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| document type = Meeting Briefing Package/Handouts, Slides and Viewgraphs | | document type = Meeting Briefing Package/Handouts, Slides and Viewgraphs | ||
| page count = 23 | | page count = 23 | ||
| project = TAC:L24544 | |||
| stage = Other | |||
}} | }} | ||
=Text= | =Text= | ||
{{#Wiki_filter:VC Summer | {{#Wiki_filter:VC Summer Station Used Fuel Storage Project Overview July 20, 2011 | ||
*Background | |||
*Project responsibilities | Agenda | ||
*Loading plan | * Team introductions | ||
*Chosen | * Background | ||
*Major tasks | * Project responsibilities | ||
*Hazard analysis | * Loading plan | ||
*Fuel Handling Building crane upgrade | * Chosen storage g technologygy | ||
*Key implementation milestones Team Introductions | * ISFSI site selection and layout | ||
*Wayne Stuart -Design Engineering Manager | * Major tasks | ||
*Roy Russell -Project Engineer | * Hazard analysis | ||
*Bruce Thompson -Licensing Manager | * Fuel Handling Building crane upgrade | ||
*Beth Quattlebaum-Licensing Engineer | * Key implementation milestones | ||
*Joe Andrescavage | Team Introductions | ||
-Project Coordinator | * Wayne Stuart - Design Engineering Manager | ||
*Mike Sitsch -Project | * Roy Russell - Project Engineer | ||
*Tammy Morin -Licensing Manager | * Bruce Thompson - Licensing Manager | ||
* Beth Quattlebaum - Licensing Engineer | |||
* Joe Andrescavage - Project Coordinator | |||
* Mike Sitsch - Project Manager Holtec: | |||
* Rob Tindal - Project Manager | |||
* Tammy Morin - Licensing Manager | |||
===Background=== | ===Background=== | ||
*VC Summer plant site is located in Jenkinsville SC and is part of NRC Region II. Current site is a single unit Westinghouse 3 loop PWR. | * VC Summer plant site is located in Jenkinsville SC and is part of NRC Region II. Current site is a single unit Westinghouse 3 loop PWR. | ||
*VC Summer will lose full core offload capability in 2017 without used fuel storage | * VC Summer will lose full core offload capability in 2017 without used fuel storage availability | ||
*2766 | * 2766 ffuell assemblies bli willill b be useddb by th the end d off plant life in 2042 | ||
-Requires 75 | - Requires 75 MPCs (includes emptying fuel pool at the end of plant life) | ||
*Assumes 37 fuel assembly MPC capacity | * Assumes 37 fuel assembly MPC capacity | ||
-VC Summer will utilize a General License for used fuel storage in accordance with 10 CFR 72 Project Responsibilities | - VC Summer will utilize a General License for used fuel storage in accordance with 10 CFR 72 | ||
*VC Summer -Team Lead. Provide oversight and overall management of the project | |||
*Shaw Group -Architect Engineer. Perform project management, design and implementation | Project Responsibilities | ||
*Holtec International -Provide storage technology, license and hardware. Pool to pad loading services. | * VC Summer - Team Lead. Provide oversight and overall management of the project | ||
* | * Shaw Group - Architect Engineer. Perform project management, design and implementation | ||
* Holtec International - Provide storage technology, license and hardware. Pool to pad loading services. | |||
* PaR Nuclear (Westinghouse subsidiary) - Design, test and install single failure proof cask handling equipment (NUREG 0554) | |||
Loading Plan | Loading Plan | ||
-Minimum of 4 MPCs (Multi Purpose Canisters) would have to be loaded every other cycle to maintain full core reserve | - Minimum of 4 MPCs (Multi Purpose Canisters) would have to be loaded every other cycle to maintain full core reserve | ||
*Typical loading campaign will likely consist of 8 MPCs to optimize mobilization and demobilization costs | * Typical loading campaign will likely consist of 8 MPCs to optimize mobilization and demobilization costs | ||
-First campaign will load 4 MPCs to accommodate learning curve | - First campaign will load 4 MPCs to accommodate learning curve | ||
>>Scheduled to start January 2015 | >> Scheduled to start January 2015 | ||
-Anticipate loading 1 MPC and transferring it to the ISFSI per week Chosen Technology | - Anticipate loading 1 MPC and transferring it to the ISFSI per week | ||
-HI-STORM FW System*After a comprehensive, multi-discipline evaluation of commercial and technical attributes Holtec was the chosen | |||
Chosen Technology - HI-STORM FW System | |||
* After a comprehensive, multi-discipline evaluation of commercial and technical attributes Holtec was the chosen supplier | |||
- Canister capacity is 37 PWR fuel assemblies - HI-STORM FW (Flood and Wind) which was licensed on June 13, 2011 | |||
- Canister is licensed for storage and will be licensed for transportation | |||
- Highest heat load capacity (47 kW) | |||
- Suitable for high burnup fuels (68,200 MWd/MTU) | |||
- Can discharge fuel cooled as little as 3 years | |||
- No supplemental cooling required | |||
- Up to 12 damaged fuel containers per canister | |||
- Metamic-HT Basket provides structural and criticality function | |||
HI-STORM FW SYSTEM HI-STAR 190 TRANSPORT CASK (OFFSITE TRANSPORT) | |||
HI-TRAC VW TRANSFER CASK (ONSITE TRANSFER/TRANSPORT) | |||
HI-STORM FW STORAGE CASK MPC-37 (INTERIM STORAGE) | |||
MULTI-PURPOSE CANISTER (STORAGE/TRANSPORT/DISPOSAL) 8 | |||
Overpack (HI-STORM) Convection Flow 9 | |||
HI-STORM FW OVERPACK WITH MPC-37 INSERTED 10 | |||
Cask Transporter | |||
*Loaded weight is 290 tons | |||
*Can turn in its own length | |||
*Rubber tires less harsh on haul path | |||
ISFSI Site Selection | |||
* Based on an extensive assessment of 4 potential sites presented in a detailed report | |||
- ALARA/dose minimization | |||
- Security | |||
* Avoid separate PA (Protected Area) | |||
* Major M j constructioni outsideid off PA PA. PA can then h b be expanded d d to encompass ISFSI and haul path. | |||
- Short haul path | |||
- Minimal hazards - haul path and ISFSI | |||
- Minimal underground utilities | |||
- Close proximity to cask fabrication pad | |||
* Desirable to have this pad outside the Protected Area for easier access to overpack fabrication (assembly and concrete pours) | |||
Proposed ISFSI Location (Artists Rendering) | |||
Monticello Reservoir Haul Path North H2 Tanks Fuel Hdlg. | |||
Bldg. | |||
ld Reactor Bldg. | |||
Fabrication Pad Sloped Berm ISFSI Pad | |||
Proposed ISFSI (Artists Rendering - Looking Northwest) | |||
Berm | |||
Major Tasks | |||
* Cask crane upgrade to single failure proof | |||
* Underground relocations (storm drainage, etc.) | |||
* Hydrogen tank relocation | |||
* Construct haul path and ISFSI pad | |||
* Protected Area expansion | |||
Hazards Analysis | |||
* Both the haul path and ISFSI were extensively evaluated to determine hazards for the movement and storage of used fuel casks | |||
- Only substantial hazard identified so far are H2 tanks on the north side of the plant and will be relocated | |||
Haul Path and H2 Tanks Fuel Handling Building Haul Road - Looking East | |||
Geotechnical & Geophysical Studies | |||
* The haul path and ISFSI have been extensively surveyed | |||
* Lab analyses and preparation of the report documenting the results is being prepared | |||
- Will be followed by foundation designs | |||
Fuel Handling Building Crane Upgrade | |||
* 125 ton bridge crane requires upgrade to Single Failure Proof for handling loaded used fuel casks | |||
* Crane upgrades include: | |||
- Single failure proof trolley | |||
- All 3 hooks are radio controlled, with pendant backup | |||
- Variable frequency drives | |||
- Power rotating hook | |||
*125 ton bridge crane requires upgrade to Single Failure Proof for handling loaded used fuel casks | |||
* | |||
-All 3 hooks are radio controlled, with pendant backup | |||
-Variable frequency drives | |||
-Power rotating hook | |||
VC Summer Fuel Handling Building & Crane Only the trolley is being replaced 20 | |||
Industry Operating Experience (OE) | |||
* All Used Fuel Storage OE are catalogued on the VC Summer SharePoint site and are readily available | |||
- Holtec Information Bulletins are also maintained there | |||
* Some opportunities to learn | |||
- Concrete and rebar fabrication issues (INPO Event Report 11-4) | |||
- Difficulty in meeting ISFSI pad concrete strength range criteria (DC Cook OE32536) | |||
- Various equipment and fabrication issues | |||
- Various crane and rigging issues | |||
Key Implementation Milestones Complete Undergrounds Modifications - Jul. 2013 Delivery of Holtec Equipment - June Complete FHB 2014 Upgrades - Jun. | |||
2013 Complete NRC Complete Fuel Complete Haul Dry Runs - | |||
-Jan. | Characterization Path Construction Dec. 2014 | ||
- Feb. 2012 - Jul. 2013 Jan 2012 RF20 Jan 2013 Jan 2014 RF21 Jan 2015 Replace FHB Crane Trolley - May 2012 Complete Security Modifications - Start Loading of Complete Hazards Apr. 2014 First 4 Canisters Mitigation - Dec. | |||
- Jan. 2015 2012 Complete ISFSI Complete Loading Construction - Oct. | |||
Training - Nov. 2014 2013 22 | |||
Questions? | |||
Ques o s 23}} |
Latest revision as of 03:47, 6 December 2019
ML112070779 | |
Person / Time | |
---|---|
Site: | Summer, 07201038 ![]() |
Issue date: | 07/26/2011 |
From: | South Carolina Electric & Gas Co |
To: | Office of Nuclear Material Safety and Safeguards |
Allen W NMSS/SFST 492-3148 | |
Shared Package | |
ML112070733 | List: |
References | |
TAC L24544 | |
Download: ML112070779 (23) | |
Text
VC Summer Station Used Fuel Storage Project Overview July 20, 2011
Agenda
- Team introductions
- Background
- Project responsibilities
- Loading plan
- Chosen storage g technologygy
- ISFSI site selection and layout
- Major tasks
- Hazard analysis
- Fuel Handling Building crane upgrade
- Key implementation milestones
Team Introductions
- Wayne Stuart - Design Engineering Manager
- Roy Russell - Project Engineer
- Bruce Thompson - Licensing Manager
- Beth Quattlebaum - Licensing Engineer
- Joe Andrescavage - Project Coordinator
- Mike Sitsch - Project Manager Holtec:
- Rob Tindal - Project Manager
- Tammy Morin - Licensing Manager
Background
- VC Summer plant site is located in Jenkinsville SC and is part of NRC Region II. Current site is a single unit Westinghouse 3 loop PWR.
- VC Summer will lose full core offload capability in 2017 without used fuel storage availability
- 2766 ffuell assemblies bli willill b be useddb by th the end d off plant life in 2042
- Requires 75 MPCs (includes emptying fuel pool at the end of plant life)
- Assumes 37 fuel assembly MPC capacity
- VC Summer will utilize a General License for used fuel storage in accordance with 10 CFR 72
Project Responsibilities
- Shaw Group - Architect Engineer. Perform project management, design and implementation
- Holtec International - Provide storage technology, license and hardware. Pool to pad loading services.
- PaR Nuclear (Westinghouse subsidiary) - Design, test and install single failure proof cask handling equipment (NUREG 0554)
Loading Plan
- Minimum of 4 MPCs (Multi Purpose Canisters) would have to be loaded every other cycle to maintain full core reserve
- Typical loading campaign will likely consist of 8 MPCs to optimize mobilization and demobilization costs
- First campaign will load 4 MPCs to accommodate learning curve
>> Scheduled to start January 2015
- Anticipate loading 1 MPC and transferring it to the ISFSI per week
Chosen Technology - HI-STORM FW System
- After a comprehensive, multi-discipline evaluation of commercial and technical attributes Holtec was the chosen supplier
- Canister capacity is 37 PWR fuel assemblies - HI-STORM FW (Flood and Wind) which was licensed on June 13, 2011
- Canister is licensed for storage and will be licensed for transportation
- Highest heat load capacity (47 kW)
- Suitable for high burnup fuels (68,200 MWd/MTU)
- Can discharge fuel cooled as little as 3 years
- No supplemental cooling required
- Up to 12 damaged fuel containers per canister
- Metamic-HT Basket provides structural and criticality function
HI-STORM FW SYSTEM HI-STAR 190 TRANSPORT CASK (OFFSITE TRANSPORT)
HI-TRAC VW TRANSFER CASK (ONSITE TRANSFER/TRANSPORT)
HI-STORM FW STORAGE CASK MPC-37 (INTERIM STORAGE)
MULTI-PURPOSE CANISTER (STORAGE/TRANSPORT/DISPOSAL) 8
Overpack (HI-STORM) Convection Flow 9
HI-STORM FW OVERPACK WITH MPC-37 INSERTED 10
Cask Transporter
- Loaded weight is 290 tons
- Can turn in its own length
- Rubber tires less harsh on haul path
ISFSI Site Selection
- Based on an extensive assessment of 4 potential sites presented in a detailed report
- ALARA/dose minimization
- Security
- Avoid separate PA (Protected Area)
- Major M j constructioni outsideid off PA PA. PA can then h b be expanded d d to encompass ISFSI and haul path.
- Short haul path
- Minimal hazards - haul path and ISFSI
- Minimal underground utilities
- Close proximity to cask fabrication pad
- Desirable to have this pad outside the Protected Area for easier access to overpack fabrication (assembly and concrete pours)
Proposed ISFSI Location (Artists Rendering)
Monticello Reservoir Haul Path North H2 Tanks Fuel Hdlg.
Bldg.
ld Reactor Bldg.
Fabrication Pad Sloped Berm ISFSI Pad
Proposed ISFSI (Artists Rendering - Looking Northwest)
Berm
Major Tasks
- Cask crane upgrade to single failure proof
- Underground relocations (storm drainage, etc.)
- Hydrogen tank relocation
- Construct haul path and ISFSI pad
- Protected Area expansion
Hazards Analysis
- Both the haul path and ISFSI were extensively evaluated to determine hazards for the movement and storage of used fuel casks
- Only substantial hazard identified so far are H2 tanks on the north side of the plant and will be relocated
Haul Path and H2 Tanks Fuel Handling Building Haul Road - Looking East
Geotechnical & Geophysical Studies
- The haul path and ISFSI have been extensively surveyed
- Lab analyses and preparation of the report documenting the results is being prepared
- Will be followed by foundation designs
Fuel Handling Building Crane Upgrade
- 125 ton bridge crane requires upgrade to Single Failure Proof for handling loaded used fuel casks
- Crane upgrades include:
- Single failure proof trolley
- All 3 hooks are radio controlled, with pendant backup
- Variable frequency drives
- Power rotating hook
VC Summer Fuel Handling Building & Crane Only the trolley is being replaced 20
Industry Operating Experience (OE)
- Holtec Information Bulletins are also maintained there
- Some opportunities to learn
- Concrete and rebar fabrication issues (INPO Event Report 11-4)
- Difficulty in meeting ISFSI pad concrete strength range criteria (DC Cook OE32536)
- Various equipment and fabrication issues
- Various crane and rigging issues
Key Implementation Milestones Complete Undergrounds Modifications - Jul. 2013 Delivery of Holtec Equipment - June Complete FHB 2014 Upgrades - Jun.
2013 Complete NRC Complete Fuel Complete Haul Dry Runs -
Characterization Path Construction Dec. 2014
- Feb. 2012 - Jul. 2013 Jan 2012 RF20 Jan 2013 Jan 2014 RF21 Jan 2015 Replace FHB Crane Trolley - May 2012 Complete Security Modifications - Start Loading of Complete Hazards Apr. 2014 First 4 Canisters Mitigation - Dec.
- Jan. 2015 2012 Complete ISFSI Complete Loading Construction - Oct.
Training - Nov. 2014 2013 22
Questions?
Ques o s 23