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{{#Wiki_filter:MRP Assessment of Generic Implications of Davis-Besse RPV Head Corrosion MRP-NRC Staff Meeting 3/19/02 RPV Head.1 MRP
{{#Wiki_filter:RPV Head.1 MRP MRP Assessment of Generic Implications of Davis-Besse RPV Head Corrosion MRP-NRC Staff Meeting 3/19/02


Agenda
RPV Head.2 MRP Agenda
* Davis-Besse Condition
* Davis-Besse Condition
* NRC Questions
* NRC Questions
Line 23: Line 23:
* GL 88-05 Programs
* GL 88-05 Programs
* MRP Response Plan
* MRP Response Plan
* Conclusions RPV Head.2 MRP
* Conclusions


NRC Letter to NEI, 3/11/02
RPV Head.3 MRP NRC Letter to NEI, 3/11/02
* Industry Actions to Address 3 Questions
* Industry Actions to Address 3 Questions
      - For plants that have completed their Bulletin 2001-01 inspections, discuss whether the inspections have been sufficient to detect degradation similar to that found at Davis Besse.
- For plants that have completed their Bulletin 2001-01 inspections, discuss whether the inspections have been sufficient to detect degradation similar to that found at Davis Besse.
      - For plants that have not completed their Bulletin 2001-01 inspections, justify their basis for continued operation.
- For plants that have not completed their Bulletin 2001-01 inspections, justify their basis for continued operation.
      - Address the risk significance of this occurrence including an assessment of the effect of such degradation on the structural integrity of the RCS pressure boundary RPV Head.3 MRP
- Address the risk significance of this occurrence including an assessment of the effect of such degradation on the structural integrity of the RCS pressure boundary


NRC Question 1
RPV Head.4 MRP NRC Question 1
* Industry Survey preliminary conclusions
* Industry Survey preliminary conclusions
      - Bulletin 2001-01 inspections are sufficient to identify cracking which could lead to head wastage
- Bulletin 2001-01 inspections are sufficient to identify cracking which could lead to head wastage
      - Plants that detect through wall flaws need to ensure wastage has not occurred RPV Head.4 MRP
- Plants that detect through wall flaws need to ensure wastage has not occurred


NRC Question 2
RPV Head.5 MRP NRC Question 2
* Basis for Continued Operation
* Basis for Continued Operation
      - Previous baseline inspections
- Previous baseline inspections
      - Susceptibility ranking used in response to Bulletin 2001-01
- Susceptibility ranking used in response to Bulletin 2001-01
      - Plant inspections performed per GL 88-05
- Plant inspections performed per GL 88-05
      - Industry Survey results
- Industry Survey results
      - Routine maintenance and testing
- Routine maintenance and testing
      - Review of Final Root Cause from Davis-Besse RPV Head.5 MRP
- Review of Final Root Cause from Davis-Besse


NRC Question 3
RPV Head.6 MRP NRC Question 3
* MRP Safety Analysis Work
* MRP Safety Analysis Work
    - Specific structural analysis in progress by plant
- Specific structural analysis in progress by plant
    - MRP PFM evaluation model under review pending root cause
- MRP PFM evaluation model under review pending root cause
* Risk Analysis
* Risk Analysis
    - Pending the safety analysis work
- Pending the safety analysis work
* Schedule
* Schedule
    - Previously planned for May
- Previously planned for May
    - Impact of Davis-Besse condition pending root cause RPV Head.6 MRP
- Impact of Davis-Besse condition pending root cause


Industry Survey
RPV Head.7 MRP Industry Survey
* Based on Initial Information from Davis-Besse
* Based on Initial Information from Davis-Besse
    - 3 potential root causes
- 3 potential root causes
* 1. Leakage from sources above head (flanges, etc.)
* 1. Leakage from sources above head (flanges, etc.)
            - Sufficient boric acid accumulates to produce wastage
- Sufficient boric acid accumulates to produce wastage
* 2. Leakage of reactor coolant through flaws in penetration nozzles
* 2. Leakage of reactor coolant through flaws in penetration nozzles
            - Sufficient to produce wastage
- Sufficient to produce wastage
* 3. Previous stable accumulation of boric acid deposits wetted by leakage through flaws in penetration nozzles
* 3. Previous stable accumulation of boric acid deposits wetted by leakage through flaws in penetration nozzles
            - Resultant wastage is a combination of the two effects
- Resultant wastage is a combination of the two effects
* On-going Davis-Besse Root Cause Work RPV Head.7 MRP
* On-going Davis-Besse Root Cause Work


Industry Survey (cont.)
RPV Head.8 MRP Industry Survey (cont.)
* 4 Questions
* 4 Questions
    - At most recent inspection
- At most recent inspection
* sufficient visual examination over 100% of the head
* sufficient visual examination over 100% of the head
            - detect external surface corrosion or accumulation of boric acid crystals?
- detect external surface corrosion or accumulation of boric acid crystals?
* If visual inspection < 100%/some way hampered
* If visual inspection < 100%/some way hampered
            - Confident no external head corrosion?
- Confident no external head corrosion?
* If UT/other non-visual approach was used
* If UT/other non-visual approach was used
            - examination capable of detecting corrosion of the low alloy steel head material ?
- examination capable of detecting corrosion of the low alloy steel head material ?
            - was examination full-length of nozzles to the top of the head?
- was examination full-length of nozzles to the top of the head?
    - For plants with spring 02 outages
- For plants with spring 02 outages
* plans to show no significant boric acid corrosion?
* plans to show no significant boric acid corrosion?
* Responses Received from all US PWRs RPV Head.8 MRP
* Responses Received from all US PWRs


Survey Assessment
RPV Head.9 MRP Survey Assessment
* Assessment in Progress
* Assessment in Progress
      - Following up with some plants for additional information
- Following up with some plants for additional information
      - Acceptance criteria have been developed
- Acceptance criteria have been developed
      - Being applied to plant survey responses along with the MRP susceptibility ranking for nozzle cracking RPV Head.9 MRP
- Being applied to plant survey responses along with the MRP susceptibility ranking for nozzle cracking


Assessment (contd)
RPV Head.10 MRP Assessment (contd)
* Acceptance Criteria
* Acceptance Criteria
    - Category 1
- Category 1
* At most recent outage 100% bare-metal VT of RPV head and region above head
* At most recent outage 100% bare-metal VT of RPV head and region above head
            - No boric acid on head and none above head
- No boric acid on head and none above head
    - Category 2
- Category 2
* During Category 1 examination,
* During Category 1 examination,
            - Boric acid accumulation detected
- Boric acid accumulation detected
                - Boric acid deposits removed, head inspected, source determined and corrected
- Boric acid deposits removed, head inspected, source determined and corrected
    - Category 3
- Category 3
* Bare-metal inspection limited/not able to be performed
* Bare-metal inspection limited/not able to be performed
            - Plant history and above head inspections show no evidence of leakage RPV Head.10 MRP
- Plant history and above head inspections show no evidence of leakage


Assessment (contd)
RPV Head.11 MRP Assessment (contd)
* Acceptance Criteria (contd)
* Acceptance Criteria (contd)
      - Category 4
- Category 4
* Bare-metal inspection limited/not able to be performed
* Bare-metal inspection limited/not able to be performed
              - Above-head inspections indicate boric acid leakage, but leakage managed
- Above-head inspections indicate boric acid leakage, but leakage managed
                - None reached outer surface of head, OR
- None reached outer surface of head, OR
                - Affected area(s) cleaned and inspected
- Affected area(s) cleaned and inspected
      - Other Category
- Other Category
* Bare-metal inspection limited/not able to be performed
* Bare-metal inspection limited/not able to be performed
              - Above-head inspections indicate boric acid leakage, and leakage may have accumulated on outer surface of head
- Above-head inspections indicate boric acid leakage, and leakage may have accumulated on outer surface of head
* Or, plant situation does not specifically fit first 4 categories RPV Head.11 MRP
* Or, plant situation does not specifically fit first 4 categories


MRP Nozzle Cracking Susceptibility Ranking 45 40 35 30 Rank of Unit 25 20 Leaks Davis-Besse                              Cracks/No Leak 15 Visual/No Leaks Spring 02 10                                              Fall 02 Later 5
RPV Head.12 MRP MRP Nozzle Cracking Susceptibility Ranking 0
0
5 10 15 20 25 30 35 40 45
                    -5.0             0.0   5.0   10.0       15.0     20.0       25.0         30.0 EFPY to Oconee 3 RPV Head.12 MRP
-5.0 0.0 5.0 10.0 15.0 20.0 25.0 30.0 EFPY to Oconee 3 Rank of Unit Leaks Cracks/No Leak Visual/No Leaks Spring 02 Fall 02 Later Davis-Besse


Results Summary
RPV Head.13 MRP Results Summary
* Evaluation approach in light of Davis-Besse event:
* Evaluation approach in light of Davis-Besse event:
      - Plants tentatively assigned to categories (1 through 5, described earlier) based on reviews of survey responses
- Plants tentatively assigned to categories (1 through 5, described earlier) based on reviews of survey responses
      - Combined with plant-specific responses to NRC Bulletin 2001-01
- Combined with plant-specific responses to NRC Bulletin 2001-01
      - Plant categorizations need to be considered in light of:
- Plant categorizations need to be considered in light of:
* Past inspection experience and current inspection plans
* Past inspection experience and current inspection plans
* Additional factors, e.g., insulation configurations
* Additional factors, e.g., insulation configurations
* Root Cause is in progress RPV Head.13 MRP
* Root Cause is in progress


Results Summary (cont.)
RPV Head.14 MRP Results Summary (cont.)
* All 11 plants in <5 EFPY susceptibility group (except Davis-Besse) have already performed 100% bare-head inspections (i.e. Category 1 or 2)
* All 11 plants in <5 EFPY susceptibility group (except Davis-Besse) have already performed 100% bare-head inspections (i.e. Category 1 or 2)
      - Returned to service with no significant boric acid deposits
- Returned to service with no significant boric acid deposits
      - Confirmed no or only minor corrosion
- Confirmed no or only minor corrosion
* All 9 plants in 5-10 EFPY group have either done 100%
* All 9 plants in 5-10 EFPY group have either done 100%
bare-head inspections or are doing them Spring 2002
bare-head inspections or are doing them Spring 2002
      - 6 plants did 100% bare-head inspections (Category 1 or 2)
- 6 plants did 100% bare-head inspections (Category 1 or 2)
* Returned to service with no significant boric acid deposits
* Returned to service with no significant boric acid deposits
* Confirmed no or only minor corrosion
* Confirmed no or only minor corrosion
      - Remaining 3 plants scheduled for Spring 2002 refueling outages and are planning 100% bare-metal inspections (Category 1 or 2)
- Remaining 3 plants scheduled for Spring 2002 refueling outages and are planning 100% bare-metal inspections (Category 1 or 2)
RPV Head.14 MRP


Results Summary (cont.)
RPV Head.15 MRP Results Summary (cont.)
* Of the 11 plants in the 10-15 EFPY susceptibility group:
* Of the 11 plants in the 10-15 EFPY susceptibility group:
      - 2 plants are in Category 1 (i.e., recent bare-head inspections/cleaning ensured no deposits & wastage)
- 2 plants are in Category 1 (i.e., recent bare-head inspections/cleaning ensured no deposits & wastage)
      - 3 plants are in Category 3 (no above-head leak events):
- 3 plants are in Category 3 (no above-head leak events):
* 2 plants have Spring 2002 outages and plan inspections
* 2 plants have Spring 2002 outages and plan inspections
      - 5 plants are in Category 4 (boric acid has not accumulated from above-head sources based on review of plant experience and maintenance)
- 5 plants are in Category 4 (boric acid has not accumulated from above-head sources based on review of plant experience and maintenance)
* 1 plant supplemented bulletin inspections in response to Davis-Besse and is returning to service
* 1 plant supplemented bulletin inspections in response to Davis-Besse and is returning to service
* Remaining 4 plants have inspections scheduled beyond Spring
* Remaining 4 plants have inspections scheduled beyond Spring
      - 1 plant is in Other Category
- 1 plant is in Other Category
* identified boric acid and evaluated minor wastage of head OD RPV Head.15 MRP
* identified boric acid and evaluated minor wastage of head OD


Results Summary (cont.)
RPV Head.16 MRP Results Summary (cont.)
* Remaining plants are in >15 EFPYs susceptibility
* Remaining plants are in >15 EFPYs susceptibility
      - 8 plants in 15-20 EFPY group
- 8 plants in 15-20 EFPY group
* 1 plant in Category 1
* 1 plant in Category 1
* 3 plants are in Category 3 (Spring 2002 inspections)
* 3 plants are in Category 3 (Spring 2002 inspections)
* 3 plants are in Category 4 (inspections beyond Spring 2002)
* 3 plants are in Category 4 (inspections beyond Spring 2002)
* 1 plant in the Other Category (Spring 2002 inspection)
* 1 plant in the Other Category (Spring 2002 inspection)
      - 5 plants in 20-30 EFPY group
- 5 plants in 20-30 EFPY group
* 2 plants in Category 1
* 2 plants in Category 1
* 1 plant in Category 3 (inspection beyond Spring 2002)
* 1 plant in Category 3 (inspection beyond Spring 2002)
* 2 plants in Category 4 (1 with Spring 2002 inspection)
* 2 plants in Category 4 (1 with Spring 2002 inspection)
      - 25 plants in >30 EFPY group
- 25 plants in >30 EFPY group
* 9 plants in Category 3
* 9 plants in Category 3
* 12 plants in Category 4
* 12 plants in Category 4
* 4 plants in Other Category RPV Head.16 MRP
* 4 plants in Other Category


Summary
RPV Head.17 MRP Summary
* Plants at <10 EFPY will all have been inspected by end of Spring 2002 (highest ranked 20 units)
* Plants at <10 EFPY will all have been inspected by end of Spring 2002 (highest ranked 20 units)
      - Reasonable assurance of no significant corrosion of the head or CRDM leakage
- Reasonable assurance of no significant corrosion of the head or CRDM leakage
* 34 out of 44 plants <30 EFPY will have performed inspections by Spring 2002
* 34 out of 44 plants <30 EFPY will have performed inspections by Spring 2002
      - 5 Fall 2002 and 5 Spring 2003 RPV Head.17 MRP
- 5 Fall 2002 and 5 Spring 2003


Survey Summary <30 EFPY
RPV Head.18 MRP Survey Summary <30 EFPY 2
              <5EFPY 5-10 EFPY 10-15 15-20  20-30 EFPY  EFPY  EFPY Other      1               1     1 Category 4              3     5    3     2 Category 3                     3     3     1 Category 2    8        1 Category 1     2        5     2    1      2 RPV Head.18 MRP
1 2
5 2
Category 1 1
8 Category 2 1
3 3
Category 3 2
3 5
3 Category 4 1
1 1
Other 20-30 EFPY 15-20 EFPY 10-15 EFPY 5-10 EFPY
<5EFPY


Generic Letter 88-05
RPV Head.19 MRP Generic Letter 88-05
* GL 88-05 Boric Acid Corrosion of Carbon Steel Reactor Pressure Boundary Components in PWR Plants, 3/17/88
* GL 88-05 Boric Acid Corrosion of Carbon Steel Reactor Pressure Boundary Components in PWR Plants, 3/17/88
    - Preceded by 5 Information Notices
- Preceded by 5 Information Notices
* Leaks had resulted in corrosion (e.g., RPV head surface, RPV head bolts, valve bolting, etc.)
* Leaks had resulted in corrosion (e.g., RPV head surface, RPV head bolts, valve bolting, etc.)
    - Required program
- Required program
* Systematic measures
* Systematic measures
            - Ensure boric acid corrosion does not lead to degradation of RC pressure boundary
- Ensure boric acid corrosion does not lead to degradation of RC pressure boundary
* 4 specific areas to be addressed
* 4 specific areas to be addressed
            - Determination of locations where < TS allowable leaks can cause pressure boundary corrosion by boric acid
- Determination of locations where < TS allowable leaks can cause pressure boundary corrosion by boric acid
            - Procedures for locating small primary coolant leaks and leak paths
- Procedures for locating small primary coolant leaks and leak paths
            - Methods for conducting examinations and performing engineering evaluations (when leakage is identified)
- Methods for conducting examinations and performing engineering evaluations (when leakage is identified)
            - Corrective actions to prevent recurrences RPV Head.19 MRP
- Corrective actions to prevent recurrences


Generic Letter 88-05 (contd)
RPV Head.20 MRP Generic Letter 88-05 (contd)
* Conclusions
* Conclusions
      - All plants have boric acid program
- All plants have boric acid program
      - Program details vary among plants
- Program details vary among plants
* Programs include
* Programs include
              - ISI of Class 1 & 2 components
- ISI of Class 1 & 2 components
              - Containment walk-down at start of outages
- Containment walk-down at start of outages
              - Class 1 pressure test at end of outages
- Class 1 pressure test at end of outages
              - Containment entries during operation
- Containment entries during operation
              - Normal rounds outside containment
- Normal rounds outside containment
              - Leakage monitoring
- Leakage monitoring
* Removal of insulation for walk-downs not typically required
* Removal of insulation for walk-downs not typically required
              - Some ISI and pressure tests do require insulation removal
- Some ISI and pressure tests do require insulation removal
              - Insulation removal may be required for assessment once leakage is identified RPV Head.20 MRP
- Insulation removal may be required for assessment once leakage is identified


Generic Letter 88-05 (contd)
RPV Head.21 MRP Generic Letter 88-05 (contd)
* MRP Actions
* MRP Actions
    - Letter to Senior Representatives, March 1, 2001
- Letter to Senior Representatives, March 1, 2001
* Pertinent Recommendations for Spring 01 outages (still stands)
* Pertinent Recommendations for Spring 01 outages (still stands)
            - Review GL 88-05 Boron Inspection and ASME Pressure Testing Programs considering the events at Oconee and V. C.
- Review GL 88-05 Boron Inspection and ASME Pressure Testing Programs considering the events at Oconee and V. C.
Summer. Enhance sensitivity of those performing these inspections, with emphasis placed on areas know to contain Alloy 82/182 weld materials.
Summer. Enhance sensitivity of those performing these inspections, with emphasis placed on areas know to contain Alloy 82/182 weld materials.
            - Review leak detection programs considering the events at Oconee and V. C. Summer. Sensitize operators and inspectors to small changes in leak rates and to potential leak sources.
- Review leak detection programs considering the events at Oconee and V. C. Summer. Sensitize operators and inspectors to small changes in leak rates and to potential leak sources.
RPV Head.21 MRP


MRP Response Plan
RPV Head.22 MRP MRP Response Plan
* Review of Davis-Besse root-cause analysis when available for generic implications, using November 2001 Boric Acid Corrosion Guidebook
* Review of Davis-Besse root-cause analysis when available for generic implications, using November 2001 Boric Acid Corrosion Guidebook
* Review early 90s Owners Group work relative to RPV head corrosion/wastage - determine applicability in light of above
* Review early 90s Owners Group work relative to RPV head corrosion/wastage - determine applicability in light of above
* Review the Davis-Besse condition for impact on the MRP nozzle cracking risk and safety assessment
* Review the Davis-Besse condition for impact on the MRP nozzle cracking risk and safety assessment
* Incorporation of Davis-Besse lessons learned into future MRP inspection guidance RPV Head.22 MRP
* Incorporation of Davis-Besse lessons learned into future MRP inspection guidance


Conclusions for RPV Head
RPV Head.23 MRP Conclusions for RPV Head
* Bulletin 2001-01 inspections are sufficient to identify cracking which could lead to head wastage
* Bulletin 2001-01 inspections are sufficient to identify cracking which could lead to head wastage
* Plants that detect through wall flaws need to ensure wastage has not occurred
* Plants that detect through wall flaws need to ensure wastage has not occurred
* All plants have programs for managing leak sources
* All plants have programs for managing leak sources
* Responses to MRP survey questions will assist plants in responding to proposed NRC bulletin RPV Head.23 MRP
* Responses to MRP survey questions will assist plants in responding to proposed NRC bulletin


Discussion RPV Head.24 MRP}}
RPV Head.24 MRP Discussion}}

Latest revision as of 19:16, 16 January 2025

3/19/2002 MRP Assessment of Generic Implications of Davis-Besse RPV Head Corrosion MRP-NRC Staff Meeting
ML020920666
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Site: Davis Besse Cleveland Electric icon.png
Issue date: 03/19/2002
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Text

RPV Head.1 MRP MRP Assessment of Generic Implications of Davis-Besse RPV Head Corrosion MRP-NRC Staff Meeting 3/19/02

RPV Head.2 MRP Agenda

  • Davis-Besse Condition
  • NRC Questions
  • Industry Survey
  • MRP Response Plan
  • Conclusions

RPV Head.3 MRP NRC Letter to NEI, 3/11/02

  • Industry Actions to Address 3 Questions

- For plants that have completed their Bulletin 2001-01 inspections, discuss whether the inspections have been sufficient to detect degradation similar to that found at Davis Besse.

- For plants that have not completed their Bulletin 2001-01 inspections, justify their basis for continued operation.

- Address the risk significance of this occurrence including an assessment of the effect of such degradation on the structural integrity of the RCS pressure boundary

RPV Head.4 MRP NRC Question 1

  • Industry Survey preliminary conclusions

- Bulletin 2001-01 inspections are sufficient to identify cracking which could lead to head wastage

- Plants that detect through wall flaws need to ensure wastage has not occurred

RPV Head.5 MRP NRC Question 2

  • Basis for Continued Operation

- Previous baseline inspections

- Susceptibility ranking used in response to Bulletin 2001-01

- Plant inspections performed per GL 88-05

- Industry Survey results

- Routine maintenance and testing

- Review of Final Root Cause from Davis-Besse

RPV Head.6 MRP NRC Question 3

  • MRP Safety Analysis Work

- Specific structural analysis in progress by plant

- MRP PFM evaluation model under review pending root cause

  • Risk Analysis

- Pending the safety analysis work

  • Schedule

- Previously planned for May

- Impact of Davis-Besse condition pending root cause

RPV Head.7 MRP Industry Survey

  • Based on Initial Information from Davis-Besse

- 3 potential root causes

  • 1. Leakage from sources above head (flanges, etc.)

- Sufficient boric acid accumulates to produce wastage

- Sufficient to produce wastage

  • 3. Previous stable accumulation of boric acid deposits wetted by leakage through flaws in penetration nozzles

- Resultant wastage is a combination of the two effects

  • On-going Davis-Besse Root Cause Work

RPV Head.8 MRP Industry Survey (cont.)

  • 4 Questions

- At most recent inspection

  • sufficient visual examination over 100% of the head

- detect external surface corrosion or accumulation of boric acid crystals?

  • If visual inspection < 100%/some way hampered

- Confident no external head corrosion?

  • If UT/other non-visual approach was used

- examination capable of detecting corrosion of the low alloy steel head material ?

- was examination full-length of nozzles to the top of the head?

- For plants with spring 02 outages

  • plans to show no significant boric acid corrosion?
  • Responses Received from all US PWRs

RPV Head.9 MRP Survey Assessment

  • Assessment in Progress

- Following up with some plants for additional information

- Acceptance criteria have been developed

- Being applied to plant survey responses along with the MRP susceptibility ranking for nozzle cracking

RPV Head.10 MRP Assessment (contd)

  • Acceptance Criteria

- Category 1

  • At most recent outage 100% bare-metal VT of RPV head and region above head

- No boric acid on head and none above head

- Category 2

  • During Category 1 examination,

- Boric acid accumulation detected

- Boric acid deposits removed, head inspected, source determined and corrected

- Category 3

  • Bare-metal inspection limited/not able to be performed

- Plant history and above head inspections show no evidence of leakage

RPV Head.11 MRP Assessment (contd)

  • Acceptance Criteria (contd)

- Category 4

  • Bare-metal inspection limited/not able to be performed

- Above-head inspections indicate boric acid leakage, but leakage managed

- None reached outer surface of head, OR

- Affected area(s) cleaned and inspected

- Other Category

  • Bare-metal inspection limited/not able to be performed

- Above-head inspections indicate boric acid leakage, and leakage may have accumulated on outer surface of head

  • Or, plant situation does not specifically fit first 4 categories

RPV Head.12 MRP MRP Nozzle Cracking Susceptibility Ranking 0

5 10 15 20 25 30 35 40 45

-5.0 0.0 5.0 10.0 15.0 20.0 25.0 30.0 EFPY to Oconee 3 Rank of Unit Leaks Cracks/No Leak Visual/No Leaks Spring 02 Fall 02 Later Davis-Besse

RPV Head.13 MRP Results Summary

  • Evaluation approach in light of Davis-Besse event:

- Plants tentatively assigned to categories (1 through 5, described earlier) based on reviews of survey responses

- Combined with plant-specific responses to NRC Bulletin 2001-01

- Plant categorizations need to be considered in light of:

  • Past inspection experience and current inspection plans
  • Additional factors, e.g., insulation configurations
  • Root Cause is in progress

RPV Head.14 MRP Results Summary (cont.)

  • All 11 plants in <5 EFPY susceptibility group (except Davis-Besse) have already performed 100% bare-head inspections (i.e. Category 1 or 2)

- Returned to service with no significant boric acid deposits

- Confirmed no or only minor corrosion

  • All 9 plants in 5-10 EFPY group have either done 100%

bare-head inspections or are doing them Spring 2002

- 6 plants did 100% bare-head inspections (Category 1 or 2)

  • Returned to service with no significant boric acid deposits
  • Confirmed no or only minor corrosion

- Remaining 3 plants scheduled for Spring 2002 refueling outages and are planning 100% bare-metal inspections (Category 1 or 2)

RPV Head.15 MRP Results Summary (cont.)

  • Of the 11 plants in the 10-15 EFPY susceptibility group:

- 2 plants are in Category 1 (i.e., recent bare-head inspections/cleaning ensured no deposits & wastage)

- 3 plants are in Category 3 (no above-head leak events):

  • 2 plants have Spring 2002 outages and plan inspections

- 5 plants are in Category 4 (boric acid has not accumulated from above-head sources based on review of plant experience and maintenance)

  • 1 plant supplemented bulletin inspections in response to Davis-Besse and is returning to service
  • Remaining 4 plants have inspections scheduled beyond Spring

- 1 plant is in Other Category

  • identified boric acid and evaluated minor wastage of head OD

RPV Head.16 MRP Results Summary (cont.)

  • Remaining plants are in >15 EFPYs susceptibility

- 8 plants in 15-20 EFPY group

  • 1 plant in Category 1
  • 3 plants are in Category 3 (Spring 2002 inspections)
  • 3 plants are in Category 4 (inspections beyond Spring 2002)
  • 1 plant in the Other Category (Spring 2002 inspection)

- 5 plants in 20-30 EFPY group

  • 2 plants in Category 1
  • 1 plant in Category 3 (inspection beyond Spring 2002)
  • 2 plants in Category 4 (1 with Spring 2002 inspection)

- 25 plants in >30 EFPY group

  • 9 plants in Category 3
  • 12 plants in Category 4
  • 4 plants in Other Category

RPV Head.17 MRP Summary

  • Plants at <10 EFPY will all have been inspected by end of Spring 2002 (highest ranked 20 units)

- Reasonable assurance of no significant corrosion of the head or CRDM leakage

  • 34 out of 44 plants <30 EFPY will have performed inspections by Spring 2002

- 5 Fall 2002 and 5 Spring 2003

RPV Head.18 MRP Survey Summary <30 EFPY 2

1 2

5 2

Category 1 1

8 Category 2 1

3 3

Category 3 2

3 5

3 Category 4 1

1 1

Other 20-30 EFPY 15-20 EFPY 10-15 EFPY 5-10 EFPY

<5EFPY

RPV Head.19 MRP Generic Letter 88-05

- Preceded by 5 Information Notices

  • Leaks had resulted in corrosion (e.g., RPV head surface, RPV head bolts, valve bolting, etc.)

- Required program

  • Systematic measures

- Ensure boric acid corrosion does not lead to degradation of RC pressure boundary

  • 4 specific areas to be addressed

- Determination of locations where < TS allowable leaks can cause pressure boundary corrosion by boric acid

- Procedures for locating small primary coolant leaks and leak paths

- Methods for conducting examinations and performing engineering evaluations (when leakage is identified)

- Corrective actions to prevent recurrences

RPV Head.20 MRP Generic Letter 88-05 (contd)

  • Conclusions

- All plants have boric acid program

- Program details vary among plants

  • Programs include

- ISI of Class 1 & 2 components

- Containment walk-down at start of outages

- Class 1 pressure test at end of outages

- Containment entries during operation

- Normal rounds outside containment

- Leakage monitoring

  • Removal of insulation for walk-downs not typically required

- Some ISI and pressure tests do require insulation removal

- Insulation removal may be required for assessment once leakage is identified

RPV Head.21 MRP Generic Letter 88-05 (contd)

- Letter to Senior Representatives, March 1, 2001

  • Pertinent Recommendations for Spring 01 outages (still stands)

- Review GL 88-05 Boron Inspection and ASME Pressure Testing Programs considering the events at Oconee and V. C.

Summer. Enhance sensitivity of those performing these inspections, with emphasis placed on areas know to contain Alloy 82/182 weld materials.

- Review leak detection programs considering the events at Oconee and V. C. Summer. Sensitize operators and inspectors to small changes in leak rates and to potential leak sources.

RPV Head.22 MRP MRP Response Plan

  • Review of Davis-Besse root-cause analysis when available for generic implications, using November 2001 Boric Acid Corrosion Guidebook
  • Review early 90s Owners Group work relative to RPV head corrosion/wastage - determine applicability in light of above
  • Review the Davis-Besse condition for impact on the MRP nozzle cracking risk and safety assessment
  • Incorporation of Davis-Besse lessons learned into future MRP inspection guidance

RPV Head.23 MRP Conclusions for RPV Head

  • Plants that detect through wall flaws need to ensure wastage has not occurred
  • All plants have programs for managing leak sources
  • Responses to MRP survey questions will assist plants in responding to proposed NRC bulletin

RPV Head.24 MRP Discussion

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