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{{#Wiki_filter:UNITED STATES               NUCLEAR REGULATORY COMMISSION                                                         REGION I  
{{#Wiki_filter:UNITED STATES
                                              475 ALLENDALE ROAD                               KING OF PRUSSIA, PA 19406-1415  
                                NUCLEAR REGULATORY COMMISSION
 
                                                    REGION I
  January 21, 2009  
                                              475 ALLENDALE ROAD
                                          KING OF PRUSSIA, PA 19406-1415
                                        January 21, 2009
Mr. Charles G. Pardee
Mr. Charles G. Pardee  
Chief Nuclear Officer (CNO) and Senior Vice President
Chief Nuclear Officer (CNO) and Senior Vice President  
Exelon Nuclear
Exelon Nuclear  
4300 Winfield Rd.
4300 Winfield Rd.              
Warrenville, IL 60555
Warrenville, IL 60555  
SUBJECT:          OYSTER CREEK GENERATING STATION - NRC LICENSE RENEWAL
                  FOLLOW-UP INSPECTION REPORT 05000219/2008007
Dear Mr. Pardee:
On December 23, 2008, the U. S. Nuclear Regulatory Commission (NRC) completed an
inspection at your Oyster Creek Generating Station. The enclosed report documents the
inspection results, which were discussed on December 23, 2008, with Mr. T. Rausch, Site Vice
President, Mr. M. Gallagher, Vice President License Renewal, and other members of your staff.
First, this inspection was conducted using the guidance of Inspection Procedure (IP) 71003
"Post-Approval Site Inspection for License Renewal." Although IP 71003 is designated as a
"post-approval" inspection procedure, the NRC conducted this inspection as a prudent measure
absent a final NRC decision on license renewal. This inspection observed Oyster Creek license
renewal activities during the last planned refueling outage prior to entering the period of
extended operation. The license renewal application was the subject of a hearing and the
Atomic Safety and Licensing Board decision is being appealed to the Commission. Because a
renewed license has not been issued, the proposed license conditions and associated
regulatory commitments, made as a part of the license renewal application, are not in effect.
Accordingly, as related to license renewal activities, the enclosed report records the inspector's
factual observations.
Second, the inspection examined activities conducted under your current license as they relate
to safety and compliance with the Commissions rules and regulations. This portion of the
inspection focused on the inservice inspection of the drywell containment. The inspectors
reviewed selected procedures and records, observed activities, and interviewed personnel.
Based on the results of the NRC's inspection, the NRC did not identify any safety significant
conditions affecting current operations.


C. Pardee                                      2
SUBJECT: OYSTER CREEK GENERATING STATION - NRC LICENSE RENEWAL
In accordance with 10 CFR 2.390 of the NRC's "Rules of Practice," a copy of this letter and its
   FOLLOW-UP INSPECTION REPORT 05000219/2008007  
enclosure will be available electronically for public inspection in the NRC Public Document
Room or from the Publicly Available Records (PARS) component of NRC's document system
(ADAMS). ADAMS is accessible from the NRC Web-site at http://www.nrc.gov/reading-
rm/adams.html (the Public Electronic Reading Room).
We appreciate your cooperation. Please contact Richard Conte of my staff at (610) 337-5183 if
you have any questions regarding this letter.
                                              Sincerely,
                                              /RA/ Original Signed By:
                                              Darrell J. Roberts, Director
                                              Division of Reactor Safety
Docket No.    50-219
License No.   DPR-16
Enclosure:    Inspection Report No. 05000219/2008007
              w/Attachment: Supplemental Information
C. Crane, President and Chief Operating Officer, Exelon Corporation
M. Gallagher, Vice President License Renewal
M. Pacilio, Chief Operating Officer, Exelon Nuclear
T. Rausch, Site Vice President, Oyster Creek Nuclear Generating Station
P. Orphanos, Plant Manager, Oyster Creek Generating Station
J. Kandasamy, Regulatory Assurance Manager, Oyster Creek
R. DeGregorio, Senior Vice President, Mid-Atlantic Operations
K. Jury,Vice President, Licensing and Regulatory Affairs
P. Cowan, Director, Licensing
B. Fewell, Associate General Counsel, Exelon
Correspondence Control Desk, Exelon
Mayor of Lacey Township
P. Mulligan, Chief, NJ Dept of Environmental Protection
R. Shadis, New England Coalition Staff
E. Gbur, Chairwoman - Jersey Shore Nuclear Watch
E. Zobian, Coordinator - Jersey Shore Anti Nuclear Alliance
P. Baldauf, Assistant Director, NJ Radiation Protection Programs
Congressman C. Smith


              C. Pardee                                                    2
Dear Mr. Pardee:  
              In accordance with 10 CFR 2.390 of the NRC's "Rules of Practice," a copy of this letter and its
              enclosure will be available electronically for public inspection in the NRC Public Document
              Room or from the Publicly Available Records (PARS) component of NRC's document system
              (ADAMS). ADAMS is accessible from the NRC Web-site at http://www.nrc.gov/reading-
              rm/adams.html (the Public Electronic Reading Room).
              We appreciate your cooperation. Please contact Richard Conte of my staff at (610) 337-5183 if
              you have any questions regarding this letter.
                                                                            Sincerely,
                                                                            /RA/ Original Signed By:
                                                                            Darrell J. Roberts, Director
                                                                            Division of Reactor Safety
              Docket No.          50-219
              License No.        DPR-16
              Enclosure:          Inspection Report No. 05000219/2008007
                                  w/Attachment: Supplemental Information
              Distribution w/encl:
              S. Collins, RA
              M. Dapas, DRA
              D. Lew, DRP
              J. Clifford, DRP
              R. Bellamy, DRP
              S. Barber, DRP
              C. Newport, DRP
              M. Ferdas, DRP, Senior Resident Inspector
              J. Kulp, DRP, Resident Inspector
              J. DeVries, DRP, Resident OA
              S. Williams, RI OEDO
              H. Chernoff, NRR
              R. Nelson, NRR
              G. Miller, PM, NRR
              J. Hughey, NRR, Backup
              ROPreportsResource@nrc.gov (All IRs)
              Region I Docket Room (with concurrences)
SUNSI Review Complete: JER/RJC                                  (Reviewer=s Initials) Adams Accession No. ML090210106
DOCUMENT NAME: G:\DRS\Engineering Branch 1\Richmond\OC 2008-07 LR\_Report\OC 2008-07 LRI_rev-14.doc
After declaring this document "An Official Agency Record" it will be released to the Public.
To receive a copy of this document, indicate in the box:"C" = Copy without attachment/enclosure E" = Copy with attachment/enclosure "N" = No copy
  OFFICE                RI/DRS                E RI/DRS                        RI/DRP                    RI/DRS
  NAME                  JRichmond/JER              RConte/RJC                RBellamy/RRB              DRoberts/DJR
  DATE                  01/20/09                    01/20/09                  01/20/09                  01/20/09
                                                              OFFICIAL RECORD COPY


   
              U. S. NUCLEAR REGULATORY COMMISSION
On December 23, 2008, the U. S. Nuclear Regulatory Commission (NRC) completed an
                                  REGION I
inspection at your Oyster Creek Generating Station.  The enclosed report documents the
Docket No.: 50-219
inspection results, which were discussed on December 23, 2008, with Mr. T. Rausch, Site Vice
License No.: DPR-16
President, Mr. M. Gallagher, Vice President License Renewal, and other members of your staff.
Report No.:  05000219/2008007
Licensee:    Exelon Generation Company, LLC
Facility:    Oyster Creek Generating Station
Location:    Forked River, New Jersey
Dates:      October 27 to November 7, 2008 (on-site inspection activities)
            November 13, 15, and 17, 2008 (on-site inspection activities)
            November 10 to December 23, 2008 (in-office review)
Inspectors:  J. Richmond, Lead
            M. Modes, Senior Reactor Engineer
            G. Meyer, Senior Reactor Engineer
            T. O'Hara, Reactor Inspector
            J. Heinly, Reactor Engineer
            J. Kulp, Resident Inspector, Oyster Creek
Approved by: Richard J. Conte, Chief
            Engineering Branch 1
            Division of Reactor Safety
            Region I


                                                        ii
First, this inspection was conducted using the guidance of Inspection Procedure (IP) 71003
                                      TABLE OF CONTENTS
"Post-Approval Site Inspection for License Renewal." Although IP 71003 is designated as a
SUMMARY OF FINDINGS .........................................................................................................iii
"post-approval" inspection procedure, the NRC conducted this inspection as a prudent measure absent a final NRC decision on license renewalThis inspection observed Oyster Creek license renewal activities during the last planned refueling outage prior to entering the period of
4.  OTHER ACTIVITIES (OA)................................................................................................... 1
extended operationThe license renewal application was the subject of a hearing and the
  4OA5 License Renewal Follow-up (IP 71003).................................................................... 1
Atomic Safety and Licensing Board decision is being appealed to the CommissionBecause a
    1. Inspection Overview ..................................................................................................... 1
renewed license has not been issued, the proposed license conditions and associated
      1.1  Purpose of Inspection............................................................................................ 1
regulatory commitments, made as a part of the license renewal application, are not in effect.
      1.2  Sample Selection Process..................................................................................... 1
Accordingly, as related to license renewal activities, the enclosed report records the inspector's
    2. Assessment of Current Licensing Basis Performance Issues....................................... 2
factual observations.  
      2.1  ASME, Section XI, Subsection IWE Program........................................................ 2
      2.2  Issues for Follow-up .............................................................................................. 2
    3. Detailed Review of License Renewal Activities............................................................. 4
      3.1  Reactor Refuel Cavity Liner Strippable Coating..................................................... 4
      3.2  Reactor Refuel Cavity Seal Leakage Monitoring ................................................... 4
      3.3  Reactor Cavity Trough Drain Inspection for Blockage ........................................... 5
      3.4  Drywell Sand Bed Region Drain Monitoring........................................................... 5
      3.5  Reactor Cavity Seal Leakage Action Plan for 1R22............................................... 6
      3.6 Moisture Barrier Seal Inspection (inside drywell) ................................................... 8
      3.7 Moisture Barrier Seal Inspection (inside sand bed bays) ....................................... 8
      3.8 Drywell Shell Internal Coatings Inspection (inside drywell) .................................... 9
      3.9 Drywell Shell External Coatings Inspection (inside sand bed bays) ..................... 10
      3.10 Drywell Floor Trench Inspections ........................................................................ 12
      3.11 Drywell Shell Thickness Measurements .............................................................. 13
      3.12 One Time Inspection Program............................................................................. 15
      3.13 "B" Isolation Condenser Shell Inspection............................................................. 15
      3.14 Periodic Inspections ............................................................................................ 16
      3.15 Circulating Water Intake Tunnel & Expansion Joint Inspection............................ 16
      3.16 Buried Emergency Service Water Pipe Replacement.......................................... 17
      3.17 Electrical Cable Inspection inside Drywell............................................................ 17
      3.18 Inaccessible Medium Voltage Cable Test............................................................ 18
      3.19 Fatigue Monitoring Program ................................................................................ 18
    4. Proposed Conditions of License ................................................................................. 19
    5. Commitment Management Program........................................................................... 19
  4OA6 Meetings, Including Exit Meeting............................................................................. 20
SUPPLEMENTAL INFORMATION........................................................................................... 21


                                                iii
Second, the inspection examined activities conducted under your current license as they relate
                                  SUMMARY OF FINDINGS
to safety and compliance with the Commission's rules and regulations.  This portion of the  
IR 05000219/2008007; 10/27/2008 - 12/23/2008; Exelon, LLC, Oyster Creek
inspection focused on the inservice inspection of the drywell containment.  The inspectors
Generating Station; License Renewal Follow-up.
reviewed selected procedures and records, observed activities, and interviewed personnel. 
The report covers a multi-week inspection of license renewal follow-up items. The inspection
Based on the results of the NRC's inspection, the NRC did not identify any safety significant
was conducted by five region based engineering inspectors and with assistance from the
conditions affecting current operations.  
Oyster Creek resident inspector. The inspection was conducted using Inspection Procedure
(IP) 71003 "Post-Approval Site Inspection for License Renewal." In accordance with the NRC's
memorandum of understanding with the State of New Jersey, state engineers from the
Department of Environmental Protection, Bureau of Nuclear Engineering, observed portions of
the NRC inspection activities.
A.    NRC-Identified and Self-Revealing Findings
      No findings of significance were identified.
B.    Licensee-Identified Violations
      None.


                                        REPORT DETAILS
 
Summary of Plant Status
C. Pardee 2
The Oyster Creek Generating Station was in a scheduled refueling outage during the on-site
portions of this inspection.
In accordance with 10 CFR 2.390 of the NRC's "Rules of Practice," a copy of this letter and its
At the time of the inspection, AmerGen Energy Company, LLC was the licensee for Oyster
enclosure will be available electronically for public inspection in the NRC Public Document Room or from the Publicly Available Records (PARS) component of NRC's document system
Creek Generating Station. As of January 8, 2009, the Oyster Creek license was transferred to
(ADAMS). ADAMS is accessible from the NRC Web-site at http://www.nrc.gov/reading-rm/adams.html
Exelon Generating Company, LLC by license amendment No. 271 (ML083640373).
(the Public Electronic Reading Room).
4.      OTHER ACTIVITIES (OA)
4OA5 License Renewal Follow-up (IP 71003)
We appreciate your cooperation. Please contact Richard Conte of my staff at (610) 337-5183 if
1.      Inspection Overview
you have any questions regarding this letter.  
1.1    Purpose of Inspection
        The NRC conducted this inspection using the guidance of Inspection Procedure (IP)
        71003 "Post-Approval Site Inspection for License Renewal." The license renewal
        application was the subject of a hearing and the Atomic Safety and Licensing Board
        decision is being appealed to the Commission. Although IP 71003 is designated as a
        "post-approval" inspection procedure, the NRC conducted this inspection as a prudent
        measure absent a final NRC decision on license renewal. This inspection observed
        Oyster Creek license renewal activities during the last refueling outage prior to entering
        the period of extended operation.
        Inspection observations were made of license renewal commitments and license
        conditions selected from NUREG-1875, "Safety Evaluation Report (SER) Related to the
        License Renewal of Oyster Creek Generating Station" (ML071290023 & ML071310246).
        The inspection included observations of a number of license renewal commitments
        which were enhancements to exiting programs implemented under the current license.
        When the performance of an existing program was evaluated by the inspectors, the
        basis for the evaluation was the current licensing basis (CLB), and the license renewal
        enhancements were not considered in the evaluation.
        For license renewal activities, within the context of 10 CFR 54, the report only
        documents inspector observations, because the proposed license conditions and
        associated regulatory commitments were not in effect at the time of this inspection.
        These proposed conditions and commitments were not in effect because the application
        for a renewed license remains under Commission review for final decision, and a
        renewed license has not been approved for Oyster Creek. Thus they are referred to in
        this report as "proposed" conditions and commitments.
1.2    Sample Selection Process
        The SER proposed commitments and proposed license conditions were selected based
        on the risk significance using insights gained from sources such as the NRC's


Sincerely,  
                                              2
/RA/  Original Signed By:
    "Significance Determination Process Risk Informed Inspection Notebooks," the results
    of previous license renewal audits, and inspections of aging management programs.
Darrell J. Roberts, Director
    The inspectors also reviewed selected corrective actions taken as a result of previous
Division of Reactor Safety
    license renewal inspections.
2Assessment of Current Licensing Basis Performance Issues
Docket No. 50-219
2.1 ASME, Section XI, Subsection IWE Program
License No. DPR-16
    Monitoring of the condition of the primary containment drywell is accomplished through
 
    Exelons ASME Section XI, Subsection IWE monitoring program. The inspectors
    determined Exelon provided an adequate basis to provide assurance that the drywell
Enclosure: Inspection Report No. 05000219/2008007
    primary containment will remain operable throughout the period to the next scheduled
  w/Attachment: Supplemental Information
    examination (2012 refueling outage). This determination was based on the inspectors'
 
    evaluation of the drywell shell ultrasonic test (UT) thickness measurements (Sections
    3.10 & 3.11), direct observation of drywell shell conditions both inside the drywell
    (Sections 3.6, 3.8, & 3.11), including the floor trenches (Section 3.10), and outside the
C. Crane, President and Chief Operating Officer, Exelon Corporation 
    drywell in the sand bed regions (Sections 3.7 & 3.9), condition and integrity of the
M. Gallagher, Vice President License Renewal
    drywell shell epoxy coating (Section 3.9), and condition of the drywell shell moisture
M. Pacilio, Chief Operating Officer, Exelon Nuclear  
    barrier seals (Sections 3.6 & 3.7). On a sampling basis, the inspectors observed that
T. Rausch, Site Vice President, Oyster Creek Nuclear Generating Station
    the enhancements made as a result of license renewal activities were integrated into the
P. Orphanos, Plant Manager, Oyster Creek Generating Station
    existing program for the drywell structural integrity.
J. Kandasamy, Regulatory Assurance Manager, Oyster Creek
    The drywell shell epoxy coating and the moisture barrier seal, both in the sand bed
R. DeGregorio, Senior Vice President, Mid-Atlantic Operations
    region, are barriers used to protect the drywell from corrosion. The problems identified
K. Jury,Vice President, Licensing and Regulatory Affairs
    with these barriers (discussed in Sections 3.7 & 3.9) were corrected and had a minimal
P. Cowan, Director, Licensing 
    impact on the drywell steel shell. The drywell shell corrosion rate remains very small, as
B. Fewell, Associate General Counsel, Exelon 
    confirmed by the inspectors' review of Exelon's technical evaluations of the 2008 UT
Correspondence Control Desk, Exelon
    data. The inspectors determined Exelon provided an adequate basis to conclude the
Mayor of Lacey Township
    likelihood of additional blisters or moisture barrier seal issues will not impact the
P. Mulligan, Chief, NJ Dept of Environmental Protection
    containment safety function during the period before the next scheduled examination
R. Shadis, New England Coalition Staff
    (2012 refueling outage). This is based on the inspectors' direct observations of four
E. Gbur, Chairwoman - Jersey Shore Nuclear Watch
    coating blisters and a number of moisture barrier seal issues, review of Exelon's repairs,
E. Zobian, Coordinator - Jersey Shore Anti Nuclear Alliance
    and direct observation of the general conditions of the drywell shell, both inside the
P. Baldauf, Assistant Director, NJ Radiation Protection Programs
     drywell and outside the drywell, in the sand bed regions, as well as the overall condition
Congressman C. Smith 
    and integrity of the drywell shell epoxy coating.
C. Pardee 2
2.2 Issues for Follow-up
    Introduction
In accordance with 10 CFR 2.390 of the NRC's "Rules of Practice," a copy of this letter and its
    The inspectors and Exelon identified a number of issues during the inspection with
enclosure will be available electronically for public inspection in the NRC Public Document Room or from the Publicly Available Records (PARS) component of NRC's document system
    potential implications on the current licensing basis (CLB). More information is required
(ADAMS).  ADAMS is accessible from the NRC Web-site at http://www.nrc.gov/reading-rm/adams.html
    in order to determine whether these issues are acceptable or are CLB performance
(the Public Electronic Reading Room).  
    deficiencies.
We appreciate your cooperation. Please contact Richard Conte of my staff at (610) 337-5183 if
you have any questions regarding this letter.  
 
Sincerely,  
/RA/  Original Signed By:
Darrell J. Roberts, Director
Division of Reactor Safety
Docket No. 50-219
License No. DPR-16
 
Enclosure: Inspection Report No. 05000219/2008007
  w/Attachment: Supplemental Information
 
Distribution w/encl
:  S. Collins, RA
M. Dapas, DRA
D. Lew, DRP
J. Clifford, DRP
R. Bellamy, DRP
S. Barber, DRP
C. Newport, DRP 
M. Ferdas, DRP, Senior Resident Inspector
J. Kulp, DRP, Resident Inspector
J. DeVries, DRP, Resident OA
S. Williams, RI OEDO 
H. Chernoff, NRR
R. Nelson, NRR
G. Miller, PM, NRR
J. Hughey, NRR, Backup ROPreportsResource@nrc.gov     (All IRs) Region I Docket Room (with concurrences)
SUNSI Review Complete:  JER/RJC              (Reviewer
=s Initials) Adams Accession No. ML090210106 DOCUMENT NAME:  G:\DRS\Engineering Branch 1\Richmond\OC 2008-07 LR\_Report\OC 2008-07 LRI_rev-14.doc After declaring this document "An Official Agency Record" it will be released to the Public. To receive a copy of this document, indicate in the box:"C" = Copy without attachment/enclosure E" = Copy with attachment/enclosure "N" = No copy
OFFICE  RI/DRS  E RI/DRS    RI/DRP    RI/DRS        NAME  JRichmond/JER
RConte/RJC
RBellamy/RRB
DRoberts/DJR
 
DATE  01/20/09  01/20/09 01/20/09 01/20/09
  OFFICIAL RECORD COPY
  U. S. NUCLEAR REGULATORY COMMISSION
REGION I 
Docket No.:  50-219
 
License No.:  DPR-16
 
Report No.:  05000219/2008007
 
Licensee:  Exelon Generation Company, LLC


                                          3
Description
Facility: Oyster Creek Generating Station
As noted in the detailed observations of this report, a number of issues were observed
which Exelon placed into its corrective action program. The specific issues for further
review include:
        (1) Exelon applied a strippable coating to the refuel cavity liner to prevent water
        intrusion into the gap between the drywell steel shell and the concrete shield
        wall. The strippable coating unexpectedly de-laminated, resulting in increased
        refuel cavity seal leakage. As a result, water entered the gap and subsequently
        flowed down the outside of the shell and into four sand bed bays. In addition,
        Exelon had established an administrative limit for cavity seal leakage that was
        higher than the actual leakage rate at which water intrusion into the gap
        occurred. (Sections 3.1 & 3.5)
        (2) While the reactor cavity was being filled, Exelon frequently monitored the
        cavity seal leakage by observing flow in the cavity trough drain line.
        Subsequently, Exelon determined that the trough drain line had been left isolated
        during a previous maintenance activity. As a result, cavity seal leakage had not
        been monitored as intended. (Section 3.2)
        (3) During the refueling outage, Exelon monitored for water leakage from the
        sand bed bay drains by checking poly bottles connected via tygon tubing and
        funnels to the sand bed drain lines. Exelon subsequently discovered that the
        poly bottle tubing was not connected to the drain lines for two sand bed bays.
        (Section 3.4)
        (4) Exelon identified four blisters on the epoxy coating in one sand bed bay.
        Exelon's evaluation to determine the cause of the blisters was still in-progress at
        the time this inspection was completed. In addition, a video recording from 2006
        appeared to indicate that one of the blisters existed at that time, but was not
        identified during Exelon's 2006 visual inspection. (Section 3.9)
The inspectors will review these issues in a future inspection to determine whether the
individual issues are acceptable or constitute a CLB performance deficiency. The
inspectors' assessment will, in part, determine whether these items are consistent with
design specifications and requirements, the conduct of operations, and whether
appropriate administrative controls were utilized. (URI 05000219/2008007-01: Drywell
Sand Bed Water Intrusion, Drain Monitoring, and Coating Deficiency)


                                                4
3.  Detailed Review of License Renewal Activities
Location:  Forked River, New Jersey
 
Dates:  October 27 to November 7, 2008  (on-site inspection activities)
  November 13, 15, and 17, 2008  (on-site inspection activities)
  November 10 to December 23, 2008  (in-office review)
 
Inspectors:  J. Richmond, Lead
  M. Modes, Senior Reactor Engineer
  G. Meyer, Senior Reactor Engineer
  T. O'Hara, Reactor Inspector
  J. Heinly, Reactor Engineer
  J. Kulp, Resident Inspector, Oyster Creek
 
Approved by:  Richard J. Conte, Chief
  Engineering Branch 1 Division of Reactor Safety
Region I 
 
ii    TABLE OF CONTENTS
SUMMARY OF FINDINGS
.........................................................................................................
iii 4. OTHER ACTIVITIES (OA)...................................................................................................1 4OA5 License Renewal Follow-up  (IP 71003)....................................................................1 1. Inspection Overview.....................................................................................................1 1.1 Purpose of Inspection............................................................................................1
1.2 Sample Selection Process.....................................................................................1 2. Assessment of Current Licensing Basis Performance Issues.......................................2 2.1 ASME, Section XI, Subsection IWE Program........................................................2
2.2 Issues for Follow-up..............................................................................................2 3. Detailed Review of License Renewal Activities.............................................................
4 3.1 Reactor Refuel Cavity Liner Strippable Coating.....................................................4 3.2 Reactor Refuel Cavity Seal Leakage Monitoring...................................................
4 3.3 Reactor Cavity Trough Drain Inspection for Blockage...........................................5
3.4 Drywell Sand Bed Region Drain Monitoring...........................................................5 3.5 Reactor Cavity Seal Leakage Action Plan for 1R22...............................................
6 3.6 Moisture Barrier Seal Inspection (inside drywell)...................................................8
3.7 Moisture Barrier Seal Inspection (inside
sand bed bays).......................................8 3.8 Drywell Shell Internal Coatings Inspection (inside drywell)....................................9
3.9 Drywell Shell External Coatings Inspection (insi
de sand bed bays).....................10 3.10 Drywell Floor Trench Inspections........................................................................12
3.11 Drywell Shell Thickness Measurements..............................................................13
3.12 One Time Inspection Program.............................................................................15
3.13 "B" Isolation Condenser Shell Inspection.............................................................15 3.14 Periodic Inspections............................................................................................16
3.15 Circulating Water Intake Tunnel & Expansion Join
t Inspection............................16 3.16 Buried Emergency Service Water Pipe Replacement..........................................17
3.17 Electrical Cable Inspection inside Drywell............................................................17
3.18 Inaccessible Medium Voltage Cable Test............................................................18 3.19 Fatigue Monitoring Program................................................................................18 4. Proposed Conditions of License.................................................................................19 5. Commitment Management Program...........................................................................
19 4OA6 Meetings, Including Exit Meeting.............................................................................20 SUPPLEMENTAL INFORMATION...........................................................................................21 
iii    SUMMARY OF FINDINGS
IR 05000219/2008007; 10/27/2008 - 12/23/2008; Exelon, LLC, Oyster Creek
Generating Station; License Renewal Follow-up.
 
The report covers a multi-week inspection of license renewal follow-up items.  The inspection
was conducted by five region based engineering inspectors and with assistance from the
Oyster Creek resident inspector.  The inspection was conducted using Inspection Procedure
(IP) 71003 "Post-Approval Site Inspection for License Renewal."  In accordance with the NRC's
memorandum of understanding with the State of New Jersey, state engineers from the
Department of Environmental Protection, Bureau of Nuclear Engineering, observed portions of
the NRC inspection activities. 
 
A. NRC-Identified and Self-Revealing Findings
 
No findings of significance were identified.
 
B. Licensee-Identified Violations
 
None.
 
  REPORT DETAILS
  Summary of Plant Status
 
The Oyster Creek Generating Station was in a scheduled refueling outage during the on-site
portions of this inspection.
 
At the time of the inspection, AmerGen Energy Company, LLC was the licensee for Oyster
Creek Generating Station.  As of January 8, 2009, the Oyster Creek license was transferred to
Exelon Generating Company, LLC by license amendment No. 271 (ML083640373).
 
4. OTHER ACTIVITIES (OA)
4OA5 License Renewal Follow-up  (IP 71003)
1. Inspection Overview
 
1.1 Purpose of Inspection
  The NRC conducted this inspection using the guidance of Inspection Procedure (IP) 71003 "Post-Approval Site Inspection for License Renewal."  The license renewal
application was the subject of a hearing and the Atomic Safety and Licensing Board
decision is being appealed to the Commission.  Although IP 71003 is designated as a
"post-approval" inspection procedure, the NRC conducted this inspection as a prudent
measure absent a final NRC decision on license renewal.  This inspection observed Oyster Creek license renewal activities during the last refueling outage prior to entering
the period of extended operation.
Inspection observations were made of license renewal commitments and license
conditions selected from NUREG-1875, "Safety Evaluation Report (SER) Related to the
License Renewal of Oyster Creek Generating Station" (ML071290023 & ML071310246). 
The inspection included observations of a number of license renewal commitments
which were enhancements to exiting programs implemented under the current license. 
When the performance of an existing program was evaluated by the inspectors, the
basis for the evaluation was the current licensing basis (CLB), and the license renewal
enhancements were not considered in the evaluation.
For license renewal activities, within the context of 10 CFR 54, the report only
documents inspector observations, because the proposed license conditions and
associated regulatory commitments were not in effect at the time of this inspection. 
These proposed conditions and commitments were not in effect because the application
for a renewed license remains under Commission review for final decision, and a
renewed license has not been approved for Oyster Creek.  Thus they are referred to in
this report as "proposed" conditions and commitments.
1.2 Sample Selection Process
  The SER proposed commitments and proposed license conditions were selected based
on the risk significance using insights gained from sources such as the NRC's
2  "Significance Determination Process Risk Informed Inspection Notebooks," the results of previous license renewal audits, and inspections of aging management programs. 
The inspectors also reviewed selected corrective actions taken as a result of previous
license renewal inspections.
2. Assessment of Current Licensing Basis Performance Issues
 
2.1 ASME, Section XI, Subsection IWE Program
  Monitoring of the condition of the primary containment drywell is accomplished through
Exelon's ASME Section XI, Subsection IWE monitoring program.  The inspectors
determined Exelon provided an adequate basis to provide assurance that the drywell
primary containment will remain operable throughout the period to the next scheduled
examination (2012 refueling outage).  This determination was based on the inspectors'
evaluation of the drywell shell ultrasonic test (UT) thickness measurements (Sections
3.10 & 3.11), direct observation of drywell shell conditions both inside the drywell
(Sections 3.6, 3.8, & 3.11), including the floor trenches (Section 3.10), and outside the
drywell in the sand bed regions (Sections 3.7 & 3.9), condition and integrity of the
drywell shell epoxy coating (Section 3.9), and condition of the drywell shell moisture
barrier seals (Sections 3.6 & 3.7).  On a sampling basis, the inspectors observed that
the enhancements made as a result of license renewal activities were integrated into the
existing program for the drywell structural integrity.
The drywell shell epoxy coating and the moisture barrier seal, both in the sand bed
region, are barriers used to protect the drywell from corrosion.  The problems identified
with these barriers (discussed in Sections 3.7 & 3.9) were corrected and had a minimal
impact on the drywell steel shell.  The drywell shell corrosion rate remains very small, as
confirmed by the inspectors' review of Exelon's technical evaluations of the 2008 UT
data.  The inspectors determined Exelon provided an adequate basis to conclude the
likelihood of additional blisters or moisture barrier seal issues will not impact the
containment safety function during the period before the next scheduled examination
(2012 refueling outage).  This is based on the inspectors' direct observations of four
coating blisters and a number of moisture barrier seal issues, review of Exelon's repairs,
and direct observation of the general conditions of the drywell shell, both inside the
drywell and outside the drywell, in the sand bed regions, as well as the overall condition
and integrity of the drywell shell epoxy coating.
2.2 Issues for Follow-up
 
Introduction
  The inspectors and Exelon identified a number of issues during the inspection with
potential implications on the current licensing basis (CLB).  More information is required
in order to determine whether these issues are acceptable or are CLB performance
deficiencies.
3  Description
  As noted in the detailed observations of this report, a number of issues were observed
which Exelon placed into its corrective action program.  The specific issues for further
review include:
(1)  Exelon applied a strippable coating to the refuel cavity liner to prevent water
intrusion into the gap between the drywell steel shell and the concrete shield
wall.  The strippable coating unexpectedly de-laminated, resulting in increased
refuel cavity seal leakage.  As a result, water entered the gap and subsequently
flowed down the outside of the shell and into four sand bed bays.  In addition,
Exelon had established an administrative limit for cavity seal leakage that was
higher than the actual leakage rate at which water intrusion into the gap
occurred.  (Sections 3.1 & 3.5)
(2)  While the reactor cavity was being filled, Exelon frequently monitored the
cavity seal leakage by observing flow in the cavity trough drain line.   
Subsequently, Exelon determined that the trough drain line had been left isolated
during a previous maintenance activity.  As a result, cavity seal leakage had not
been monitored as intended.  (Section 3.2)
(3)  During the refueling outage, Exelon monitored for water leakage from the
sand bed bay drains by checking poly bottles connected via tygon tubing and
funnels to the sand bed drain lines.  Exelon subsequently discovered that the
poly bottle tubing was not connected to the drain lines for two sand bed bays. 
(Section 3.4)
(4)  Exelon identified four blisters on the epoxy coating in one sand bed bay. 
Exelon's evaluation to determine the cause of the blisters was still in-progress at
the time this inspection was completed.  In addition, a video recording from 2006
appeared to indicate that one of the blisters existed at that time, but was not
identified during Exelon's 2006 visual inspection.  (Section 3.9)
The inspectors will review these issues in a future inspection to determine whether the
individual issues are acceptable or constitute a CLB performance deficiency.  The
inspectors' assessment will, in part, determine whether these items are consistent with
design specifications and requirements, the conduct of operations, and whether appropriate administrative controls were utilized.  (URI 05000219/2008007-01:  Drywell Sand Bed Water Intrusion, Drain Monitoring, and Coating Deficiency)
4  3. Detailed Review of License Renewal Activities
 
3.1 Reactor Refuel Cavity Liner Strippable Coating
3.1 Reactor Refuel Cavity Liner Strippable Coating
 
a. Scope of Inspection
  a. Scope of Inspection
     Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement
     Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement  
    (2), stated, in part:
(2), stated, in part:  
            A strippable coating will be applied to the reactor cavity liner to
A strippable coating will be applied to the reactor cavity liner to  
            prevent water intrusion into the gap between the drywell shield
prevent water intrusion into the gap between the drywell shield  
            wall and the drywell shell during periods when the reactor cavity is
wall and the drywell shell during periods when the reactor cavity is  
            flooded. Prior to filling the reactor cavity with water.
flooded. Prior to filling the reactor cavity with water.  
    The inspectors reviewed work order (WO) R2098682-06, "Coating Application to Cavity
The inspectors reviewed work order (WO) R2098682-06, "Coating Application to Cavity  
    Walls and Floors."
Walls and Floors."   
  b. Observations
  b. Observations
    The strippable coating is applied to the reactor cavity liner before the cavity is filled with
  The strippable coating is applied to the reactor cavity liner before the cavity is filled with  
    water to minimize the likelihood of cavity seal leakage into the cavity concrete trough.
water to minimize the likelihood of cavity seal leakage into the cavity concrete trough.
    This action is taken to prevent water intrusion into the gap (Figure A-3) between the
This action is taken to prevent water intrusion into the gap (Figure A-3) between the  
    drywell steel shell and the concrete shield wall. (see Figure A-1 for general
drywell steel shell and the concrete shield wall. (see Figure A-1 for general  
    arrangement)
arrangement)  
    From Oct. 29 to Nov. 6, the cavity liner strippable coating limited cavity seal leakage into
From Oct. 29 to Nov. 6, the cavity liner strippable coating limited cavity seal leakage into  
    the cavity trough drain to less than 1 gallon per minute (gpm). On Nov. 6, in one
the cavity trough drain to less than 1 gallon per minute (gpm). On Nov. 6, in one  
    localized area of the refuel cavity, the liner strippable coating started to de-laminate.
localized area of the refuel cavity, the liner strippable coating started to de-laminate.
    Water puddles were subsequently identified in sand bed bays 11, 13, 15, and 17 (see
Water puddles were subsequently identified in sand bed bays 11, 13, 15, and 17 (see  
    Section 3.5 below for additional details). This issue was entered into the corrective
Section 3.5 below for additional details). This issue was entered into the corrective  
    action program as Issue Report (IR) 841543. In addition, this item was included in a
action program as Issue Report (IR) 841543. In addition, this item was included in a  
    common cause evaluation as part of IR 845297. Exelon's initial evaluations identified
common cause evaluation as part of IR 845297. Exelon's initial evaluations identified  
    several likely or contributing causes, including:
several likely or contributing causes, including:  
            * A portable submerged water filtration unit was improperly placed in the reactor
* A portable submerged water filtration unit was improperly placed in the reactor cavity, which resulted in flow discharged directly on the strippable coating.  
              cavity, which resulted in flow discharged directly on the strippable coating.
* A small oil spill into the cavity may have affected the coating integrity.  
            * A small oil spill into the cavity may have affected the coating integrity.
* No post installation inspection of the coating had been performed.  
            * No post installation inspection of the coating had been performed.
3.2 Reactor Refuel Cavity Seal Leakage Monitoring
3.2 Reactor Refuel Cavity Seal Leakage Monitoring
 
a. Scope of Inspection
  a. Scope of Inspection
     Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement
     Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement  
    (3), stated, in part:
(3), stated, in part:  
            The reactor cavity seal leakage trough drains and the drywell
The reactor cavity seal leakage trough drains and the drywell  
            sand bed region drains will be monitored for leakage, periodically.
sand bed region drains will be monitored for leakage, periodically.  
 
5 The inspectors directly observed Exelon's cavity seal leakage monitoring activities, performed under WO R2095857. The inspectors independently checked the cavity  
                                              5
trough drain flow immediately after the reactor cavity was filled, and several times  
    The inspectors directly observed Exelon's cavity seal leakage monitoring activities,
throughout the outage. The inspectors also reviewed the written monitoring logs.  
    performed under WO R2095857. The inspectors independently checked the cavity
   
    trough drain flow immediately after the reactor cavity was filled, and several times
  b. Observations
    throughout the outage. The inspectors also reviewed the written monitoring logs.
  Exelon monitored reactor refuel cavity seal leakage by checking and recording the flow  
  b. Observations
in a two inch drain line from the cavity concrete trough to a plant radwaste system drain  
    Exelon monitored reactor refuel cavity seal leakage by checking and recording the flow
funnel which, in turn, drained to the reactor building equipment drain tank. (See Figures  
    in a two inch drain line from the cavity concrete trough to a plant radwaste system drain
A-1 thru A-3)  
    funnel which, in turn, drained to the reactor building equipment drain tank. (See Figures
On Oct. 27, Exelon isolated the cavity trough drain line to install a tygon hose to allow  
    A-1 thru A-3)
drain flow to be monitored. On Oct. 28, the reactor cavity was filled. Drain line flow was  
    On Oct. 27, Exelon isolated the cavity trough drain line to install a tygon hose to allow
monitored frequently during cavity flood-up, and daily thereafter. On Oct. 29, a  
    drain flow to be monitored. On Oct. 28, the reactor cavity was filled. Drain line flow was
boroscope examination of the drain line identified that the isolation valve had been left  
    monitored frequently during cavity flood-up, and daily thereafter. On Oct. 29, a
closed. When the drain line isolation valve was opened, about 3 gallons of water  
    boroscope examination of the drain line identified that the isolation valve had been left
drained out. The drain flow then subsided to about a 1/8-inch stream (less than 1 gpm).
    closed. When the drain line isolation valve was opened, about 3 gallons of water
This issue was entered into the corrective action program as IR 837647.  
    drained out. The drain flow then subsided to about a 1/8-inch stream (less than 1 gpm).
    This issue was entered into the corrective action program as IR 837647.
3.3 Reactor Cavity Trough Drain Inspection for Blockage
3.3 Reactor Cavity Trough Drain Inspection for Blockage
 
a. Scope of Inspection
  a. Scope of Inspection
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement
  Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement  
    (13), stated, in part:
(13), stated, in part:  
            The reactor cavity concrete trough drain will be verified to be clear
The reactor cavity concrete trough drain will be verified to be clear  
            from blockage once per refueling cycle. Any identified issues will
from blockage once per refueling cycle. Any identified issues will  
            be addressed via the corrective action process.
be addressed via the corrective action process.  
    The inspectors reviewed a video recording of a boroscope inspection of the cavity
The inspectors reviewed a video recording of a boroscope inspection of the cavity  
    trough drain line, performed under WO R2102695.
trough drain line, performed under WO R2102695.  
  b. Observations
   
    See observations in Section 3.2 above.
  b. Observations
3.4 Drywell Sand Bed Region Drain Monitoring
 
a. Scope of Inspection
See observations in Section 3.2 above.  
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement
    (3), stated, in part:
            The sand bed region drains will be monitored daily during
            refueling outages.
    The inspectors directly observed Exelon's activities to monitor sand bed drains,


                                              6
3.4 Drywell Sand Bed Region Drain Monitoring
     performed under WO R2095857. The inspectors independently checked drain line poly
 
    bottles and accompanied Exelon personnel during routine daily checks. The inspectors
  a.  Scope of Inspection
    also reviewed the written monitoring logs.
     Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement
  b. Observations
(3), stated, in part:
    There is one sand bed drain line for every two sand bed bays (i.e., total of five drains for
The sand bed region drains will be monitored daily during
    10 bays). Exelon remotely monitored the sand bed drains by checking for the existence
refueling outages.
    of water in poly bottles attached via tygon tubing (approximately 50 foot long) to a funnel
The inspectors directly observed Exelon's activities to monitor sand bed drains,
    hung below each drain line. The sand bed drains, funnels, and a majority of the tygon
performed under WO R2095857. The inspectors independently checked drain line poly bottles and accompanied Exelon personnel during routine daily checks. The inspectors  
    tubing were not directly observable from the outer area of the torus room, where the
also reviewed the written monitoring logs.  
    poly bottles were located. (see Figures A-1, A-4, & A-5)
   
    On Nov. 10, Exelon found two of the five tygon tubes disconnected from their funnels
  b. Observations
    and laying on the floor (bays 3 and 7). Exelon personnel could not determine when the
  There is one sand bed drain line for every two sand bed bays (i.e., total of five drains for  
    tubing was last verified to be connected to the funnel. The inspectors directly observed
10 bays). Exelon remotely monitored the sand bed drains by checking for the existence  
    that the torus room floor had standing water for most of the outage, due to other
of water in poly bottles attached via tygon tubing (approximately 50 foot long) to a funnel  
    identified system leaks. The inspectors noted that the standing water would have
hung below each drain line. The sand bed drains, funnels, and a majority of the tygon  
    prevented Exelon personnel from determining whether any water had drained directly
tubing were not directly observable from the outer area of the torus room, where the  
    onto the floor from a sand bed drain during the time period that the tygon tubing was
poly bottles were located. (see Figures A-1, A-4, & A-5)  
    disconnected. The inspectors also noted that bays 3 and 7 remained dry throughout the
On Nov. 10, Exelon found two of the five tygon tubes disconnected from their funnels  
    outage, with no identified water intrusion (see observations in Section 3.5). Both tubes
and laying on the floor (bays 3 and 7). Exelon personnel could not determine when the  
    were subsequently reconnected. This issue was entered into the corrective action
tubing was last verified to be connected to the funnel. The inspectors directly observed  
    program as IR 843209.
that the torus room floor had standing water for most of the outage, due to other  
    On Nov. 15, during a daily check of the sand bed bay 11 drain poly bottle, Exelon found
identified system leaks. The inspectors noted that the standing water would have  
    the poly bottle nearly full. Chemistry collected about 4.3 gallons out of the poly bottle
prevented Exelon personnel from determining whether any water had drained directly  
    and tubing. The inspectors noted that Exelon had found the poly bottle empty during
onto the floor from a sand bed drain during the time period that the tygon tubing was  
    each check throughout the outage until Nov. 15, and had only noted water in the poly
disconnected. The inspectors also noted that bays 3 and 7 remained dry throughout the  
    bottle three days after the reactor refuel cavity had been drained. In addition, the
outage, with no identified water intrusion (see observations in Section 3.5). Both tubes  
    inspectors noted that the poly bottle had a capacity of about 5 gallons and the funnel
were subsequently reconnected. This issue was entered into the corrective action  
    had a capacity of about 6 gallons, which suggested that the funnel had not overflowed.
program as IR 843209.  
    Finally, the inspectors noted that Exelon entered bay 11 within a few hours of identifying
On Nov. 15, during a daily check of the sand bed bay 11 drain poly bottle, Exelon found  
    the water, visually inspected the bay, and found it dry. Exelon sampled the water, but
the poly bottle nearly full. Chemistry collected about 4.3 gallons out of the poly bottle  
    could not positively determine the source based on radiolytic or chemical analysis. This
and tubing. The inspectors noted that Exelon had found the poly bottle empty during  
    issue was entered into the corrective action program as part of the common cause
each check throughout the outage until Nov. 15, and had only noted water in the poly  
    evaluation IR 845297.
bottle three days after the reactor refuel cavity had been drained. In addition, the  
inspectors noted that the poly bottle had a capacity of about 5 gallons and the funnel  
had a capacity of about 6 gallons, which suggested that the funnel had not overflowed.
Finally, the inspectors noted that Exelon entered bay 11 within a few hours of identifying  
the water, visually inspected the bay, and found it dry. Exelon sampled the water, but  
could not positively determine the source based on radiolytic or chemical analysis. This  
issue was entered into the corrective action program as part of the common cause  
evaluation IR 845297.  
3.5 Reactor Cavity Seal Leakage Action Plan for 1R22
3.5 Reactor Cavity Seal Leakage Action Plan for 1R22
 
a. Scope of Inspection
  a. Scope of Inspection
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement
  Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement  
    (3), stated, in part:
(3), stated, in part:  
            If leakage is detected [out of a sand bed drain], procedures will be
If leakage is detected [out of a sand bed drain], procedures will be  
            in place to determine the source of leakage and investigate and
in place to determine the source of leakage and investigate and  
            address the impact of leakage on the drywell shell.
address the impact of leakage on the drywell shell.  
 
7 The inspectors reviewed Exelon's cavity seal leakage action plan.  
                                              7
  The inspectors reviewed Exelon's cavity seal leakage action plan.
  b. Observations
b. Observations
  For the reactor cavity seal leakage, Exelon established an administrative limit of 12 gpm  
  For the reactor cavity seal leakage, Exelon established an administrative limit of 12 gpm
flow in the cavity trough drain, based on a calculation which indicated that cavity trough  
  flow in the cavity trough drain, based on a calculation which indicated that cavity trough
drain flow of less than 60 gpm would not result in trough overflow into the gap between  
  drain flow of less than 60 gpm would not result in trough overflow into the gap between
the drywell concrete shield wall and the drywell steel shell. (see Figures A-1 thru A-5)  
  the drywell concrete shield wall and the drywell steel shell. (see Figures A-1 thru A-5)
The inspectors noted that Exelon's action plan, in part, directed the following actions to  
  The inspectors noted that Exelon's action plan, in part, directed the following actions to
be taken:  
  be taken:
* If the cavity trough drain flow exceeded 5 gpm, then increase monitoring of the cavity drain flow from daily to every 8 hours.  
            * If the cavity trough drain flow exceeded 5 gpm, then increase monitoring of the
* If the cavity trough drain flow exceeded 12 gpm, then increase monitoring of the sand bed poly bottles from daily to every 4 hours.  
              cavity drain flow from daily to every 8 hours.
* If the cavity trough drain flow exceeded 12 gpm and any water is found in a sand bed poly bottle, then enter and inspect the sand bed bays.  
            * If the cavity trough drain flow exceeded 12 gpm, then increase monitoring of
On Nov. 6, the reactor cavity liner strippable coating started to de-laminate (see Section  
              the sand bed poly bottles from daily to every 4 hours.
3.1 above). The cavity trough drain flow took a step change from less than 1 gpm to  
            * If the cavity trough drain flow exceeded 12 gpm and any water is found in a
approximately 4 to 6 gpm. Exelon increased monitoring of the trough drain to every 2  
              sand bed poly bottle, then enter and inspect the sand bed bays.
hours and monitoring of the sand bed poly bottles to every 4 hours. The cavity trough  
  On Nov. 6, the reactor cavity liner strippable coating started to de-laminate (see Section
drain flow remained at about 4 to 6 gpm until the cavity was drained on Nov. 12, when  
  3.1 above). The cavity trough drain flow took a step change from less than 1 gpm to
the drain flow subsided to zero.  
  approximately 4 to 6 gpm. Exelon increased monitoring of the trough drain to every 2
On Nov. 8, personnel working in sand bed bay 11 identified dripping water. Water  
  hours and monitoring of the sand bed poly bottles to every 4 hours. The cavity trough
puddles were subsequently identified in sand bed bays 11, 13, 15, and 17. These  
  drain flow remained at about 4 to 6 gpm until the cavity was drained on Nov. 12, when
issues were entered into the corrective action program as IR 842333. In addition, these  
  the drain flow subsided to zero.
items were included in a common cause evaluation as part of IR 845297.  
  On Nov. 8, personnel working in sand bed bay 11 identified dripping water. Water
On Nov. 12, the cavity was drained. All sand bed bays were dried and inspected by  
  puddles were subsequently identified in sand bed bays 11, 13, 15, and 17. These
Exelon for any water or moisture damage; no issues were identified. Exelon stated  
  issues were entered into the corrective action program as IR 842333. In addition, these
follow-up ultrasonic test (UT) examinations will be performed during the next refuel  
  items were included in a common cause evaluation as part of IR 845297.
outage to evaluate the upper drywell shell for corrosion as a result of the water intrusion  
  On Nov. 12, the cavity was drained. All sand bed bays were dried and inspected by
into the sand bed bays.  
  Exelon for any water or moisture damage; no issues were identified. Exelon stated
On Nov. 15, water was found in sand bed bay 11 poly bottle (see Section 3.4 above).  
  follow-up ultrasonic test (UT) examinations will be performed during the next refuel
The inspectors observed that Exelon's action plan was inconsistent with the actions  
  outage to evaluate the upper drywell shell for corrosion as a result of the water intrusion
taken in response to increased cavity seal leakage. The inspectors observed that the  
  into the sand bed bays.
actual actions taken were in response to visual indication that the strippable coating was  
  On Nov. 15, water was found in sand bed bay 11 poly bottle (see Section 3.4 above).
de-laminating, and later, in response to visual indication of water intrusion into a sand  
  The inspectors observed that Exelons action plan was inconsistent with the actions
bed bay. The inspectors noted that the action plan, as written, did not direct a sand bed  
  taken in response to increased cavity seal leakage. The inspectors observed that the
entry or sand bed internal inspection, because the cavity trough drain flow never  
  actual actions taken were in response to visual indication that the strippable coating was
exceeded 12 gpm. The inspectors also noted that, if the sand bed bays had been  
  de-laminating, and later, in response to visual indication of water intrusion into a sand
closed out by Nov. 2, as originally scheduled (before a coating problem was identified,  
  bed bay. The inspectors noted that the action plan, as written, did not direct a sand bed
see Section 3.9), then Exelon personnel would not have been inside of bay 11 on Nov.  
  entry or sand bed internal inspection, because the cavity trough drain flow never
8, and therefore, would not have visually identified the water intrusion into bay 11.  
  exceeded 12 gpm. The inspectors also noted that, if the sand bed bays had been
8 The inspectors also noted that water had entered the gap between the drywell shield wall and the drywell shell at a much lower value of cavity seal leakage than Exelon had  
  closed out by Nov. 2, as originally scheduled (before a coating problem was identified,
calculated and, as a result, water intrusion into the sand bed region occurred at a value  
  see Section 3.9), then Exelon personnel would not have been inside of bay 11 on Nov.
below the threshold established in the action plan.  
  8, and therefore, would not have visually identified the water intrusion into bay 11.
 
                                              8
    The inspectors also noted that water had entered the gap between the drywell shield
    wall and the drywell shell at a much lower value of cavity seal leakage than Exelon had
    calculated and, as a result, water intrusion into the sand bed region occurred at a value
    below the threshold established in the action plan.
3.6 Moisture Barrier Seal Inspection (inside drywell)
3.6 Moisture Barrier Seal Inspection (inside drywell)
 
a. Scope of Inspection
  a. Scope of Inspection
     Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement
     Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement  
    (17), stated, in part:
(17), stated, in part:  
            Perform visual inspection of the moisture barrier seal between the
Perform visual inspection of the moisture barrier seal between the  
            drywell shell and the concrete floor curb, installed inside the
drywell shell and the concrete floor curb, installed inside the  
            drywell during the October 2006 refueling outage.
drywell during the October 2006 refueling outage.  
    The inspectors reviewed structural inspection reports 187-001 and 187-002, performed
The inspectors reviewed structural inspection reports 187-001 and 187-002, performed  
    under WO R2097321-01 on Nov. 1 and Oct. 29, respectively. The reports documented
under WO R2097321-01 on Nov. 1 and Oct. 29, respectively. The reports documented  
    visual inspections of the perimeter seal between the concrete floor curb and the drywell
visual inspections of the perimeter seal between the concrete floor curb and the drywell  
    steel shell, at the 10-foot elevation. In addition, the inspectors reviewed selected
steel shell, at the 10-foot elevation. In addition, the inspectors reviewed selected  
    photographs taken during the inspection, and directly observed portions of the moisture
photographs taken during the inspection, and directly observed portions of the moisture  
    barrier seal.
barrier seal.  
  b. Observations
   
    The inspectors performed a general visual observation of the moisture barrier seal
  b. Observations
    inside the drywell on multiple occasions during the outage. For the areas directly
  The inspectors performed a general visual observation of the moisture barrier seal  
    observed, the inspectors did not identify any significant problems or concerns.
inside the drywell on multiple occasions during the outage. For the areas directly  
observed, the inspectors did not identify any significant problems or concerns.  
3.7 Moisture Barrier Seal Inspection (inside sand bed bays)
3.7 Moisture Barrier Seal Inspection (inside sand bed bays)
 
a. Scope of Inspection
  a. Scope of Inspection
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements
  Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements  
    (12 & 21), stated, in part:
(12 & 21), stated, in part:  
            Inspect the [moisture barrier] seal at the junction between the
Inspect the [moisture barrier] seal at the junction between the  
            sand bed region concrete [sand bed floor] and the embedded
sand bed region concrete [sand bed floor] and the embedded  
            drywell shell. During the 2008 refueling outage and every other
drywell shell. During the 2008 refueling outage and every other  
            refueling outage thereafter.
refueling outage thereafter.  
    The inspectors directly observed portions of Exelon's activities to perform a 100% visual
The inspectors directly observed portions of Exelon's activities to perform a 100% visual  
    test (VT) inspection of the seal in the sand bed region (total of 10 bays). The inspectors
test (VT) inspection of the seal in the sand bed region (total of 10 bays). The inspectors  
    performed independent field walkdowns to determine the as-found conditions in portions
performed independent field walkdowns to determine the as-found conditions in portions  
    of 6 sand bed bays, and as-left conditions in 4 sand bed bays. The inspectors made
of 6 sand bed bays, and as-left conditions in 4 sand bed bays. The inspectors made  
    general visual observations inside the sand bed bays to independently identify flaking,
general visual observations inside the sand bed bays to independently identify flaking,  
    peeling, blistering, cracking, de-lamination, discoloration, corrosion, or mechanical
peeling, blistering, cracking, de-lamination, discoloration, corrosion, or mechanical  
    damage.
damage.  
 
9 The inspectors reviewed VT inspection records for each sand bed bay, and compared their direct observations to the recorded VT inspection results. The inspectors reviewed  
                                              9
Exelon VT inspection procedures, interviewed non-destructive examination (NDE)  
    The inspectors reviewed VT inspection records for each sand bed bay, and compared
supervisors and technicians, and directly observed field collection, recording, and  
    their direct observations to the recorded VT inspection results. The inspectors reviewed
reporting of VT inspection data. The inspectors also reviewed a sample of NDE  
    Exelon VT inspection procedures, interviewed non-destructive examination (NDE)
technician visual testing qualifications.  
    supervisors and technicians, and directly observed field collection, recording, and
The inspectors reviewed Exelon's activities to evaluate and repair the moisture barrier  
    reporting of VT inspection data. The inspectors also reviewed a sample of NDE
seal in sand bed bay 3.  
    technician visual testing qualifications.
   
    The inspectors reviewed Exelon's activities to evaluate and repair the moisture barrier
  b. Observations
    seal in sand bed bay 3.
  The purpose of the moisture barrier seal is to prevent water from entering a gap below  
  b. Observations
the concrete floor in the sand bed region. The inspectors observed that NDE visual  
    The purpose of the moisture barrier seal is to prevent water from entering a gap below
inspection activities were conducted in accordance with approved procedures. The  
    the concrete floor in the sand bed region. The inspectors observed that NDE visual
inspectors noted that Exelon completed the inspections, identified condition(s) in the  
    inspection activities were conducted in accordance with approved procedures. The
moisture barrier seal which required repair, completed the seal repairs in accordance  
    inspectors noted that Exelon completed the inspections, identified condition(s) in the
with engineering procedures, and conducted appropriate re-inspection of repaired  
    moisture barrier seal which required repair, completed the seal repairs in accordance
areas. The VT inspections identified moisture barrier seal problems in 7 of the 10 sand bed  
    with engineering procedures, and conducted appropriate re-inspection of repaired
bays, including small surface cracks and partial separation of the seal from the steel  
    areas.
shell or concrete floor. Exelon determined the as-found moisture barrier function was  
    The VT inspections identified moisture barrier seal problems in 7 of the 10 sand bed
not impaired, because no cracks or separation fully penetrated the seal. All identified  
    bays, including small surface cracks and partial separation of the seal from the steel
problems were entered into the corrective action program and subsequently repaired  
    shell or concrete floor. Exelon determined the as-found moisture barrier function was
(IRs are listed in the Attachment). In addition, these items were included in a common  
    not impaired, because no cracks or separation fully penetrated the seal. All identified
cause evaluation as part of IR 845297.  
    problems were entered into the corrective action program and subsequently repaired
The VT inspection for sand bed bay 3 identified a seal crack and surface rust stains  
    (IRs are listed in the Attachment). In addition, these items were included in a common
below the crack. When the seal was excavated, some drywell shell surface corrosion  
    cause evaluation as part of IR 845297.
was identified. Exelon's laboratory analysis of removed seal material determined the  
    The VT inspection for sand bed bay 3 identified a seal crack and surface rust stains
epoxy seal material had not adequately cured, and concluded it was an original 1992  
    below the crack. When the seal was excavated, some drywell shell surface corrosion
installation issue. The seal crack and drywell shell surface were repaired. This issue  
    was identified. Exelon's laboratory analysis of removed seal material determined the
was entered into the corrective action program as IRs 839194, 841957, and 844288.  
    epoxy seal material had not adequately cured, and concluded it was an original 1992
The inspectors compared the 2008 VT results to the 2006 results and noted that, in  
    installation issue. The seal crack and drywell shell surface were repaired. This issue
2006, no moisture barrier seal problems were identified in any sand bed bay.  
    was entered into the corrective action program as IRs 839194, 841957, and 844288.
    The inspectors compared the 2008 VT results to the 2006 results and noted that, in
    2006, no moisture barrier seal problems were identified in any sand bed bay.
3.8 Drywell Shell Internal Coatings Inspection (inside drywell)
3.8 Drywell Shell Internal Coatings Inspection (inside drywell)
 
a. Scope of Inspection
  a. Scope of Inspection
     Proposed SER Appendix-A Item 33, Protective Coating Monitoring and Maintenance
     Proposed SER Appendix-A Item 33, Protective Coating Monitoring and Maintenance  
    Program, stated, in part:
Program, stated, in part:  
            The program provides for aging management of Service Level I
The program provides for aging management of Service Level I  
            coatings inside the primary containment.
coatings inside the primary containment.  
    The inspectors reviewed a vendor memorandum which summarized the vendor
The inspectors reviewed a vendor memorandum which summarized the vendor  
 
10 inspection findings for a coating inspection of the as-found condition of the ASME Service Level I coating of the drywell shell inner surface. The final detailed report, with  
                                              10
specific elevation notes and photographs, was not available during the on-site portion of  
    inspection findings for a coating inspection of the as-found condition of the ASME
this inspection. The inspectors reviewed selected photographs taken during the coating  
    Service Level I coating of the drywell shell inner surface. The final detailed report, with
inspection and the initial assessment and disposition of identified coating deficiencies.
    specific elevation notes and photographs, was not available during the on-site portion of
The inspectors also interviewed the vendor coating inspector. The coating inspection  
    this inspection. The inspectors reviewed selected photographs taken during the coating
was conducted on Oct. 30, by a qualified ANSI Level III coating inspector.  
    inspection and the initial assessment and disposition of identified coating deficiencies.
   
    The inspectors also interviewed the vendor coating inspector. The coating inspection
  b. Observations
    was conducted on Oct. 30, by a qualified ANSI Level III coating inspector.
  The inspectors performed a general visual observation of the drywell shell coating on  
  b. Observations
multiple occasions during the outage. The inspectors noted that Exelon's documented  
    The inspectors performed a general visual observation of the drywell shell coating on
inspection results were consistent with the conditions directly observed by the  
    multiple occasions during the outage. The inspectors noted that Exelon's documented
inspectors. The inspectors did not identify any significant problems or concerns with  
    inspection results were consistent with the conditions directly observed by the
Exelon's inspection activities.  
    inspectors. The inspectors did not identify any significant problems or concerns with
    Exelon's inspection activities.
3.9 Drywell Shell External Coatings Inspection (inside sand bed bays)
3.9 Drywell Shell External Coatings Inspection (inside sand bed bays)
 
a. Scope of Inspection
  a. Scope of Inspection
     Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements
     Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements  
    (4 & 21), stated, in part:
(4 & 21), stated, in part:  
            Perform visual inspections of the drywell external shell epoxy
Perform visual inspections of the drywell external shell epoxy  
            coating in all 10 sand bed bays. During the 2008 refueling outage
coating in all 10 sand bed bays. During the 2008 refueling outage  
            and every other refueling outage thereafter.
and every other refueling outage thereafter.  
    The inspectors directly observed portions of Exelon's activities to perform a 100% visual
The inspectors directly observed portions of Exelon's activities to perform a 100% visual  
    inspection of the epoxy coating in the sand bed region (total of 10 bays). The inspectors
inspection of the epoxy coating in the sand bed region (total of 10 bays). The inspectors  
    performed independent field walkdowns to determine the as-found conditions of the
performed independent field walkdowns to determine the as-found conditions of the  
    epoxy coating in portions of 6 sand bed bays, and the as-left conditions in sand bed bay
epoxy coating in portions of 6 sand bed bays, and the as-left conditions in sand bed bay  
    11 after coating repairs. The inspectors made general visual observations inside the
11 after coating repairs. The inspectors made general visual observations inside the  
    sand bed bays to independently identify flaking, peeling, blistering, de-lamination,
sand bed bays to independently identify flaking, peeling, blistering, de-lamination,  
    cracking, discoloration, corrosion, or mechanical damage.
cracking, discoloration, corrosion, or mechanical damage.  
    The inspectors reviewed VT inspection records for each sand bed bay and compared
The inspectors reviewed VT inspection records for each sand bed bay and compared  
    their direct observations to the recorded VT inspection results. The inspectors reviewed
their direct observations to the recorded VT inspection results. The inspectors reviewed  
    Exelon VT inspection procedures, interviewed NDE supervisors and technicians, and
Exelon VT inspection procedures, interviewed NDE supervisors and technicians, and  
    directly observed field collection, recording, and reporting of VT inspection data. The
directly observed field collection, recording, and reporting of VT inspection data. The  
    inspectors also reviewed a sample of NDE technician visual testing qualifications.
inspectors also reviewed a sample of NDE technician visual testing qualifications.  
    The inspectors directly observed Exelon's activities to evaluate and repair the epoxy
The inspectors directly observed Exelon's activities to evaluate and repair the epoxy  
    coating in sand bed bay 11. In addition, the inspectors reviewed Technical Evaluation
coating in sand bed bay 11. In addition, the inspectors reviewed Technical Evaluation  
    330592.27.46, "Coating Degradation in Sand Bed bay 11."
330592.27.46, "Coating Degradation in Sand Bed bay 11."   
  b. Observations
  b. Observations
    The inspectors observed that NDE visual inspection activities were conducted in
  The inspectors observed that NDE visual inspection activities were conducted in  
    accordance with approved procedures. The inspectors noted that Exelon completed the
accordance with approved procedures. The inspectors noted that Exelon completed the  
11  inspections, identified condition(s) in the exterior coating which required repair, completed the coating repairs in accordance with engineering procedures, and
conducted appropriate re-inspection of repaired areas.
In sand bed bay 11, the NDE inspection identified one small broken blister, about 1/4
inch in diameter, with a 6-inch surface rust stain, dry to the touch, trailing down from the
blister.  During the initial investigation, three additional smaller surface irregularities
(initially described as surface bumps) were identified within a 1 to 2 square inch area
near the broken blister.  The three additional bumps were subsequently determined to
be unbroken blisters.  This issue was entered into the corrective action program as IRs
838833 and 839053.  In addition, this item was included in a common cause evaluation
as part of IR 845297.  All four blisters were evaluated and repaired.


                                            11
On Nov. 13, the inspectors conducted a general visual observation of the repaired area  
inspections, identified condition(s) in the exterior coating which required repair,
and the general condition of the epoxy coating and moisture barrier seal in bay 11. The  
completed the coating repairs in accordance with engineering procedures, and
inspectors noted that Exelon's inspection data reports were consistent with the  
conducted appropriate re-inspection of repaired areas.
conditions directly observed by the inspectors.  
In sand bed bay 11, the NDE inspection identified one small broken blister, about 1/4
All sand bed bays had been inspected by the same NDE technician. To confirm the  
inch in diameter, with a 6-inch surface rust stain, dry to the touch, trailing down from the
adequacy of the coating inspection, Exelon re-inspected 4 sand bed bays (bays 3, 7, 15,  
blister. During the initial investigation, three additional smaller surface irregularities
and 19) with a different NDE technician. No additional concerns or problems were  
(initially described as surface bumps) were identified within a 1 to 2 square inch area
identified. In Technical Evaluation 330592.27.46, Exelon determined, by laboratory  
near the broken blister. The three additional bumps were subsequently determined to
analysis using energy dispersive X-ray spectroscopy, that the removed blister material  
be unbroken blisters. This issue was entered into the corrective action program as IRs
contained trace amounts of chlorine. Exelon also determined that the presence of  
838833 and 839053. In addition, this item was included in a common cause evaluation
chlorine, in a soluble salt as chloride on the surface of the drywell shell prior to the initial  
as part of IR 845297. All four blisters were evaluated and repaired.
application of the epoxy coating, can result in osmosis of moisture through the epoxy  
On Nov. 13, the inspectors conducted a general visual observation of the repaired area
coating. The analysis also concluded there were no pinholes in the blister samples. In  
and the general condition of the epoxy coating and moisture barrier seal in bay 11. The
addition, the analysis determined approximately 0.003 inches of surface corrosion had  
inspectors noted that Exelon's inspection data reports were consistent with the
occurred directly under the broken blister. Exelon concluded that the corrosion had  
conditions directly observed by the inspectors.
taken place over an approximately 16-year period. In addition, UT dynamic scan  
All sand bed bays had been inspected by the same NDE technician. To confirm the
thickness measurements under the four blisters, from inside the drywell, confirmed the  
adequacy of the coating inspection, Exelon re-inspected 4 sand bed bays (bays 3, 7, 15,
drywell shell had no significant degradation as a result of the corrosion. On Nov. 13, the  
and 19) with a different NDE technician. No additional concerns or problems were
inspectors conducted a general visual observation of the general conditions in bay 5 and  
identified. In Technical Evaluation 330592.27.46, Exelon determined, by laboratory
9. The inspectors observed that Exelon's inspection data reports adequately described  
analysis using energy dispersive X-ray spectroscopy, that the removed blister material
the conditions directly observed by the inspectors.  
contained trace amounts of chlorine. Exelon also determined that the presence of
In follow-up, Exelon reviewed a 2006 video of the sand beds, which had been made as  
chlorine, in a soluble salt as chloride on the surface of the drywell shell prior to the initial
a general aid, not as part of an NDE inspection. The 2006 video showed the same  
application of the epoxy coating, can result in osmosis of moisture through the epoxy
6-inch rust stain in bay 11. The inspectors compared the 2008 VT results to the 2006  
coating. The analysis also concluded there were no pinholes in the blister samples. In
results and noted that in 2006 no coating problems were identified in any sand bed bay.
addition, the analysis determined approximately 0.003 inches of surface corrosion had
This inconsistency, between the results of the 2006 coating inspection and the 2007  
occurred directly under the broken blister. Exelon concluded that the corrosion had
inspection, was entered into the corrective action program as IR 839053.  
taken place over an approximately 16-year period. In addition, UT dynamic scan
During the final closeout of bays 3, 5, and 7, minor chipping in the epoxy coating was  
thickness measurements under the four blisters, from inside the drywell, confirmed the
identified, which Exelon described as incidental mechanical damage from personnel entry for inspection or repair activities. All identified problems were entered into the  
drywell shell had no significant degradation as a result of the corrosion. On Nov. 13, the
corrective action program and subsequently repaired (IRs are listed in the Attachment).  
inspectors conducted a general visual observation of the general conditions in bay 5 and
12 During the final closeout of bay 9, an area approximately 8 inches by 8 inches was identified where the color of the epoxy coating appeared different than the surrounding  
9. The inspectors observed that Exelon's inspection data reports adequately described
area. Because each of the 3 layers of the epoxy coating is a different color, Exelon  
the conditions directly observed by the inspectors.
questioned whether the color difference could have been indicative of an original  
In follow-up, Exelon reviewed a 2006 video of the sand beds, which had been made as
installation deficiency. This issue was entered into the corrective action program as IR  
a general aid, not as part of an NDE inspection. The 2006 video showed the same
844815, and the identified area was re-coated with epoxy.  
6-inch rust stain in bay 11. The inspectors compared the 2008 VT results to the 2006
results and noted that in 2006 no coating problems were identified in any sand bed bay.
This inconsistency, between the results of the 2006 coating inspection and the 2007
inspection, was entered into the corrective action program as IR 839053.
During the final closeout of bays 3, 5, and 7, minor chipping in the epoxy coating was
identified, which Exelon described as incidental mechanical damage from personnel
entry for inspection or repair activities. All identified problems were entered into the
corrective action program and subsequently repaired (IRs are listed in the Attachment).
 
                                              12
    During the final closeout of bay 9, an area approximately 8 inches by 8 inches was
    identified where the color of the epoxy coating appeared different than the surrounding
    area. Because each of the 3 layers of the epoxy coating is a different color, Exelon
    questioned whether the color difference could have been indicative of an original
    installation deficiency. This issue was entered into the corrective action program as IR
    844815, and the identified area was re-coated with epoxy.
3.10 Drywell Floor Trench Inspections
3.10 Drywell Floor Trench Inspections
 
a.  Scope of Inspection
  a.  Scope of Inspection
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements  
    (5, 16, & 20), stated, in part:
(5, 16, & 20), stated, in part:  
              Perform visual test (VT) and ultrasonic test (UT) examinations of
Perform visual test (VT) and ultrasonic test (UT) examinations of  
              the drywell shell inside the drywell floor inspection trenches in bay
the drywell shell inside the drywell floor inspection trenches in bay  
              5 and bay 17 during the 2008 refueling outage, at the same
5 and bay 17 during the 2008 refueling outage, at the same  
              locations that were examined in 2006. In addition, monitor the
locations that were examined in 2006. In addition, monitor the  
              trenches for the presence of water during refueling outages.
trenches for the presence of water during refueling outages.  
    The inspectors directly observed NDE activities and reviewed UT examination records.
The inspectors directly observed NDE activities and reviewed UT examination records.
    The inspectors independently performed field walkdowns to determine the conditions in
The inspectors independently performed field walkdowns to determine the conditions in  
    the trenches on multiple occasions during the outage. The inspectors compared UT
the trenches on multiple occasions during the outage. The inspectors compared UT  
    data to licensee established acceptance criteria in Specification IS-328227-004, revision
data to licensee established acceptance criteria in Specification IS-328227-004, revision  
    14, "Functional Requirements for Drywell Containment Vessel Thickness Examinations,"
14, "Functional Requirements for Drywell Containment Vessel Thickness Examinations,"  
    and to design analysis values for minimum wall thickness in calculations C-1302-187-
and to design analysis values for minimum wall thickness in calculations C-1302-187-
    E310-041, revision 0, "Statistical Analysis of Drywell Sand Bed Thickness Data 1992,
E310-041, revision 0, "Statistical Analysis of Drywell Sand Bed Thickness Data 1992,  
    1994, 1996, and 2006," and C-1302-187-5320-024, revision 2, "Drywell External UT
1994, 1996, and 2006," and C-1302-187-5320-024, revision 2, "Drywell External UT  
    Evaluation in the Sand Bed." In addition, the inspectors reviewed Technical Evaluation
Evaluation in the Sand Bed." In addition, the inspectors reviewed Technical Evaluation  
    330592.27.43, "2008 UT Data of the Sand Bed Trenches."
330592.27.43, "2008 UT Data of the Sand Bed Trenches." The inspectors reviewed Exelon UT examination procedures, interviewed NDE  
    The inspectors reviewed Exelon UT examination procedures, interviewed NDE
supervisors and technicians, and reviewed a sample of NDE technician UT  
    supervisors and technicians, and reviewed a sample of NDE technician UT
qualifications. The inspectors also reviewed records of trench inspections performed  
    qualifications. The inspectors also reviewed records of trench inspections performed
during two non-refueling plant outages during the last operating cycle.  
    during two non-refueling plant outages during the last operating cycle.
   
  b. Observations
  b. Observations
    In Technical Evaluation 330592.27.43, Exelon determined the UT thickness values
  In Technical Evaluation 330592.27.43, Exelon determined the UT thickness values  
    satisfied the general uniform minimum wall thickness criteria (e.g., average thickness of
satisfied the general uniform minimum wall thickness criteria (e.g., average thickness of  
    an area) and the locally thinned minimum wall thickness criteria (e.g., areas 2-inches or
an area) and the locally thinned minimum wall thickness criteria (e.g., areas 2-inches or  
    less in diameter) for the drywell shell, as applicable. For UT data sets, such as 7x7
less in diameter) for the drywell shell, as applicable. For UT data sets, such as 7x7  
    arrays, the Technical Evaluation calculated statistical parameters and determined the
arrays, the Technical Evaluation calculated statistical parameters and determined the  
    data set distributions were acceptable. The Technical Evaluation also compared the
data set distributions were acceptable. The Technical Evaluation also compared the  
    data values to the corresponding values recorded by the 2006 UT examinations in the
data values to the corresponding values recorded by the 2006 UT examinations in the  
    same locations, and concluded there were no significant differences in measured
same locations, and concluded there were no significant differences in measured  
    thicknesses and no observable on-going corrosion. The inspectors independently
thicknesses and no observable on-going corrosion. The inspectors independently  
    verified that the UT thickness values satisfied applicable acceptance criteria.
verified that the UT thickness values satisfied applicable acceptance criteria.  
 
13 During two non-refueling plant outages during the last operating cycle, both trenches were inspected for the presence of water and found dry by Exelon's staff and by NRC  
                                              13
inspectors (NRC Inspection Reports 05000219/2007003, 05000219/2007004, and  
    During two non-refueling plant outages during the last operating cycle, both trenches
memorandum ML071240008).  
    were inspected for the presence of water and found dry by Exelon's staff and by NRC
During the initial drywell entry on Oct. 25, the inspectors observed that both floor  
    inspectors (NRC Inspection Reports 05000219/2007003, 05000219/2007004, and
trenches were dry. On subsequent drywell entries for routine inspection activities, the  
    memorandum ML071240008).
inspectors observed the trenches to be dry. On one occasion, Exelon observed a small  
    During the initial drywell entry on Oct. 25, the inspectors observed that both floor
amount of water in the bay 5 trench, which Exelon attributed to water spilled nearby on  
    trenches were dry. On subsequent drywell entries for routine inspection activities, the
the drywell floor; the trench was dried and the issue entered into the corrective action  
    inspectors observed the trenches to be dry. On one occasion, Exelon observed a small
program as IR 843190. On Nov. 17, during the final drywell closeout inspection, the  
    amount of water in the bay 5 trench, which Exelon attributed to water spilled nearby on
inspectors observed the following:  
    the drywell floor; the trench was dried and the issue entered into the corrective action
* Bay 17 trench was dry and had newly installed sealant on the trench edge where concrete meets shell, and on the floor curb near the trench.  
    program as IR 843190. On Nov. 17, during the final drywell closeout inspection, the
* Bay 5 trench had a few ounces of water in it. The inspectors noted that within the last day there had been several system flushes conducted in the  
    inspectors observed the following:
immediate area. Exelon stated the trench would be dried prior to final drywell  
            * Bay 17 trench was dry and had newly installed sealant on the trench edge
closeout. This issue was entered into the corrective action program as IR  
                where concrete meets shell, and on the floor curb near the trench.
846209 and IR 846240.  
            * Bay 5 trench had a few ounces of water in it. The inspectors noted that within
* Bay 5 trench had the lower 6-inches of grout re-installed and had newly installed sealant on the trench edge where concrete meets shell, and on the  
                the last day there had been several system flushes conducted in the
floor curb near the trench.  
                immediate area. Exelon stated the trench would be dried prior to final drywell
                closeout. This issue was entered into the corrective action program as IR
                846209 and IR 846240.
            * Bay 5 trench had the lower 6-inches of grout re-installed and had newly
                installed sealant on the trench edge where concrete meets shell, and on the
                floor curb near the trench.
3.11 Drywell Shell Thickness Measurements
3.11 Drywell Shell Thickness Measurements
 
a.  Scope of Inspection
  a.  Scope of Inspection
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements  
    (1, 9, 14, & 21), stated, in part:
(1, 9, 14, & 21), stated, in part:  
            Perform full-scope drywell inspections [in the sand bed region],
Perform full-scope drywell inspections [in the sand bed region],  
            including UT thickness measurements of the drywell shell, from
including UT thickness measurements of the drywell shell, from  
            inside and outside the drywell. During the 2008 refueling outage
inside and outside the drywell. During the 2008 refueling outage  
            and every other refueling outage thereafter.
and every other refueling outage thereafter.  
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements
Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements  
    (7, 10, & 11) stated, in part:
(7, 10, & 11) stated, in part:  
            Conduct UT thickness measurements in the upper regions of the
Conduct UT thickness measurements in the upper regions of the  
            drywell shell. Prior to the period of extended operation and two
drywell shell. Prior to the period of extended operation and two  
            refueling outages later.
refueling outages later.  
    The inspectors directly observed NDE activities and independently performed field
The inspectors directly observed NDE activities and independently performed field  
    walkdowns to determine the condition of the drywell shell both inside the drywell,
walkdowns to determine the condition of the drywell shell both inside the drywell,  
    including the floor trenches, and in the sand bed bays (drywell external shell). The
including the floor trenches, and in the sand bed bays (drywell external shell). The  
    inspectors reviewed UT examination records and compared UT data results to licensee
inspectors reviewed UT examination records and compared UT data results to licensee  
14  established acceptance criteria in Specification IS-328227-004, revision 14, "Functional Requirements for Drywell Containment Vessel Thickness Examinations," and to design
analysis values for minimum wall thickness in calculations C-1302-187-E310-041,
revision 0, "Statistical Analysis of Drywell Vessel Sand Bed Thickness Data 1992, 1994,
1996, and 2006," and C-1302-187-5320-024, revision 2, "Drywell External UT Evaluation
in the Sand Bed."  In addition, the inspectors reviewed the Technical Evaluations (TEs)
associated with the UT data, as follows:
  *  TE 330592.27.42, "2008 Sand Bed UT data - External"  *  TE 330592.27.45, "2008 Drywell UT Data at Elevations 23-foot & 71-foot"  *  TE 330592.27.88, "2008 Drywell Sand Bed UT Data - Internal Grids" 
The inspectors reviewed UT examination records for the following:


   *  Sand bed region elevation, inside the drywell  
                                            14
  *  All 10 sand bed bays, drywell external  
  established acceptance criteria in Specification IS-328227-004, revision 14, "Functional
  *  Various drywell elevations between the 50-foot and 87-foot elevations  
  Requirements for Drywell Containment Vessel Thickness Examinations," and to design
  *  Transition weld from bottom to middle spherical plates, inside the drywell  
  analysis values for minimum wall thickness in calculations C-1302-187-E310-041,
*  Transition weld from 2.625-inch plate to 0.640-inch plate (knuckle area), inside the drywell  
  revision 0, "Statistical Analysis of Drywell Vessel Sand Bed Thickness Data 1992, 1994,
The inspectors reviewed Exelon UT examination procedures, interviewed NDE  
  1996, and 2006," and C-1302-187-5320-024, revision 2, "Drywell External UT Evaluation
supervisors and technicians, and directly observed field collection, recording, and  
  in the Sand Bed." In addition, the inspectors reviewed the Technical Evaluations (TEs)
reporting of UT data. The inspectors also reviewed a sample of NDE technician UT  
  associated with the UT data, as follows:
qualifications.  
            * TE 330592.27.42, "2008 Sand Bed UT data - External"
            * TE 330592.27.45, "2008 Drywell UT Data at Elevations 23-foot & 71-foot"
  b. Observations
            * TE 330592.27.88, "2008 Drywell Sand Bed UT Data - Internal Grids"
  The inspectors observed that NDE UT examination activities were conducted in  
   The inspectors reviewed UT examination records for the following:
accordance with approved procedures. In addition, the inspectors performed a general  
            *  Sand bed region elevation, inside the drywell
visual observation of the drywell shell general conditions on multiple occasions during  
            *  All 10 sand bed bays, drywell external
the outage.  
            *  Various drywell elevations between the 50-foot and 87-foot elevations
In Technical Evaluations 330592.27.42, 330592.27.45, and 330592.27.88, Exelon  
            *  Transition weld from bottom to middle spherical plates, inside the drywell
determined the UT thickness values satisfied the general uniform minimum wall  
            *  Transition weld from 2.625-inch plate to 0.640-inch plate (knuckle area), inside
thickness criteria (e.g., average thickness of an area) and the locally thinned minimum  
              the drywell
wall thickness criteria (e.g., areas 2-inches or less in diameter) for the drywell shell, as  
  The inspectors reviewed Exelon UT examination procedures, interviewed NDE
applicable. For UT data sets, such as 7x7 arrays, the Technical Evaluations calculated  
  supervisors and technicians, and directly observed field collection, recording, and
statistical parameters and determined the data set distributions were acceptable. The  
  reporting of UT data. The inspectors also reviewed a sample of NDE technician UT
Technical Evaluations also compared the data values to the corresponding values  
  qualifications.
recorded by the 2006 UT examinations in the same locations, and concluded there were  
b. Observations
no significant differences in measured thicknesses and no observable on-going  
  The inspectors observed that NDE UT examination activities were conducted in
corrosion. The inspectors independently verified that the UT thickness values satisfied  
  accordance with approved procedures. In addition, the inspectors performed a general
applicable acceptance criteria.  
  visual observation of the drywell shell general conditions on multiple occasions during
15 3.12 One Time Inspection Program
  the outage.
 
  In Technical Evaluations 330592.27.42, 330592.27.45, and 330592.27.88, Exelon
  a. Scope of Inspection
  determined the UT thickness values satisfied the general uniform minimum wall
  Proposed SER Appendix-A Item 24, One Time Inspection Program, stated, in part:  
  thickness criteria (e.g., average thickness of an area) and the locally thinned minimum
The One-Time Inspection program will provide reasonable  
  wall thickness criteria (e.g., areas 2-inches or less in diameter) for the drywell shell, as
assurance that an aging effect is not occurring, or that the aging  
  applicable. For UT data sets, such as 7x7 arrays, the Technical Evaluations calculated
effect is occurring slowly enough to not affect the component or  
  statistical parameters and determined the data set distributions were acceptable. The
structure intended function during the period of extended  
  Technical Evaluations also compared the data values to the corresponding values
operation, and therefore will not require additional aging  
  recorded by the 2006 UT examinations in the same locations, and concluded there were
management. Perform prior to the period of extended operation.  
  no significant differences in measured thicknesses and no observable on-going
The inspectors reviewed the program's sampling basis and sample plan. Also, the  
  corrosion. The inspectors independently verified that the UT thickness values satisfied
inspectors reviewed UT results from approximately 24 selected piping sample locations  
  applicable acceptance criteria.
in the main steam, spent fuel pool cooling, domestic water, and demineralized water  
 
systems.   
                                              15
  b. Observations
3.12 One Time Inspection Program
  The inspectors noted that for two UT sample locations, the measured piping thickness  
a. Scope of Inspection
did not satisfy the acceptance criteria, and the results were evaluated within the  
    Proposed SER Appendix-A Item 24, One Time Inspection Program, stated, in part:
corrective action program. The inspectors did not identify any significant problems or  
            The One-Time Inspection program will provide reasonable
concerns with Exelon's inspection activities.  
            assurance that an aging effect is not occurring, or that the aging
            effect is occurring slowly enough to not affect the component or
            structure intended function during the period of extended
            operation, and therefore will not require additional aging
            management. Perform prior to the period of extended operation.
    The inspectors reviewed the program's sampling basis and sample plan. Also, the
    inspectors reviewed UT results from approximately 24 selected piping sample locations
    in the main steam, spent fuel pool cooling, domestic water, and demineralized water
    systems.
  b. Observations
    The inspectors noted that for two UT sample locations, the measured piping thickness
    did not satisfy the acceptance criteria, and the results were evaluated within the
    corrective action program. The inspectors did not identify any significant problems or
    concerns with Exelon's inspection activities.
3.13 "B" Isolation Condenser Shell Inspection
3.13 "B" Isolation Condenser Shell Inspection
 
a.  Scope of Inspection
  a.  Scope of Inspection
    Proposed SER Appendix-A Item 24, One Time Inspection Program Item (2), stated, in
  Proposed SER Appendix-A Item 24, One Time Inspection Program Item (2), stated, in  
    part:
part: To confirm the effectiveness of the Water Chemistry program to  
            To confirm the effectiveness of the Water Chemistry program to
manage the loss of material and crack initiation and growth aging  
            manage the loss of material and crack initiation and growth aging
effects. A one-time UT inspection of the "B" Isolation Condenser  
            effects. A one-time UT inspection of the "B" Isolation Condenser
shell below the waterline will be conducted looking for pitting  
            shell below the waterline will be conducted looking for pitting
corrosion. Perform prior to the period of extended operation.  
            corrosion. Perform prior to the period of extended operation.
The inspectors directly observed NDE examinations of the "B" isolation condenser shell  
    The inspectors directly observed NDE examinations of the "B" isolation condenser shell
performed under WO C2017561-11. The NDE examinations included a visual  
    performed under WO C2017561-11. The NDE examinations included a visual
inspection of the shell interior, UT thickness measurements in two locations that were  
    inspection of the shell interior, UT thickness measurements in two locations that were
previously tested in 1996 and 2002, additional UT tests in areas of identified pitting and  
    previously tested in 1996 and 2002, additional UT tests in areas of identified pitting and
corrosion, and spark testing of the final interior shell coating. The inspectors reviewed  
    corrosion, and spark testing of the final interior shell coating. The inspectors reviewed
the UT data records, and compared the UT data results to the established minimum wall  
    the UT data records, and compared the UT data results to the established minimum wall
thickness criteria for the isolation condenser shell, and compared the UT data results  
    thickness criteria for the isolation condenser shell, and compared the UT data results
with previously UT data measurements from 1996 and 2002.  
    with previously UT data measurements from 1996 and 2002.
16   b. Observations
 
  The inspectors noted that the UT results satisfied the acceptance criteria for minimum  
                                                16
wall thickness. The inspectors did not identify any significant problems or concerns with  
b. Observations
Exelon's inspection activities.  
    The inspectors noted that the UT results satisfied the acceptance criteria for minimum
    wall thickness. The inspectors did not identify any significant problems or concerns with
    Exelon's inspection activities.
3.14 Periodic Inspections
3.14 Periodic Inspections
 
a.  Scope of Inspection
  a.  Scope of Inspection
    Proposed SER Appendix-A Item 41, Periodic Inspection Program, stated, in part:
    Proposed SER Appendix-A Item 41, Periodic Inspection Program, stated, in part:  
              Activities consist of a periodic inspection of selected structures,
Activities consist of a periodic inspection of selected structures,  
              systems, and components to verify integrity and confirm the
systems, and components to verify integrity and confirm the  
              absence of identified aging effects. Perform prior to the period of
absence of identified aging effects. Perform prior to the period of  
              extended operation.
extended operation.  
    The inspectors directly observed the following field activities:
              * Condensate expansion joints Y-2-11 and Y-2-12 inspection (WO R2083515)
The inspectors directly observed the following field activities:  
              * 4160 V Bus 1C switchgear fire barrier penetration inspection (WO R2093471)
b.  Observations
    The inspectors noted that Exelon's documented inspection results were consistent with
    the conditions directly observed by the inspectors. The inspectors did not identify any
    significant problems or concerns.
3.15 Circulating Water Intake Tunnel & Expansion Joint Inspection
a.  Scope of Inspection
    Proposed SER Appendix-A Item 31, Structures Monitoring Program Enhancement (1),
    stated, in part:
              Buildings, structural components and commodities that are not in
              scope of maintenance rule but have been determined to be in the
              scope of license renewal. Perform prior to the period of extended
              operation.
    On Oct. 29, the inspector directly observed the conduct of a structural engineering
    inspection of the circulating water intake tunnel, including reinforced concrete wall and
    floor slabs, steel liners, embedded steel pipe sleeves, butterfly isolation valves, and
    tunnel expansion joints. The inspection was conducted by a qualified Exelon structural
    engineer. After the inspection was completed, the inspectors compared his direct
    observations with the documented visual inspection results.


*  Condensate expansion joints Y-2-11 and Y-2-12 inspection (WO R2083515)
                                                17
  * 4160 V Bus 1C switchgear fire barrier penetration inspection (WO R2093471)
  b.  Observations
    The inspectors noted that Exelon's documented inspection results were consistent with
  b. Observations
    the conditions directly observed by the inspectors. The inspectors did not identify any
  The inspectors noted that Exelon's documented inspection results were consistent with
    significant problems or concerns with Exelon's inspection activities.
the conditions directly observed by the inspectors.  The inspectors did not identify any
significant problems or concerns.
3.15 Circulating Water Intake Tunnel & Expansion Joint Inspection
 
  a.  Scope of Inspection
    Proposed SER Appendix-A Item 31, Structures Monitoring Program Enhancement (1),
stated, in part:
Buildings, structural components and commodities that are not in
scope of maintenance rule but have been determined to be in the
scope of license renewal.  Perform prior to the period of extended
operation.
On Oct. 29, the inspector directly observed the conduct of a structural engineering
inspection of the circulating water intake tunnel, including reinforced concrete wall and
floor slabs, steel liners, embedded steel pipe sleeves, butterfly isolation valves, and tunnel expansion jointsThe inspection was conducted by a qualified Exelon structural
engineer.  After the inspection was completed, the inspectors compared his direct
observations with the documented visual inspection results.
17    b. Observations
  The inspectors noted that Exelon's documented inspection results were consistent with  
the conditions directly observed by the inspectors. The inspectors did not identify any  
significant problems or concerns with Exelon's inspection activities.  
3.16 Buried Emergency Service Water Pipe Replacement
3.16 Buried Emergency Service Water Pipe Replacement
 
a.  Scope of Inspection
  a.  Scope of Inspection
    Proposed SER Appendix-A Item 63, Buried Piping, stated, in part:
    Proposed SER Appendix-A Item 63, Buried Piping, stated, in part:  
            Replace the previously un-replaced, buried safety-related
Replace the previously un-replaced, buried safety-related  
            emergency service water piping prior to the period of extended
emergency service water piping prior to the period of extended  
            operation. Perform prior to the period of extended operation.
operation. Perform prior to the period of extended operation.  
    The inspectors directly observed the following activities, performed under WO
The inspectors directly observed the following activities, performed under WO  
    C2017279:
C2017279:  
            * Field work to remove old pipe and install new pipe
  * Field work to remove old pipe and install new pipe  
            * Foreign material exclusion (FME) controls
  * Foreign material exclusion (FME) controls  
            * External protective pipe coating, and controls to ensure the pipe installation
* External protective pipe coating, and controls to ensure the pipe installation activities would not result in damage to the pipe coating  
                activities would not result in damage to the pipe coating
   
  b. Observations
  b. Observations
    The inspectors did not identify any significant problems or concerns.
  The inspectors did not identify any significant problems or concerns.  
3.17 Electrical Cable Inspection inside Drywell
3.17 Electrical Cable Inspection inside Drywell
 
a.  Scope of Inspection
  a.  Scope of Inspection
    Proposed SER Appendix-A Item 34, Electrical Cables and Connections, stated, in part:
    Proposed SER Appendix-A Item 34, Electrical Cables and Connections, stated, in part:  
            A representative sample of accessible cables and connections
A representative sample of accessible cables and connections  
            located in adverse localized environments will be visually
located in adverse localized environments will be visually  
            inspected at least once every 10 years for indications of
inspected at least once every 10 years for indications of  
            accelerated insulation aging. Perform prior to the period of
accelerated insulation aging. Perform prior to the period of  
            extended operation.
extended operation.  
    The inspector accompanied electrical technicians and an electrical design engineer
The inspector accompanied electrical technicians and an electrical design engineer during a visual inspection of selected electrical cables in the drywell. The inspector directly observed the pre-job brief which discussed inspection techniques and  
    during a visual inspection of selected electrical cables in the drywell. The inspector
acceptance criteria. The inspector directly observed the visual inspection activities,  
    directly observed the pre-job brief which discussed inspection techniques and
which included cables in raceways, as well as cables and connections inside junction boxes. After the inspection was completed, the inspector compared his direct  
    acceptance criteria. The inspector directly observed the visual inspection activities,
observations with the documented visual inspection results.  
    which included cables in raceways, as well as cables and connections inside junction
18   b. Observations
    boxes. After the inspection was completed, the inspector compared his direct
  The inspectors noted that Exelon's documented inspection results were consistent with  
    observations with the documented visual inspection results.
the conditions directly observed by the inspectors. The inspectors did not identify any  
 
significant problems or concerns with Exelon's inspection activities.  
                                                18
b. Observations
    The inspectors noted that Exelon's documented inspection results were consistent with
    the conditions directly observed by the inspectors. The inspectors did not identify any
    significant problems or concerns with Exelon's inspection activities.
3.18 Inaccessible Medium Voltage Cable Test
3.18 Inaccessible Medium Voltage Cable Test
 
a. Scope of Inspection
  a. Scope of Inspection
    Proposed SER Appendix-A Item 36, Inaccessible Medium Voltage Cables, stated, in
  Proposed SER Appendix-A Item 36, Inaccessible Medium Voltage Cables, stated, in  
    part:
part: Cable circuits will be tested using a proven test for detecting  
              Cable circuits will be tested using a proven test for detecting
deterioration of the insulation system due to wetting, such as  
              deterioration of the insulation system due to wetting, such as
power factor or partial discharge. Perform prior to the period of  
              power factor or partial discharge. Perform prior to the period of
extended operation.  
              extended operation.
The inspectors directly observed field testing activities for the 4 kilovolts feeder cable  
    The inspectors directly observed field testing activities for the 4 kilovolts feeder cable
from the auxiliary transformer secondary to Bank 4 switchgear and independently  
    from the auxiliary transformer secondary to Bank 4 switchgear and independently
reviewed the test results. A Doble and power factor test of the transformer, with the  
    reviewed the test results. A Doble and power factor test of the transformer, with the
cable connected to the transformer secondary, was performed, in part, to detect  
    cable connected to the transformer secondary, was performed, in part, to detect
deterioration of the cable insulation. The inspectors also compared the current test  
    deterioration of the cable insulation. The inspectors also compared the current test
results to previous test results from 2002. In addition, the inspectors interviewed plant  
    results to previous test results from 2002. In addition, the inspectors interviewed plant
electrical engineering and maintenance personnel.  
    electrical engineering and maintenance personnel.
   
  b. Observations
  b. Observations
    The inspectors noted that the cable test results satisfied the acceptance criteria. The
  The inspectors noted that the cable test results satisfied the acceptance criteria. The  
    inspectors did not identify any significant problems or concerns with Exelon's test
inspectors did not identify any significant problems or concerns with Exelon's test  
    activities.
activities.  
3.19 Fatigue Monitoring Program
3.19 Fatigue Monitoring Program
 
a.  Scope of Inspection
  a.  Scope of Inspection
    Proposed SER Appendix-A Item 44, Metal Fatigue of Reactor Coolant Pressure
    Proposed SER Appendix-A Item 44, Metal Fatigue of Reactor Coolant Pressure  
    Boundary, stated, in part:
Boundary, stated, in part:  
              The program will be enhanced to use the EPRI-licensed
The program will be enhanced to use the EPRI-licensed  
              FatiguePro cycle counting and fatigue usage factor tracking
FatiguePro cycle counting and fatigue usage factor tracking  
              computer program.
computer program.  
    The inspectors reviewed Exelon's proposed usage of the FatiguePro software program,
The inspectors reviewed Exelon's proposed usage of the FatiguePro software program,  
    reviewed the list of high cumulative usage factor components, and interviewed the
reviewed the list of high cumulative usage factor components, and interviewed the  
    fatigue program manager.
fatigue program manager.  
 
19   b. Observations
                                              19
  The inspectors noted that the FatiguePro program, although in place and ready to go,  
b. Observations
had not been implemented. Exelon stated the FatiguePro program will be implemented  
    The inspectors noted that the FatiguePro program, although in place and ready to go,
after final industry resolution of a concern regarding a mathematical summation  
    had not been implemented. Exelon stated the FatiguePro program will be implemented
technique used in FatiguePro.  
    after final industry resolution of a concern regarding a mathematical summation
    technique used in FatiguePro.
4. Proposed Conditions of License
4. Proposed Conditions of License
 
a. Scope of Inspection
  a. Scope of Inspection
     SER Section 1.7 contained two outage-related proposed conditions of license:
     SER Section 1.7 contained two outage-related proposed conditions of license:  
            The fourth license condition requires the applicant to perform
The fourth license condition requires the applicant to perform  
            full-scope inspections of the drywell sand bed region every other
full-scope inspections of the drywell sand bed region every other  
            refueling outage.
refueling outage.  
            The fifth license condition requires the applicant to monitor drywell
The fifth license condition requires the applicant to monitor drywell  
            trenches every refueling outage to identify and eliminate the
trenches every refueling outage to identify and eliminate the  
            sources of water and receive NRC approval prior to restoring the
sources of water and receive NRC approval prior to restoring the  
            trenches to their original design configuration.
trenches to their original design configuration.  
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements
Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements  
    (1, 4, 9, 12, 14, & 21) implement the proposed license condition associated with a
(1, 4, 9, 12, 14, & 21) implement the proposed license condition associated with a  
    full-scope drywell sand bed region inspection.
full-scope drywell sand bed region inspection.  
    Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements
Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements  
    (5, 16, & 20) implement the proposed license condition associated with the drywell
(5, 16, & 20) implement the proposed license condition associated with the drywell  
    trenches.
trenches.  
  b. Observations
   
    For observations, see the applicable sections above for the specific ASME Section XI,
  b. Observations
    Subsection IWE Enhancements (Sections 3.7, 3.9, 3.10, & 3.11).
  For observations, see the applicable sections above for the specific ASME Section XI,  
5. Commitment Management Program
Subsection IWE Enhancements (Sections 3.7, 3.9, 3.10, & 3.11).  
a. Scope of Inspection
     The inspectors evaluated current licensing basis procedures used to manage and revise
5. Commitment Management Program
    regulatory commitments to determine whether they were consistent with the
 
    requirements of 10 CFR 50.59, NRC Regulatory Issue Summary 2000-17, "Managing
  a. Scope of Inspection
    Regulatory Commitments," and the guidance in Nuclear Energy Institute (NEI) 99-04,
     The inspectors evaluated current licensing basis procedures used to manage and revise  
    "Guidelines for Managing NRC Commitment Changes." In addition, the inspectors
regulatory commitments to determine whether they were consistent with the  
    reviewed the procedures to assess whether adequate administrative controls were in-
requirements of 10 CFR 50.59, NRC Regulatory Issue Summary 2000-17, "Managing  
    place to ensure commitment revisions or the elimination of commitments altogether
Regulatory Commitments," and the guidance in Nuclear Energy Institute (NEI) 99-04,  
    would be properly evaluated, approved, and annually reported to the NRC.
"Guidelines for Managing NRC Commitment Changes." In addition, the inspectors  
 
reviewed the procedures to assess whether adequate administrative controls were in-
                                            20
place to ensure commitment revisions or the elimination of commitments altogether  
    The inspectors also reviewed Exelon's current licensing basis commitment tracking
would be properly evaluated, approved, and annually reported to the NRC.  
    program to evaluate its effectiveness. In addition, the following commitment change
20 The inspectors also reviewed Exelon's current licensing basis commitment tracking program to evaluate its effectiveness. In addition, the following commitment change  
    evaluation packages were reviewed:
evaluation packages were reviewed:  
    * Commitment Change 08-003, OC Bolting Integrity Program
  * Commitment Change 08-003, OC Bolting Integrity Program  
    * Commitment Change 08-004, RPV Axial Weld Examination Relief
* Commitment Change 08-004, RPV Axial Weld Examination Relief  
  b. Observations
   
    The inspectors observed that the commitment change activities were conducted in
  b. Observations
    accordance with approved procedures, which required an annual update to the NRC
  The inspectors observed that the commitment change activities were conducted in  
    with a summary of each change.
accordance with approved procedures, which required an annual update to the NRC  
with a summary of each change.  
4OA6 Meetings, Including Exit Meeting
4OA6 Meetings, Including Exit Meeting
  Exit Meeting Summary
    Exit Meeting Summary
 
    The inspectors presented the results of this inspection to Mr. T. Rausch, Site Vice
The inspectors presented the results of this inspection to Mr. T. Rausch, Site Vice President, Mr. M. Gallagher, Vice President License Renewal, and other members of  
    President, Mr. M. Gallagher, Vice President License Renewal, and other members of
Exelon's staff on December 23, 2008.  
    Exelon's staff on December 23, 2008.
No proprietary information is present in this inspection report.  
    No proprietary information is present in this inspection report.
A-1  ATTACHMENT
SUPPLEMENTAL INFORMATION
KEY POINTS OF CONTACT
Licensee Personnel
 
C. Albert, Site License Renewal
J. Cavallo, Corrosion Control Consultants & labs, Inc.
M. Gallagher, Vice President License Renewal
C. Hawkins, NDE Level III Technician
J. Hufnagel, Exelon License Renewal
J. Kandasamy, Manager Regulatory Affairs
S. Kim, Structural Engineer
M. McDermott, NDE Supervisor
R. McGee, Site License Renewal
D. Olszewski, System Engineer
F. Polaski, Exelon License Renewal
R. Pruthi, Electrical Design Engineer
S. Schwartz, System Engineer
P. Tamburro, Site License Renewal Lead
C. Taylor, Regulatory Affairs


                                              A-1
                                        ATTACHMENT
                              SUPPLEMENTAL INFORMATION
                                  KEY POINTS OF CONTACT
Licensee Personnel
C. Albert, Site License Renewal
J. Cavallo, Corrosion Control Consultants & labs, Inc.
M. Gallagher, Vice President License Renewal
C. Hawkins, NDE Level III Technician
J. Hufnagel, Exelon License Renewal
J. Kandasamy, Manager Regulatory Affairs
S. Kim, Structural Engineer
M. McDermott, NDE Supervisor
R. McGee, Site License Renewal
D. Olszewski, System Engineer
F. Polaski, Exelon License Renewal
R. Pruthi, Electrical Design Engineer
S. Schwartz, System Engineer
P. Tamburro, Site License Renewal Lead
C. Taylor, Regulatory Affairs
NRC Personnel
NRC Personnel
 
S. Pindale, Acting Senior Resident Inspector, Oyster Creek
S. Pindale, Acting Senior Resident Inspector, Oyster Creek  
J. Kulp, Resident Inspector, Oyster Creek
J. Kulp, Resident Inspector, Oyster Creek  
L. Regner, License Renewal Project Manager, NRR
L. Regner, License Renewal Project Manager, NRR  
D. Pelton, Chief - License Renewal Projects Branch 1, NRR
D. Pelton, Chief - License Renewal Projects Branch 1, NRR  
M. Baty, Counsel for NRC Staff
M. Baty, Counsel for NRC Staff  
J. Davis, Senior Materials Engineer, NRR
J. Davis, Senior Materials Engineer, NRR  
Observers
R. Pinney, New Jersey State Department of Environmental Protection
R. Zak, New Jersey State Department of Environmental Protection
M. Fallin, Constellation License Renewal Manager
R. Leski, Nine Mile Point License Renewal Manager


                                          A-2
Observers 
                LIST OF ITEMS OPENED, CLOSED, AND DISCUSSED
R. Pinney, New Jersey State Department of Environmental Protection
R. Zak, New Jersey State Department of Environmental Protection
M. Fallin, Constellation License Renewal Manager
R. Leski, Nine Mile Point License Renewal Manager
A-2   LIST OF ITEMS OPENED, CLOSED, AND DISCUSSED  
 
Opened/Closed
Opened/Closed
 
None.
None.  
Opened
05000219/2008007-01       URI           Drywell Sand Bed Water Intrusion, Drain
Opened
                                        Monitoring, and Coating Deficiency (Section 2.2)
05000219/2008007-01 URI Drywell Sand Bed Water Intrusion, Drain  
Closed
      Monitoring, and Coating Deficiency (Section 2.2)  
None.
 
                                  LIST OF ACRONYMS
ANSI       American National Standards Institute
Closed
ASME       American Society of Mechanical Engineers
None.  
CLB         Current Licensing Basis
EPRI       Electric Power Research Institute
LIST OF ACRONYMS  
FME         Foreign Material Exclusion
ANSI American National Standards Institute  
IP         [NRC] Inspection Procedure
ASME American Society of Mechanical Engineers  
IR         [Exelon] Issue Report
CLB Current Licensing Basis  
gpm         Gallons per Minute
EPRI Electric Power Research Institute  
NDE         Non-destructive Examination
FME Foreign Material Exclusion  
NEI         Nuclear Energy Institute
IP [NRC] Inspection Procedure  
NRC         U. S. Nuclear Regulatory Commission
IR [Exelon] Issue Report  
NRR         Office of Nuclear Reactor Regulation
gpm Gallons per Minute  
OC         Oyster Creek
NDE Non-destructive Examination  
SER         [NRC] Safety Evaluation Report
NEI Nuclear Energy Institute  
SSC         Structures, Systems, and Components
NRC U. S. Nuclear Regulatory Commission  
SDP         Significance Determination Process
NRR Office of Nuclear Reactor Regulation  
TE         Technical Evaluation
OC Oyster Creek  
UFSAR       Updated Final Safety Analysis Report
SER [NRC] Safety Evaluation Report  
URI         [NRC] Unresolved Item
SSC Structures, Systems, and Components  
UT         Ultrasonic Test
SDP Significance Determination Process  
VT         Visual Testing
TE Technical Evaluation  
WO         Work Order
UFSAR Updated Final Safety Analysis Report  
URI [NRC] Unresolved Item  
UT Ultrasonic Test  
VT Visual Testing  
WO Work Order  
A-3    LIST OF DOCUMENTS REVIEWED
License Renewal Program Documents
2130-06-20364 Letter from AmerGen to the NRC, 10 CFR 54.21(b) Annual Amendment to OC License Renewal Application (TAC No. MC7624), dated July 18, 2006 2130-07-20502 Letter from AmerGen to the NRC, 10 CFR 54.21(b) Annual Amendment to OC License Renewal Application (TAC No. MC7624), dated July 9, 2007 PP-09, Inspection Sample Basis for the One-Time Inspection AMP, Rev. 0


                                                A-3
                                LIST OF DOCUMENTS REVIEWED
License Renewal Program Documents
2130-06-20364 Letter from AmerGen to the NRC, 10 CFR 54.21(b) Annual Amendment to OC
      License Renewal Application (TAC No. MC7624), dated July 18, 2006
2130-07-20502 Letter from AmerGen to the NRC, 10 CFR 54.21(b) Annual Amendment to OC
      License Renewal Application (TAC No. MC7624), dated July 9, 2007
PP-09, Inspection Sample Basis for the One-Time Inspection AMP, Rev. 0
Plant Procedures and Specifications
Plant Procedures and Specifications
645.6.017, Fire Barrier Penetration Surveillance, Rev 13  
645.6.017, Fire Barrier Penetration Surveillance, Rev 13
ER-AA-330-008, Service Level I & Safety-Related Service Level III Protective Coatings, Rev. 6  
ER-AA-330-008, Service Level I & Safety-Related Service Level III Protective Coatings, Rev. 6
ER-AA-335-004, Manual UT of Material Thickness & Interfering Conditions, Rev. 2  
ER-AA-335-004, Manual UT of Material Thickness & Interfering Conditions, Rev. 2
ER-AA-335-018, Detailed, General, VT-1, VT-1C, VT-3 and VT-3C Visual Examination of ASME Class MC and CC Containment Surfaces and Components, Rev. 5 ER-OC-450, Structures Monitoring Program, Rev. 1  
ER-AA-335-018, Detailed, General, VT-1, VT-1C, VT-3 and VT-3C Visual Examination of
LS-AA-104-1002, 50.59 Applicability Review, Rev 3  
      ASME Class MC and CC Containment Surfaces and Components, Rev. 5
LS-AA-110, Commitment Change management, Rev 6  
ER-OC-450, Structures Monitoring Program, Rev. 1
MA-AA-723-500, Inspection of Non EQ Cables and Connections for Managing Adverse Localized Environments, Rev 2 RP-OC-6006, Reactor Cavity and Equipment Pit Leak Mitigation and Decontamination, Rev. 0  
LS-AA-104-1002, 50.59 Applicability Review, Rev 3
Specification SP 1302-32-035, Inspection and Minor Repair of Coating on Concrete & Drywell Shell Surfaces in the Sand Bed Region, dated 2/24/93  
LS-AA-110, Commitment Change management, Rev 6
MA-AA-723-500, Inspection of Non EQ Cables and Connections for Managing Adverse
      Localized Environments, Rev 2
RP-OC-6006, Reactor Cavity and Equipment Pit Leak Mitigation and Decontamination, Rev. 0
Specification SP 1302-32-035, Inspection and Minor Repair of Coating on Concrete & Drywell
      Shell Surfaces in the Sand Bed Region, dated 2/24/93
Incident Reports (IRs)
Incident Reports (IRs)
* = IRs written as a result of the NRC inspection  
* = IRs written as a result of the NRC inspection
 
330592           836802            838402          839192        842323          843380
330592  
546915           836814            838509          839194        842325          843608
546915  
547236           836994           838523*         839204         842333          844815
547236  
549432            837188            838833          839211         842355          845297
549432
557180            837554            839028          839214         842357          846240
557180
557898            837613            839033          839848         842359          939194
557898
804754            837628            839053          841543         842360
804754 836362* 836367* 836395 836802 836814
836362*          837647            839182          841957         842566
836994  
836367*          837765            839185          841957         843190
837188
836395            838148            839188          842010         843209
837554
Work Orders (WOs)
837613
WO C20117279               WO R2095857            WO R2117387
837628
WO C2017279                 WO R209585708          WO R21173870
837647
WO C2017561-11             WO R2097321-01
837765
WO R2083515                WO R2098682-06
838148 838402 838509 838523* 838833 839028
WO R2088180-07              WO R2098683
839033
WO R2093471                WO R2102695
839053
WO R2094623                WO R2105179
839182
WO R2095467                WO R2105477
839185
WO R2095468                WO R2105479
839188 839192 839194
WO R2095469                WO R2105515
839204  
WO R2095471                WO R2105516
839211  
839214  
839848  
841543  
841957  
841957  
842010 842323 842325
842333
842355
842357
842359
842360
842566
843190
843209 843380 843608
844815
845297
846240
939194  Work Orders (WOs)
WO C20117279  
WO C2017279  
WO C2017561-11  
WO R2083515
WO R2088180-07
WO R2093471
WO R2094623
WO R2095467
WO R2095468
WO R2095469
WO R2095471 WO R2095857 WO R209585708
WO R2097321-01  
WO R2098682-06  
WO R2098683  
WO R2102695  
WO R2105179  
WO R2105477  
WO R2105479  
WO R2105515  
WO R2105516 WO R2117387 WO R21173870
A-4  Ultrasonic Test Non-destructive Examination Records
1R21LR-001, 11' 3" elevation, October 18, 2006
1R21LR-002, 50' 2" elevation, October 18, 2006
1R21LR-026, 87' 5" elevation, October 23, 2006
1R21LR-028, 87' 5" elevation, October 23, 2006
1R21LR-029, 23' 6" elevation, October 23, 2006
1R21LR-030, 23' 6" elevation, October 24, 2006
1R21LR-033, 71' 6" elevation, October 26, 2006
1R21LR-034, 71' 6" elevation, October 26, 2006
1R22-LRA-019, 23' 6" elevation, November 5, 2008
1R22-LRA-020, 51' elevation, October 29, 2008
1R22-LRA-021, 50' 2" elevation, October 29, 2008
1R22-LRA-022, 50' 2" elevation, October 29, 2008
1R22-LRA-023, 51' elevation, October 30, 2008
1R22-LRA-024, 51' 10" elevation, October 29, 2008
1R22-LRA-030, 11' 3" elevation, October 30, 2008
1R22-LRA-039, 10' 3" elevation, November 3, 2008
1R22-LRA-040, 10' 3" elevation, November 3, 2008
1R22-LRA-050, 87' 5" elevation, November 4, 2008
1R22-LRA-057, 87' 5" elevation, November 4, 2008
1R22-LRA-058, 87' 5" elevation, November 4, 2008
1R22-LRA-061, 23' 6" elevation, November 5, 2008
1R22-LRA-064, 11' 3" elevation, November 3, 2008
1R22-LRA-065, 11' 3" elevation, November 3, 2008
1R22-LRA-067, 11' 3" elevation, November 4, 2008
1R22-LRA-068, 11' 3" elevation, November 4, 2008
1R22-LRA-071, 71' 6" elevation, November 3, 2008
1R22-LRA-073, 11' 3" elevation, November 5, 2008
1R22-LRA-074, 71' 6" elevation, November 5, 2008
1R22-LRA-077, 60' elevation, November 6, 2008
1R22-LRA-078, 11' 6" elevation, November 7, 2008
1R22-LRA-079, 71' 6" elevation, November 5, 2008
1R22-LRA-088, 23' 6" elevation, November 11, 2008
NDE Data Report 2008-007-017
NDE Data Report 2008-007-030
NDE Data Report 2008-007-031
UT Data Sheet 21R056


                                            A-4
Ultrasonic Test Non-destructive Examination Records
1R21LR-001, 11 3 elevation, October 18, 2006
1R21LR-002, 50 2 elevation, October 18, 2006
1R21LR-026, 87 5 elevation, October 23, 2006
1R21LR-028, 87 5 elevation, October 23, 2006
1R21LR-029, 23 6 elevation, October 23, 2006
1R21LR-030, 23 6 elevation, October 24, 2006
1R21LR-033, 71 6 elevation, October 26, 2006
1R21LR-034, 71 6 elevation, October 26, 2006
1R22-LRA-019, 23' 6 elevation, November 5, 2008
1R22-LRA-020, 51' elevation, October 29, 2008
1R22-LRA-021, 50' 2 elevation, October 29, 2008
1R22-LRA-022, 50' 2 elevation, October 29, 2008
1R22-LRA-023, 51' elevation, October 30, 2008
1R22-LRA-024, 51' 10 elevation, October 29, 2008
1R22-LRA-030, 11' 3 elevation, October 30, 2008
1R22-LRA-039, 10' 3 elevation, November 3, 2008
1R22-LRA-040, 10' 3 elevation, November 3, 2008
1R22-LRA-050, 87' 5 elevation, November 4, 2008
1R22-LRA-057, 87' 5 elevation, November 4, 2008
1R22-LRA-058, 87' 5 elevation, November 4, 2008
1R22-LRA-061, 23' 6 elevation, November 5, 2008
1R22-LRA-064, 11' 3 elevation, November 3, 2008
1R22-LRA-065, 11' 3 elevation, November 3, 2008
1R22-LRA-067, 11' 3 elevation, November 4, 2008
1R22-LRA-068, 11' 3 elevation, November 4, 2008
1R22-LRA-071, 71' 6 elevation, November 3, 2008
1R22-LRA-073, 11' 3 elevation, November 5, 2008
1R22-LRA-074, 71' 6 elevation, November 5, 2008
1R22-LRA-077, 60' elevation, November 6, 2008
1R22-LRA-078, 11' 6 elevation, November 7, 2008
1R22-LRA-079, 71' 6 elevation, November 5, 2008
1R22-LRA-088, 23' 6 elevation, November 11, 2008
NDE Data Report 2008-007-017
NDE Data Report 2008-007-030
NDE Data Report 2008-007-031
UT Data Sheet 21R056
Visual Test Inspection Non-destructive Examination Records
Visual Test Inspection Non-destructive Examination Records
1R21LR-024 , Bay 5, October 21, 2006  
1R21LR-024 , Bay 5, October 21, 2006
1R21LR-025, Bay 17, October 21, 2006  
1R21LR-025, Bay 17, October 21, 2006
1R21LR-032, Bay 5, October 26, 2006  
1R21LR-032, Bay 5, October 26, 2006
1R22-LRA-026, Bay 1, October 30, 2008  
1R22-LRA-026, Bay 1, October 30, 2008
1R22-LRA-027, Bay 5, October 29, 2008  
1R22-LRA-027, Bay 5, October 29, 2008
1R22-LRA-028, Bay 9, October 29, 2008  
1R22-LRA-028, Bay 9, October 29, 2008
1R22-LRA-029, Bay 17, October 30, 2008  
1R22-LRA-029, Bay 17, October 30, 2008
1R22-LRA-031, Bay 9, October 29, 2008  
1R22-LRA-031, Bay 9, October 29, 2008
1R22-LRA-032, Bay 5, October 29, 2008  
1R22-LRA-032, Bay 5, October 29, 2008
1R22-LRA-035, Bay 13, October 30, 2008
1R22-LRA-035, Bay 13, October 30, 2008
A-5  1R22-LRA-036, Bay 1, October 30, 2008 1R22-LRA-037, Bay 13, October 30, 2008
1R22-LRA-038, Bay 17, October 30, 2008
1R22-LRA-046, Bay 11, October 31, 2008
1R22-LRA-047, Bay 11, October 31, 2008
1R22-LRA-048, Bay 15, October 31, 2008
1R22-LRA-049, Bay 15, October 31, 2008
1R22-LRA-050, Bay 19, October 31, 2008
1R22-LRA-051, Bay 19, October 31, 2008
1R22-LRA-052, Bay 3, October 31, 2008
1R22-LRA-053, Bay 3, October 31, 2008
1R22-LRA-054, Bay 7, October 31, 2008
1R22-LRA-055, Bay 7, October 31, 2008
1R22-LRA-082, Bay 5, November 7, 2008
1R22-LRA-083, Bay 15, November 8, 2008
1R22-LRA-084, Bay 19, November 8, 2008
1R22-LRA-091, Bay 19, November 8, 2008  


                                              A-5
1R22-LRA-036, Bay 1, October 30, 2008
1R22-LRA-037, Bay 13, October 30, 2008
1R22-LRA-038, Bay 17, October 30, 2008
1R22-LRA-046, Bay 11, October 31, 2008
1R22-LRA-047, Bay 11, October 31, 2008
1R22-LRA-048, Bay 15, October 31, 2008
1R22-LRA-049, Bay 15, October 31, 2008
1R22-LRA-050, Bay 19, October 31, 2008
1R22-LRA-051, Bay 19, October 31, 2008
1R22-LRA-052, Bay 3, October 31, 2008
1R22-LRA-053, Bay 3, October 31, 2008
1R22-LRA-054, Bay 7, October 31, 2008
1R22-LRA-055, Bay 7, October 31, 2008
1R22-LRA-082, Bay 5, November 7, 2008
1R22-LRA-083, Bay 15, November 8, 2008
1R22-LRA-084, Bay 19, November 8, 2008
1R22-LRA-091, Bay 19, November 8, 2008
NDE Certification Records
NDE Certification Records
NDE Certification #0977 for Richard L. Alger, dated 10/29/08  
NDE Certification #0977 for Richard L. Alger, dated 10/29/08
NDE Certification #1421 for M. Kent Waddell, dated 10/29/08  
NDE Certification #1421 for M. Kent Waddell, dated 10/29/08
 
Calculations
Calculations
C-1301-187-E310-037, Drywell Corrosion, Rev 1  
C-1301-187-E310-037, Drywell Corrosion, Rev 1
C-1302-187-5320-024, O. C. Drywell Ext. UT Evaluation in Sand Bed, Rev 2  
C-1302-187-5320-024, O. C. Drywell Ext. UT Evaluation in Sand Bed, Rev 2
C-1302-187-E310-037, Drywell Corrosion, Rev. 2  
C-1302-187-E310-037, Drywell Corrosion, Rev. 2
C-1302-187-E310-041, Statistical Analysis of Drywell Vessel Sand Bed Thickness Data 1992, 1994, 1996, and 2006, Rev. 0  
C-1302-187-E310-041, Statistical Analysis of Drywell Vessel Sand Bed Thickness Data 1992,
  1994, 1996, and 2006, Rev. 0
Technical Evaluations
Technical Evaluations
Tech Eval 00330592.27.42, 2008 Drywell Sand Bed UT Data - External Data  
Tech Eval 00330592.27.42, 2008 Drywell Sand Bed UT Data - External Data
Tech Eval 00330592.27.43, 2008 UT Data of the Sand Bed Trenches  
Tech Eval 00330592.27.43, 2008 UT Data of the Sand Bed Trenches
Tech Eval 00330592.27.45, 2008 Drywell UT Data at Elevations 23 and 71 foot  
Tech Eval 00330592.27.45, 2008 Drywell UT Data at Elevations 23 and 71 foot
Tech Eval 00330592.27.46, 2008 Degradation Coating Found in Sand Bed Bay 11  
Tech Eval 00330592.27.46, 2008 Degradation Coating Found in Sand Bed Bay 11
Tech Eval 00330592.27.88, 2008 Sand Bed UT Data - Internal Grids  
Tech Eval 00330592.27.88, 2008 Sand Bed UT Data - Internal Grids
Miscellaneous Documents
00553792-02, Drywell Structural Integrity Basis from 1R21 Inspections
00725855-03, Oyster Creek License Renewal Commitment Implementation 2008 FASA
08-003, OC Bolting Integrity Program Commitment Change Evaluation, February 28, 2008
08-004, Oyster Creek LR Commitment Change for RPV Axial Weld Examination Relief for 60-
  years of Operation, March 28, 2008
168-002 (R2114262), Structures and Components Monitoring Report, Intake Tunnel and
  Expansion Joints, October 29, 2008
168-003 (R2120584-05), Structures and Components Monitoring Report, SW/ESW Piping at
  Intake Structure Underdeck (North Side), November 3, 2008


                                                A-6
187-001 (R2097321-01), Structures and Components Monitoring Report, Drywell Internal
Miscellaneous Documents
    Structures, Above El. 23' - 0, November 1, 2008
00553792-02, Drywell Structural Integrity Basis from 1R21 Inspections
1R22 Startup PORC, License Renwal Commitments and Inspection Status, Undated
00725855-03, Oyster Creek License Renewal Commitment Implementation 2008 FASA
Assessment of Oyster Creek's response to condition document IR 00842333, Undated
08-003, OC Bolting Integrity Program Commitment Change Evaluation, February 28, 2008
Chemistry Data for Sandbed Bay 17 Water, Reactor Water, Fuel Pool, RBCCW, TBCCW, and
08-004, Oyster Creek LR Commitment Change for RPV Axial Weld Examination Relief for 60-years of Operation, March 28, 2008 168-002 (R2114262), Structures and Components Monitoring Report, Intake Tunnel and Expansion Joints, October 29, 2008 168-003 (R2120584-05), Structures and Components Monitoring Report, SW/ESW Piping at Intake Structure Underdeck (North Side), November 3, 2008
    Condensate Transfer, November 10 and 11, 2008
A-6 187-001 (R2097321-01), Structures and Components Monitoring Report, Drywell Internal Structures, Above El. 23' - 0", November 1, 2008 1R22 Startup PORC, License Renwal Commitments and Inspection Status, Undated  
IS-328227-004, Functional Requirements for Drywell Containment Vessel Thickness
Assessment of Oyster Creek's response to condition document IR 00842333, Undated  
    Examinations, Rev. 13
Chemistry Data for Sandbed Bay 17 Water, Reactor Water, Fuel Pool, RBCCW, TBCCW, and Condensate Transfer, November 10 and 11, 2008 IS-328227-004, Functional Requirements for Drywell Containment Vessel Thickness Examinations, Rev. 13 IS-328227-004, Specification for OC Functional Requirements for Drywell Containment Vessel Thickness Examinations, Rev. 14 Letter from Williams Industrial Services to Oyster Creek Generating Station, Re: Brovo Iso Condenser, Internal Coating Assessment, November 2, 2008 Letter from Williams Specialty Services to Mr. Pete Tamburro, Oyster Creek Generating Station, Inspection of Safety Related Coating Systems Inner Surface of the Drywell Shell Elevations  
IS-328227-004, Specification for OC Functional Requirements for Drywell Containment Vessel
23'-6" and 46', November, 3, 2008 ML-DCS-104, The Instacote Application System, Rev. 8  
    Thickness Examinations, Rev. 14
OYS-20872, Letter from R. John Diletto, Exelon Power Labs to Tom Quintenz, Oyster Creek, Material Analysis of Samples Removed from Oyster Creek Sand Bed Bay Nos. 11 & 3 in  
Letter from Williams Industrial Services to Oyster Creek Generating Station, Re: Brovo Iso
Support of Drywell Exterior Liner Inspection Outage Activities, Oyster Creek, Dated  
    Condenser, Internal Coating Assessment, November 2, 2008
November 11, 2008 OYS-20872, Letter from R. John Diletto, Exelon Power Labs to Tom Quintenz, Oyster Creek, Material Analysis of Samples Removed from Sand Bed Bay Nos. 11 & 3 in Support of Drywell  
Letter from Williams Specialty Services to Mr. Pete Tamburro, Oyster Creek Generating Station,
Exterior Liner Inspection Outage Activities, Oyster Creek, Dated November 7, 2008 OC Drywell Coating Status Update Report, Power Point Presentation, November 9, 2008  
    Inspection of Safety Related Coating Systems Inner Surface of the Drywell Shell Elevations
Oyster Creek Nuclear Generating UFSAR, Section 3.8.2.8, Drywell Corrosion, Rev. 15  
    23-6 and 46, November, 3, 2008
PORC Meeting (08-16) Report, November 15, 2008  
ML-DCS-104, The Instacote Application System, Rev. 8
Reactor Cavity Leakage Action Plan for 1R22  
OYS-20872, Letter from R. John Diletto, Exelon Power Labs to Tom Quintenz, Oyster Creek,
SP 1302-32-035, Specification for Inspection and Minor Repair of Coating on Concrete & Drywell Shell Surfaces in the Sandbed Region, Rev 0 Timeline of Documents Associated with the Strippable Coating on the Rx Cavity and Water Leakage Monitoring Through the Drains, undated Transformer Inspection and Test Results, Bank #4 Aux, November 3, 2008  
    Material Analysis of Samples Removed from Oyster Creek Sand Bed Bay Nos. 11 & 3 in
White Paper on Water Leakage onto the Exterior Surface of the Drywell Shell, undated  
    Support of Drywell Exterior Liner Inspection Outage Activities, Oyster Creek, Dated
    November 11, 2008
OYS-20872, Letter from R. John Diletto, Exelon Power Labs to Tom Quintenz, Oyster Creek,
    Material Analysis of Samples Removed from Sand Bed Bay Nos. 11 & 3 in Support of Drywell
    Exterior Liner Inspection Outage Activities, Oyster Creek, Dated November 7, 2008
OC Drywell Coating Status Update Report, Power Point Presentation, November 9, 2008
Oyster Creek Nuclear Generating UFSAR, Section 3.8.2.8, Drywell Corrosion, Rev. 15
PORC Meeting (08-16) Report, November 15, 2008
Reactor Cavity Leakage Action Plan for 1R22
SP 1302-32-035, Specification for Inspection and Minor Repair of Coating on Concrete & Drywell
    Shell Surfaces in the Sandbed Region, Rev 0
Timeline of Documents Associated with the Strippable Coating on the Rx Cavity and Water
    Leakage Monitoring Through the Drains, undated
Transformer Inspection and Test Results, Bank #4 Aux, November 3, 2008
White Paper on Water Leakage onto the Exterior Surface of the Drywell Shell, undated
NRC Documents
Generic Letter 87-05, Request for Additional Information Assessment of Licensee Measures to
    Mitigate and/or Identify Potential Degradation of Mark I Drywells
Information Notice No. 86-99, Degradation of Steel Containments
RIS 2000-17, Managing Regulatory Commitments Made by Licensees to the NRC Staff,
    September 21, 2000
Safety Evaluation Report, Related to the License Renewal of OC, March 2007
Safety Evaluation Report, Related to the License Renewal of OC Supplement 1, September 2008
Industry Documents
NEI 99-04, Guidelines for Managing NRC Commitments, Rev. 0


                                            A-7
                  Figure A-1, Cross Section of the Oyster Creek Drywell
NRC Documents
Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's
Generic Letter 87-05, Request for Additional Information Assessment of Licensee Measures to Mitigate and/or Identify Potential Degradation of Mark I Drywells Information Notice No. 86-99, Degradation of Steel Containments
Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416
RIS 2000-17, Managing Regulatory Commitments Made by Licensees to the NRC Staff, September 21, 2000 Safety Evaluation Report, Related to the License Renewal of OC, March 2007
 
Safety Evaluation Report, Related to the License Renewal of OC Supplement 1, September 2008
                                            A-8
                    Figure A-2, Oyster Creek Reactor Cavity Seal Detail
Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's
Industry Documents
Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416
NEI 99-04, Guidelines for Managing NRC Commitments, Rev. 0
 
A-7    
                                            A-9
Figure A-1, Cross Section of the Oyster Creek Drywell  
                            Gap Between Drywell Steel
                          Shell and Concrete Shield Wall
                      Figure A-3, Reactor Cavity Trough Drain Detail
Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's  
Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's
Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416  
Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416
A-8  
 
                                          A-10
      Figure A-4, Oyster Creek Sandbed Region Detail Showing the Sandbed Drain Line
Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's
Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416
 
                                          A-11
  Figure A-5, Oyster Creek Drywell Arrangement Showing the Sandbed Drain Monitoring Using
                                    Remote Poly Bottles
Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's
Figure A-2, Oyster Creek Reactor Cavity Seal Detail  
Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's  
Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416  
A-9  
Figure A-3, Reactor Cavity Trough Drain Detail  
Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's  
Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416Gap Between Drywell Steel Shell and Concrete Shield Wall
A-10    
Figure A-4, Oyster Creek Sandbed Region Detail Showing the Sandbed Drain Line  
Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's  
Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416  
A-11  
Figure A-5, Oyster Creek Drywell Arrangement Showing the Sandbed Drain Monitoring Using Remote Poly Bottles  
Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's  
Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416
Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416
}}
}}

Latest revision as of 09:49, 14 November 2019

IR 05000219-08-007; 10/27/2008 - 12/23/2008; Exelon, LLC, Oyster Creek Generating Station; License Renewal Follow-up
ML090210106
Person / Time
Site: Oyster Creek
Issue date: 01/21/2009
From: Darrell Roberts
Division of Reactor Safety I
To: Pardee C
Exelon Generation Co, Exelon Nuclear
Conte R
Shared Package
ML090120714 List:
References
FOIA/PA-2009-0070 IR-08-007
Download: ML090210106 (37)


See also: IR 05000219/2008007

Text

UNITED STATES

NUCLEAR REGULATORY COMMISSION

REGION I

475 ALLENDALE ROAD

KING OF PRUSSIA, PA 19406-1415

January 21, 2009

Mr. Charles G. Pardee

Chief Nuclear Officer (CNO) and Senior Vice President

Exelon Nuclear

4300 Winfield Rd.

Warrenville, IL 60555

SUBJECT: OYSTER CREEK GENERATING STATION - NRC LICENSE RENEWAL

FOLLOW-UP INSPECTION REPORT 05000219/2008007

Dear Mr. Pardee:

On December 23, 2008, the U. S. Nuclear Regulatory Commission (NRC) completed an

inspection at your Oyster Creek Generating Station. The enclosed report documents the

inspection results, which were discussed on December 23, 2008, with Mr. T. Rausch, Site Vice

President, Mr. M. Gallagher, Vice President License Renewal, and other members of your staff.

First, this inspection was conducted using the guidance of Inspection Procedure (IP) 71003

"Post-Approval Site Inspection for License Renewal." Although IP 71003 is designated as a

"post-approval" inspection procedure, the NRC conducted this inspection as a prudent measure

absent a final NRC decision on license renewal. This inspection observed Oyster Creek license

renewal activities during the last planned refueling outage prior to entering the period of

extended operation. The license renewal application was the subject of a hearing and the

Atomic Safety and Licensing Board decision is being appealed to the Commission. Because a

renewed license has not been issued, the proposed license conditions and associated

regulatory commitments, made as a part of the license renewal application, are not in effect.

Accordingly, as related to license renewal activities, the enclosed report records the inspector's

factual observations.

Second, the inspection examined activities conducted under your current license as they relate

to safety and compliance with the Commissions rules and regulations. This portion of the

inspection focused on the inservice inspection of the drywell containment. The inspectors

reviewed selected procedures and records, observed activities, and interviewed personnel.

Based on the results of the NRC's inspection, the NRC did not identify any safety significant

conditions affecting current operations.

C. Pardee 2

In accordance with 10 CFR 2.390 of the NRC's "Rules of Practice," a copy of this letter and its

enclosure will be available electronically for public inspection in the NRC Public Document

Room or from the Publicly Available Records (PARS) component of NRC's document system

(ADAMS). ADAMS is accessible from the NRC Web-site at http://www.nrc.gov/reading-

rm/adams.html (the Public Electronic Reading Room).

We appreciate your cooperation. Please contact Richard Conte of my staff at (610) 337-5183 if

you have any questions regarding this letter.

Sincerely,

/RA/ Original Signed By:

Darrell J. Roberts, Director

Division of Reactor Safety

Docket No. 50-219

License No. DPR-16

Enclosure: Inspection Report No. 05000219/2008007

w/Attachment: Supplemental Information

C. Crane, President and Chief Operating Officer, Exelon Corporation

M. Gallagher, Vice President License Renewal

M. Pacilio, Chief Operating Officer, Exelon Nuclear

T. Rausch, Site Vice President, Oyster Creek Nuclear Generating Station

P. Orphanos, Plant Manager, Oyster Creek Generating Station

J. Kandasamy, Regulatory Assurance Manager, Oyster Creek

R. DeGregorio, Senior Vice President, Mid-Atlantic Operations

K. Jury,Vice President, Licensing and Regulatory Affairs

P. Cowan, Director, Licensing

B. Fewell, Associate General Counsel, Exelon

Correspondence Control Desk, Exelon

Mayor of Lacey Township

P. Mulligan, Chief, NJ Dept of Environmental Protection

R. Shadis, New England Coalition Staff

E. Gbur, Chairwoman - Jersey Shore Nuclear Watch

E. Zobian, Coordinator - Jersey Shore Anti Nuclear Alliance

P. Baldauf, Assistant Director, NJ Radiation Protection Programs

Congressman C. Smith

C. Pardee 2

In accordance with 10 CFR 2.390 of the NRC's "Rules of Practice," a copy of this letter and its

enclosure will be available electronically for public inspection in the NRC Public Document

Room or from the Publicly Available Records (PARS) component of NRC's document system

(ADAMS). ADAMS is accessible from the NRC Web-site at http://www.nrc.gov/reading-

rm/adams.html (the Public Electronic Reading Room).

We appreciate your cooperation. Please contact Richard Conte of my staff at (610) 337-5183 if

you have any questions regarding this letter.

Sincerely,

/RA/ Original Signed By:

Darrell J. Roberts, Director

Division of Reactor Safety

Docket No. 50-219

License No. DPR-16

Enclosure: Inspection Report No. 05000219/2008007

w/Attachment: Supplemental Information

Distribution w/encl:

S. Collins, RA

M. Dapas, DRA

D. Lew, DRP

J. Clifford, DRP

R. Bellamy, DRP

S. Barber, DRP

C. Newport, DRP

M. Ferdas, DRP, Senior Resident Inspector

J. Kulp, DRP, Resident Inspector

J. DeVries, DRP, Resident OA

S. Williams, RI OEDO

H. Chernoff, NRR

R. Nelson, NRR

G. Miller, PM, NRR

J. Hughey, NRR, Backup

ROPreportsResource@nrc.gov (All IRs)

Region I Docket Room (with concurrences)

SUNSI Review Complete: JER/RJC (Reviewer=s Initials) Adams Accession No. ML090210106

DOCUMENT NAME: G:\DRS\Engineering Branch 1\Richmond\OC 2008-07 LR\_Report\OC 2008-07 LRI_rev-14.doc

After declaring this document "An Official Agency Record" it will be released to the Public.

To receive a copy of this document, indicate in the box:"C" = Copy without attachment/enclosure E" = Copy with attachment/enclosure "N" = No copy

OFFICE RI/DRS E RI/DRS RI/DRP RI/DRS

NAME JRichmond/JER RConte/RJC RBellamy/RRB DRoberts/DJR

DATE 01/20/09 01/20/09 01/20/09 01/20/09

OFFICIAL RECORD COPY

U. S. NUCLEAR REGULATORY COMMISSION

REGION I

Docket No.: 50-219

License No.: DPR-16

Report No.: 05000219/2008007

Licensee: Exelon Generation Company, LLC

Facility: Oyster Creek Generating Station

Location: Forked River, New Jersey

Dates: October 27 to November 7, 2008 (on-site inspection activities)

November 13, 15, and 17, 2008 (on-site inspection activities)

November 10 to December 23, 2008 (in-office review)

Inspectors: J. Richmond, Lead

M. Modes, Senior Reactor Engineer

G. Meyer, Senior Reactor Engineer

T. O'Hara, Reactor Inspector

J. Heinly, Reactor Engineer

J. Kulp, Resident Inspector, Oyster Creek

Approved by: Richard J. Conte, Chief

Engineering Branch 1

Division of Reactor Safety

Region I

ii

TABLE OF CONTENTS

SUMMARY OF FINDINGS .........................................................................................................iii

4. OTHER ACTIVITIES (OA)................................................................................................... 1

4OA5 License Renewal Follow-up (IP 71003).................................................................... 1

1. Inspection Overview ..................................................................................................... 1

1.1 Purpose of Inspection............................................................................................ 1

1.2 Sample Selection Process..................................................................................... 1

2. Assessment of Current Licensing Basis Performance Issues....................................... 2

2.1 ASME,Section XI, Subsection IWE Program........................................................ 2

2.2 Issues for Follow-up .............................................................................................. 2

3. Detailed Review of License Renewal Activities............................................................. 4

3.1 Reactor Refuel Cavity Liner Strippable Coating..................................................... 4

3.2 Reactor Refuel Cavity Seal Leakage Monitoring ................................................... 4

3.3 Reactor Cavity Trough Drain Inspection for Blockage ........................................... 5

3.4 Drywell Sand Bed Region Drain Monitoring........................................................... 5

3.5 Reactor Cavity Seal Leakage Action Plan for 1R22............................................... 6

3.6 Moisture Barrier Seal Inspection (inside drywell) ................................................... 8

3.7 Moisture Barrier Seal Inspection (inside sand bed bays) ....................................... 8

3.8 Drywell Shell Internal Coatings Inspection (inside drywell) .................................... 9

3.9 Drywell Shell External Coatings Inspection (inside sand bed bays) ..................... 10

3.10 Drywell Floor Trench Inspections ........................................................................ 12

3.11 Drywell Shell Thickness Measurements .............................................................. 13

3.12 One Time Inspection Program............................................................................. 15

3.13 "B" Isolation Condenser Shell Inspection............................................................. 15

3.14 Periodic Inspections ............................................................................................ 16

3.15 Circulating Water Intake Tunnel & Expansion Joint Inspection............................ 16

3.16 Buried Emergency Service Water Pipe Replacement.......................................... 17

3.17 Electrical Cable Inspection inside Drywell............................................................ 17

3.18 Inaccessible Medium Voltage Cable Test............................................................ 18

3.19 Fatigue Monitoring Program ................................................................................ 18

4. Proposed Conditions of License ................................................................................. 19

5. Commitment Management Program........................................................................... 19

4OA6 Meetings, Including Exit Meeting............................................................................. 20

SUPPLEMENTAL INFORMATION........................................................................................... 21

iii

SUMMARY OF FINDINGS

IR 05000219/2008007; 10/27/2008 - 12/23/2008; Exelon, LLC, Oyster Creek

Generating Station; License Renewal Follow-up.

The report covers a multi-week inspection of license renewal follow-up items. The inspection

was conducted by five region based engineering inspectors and with assistance from the

Oyster Creek resident inspector. The inspection was conducted using Inspection Procedure (IP) 71003 "Post-Approval Site Inspection for License Renewal." In accordance with the NRC's

memorandum of understanding with the State of New Jersey, state engineers from the

Department of Environmental Protection, Bureau of Nuclear Engineering, observed portions of

the NRC inspection activities.

A. NRC-Identified and Self-Revealing Findings

No findings of significance were identified.

B. Licensee-Identified Violations

None.

REPORT DETAILS

Summary of Plant Status

The Oyster Creek Generating Station was in a scheduled refueling outage during the on-site

portions of this inspection.

At the time of the inspection, AmerGen Energy Company, LLC was the licensee for Oyster

Creek Generating Station. As of January 8, 2009, the Oyster Creek license was transferred to

Exelon Generating Company, LLC by license amendment No. 271 (ML083640373).

4. OTHER ACTIVITIES (OA)

4OA5 License Renewal Follow-up (IP 71003)

1. Inspection Overview

1.1 Purpose of Inspection

The NRC conducted this inspection using the guidance of Inspection Procedure (IP)

71003 "Post-Approval Site Inspection for License Renewal." The license renewal

application was the subject of a hearing and the Atomic Safety and Licensing Board

decision is being appealed to the Commission. Although IP 71003 is designated as a

"post-approval" inspection procedure, the NRC conducted this inspection as a prudent

measure absent a final NRC decision on license renewal. This inspection observed

Oyster Creek license renewal activities during the last refueling outage prior to entering

the period of extended operation.

Inspection observations were made of license renewal commitments and license

conditions selected from NUREG-1875, "Safety Evaluation Report (SER) Related to the

License Renewal of Oyster Creek Generating Station" (ML071290023 & ML071310246).

The inspection included observations of a number of license renewal commitments

which were enhancements to exiting programs implemented under the current license.

When the performance of an existing program was evaluated by the inspectors, the

basis for the evaluation was the current licensing basis (CLB), and the license renewal

enhancements were not considered in the evaluation.

For license renewal activities, within the context of 10 CFR 54, the report only

documents inspector observations, because the proposed license conditions and

associated regulatory commitments were not in effect at the time of this inspection.

These proposed conditions and commitments were not in effect because the application

for a renewed license remains under Commission review for final decision, and a

renewed license has not been approved for Oyster Creek. Thus they are referred to in

this report as "proposed" conditions and commitments.

1.2 Sample Selection Process

The SER proposed commitments and proposed license conditions were selected based

on the risk significance using insights gained from sources such as the NRC's

2

"Significance Determination Process Risk Informed Inspection Notebooks," the results

of previous license renewal audits, and inspections of aging management programs.

The inspectors also reviewed selected corrective actions taken as a result of previous

license renewal inspections.

2. Assessment of Current Licensing Basis Performance Issues

2.1 ASME,Section XI, Subsection IWE Program

Monitoring of the condition of the primary containment drywell is accomplished through

Exelons ASME Section XI, Subsection IWE monitoring program. The inspectors

determined Exelon provided an adequate basis to provide assurance that the drywell

primary containment will remain operable throughout the period to the next scheduled

examination (2012 refueling outage). This determination was based on the inspectors'

evaluation of the drywell shell ultrasonic test (UT) thickness measurements (Sections

3.10 & 3.11), direct observation of drywell shell conditions both inside the drywell

(Sections 3.6, 3.8, & 3.11), including the floor trenches (Section 3.10), and outside the

drywell in the sand bed regions (Sections 3.7 & 3.9), condition and integrity of the

drywell shell epoxy coating (Section 3.9), and condition of the drywell shell moisture

barrier seals (Sections 3.6 & 3.7). On a sampling basis, the inspectors observed that

the enhancements made as a result of license renewal activities were integrated into the

existing program for the drywell structural integrity.

The drywell shell epoxy coating and the moisture barrier seal, both in the sand bed

region, are barriers used to protect the drywell from corrosion. The problems identified

with these barriers (discussed in Sections 3.7 & 3.9) were corrected and had a minimal

impact on the drywell steel shell. The drywell shell corrosion rate remains very small, as

confirmed by the inspectors' review of Exelon's technical evaluations of the 2008 UT

data. The inspectors determined Exelon provided an adequate basis to conclude the

likelihood of additional blisters or moisture barrier seal issues will not impact the

containment safety function during the period before the next scheduled examination

(2012 refueling outage). This is based on the inspectors' direct observations of four

coating blisters and a number of moisture barrier seal issues, review of Exelon's repairs,

and direct observation of the general conditions of the drywell shell, both inside the

drywell and outside the drywell, in the sand bed regions, as well as the overall condition

and integrity of the drywell shell epoxy coating.

2.2 Issues for Follow-up

Introduction

The inspectors and Exelon identified a number of issues during the inspection with

potential implications on the current licensing basis (CLB). More information is required

in order to determine whether these issues are acceptable or are CLB performance

deficiencies.

3

Description

As noted in the detailed observations of this report, a number of issues were observed

which Exelon placed into its corrective action program. The specific issues for further

review include:

(1) Exelon applied a strippable coating to the refuel cavity liner to prevent water

intrusion into the gap between the drywell steel shell and the concrete shield

wall. The strippable coating unexpectedly de-laminated, resulting in increased

refuel cavity seal leakage. As a result, water entered the gap and subsequently

flowed down the outside of the shell and into four sand bed bays. In addition,

Exelon had established an administrative limit for cavity seal leakage that was

higher than the actual leakage rate at which water intrusion into the gap

occurred. (Sections 3.1 & 3.5)

(2) While the reactor cavity was being filled, Exelon frequently monitored the

cavity seal leakage by observing flow in the cavity trough drain line.

Subsequently, Exelon determined that the trough drain line had been left isolated

during a previous maintenance activity. As a result, cavity seal leakage had not

been monitored as intended. (Section 3.2)

(3) During the refueling outage, Exelon monitored for water leakage from the

sand bed bay drains by checking poly bottles connected via tygon tubing and

funnels to the sand bed drain lines. Exelon subsequently discovered that the

poly bottle tubing was not connected to the drain lines for two sand bed bays.

(Section 3.4)

(4) Exelon identified four blisters on the epoxy coating in one sand bed bay.

Exelon's evaluation to determine the cause of the blisters was still in-progress at

the time this inspection was completed. In addition, a video recording from 2006

appeared to indicate that one of the blisters existed at that time, but was not

identified during Exelon's 2006 visual inspection. (Section 3.9)

The inspectors will review these issues in a future inspection to determine whether the

individual issues are acceptable or constitute a CLB performance deficiency. The

inspectors' assessment will, in part, determine whether these items are consistent with

design specifications and requirements, the conduct of operations, and whether

appropriate administrative controls were utilized. (URI 05000219/2008007-01: Drywell

Sand Bed Water Intrusion, Drain Monitoring, and Coating Deficiency)

4

3. Detailed Review of License Renewal Activities

3.1 Reactor Refuel Cavity Liner Strippable Coating

a. Scope of Inspection

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement

(2), stated, in part:

A strippable coating will be applied to the reactor cavity liner to

prevent water intrusion into the gap between the drywell shield

wall and the drywell shell during periods when the reactor cavity is

flooded. Prior to filling the reactor cavity with water.

The inspectors reviewed work order (WO) R2098682-06, "Coating Application to Cavity

Walls and Floors."

b. Observations

The strippable coating is applied to the reactor cavity liner before the cavity is filled with

water to minimize the likelihood of cavity seal leakage into the cavity concrete trough.

This action is taken to prevent water intrusion into the gap (Figure A-3) between the

drywell steel shell and the concrete shield wall. (see Figure A-1 for general

arrangement)

From Oct. 29 to Nov. 6, the cavity liner strippable coating limited cavity seal leakage into

the cavity trough drain to less than 1 gallon per minute (gpm). On Nov. 6, in one

localized area of the refuel cavity, the liner strippable coating started to de-laminate.

Water puddles were subsequently identified in sand bed bays 11, 13, 15, and 17 (see

Section 3.5 below for additional details). This issue was entered into the corrective

action program as Issue Report (IR) 841543. In addition, this item was included in a

common cause evaluation as part of IR 845297. Exelon's initial evaluations identified

several likely or contributing causes, including:

  • A portable submerged water filtration unit was improperly placed in the reactor

cavity, which resulted in flow discharged directly on the strippable coating.

  • A small oil spill into the cavity may have affected the coating integrity.
  • No post installation inspection of the coating had been performed.

3.2 Reactor Refuel Cavity Seal Leakage Monitoring

a. Scope of Inspection

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement

(3), stated, in part:

The reactor cavity seal leakage trough drains and the drywell

sand bed region drains will be monitored for leakage, periodically.

5

The inspectors directly observed Exelon's cavity seal leakage monitoring activities,

performed under WO R2095857. The inspectors independently checked the cavity

trough drain flow immediately after the reactor cavity was filled, and several times

throughout the outage. The inspectors also reviewed the written monitoring logs.

b. Observations

Exelon monitored reactor refuel cavity seal leakage by checking and recording the flow

in a two inch drain line from the cavity concrete trough to a plant radwaste system drain

funnel which, in turn, drained to the reactor building equipment drain tank. (See Figures

A-1 thru A-3)

On Oct. 27, Exelon isolated the cavity trough drain line to install a tygon hose to allow

drain flow to be monitored. On Oct. 28, the reactor cavity was filled. Drain line flow was

monitored frequently during cavity flood-up, and daily thereafter. On Oct. 29, a

boroscope examination of the drain line identified that the isolation valve had been left

closed. When the drain line isolation valve was opened, about 3 gallons of water

drained out. The drain flow then subsided to about a 1/8-inch stream (less than 1 gpm).

This issue was entered into the corrective action program as IR 837647.

3.3 Reactor Cavity Trough Drain Inspection for Blockage

a. Scope of Inspection

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement

(13), stated, in part:

The reactor cavity concrete trough drain will be verified to be clear

from blockage once per refueling cycle. Any identified issues will

be addressed via the corrective action process.

The inspectors reviewed a video recording of a boroscope inspection of the cavity

trough drain line, performed under WO R2102695.

b. Observations

See observations in Section 3.2 above.

3.4 Drywell Sand Bed Region Drain Monitoring

a. Scope of Inspection

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement

(3), stated, in part:

The sand bed region drains will be monitored daily during

refueling outages.

The inspectors directly observed Exelon's activities to monitor sand bed drains,

6

performed under WO R2095857. The inspectors independently checked drain line poly

bottles and accompanied Exelon personnel during routine daily checks. The inspectors

also reviewed the written monitoring logs.

b. Observations

There is one sand bed drain line for every two sand bed bays (i.e., total of five drains for

10 bays). Exelon remotely monitored the sand bed drains by checking for the existence

of water in poly bottles attached via tygon tubing (approximately 50 foot long) to a funnel

hung below each drain line. The sand bed drains, funnels, and a majority of the tygon

tubing were not directly observable from the outer area of the torus room, where the

poly bottles were located. (see Figures A-1, A-4, & A-5)

On Nov. 10, Exelon found two of the five tygon tubes disconnected from their funnels

and laying on the floor (bays 3 and 7). Exelon personnel could not determine when the

tubing was last verified to be connected to the funnel. The inspectors directly observed

that the torus room floor had standing water for most of the outage, due to other

identified system leaks. The inspectors noted that the standing water would have

prevented Exelon personnel from determining whether any water had drained directly

onto the floor from a sand bed drain during the time period that the tygon tubing was

disconnected. The inspectors also noted that bays 3 and 7 remained dry throughout the

outage, with no identified water intrusion (see observations in Section 3.5). Both tubes

were subsequently reconnected. This issue was entered into the corrective action

program as IR 843209.

On Nov. 15, during a daily check of the sand bed bay 11 drain poly bottle, Exelon found

the poly bottle nearly full. Chemistry collected about 4.3 gallons out of the poly bottle

and tubing. The inspectors noted that Exelon had found the poly bottle empty during

each check throughout the outage until Nov. 15, and had only noted water in the poly

bottle three days after the reactor refuel cavity had been drained. In addition, the

inspectors noted that the poly bottle had a capacity of about 5 gallons and the funnel

had a capacity of about 6 gallons, which suggested that the funnel had not overflowed.

Finally, the inspectors noted that Exelon entered bay 11 within a few hours of identifying

the water, visually inspected the bay, and found it dry. Exelon sampled the water, but

could not positively determine the source based on radiolytic or chemical analysis. This

issue was entered into the corrective action program as part of the common cause

evaluation IR 845297.

3.5 Reactor Cavity Seal Leakage Action Plan for 1R22

a. Scope of Inspection

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement

(3), stated, in part:

If leakage is detected [out of a sand bed drain], procedures will be

in place to determine the source of leakage and investigate and

address the impact of leakage on the drywell shell.

7

The inspectors reviewed Exelon's cavity seal leakage action plan.

b. Observations

For the reactor cavity seal leakage, Exelon established an administrative limit of 12 gpm

flow in the cavity trough drain, based on a calculation which indicated that cavity trough

drain flow of less than 60 gpm would not result in trough overflow into the gap between

the drywell concrete shield wall and the drywell steel shell. (see Figures A-1 thru A-5)

The inspectors noted that Exelon's action plan, in part, directed the following actions to

be taken:

  • If the cavity trough drain flow exceeded 5 gpm, then increase monitoring of the

cavity drain flow from daily to every 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />.

  • If the cavity trough drain flow exceeded 12 gpm, then increase monitoring of

the sand bed poly bottles from daily to every 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />.

  • If the cavity trough drain flow exceeded 12 gpm and any water is found in a

sand bed poly bottle, then enter and inspect the sand bed bays.

On Nov. 6, the reactor cavity liner strippable coating started to de-laminate (see Section

3.1 above). The cavity trough drain flow took a step change from less than 1 gpm to

approximately 4 to 6 gpm. Exelon increased monitoring of the trough drain to every 2

hours and monitoring of the sand bed poly bottles to every 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />. The cavity trough

drain flow remained at about 4 to 6 gpm until the cavity was drained on Nov. 12, when

the drain flow subsided to zero.

On Nov. 8, personnel working in sand bed bay 11 identified dripping water. Water

puddles were subsequently identified in sand bed bays 11, 13, 15, and 17. These

issues were entered into the corrective action program as IR 842333. In addition, these

items were included in a common cause evaluation as part of IR 845297.

On Nov. 12, the cavity was drained. All sand bed bays were dried and inspected by

Exelon for any water or moisture damage; no issues were identified. Exelon stated

follow-up ultrasonic test (UT) examinations will be performed during the next refuel

outage to evaluate the upper drywell shell for corrosion as a result of the water intrusion

into the sand bed bays.

On Nov. 15, water was found in sand bed bay 11 poly bottle (see Section 3.4 above).

The inspectors observed that Exelons action plan was inconsistent with the actions

taken in response to increased cavity seal leakage. The inspectors observed that the

actual actions taken were in response to visual indication that the strippable coating was

de-laminating, and later, in response to visual indication of water intrusion into a sand

bed bay. The inspectors noted that the action plan, as written, did not direct a sand bed

entry or sand bed internal inspection, because the cavity trough drain flow never

exceeded 12 gpm. The inspectors also noted that, if the sand bed bays had been

closed out by Nov. 2, as originally scheduled (before a coating problem was identified,

see Section 3.9), then Exelon personnel would not have been inside of bay 11 on Nov.

8, and therefore, would not have visually identified the water intrusion into bay 11.

8

The inspectors also noted that water had entered the gap between the drywell shield

wall and the drywell shell at a much lower value of cavity seal leakage than Exelon had

calculated and, as a result, water intrusion into the sand bed region occurred at a value

below the threshold established in the action plan.

3.6 Moisture Barrier Seal Inspection (inside drywell)

a. Scope of Inspection

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancement

(17), stated, in part:

Perform visual inspection of the moisture barrier seal between the

drywell shell and the concrete floor curb, installed inside the

drywell during the October 2006 refueling outage.

The inspectors reviewed structural inspection reports 187-001 and 187-002, performed

under WO R2097321-01 on Nov. 1 and Oct. 29, respectively. The reports documented

visual inspections of the perimeter seal between the concrete floor curb and the drywell

steel shell, at the 10-foot elevation. In addition, the inspectors reviewed selected

photographs taken during the inspection, and directly observed portions of the moisture

barrier seal.

b. Observations

The inspectors performed a general visual observation of the moisture barrier seal

inside the drywell on multiple occasions during the outage. For the areas directly

observed, the inspectors did not identify any significant problems or concerns.

3.7 Moisture Barrier Seal Inspection (inside sand bed bays)

a. Scope of Inspection

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements

(12 & 21), stated, in part:

Inspect the [moisture barrier] seal at the junction between the

sand bed region concrete [sand bed floor] and the embedded

drywell shell. During the 2008 refueling outage and every other

refueling outage thereafter.

The inspectors directly observed portions of Exelon's activities to perform a 100% visual

test (VT) inspection of the seal in the sand bed region (total of 10 bays). The inspectors

performed independent field walkdowns to determine the as-found conditions in portions

of 6 sand bed bays, and as-left conditions in 4 sand bed bays. The inspectors made

general visual observations inside the sand bed bays to independently identify flaking,

peeling, blistering, cracking, de-lamination, discoloration, corrosion, or mechanical

damage.

9

The inspectors reviewed VT inspection records for each sand bed bay, and compared

their direct observations to the recorded VT inspection results. The inspectors reviewed

Exelon VT inspection procedures, interviewed non-destructive examination (NDE)

supervisors and technicians, and directly observed field collection, recording, and

reporting of VT inspection data. The inspectors also reviewed a sample of NDE

technician visual testing qualifications.

The inspectors reviewed Exelon's activities to evaluate and repair the moisture barrier

seal in sand bed bay 3.

b. Observations

The purpose of the moisture barrier seal is to prevent water from entering a gap below

the concrete floor in the sand bed region. The inspectors observed that NDE visual

inspection activities were conducted in accordance with approved procedures. The

inspectors noted that Exelon completed the inspections, identified condition(s) in the

moisture barrier seal which required repair, completed the seal repairs in accordance

with engineering procedures, and conducted appropriate re-inspection of repaired

areas.

The VT inspections identified moisture barrier seal problems in 7 of the 10 sand bed

bays, including small surface cracks and partial separation of the seal from the steel

shell or concrete floor. Exelon determined the as-found moisture barrier function was

not impaired, because no cracks or separation fully penetrated the seal. All identified

problems were entered into the corrective action program and subsequently repaired

(IRs are listed in the Attachment). In addition, these items were included in a common

cause evaluation as part of IR 845297.

The VT inspection for sand bed bay 3 identified a seal crack and surface rust stains

below the crack. When the seal was excavated, some drywell shell surface corrosion

was identified. Exelon's laboratory analysis of removed seal material determined the

epoxy seal material had not adequately cured, and concluded it was an original 1992

installation issue. The seal crack and drywell shell surface were repaired. This issue

was entered into the corrective action program as IRs 839194, 841957, and 844288.

The inspectors compared the 2008 VT results to the 2006 results and noted that, in

2006, no moisture barrier seal problems were identified in any sand bed bay.

3.8 Drywell Shell Internal Coatings Inspection (inside drywell)

a. Scope of Inspection

Proposed SER Appendix-A Item 33, Protective Coating Monitoring and Maintenance

Program, stated, in part:

The program provides for aging management of Service Level I

coatings inside the primary containment.

The inspectors reviewed a vendor memorandum which summarized the vendor

10

inspection findings for a coating inspection of the as-found condition of the ASME

Service Level I coating of the drywell shell inner surface. The final detailed report, with

specific elevation notes and photographs, was not available during the on-site portion of

this inspection. The inspectors reviewed selected photographs taken during the coating

inspection and the initial assessment and disposition of identified coating deficiencies.

The inspectors also interviewed the vendor coating inspector. The coating inspection

was conducted on Oct. 30, by a qualified ANSI Level III coating inspector.

b. Observations

The inspectors performed a general visual observation of the drywell shell coating on

multiple occasions during the outage. The inspectors noted that Exelon's documented

inspection results were consistent with the conditions directly observed by the

inspectors. The inspectors did not identify any significant problems or concerns with

Exelon's inspection activities.

3.9 Drywell Shell External Coatings Inspection (inside sand bed bays)

a. Scope of Inspection

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements

(4 & 21), stated, in part:

Perform visual inspections of the drywell external shell epoxy

coating in all 10 sand bed bays. During the 2008 refueling outage

and every other refueling outage thereafter.

The inspectors directly observed portions of Exelon's activities to perform a 100% visual

inspection of the epoxy coating in the sand bed region (total of 10 bays). The inspectors

performed independent field walkdowns to determine the as-found conditions of the

epoxy coating in portions of 6 sand bed bays, and the as-left conditions in sand bed bay

11 after coating repairs. The inspectors made general visual observations inside the

sand bed bays to independently identify flaking, peeling, blistering, de-lamination,

cracking, discoloration, corrosion, or mechanical damage.

The inspectors reviewed VT inspection records for each sand bed bay and compared

their direct observations to the recorded VT inspection results. The inspectors reviewed

Exelon VT inspection procedures, interviewed NDE supervisors and technicians, and

directly observed field collection, recording, and reporting of VT inspection data. The

inspectors also reviewed a sample of NDE technician visual testing qualifications.

The inspectors directly observed Exelon's activities to evaluate and repair the epoxy

coating in sand bed bay 11. In addition, the inspectors reviewed Technical Evaluation

330592.27.46, "Coating Degradation in Sand Bed bay 11."

b. Observations

The inspectors observed that NDE visual inspection activities were conducted in

accordance with approved procedures. The inspectors noted that Exelon completed the

11

inspections, identified condition(s) in the exterior coating which required repair,

completed the coating repairs in accordance with engineering procedures, and

conducted appropriate re-inspection of repaired areas.

In sand bed bay 11, the NDE inspection identified one small broken blister, about 1/4

inch in diameter, with a 6-inch surface rust stain, dry to the touch, trailing down from the

blister. During the initial investigation, three additional smaller surface irregularities

(initially described as surface bumps) were identified within a 1 to 2 square inch area

near the broken blister. The three additional bumps were subsequently determined to

be unbroken blisters. This issue was entered into the corrective action program as IRs

838833 and 839053. In addition, this item was included in a common cause evaluation

as part of IR 845297. All four blisters were evaluated and repaired.

On Nov. 13, the inspectors conducted a general visual observation of the repaired area

and the general condition of the epoxy coating and moisture barrier seal in bay 11. The

inspectors noted that Exelon's inspection data reports were consistent with the

conditions directly observed by the inspectors.

All sand bed bays had been inspected by the same NDE technician. To confirm the

adequacy of the coating inspection, Exelon re-inspected 4 sand bed bays (bays 3, 7, 15,

and 19) with a different NDE technician. No additional concerns or problems were

identified. In Technical Evaluation 330592.27.46, Exelon determined, by laboratory

analysis using energy dispersive X-ray spectroscopy, that the removed blister material

contained trace amounts of chlorine. Exelon also determined that the presence of

chlorine, in a soluble salt as chloride on the surface of the drywell shell prior to the initial

application of the epoxy coating, can result in osmosis of moisture through the epoxy

coating. The analysis also concluded there were no pinholes in the blister samples. In

addition, the analysis determined approximately 0.003 inches of surface corrosion had

occurred directly under the broken blister. Exelon concluded that the corrosion had

taken place over an approximately 16-year period. In addition, UT dynamic scan

thickness measurements under the four blisters, from inside the drywell, confirmed the

drywell shell had no significant degradation as a result of the corrosion. On Nov. 13, the

inspectors conducted a general visual observation of the general conditions in bay 5 and

9. The inspectors observed that Exelon's inspection data reports adequately described

the conditions directly observed by the inspectors.

In follow-up, Exelon reviewed a 2006 video of the sand beds, which had been made as

a general aid, not as part of an NDE inspection. The 2006 video showed the same

6-inch rust stain in bay 11. The inspectors compared the 2008 VT results to the 2006

results and noted that in 2006 no coating problems were identified in any sand bed bay.

This inconsistency, between the results of the 2006 coating inspection and the 2007

inspection, was entered into the corrective action program as IR 839053.

During the final closeout of bays 3, 5, and 7, minor chipping in the epoxy coating was

identified, which Exelon described as incidental mechanical damage from personnel

entry for inspection or repair activities. All identified problems were entered into the

corrective action program and subsequently repaired (IRs are listed in the Attachment).

12

During the final closeout of bay 9, an area approximately 8 inches by 8 inches was

identified where the color of the epoxy coating appeared different than the surrounding

area. Because each of the 3 layers of the epoxy coating is a different color, Exelon

questioned whether the color difference could have been indicative of an original

installation deficiency. This issue was entered into the corrective action program as IR

844815, and the identified area was re-coated with epoxy.

3.10 Drywell Floor Trench Inspections

a. Scope of Inspection

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements

(5, 16, & 20), stated, in part:

Perform visual test (VT) and ultrasonic test (UT) examinations of

the drywell shell inside the drywell floor inspection trenches in bay

5 and bay 17 during the 2008 refueling outage, at the same

locations that were examined in 2006. In addition, monitor the

trenches for the presence of water during refueling outages.

The inspectors directly observed NDE activities and reviewed UT examination records.

The inspectors independently performed field walkdowns to determine the conditions in

the trenches on multiple occasions during the outage. The inspectors compared UT

data to licensee established acceptance criteria in Specification IS-328227-004, revision

14, "Functional Requirements for Drywell Containment Vessel Thickness Examinations,"

and to design analysis values for minimum wall thickness in calculations C-1302-187-

E310-041, revision 0, "Statistical Analysis of Drywell Sand Bed Thickness Data 1992,

1994, 1996, and 2006," and C-1302-187-5320-024, revision 2, "Drywell External UT

Evaluation in the Sand Bed." In addition, the inspectors reviewed Technical Evaluation

330592.27.43, "2008 UT Data of the Sand Bed Trenches."

The inspectors reviewed Exelon UT examination procedures, interviewed NDE

supervisors and technicians, and reviewed a sample of NDE technician UT

qualifications. The inspectors also reviewed records of trench inspections performed

during two non-refueling plant outages during the last operating cycle.

b. Observations

In Technical Evaluation 330592.27.43, Exelon determined the UT thickness values

satisfied the general uniform minimum wall thickness criteria (e.g., average thickness of

an area) and the locally thinned minimum wall thickness criteria (e.g., areas 2-inches or

less in diameter) for the drywell shell, as applicable. For UT data sets, such as 7x7

arrays, the Technical Evaluation calculated statistical parameters and determined the

data set distributions were acceptable. The Technical Evaluation also compared the

data values to the corresponding values recorded by the 2006 UT examinations in the

same locations, and concluded there were no significant differences in measured

thicknesses and no observable on-going corrosion. The inspectors independently

verified that the UT thickness values satisfied applicable acceptance criteria.

13

During two non-refueling plant outages during the last operating cycle, both trenches

were inspected for the presence of water and found dry by Exelon's staff and by NRC

inspectors (NRC Inspection Reports 05000219/2007003, 05000219/2007004, and

memorandum ML071240008).

During the initial drywell entry on Oct. 25, the inspectors observed that both floor

trenches were dry. On subsequent drywell entries for routine inspection activities, the

inspectors observed the trenches to be dry. On one occasion, Exelon observed a small

amount of water in the bay 5 trench, which Exelon attributed to water spilled nearby on

the drywell floor; the trench was dried and the issue entered into the corrective action

program as IR 843190. On Nov. 17, during the final drywell closeout inspection, the

inspectors observed the following:

  • Bay 17 trench was dry and had newly installed sealant on the trench edge

where concrete meets shell, and on the floor curb near the trench.

  • Bay 5 trench had a few ounces of water in it. The inspectors noted that within

the last day there had been several system flushes conducted in the

immediate area. Exelon stated the trench would be dried prior to final drywell

closeout. This issue was entered into the corrective action program as IR

846209 and IR 846240.

  • Bay 5 trench had the lower 6-inches of grout re-installed and had newly

installed sealant on the trench edge where concrete meets shell, and on the

floor curb near the trench.

3.11 Drywell Shell Thickness Measurements

a. Scope of Inspection

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements

(1, 9, 14, & 21), stated, in part:

Perform full-scope drywell inspections [in the sand bed region],

including UT thickness measurements of the drywell shell, from

inside and outside the drywell. During the 2008 refueling outage

and every other refueling outage thereafter.

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements

(7, 10, & 11) stated, in part:

Conduct UT thickness measurements in the upper regions of the

drywell shell. Prior to the period of extended operation and two

refueling outages later.

The inspectors directly observed NDE activities and independently performed field

walkdowns to determine the condition of the drywell shell both inside the drywell,

including the floor trenches, and in the sand bed bays (drywell external shell). The

inspectors reviewed UT examination records and compared UT data results to licensee

14

established acceptance criteria in Specification IS-328227-004, revision 14, "Functional

Requirements for Drywell Containment Vessel Thickness Examinations," and to design

analysis values for minimum wall thickness in calculations C-1302-187-E310-041,

revision 0, "Statistical Analysis of Drywell Vessel Sand Bed Thickness Data 1992, 1994,

1996, and 2006," and C-1302-187-5320-024, revision 2, "Drywell External UT Evaluation

in the Sand Bed." In addition, the inspectors reviewed the Technical Evaluations (TEs)

associated with the UT data, as follows:

  • TE 330592.27.42, "2008 Sand Bed UT data - External"
  • TE 330592.27.45, "2008 Drywell UT Data at Elevations 23-foot & 71-foot"
  • TE 330592.27.88, "2008 Drywell Sand Bed UT Data - Internal Grids"

The inspectors reviewed UT examination records for the following:

  • Sand bed region elevation, inside the drywell
  • All 10 sand bed bays, drywell external
  • Various drywell elevations between the 50-foot and 87-foot elevations
  • Transition weld from bottom to middle spherical plates, inside the drywell
  • Transition weld from 2.625-inch plate to 0.640-inch plate (knuckle area), inside

the drywell

The inspectors reviewed Exelon UT examination procedures, interviewed NDE

supervisors and technicians, and directly observed field collection, recording, and

reporting of UT data. The inspectors also reviewed a sample of NDE technician UT

qualifications.

b. Observations

The inspectors observed that NDE UT examination activities were conducted in

accordance with approved procedures. In addition, the inspectors performed a general

visual observation of the drywell shell general conditions on multiple occasions during

the outage.

In Technical Evaluations 330592.27.42, 330592.27.45, and 330592.27.88, Exelon

determined the UT thickness values satisfied the general uniform minimum wall

thickness criteria (e.g., average thickness of an area) and the locally thinned minimum

wall thickness criteria (e.g., areas 2-inches or less in diameter) for the drywell shell, as

applicable. For UT data sets, such as 7x7 arrays, the Technical Evaluations calculated

statistical parameters and determined the data set distributions were acceptable. The

Technical Evaluations also compared the data values to the corresponding values

recorded by the 2006 UT examinations in the same locations, and concluded there were

no significant differences in measured thicknesses and no observable on-going

corrosion. The inspectors independently verified that the UT thickness values satisfied

applicable acceptance criteria.

15

3.12 One Time Inspection Program

a. Scope of Inspection

Proposed SER Appendix-A Item 24, One Time Inspection Program, stated, in part:

The One-Time Inspection program will provide reasonable

assurance that an aging effect is not occurring, or that the aging

effect is occurring slowly enough to not affect the component or

structure intended function during the period of extended

operation, and therefore will not require additional aging

management. Perform prior to the period of extended operation.

The inspectors reviewed the program's sampling basis and sample plan. Also, the

inspectors reviewed UT results from approximately 24 selected piping sample locations

in the main steam, spent fuel pool cooling, domestic water, and demineralized water

systems.

b. Observations

The inspectors noted that for two UT sample locations, the measured piping thickness

did not satisfy the acceptance criteria, and the results were evaluated within the

corrective action program. The inspectors did not identify any significant problems or

concerns with Exelon's inspection activities.

3.13 "B" Isolation Condenser Shell Inspection

a. Scope of Inspection

Proposed SER Appendix-A Item 24, One Time Inspection Program Item (2), stated, in

part:

To confirm the effectiveness of the Water Chemistry program to

manage the loss of material and crack initiation and growth aging

effects. A one-time UT inspection of the "B" Isolation Condenser

shell below the waterline will be conducted looking for pitting

corrosion. Perform prior to the period of extended operation.

The inspectors directly observed NDE examinations of the "B" isolation condenser shell

performed under WO C2017561-11. The NDE examinations included a visual

inspection of the shell interior, UT thickness measurements in two locations that were

previously tested in 1996 and 2002, additional UT tests in areas of identified pitting and

corrosion, and spark testing of the final interior shell coating. The inspectors reviewed

the UT data records, and compared the UT data results to the established minimum wall

thickness criteria for the isolation condenser shell, and compared the UT data results

with previously UT data measurements from 1996 and 2002.

16

b. Observations

The inspectors noted that the UT results satisfied the acceptance criteria for minimum

wall thickness. The inspectors did not identify any significant problems or concerns with

Exelon's inspection activities.

3.14 Periodic Inspections

a. Scope of Inspection

Proposed SER Appendix-A Item 41, Periodic Inspection Program, stated, in part:

Activities consist of a periodic inspection of selected structures,

systems, and components to verify integrity and confirm the

absence of identified aging effects. Perform prior to the period of

extended operation.

The inspectors directly observed the following field activities:

  • Condensate expansion joints Y-2-11 and Y-2-12 inspection (WO R2083515)

b. Observations

The inspectors noted that Exelon's documented inspection results were consistent with

the conditions directly observed by the inspectors. The inspectors did not identify any

significant problems or concerns.

3.15 Circulating Water Intake Tunnel & Expansion Joint Inspection

a. Scope of Inspection

Proposed SER Appendix-A Item 31, Structures Monitoring Program Enhancement (1),

stated, in part:

Buildings, structural components and commodities that are not in

scope of maintenance rule but have been determined to be in the

scope of license renewal. Perform prior to the period of extended

operation.

On Oct. 29, the inspector directly observed the conduct of a structural engineering

inspection of the circulating water intake tunnel, including reinforced concrete wall and

floor slabs, steel liners, embedded steel pipe sleeves, butterfly isolation valves, and

tunnel expansion joints. The inspection was conducted by a qualified Exelon structural

engineer. After the inspection was completed, the inspectors compared his direct

observations with the documented visual inspection results.

17

b. Observations

The inspectors noted that Exelon's documented inspection results were consistent with

the conditions directly observed by the inspectors. The inspectors did not identify any

significant problems or concerns with Exelon's inspection activities.

3.16 Buried Emergency Service Water Pipe Replacement

a. Scope of Inspection

Proposed SER Appendix-A Item 63, Buried Piping, stated, in part:

Replace the previously un-replaced, buried safety-related

emergency service water piping prior to the period of extended

operation. Perform prior to the period of extended operation.

The inspectors directly observed the following activities, performed under WO

C2017279:

  • Field work to remove old pipe and install new pipe
  • External protective pipe coating, and controls to ensure the pipe installation

activities would not result in damage to the pipe coating

b. Observations

The inspectors did not identify any significant problems or concerns.

3.17 Electrical Cable Inspection inside Drywell

a. Scope of Inspection

Proposed SER Appendix-A Item 34, Electrical Cables and Connections, stated, in part:

A representative sample of accessible cables and connections

located in adverse localized environments will be visually

inspected at least once every 10 years for indications of

accelerated insulation aging. Perform prior to the period of

extended operation.

The inspector accompanied electrical technicians and an electrical design engineer

during a visual inspection of selected electrical cables in the drywell. The inspector

directly observed the pre-job brief which discussed inspection techniques and

acceptance criteria. The inspector directly observed the visual inspection activities,

which included cables in raceways, as well as cables and connections inside junction

boxes. After the inspection was completed, the inspector compared his direct

observations with the documented visual inspection results.

18

b. Observations

The inspectors noted that Exelon's documented inspection results were consistent with

the conditions directly observed by the inspectors. The inspectors did not identify any

significant problems or concerns with Exelon's inspection activities.

3.18 Inaccessible Medium Voltage Cable Test

a. Scope of Inspection

Proposed SER Appendix-A Item 36, Inaccessible Medium Voltage Cables, stated, in

part:

Cable circuits will be tested using a proven test for detecting

deterioration of the insulation system due to wetting, such as

power factor or partial discharge. Perform prior to the period of

extended operation.

The inspectors directly observed field testing activities for the 4 kilovolts feeder cable

from the auxiliary transformer secondary to Bank 4 switchgear and independently

reviewed the test results. A Doble and power factor test of the transformer, with the

cable connected to the transformer secondary, was performed, in part, to detect

deterioration of the cable insulation. The inspectors also compared the current test

results to previous test results from 2002. In addition, the inspectors interviewed plant

electrical engineering and maintenance personnel.

b. Observations

The inspectors noted that the cable test results satisfied the acceptance criteria. The

inspectors did not identify any significant problems or concerns with Exelon's test

activities.

3.19 Fatigue Monitoring Program

a. Scope of Inspection

Proposed SER Appendix-A Item 44, Metal Fatigue of Reactor Coolant Pressure

Boundary, stated, in part:

The program will be enhanced to use the EPRI-licensed

FatiguePro cycle counting and fatigue usage factor tracking

computer program.

The inspectors reviewed Exelon's proposed usage of the FatiguePro software program,

reviewed the list of high cumulative usage factor components, and interviewed the

fatigue program manager.

19

b. Observations

The inspectors noted that the FatiguePro program, although in place and ready to go,

had not been implemented. Exelon stated the FatiguePro program will be implemented

after final industry resolution of a concern regarding a mathematical summation

technique used in FatiguePro.

4. Proposed Conditions of License

a. Scope of Inspection

SER Section 1.7 contained two outage-related proposed conditions of license:

The fourth license condition requires the applicant to perform

full-scope inspections of the drywell sand bed region every other

refueling outage.

The fifth license condition requires the applicant to monitor drywell

trenches every refueling outage to identify and eliminate the

sources of water and receive NRC approval prior to restoring the

trenches to their original design configuration.

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements

(1, 4, 9, 12, 14, & 21) implement the proposed license condition associated with a

full-scope drywell sand bed region inspection.

Proposed SER Appendix-A Item 27, ASME Section XI, Subsection IWE Enhancements

(5, 16, & 20) implement the proposed license condition associated with the drywell

trenches.

b. Observations

For observations, see the applicable sections above for the specific ASME Section XI,

Subsection IWE Enhancements (Sections 3.7, 3.9, 3.10, & 3.11).

5. Commitment Management Program

a. Scope of Inspection

The inspectors evaluated current licensing basis procedures used to manage and revise

regulatory commitments to determine whether they were consistent with the

requirements of 10 CFR 50.59, NRC Regulatory Issue Summary 2000-17, "Managing

Regulatory Commitments," and the guidance in Nuclear Energy Institute (NEI) 99-04,

"Guidelines for Managing NRC Commitment Changes." In addition, the inspectors

reviewed the procedures to assess whether adequate administrative controls were in-

place to ensure commitment revisions or the elimination of commitments altogether

would be properly evaluated, approved, and annually reported to the NRC.

20

The inspectors also reviewed Exelon's current licensing basis commitment tracking

program to evaluate its effectiveness. In addition, the following commitment change

evaluation packages were reviewed:

  • Commitment Change 08-003, OC Bolting Integrity Program
  • Commitment Change 08-004, RPV Axial Weld Examination Relief

b. Observations

The inspectors observed that the commitment change activities were conducted in

accordance with approved procedures, which required an annual update to the NRC

with a summary of each change.

4OA6 Meetings, Including Exit Meeting

Exit Meeting Summary

The inspectors presented the results of this inspection to Mr. T. Rausch, Site Vice

President, Mr. M. Gallagher, Vice President License Renewal, and other members of

Exelon's staff on December 23, 2008.

No proprietary information is present in this inspection report.

A-1

ATTACHMENT

SUPPLEMENTAL INFORMATION

KEY POINTS OF CONTACT

Licensee Personnel

C. Albert, Site License Renewal

J. Cavallo, Corrosion Control Consultants & labs, Inc.

M. Gallagher, Vice President License Renewal

C. Hawkins, NDE Level III Technician

J. Hufnagel, Exelon License Renewal

J. Kandasamy, Manager Regulatory Affairs

S. Kim, Structural Engineer

M. McDermott, NDE Supervisor

R. McGee, Site License Renewal

D. Olszewski, System Engineer

F. Polaski, Exelon License Renewal

R. Pruthi, Electrical Design Engineer

S. Schwartz, System Engineer

P. Tamburro, Site License Renewal Lead

C. Taylor, Regulatory Affairs

NRC Personnel

S. Pindale, Acting Senior Resident Inspector, Oyster Creek

J. Kulp, Resident Inspector, Oyster Creek

L. Regner, License Renewal Project Manager, NRR

D. Pelton, Chief - License Renewal Projects Branch 1, NRR

M. Baty, Counsel for NRC Staff

J. Davis, Senior Materials Engineer, NRR

Observers

R. Pinney, New Jersey State Department of Environmental Protection

R. Zak, New Jersey State Department of Environmental Protection

M. Fallin, Constellation License Renewal Manager

R. Leski, Nine Mile Point License Renewal Manager

A-2

LIST OF ITEMS OPENED, CLOSED, AND DISCUSSED

Opened/Closed

None.

Opened

05000219/2008007-01 URI Drywell Sand Bed Water Intrusion, Drain

Monitoring, and Coating Deficiency (Section 2.2)

Closed

None.

LIST OF ACRONYMS

ANSI American National Standards Institute

ASME American Society of Mechanical Engineers

CLB Current Licensing Basis

EPRI Electric Power Research Institute

FME Foreign Material Exclusion

IP [NRC] Inspection Procedure

IR [Exelon] Issue Report

gpm Gallons per Minute

NDE Non-destructive Examination

NEI Nuclear Energy Institute

NRC U. S. Nuclear Regulatory Commission

NRR Office of Nuclear Reactor Regulation

OC Oyster Creek

SER [NRC] Safety Evaluation Report

SSC Structures, Systems, and Components

SDP Significance Determination Process

TE Technical Evaluation

UFSAR Updated Final Safety Analysis Report

URI [NRC] Unresolved Item

UT Ultrasonic Test

VT Visual Testing

WO Work Order

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LIST OF DOCUMENTS REVIEWED

License Renewal Program Documents

2130-06-20364 Letter from AmerGen to the NRC, 10 CFR 54.21(b) Annual Amendment to OC

License Renewal Application (TAC No. MC7624), dated July 18, 2006

2130-07-20502 Letter from AmerGen to the NRC, 10 CFR 54.21(b) Annual Amendment to OC

License Renewal Application (TAC No. MC7624), dated July 9, 2007

PP-09, Inspection Sample Basis for the One-Time Inspection AMP, Rev. 0

Plant Procedures and Specifications

645.6.017, Fire Barrier Penetration Surveillance, Rev 13

ER-AA-330-008, Service Level I & Safety-Related Service Level III Protective Coatings, Rev. 6

ER-AA-335-004, Manual UT of Material Thickness & Interfering Conditions, Rev. 2

ER-AA-335-018, Detailed, General, VT-1, VT-1C, VT-3 and VT-3C Visual Examination of

ASME Class MC and CC Containment Surfaces and Components, Rev. 5

ER-OC-450, Structures Monitoring Program, Rev. 1

LS-AA-104-1002, 50.59 Applicability Review, Rev 3

LS-AA-110, Commitment Change management, Rev 6

MA-AA-723-500, Inspection of Non EQ Cables and Connections for Managing Adverse

Localized Environments, Rev 2

RP-OC-6006, Reactor Cavity and Equipment Pit Leak Mitigation and Decontamination, Rev. 0

Specification SP 1302-32-035, Inspection and Minor Repair of Coating on Concrete & Drywell

Shell Surfaces in the Sand Bed Region, dated 2/24/93

Incident Reports (IRs)

  • = IRs written as a result of the NRC inspection

330592 836802 838402 839192 842323 843380

546915 836814 838509 839194 842325 843608

547236 836994 838523* 839204 842333 844815

549432 837188 838833 839211 842355 845297

557180 837554 839028 839214 842357 846240

557898 837613 839033 839848 842359 939194

804754 837628 839053 841543 842360

836362* 837647 839182 841957 842566

836367* 837765 839185 841957 843190

836395 838148 839188 842010 843209

Work Orders (WOs)

WO C20117279 WO R2095857 WO R2117387

WO C2017279 WO R209585708 WO R21173870

WO C2017561-11 WO R2097321-01

WO R2083515 WO R2098682-06

WO R2088180-07 WO R2098683

WO R2093471 WO R2102695

WO R2094623 WO R2105179

WO R2095467 WO R2105477

WO R2095468 WO R2105479

WO R2095469 WO R2105515

WO R2095471 WO R2105516

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Ultrasonic Test Non-destructive Examination Records

1R21LR-001, 11 3 elevation, October 18, 2006

1R21LR-002, 50 2 elevation, October 18, 2006

1R21LR-026, 87 5 elevation, October 23, 2006

1R21LR-028, 87 5 elevation, October 23, 2006

1R21LR-029, 23 6 elevation, October 23, 2006

1R21LR-030, 23 6 elevation, October 24, 2006

1R21LR-033, 71 6 elevation, October 26, 2006

1R21LR-034, 71 6 elevation, October 26, 2006

1R22-LRA-019, 23' 6 elevation, November 5, 2008

1R22-LRA-020, 51' elevation, October 29, 2008

1R22-LRA-021, 50' 2 elevation, October 29, 2008

1R22-LRA-022, 50' 2 elevation, October 29, 2008

1R22-LRA-023, 51' elevation, October 30, 2008

1R22-LRA-024, 51' 10 elevation, October 29, 2008

1R22-LRA-030, 11' 3 elevation, October 30, 2008

1R22-LRA-039, 10' 3 elevation, November 3, 2008

1R22-LRA-040, 10' 3 elevation, November 3, 2008

1R22-LRA-050, 87' 5 elevation, November 4, 2008

1R22-LRA-057, 87' 5 elevation, November 4, 2008

1R22-LRA-058, 87' 5 elevation, November 4, 2008

1R22-LRA-061, 23' 6 elevation, November 5, 2008

1R22-LRA-064, 11' 3 elevation, November 3, 2008

1R22-LRA-065, 11' 3 elevation, November 3, 2008

1R22-LRA-067, 11' 3 elevation, November 4, 2008

1R22-LRA-068, 11' 3 elevation, November 4, 2008

1R22-LRA-071, 71' 6 elevation, November 3, 2008

1R22-LRA-073, 11' 3 elevation, November 5, 2008

1R22-LRA-074, 71' 6 elevation, November 5, 2008

1R22-LRA-077, 60' elevation, November 6, 2008

1R22-LRA-078, 11' 6 elevation, November 7, 2008

1R22-LRA-079, 71' 6 elevation, November 5, 2008

1R22-LRA-088, 23' 6 elevation, November 11, 2008

NDE Data Report 2008-007-017

NDE Data Report 2008-007-030

NDE Data Report 2008-007-031

UT Data Sheet 21R056

Visual Test Inspection Non-destructive Examination Records

1R21LR-024 , Bay 5, October 21, 2006

1R21LR-025, Bay 17, October 21, 2006

1R21LR-032, Bay 5, October 26, 2006

1R22-LRA-026, Bay 1, October 30, 2008

1R22-LRA-027, Bay 5, October 29, 2008

1R22-LRA-028, Bay 9, October 29, 2008

1R22-LRA-029, Bay 17, October 30, 2008

1R22-LRA-031, Bay 9, October 29, 2008

1R22-LRA-032, Bay 5, October 29, 2008

1R22-LRA-035, Bay 13, October 30, 2008

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1R22-LRA-036, Bay 1, October 30, 2008

1R22-LRA-037, Bay 13, October 30, 2008

1R22-LRA-038, Bay 17, October 30, 2008

1R22-LRA-046, Bay 11, October 31, 2008

1R22-LRA-047, Bay 11, October 31, 2008

1R22-LRA-048, Bay 15, October 31, 2008

1R22-LRA-049, Bay 15, October 31, 2008

1R22-LRA-050, Bay 19, October 31, 2008

1R22-LRA-051, Bay 19, October 31, 2008

1R22-LRA-052, Bay 3, October 31, 2008

1R22-LRA-053, Bay 3, October 31, 2008

1R22-LRA-054, Bay 7, October 31, 2008

1R22-LRA-055, Bay 7, October 31, 2008

1R22-LRA-082, Bay 5, November 7, 2008

1R22-LRA-083, Bay 15, November 8, 2008

1R22-LRA-084, Bay 19, November 8, 2008

1R22-LRA-091, Bay 19, November 8, 2008

NDE Certification Records

NDE Certification #0977 for Richard L. Alger, dated 10/29/08

NDE Certification #1421 for M. Kent Waddell, dated 10/29/08

Calculations

C-1301-187-E310-037, Drywell Corrosion, Rev 1

C-1302-187-5320-024, O. C. Drywell Ext. UT Evaluation in Sand Bed, Rev 2

C-1302-187-E310-037, Drywell Corrosion, Rev. 2

C-1302-187-E310-041, Statistical Analysis of Drywell Vessel Sand Bed Thickness Data 1992,

1994, 1996, and 2006, Rev. 0

Technical Evaluations

Tech Eval 00330592.27.42, 2008 Drywell Sand Bed UT Data - External Data

Tech Eval 00330592.27.43, 2008 UT Data of the Sand Bed Trenches

Tech Eval 00330592.27.45, 2008 Drywell UT Data at Elevations 23 and 71 foot

Tech Eval 00330592.27.46, 2008 Degradation Coating Found in Sand Bed Bay 11

Tech Eval 00330592.27.88, 2008 Sand Bed UT Data - Internal Grids

Miscellaneous Documents

00553792-02, Drywell Structural Integrity Basis from 1R21 Inspections

00725855-03, Oyster Creek License Renewal Commitment Implementation 2008 FASA

08-003, OC Bolting Integrity Program Commitment Change Evaluation, February 28, 2008

08-004, Oyster Creek LR Commitment Change for RPV Axial Weld Examination Relief for 60-

years of Operation, March 28, 2008

168-002 (R2114262), Structures and Components Monitoring Report, Intake Tunnel and

Expansion Joints, October 29, 2008

168-003 (R2120584-05), Structures and Components Monitoring Report, SW/ESW Piping at

Intake Structure Underdeck (North Side), November 3, 2008

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187-001 (R2097321-01), Structures and Components Monitoring Report, Drywell Internal

Structures, Above El. 23' - 0, November 1, 2008

1R22 Startup PORC, License Renwal Commitments and Inspection Status, Undated

Assessment of Oyster Creek's response to condition document IR 00842333, Undated

Chemistry Data for Sandbed Bay 17 Water, Reactor Water, Fuel Pool, RBCCW, TBCCW, and

Condensate Transfer, November 10 and 11, 2008

IS-328227-004, Functional Requirements for Drywell Containment Vessel Thickness

Examinations, Rev. 13

IS-328227-004, Specification for OC Functional Requirements for Drywell Containment Vessel

Thickness Examinations, Rev. 14

Letter from Williams Industrial Services to Oyster Creek Generating Station, Re: Brovo Iso

Condenser, Internal Coating Assessment, November 2, 2008

Letter from Williams Specialty Services to Mr. Pete Tamburro, Oyster Creek Generating Station,

Inspection of Safety Related Coating Systems Inner Surface of the Drywell Shell Elevations

23-6 and 46, November, 3, 2008

ML-DCS-104, The Instacote Application System, Rev. 8

OYS-20872, Letter from R. John Diletto, Exelon Power Labs to Tom Quintenz, Oyster Creek,

Material Analysis of Samples Removed from Oyster Creek Sand Bed Bay Nos. 11 & 3 in

Support of Drywell Exterior Liner Inspection Outage Activities, Oyster Creek, Dated

November 11, 2008

OYS-20872, Letter from R. John Diletto, Exelon Power Labs to Tom Quintenz, Oyster Creek,

Material Analysis of Samples Removed from Sand Bed Bay Nos. 11 & 3 in Support of Drywell

Exterior Liner Inspection Outage Activities, Oyster Creek, Dated November 7, 2008

OC Drywell Coating Status Update Report, Power Point Presentation, November 9, 2008

Oyster Creek Nuclear Generating UFSAR, Section 3.8.2.8, Drywell Corrosion, Rev. 15

PORC Meeting (08-16) Report, November 15, 2008

Reactor Cavity Leakage Action Plan for 1R22

SP 1302-32-035, Specification for Inspection and Minor Repair of Coating on Concrete & Drywell

Shell Surfaces in the Sandbed Region, Rev 0

Timeline of Documents Associated with the Strippable Coating on the Rx Cavity and Water

Leakage Monitoring Through the Drains, undated

Transformer Inspection and Test Results, Bank #4 Aux, November 3, 2008

White Paper on Water Leakage onto the Exterior Surface of the Drywell Shell, undated

NRC Documents

Generic Letter 87-05, Request for Additional Information Assessment of Licensee Measures to

Mitigate and/or Identify Potential Degradation of Mark I Drywells

Information Notice No. 86-99, Degradation of Steel Containments

RIS 2000-17, Managing Regulatory Commitments Made by Licensees to the NRC Staff,

September 21, 2000

Safety Evaluation Report, Related to the License Renewal of OC, March 2007

Safety Evaluation Report, Related to the License Renewal of OC Supplement 1, September 2008

Industry Documents

NEI 99-04, Guidelines for Managing NRC Commitments, Rev. 0

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Figure A-1, Cross Section of the Oyster Creek Drywell

Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's

Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416

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Figure A-2, Oyster Creek Reactor Cavity Seal Detail

Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's

Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416

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Gap Between Drywell Steel

Shell and Concrete Shield Wall

Figure A-3, Reactor Cavity Trough Drain Detail

Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's

Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416

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Figure A-4, Oyster Creek Sandbed Region Detail Showing the Sandbed Drain Line

Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's

Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416

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Figure A-5, Oyster Creek Drywell Arrangement Showing the Sandbed Drain Monitoring Using

Remote Poly Bottles

Source: Oyster Creek September 2007 Evidentiary Hearing - Applicant Exhibit 40, AmerGen's

Oyster Creek Generating Station License Renewal ACRS Presentation, ML072820416