several levels of logic may be used to state Required Actions.
BACKGROUND Several levels of logic may be used to state Required Actions.
These levels are identified by the placement (or nesting) of the logical connectors and by the number assigned to each Required Action. The first level of logic is identified by the first digit of the number assigned to a Required Action and the placement of the logical connector in the first level of nesting (i.e., left justified with the number of the Required Action). The successive levels of logic are identified by additional digits of the Required Action number and by successive indentions of the logical connectors.
These levels are identified by the placement (or nesting) of the logical connectors and by the number a ssigned to each Required Action. The first level of logic is identified by the first digit of the number assigned to a Required Action and the placement of the logical connector in the first level of nesting (i.e., left justified with the number of the Required Action). The successive levels of logic are identified by additional digits of the Required Action number and by successive indentions of the logical connectors.
 
When logical connectors are used to state a Condition, Completion Time, Surveillance, or Frequency, only the first level of logic is used, and the logical connector is left justified with the statement of the Condition, Completion Time, Surveillance, or Frequency.
When logical connectors are used to state a Condition, Completion Time, Surveillance, or Frequency, only the first level of logic is used, and the logical connector is left justified with the statement of the Condition, Completion Time, Surveillance, or Frequency.
(continued)
(continued)
Certificate of Compliance No. 1014                                  Renewed Amendment No. 10 Appendix A                                    1.2-1


Logical Connectors 1.2 1.2     Logical Connectors (continued)
Certificate of Compliance No. 1014 Appendix A 1.2-1 LogicalConnectors 1.2 1.2 Logical Connectors (continued)
EXAMPLES               The following examples illustrate the use of logical connectors.
 
EXAMPLE 1.2-1 ACTIONS CONDITION         REQUIRED ACTION               COMPLETION TIME A. LCO not met.     A.1 VERIFY . . .
EXAMPLES The following examples illustrate the use of logical connectors.
AND A.2 Restore . . .
 
EXAMPLE 1.2-1
 
ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME
 
A. LCO not met. A.1 VERIFY...
 
AND
 
A.2 Restore...
 
In this example the logical connector AND is used to indicate that when in Condition A, both Required Actions A.1 and A.2 must be completed.
In this example the logical connector AND is used to indicate that when in Condition A, both Required Actions A.1 and A.2 must be completed.
(continued)
(continued)
Certificate of Compliance No. 1014                              Renewed Amendment No. 10 Appendix A                                  1.2-2


Logical Connectors 1.2 1.2     Logical Connectors (continued)
Certificate of Compliance No. 1014 Appendix A 1.2-2 LogicalConnectors 1.2 1.2 Logical Connectors (continued)
EXAMPLES               EXAMPLE 1.2-2 (continued)
 
ACTIONS CONDITION           REQUIRED ACTION           COMPLETION TIME A. LCO not met.       A.1     Stop . . .
EXAMPLES EXAMPLE 1.2-2 (continued)
OR A.2.1   Verify . . .
ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. LCO not met. A.1 Stop...
AND A.2.2.1 Reduce . . .
OR A.2.1 Verify...
OR A.2.2.2 Perform . . .
AND A.2.2.1 Reduce...
OR A.3     Remove . . .
OR A.2.2.2 Perform...
OR A.3 Remove...
 
This example represents a more complicated use of logical connectors. Required Actions A.1, A.2, and A.3 are alternative choices, only one of which must be performed as indicated by the use of the logical connector OR and the left justified placement. Any one of these three ACTIONS may be chosen. If A.2 is chosen, then both A.2.1 and A.2.2 must be performed as indicated by the logical connector AND. Required Action A.2.2 is met by performing A.2.2.1 or A.2.2.2. The indented position of the logical connector OR indicates that A.2.2.1 and A.2.2.2 are alternative choices, only one of which must be performed.
This example represents a more complicated use of logical connectors. Required Actions A.1, A.2, and A.3 are alternative choices, only one of which must be performed as indicated by the use of the logical connector OR and the left justified placement. Any one of these three ACTIONS may be chosen. If A.2 is chosen, then both A.2.1 and A.2.2 must be performed as indicated by the logical connector AND. Required Action A.2.2 is met by performing A.2.2.1 or A.2.2.2. The indented position of the logical connector OR indicates that A.2.2.1 and A.2.2.2 are alternative choices, only one of which must be performed.
Certificate of Compliance No. 1014                                Renewed Amendment No. 10 Appendix A                                    1.2-3


Completion Times 1.3 1.0 USE AND APPLICATION 1.3 Completion Times PURPOSE               The purpose of this section is to establish the Completion Time convention and to provide guidance for its use.
Certificate of Compliance No. 1014 Appendix A 1.2-3 CompletionTimes 1.3 1.0 USE AND APPLICATION
BACKGROUND           Limiting Conditions for Operation (LCOs) specify the lowest functional capability or performance levels of equipment required for safe operation of the facility. The ACTIONS associated with an LCO state Conditions that typically describe the ways in which the requirements of the LCO can fail to be met. Specified with each stated Condition are Required Action(s) and Completion Times(s).
 
DESCRIPTION           The Completion Time is the amount of time allowed for completing a Required Action. It is referenced to the time of discovery of a situation (e.g., equipment or variable not within limits) that requires entering an ACTIONS Condition unless otherwise specified, providing the HI-STORM 100 System is in a specified condition stated in the Applicability of the LCO. Required Actions must be completed prior to the expiration of the specified Completion Time.
1.3 Completion Times
 
PURPOSE The purpose of this section is to establish the Completion Time convention and to provide guidance for its use.
 
BACKGROUND Limiting Conditions for Operation (LCOs) specify the lowest functional capability or performance levels of equipment required for safe operation of the facility. The ACTIONS associated with an LCO state Conditions that typically describe the ways in which the requirements of the LCO can fail to be met. Specified with each stated Condition are Required Action(s) and Completion Times(s).
 
DESCRIPTION The Completion Time is the amount of time allowed for completing a Required Action. It is referenced to the time of discovery of a situation (e.g., equipment or variable not within limits) that requires entering an ACTIONS Condition unless otherwise specified, providing the HI-STORM 100 System is in a specified condition stated in the Applicability of the LCO. Required Actions must be completed prior to the expiration of the specified Comple tion Time.
An ACTIONS Condition remains in effect and the Required Actions apply until the Condition no longer exists or the HI-STORM 100 System is not within the LCO Applicability.
An ACTIONS Condition remains in effect and the Required Actions apply until the Condition no longer exists or the HI-STORM 100 System is not within the LCO Applicability.
Once a Condition has been entered, subsequent subsystems, components, or variables expressed in the Condition, discovered to be not within limits, will not result in separate entry into the Condition unless specifically stated. The Required Actions of the Condition continue to apply to each additional failure, with Completion Times based on initial entry into the Condition.
Once a Condition has been entered, subsequent subsystems, components, or variables expressed in the Condition, discovered to be not within limits, will not result in separate entry into the Condition unless specifically stated. The Required Actions of the Condition continue to apply to each additional failure, with Completion Times based on initial entry into the Condition.
(continued)
(continued)
Certificate of Compliance No. 1014                                  Renewed Amendment No. 10 Appendix A                                    1.3-1


Completion Times 1.3 1.3 Completion Times (continued)
Certificate of Compliance No. 1014 Appendix A 1.3-1 CompletionTimes 1.3 1.3 Completion Times (continued)
EXAMPLES             The following examples illustrate the use of Completion Times with different types of Conditions and changing Conditions.
 
EXAMPLE 1.3-1 ACTIONS CONDITION           REQUIRED ACTION           COMPLETION TIME B. Required           B.1 Perform Action B.1       12 hours Action and associated       AND Completion Time not met. B.2 Perform Action B.2       36 hours Condition B has two Required Actions. Each Required Action has its own separate Completion Time. Each Completion Time is referenced to the time that Condition B is entered.
EXAMPLES The following examples illustrate the use of Completion Times with different types of Conditions and changing Conditions.
 
EXAMPLE 1.3-1
 
ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME
 
B. Required B.1 Perform Action B.1 12 hours Action and associated AND Completion Time not met. B.2 Perform Action B.2 36 hours
 
Condition B has two Required Actions. Each Required Action has its own separate Completion Time. Each Completion Time is referenced to the time that Condition B is entered.
 
The Required Actions of Condition B are to complete action B.1 within 12 hours AND complete action B.2 within 36 hours. A total of 12 hours is allowed for completing action B.1 and a total of 36 hours (not 48 hours) is allowed for completing action B.2 from the time that Condition B was entered. If action B.1 is completed within 6 hours, the time allowed for completing action B.2 is the next 30 hours because the total time allowed for completing action B.2 is 36 hours.
The Required Actions of Condition B are to complete action B.1 within 12 hours AND complete action B.2 within 36 hours. A total of 12 hours is allowed for completing action B.1 and a total of 36 hours (not 48 hours) is allowed for completing action B.2 from the time that Condition B was entered. If action B.1 is completed within 6 hours, the time allowed for completing action B.2 is the next 30 hours because the total time allowed for completing action B.2 is 36 hours.
(continued)
(continued)
Certificate of Compliance No. 1014                                Renewed Amendment No. 10 Appendix A                                  1.3-2


Completion Times 1.3 1.3     Completion Times (continued)
Certificate of Compliance No. 1014 Appendix A 1.3-2 CompletionTimes 1.3 1.3 Completion Times (continued)
EXAMPLES               EXAMPLE 1.3-2 (continued)
 
ACTIONS CONDITION             REQUIRED ACTION           COMPLETION TIME A. One system           A.1 Restore system to     7 days not within limit.       within limit.
EXAMPLES EXAMPLE 1.3-2 (continued)
B. Required             B.1 Complete action       12 hours Action and             B.1.
ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME
associated Completion         AND Time not met.
 
B.2 Complete action       36 hours B.2.
A. One system A.1 Restore system to 7 days not within limit. within limit.
When a system is determined not to meet the LCO, Condition A is entered. If the system is not restored within 7 days, Condition B is also entered and the Completion Time clocks for Required Actions B.1 and B.2 start. If the system is restored after Condition B is entered, Conditions A and B are exited, and therefore, the Required Actions of Condition B may be terminated.
 
B. Required B.1 Complete action 12 hours Action and B.1.
associated Completion AND Time not met.
B.2 Complete action 36 hours B.2.
 
When a system is determined not to meet th e LCO, Condition A is entered. If the system is not restored within 7 days, Condition B is also entered and the Completion Time clocks for Required Actions B.1 and B.2 start. If the system is restored after Condition B is entered, Conditions A and B are exited, and therefore, the Required Actions of Condition B may be terminated.
 
(continued)
(continued)
Certificate of Compliance No. 1014                                Renewed Amendment No. 10 Appendix A                                    1.3-3


Completion Times 1.3 1.3     Completion Times (continued)
Certificate of Compliance No. 1014 Appendix A 1.3-3 CompletionTimes 1.3
EXAMPLES               EXAMPLE 1.3-3 (continued)
 
1.3 Completion Times (continued)
 
EXAMPLES EXAMPLE 1.3-3 (continued)
ACTIONS
ACTIONS
                        ---------------------------------------NOTE------------------------------------------
---------------------------------------NOTE------------------------------------------
Separate Condition entry is allowed for each component.
Separate Condition entry is allowed for each component.
CONDITION                   REQUIRED ACTION                     COMPLETION TIME A. LCO not met.               A.1     Restore                     4 hours compliance with LCO.
CONDITION REQUIRED ACTION COMPLETION TIME
B. Required                   B.1     Complete action             6 hours Action and                       B.1.
 
associated Completion             AND Time not met.
A. LCO not met. A.1 Restore 4 hours compliance with LCO.
B.2     Complete action             12 hours B.2.
 
B. Required B.1 Complete action 6 hours Action and B.1.
associated Completion AND Time not met.
B.2 Complete action 12 hours B.2.
 
The Note above the ACTIONS table is a method of modifying how the Completion Time is tracked. If this method of modifying how the Completion Time is tracked was applicable only to a specific Condition, the Note would appear in that Condition rather than at the top of the ACTIONS Table.
The Note above the ACTIONS table is a method of modifying how the Completion Time is tracked. If this method of modifying how the Completion Time is tracked was applicable only to a specific Condition, the Note would appear in that Condition rather than at the top of the ACTIONS Table.
The Note allows Condition A to be entered separately for each component, and Completion Times tracked on a per component basis. When a component is determined to not meet the LCO, Condition A is entered and its Completion Time starts. If subsequent components are determined to not meet the LCO, Condition A is entered for each component and separate Completion Times start and are tracked for each component.
The Note allows Condition A to be entered separately for each component, and Completion Times tracked on a per component basis. When a component is determined to not meet the LCO, Condition A is entered and its Completion Time starts. If subsequent components are determined to not meet the LCO, Condition A is entered for each component and separate Completion Times start and are tracked for each component.
(continued)
(continued)
Certificate of Compliance No. 1014                                            Renewed Amendment No. 10 Appendix A                                          1.3-4


Completion Times 1.3 1.3 Completion Times (continued)
Certificate of Compliance No. 1014 Appendix A 1.3-4 CompletionTimes 1.3
IMMEDIATE             When "Immediately" is used as a Completion Time, the Required COMPLETION             Action should be pursued without delay and in a controlled manner.
 
TIME Certificate of Compliance No. 1014                             Renewed Amendment No. 10 Appendix A                                 1.3-5
1.3 Completion Times (continued)
 
IMMEDIATE When "Immediately" is used as a Completion Ti me, the Required COMPLETION Action should be pursued without delay and in a controlled manner.
TIME
 
Certificate of Compliance No. 1014 Appendix A 1.3-5 Frequency 1.4 1.0 USE AND APPLICATION
 
1.4 Frequency
 
PURPOSE The purpose of this section is to define the proper use and application of Frequency requirements.
 
DESCRIPTION Each Surveillance Requirement (SR) has a specified Frequency in which the Surveillance must be met in order to meet the associated Limiting Condition for Operation (LCO). An understanding of the correct application of the specified Frequency is necessary for compliance with the SR.


Frequency 1.4 1.0 USE AND APPLICATION 1.4 Frequency PURPOSE              The purpose of this section is to define the proper use and application of Frequency requirements.
DESCRIPTION            Each Surveillance Requirement (SR) has a specified Frequency in which the Surveillance must be met in order to meet the associated Limiting Condition for Operation (LCO). An understanding of the correct application of the specified Frequency is necessary for compliance with the SR.
The "specified Frequency" is referred to throughout this section and each of the Specifications of Section 3.0, Surveillance Requirement (SR) Applicability. The "specified Frequency" consists of the requirements of the Frequency column of each SR.
The "specified Frequency" is referred to throughout this section and each of the Specifications of Section 3.0, Surveillance Requirement (SR) Applicability. The "specified Frequency" consists of the requirements of the Frequency column of each SR.
Situations where a Surveillance could be required (i.e., its Frequency could expire), but where it is not possible or not desired that it be performed until sometime after the associated LCO is within its Applicability, represent potential SR 3.0.4 conflicts. To avoid these conflicts, the SR (i.e., the Surveillance or the Frequency) is stated such that it is only "required" when it can be and should be performed. With an SR satisfied, SR 3.0.4 imposes no restriction.
Situations where a Surveillance could be required (i.e., its Frequency could expire), but where it is not possible or not desired that it be performed until sometime after the associated LCO is within its Applicability, represent potential SR 3.0.4 conflicts. To avoid these conflicts, the SR (i.e., the Surveillance or the Frequency) is stated such that it is only "required" when it can be and should be performed. With an SR satisfied, SR 3.0.4 imposes no restriction.
(continued)
(continued)
Certificate of Compliance No. 1014                                Renewed Amendment No. 10 Appendix A                                    1.4-1


Frequency 1.4 1.4 Frequency (continued)
Certificate of Compliance No. 1014 Appendix A 1.4-1 Frequency 1.4 1.4 Frequency (continued)
EXAMPLES               The following examples           illustrate the   various   ways   that Frequencies are specified.
 
EXAMPLE 1.4-1 SURVEILLANCE REQUIREMENTS SURVEILLANCE                           FREQUENCY Verify pressure within limit                           12 hours Example 1.4-1 contains the type of SR most often encountered in the Technical Specifications (TS). The Frequency specifies an interval (12 hours) during which the associated Surveillance must be performed at least one time. Performance of the Surveillance initiates the subsequent interval. Although the Frequency is stated as 12 hours, an extension of the time interval to 1.25 times the interval specified in the Frequency is allowed by SR 3.0.2 for operational flexibility. The measurement of this interval continues at all times, even when the SR is not required to be met per SR 3.0.1 (such as when the equipment or variables are outside specified limits, or the facility is outside the Applicability of the LCO). If the interval specified by SR 3.0.2 is exceeded while the facility is in a condition specified in the Applicability of the LCO, the LCO is not met in accordance with SR 3.0.1.
EXAMPLES The following examples illustrate the various ways that Frequencies are specified.
EXAMPLE 1.4-1 SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY Verify pressure within limit 12 hours
 
Example 1.4-1 contains the type of SR most often encountered in the Technical Specifications (TS). The Frequency specifies an interval (12 hours) during which the associated Surveillance must be performed at least one time. Performance of the Surveillance initiates the subsequent interval. Although the Frequency is stated as 12 hours, an extension of the time interval to 1.25 times the interval specified in the Frequency is allowed by SR 3.0.2 for operational flexibility. The measurement of this interval continues at all times, even when the SR is not required to be met per SR 3.0.1 (such as when the equipment or variables are outside specified limits, or the facility is outside the Applicability of the LCO). If the interval specified by SR 3.0.2 is exceeded while the facility is in a condition specified in the Applicability of the LCO, the LCO is not met in accordance with SR 3.0.1.
If the interval as specified by SR 3.0.2 is exceeded while the facility is not in a condition specified in the Applicability of the LCO for which performance of the SR is required, the Surveillance must be performed within the Frequency requirements of SR 3.0.2 prior to entry into the specified condition. Failure to do so would result in a violation of SR 3.0.4 (continued)
If the interval as specified by SR 3.0.2 is exceeded while the facility is not in a condition specified in the Applicability of the LCO for which performance of the SR is required, the Surveillance must be performed within the Frequency requirements of SR 3.0.2 prior to entry into the specified condition. Failure to do so would result in a violation of SR 3.0.4 (continued)
Certificate of Compliance No. 1014                                  Renewed Amendment No. 10 Appendix A                                      1.4-2


Frequency 1.4 1.4 Frequency (continued)
Certificate of Compliance No. 1014 Appendix A 1.4-2 Frequency 1.4
EXAMPLES (continued)           EXAMPLE 1.4-2 SURVEILLANCE REQUIREMENTS SURVEILLANCE                         FREQUENCY Verify flow is within limits.                       Once within 12 hours prior to starting activity AND 24 hours thereafter Example 1.4-2 has two Frequencies. The first is a one time performance Frequency, and the second is of the type shown in Example 1.4-1. The logical connector "AND" indicates that both Frequency requirements must be met. Each time the example activity is to be performed, the Surveillance must be performed within 12 hours prior to starting the activity.
 
1.4 Frequency (continued)
 
EXAMPLES (continued) EXAMPLE 1.4-2
 
SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY Verify flow is within limits. Once within 12 hours prior to starting activity AND 24 hours thereafter
 
Example 1.4-2 has two Frequencies. The first is a one time performance Frequency, and the second is of the type shown in Example 1.4-1. The logical connector "AND" indicates that both Frequency requirements must be met. Each time the example activity is to be performed, the Surveillance must be performed within 12 hours prior to starting the activity.
The use of "once" indicates a single performance will satisfy the specified Frequency (assuming no other Frequencies are connected by "AND"). This type of Frequency does not qualify for the 25% extension allowed by SR 3.0.2.
The use of "once" indicates a single performance will satisfy the specified Frequency (assuming no other Frequencies are connected by "AND"). This type of Frequency does not qualify for the 25% extension allowed by SR 3.0.2.
                        "Thereafter" indicates future performances must be established per SR 3.0.2, but only after a specified condition is first met (i.e., the "once" performance in this example). If the specified activity is canceled or not performed, the measurement of both intervals stops. New intervals start upon preparing to restart the specified activity.
"Thereafter" indicates future performances must be established per SR 3.0.2, but only after a specified condition is firs t met (i.e., the "once" performance in this example). If the specified activity is canceled or not performed, the measurement of both intervals stops. New intervals start upon preparing to restart the specified activity.
Certificate of Compliance No. 1014                                 Renewed Amendment No. 10 Appendix A                                     1.4-3
 
Certificate of Compliance No. 1014 Appendix A 1.4-3 2.0
 
2.0
 
This section is intentionally left blank
 
Certificate of Compliance No. 1014 Appendix A 2.0-1 LCOApplicability 3.0
 
3.0 LIMITING CONDITIONS FOR OPERATION (LCO ) APPLICABILITY
 
LCO 3.0.1 LCOs shall be met during specified conditions in the Applicability, except as provided in LCO 3.0.2.


2.0 2.0 This section is intentionally left blank Certificate of Compliance No. 1014            Renewed Amendment No. 10 Appendix A                              2.0-1
LCO 3.0.2 Upon discovery of a failure to meet an LCO, the Required Actions of the associated Conditions shall be met, except as provided in LCO 3.0.5.


LCO Applicability 3.0 3.0 LIMITING CONDITIONS FOR OPERATION (LCO) APPLICABILITY LCO 3.0.1            LCOs shall be met during specified conditions in the Applicability, except as provided in LCO 3.0.2.
LCO 3.0.2            Upon discovery of a failure to meet an LCO, the Required Actions of the associated Conditions shall be met, except as provided in LCO 3.0.5.
If the LCO is met or is no longer applicable prior to expiration of the specified Completion Time(s), completion of the Required Action(s) is not required, unless otherwise stated.
If the LCO is met or is no longer applicable prior to expiration of the specified Completion Time(s), completion of the Required Action(s) is not required, unless otherwise stated.
LCO 3.0.3            Not applicable.
LCO 3.0.4            When an LCO is not met, entry into a specified condition in the Applicability shall not be made except when the associated ACTIONS to be entered permit continued operation in the specified condition in the Applicability for an unlimited period of time. This Specification shall not prevent changes in specified conditions in the Applicability that are required to comply with ACTIONS or that are related to the unloading of an SFSC.
LCO 3.0.5            Equipment removed from service or not in service in compliance with ACTIONS may be returned to service under administrative control solely to perform testing required to demonstrate it meets the LCO or that other equipment meets the LCO. This is an exception to LCO 3.0.2 for the system returned to service under administrative control to perform the testing.
Certificate of Compliance No. 1014                              Renewed Amendment No. 10 Appendix A                                    3.0-1


LCO Applicability 3.0 3.0 SURVEILLANCE REQUIREMENT (SR) APPLICABILITY SR 3.0.1             SRs shall be met during the specified conditions in the Applicability for individual LCOs, unless otherwise stated in the SR. Failure to meet a Surveillance, whether such failure is experienced during the performance of the Surveillance or between performances of the Surveillance, shall be failure to meet the LCO. Failure to perform a Surveillance within the specified Frequency shall be failure to meet the LCO except as provided in SR 3.0.3. Surveillances do not have to be performed on equipment or variables outside specified limits.
LCO 3.0.3 Not applicable.
SR 3.0.2             The specified Frequency for each SR is met if the Surveillance is performed within 1.25 times the interval specified in the Frequency, as measured from the previous performance or as measured from the time a specified condition of the Frequency is met.
 
LCO 3.0.4 When an LCO is not met, entry into a specified condition in the Applicability shall not be made except when the associated ACTIONS to be entered permit continued operation in the specified condition in the Applicability for an unlimited period of time. This Specification shall not prevent changes in specified conditions in the Applicability that are required to comply with ACTIONS or that are related to the unloading of an SFSC.
 
LCO 3.0.5 Equipment removed from service or not in service in compliance with ACTIONS may be returned to service under administrative control solely to perform testing required to demonstrate it meets the LCO or that other equipment meets the LCO. This is an exception to LCO 3.0.2 for the system returned to service under administrative control to perform the testing.
 
Certificate of Compliance No. 1014 Appendix A 3.0-1 LCOApplicability 3.0
 
3.0 SURVEILLANCE REQUIREMENT (SR) APPLICABILITY
 
SR 3.0.1 SRs shall be met during the specified conditions in the Applicability for individual LCOs, unless otherwise stated in the SR. Failure to meet a Surveillance, whether such failure is experienced during the performance of the Surveillance or between performances of the Surveillance, shall be failure to meet the LCO. Failure to perform a Surveillance within the specified Frequency shall be failure to meet the LCO except as provided in SR 3.0.3. Surveillances do not have to be performed on equipment or variables outside specified limits.
SR 3.0.2 The specified Frequency for each SR is met if the Surveillance is performed within 1.25 times the interval specified in the Frequency, as measured from the previous performance or as measured from the time a specified condition of the Frequency is met.
 
For Frequencies specified as once, the above interval extension does not apply. If a Completion Time requires periodic performance on a once per... basis, the above Frequency extension applies to each performance after the initial performance.
For Frequencies specified as once, the above interval extension does not apply. If a Completion Time requires periodic performance on a once per... basis, the above Frequency extension applies to each performance after the initial performance.
Exceptions to this Specification are stated in the individual Specifications.
Exceptions to this Specification are stated in the individual Specifications.
SR 3.0.3             If it is discovered that a Surveillance was not performed within its specified Frequency, then compliance with the requirement to declare the LCO not met may be delayed, from the time of discovery, up to 24 hours or up to the limit of the specified Frequency, whichever is less. This delay period is permitted to allow performance of the Surveillance.
SR 3.0.3 If it is discovered that a Surveillance was not performed within its specified Frequency, then compliance with the requirement to declare the LCO not met may be delayed, from the time of discovery, up to 24 hours or up to the limit of the specified Frequency, whichever is less. This delay period is permitted to allow performance of the Surveillance.
 
If the Surveillance is not performed within the delay period, the LCO must immediately be declared not met, and the applicable Condition(s) must be entered.
If the Surveillance is not performed within the delay period, the LCO must immediately be declared not met, and the applicable Condition(s) must be entered.
(continued)
(continued)
Certificate of Compliance No. 1014                              Renewed Amendment No. 10 Appendix A                                    3.0-2


LCO Applicability 3.0 3.0 SURVEILLANCE REQUIREMENT (SR) APPLICABILITY SR 3.0.3             When the Surveillance is performed within the delay period and the (continued)           Surveillance is not met, the LCO must immediately be declared not met, and the applicable Condition(s) must be entered.
Certificate of Compliance No. 1014 Appendix A 3.0-2 LCOApplicability 3.0
SR 3.0.4             Entry into a specified condition in the Applicability of an LCO shall not be made unless the LCO's Surveillances have been met within their specified Frequency. This provision shall not prevent entry into specified conditions in the Applicability that are required to comply with Actions or that are related to the unloading of an SFSC.
 
Certificate of Compliance No. 1014                                 Renewed Amendment No. 10 Appendix A                                   3.0-3
3.0 SURVEILLANCE REQUIREMENT (SR) APPLICABILITY
 
SR 3.0.3 When the Surveillance is performed within the delay period and the (continued) Surveillance is not met, the LCO must immediately be declared not met, and the applicable Condition(s) must be entered.
 
SR 3.0.4 Entry into a specified condition in the Applicab ility of an LCO shall not be made unless the LCO's Surveillances have been met within their specified Frequency. This provision shall not prevent entry into specified conditions in the Applicability that are required to comply with Actions or that are related to the unloading of an SFSC.
 
Certificate of Compliance No. 1014 Appendix A 3.0-3 Multi-Purpose Canister (MPC) 3.1.1 3.1 SFSC INTEGRITY
 
3.1.1 Multi-Purpose Canister (MPC)
 
LCO 3.1.1 The MPC shall be dry and helium filled.


Multi-Purpose Canister (MPC) 3.1.1 3.1 SFSC INTEGRITY 3.1.1 Multi-Purpose Canister (MPC)
LCO 3.1.1                  The MPC shall be dry and helium filled.
Table 3-1 provides decay heat and burnup limits for forced helium dehydration (FHD) and vacuum drying. FHD is not subject to time limits. Vacuum drying of the MPC-68M is not subject to time limits.
Table 3-1 provides decay heat and burnup limits for forced helium dehydration (FHD) and vacuum drying. FHD is not subject to time limits. Vacuum drying of the MPC-68M is not subject to time limits.
Vacuum drying, for all other MPCs, is subject to the following time limits, from the end of bulk water removal until the start of helium backfill:
Vacuum drying, for all other MPCs, is subject to the following time limits, from the end of bulk water removal until the start of helium backfill:
MPC Total Decay Heat (Q)                                   Vacuum Drying Time Limit Q < 26 kW                                                 None 26 kW < Q < 30 kW                                         40 hours Q > 30 kW                                                 Not Permitted (see Table 3-1)
 
MPC Total Decay Heat (Q) Vacuum Drying Time Limit Q < 26 kW None 26 kW < Q < 30 kW 40 hours Q > 30 kW Not Permitted (see Table 3-1)
Note 1: Maximum storage cell heat load must not exceed MPC heat load limits in the table divided by number of storage cells.
Note 1: Maximum storage cell heat load must not exceed MPC heat load limits in the table divided by number of storage cells.
APPLICABILITY: During TRANSPORT OPERATIONS and STORAGE OPERATIONS.
APPLICABILITY: During TRANSPORT OPERATIONS and STORAGE OPERATIONS.
ACTIONS
ACTIONS
-------------------------------------------------NOTES---------------------------------------------------------
-------------------------------------------------NOTES---------------------------------------------- -----------
Separate Condition entry is allowed for each MPC.
Separate Condition entry is allowed for each MPC.
COMPLETION CONDITION                              REQUIRED ACTION TIME A. MPC cavity vacuum                  A.1 Perform an engineering                      7 days drying pressure or                        evaluation to determine the demoisturizer exit gas                    quantity of moisture left in temperature limit not                    the MPC.
met.
AND A.2 Develop and initiate                        30 days corrective actions necessary to return the MPC to compliance with Table 3-1.
Certificate of Compliance No. 1014                                              Renewed Amendment No. 10 Appendix A                                            3.1.1-1


Multi-Purpose Canister (MPC) 3.1.1 ACTIONS (continued)
CONDITION REQUIRED ACTION COMPLETION TIME
B. MPC cavity vacuum          B.1 Backfill the MPC cavity with      6 hours drying acceptance               helium to a pressure of at criteria not met during         least 0.5 atm.
 
A. MPC cavity vacuumA.1 Perform an engineering 7 days drying pressure or evaluation to determine the demoisturizer exit gas quantity of moisture left in temperature limit notthe MPC.
met. AND
 
A.2 Develop and initiate 30 days corrective actions necessary to return the MPC to compliance with Table 3-1.
 
Certificate of Compliance No. 1014 Appendix A 3.1.1-1 Multi-Purpose Canister (MPC) 3.1.1 ACTIONS (continued)
 
B. MPC cavity vacuumB.1 Backfill the MPC cavity with6 hours drying acceptance helium to a pressure of at criteria not met during least 0.5 atm.
allowable time.
allowable time.
C. MPC helium backfill limit  C.1  Perform an engineering          72 hours not met.                        evaluation to determine the impact of helium differential.
AND C.2.1 Develop and initiate            14 days corrective actions necessary to return the MPC to an analyzed condition by adding helium to or removing helium from the MPC.
OR C.2.2 Develop and initiate corrective actions necessary to demonstrate through analysis, using the models and methods from the HI-STORM FSAR, that all limits for cask components and contents will be met.
D. MPC helium leak rate      D.1  Perform an engineering          24 hours limit for vent and drain        evaluation to determine the port cover plate welds or        impact of increased helium cover plate base metal          leak rate on heat removal not met.                        capability and offsite dose.
AND D.2  Develop and initiate            7 days corrective actions necessary to return the MPC to compliance with SR 3.1.1.3.
Certificate of Compliance No. 1014                              Renewed Amendment No. 10 Appendix A                                3.1.1-2


Multi-Purpose Canister (MPC) 3.1.1 E. Required Actions and        E.1   Remove all fuel assemblies      30 days associated Completion             from the SFSC.
C. MPC helium backfill limitC.1 Perform an engineering72 hours not met. evaluation to determine the impact of helium differential.
AND C.2.1 Develop and initiate 14 days corrective actions necessary to return the MPC to an analyzed condition by adding helium to or removing helium from the MPC.
OR
 
C.2.2 Develop and initiate corrective actions necessary to demonstrate through analysis, using the models and methods from the HI-STORM FSAR, that all limits for cask components and contents will be met.
D. MPC helium leak rateD.1 Perform an engineering24 hours limit for vent and drain evaluation to determine the port cover plate welds or impact of increased helium cover plate base metal leak rate on heat removal not met. capability and offsite dose.
 
AND
 
D.2 Develop and initiate 7 days corrective actions necessary to return the MPC to compliance with SR 3.1.1.3.
 
Certificate of Compliance No. 1014 Appendix A 3.1.1-2 Multi-Purpose Canister (MPC) 3.1.1
 
E. Required Actions andE.1 Remove all fuel assemblies30 days associated Completion from the SFSC.
Times not met.
Times not met.
SURVEILLANCE REQUIREMENTS SURVEILLANCE                                  FREQUENCY SR 3.1.1.1          Verify that the MPC cavity has been dried in          Once, prior to accordance with the applicable limits in Table        TRANSPORT 3-1, within the specified vacuum drying time limits    OPERATIONS as applicable.
SR 3.1.1.2          Verify MPC helium backfill quantity is within the      Once, prior to limit specified in Table 3-2 for the applicable MPC    TRANSPORT model. Re-performance of this surveillance is not      OPERATIONS required upon successful completion of Action C.2.2.
SR 3.1.1.3          Verify that the helium leak rate through the MPC      Once, prior to vent and drain port cover plates (confinement          TRANSPORT welds and the base metal) meets the leaktight          OPERATIONS criteria of ANSI N14.5-1997.
Certificate of Compliance No. 1014                                Renewed Amendment No. 10 Appendix A                                  3.1.1-3


SFSC Heat Removal System 3.1.2 3.1 SFSC INTEGRITY 3.1.2 SFSC Heat Removal System LCO 3.1.2                 The SFSC Heat Removal System shall be operable
SURVEILLANCE REQUIREMENTS
 
SURVEILLANCE FREQUENCY
 
SR 3.1.1.1 Verify that the MPC cavity has been dried in Once, prior to accordance with the applicable limits in Table TRANSPORT 3-1, within the specified vacuum drying time limits OPERATIONS as applicable.
 
SR 3.1.1.2 Verify MPC helium backfill quantity is within the Once, prior to limit specified in Table 3-2 for the applicable MPC TRANSPORT model. Re-performance of this surveillance is not OPERATIONS required upon successful completion of Action C.2.2.
 
SR 3.1.1.3 Verify that the helium leak rate through the MPC Once, prior to vent and drain port cover plates (confinement TRANSPORT welds and the base metal) meets the leaktight OPERATIONS criteria of ANSI N14.5-1997.
 
Certificate of Compliance No. 1014 Appendix A 3.1.1-3 SFSC Heat Removal System 3.1.2 3.1 SFSC INTEGRITY
 
3.1.2 SFSC Heat Removal System
 
LCO 3.1.2 The SFSC Heat Removal System shall be operable
 
----------------------------------------------------------NOTE--------------------------------------------------
----------------------------------------------------------NOTE--------------------------------------------------
The SFSC Heat Removal System is operable when 50% or more of the inlet and outlet vent areas are unblocked and available for flow or when air temperature requirements are met.
The SFSC Heat Removal System is operable when 50% or more of the inlet and outlet vent areas are unblocked and available for flow or when air temperature requirements are met.
APPLICABILITY: During STORAGE OPERATIONS.
APPLICABILITY: During STORAGE OPERATIONS.
ACTIONS
ACTIONS
----------------------------------------------------------NOTE--------------------------------------------------
----------------------------------------------------------NOTE--------------------------------------------------
Separate Condition entry is allowed for each SFSC.
Separate Condition entry is allowed for each SFSC.
COMPLETION CONDITION                               REQUIRED ACTION TIME A. SFSC Heat Removal                     A.1     Remove blockage.                       N/A System operable, but partially (<50%) blocked.
 
B. SFSC Heat Removal                     B.1     Restore SFSC Heat                      8 hours System inoperable.                           Removal System to operable status.
CONDITION REQUIRED ACTION COMPLETION TIME
C. Required Action B.1 and                C.1     Measure SFSC dose rates                Immediately and associated Completion                       in accordance with the                 once per 12 hours Time not met.                               Radiation Protection                   thereafter Program.
 
AND C.2.1 Restore SFSC Heat                         64 hours (Storage Removal System to                       cell heat loads<
A. SFSC Heat Removal A.1 Remove blockage. N/A System operable, but partially (<50%) blocked.
operable status.                       Tables 3-3 or 3-4 limits) 24 hours (Storage cell heat loads>
 
B. SFSC Heat Removal B.1 Restore SFSC Heat8 hours System inoperable. Removal System to operable status.
 
C. Required Action B.1 andC.1 Measure SFSC dose ratesImmediately and associated Completion in accordance with the once per 12 hours Time not met. Radiation Protection thereafter Program.
AND C.2.1 Restore SFSC Heat 64 hours (Storage Removal System to cell heat loads<
operable status. Tables 3-3 or 3-4 limits)
 
24 hours (Storage cell heat loads>
Tables 3-3 or 3-4 limits)
OR
 
Certificate of Compliance No. 1014 Appendix A 3.1.2-1 SFSC Heat Removal System 3.1.2
 
CONDITION REQUIRED ACTION COMPLETION TIME
 
C.2.2 Transfer the MPC into a 64 hours (Storage TRANSFER CASK. cell heat loads<
Tables 3-3 or 3-4 limits)
Tables 3-3 or 3-4 limits)
OR Certificate of Compliance No. 1014                                              Renewed Amendment No. 10 Appendix A                                            3.1.2-1


SFSC Heat Removal System 3.1.2 COMPLETION CONDITION                    REQUIRED ACTION TIME C.2.2 Transfer the MPC into a      64 hours (Storage TRANSFER CASK.              cell heat loads<
24 hours (Storage cell heat loads>
Tables 3-3 or 3-4 limits) 24 hours (Storage cell heat loads>
Tables 3-3 or 3-4 limits)
Tables 3-3 or 3-4 limits)
SURVEILLANCE REQUIREMENTS SURVEILLANCE                                  FREQUENCY SR 3.1.2          Verify all OVERPACK inlets and outlets are free    24 hours of blockage from solid debris or floodwater.
OR For OVERPACKS with installed temperature            24 hours monitoring equipment, verify that the difference between the average OVERPACK air outlet temperature and ISFSI ambient temperature is
                  < 155oF for OVERPACKS containing PWR MPCs, < 137oF for OVERPACKS containing BWR MPCs.
Certificate of Compliance No. 1014                              Renewed Amendment No. 10 Appendix A                                3.1.2-2


Fuel Cool-Down 3.1.3 3.1 SFSC INTEGRITY 3.1.3 MPC Cavity Reflooding LCO 3.1.3                 The MPC cavity pressure shall be < 100 psig
SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY
 
SR 3.1.2 Verify all OVERPACK inlets and outlets are free 24 hours of blockage from solid debris or floodwater.
 
OR For OVERPACKS with installed temperature 24 hours monitoring equipment, verify that the difference between the average OVERPACK air outlet temperature and ISFSI ambient temperature is
< 155oF for OVERPACKS containing PWR MPCs, < 137oF for OVERPACKS containing BWR MPCs.
 
Certificate of Compliance No. 1014 Appendix A 3.1.2-2 Fuel Cool-Down 3.1.3 3.1 SFSC INTEGRITY
 
3.1.3 MPC Cavity Reflooding
 
LCO 3.1.3 The MPC cavity pressure shall be < 100 psig
 
----------------------------------------------------NOTE--------------------------------------------------------
----------------------------------------------------NOTE--------------------------------------------------------
The LCO is only applicable to wet UNLOADING OPERATIONS.
The LCO is only applicable to wet UNLOADING OPERATIONS.
APPLICABILITY: UNLOADING OPERATIONS prior to and during re-flooding.
APPLICABILITY: UNLOADING OPERATIONS prior to and during re-flooding.
ACTIONS
ACTIONS
----------------------------------------------------NOTE--------------------------------------------------------
----------------------------------------------------NOTE--------------------------------------------------------
Separate Condition entry is allowed for each MPC.
Separate Condition entry is allowed for each MPC.
COMPLETION CONDITION                              REQUIRED ACTION TIME A. MPC cavity pressure                A.1 Stop re-flooding operations                Immediately not within limit.                        until MPC cavity pressure is within limit.
AND A.2 Ensure MPC vent port is not                Immediately closed or blocked.
SURVEILLANCE REQUIREMENTS SURVEILLANCE                                                FREQUENCY SR 3.1.3.1            Ensure via analysis or direct measurement that                      Once, prior to MPC cavity pressure is within limit.                                MPC re-flooding operations.
AND Once every 1 hour thereafter when using direct measurement.
Certificate of Compliance No. 1014                                              Renewed Amendment No. 10 Appendix A                                            3.1.3-1


Supplemental Cooling System 3.1.4 3.1 SFSC INTEGRITY LCO 3.1.4                 A supplemental cooling system (SCS) shall be operable
CONDITION REQUIRED ACTION COMPLETION TIME
 
A. MPC cavity pressure Immediately not within limit. A.1 Stop re-flooding operationsuntil MPC cavity pressure is within limit.
AND
 
A.2 Ensure MPC vent port is not Immediately closed or blocked.
 
SURVEILLANCE REQUIREMENTS
 
SURVEILLANCE FREQUENCY
 
SR 3.1.3.1 Ensure via analysis or direct measurement that Once, prior to MPC cavity pressure is within limit. MPC re-flooding operations.
 
AND
 
Once every 1 hour thereafter when using direct measurement.
 
Certificate of Compliance No. 1014 Appendix A 3.1.3-1 Supplemental Cooling System 3.1.4 3.1 SFSC INTEGRITY
 
LCO 3.1.4 A supplemental cooling system (SCS) shall be operable
 
---------------------------------------------------NOTE---------------------------------------------------------
---------------------------------------------------NOTE---------------------------------------------------------
Upon reaching steady state operation, the SCS may be temporarily disabled for a short duration (< 7 hours) to facilitate necessary operational evolutions, such as movement of the TRANSFER CASK through a door way, or other similar operation.
Upon reaching steady state operation, the SCS may be temporarily disabled for a short duration (< 7 hours) to facilitate necessary operational evolutions, such as movement of the TRANSFER CASK through a door way, or other similar operation.
APPLICABILITY: This LCO is not applicable to the MPC-68M. For all other MPCs this LCO is applicable when the loaded MPC is in the TRANSFER CASK and:
APPLICABILITY: This LCO is not applicable to the MPC-68M. For all other MPCs this LCO is applicable when the loaded MPC is in the TRANSFER CASK and:
: a. Within 4 hours of the completion of MPC drying operations in accordance with LCO 3.1.1 or within 4 hours of transferring the MPC into the TRANSFER CASK if the MPC is to be unloaded AND
: a. Within 4 hours of the completion of MPC drying operations in accordance with LCO 3.1.1 or within 4 hours of transferring the MPC into the TRANSFER CASK if the MPC is to be unloaded
: b. The MPC contains one or more fuel assemblies with an average burnup > 45,000 MWD/MTU AND c1. MPC backfilled to higher helium backfill limits in Table 3-2 AND any storage cell decay heat load exceeds 90% of maximum allowable storage cell heat load defined in Appendix B, Section 2.4.1 or 2.4.2 and FSAR Section 2.1.9.1 procedures.
 
OR c2. MPC backfilled to lower helium backfill limits in Table 3-2 AND any storage cell heat load exceeds 90% of storage cell heat load limits defined in Tables 3-3 or 3-4.
AND
Certificate of Compliance No. 1014                                              Renewed Amendment No. 10 Appendix A                                            3.1.4-1
: b. The MPC contains one or more fuel assemblies with an average burnup > 45,000 MWD/MTU
 
AND
 
c1. MPC backfilled to higher helium backfill limits in Table 3-2 AND any storage cell decay heat load exceeds 90% of maximum allowable storage cell heat load defined in Appendix B, Section 2.4.1 or 2.4.2 and FSAR Section 2.1.9.1 procedures.


Supplemental Cooling System 3.1.4 ACTIONS COMPLETION CONDITION                  REQUIRED ACTION TIME A. SFSC Supplemental          A.1  Restore SFSC              7 days Cooling System                  Supplemental Cooling inoperable.                      System to operable status.
OR
B. Required Action A.1 and    B.1  Remove all fuel            30 days associated Completion            assemblies from the Time not met.                    SFSC.
SURVEILLANCE REQUIREMENTS SURVEILLANCE                              FREQUENCY SR 3.1.4.1        Verify SCS is operable.                          2 hours Certificate of Compliance No. 1014                          Renewed Amendment No. 10 Appendix A                                3.1.4-2


Supplemental Cooling System 3.1.4 This page is intentionally left blank Certificate of Compliance No. 1014 Appendix A                           3.1.4-3   Renewed Amendment No. 10
c2. MPC backfilled to lower helium backfill limits in Table 3-2 AND any storage cell heat load exceeds 90% of storage cell heat load limits defined in Tables 3-3 or 3-4.
 
Certificate of Compliance No. 1014 Appendix A 3.1.4-1 Supplemental Cooling System 3.1.4
 
ACTIONS
 
CONDITION REQUIRED ACTION COMPLETION TIME
 
A. SFSC Supplemental A.1 Restore SFSC 7 days Cooling System Supplemental Cooling inoperable. System to operable status.
 
B. Required Action A.1 and B.1 Remove all fuel 30 days associated Completion assemblies from the Time not met. SFSC.
 
SURVEILLANCE REQUIREMENTS
 
SURVEILLANCE FREQUENCY
 
SR 3.1.4.1 Verify SCS is operable. 2 hours
 
Certificate of Compliance No. 1014 Appendix A 3.1.4-2 Supplemental Cooling System 3.1.4
 
This page is intentionally left blank
 
Certificate of Compliance No. 1014 Appendix A 3.1.4-3 Deleted 3.2.1 3.2 SFSC RADIATION PROTECTION.


Deleted 3.2.1 3.2 SFSC RADIATION PROTECTION.
3.2.1 Deleted.
3.2.1 Deleted.
LCO 3.2.1                  Deleted.
Certificate of Compliance No. 1014          Renewed Amendment No. 10 Appendix A                          3.2.1-1


TRANSFER CASK Surface Contamination 3.2.2 3.2 SFSC RADIATION PROTECTION.
LCO 3.2.1 Deleted.
 
Certificate of Compliance No. 1014 Appendix A 3.2.1-1 TRANSFER CASK Surface Contamination 3.2.2 3.2 SFSC RADIATION PROTECTION.
 
3.2.2 TRANSFER CASK Surface Contamination.
3.2.2 TRANSFER CASK Surface Contamination.
LCO 3.2.2                 Removable contamination on the exterior surfaces of the TRANSFER CASK and accessible portions of the MPC shall each not exceed:
 
LCO 3.2.2 Removable contamination on the exterior surfaces of the TRANSFER CASK and accessible portions of the MPC shall each not exceed:
: a. 1000 dpm/100 cm2 from beta and gamma sources
: a. 1000 dpm/100 cm2 from beta and gamma sources
: b. 20 dpm/100 cm2 from alpha sources.
: b. 20 dpm/100 cm2 from alpha sources.
----------------------------------------------------NOTE--------------------------------------------------------
----------------------------------------------------NOTE--------------------------------------------------------
This LCO is not applicable to the TRANSFER CASK if MPC TRANSFER operations occur inside the FUEL BUILDING.
This LCO is not applicable to the TRANSFER CASK if MPC TRANSFER operations occur inside the FUEL BUILDING.
APPLICABILITY: During TRANSPORT OPERATIONS.
APPLICABILITY: During TRANSPORT OPERATIONS.
ACTIONS
ACTIONS
----------------------------------------------------NOTE--------------------------------------------------------
----------------------------------------------------NOTE--------------------------------------------------------
Separate Condition entry is allowed for each TRANSFER CASK.
Separate Condition entry is allowed for each TRANSFER CASK.
COMPLETION CONDITION                               REQUIRED ACTION TIME A. TRANSFER CASK or                    A.1 Restore removable surface                  7 days MPC removable surface                     contamination to within contamination limits not                   limits.
 
CONDITION REQUIRED ACTION COMPLETION TIME
 
A. TRANSFER CASK orA.1 Restore removable surface7 days MPC removable surface contamination to within contamination limits not limits.
met.
met.
SURVEILLANCE REQUIREMENTS SURVEILLANCE                                                FREQUENCY SR 3.2.2.1            Verify that the removable contamination on the                      Once, prior to exterior surfaces of the TRANSFER CASK and                          TRANSPORT accessible portions of the MPC containing fuel is                  OPERATIONS within limits.
Certificate of Compliance No. 1014                                              Renewed Amendment No. 10 Appendix A                                            3.2.2-1


Deleted 3.2.3 3.2 SFSC RADIATION PROTECTION.
SURVEILLANCE REQUIREMENTS
 
SURVEILLANCE FREQUENCY
 
SR 3.2.2.1 Verify that the removable contamination on the Once, prior to exterior surfaces of the TRANSFER CASK and TRANSPORT accessible portions of the MPC containing fuel is OPERATIONS within limits.
 
Certificate of Compliance No. 1014 Appendix A 3.2.2-1 Deleted 3.2.3
 
3.2 SFSC RADIATION PROTECTION.
 
3.2.3 Deleted.
3.2.3 Deleted.
LCO 3.2.3                  Deleted.
Certificate of Compliance No. 1014          Renewed Amendment No. 10 Appendix A                          3.2.3-1


Boron Concentration 3.3.1 3.3 SFSC CRITICALITY CONTROL 3.3.1 Boron Concentration LCO 3.3.1             As required by CoC Appendix B, Table 2.1-2, the concentration of boron in the water in the MPC shall meet the following limits for the applicable MPC model and the most limiting fuel assembly array/class and classification to be stored in the MPC:
LCO 3.2.3 Deleted.
 
Certificate of Compliance No. 1014 Appendix A 3.2.3-1 Boron Concentration 3.3.1 3.3 SFSC CRITICALITY CONTROL
 
3.3.1 Boron Concentration
 
LCO 3.3.1 As required by CoC Appendix B, Table 2.1-2, the concentration of boron in the water in the MPC shall meet the following limits for the applicable MPC model and the most limiting fuel assembly array/class and classification to be stored in the MPC:
: a. MPC-24 with one or more fuel assemblies having an initial enrichment greater than the value in Table 2.1-2 for no soluble boron credit and < 5.0 wt% 235U: > 400 ppmb
: a. MPC-24 with one or more fuel assemblies having an initial enrichment greater than the value in Table 2.1-2 for no soluble boron credit and < 5.0 wt% 235U: > 400 ppmb
: b. MPC-24E or MPC-24EF (all INTACT FUEL ASSEMBLIES) with one or more fuel assemblies having an initial enrichment greater than the value in Table 2.1-2 for no soluble boron credit and < 5.0 wt% 235U: > 300 ppmb
: b. MPC-24E or MPC-24EF (all INTACT FUEL ASSEMBLIES) with one or more fuel assemblies having an initial enrichment greater than the value in Table 2.1-2 for no soluble boron credit and < 5.0 wt% 235U: > 300 ppmb
Line 305: Line 544:
: d. Deleted.
: d. Deleted.
: e. MPC-24E or MPC-24EF (one or more DAMAGED FUEL ASSEMBLIES or FUEL DEBRIS) with one or more fuel assemblies having an initial enrichment > 4.0 wt% 235U and
: e. MPC-24E or MPC-24EF (one or more DAMAGED FUEL ASSEMBLIES or FUEL DEBRIS) with one or more fuel assemblies having an initial enrichment > 4.0 wt% 235U and
                            < 5.0 wt% 235U: > 600 ppmb
< 5.0 wt% 235U: > 600 ppmb
: f. MPC-32/32F: Minimum soluble boron concentration as required by the table below.
: f. MPC-32/32F: Minimum soluble boron concentration as required by the table below.
One or more DAMAGED FUEL All INTACT FUEL ASSEMBLIES ASSEMBLIES or FUEL DEBRIS Array/Class      Maximum Initial    Maximum Initial  Maximum Initial    Maximum Initial Enrichment      Enrichment 5.0      Enrichment        Enrichment
                      < 4.1 wt% 235U        wt% 235U      < 4.1 wt% 235U      5.0 wt% 235U (ppmb)            (ppmb)            (ppmb)            (ppmb) 14x14A/B/C/D/E            1,300            1,900            1,500              2,300 15x15A/B/C/G/I            1,800            2,500            1,900              2,700 15x15D/E/F/H              1,900            2,600            2,100              2,900 16x16A/B/C              1,400            2,000            1,500              2,300 17x17A/B/C              1,900            2,600            2,100              2,900 For maximum initial enrichments between 4.1 wt% and 5.0 wt% 235U, the minimum soluble boron concentration may be determined by linear interpolation between the minimum soluble boron concentrations at 4.1 wt% and 5.0 wt%.
Certificate of Compliance No. 1014                                Renewed Amendment No. 10 Appendix A                                    3.3.1-1


Boron Concentration
All INTACT FUEL ASSEMBLIES One or more DAMAGED FUEL ASSEMBLIES or FUEL DEBRIS
 
Array/Class Maximum Initial Maximum Initial Maximum Initial Maximum Initial Enrichment Enrichment 5.0 Enrichment Enrichment
< 4.1 wt% 235U wt% 235U < 4.1 wt% 235U 5.0 wt% 235U (ppmb) (ppmb) (ppmb) (ppmb) 14x14A/B/C/D/E 1,300 1,900 1,500 2,300 15x15A/B/C/G/I 1,800 2,500 1,900 2,700 15x15D/E/F/H 1,900 2,600 2,100 2,900 16x16A/B/C 1,400 2,000 1,500 2,300 17x17A/B/C 1,900 2,600 2,100 2,900
 
For maximum initial enrichments between 4.1 wt% and 5.0 wt% 235U, the minimum soluble boron concentration may be determined by linear interpolation between the minimum soluble boron concentrations at 4.1 wt% and 5.0 wt%.
 
Certificate of Compliance No. 1014 Appendix A 3.3.1-1 Boron Concentration


====3.3.1 APPLICABILITY====
====3.3.1 APPLICABILITY====
During PWR fuel LOADING OPERATIONS with fuel and water in the MPC AND During PWR fuel UNLOADING OPERATIONS with fuel and water in the MPC.
During PWR fuel LOADING OPERATIONS with fuel and water in the MPC
 
AND
 
During PWR fuel UNLOADING OPERATIONS with fuel and water in the MPC.
 
ACTIONS
ACTIONS
--------------------------------------------------------NOTE----------------------------------------------------
--------------------------------------------------------NOTE----------------------------------------------------
Separate Condition entry is allowed for each MPC.
Separate Condition entry is allowed for each MPC.
COMPLETION CONDITION                              REQUIRED ACTION TIME A. Boron concentration not            A.1    Suspend LOADING                        Immediately within limit.                              OPERATIONS or UNLOADING OPERATIONS.
AND A.2    Suspend positive reactivity            Immediately additions.
AND A.3    Initiate action to restore              Immediately boron concentration to within limit.
SURVEILLANCE REQUIREMENTS SURVEILLANCE                                                FREQUENCY
  -------------------------------------------NOTE------------------------------------        Once, within 4 This surveillance is only required to be performed if the MPC is                          hours prior to submerged in water or if water is to be added to, or recirculated                          entering the through the MPC.                                                                          Applicability of
  ---------------------------------------------------------------------------------------    this LCO.
SR 3.3.1.1            Verify boron concentration is within the                            AND applicable limit using two independent measurements.                                                        Once per 48 hours thereafter.
Certificate of Compliance No. 1014                                                Renewed Amendment No. 10 Appendix A                                            3.3.1-2


MPC Cavity Drying Limits Table 3-1 Table 3-1 MPC Cavity Drying Limits for all MPC Types Method of Moisture Fuel Burnup MPC Heat Load (kW)                     Removal (MWD/MTU)
CONDITION REQUIRED ACTION COMPLETION TIME
(Notes 1 and 2) 30Note 5 (MPC-24/24E/24EF, All Assemblies < 45,000     MPC-32/32F, MPC-68/68F/68FF)                 VDS or FHD 36.9Note 6 (MPC-68M)
 
All Assemblies < 45,000         > 30Note 6 (MPC-24/24E/24EF,                 FHD MPC-32/32F, MPC-68/68F/68FF)
A. Boron concentration notA.1 Suspend LOADING Immediately within limit. OPERATIONS or UNLOADING OPERATIONS.
One or more assemblies 29 (MPC-68M)                 VDSNote 4 or FHD
 
          > 45,000 36.9Note 6 (MPC-One or more assemblies        24/24E/24EF/MPC-32/32F/MPC-                     FHD
AND
          > 45,000                  68/68F/68FF/MPC-68M Notes:
 
: 1.     VDS means a vacuum drying system. The acceptance criterion when using a VDS is MPC cavity pressure shall be < 3 torr for > 30 minutes.
A.2 Suspend positive reactivityImmediately additions.
: 2.     FHD means a forced helium dehydration system. The acceptance criterion when using an FHD system is the gas temperature exiting the demoisturizer shall be
 
        < 21&#xba;F for > 30 minutes or the gas dew point exiting the MPC shall be < 22.9&#xba;F for > 30 minutes.
AND
: 3.     Deleted
 
: 4.     The maximum allowable decay heat per fuel storage location is 0.426 kW.
A.3 Initiate action to restoreImmediately boron concentration to within limit.
: 5.     Maximum allowable storage cell heat load is 1.25 kW (MPC-24/24E/24EF), 0.937 kW (MPC-32/32F) and 0.441 kW (MPC-68/68F/68FF).
 
: 6.     Maximum allowable heat loads under uniform or regionalized storage defined in Appendix B, Section 2.4.1 or 2.4.2.
SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY
Certificate of Compliance No. 1014                                 Renewed Amendment No. 10 Appendix A                                     3.4-1
 
-------------------------------------------NOTE------------------------------------ Once, within 4 This surveillance is only required to be performed if the MPC is hours prior to submerged in water or if water is to be added to, or recirculated entering the through the MPC. Applicability of
--------------------------------------------------------------------------------------- this LCO.
 
SR 3.3.1.1 Verify boron concentration is within the AND applicable limit using two independent measurements. Once per 48 hours thereafter.
 
Certificate of Compliance No. 1014 Appendix A 3.3.1-2 MPC Cavity Drying Limits Table 3-1 Table 3-1 MPC Cavity Drying Limits for all MPC Types
 
Fuel Burnup Method of Moisture (MWD/MTU) MPC Heat Load (kW) Removal (Notes 1 and 2) 30Note 5 (MPC-24/24E/24EF, All Assemblies < 45,000 MPC-32/32F, MPC-68/68F/68FF) VDS or FHD 36.9Note 6 (MPC-68M)
All Assemblies < 45,000 > 30Note 6 (MPC-24/24E/24EF, MPC-32/32F, MPC-68/68F/68FF) FHD One or more assemblies
> 45,000 29 (MPC-68M) VDSNote 4 or FHD One or more assemblies 36.9Note 6 (MPC-
> 45,000 24/24E/24EF/MPC-32/32F/MPC-FHD 68/68F/68FF/MPC-68M
 
Notes:
: 1. VDS means a vacuum drying system. The acceptance criterion when using a VDS is MPC cavity pressure shall be < 3 torr for > 30 minutes.
: 2. FHD means a forced helium dehydration system. The acceptance criterion when using an FHD system is the gas temperature exiting the demoisturizer shall be
< 21&#xba;F for > 30 minutes or the gas dew point exiting the MPC shall be < 22.9 &#xba;F for > 30 minutes.
: 3. Deleted
: 4. The maximum allowable decay heat per fuel storage location is 0.426 kW.
: 5. Maximum allowable storage cell heat load is 1.25 kW (MPC-24/24E/24EF), 0.937 kW (MPC-32/32F) and 0.441 kW (MPC-68/68F/68FF).
: 6. Maximum allowable heat loads under uniform or regionalized storage defined in Appendix B, Section 2.4.1 or 2.4.2.
 
Certificate of Compliance No. 1014 Appendix A 3.4-1 MPC Helium Backfill Limits Table 3-2 Table 3-2 MPC Helium Backfill Limits1 MPC MODEL LIMIT MPC-24/24E/24EF
: i. Cask Heat Load 27.77 kW (MPC-24) 0.1212 +/-10% g-moles/l or 28.17 kW (MPC-24E/EF) - OR uniformly distributed per Table 3-4 or 29.3 psig and 48.5 psig regionalized loading per Table 3-3 ii. Cask Heat Load >27.77 kW (MPC-24) or > 28.17 kW (MPC-24E/EF) -
uniformly distributed 45.5 psig and 48.5 psig or greater than regionalized heat load limits per Table 3-3
 
MPC-68/68F/68FF/68M
: i. Cask Heat Load 28.19 kW - 0.1218 +/-10% g-moles/l uniformly distributed per Table 3-4 OR or 29.3 psig and 48.5 psig regionalized loading per Table 3-3 ii. Cask Heat Load > 28.19 kW -
uniformly distributed or 45.5 psig and 48.5 psig greater than regionalized heat load limits per Table 3-3


MPC Helium Backfill Limits Table 3-2 Table 3-2 MPC Helium Backfill Limits1 MPC MODEL                                                LIMIT MPC-24/24E/24EF
MPC-32/32F
: i. Cask Heat Load  27.77 kW (MPC-24)                  0.1212 +/-10% g-moles/l or  28.17 kW (MPC-24E/EF) -
: i. Cask Heat Load 28.74 kW -
OR uniformly distributed per Table 3-4 or                            29.3 psig and  48.5 psig regionalized loading per Table 3-3 ii. Cask Heat Load >27.77 kW (MPC-24) or > 28.17 kW (MPC-24E/EF) -
uniformly distributed per Table 3-4 29.3 psig and 48.5 psig or regionalized loading per Table 3-3
uniformly distributed 45.5 psig and  48.5 psig or greater than regionalized heat load limits per Table 3-3 MPC-68/68F/68FF/68M
: i. Cask Heat Load  28.19 kW -                            0.1218 +/-10% g-moles/l uniformly distributed per Table 3-4            OR or regionalized loading per Table 3-3              29.3 psig and  48.5 psig ii. Cask Heat Load > 28.19 kW -
uniformly distributed or                          45.5 psig and  48.5 psig greater than regionalized heat load limits per Table 3-3 MPC-32/32F
: i. Cask Heat Load 28.74 kW -
uniformly distributed per Table 3-4           29.3 psig and 48.5 psig or regionalized loading per Table 3-3 ii. Cask Heat Load >28.74 kW -
uniformly distributed or                            45.5 psig and 48.5 psig greater than regionalized heat load limits per Table 3-3 1
Helium used for backfill of MPC shall have a purity of  99.995%. Pressure range is at a reference temperature of 70oF Certificate of Compliance No. 1014                                          Renewed Amendment No. 10 Appendix A                                          3.4-2


MPC Heat Load Limits Table 3-3 Table 3-3: Regionalized StorageNote 2 Cell Heat Load Limits MPC Type             Number of       Storage Cell       Number of       Storage Cell Cells in Inner     Heat Load       Cells in Outer     Heat Load RegionNote 1   (Inner Region)     RegionNote 1   (Outer Region)
ii. Cask Heat Load >28.74 kW -
(kW)                               (kW)
uniformly distributed or 45.5 psig and 48.5 psig greater than regionalized heat load limits per Table 3-3
MPC-24                 4             1.470               20             0.900 MPC-24E/EF                 4             1.540               20             0.900 MPC-32/32F               12             1.131               20             0.600 MPC-                 32             0.500               36             0.275 68/68F/68FF/68M Note 1: The location of MPC-32 and MPC-68 inner and outer region cells are defined in Appendix B Figures 2.1-3 and 2.1-4 respectively.
 
1 Helium used for backfill of MPC shall have a purity of 99.995%. Pressure range is at a reference temperature of 70oF
 
Certificate of Compliance No. 1014 Appendix A 3.4-2 MPC Heat Load Limits Table 3-3 Table 3-3: Regionalized StorageNote 2 Cell Heat Load Limits
 
MPC Type Number of Storage Cell Number of Storage Cell Cells in Inner Heat Load Cells in Outer Heat Load RegionNote 1 (Inner Region) RegionNote 1 (Outer Region)
(kW) (kW)
MPC-24 4 1.470 20 0.900 MPC-24E/EF 4 1.540 20 0.900 MPC-32/32F 12 1.131 20 0.600 MPC-32 0.500 36 0.275 68/68F/68FF/68M Note 1: The location of MPC-32 and MPC-68 inner and outer region cells are defined in Appendix B Figures 2.1-3 and 2.1-4 respectively.
The MPC-24 and MPC-24E/EF cell locations are defined below:
The MPC-24 and MPC-24E/EF cell locations are defined below:
Inner Region Cell numbers 9, 10, 15, 16 in Appendix B Figures 2.1-1 and 2.1-2 respectively.
Inner Region Cell numbers 9, 10, 15, 16 in Appendix B Figures 2.1-1 and 2.1-2 respectively.
Outer Region Cell numbers 1-8, 11-14, 17-24 in Appendix B Figures 2.1-1 and 2.1-2 respectively.
Outer Region Cell numbers 1-8, 11-14, 17-24 in Appendix B Figures 2.1-1 and 2.1-2 respectively.
Note 2: The storage cell regionalization is defined in Note 1 in accordance with safety analyses under the heat load limits of this Table.
Note 2: The storage cell regionalization is defined in Note 1 in accordance with safety analyses under the heat load limits of this Table.
Table 3-4: Uniform Storage Cell Heat Load Limits MPC Type                                    Heat Load (kW)
MPC-24                                          1.157 MPC-24E/EF                                        1.173 MPC-68/68F/68FF/68M                                    0.414 MPC-32                                          0.898 Certificate of Compliance No. 1014                              Renewed Amendment No. 10 Appendix A                                  3.4-3


4.0 4.0 This section is intentionally left blank Certificate of Compliance No. 1014             Renewed Amendment No. 10 Appendix A                               4.0-1
Table 3-4: Uniform Storage Cell Heat Load Limits
 
MPC Type Heat Load (kW)
MPC-24 1.157 MPC-24E/EF 1.173 MPC-68/68F/68FF/68M 0.414 MPC-32 0.898
 
Certificate of Compliance No. 1014 Appendix A 3.4-3 4.0 4.0
 
This section is intentionally left blank
 
Certificate of Compliance No. 1014 Appendix A 4.0-1 Programs 5.0 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS


Programs 5.0 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS The following programs shall be established, implemented and maintained.
The following programs shall be established, implemented and maintained.
5.1     Deleted.
 
5.2     Deleted.
5.1 Deleted.
5.3     Deleted.
 
5.4     Radioactive Effluent Control Program This program implements the requirements of 10 CFR 72.44(d).
5.2 Deleted.
: a.     The HI-STORM 100 Cask System does not create any radioactive materials or have any radioactive waste treatment systems. Therefore, specific operating procedures for the control of radioactive effluents are not required.
 
5.3 Deleted.
 
5.4 Radioactive Effluent Control Program
 
This program implements the requirements of 10 CFR 72.44(d).
: a. The HI-STORM 100 Cask System does not create any radioactive materials or have any radioactive waste treatment systems. Therefore, specific operating procedures for the control of radioactive effluents are not required.
Specification 3.1.1, Multi-Purpose Canister (MPC), provides assurance that there are not radioactive effluents from the SFSC.
Specification 3.1.1, Multi-Purpose Canister (MPC), provides assurance that there are not radioactive effluents from the SFSC.
: b.     This program includes an environmental monitoring program. Each general license user may incorporate SFSC operations into their environmental monitoring programs for 10 CFR Part 50 operations.
: b. This program includes an environmental monitoring program. Each general license user may incorporate SFSC operations into their environmental monitoring programs for 10 CFR Part 50 operations.
: c.     An annual report shall be submitted pursuant to 10 CFR 72.44(d)(3).
: c. An annual report shall be submitted pursuant to 10 CFR 72.44(d)(3).
 
(continued)
(continued)
Certificate of Compliance No. 1014                                Renewed Amendment No. 10 Appendix A                                    5.0-1


Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS 5.5     Cask Transport Evaluation Program This program provides a means for evaluating various transport configurations and transport route conditions to ensure that the design basis drop limits are met.
Certificate of Compliance No. 1014 Appendix A 5.0-1 Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS
 
5.5 Cask Transport Evaluation Program
 
This program provides a means for evaluating various transport configurations and transport route conditions to ensure that the design basis drop limits are met.
For lifting of the loaded TRANSFER CASK or OVERPACK using devices which are integral to a structure governed by 10 CFR Part 50 regulations, 10 CFR 50 requirements apply. This program is not applicable when the TRANSFER CASK or OVERPACK is in the FUEL BUILDING or is being handled by a device providing support from underneath (i.e., on a rail car, heavy haul trailer, air pads, etc...) or is being handled by a device designed in accordance with the increased safety factors of ANSI N14.6 and having redundant drop protection.
For lifting of the loaded TRANSFER CASK or OVERPACK using devices which are integral to a structure governed by 10 CFR Part 50 regulations, 10 CFR 50 requirements apply. This program is not applicable when the TRANSFER CASK or OVERPACK is in the FUEL BUILDING or is being handled by a device providing support from underneath (i.e., on a rail car, heavy haul trailer, air pads, etc...) or is being handled by a device designed in accordance with the increased safety factors of ANSI N14.6 and having redundant drop protection.
Pursuant to 10 CFR 72.212, this program shall evaluate the site-specific transport route conditions.
Pursuant to 10 CFR 72.212, this program shall evaluate the site-specific transport route conditions.
: a.       For free-standing OVERPACKS and the TRANSFER CASK, the following requirements apply:
: a. For free-standing OVERPACKS and the TRANSFER CASK, the following requirements apply:
: 1. The lift height above the transport route surface(s) shall not exceed the limits in Table 5-1 except as provided for in Specification 5.5.a.2. Also, if applying the limits in Table 5-1, the program shall ensure that the transport route conditions (i.e., surface hardness and pad thickness) are equivalent to or less limiting than either Set A or Set B in HI-STORM FSAR Table 2.2.9.
: 1. The lift height above the transport route surface(s) shall not exceed the limits in Table 5-1 except as provided for in Specification 5.5.a.2. Also, if applying the limits in Table 5-1, the program shall ensure that the transport route conditions (i.e., surface hardness and pad thickness) are equivalent to or less limiting than either Set A or Set B in HI-STORM FSAR Table 2.2.9.
: 2. The program may determine lift heights by analysis based on the site-specific conditions to ensure that the impact loading due to design basis drop events does not exceed 45 gs at the top of the MPC fuel basket. These alternative analyses shall be commensurate with the drop analyses described in the Final Safety Analysis Report for the HI-STORM 100 Cask System. The program shall ensure that these alternative analyses are documented and controlled.
: 2. The program may determine lift heights by analysis based on the site-specific conditions to ensure that the impact loading due to design basis drop events does not exceed 45 gs at the top of the MPC fuel basket. These alternative analyses shall be commensurate with the drop analyses described in the Final Safety Analysis Report for the HI-STORM 100 Cask System. The program shall ensure that these alternative analyses are documented and controlled.
(continued)
(continued)
Certificate of Compliance No. 1014                                  Renewed Amendment No. 10 Appendix A                                    5.0-2


Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS 5.5     Cask Transport Evaluation Program (continued)
Certificate of Compliance No. 1014 Appendix A 5.0-2 Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS
: 3.     The TRANSFER CASK or OVERPACK, when loaded with spent fuel, may be lifted to any height necessary during TRANSPORT OPERATIONS, provided the lifting device is designed in accordance with ANSI N14.6 and has redundant drop protection features.
 
: 4.     The TRANSFER CASK and MPC, when loaded with spent fuel, may be lifted to those heights necessary to perform cask handling operations, including MPC TRANSFER, provided the lifts are made with structures and components designed in accordance with the criteria specified in Section 3.5 of Appendix B to Certificate of Compliance No. 1014, as applicable.
5.5 Cask Transport Evaluation Program (continued)
: b.       For the transport of OVERPACKS to be anchored to the ISFSI pad, the following requirements apply:
: 3. The TRANSFER CASK or OVERPACK, when loaded with spent fuel, may be lifted to any height necessary during TRANSPORT OPERATIONS, provided the lifting device is designed in accordance with ANSI N14.6 and has redundant drop protection features.
: 4. The TRANSFER CASK and MPC, when loaded with spent fuel, may be lifted to those heights necessary to perform cask handling operations, including MPC TRANSFER, provided the lifts are made with structures and components designed in accordance with the criteria specified in Section 3.5 of Appendix B to Certificate of Compliance No. 1014, as applicable.
: b. For the transport of OVERPACKS to be anchored to the ISFSI pad, the following requirements apply:
: 1. Except as provided in 5.5.b.2, user shall determine allowable OVERPACK lift height limit(s) above the transport route surface(s) based on site-specific transport route conditions. The lift heights shall be determined by evaluation or analysis, based on limiting the design basis cask deceleration during a postulated drop event to
: 1. Except as provided in 5.5.b.2, user shall determine allowable OVERPACK lift height limit(s) above the transport route surface(s) based on site-specific transport route conditions. The lift heights shall be determined by evaluation or analysis, based on limiting the design basis cask deceleration during a postulated drop event to
                        < 45 gs at the top of the MPC fuel basket. Evaluations and/or analyses shall be performed using methodologies consistent with those in the HI-STORM 100 FSAR.
< 45 gs at the top of the MPC fuel basket. Evaluations and/or analyses shall be performed using methodologies consistent with those in the HI-STORM 100 FSAR.
: 2. The OVERPACK, when loaded with spent fuel, may be lifted to any height necessary during TRANSPORT OPERATIONS provided the lifting device is designed in accordance with ANSI N14.6 and has redundant drop protection features.
: 2. The OVERPACK, when loaded with spent fuel, may be lifted to any height necessary during TRANSPORT OPERATIONS provided the lifting device is designed in accordance with ANSI N14.6 and has redundant drop protection features.
(continued)
(continued)
Certificate of Compliance No. 1014                                  Renewed Amendment No. 10 Appendix A                                      5.0-3


Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS 5.5     Cask Transport Evaluation Program (continued)
Certificate of Compliance No. 1014 Appendix A 5.0-3 Programs 5.0
Table 5-1 TRANSFER CASK and Free-Standing OVERPACK Lifting Requirements ITEM                     ORIENTATION             LIFTING HEIGHT LIMIT (in.)
 
TRANSFER CASK                       Horizontal             42 (Notes 1 and 2)
ADMINISTRATIVE CONTROLS AND PROGRAMS
TRANSFER CASK                         Vertical         None Established (Note 2)
 
OVERPACK                         Horizontal               Not Permitted OVERPACK                           Vertical                 11 (Note 3)
5.5 Cask Transport Evaluation Program (continued)
Notes:     1. To be measured from the lowest point on the TRANSFER CASK (i.e., the bottom edge of the cask/lid assemblage)
 
Table 5-1
 
TRANSFER CASK and Free-Standing OVERPACK Lifting Requirements
 
ITEM ORIENTATION LIFTING HEIGHT LIMIT (in.)
TRANSFER CASK Horizontal 42 (Notes 1 and 2)
TRANSFER CASK Vertical None Established (Note 2)
OVERPACK Horizontal Not Permitted OVERPACK Vertical 11 (Note3)
 
Notes: 1. To be measured from the lowest point on the TRANSFER CASK (i.e., the bottom edge of the cask/lid assemblage)
: 2. See Technical Specification 5.5.a.3 and 4
: 2. See Technical Specification 5.5.a.3 and 4
: 3. See Technical Specification 5.5.a.3.
: 3. See Technical Specification 5.5.a.3.
5.6     Deleted.
 
5.6 Deleted.
 
(continued)
(continued)
Certificate of Compliance No. 1014                            Renewed Amendment No. 10 Appendix A                                    5.0-4


Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS 5.7     Radiation Protection Program 5.7.1 Each cask user shall ensure that the Part 50 radiation protection program appropriately addresses dry storage cask loading and unloading, as well as ISFSI operations, including transport of the loaded OVERPACK or TRANSFER CASK outside of facilities governed by 10 CFR Part 50. The radiation protection program shall include appropriate controls for direct radiation and contamination, ensuring compliance with applicable regulations, and implementing actions to maintain personnel occupational exposures As Low As Reasonably Achievable (ALARA). The actions and criteria to be included in the program are provided below.
Certificate of Compliance No. 1014 Appendix A 5.0-4 Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS
5.7.2 As part of its evaluation pursuant to 10 CFR 72.212(b)(5)(iii), the licensee shall perform an analysis to confirm that the dose limits of 10 CFR 72.104(a) will be satisfied under the actual site conditions and ISFSI configuration, considering the planned number of casks to be deployed and the cask contents.
 
5.7 Radiation Protection Program
 
5.7.1 Each cask user shall ensure that the Part 50 radiation protection program appropriately addresses dry storage cask loading and unloading, as well as ISFSI operations, including transport of the loaded OVERPACK or TRANSFER CASK outside of facilities governed by 10 CFR Part 50. The radiation protection program shall include appropriate controls for direct radiation and contamination, ensuring compliance with applicable regulations, and implementing actions to maintain personnel occupational exposures As Low As Reasonably Achievable (ALARA). The actions and criteria to be included in the program are provided below.
 
5.7.2 As part of its evaluation pursuant to 10 CFR 72.212(b)( 5)(iii), the licens ee shall perform an analysis to confirm that the dose limits of 10 CFR 72.104(a) will be satisfied under the actual site conditions and ISFSI configuration, considering the planned number of casks to be deployed and the cask contents.
 
5.7.3 Based on the analysis performed pursuant to Section 5.7.2, the licensee shall establish individual cask surface dose rate limits for the HI-TRAC TRANSFER CASK and the HI-STORM OVERPACK to be used at the site.
5.7.3 Based on the analysis performed pursuant to Section 5.7.2, the licensee shall establish individual cask surface dose rate limits for the HI-TRAC TRANSFER CASK and the HI-STORM OVERPACK to be used at the site.
Total (neutron plus gamma) dose rate limits shall be established at the following locations:
Total (neutron plus gamma) dose rate limits shall be established at the following locations:
: a.     The top of the TRANSFER CASK and the OVERPACK.
: a. The top of the TRANSFER CASK and the OVERPACK.
: b.     The side of the TRANSFER CASK and OVERPACK
: b. The side of the TRANSFER CASK and OVERPACK
: c.     The inlet and outlet ducts on the OVERPACK 5.7.4 Notwithstanding the limits established in Section 5.7.3, the measured dose rates on a loaded OVERPACK shall not exceed the following values:
: c. The inlet and outlet ducts on the OVERPACK
: a.     30 mrem/hr (gamma + neutron) on the top of the OVERPACK
 
: b.     300 mrem/hr (gamma + neutron) on the side of the OVERPACK, excluding inlet and outlet ducts 5.7.5 The licensee shall measure the TRANSFER CASK and OVERPACK surface neutron and gamma dose rates as described in Section 5.7.8 for comparison against the limits established in Section 5.7.3 or Section 5.7.4, whichever are lower.
5.7.4 Notwithstanding the limits established in Section 5.7.3, the measured dose rates on a loaded OVERPACK shall not exceed the following values:
Certificate of Compliance No. 1014                                 Renewed Amendment No. 10 Appendix A                                     5.0-5
: a. 30 mrem/hr (gamma + neutron) on the top of the OVERPACK
: b. 300 mrem/hr (gamma + neutron) on the side of the OVERPACK, excluding inlet and outlet ducts
 
5.7.5 The licensee shall measure the TRANSFER CASK and OVERPACK surface neutron and gamma dose rates as described in Section 5.7.8 for comparison against the limits established in Section 5.7.3 or Section 5.7.4, whichever are lower.
 
Certificate of Compliance No. 1014 Appendix A 5.0-5 Programs 5.0
 
ADMINISTRATIVE CONTROLS AND PROGRAMS
 
5.7 Radiation Protection Program (contd)
 
5.7.6 If the measured surface dose rates exceed the lower of the two limits established in Section 5.7.3 or Section 5.7.4, the licensee shall:
: a. Administratively verify that the correct contents were loaded in the correct fuel storage cell locations.
: b. Perform a written evaluation to verify whether an OVERPACK at the ISFSI containing the as-loaded MPC will cause the dose limits of 10 CFR 72.104 to be exceeded.
: c. Perform a written evaluation within 30 days to determine why the surface dose rate limits were exceeded.


Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS 5.7    Radiation Protection Program (contd) 5.7.6 If the measured surface dose rates exceed the lower of the two limits established in Section 5.7.3 or Section 5.7.4, the licensee shall:
: a.      Administratively verify that the correct contents were loaded in the correct fuel storage cell locations.
: b.      Perform a written evaluation to verify whether an OVERPACK at the ISFSI containing the as-loaded MPC will cause the dose limits of 10 CFR 72.104 to be exceeded.
: c.      Perform a written evaluation within 30 days to determine why the surface dose rate limits were exceeded.
5.7.7 If the evaluation performed pursuant to Section 5.7.6 shows that the dose limits of 10 CFR 72.104 will be exceeded, the MPC shall not be placed into storage or, in the case of the OVERPACK loaded at the ISFSI, the MPC shall be removed from storage until appropriate corrective action is taken to ensure the dose limits are not exceeded.
5.7.7 If the evaluation performed pursuant to Section 5.7.6 shows that the dose limits of 10 CFR 72.104 will be exceeded, the MPC shall not be placed into storage or, in the case of the OVERPACK loaded at the ISFSI, the MPC shall be removed from storage until appropriate corrective action is taken to ensure the dose limits are not exceeded.
5.7.8 TRANSFER CASK and OVERPACK surface dose rates shall be measured at approximately the following locations:
5.7.8 TRANSFER CASK and OVERPACK surface dose rates shall be measured at approximately the following locations:
: a.     A minimum of four (4) dose rate measurements shall be taken on the side of the TRANSFER CASK approximately at the cask mid-height plane. The measurement locations shall be approximately 90 degrees apart around the circumference of the cask. Dose rates shall be measured between the radial ribs of the water jacket.
: a. A minimum of four (4) dose rate measurements shall be taken on the side of the TRANSFER CASK approximately at the cask mid-height plane. The measurement locations shall be approximately 90 degrees apart around the circumference of the cask. Dose rates shall be measured between the radial ribs of the water jacket.
: b.     A minimum of four (4) TRANSFER CASK top lid dose rates shall be measured at locations approximately half way between the edge of the hole in the top lid and the outer edge of the top lid, 90 degrees apart around the circumference of the top lid.
: b. A minimum of four (4) TRANSFER CASK top lid dose rates shall be measured at locations approximately half way between the edge of the hole in the top lid and the outer edge of the top lid, 90 degrees apart around the circumference of the top lid.
: c.     A minimum of twelve (12) dose rate measurements shall be taken on the side of the OVERPACK in three sets of four measurements.
: c. A minimum of twelve (12) dose rate measurements shall be taken on the side of the OVERPACK in three sets of four measurements.
One measurement set shall be taken approximately at the cask mid-height plane, 90 degrees apart around the circumference of the cask. The second and third measurement sets shall be taken approximately 60 inches above and below the mid-height plane, respectively, also 90 degrees apart around the circumference of the cask.
One measurement set shall be taken approximately at the cask mid-height plane, 90 degrees apart around the circumference of the cask. The second and third measurement sets shall be taken approximately 60 inches above and below the mid-height plane, respectively, also 90 degrees apart around the circumference of the cask.
Certificate of Compliance No. 1014                                  Renewed Amendment No. 10 Appendix A                                      5.0-6


Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS 5.7     Radiation Protection Program (contd)
Certificate of Compliance No. 1014 Appendix A 5.0-6 Programs 5.0
: d. A minimum of five (5) dose rate measurements shall be taken on the top of the OVERPACK. One dose rate measurement shall be taken at approximately the center of the lid and four measurements shall be taken at locations on the top concrete shield, approximately half way between the center and the edge of the top concrete shield, 90 degrees apart around the circumference of the lid.
 
ADMINISTRATIVE CONTROLS AND PROGRAMS
 
5.7 Radiation Protection Program (contd)
: d. A minimum of five (5) dose rate measurements shall be taken on the top of the OVERPACK. One dose rate measurement shall be taken at approximately the center of the lid an d four measurements shall be taken at locations on the top concrete shield, approximately half way between the center and the edge of the top concrete shield, 90 degrees apart around the circumference of the lid.
: e. A dose rate measurement shall be taken on contact at the surface of each inlet and outlet vent duct screen of the OVERPACK.
: e. A dose rate measurement shall be taken on contact at the surface of each inlet and outlet vent duct screen of the OVERPACK.
Certificate of Compliance No. 1014                              Renewed Amendment No. 10 Appendix A                                  5.0-7


Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS 5.8     Aging Management Program (AMP)
Certificate of Compliance No. 1014 Appendix A 5.0-7 Programs 5.0
 
ADMINISTRATIVE CONTROLS AND PROGRAMS
 
5.8 Aging Management Program (AMP)
 
Each general licensee shall have a program to establish, implement, and maintain written procedures for each applicable AMP described in the FSAR.
Each general licensee shall have a program to establish, implement, and maintain written procedures for each applicable AMP described in the FSAR.
The program shall include provisions for changing AMP elements, as necessary, and within the limitations of the approved design bases to address new information on aging effects based on inspection findings and/or industry operating experience. Each procedure shall contain a reference to the specific aspect of the AMP element implemented by that procedure, and that reference shall be maintained even if the procedure is modified.
The program shall include provisions for changing AMP elements, as necessary, and within the limitations of the approved design bases to address new information on aging effects based on ins pection findings and/or indus try operating experience. Each procedure shall contain a reference to the specific aspect of the AMP element implemented by that procedure, and that reference shall be maintained ev en if the procedure is modified.
The general licensee shall establish and implement these written procedures prior to entering the period of extended operation or no later than 365 days after the effective date of the renewal of the CoC, whichever is later. The general licensee shall maintain these written procedures for as long as the general licensee continues to operate HI-STORM 100 Cask Systems in service for longer than 20 years.
 
Each general licensee shall perform tollgate assessments as described in Chapter 9 of the FSAR.
The general l icensee shall est ablish and implement these written pr ocedures prior to enteri ng the per iod of ext ended oper ation or no later than 365 day s after the effective date of t he renewal of the CoC, w hichever i s l ater. The general licensee shall maintain these written procedures for as l ong as the general licensee continues to operate H I-STORM 100 Cask S ystems i n service for longer than 20 ye ars.
Certificate of Compliance No. 1014             5.0-8               Renewed Amendment No. 10 Appendix A}}
 
Each general l icensee shall per form t ollgate assessments as desc ribed in Chapter 9 of the FSAR.
 
Certificate of Compliance No. 1014 5.0-8 Renewed Amendment No. 10 Appendix A}}

Latest revision as of 04:42, 15 November 2024

39. Renewed Certificate of Compliance No. 1014, Amendment No. 10, Appendix a
ML23068A424
Person / Time
Site: Holtec
Issue date: 06/29/2023
From:
Storage and Transportation Licensing Branch
To:
Holtec
Shared Package
ML23068A384 List: ... further results
References
CAC 001028, EPID L-2020-RNW-0007
Download: ML23068A424 (1)


Text

RENEWED CERTIFICATE OF COMPLIANCE NO. 1014

APPENDIX A

TECHNICAL SPECIFICATIONS

FOR THE HI-STORM 100 CASK SYSTEM

AMENDMENT NO. 10 TABLE OF CONTENTS

1.0 USE AND APPLICATION............................................................................... 1.1-1 1.1 Definitions............................................................................................ 1.1-1 1.2 Logical Connectors.............................................................................. 1.2-1 1.3 Completion Times................................................................................ 1.3-1 1.4 Frequency............................................................................................ 1.4-1

2.0 NOT USED..................................................................................................... 2.0-1

3.0 LIMITING CONDITION FOR OPERATION (LCO) APPLICABILITY............... 3.0-1 3.0 SURVEILLANCE REQUIREMENT (SR) APPLICABILITY............................. 3.0-2

3.1 SFSC INTEGRITY............................................................................ 3.1.1-1 3.1.1 Multi-Purpose Canister (MPC)............................................... 3.1.1-1 3.1.2 SFSC Heat Removal System................................................. 3.1.2-1 3.1.3 MPC Cavity Reflooding.......................................................... 3.1.3-1 3.1.4 Supplemental Cooling System............................................... 3.1.4-1

3.2 SFSC RADIATION PROTECTION................................................... 3.2.1-1 3.2.1 Deleted................................................................................... 3.2.1-1 3.2.2 TRANSFER CASK Surface Contamination............................ 3.2.2-2 3.2.3 Deleted................................................................................... 3.2.3-1

3.3 SFSC CRITICALITY CONTROL....................................................... 3.3.1-1 3.3.1 Boron Concentration.............................................................. 3.3.1-1

Table 3-1 MPC Cavity Drying Limits.................................................................... 3.4-1 Table 3-2 MPC Helium Backfill Limits.................................................................. 3.4-2 Table 3-3 Regionalized Storage Cell Heat Load Limits.........................3.4-3 Table 3-4 Uniform Storage Cell Heat Load Limit...3.4-3

4.0 NOT USED....................................................................... 4.0-1

5.0 ADMINISTRATIVE CONTROLS.................................................................... 5.0-1 5.1 Deleted................................................................................................ 5.0-1 5.2 Deleted................................................................................................ 5.0-1 5.3 Deleted................................................................................................ 5.0-1 5.4 Radioactive Effluent Control Program.................................................. 5.0-1 5.5 Cask Transport Evaluation Program.................................................... 5.0-2 5.6 Deleted................................................................................................ 5.0-4 5.7 Radiation Protection Program.............................................................. 5.0-5 5.8 Aging Management Program............................................................... 5.0-8

Table 5-1 TRANSFER CASK and Free Standing OVERPACK Lifting Requirements............................................................................ 5.0-4

Certificate of Compliance No. 1014 Appendix A i Definitions 1.1 1.0 USE AND APPLICATION

1.1 Definitions


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

The defined terms of this section appear in capitalized type and are applicable throughout these Technical Specifications and Bases.

Term Definition ACTIONS ACTIONS shall be that part of a Specification that prescribes Required Actions to be taken under designated Conditions within specified Completion Times.

CASK TRANSFER FACILITY A CASK TRANSFER FACILITY is an optional (CTF) aboveground or underground system used during the transfer of a loaded MPC between a transfer cask and a storage OVERPACK external to 10 CFR Part 50 controlled structures. The CASK TRANSFER FACILITY includes the following components and equipment: (1) a Cask Transfer Structure used to stabilize the OVERPACK, TRANSFER CASK and/or MPC during lifts involving spent fuel not bounded by the regulations of 10 CFR Part 50, and (2) Either a stationary lifting device or a mobile lifting device used in concert with the stationary structure to lift the OVERPACK, TRANSFER CASK, and/or MPC.

DAMAGED FUEL ASSEMBLY DAMAGED FUEL ASSEMBLIES are fuel assemblies with known or suspected cladding defects, as determined by a review of records, greater than pinhole leaks or hairline cracks, empty fuel rod locations that are not filled with dummy fuel rods, missing structural components such as grid spacers, whose structural integrity has been impaired such that geometric rearrangement of fuel or gross failure of the cladding is expected based on engineering evaluations, or that cannot be handled by normal means. Fuel assemblies that cannot be handled by normal means due to fuel cladding damage are considered FUEL DEBRIS.

(continued)

Certificate of Compliance No. 1014 Appendix A 1.1-1 Definitions 1.1

1.1 Definitions (continued)

DAMAGED FUEL DFCs are specially designed enclosures for CONTAINER (DFC) DAMAGED FUEL ASSEMBLIES or FUEL DEBRIS which permit gaseous and liquid media to escape while minimizing dispersal of gross particulates.

DFCs authorized for use in the HI-STORM 100 System are as follows:

1. Holtec Dresden Unit 1/Humboldt Bay design
2. Transnuclear Dresden Unit 1 design
3. Holtec Generic BWR design
4. Holtec Generic PWR design

FUEL DEBRIS FUEL DEBRIS is ruptured fuel rods, severed rods, loose fuel pellets, containers or structures that are supporting these loose fuel assembly parts, or fuel assemblies with known or suspected defects which cannot be handled by normal means due to fuel cladding damage.

FUEL BUILDING The FUEL BUILDING is the site-specific power plant facility, governed by the regulations of 10 CFR Part 50, where the loaded OVERPACK or TRANSFER CASK is transferred to or from the transporter.

GROSSLY BREACHED Spent nuclear fuel rod with a cladding defect that SPENT FUEL ROD could lead to the release of fuel particulate greater than the average size fuel fragment for that particular assembly. A gross cladding breach may be confirmed by visual examination, through a review of reactor operating records indicating the presence of heavy metal isotopes, or other acceptable inspection means.

Certificate of Compliance No. 1014 Appendix A 1.1-2 Definitions 1.1

INTACT FUEL ASSEMBLY INTACT FUEL ASSEMBLIES are fuel assemblies without known or suspected cladding defects greater than pinhole leaks or hairline cracks and which can be handled by normal means. Fuel assemblies without fuel rods in fuel rod locations shall not be classified as INTACT FUEL ASSEMBLIES unless dummy fuel rods are used to displace an amount of water greater than or equal to that displaced by the fuel rod(s) in the active region. INTACT FUEL ASSEMBLIES may contain integral fuel absorber rods (IFBA) in PWR fuel, or burnable poison rods in BWR fuel.

(continued)

Certificate of Compliance No. 1014 Amendment No. 10 Appendix A 1.1-3 Definitions 1.1

1.1 Definitions (continued)

LOADING OPERATIONS LOADING OPERATIONS include all licensed activities on an OVERPACK or TRANSFER CASK while it is being loaded with fuel assemblies.

LOADING OPERATIONS begin when the first fuel assembly is placed in the MPC and end when the OVERPACK or TRANSFER CASK is suspended from or secured on the transporter. LOADING OPERATIONS does not include MPC TRANSFER.

MINIMUM ENRICHMENT MINIMUM ENRICHMENT is the minimum assembly average enrichment. Natural uranium blankets are not considered in determining minimum enrichment.

MULTI-PURPOSE CANISTER MPCs are the sealed spent nuclear fuel canisters (MPC) which consist of a honeycombed fuel basket contained in a cylindrical canister shell which is welded to a baseplate, lid with welded port cover plates, and closure ring. The MPC provides the confinement boundary for the contained radioactive materials.

MPC TRANSFER MPC TRANSFER begins when the MPC is lifted off the TRANSFER CASK bottom lid and ends when the MPC is supported from beneath by the OVERPACK or VVM (or the reverse).

NON-FUEL HARDWARE NON-FUEL HARDWARE is defined as Burnable Poison Rod Assemblies (BPRAs), Thimble Plug Devices (TPDs), Control Rod Assemblies (CRAs),

Axial Power Shaping Rods (APSRs), Wet Annular Burnable Absorbers (WABAs), Rod Cluster Control Assemblies (RCCAs), Control Element Assemblies (CEAs), Neutron Source Assemblies (NSAs), water displacement guide tube plugs, orifice rod assemblies, instrument tube tie rods (ITTRs),

vibration suppressor inserts, and components of these devices such as individual rods.

(continued)

Certificate of Compliance No. 1014 Amendment No. 10 Appendix A 1.1-4 Definitions 1.1 1.1 Definitions (continued)

OVERPACK OVERPACKs are the casks which receive and contain the sealed MPCs for interim stor age on the ISFSI. They provide gamma and neutron shielding, and provide for ventilated air flow to promote heat transfer from the MPC to the environs. The term OVERPACK does not include the TRANSFER CASK.

PLANAR-AVERAGE INITIAL PLANAR AVERAGE INITIAL ENRICHMENT is the ENRICHMENT average of the distributed fuel rod initial enrichments within a given axial plane of the assembly lattice.

REPAIRED/RECONSTITUTED Spent nuclear fuel assembly which contains dummy FUEL ASSEMBLY fuel rod(s) that displaces an amount of water greater than or equal to the original fuel rod(s) and/or which contains structural repairs so it can be handled by normal means.

SPENT FUEL STORAGE SFSCs are containers approved for the storage of CASKS (SFSCs) spent fuel assemblies at the ISFSI. The HI-STORM 100 SFSC System consists of the OVERPACK/VVM and its integral MPC.

STORAGE OPERATIONS STORAGE OPERATIONS include all licensed activities that are performed at the ISFSI while an SFSC containing spent fuel is situated within the ISFSI perimeter. STORAGE OPERATIONS does not include MPC TRANSFER.

TRANSFER CASK TRANSFER CASKs are containers designed to contain the MPC during and after loading of spent fuel assemblies and to transfer the MPC to or from the OVERPACK/VVM. The HI-STORM 100 System employs either the 125-Ton or the 100-Ton HI-TRAC TRANSFER CASK.

(continued)

Certificate of Compliance No. 1014 Amendment No. 10 Appendix A 1.1-5 Definitions 1.1 1.1 Definitions (continued)

TRANSPORT OPERATIONS TRANSPORT OPERATIONS include all licensed activities performed on an OVERPACK or TRANSFER CASK loaded with one or more fuel assemblies when it is being moved after LOADING OPERATIONS or before UNLOADING OPERATIONS. TRANSPORT OPERATIONS begin when the OVERPACK or TRANSFER CASK is first suspended from or secured on the transporter and end when the OVERPACK or TRANSFER CASK is at its destination and no longer secured on or suspended from the transporter. TRANSPORT OPERATIONS includes MPC TRANSFER.

UNDAMAGED FUEL UNDAMAGED FUEL ASSEMBLY is: a) a fuel ASSEMBLY assembly without known or suspected cladding defects greater than pinhole leaks or hairline cracks and which can be handled by normal means; or b) a BWR fuel assembly with an intact channel, a maximum planar average initial enrichment of 3.3 wt% U-235, without known or suspected GROSSLY BREACHED SPENT FUEL RODS, and which can be handled by normal means. An UNDAMAGED FUEL ASSEMBLY may be a REPAIRED/

RECONSTITUTED FUEL ASSEMBLY.

UNLOADING OPERATIONS UNLOADING OPERATIONS include all licensed activities on an SFSC to be unloaded of the contained fuel assemblies. UNLOADING OPERATIONS begin when the OVERPACK or TRANSFER CASK is no longer suspended from or secured on the transporter and end when the last fuel assembly is removed from the SFSC.

UNLOADING OPERATIONS does not include MPC TRANSFER.

VERTICAL VENTILATED The VVM is a subterranean type overpack which MODULE (VVM) (HI-STORM receives and contains the sealed MPC for interim 100U SYSTEM ONLY) storage at the ISFSI. The VVM supports the MPC in a vertical orientation and provides air flow through cooling passages to promote heat transfer from the MPC to the environs.

ZR ZR means any zirconium-based fuel cladding or fuel channel material authorized for use in a commercial nuclear power plant reactor.

Certificate of Compliance No. 1014 Amendment No. 10 Appendix A 1.1-6 LogicalConnectors 1.2 1.0 USE AND APPLICATION

1.2 Logical Connectors

PURPOSE The purpose of this section is to explain the meaning of logical connectors.

Logical connectors are used in Technical Specifications (TS) to discriminate between, and yet connect, discrete Conditions, Required Actions, Completion Times, Surveillances, and Frequencies. The only logical connectors that appear in TS are AND and OR. The physical arrangement of these connectors constitutes logical conventions with specific meanings.

BACKGROUND Several levels of logic may be used to state Required Actions.

These levels are identified by the placement (or nesting) of the logical connectors and by the number a ssigned to each Required Action. The first level of logic is identified by the first digit of the number assigned to a Required Action and the placement of the logical connector in the first level of nesting (i.e., left justified with the number of the Required Action). The successive levels of logic are identified by additional digits of the Required Action number and by successive indentions of the logical connectors.

When logical connectors are used to state a Condition, Completion Time, Surveillance, or Frequency, only the first level of logic is used, and the logical connector is left justified with the statement of the Condition, Completion Time, Surveillance, or Frequency.

(continued)

Certificate of Compliance No. 1014 Appendix A 1.2-1 LogicalConnectors 1.2 1.2 Logical Connectors (continued)

EXAMPLES The following examples illustrate the use of logical connectors.

EXAMPLE 1.2-1

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME

A. LCO not met. A.1 VERIFY...

AND

A.2 Restore...

In this example the logical connector AND is used to indicate that when in Condition A, both Required Actions A.1 and A.2 must be completed.

(continued)

Certificate of Compliance No. 1014 Appendix A 1.2-2 LogicalConnectors 1.2 1.2 Logical Connectors (continued)

EXAMPLES EXAMPLE 1.2-2 (continued)

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME A. LCO not met. A.1 Stop...

OR A.2.1 Verify...

AND A.2.2.1 Reduce...

OR A.2.2.2 Perform...

OR A.3 Remove...

This example represents a more complicated use of logical connectors. Required Actions A.1, A.2, and A.3 are alternative choices, only one of which must be performed as indicated by the use of the logical connector OR and the left justified placement. Any one of these three ACTIONS may be chosen. If A.2 is chosen, then both A.2.1 and A.2.2 must be performed as indicated by the logical connector AND. Required Action A.2.2 is met by performing A.2.2.1 or A.2.2.2. The indented position of the logical connector OR indicates that A.2.2.1 and A.2.2.2 are alternative choices, only one of which must be performed.

Certificate of Compliance No. 1014 Appendix A 1.2-3 CompletionTimes 1.3 1.0 USE AND APPLICATION

1.3 Completion Times

PURPOSE The purpose of this section is to establish the Completion Time convention and to provide guidance for its use.

BACKGROUND Limiting Conditions for Operation (LCOs) specify the lowest functional capability or performance levels of equipment required for safe operation of the facility. The ACTIONS associated with an LCO state Conditions that typically describe the ways in which the requirements of the LCO can fail to be met. Specified with each stated Condition are Required Action(s) and Completion Times(s).

DESCRIPTION The Completion Time is the amount of time allowed for completing a Required Action. It is referenced to the time of discovery of a situation (e.g., equipment or variable not within limits) that requires entering an ACTIONS Condition unless otherwise specified, providing the HI-STORM 100 System is in a specified condition stated in the Applicability of the LCO. Required Actions must be completed prior to the expiration of the specified Comple tion Time.

An ACTIONS Condition remains in effect and the Required Actions apply until the Condition no longer exists or the HI-STORM 100 System is not within the LCO Applicability.

Once a Condition has been entered, subsequent subsystems, components, or variables expressed in the Condition, discovered to be not within limits, will not result in separate entry into the Condition unless specifically stated. The Required Actions of the Condition continue to apply to each additional failure, with Completion Times based on initial entry into the Condition.

(continued)

Certificate of Compliance No. 1014 Appendix A 1.3-1 CompletionTimes 1.3 1.3 Completion Times (continued)

EXAMPLES The following examples illustrate the use of Completion Times with different types of Conditions and changing Conditions.

EXAMPLE 1.3-1

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME

B. Required B.1 Perform Action B.1 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> Action and associated AND Completion Time not met. B.2 Perform Action B.2 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br />

Condition B has two Required Actions. Each Required Action has its own separate Completion Time. Each Completion Time is referenced to the time that Condition B is entered.

The Required Actions of Condition B are to complete action B.1 within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> AND complete action B.2 within 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br />. A total of 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> is allowed for completing action B.1 and a total of 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> (not 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br />) is allowed for completing action B.2 from the time that Condition B was entered. If action B.1 is completed within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br />, the time allowed for completing action B.2 is the next 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br /> because the total time allowed for completing action B.2 is 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br />.

(continued)

Certificate of Compliance No. 1014 Appendix A 1.3-2 CompletionTimes 1.3 1.3 Completion Times (continued)

EXAMPLES EXAMPLE 1.3-2 (continued)

ACTIONS CONDITION REQUIRED ACTION COMPLETION TIME

A. One system A.1 Restore system to 7 days not within limit. within limit.

B. Required B.1 Complete action 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> Action and B.1.

associated Completion AND Time not met.

B.2 Complete action 36 hours4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> B.2.

When a system is determined not to meet th e LCO, Condition A is entered. If the system is not restored within 7 days, Condition B is also entered and the Completion Time clocks for Required Actions B.1 and B.2 start. If the system is restored after Condition B is entered, Conditions A and B are exited, and therefore, the Required Actions of Condition B may be terminated.

(continued)

Certificate of Compliance No. 1014 Appendix A 1.3-3 CompletionTimes 1.3

1.3 Completion Times (continued)

EXAMPLES EXAMPLE 1.3-3 (continued)

ACTIONS


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

Separate Condition entry is allowed for each component.

CONDITION REQUIRED ACTION COMPLETION TIME

A. LCO not met. A.1 Restore 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> compliance with LCO.

B. Required B.1 Complete action 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> Action and B.1.

associated Completion AND Time not met.

B.2 Complete action 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> B.2.

The Note above the ACTIONS table is a method of modifying how the Completion Time is tracked. If this method of modifying how the Completion Time is tracked was applicable only to a specific Condition, the Note would appear in that Condition rather than at the top of the ACTIONS Table.

The Note allows Condition A to be entered separately for each component, and Completion Times tracked on a per component basis. When a component is determined to not meet the LCO, Condition A is entered and its Completion Time starts. If subsequent components are determined to not meet the LCO, Condition A is entered for each component and separate Completion Times start and are tracked for each component.

(continued)

Certificate of Compliance No. 1014 Appendix A 1.3-4 CompletionTimes 1.3

1.3 Completion Times (continued)

IMMEDIATE When "Immediately" is used as a Completion Ti me, the Required COMPLETION Action should be pursued without delay and in a controlled manner.

TIME

Certificate of Compliance No. 1014 Appendix A 1.3-5 Frequency 1.4 1.0 USE AND APPLICATION

1.4 Frequency

PURPOSE The purpose of this section is to define the proper use and application of Frequency requirements.

DESCRIPTION Each Surveillance Requirement (SR) has a specified Frequency in which the Surveillance must be met in order to meet the associated Limiting Condition for Operation (LCO). An understanding of the correct application of the specified Frequency is necessary for compliance with the SR.

The "specified Frequency" is referred to throughout this section and each of the Specifications of Section 3.0, Surveillance Requirement (SR) Applicability. The "specified Frequency" consists of the requirements of the Frequency column of each SR.

Situations where a Surveillance could be required (i.e., its Frequency could expire), but where it is not possible or not desired that it be performed until sometime after the associated LCO is within its Applicability, represent potential SR 3.0.4 conflicts. To avoid these conflicts, the SR (i.e., the Surveillance or the Frequency) is stated such that it is only "required" when it can be and should be performed. With an SR satisfied, SR 3.0.4 imposes no restriction.

(continued)

Certificate of Compliance No. 1014 Appendix A 1.4-1 Frequency 1.4 1.4 Frequency (continued)

EXAMPLES The following examples illustrate the various ways that Frequencies are specified.

EXAMPLE 1.4-1 SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY Verify pressure within limit 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />

Example 1.4-1 contains the type of SR most often encountered in the Technical Specifications (TS). The Frequency specifies an interval (12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />) during which the associated Surveillance must be performed at least one time. Performance of the Surveillance initiates the subsequent interval. Although the Frequency is stated as 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, an extension of the time interval to 1.25 times the interval specified in the Frequency is allowed by SR 3.0.2 for operational flexibility. The measurement of this interval continues at all times, even when the SR is not required to be met per SR 3.0.1 (such as when the equipment or variables are outside specified limits, or the facility is outside the Applicability of the LCO). If the interval specified by SR 3.0.2 is exceeded while the facility is in a condition specified in the Applicability of the LCO, the LCO is not met in accordance with SR 3.0.1.

If the interval as specified by SR 3.0.2 is exceeded while the facility is not in a condition specified in the Applicability of the LCO for which performance of the SR is required, the Surveillance must be performed within the Frequency requirements of SR 3.0.2 prior to entry into the specified condition. Failure to do so would result in a violation of SR 3.0.4 (continued)

Certificate of Compliance No. 1014 Appendix A 1.4-2 Frequency 1.4

1.4 Frequency (continued)

EXAMPLES (continued) EXAMPLE 1.4-2

SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY Verify flow is within limits. Once within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> prior to starting activity AND 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> thereafter

Example 1.4-2 has two Frequencies. The first is a one time performance Frequency, and the second is of the type shown in Example 1.4-1. The logical connector "AND" indicates that both Frequency requirements must be met. Each time the example activity is to be performed, the Surveillance must be performed within 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> prior to starting the activity.

The use of "once" indicates a single performance will satisfy the specified Frequency (assuming no other Frequencies are connected by "AND"). This type of Frequency does not qualify for the 25% extension allowed by SR 3.0.2.

"Thereafter" indicates future performances must be established per SR 3.0.2, but only after a specified condition is firs t met (i.e., the "once" performance in this example). If the specified activity is canceled or not performed, the measurement of both intervals stops. New intervals start upon preparing to restart the specified activity.

Certificate of Compliance No. 1014 Appendix A 1.4-3 2.0

2.0

This section is intentionally left blank

Certificate of Compliance No. 1014 Appendix A 2.0-1 LCOApplicability 3.0

3.0 LIMITING CONDITIONS FOR OPERATION (LCO ) APPLICABILITY

LCO 3.0.1 LCOs shall be met during specified conditions in the Applicability, except as provided in LCO 3.0.2.

LCO 3.0.2 Upon discovery of a failure to meet an LCO, the Required Actions of the associated Conditions shall be met, except as provided in LCO 3.0.5.

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

LCO 3.0.3 Not applicable.

LCO 3.0.4 When an LCO is not met, entry into a specified condition in the Applicability shall not be made except when the associated ACTIONS to be entered permit continued operation in the specified condition in the Applicability for an unlimited period of time. This Specification shall not prevent changes in specified conditions in the Applicability that are required to comply with ACTIONS or that are related to the unloading of an SFSC.

LCO 3.0.5 Equipment removed from service or not in service in compliance with ACTIONS may be returned to service under administrative control solely to perform testing required to demonstrate it meets the LCO or that other equipment meets the LCO. This is an exception to LCO 3.0.2 for the system returned to service under administrative control to perform the testing.

Certificate of Compliance No. 1014 Appendix A 3.0-1 LCOApplicability 3.0

3.0 SURVEILLANCE REQUIREMENT (SR) APPLICABILITY

SR 3.0.1 SRs shall be met during the specified conditions in the Applicability for individual LCOs, unless otherwise stated in the SR. Failure to meet a Surveillance, whether such failure is experienced during the performance of the Surveillance or between performances of the Surveillance, shall be failure to meet the LCO. Failure to perform a Surveillance within the specified Frequency shall be failure to meet the LCO except as provided in SR 3.0.3. Surveillances do not have to be performed on equipment or variables outside specified limits.

SR 3.0.2 The specified Frequency for each SR is met if the Surveillance is performed within 1.25 times the interval specified in the Frequency, as measured from the previous performance or as measured from the time a specified condition of the Frequency is met.

For Frequencies specified as once, the above interval extension does not apply. If a Completion Time requires periodic performance on a once per... basis, the above Frequency extension applies to each performance after the initial performance.

Exceptions to this Specification are stated in the individual Specifications.

SR 3.0.3 If it is discovered that a Surveillance was not performed within its specified Frequency, then compliance with the requirement to declare the LCO not met may be delayed, from the time of discovery, up to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> or up to the limit of the specified Frequency, whichever is less. This delay period is permitted to allow performance of the Surveillance.

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

(continued)

Certificate of Compliance No. 1014 Appendix A 3.0-2 LCOApplicability 3.0

3.0 SURVEILLANCE REQUIREMENT (SR) APPLICABILITY

SR 3.0.3 When the Surveillance is performed within the delay period and the (continued) Surveillance is not met, the LCO must immediately be declared not met, and the applicable Condition(s) must be entered.

SR 3.0.4 Entry into a specified condition in the Applicab ility of an LCO shall not be made unless the LCO's Surveillances have been met within their specified Frequency. This provision shall not prevent entry into specified conditions in the Applicability that are required to comply with Actions or that are related to the unloading of an SFSC.

Certificate of Compliance No. 1014 Appendix A 3.0-3 Multi-Purpose Canister (MPC) 3.1.1 3.1 SFSC INTEGRITY

3.1.1 Multi-Purpose Canister (MPC)

LCO 3.1.1 The MPC shall be dry and helium filled.

Table 3-1 provides decay heat and burnup limits for forced helium dehydration (FHD) and vacuum drying. FHD is not subject to time limits. Vacuum drying of the MPC-68M is not subject to time limits.

Vacuum drying, for all other MPCs, is subject to the following time limits, from the end of bulk water removal until the start of helium backfill:

MPC Total Decay Heat (Q) Vacuum Drying Time Limit Q < 26 kW None 26 kW < Q < 30 kW 40 hours4.62963e-4 days <br />0.0111 hours <br />6.613757e-5 weeks <br />1.522e-5 months <br /> Q > 30 kW Not Permitted (see Table 3-1)

Note 1: Maximum storage cell heat load must not exceed MPC heat load limits in the table divided by number of storage cells.

APPLICABILITY: During TRANSPORT OPERATIONS and STORAGE OPERATIONS.

ACTIONS


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

Separate Condition entry is allowed for each MPC.

CONDITION REQUIRED ACTION COMPLETION TIME

A. MPC cavity vacuumA.1 Perform an engineering 7 days drying pressure or evaluation to determine the demoisturizer exit gas quantity of moisture left in temperature limit notthe MPC.

met. AND

A.2 Develop and initiate 30 days corrective actions necessary to return the MPC to compliance with Table 3-1.

Certificate of Compliance No. 1014 Appendix A 3.1.1-1 Multi-Purpose Canister (MPC) 3.1.1 ACTIONS (continued)

B. MPC cavity vacuumB.1 Backfill the MPC cavity with6 hours drying acceptance helium to a pressure of at criteria not met during least 0.5 atm.

allowable time.

C. MPC helium backfill limitC.1 Perform an engineering72 hours not met. evaluation to determine the impact of helium differential.

AND C.2.1 Develop and initiate 14 days corrective actions necessary to return the MPC to an analyzed condition by adding helium to or removing helium from the MPC.

OR

C.2.2 Develop and initiate corrective actions necessary to demonstrate through analysis, using the models and methods from the HI-STORM FSAR, that all limits for cask components and contents will be met.

D. MPC helium leak rateD.1 Perform an engineering24 hours limit for vent and drain evaluation to determine the port cover plate welds or impact of increased helium cover plate base metal leak rate on heat removal not met. capability and offsite dose.

AND

D.2 Develop and initiate 7 days corrective actions necessary to return the MPC to compliance with SR 3.1.1.3.

Certificate of Compliance No. 1014 Appendix A 3.1.1-2 Multi-Purpose Canister (MPC) 3.1.1

E. Required Actions andE.1 Remove all fuel assemblies30 days associated Completion from the SFSC.

Times not met.

SURVEILLANCE REQUIREMENTS

SURVEILLANCE FREQUENCY

SR 3.1.1.1 Verify that the MPC cavity has been dried in Once, prior to accordance with the applicable limits in Table TRANSPORT 3-1, within the specified vacuum drying time limits OPERATIONS as applicable.

SR 3.1.1.2 Verify MPC helium backfill quantity is within the Once, prior to limit specified in Table 3-2 for the applicable MPC TRANSPORT model. Re-performance of this surveillance is not OPERATIONS required upon successful completion of Action C.2.2.

SR 3.1.1.3 Verify that the helium leak rate through the MPC Once, prior to vent and drain port cover plates (confinement TRANSPORT welds and the base metal) meets the leaktight OPERATIONS criteria of ANSI N14.5-1997.

Certificate of Compliance No. 1014 Appendix A 3.1.1-3 SFSC Heat Removal System 3.1.2 3.1 SFSC INTEGRITY

3.1.2 SFSC Heat Removal System

LCO 3.1.2 The SFSC Heat Removal System shall be operable


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

The SFSC Heat Removal System is operable when 50% or more of the inlet and outlet vent areas are unblocked and available for flow or when air temperature requirements are met.

APPLICABILITY: During STORAGE OPERATIONS.

ACTIONS


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

Separate Condition entry is allowed for each SFSC.

CONDITION REQUIRED ACTION COMPLETION TIME

A. SFSC Heat Removal A.1 Remove blockage. N/A System operable, but partially (<50%) blocked.

B. SFSC Heat Removal B.1 Restore SFSC Heat8 hours System inoperable. Removal System to operable status.

C. Required Action B.1 andC.1 Measure SFSC dose ratesImmediately and associated Completion in accordance with the once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> Time not met. Radiation Protection thereafter Program.

AND C.2.1 Restore SFSC Heat 64 hours7.407407e-4 days <br />0.0178 hours <br />1.058201e-4 weeks <br />2.4352e-5 months <br /> (Storage Removal System to cell heat loads<

operable status. Tables 3-3 or 3-4 limits)

24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> (Storage cell heat loads>

Tables 3-3 or 3-4 limits)

OR

Certificate of Compliance No. 1014 Appendix A 3.1.2-1 SFSC Heat Removal System 3.1.2

CONDITION REQUIRED ACTION COMPLETION TIME

C.2.2 Transfer the MPC into a 64 hours7.407407e-4 days <br />0.0178 hours <br />1.058201e-4 weeks <br />2.4352e-5 months <br /> (Storage TRANSFER CASK. cell heat loads<

Tables 3-3 or 3-4 limits)

24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> (Storage cell heat loads>

Tables 3-3 or 3-4 limits)

SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY

SR 3.1.2 Verify all OVERPACK inlets and outlets are free 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> of blockage from solid debris or floodwater.

OR For OVERPACKS with installed temperature 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> monitoring equipment, verify that the difference between the average OVERPACK air outlet temperature and ISFSI ambient temperature is

< 155oF for OVERPACKS containing PWR MPCs, < 137oF for OVERPACKS containing BWR MPCs.

Certificate of Compliance No. 1014 Appendix A 3.1.2-2 Fuel Cool-Down 3.1.3 3.1 SFSC INTEGRITY

3.1.3 MPC Cavity Reflooding

LCO 3.1.3 The MPC cavity pressure shall be < 100 psig


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

The LCO is only applicable to wet UNLOADING OPERATIONS.

APPLICABILITY: UNLOADING OPERATIONS prior to and during re-flooding.

ACTIONS


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

Separate Condition entry is allowed for each MPC.

CONDITION REQUIRED ACTION COMPLETION TIME

A. MPC cavity pressure Immediately not within limit. A.1 Stop re-flooding operationsuntil MPC cavity pressure is within limit.

AND

A.2 Ensure MPC vent port is not Immediately closed or blocked.

SURVEILLANCE REQUIREMENTS

SURVEILLANCE FREQUENCY

SR 3.1.3.1 Ensure via analysis or direct measurement that Once, prior to MPC cavity pressure is within limit. MPC re-flooding operations.

AND

Once every 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> thereafter when using direct measurement.

Certificate of Compliance No. 1014 Appendix A 3.1.3-1 Supplemental Cooling System 3.1.4 3.1 SFSC INTEGRITY

LCO 3.1.4 A supplemental cooling system (SCS) shall be operable


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

Upon reaching steady state operation, the SCS may be temporarily disabled for a short duration (< 7 hours8.101852e-5 days <br />0.00194 hours <br />1.157407e-5 weeks <br />2.6635e-6 months <br />) to facilitate necessary operational evolutions, such as movement of the TRANSFER CASK through a door way, or other similar operation.

APPLICABILITY: This LCO is not applicable to the MPC-68M. For all other MPCs this LCO is applicable when the loaded MPC is in the TRANSFER CASK and:

a. Within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> of the completion of MPC drying operations in accordance with LCO 3.1.1 or within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> of transferring the MPC into the TRANSFER CASK if the MPC is to be unloaded

AND

b. The MPC contains one or more fuel assemblies with an average burnup > 45,000 MWD/MTU

AND

c1. MPC backfilled to higher helium backfill limits in Table 3-2 AND any storage cell decay heat load exceeds 90% of maximum allowable storage cell heat load defined in Appendix B, Section 2.4.1 or 2.4.2 and FSAR Section 2.1.9.1 procedures.

OR

c2. MPC backfilled to lower helium backfill limits in Table 3-2 AND any storage cell heat load exceeds 90% of storage cell heat load limits defined in Tables 3-3 or 3-4.

Certificate of Compliance No. 1014 Appendix A 3.1.4-1 Supplemental Cooling System 3.1.4

ACTIONS

CONDITION REQUIRED ACTION COMPLETION TIME

A. SFSC Supplemental A.1 Restore SFSC 7 days Cooling System Supplemental Cooling inoperable. System to operable status.

B. Required Action A.1 and B.1 Remove all fuel 30 days associated Completion assemblies from the Time not met. SFSC.

SURVEILLANCE REQUIREMENTS

SURVEILLANCE FREQUENCY

SR 3.1.4.1 Verify SCS is operable. 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />

Certificate of Compliance No. 1014 Appendix A 3.1.4-2 Supplemental Cooling System 3.1.4

This page is intentionally left blank

Certificate of Compliance No. 1014 Appendix A 3.1.4-3 Deleted 3.2.1 3.2 SFSC RADIATION PROTECTION.

3.2.1 Deleted.

LCO 3.2.1 Deleted.

Certificate of Compliance No. 1014 Appendix A 3.2.1-1 TRANSFER CASK Surface Contamination 3.2.2 3.2 SFSC RADIATION PROTECTION.

3.2.2 TRANSFER CASK Surface Contamination.

LCO 3.2.2 Removable contamination on the exterior surfaces of the TRANSFER CASK and accessible portions of the MPC shall each not exceed:

a. 1000 dpm/100 cm2 from beta and gamma sources
b. 20 dpm/100 cm2 from alpha sources.

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

This LCO is not applicable to the TRANSFER CASK if MPC TRANSFER operations occur inside the FUEL BUILDING.

APPLICABILITY: During TRANSPORT OPERATIONS.

ACTIONS


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

Separate Condition entry is allowed for each TRANSFER CASK.

CONDITION REQUIRED ACTION COMPLETION TIME

A. TRANSFER CASK orA.1 Restore removable surface7 days MPC removable surface contamination to within contamination limits not limits.

met.

SURVEILLANCE REQUIREMENTS

SURVEILLANCE FREQUENCY

SR 3.2.2.1 Verify that the removable contamination on the Once, prior to exterior surfaces of the TRANSFER CASK and TRANSPORT accessible portions of the MPC containing fuel is OPERATIONS within limits.

Certificate of Compliance No. 1014 Appendix A 3.2.2-1 Deleted 3.2.3

3.2 SFSC RADIATION PROTECTION.

3.2.3 Deleted.

LCO 3.2.3 Deleted.

Certificate of Compliance No. 1014 Appendix A 3.2.3-1 Boron Concentration 3.3.1 3.3 SFSC CRITICALITY CONTROL

3.3.1 Boron Concentration

LCO 3.3.1 As required by CoC Appendix B, Table 2.1-2, the concentration of boron in the water in the MPC shall meet the following limits for the applicable MPC model and the most limiting fuel assembly array/class and classification to be stored in the MPC:

a. MPC-24 with one or more fuel assemblies having an initial enrichment greater than the value in Table 2.1-2 for no soluble boron credit and < 5.0 wt% 235U: > 400 ppmb
b. MPC-24E or MPC-24EF (all INTACT FUEL ASSEMBLIES) with one or more fuel assemblies having an initial enrichment greater than the value in Table 2.1-2 for no soluble boron credit and < 5.0 wt% 235U: > 300 ppmb
c. Deleted.
d. Deleted.
e. MPC-24E or MPC-24EF (one or more DAMAGED FUEL ASSEMBLIES or FUEL DEBRIS) with one or more fuel assemblies having an initial enrichment > 4.0 wt% 235U and

< 5.0 wt% 235U: > 600 ppmb

f. MPC-32/32F: Minimum soluble boron concentration as required by the table below.

All INTACT FUEL ASSEMBLIES One or more DAMAGED FUEL ASSEMBLIES or FUEL DEBRIS

Array/Class Maximum Initial Maximum Initial Maximum Initial Maximum Initial Enrichment Enrichment 5.0 Enrichment Enrichment

< 4.1 wt% 235U wt% 235U < 4.1 wt% 235U 5.0 wt% 235U (ppmb) (ppmb) (ppmb) (ppmb) 14x14A/B/C/D/E 1,300 1,900 1,500 2,300 15x15A/B/C/G/I 1,800 2,500 1,900 2,700 15x15D/E/F/H 1,900 2,600 2,100 2,900 16x16A/B/C 1,400 2,000 1,500 2,300 17x17A/B/C 1,900 2,600 2,100 2,900

For maximum initial enrichments between 4.1 wt% and 5.0 wt% 235U, the minimum soluble boron concentration may be determined by linear interpolation between the minimum soluble boron concentrations at 4.1 wt% and 5.0 wt%.

Certificate of Compliance No. 1014 Appendix A 3.3.1-1 Boron Concentration

3.3.1 APPLICABILITY

During PWR fuel LOADING OPERATIONS with fuel and water in the MPC

AND

During PWR fuel UNLOADING OPERATIONS with fuel and water in the MPC.

ACTIONS


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

Separate Condition entry is allowed for each MPC.

CONDITION REQUIRED ACTION COMPLETION TIME

A. Boron concentration notA.1 Suspend LOADING Immediately within limit. OPERATIONS or UNLOADING OPERATIONS.

AND

A.2 Suspend positive reactivityImmediately additions.

AND

A.3 Initiate action to restoreImmediately boron concentration to within limit.

SURVEILLANCE REQUIREMENTS SURVEILLANCE FREQUENCY


NOTE------------------------------------ Once, within 4 This surveillance is only required to be performed if the MPC is hours prior to submerged in water or if water is to be added to, or recirculated entering the through the MPC. Applicability of


this LCO.

SR 3.3.1.1 Verify boron concentration is within the AND applicable limit using two independent measurements. Once per 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> thereafter.

Certificate of Compliance No. 1014 Appendix A 3.3.1-2 MPC Cavity Drying Limits Table 3-1 Table 3-1 MPC Cavity Drying Limits for all MPC Types

Fuel Burnup Method of Moisture (MWD/MTU) MPC Heat Load (kW) Removal (Notes 1 and 2) 30Note 5 (MPC-24/24E/24EF, All Assemblies < 45,000 MPC-32/32F, MPC-68/68F/68FF) VDS or FHD 36.9Note 6 (MPC-68M)

All Assemblies < 45,000 > 30Note 6 (MPC-24/24E/24EF, MPC-32/32F, MPC-68/68F/68FF) FHD One or more assemblies

> 45,000 29 (MPC-68M) VDSNote 4 or FHD One or more assemblies 36.9Note 6 (MPC-

> 45,000 24/24E/24EF/MPC-32/32F/MPC-FHD 68/68F/68FF/MPC-68M

Notes:

1. VDS means a vacuum drying system. The acceptance criterion when using a VDS is MPC cavity pressure shall be < 3 torr for > 30 minutes.
2. FHD means a forced helium dehydration system. The acceptance criterion when using an FHD system is the gas temperature exiting the demoisturizer shall be

< 21ºF for > 30 minutes or the gas dew point exiting the MPC shall be < 22.9 ºF for > 30 minutes.

3. Deleted
4. The maximum allowable decay heat per fuel storage location is 0.426 kW.
5. Maximum allowable storage cell heat load is 1.25 kW (MPC-24/24E/24EF), 0.937 kW (MPC-32/32F) and 0.441 kW (MPC-68/68F/68FF).
6. Maximum allowable heat loads under uniform or regionalized storage defined in Appendix B, Section 2.4.1 or 2.4.2.

Certificate of Compliance No. 1014 Appendix A 3.4-1 MPC Helium Backfill Limits Table 3-2 Table 3-2 MPC Helium Backfill Limits1 MPC MODEL LIMIT MPC-24/24E/24EF

i. Cask Heat Load 27.77 kW (MPC-24) 0.1212 +/-10% g-moles/l or 28.17 kW (MPC-24E/EF) - OR uniformly distributed per Table 3-4 or 29.3 psig and 48.5 psig regionalized loading per Table 3-3 ii. Cask Heat Load >27.77 kW (MPC-24) or > 28.17 kW (MPC-24E/EF) -

uniformly distributed 45.5 psig and 48.5 psig or greater than regionalized heat load limits per Table 3-3

MPC-68/68F/68FF/68M

i. Cask Heat Load 28.19 kW - 0.1218 +/-10% g-moles/l uniformly distributed per Table 3-4 OR or 29.3 psig and 48.5 psig regionalized loading per Table 3-3 ii. Cask Heat Load > 28.19 kW -

uniformly distributed or 45.5 psig and 48.5 psig greater than regionalized heat load limits per Table 3-3

MPC-32/32F

i. Cask Heat Load 28.74 kW -

uniformly distributed per Table 3-4 29.3 psig and 48.5 psig or regionalized loading per Table 3-3

ii. Cask Heat Load >28.74 kW -

uniformly distributed or 45.5 psig and 48.5 psig greater than regionalized heat load limits per Table 3-3

1 Helium used for backfill of MPC shall have a purity of 99.995%. Pressure range is at a reference temperature of 70oF

Certificate of Compliance No. 1014 Appendix A 3.4-2 MPC Heat Load Limits Table 3-3 Table 3-3: Regionalized StorageNote 2 Cell Heat Load Limits

MPC Type Number of Storage Cell Number of Storage Cell Cells in Inner Heat Load Cells in Outer Heat Load RegionNote 1 (Inner Region) RegionNote 1 (Outer Region)

(kW) (kW)

MPC-24 4 1.470 20 0.900 MPC-24E/EF 4 1.540 20 0.900 MPC-32/32F 12 1.131 20 0.600 MPC-32 0.500 36 0.275 68/68F/68FF/68M Note 1: The location of MPC-32 and MPC-68 inner and outer region cells are defined in Appendix B Figures 2.1-3 and 2.1-4 respectively.

The MPC-24 and MPC-24E/EF cell locations are defined below:

Inner Region Cell numbers 9, 10, 15, 16 in Appendix B Figures 2.1-1 and 2.1-2 respectively.

Outer Region Cell numbers 1-8, 11-14, 17-24 in Appendix B Figures 2.1-1 and 2.1-2 respectively.

Note 2: The storage cell regionalization is defined in Note 1 in accordance with safety analyses under the heat load limits of this Table.

Table 3-4: Uniform Storage Cell Heat Load Limits

MPC Type Heat Load (kW)

MPC-24 1.157 MPC-24E/EF 1.173 MPC-68/68F/68FF/68M 0.414 MPC-32 0.898

Certificate of Compliance No. 1014 Appendix A 3.4-3 4.0 4.0

This section is intentionally left blank

Certificate of Compliance No. 1014 Appendix A 4.0-1 Programs 5.0 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS

The following programs shall be established, implemented and maintained.

5.1 Deleted.

5.2 Deleted.

5.3 Deleted.

5.4 Radioactive Effluent Control Program

This program implements the requirements of 10 CFR 72.44(d).

a. The HI-STORM 100 Cask System does not create any radioactive materials or have any radioactive waste treatment systems. Therefore, specific operating procedures for the control of radioactive effluents are not required.

Specification 3.1.1, Multi-Purpose Canister (MPC), provides assurance that there are not radioactive effluents from the SFSC.

b. This program includes an environmental monitoring program. Each general license user may incorporate SFSC operations into their environmental monitoring programs for 10 CFR Part 50 operations.
c. An annual report shall be submitted pursuant to 10 CFR 72.44(d)(3).

(continued)

Certificate of Compliance No. 1014 Appendix A 5.0-1 Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS

5.5 Cask Transport Evaluation Program

This program provides a means for evaluating various transport configurations and transport route conditions to ensure that the design basis drop limits are met.

For lifting of the loaded TRANSFER CASK or OVERPACK using devices which are integral to a structure governed by 10 CFR Part 50 regulations, 10 CFR 50 requirements apply. This program is not applicable when the TRANSFER CASK or OVERPACK is in the FUEL BUILDING or is being handled by a device providing support from underneath (i.e., on a rail car, heavy haul trailer, air pads, etc...) or is being handled by a device designed in accordance with the increased safety factors of ANSI N14.6 and having redundant drop protection.

Pursuant to 10 CFR 72.212, this program shall evaluate the site-specific transport route conditions.

a. For free-standing OVERPACKS and the TRANSFER CASK, the following requirements apply:
1. The lift height above the transport route surface(s) shall not exceed the limits in Table 5-1 except as provided for in Specification 5.5.a.2. Also, if applying the limits in Table 5-1, the program shall ensure that the transport route conditions (i.e., surface hardness and pad thickness) are equivalent to or less limiting than either Set A or Set B in HI-STORM FSAR Table 2.2.9.
2. The program may determine lift heights by analysis based on the site-specific conditions to ensure that the impact loading due to design basis drop events does not exceed 45 gs at the top of the MPC fuel basket. These alternative analyses shall be commensurate with the drop analyses described in the Final Safety Analysis Report for the HI-STORM 100 Cask System. The program shall ensure that these alternative analyses are documented and controlled.

(continued)

Certificate of Compliance No. 1014 Appendix A 5.0-2 Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS

5.5 Cask Transport Evaluation Program (continued)

3. The TRANSFER CASK or OVERPACK, when loaded with spent fuel, may be lifted to any height necessary during TRANSPORT OPERATIONS, provided the lifting device is designed in accordance with ANSI N14.6 and has redundant drop protection features.
4. The TRANSFER CASK and MPC, when loaded with spent fuel, may be lifted to those heights necessary to perform cask handling operations, including MPC TRANSFER, provided the lifts are made with structures and components designed in accordance with the criteria specified in Section 3.5 of Appendix B to Certificate of Compliance No. 1014, as applicable.
b. For the transport of OVERPACKS to be anchored to the ISFSI pad, the following requirements apply:
1. Except as provided in 5.5.b.2, user shall determine allowable OVERPACK lift height limit(s) above the transport route surface(s) based on site-specific transport route conditions. The lift heights shall be determined by evaluation or analysis, based on limiting the design basis cask deceleration during a postulated drop event to

< 45 gs at the top of the MPC fuel basket. Evaluations and/or analyses shall be performed using methodologies consistent with those in the HI-STORM 100 FSAR.

2. The OVERPACK, when loaded with spent fuel, may be lifted to any height necessary during TRANSPORT OPERATIONS provided the lifting device is designed in accordance with ANSI N14.6 and has redundant drop protection features.

(continued)

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5.5 Cask Transport Evaluation Program (continued)

Table 5-1

TRANSFER CASK and Free-Standing OVERPACK Lifting Requirements

ITEM ORIENTATION LIFTING HEIGHT LIMIT (in.)

TRANSFER CASK Horizontal 42 (Notes 1 and 2)

TRANSFER CASK Vertical None Established (Note 2)

OVERPACK Horizontal Not Permitted OVERPACK Vertical 11 (Note3)

Notes: 1. To be measured from the lowest point on the TRANSFER CASK (i.e., the bottom edge of the cask/lid assemblage)

2. See Technical Specification 5.5.a.3 and 4
3. See Technical Specification 5.5.a.3.

5.6 Deleted.

(continued)

Certificate of Compliance No. 1014 Appendix A 5.0-4 Programs 5.0 ADMINISTRATIVE CONTROLS AND PROGRAMS

5.7 Radiation Protection Program

5.7.1 Each cask user shall ensure that the Part 50 radiation protection program appropriately addresses dry storage cask loading and unloading, as well as ISFSI operations, including transport of the loaded OVERPACK or TRANSFER CASK outside of facilities governed by 10 CFR Part 50. The radiation protection program shall include appropriate controls for direct radiation and contamination, ensuring compliance with applicable regulations, and implementing actions to maintain personnel occupational exposures As Low As Reasonably Achievable (ALARA). The actions and criteria to be included in the program are provided below.

5.7.2 As part of its evaluation pursuant to 10 CFR 72.212(b)( 5)(iii), the licens ee shall perform an analysis to confirm that the dose limits of 10 CFR 72.104(a) will be satisfied under the actual site conditions and ISFSI configuration, considering the planned number of casks to be deployed and the cask contents.

5.7.3 Based on the analysis performed pursuant to Section 5.7.2, the licensee shall establish individual cask surface dose rate limits for the HI-TRAC TRANSFER CASK and the HI-STORM OVERPACK to be used at the site.

Total (neutron plus gamma) dose rate limits shall be established at the following locations:

a. The top of the TRANSFER CASK and the OVERPACK.
b. The side of the TRANSFER CASK and OVERPACK
c. The inlet and outlet ducts on the OVERPACK

5.7.4 Notwithstanding the limits established in Section 5.7.3, the measured dose rates on a loaded OVERPACK shall not exceed the following values:

a. 30 mrem/hr (gamma + neutron) on the top of the OVERPACK
b. 300 mrem/hr (gamma + neutron) on the side of the OVERPACK, excluding inlet and outlet ducts

5.7.5 The licensee shall measure the TRANSFER CASK and OVERPACK surface neutron and gamma dose rates as described in Section 5.7.8 for comparison against the limits established in Section 5.7.3 or Section 5.7.4, whichever are lower.

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5.7 Radiation Protection Program (contd)

5.7.6 If the measured surface dose rates exceed the lower of the two limits established in Section 5.7.3 or Section 5.7.4, the licensee shall:

a. Administratively verify that the correct contents were loaded in the correct fuel storage cell locations.
b. Perform a written evaluation to verify whether an OVERPACK at the ISFSI containing the as-loaded MPC will cause the dose limits of 10 CFR 72.104 to be exceeded.
c. Perform a written evaluation within 30 days to determine why the surface dose rate limits were exceeded.

5.7.7 If the evaluation performed pursuant to Section 5.7.6 shows that the dose limits of 10 CFR 72.104 will be exceeded, the MPC shall not be placed into storage or, in the case of the OVERPACK loaded at the ISFSI, the MPC shall be removed from storage until appropriate corrective action is taken to ensure the dose limits are not exceeded.

5.7.8 TRANSFER CASK and OVERPACK surface dose rates shall be measured at approximately the following locations:

a. A minimum of four (4) dose rate measurements shall be taken on the side of the TRANSFER CASK approximately at the cask mid-height plane. The measurement locations shall be approximately 90 degrees apart around the circumference of the cask. Dose rates shall be measured between the radial ribs of the water jacket.
b. A minimum of four (4) TRANSFER CASK top lid dose rates shall be measured at locations approximately half way between the edge of the hole in the top lid and the outer edge of the top lid, 90 degrees apart around the circumference of the top lid.
c. A minimum of twelve (12) dose rate measurements shall be taken on the side of the OVERPACK in three sets of four measurements.

One measurement set shall be taken approximately at the cask mid-height plane, 90 degrees apart around the circumference of the cask. The second and third measurement sets shall be taken approximately 60 inches above and below the mid-height plane, respectively, also 90 degrees apart around the circumference of the cask.

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5.7 Radiation Protection Program (contd)

d. A minimum of five (5) dose rate measurements shall be taken on the top of the OVERPACK. One dose rate measurement shall be taken at approximately the center of the lid an d four measurements shall be taken at locations on the top concrete shield, approximately half way between the center and the edge of the top concrete shield, 90 degrees apart around the circumference of the lid.
e. A dose rate measurement shall be taken on contact at the surface of each inlet and outlet vent duct screen of the OVERPACK.

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5.8 Aging Management Program (AMP)

Each general licensee shall have a program to establish, implement, and maintain written procedures for each applicable AMP described in the FSAR.

The program shall include provisions for changing AMP elements, as necessary, and within the limitations of the approved design bases to address new information on aging effects based on ins pection findings and/or indus try operating experience. Each procedure shall contain a reference to the specific aspect of the AMP element implemented by that procedure, and that reference shall be maintained ev en if the procedure is modified.

The general l icensee shall est ablish and implement these written pr ocedures prior to enteri ng the per iod of ext ended oper ation or no later than 365 day s after the effective date of t he renewal of the CoC, w hichever i s l ater. The general licensee shall maintain these written procedures for as l ong as the general licensee continues to operate H I-STORM 100 Cask S ystems i n service for longer than 20 ye ars.

Each general l icensee shall per form t ollgate assessments as desc ribed in Chapter 9 of the FSAR.

Certificate of Compliance No. 1014 5.0-8 Renewed Amendment No. 10 Appendix A