RAI Response

ML051260208
Person / Time
Site:	Cooper
Issue date:	05/27/2004
From:	Victor W Nebraska Public Power District (NPPD)
To:	Michelle Honcharik NRC/NRR/DLPM/LPD4
Honcharik M, NRR/DLPM, 301-415-1774
Shared Package
ML051600374	List: ML051260197 ML051260208 ML051260274 ML051260275 ML051260277 ML051260279 ML051260281 ML051260282 ML051260283 ML051600345
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Download: ML051260208 (6)
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Michelle Honcharik - RAI Response Page 1 Michelle Honcharik - RAI Response Page 1 ii From:

NVictor, William R." <wrvicto~nppd.com>

To:

"Michelle Honcharik (E-mail)' <MCH3@nrc.gov>

Date:

5/27/04 12:42PM

Subject:

RAI Response

Michelle, Please find the attached draft RAI response. Please note, the final version will likely change somewhat as a function of Management Review.

R/ Bill Victor CNS Licensing

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RAI Response 5/27/04 12:41PM "Victor, William R." <wrvicto@nppd.com>

wrvicto@nppd.com Recipients nrc.gov owf4_po.OWFN_DO MCH3 (Michelle Honcharik)

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1: Michelle Honcharik - 2004065.doc Page 1 il Mihel Hoc.i. 2046.d Pag 1.......

DRAFF NLS2004065 U.S. Nuclear Regulatory Commission Attention: Document Control Desk Washington, D.C. 20555-0001

Subject:

Response to Request for Additional Information Regarding Loss-of-Coolant Accident (LOCA) Dose Calculation Methodology and Resolution of Remaining License Condition 2.C.(6) Issues Cooper Nuclear Station, NRC Docket No. 50-298, DPR-46

Reference:

1. Letter to R. Edington (Nebraska Public Power District) from U.S. Nuclear Regulatory Commission dated May 4, 2004, "Request for Additional Information Re: Loss-of-Coolant Accident (LOCA) Dose Calculation Methodology and Resolution of Remaining License Condition 2.C.(6) Issues (TAC No. MC1572)."

2. Letter to U. S. Nuclear Regulatory Commission from R. Edington (Nebraska Public Power District) dated December 9, 2003, "License Amendment Request for LOCA Dose Calculation Methodology and Resolution of Remaining License Condition 2.C.(6) Issues" (NLS2003105).

The purpose of this letter is to respond to the Request for Additional Information provided in Reference 1 regarding the previously submitted License Amendment Request of Reference 2.

These responses summarize information provided during a teleconference held on April 28, 2004 between Nebraska Public Power District (NPPD) personnel and members of the Nuclear Regulatory Commission staff.

Question 1-Page 7 - Please describe how the operator will be able to access both Turbine Stop Valves that are located approximately 8.5feet off the floor.

Response

Both valves are in the same general vicinity. A movable ladder is provided so that access can be made to each Turbine Stop Valve without climbing directly on equipment. The ladder is maintained at a nearby ladder station.

Question 2-Page 8 - Please describe how the walk down was performed. For example, how many individuals/crews participated in the walk down? What actions were actually demonstrated to be perfonmed within the "estimated 30 minutes" to accomplish the task...e g., did the time include ingress/egress to the valve locations, access to the tools that are 25-30feet awvayfrom the valves, etc? The illustration provided in the December 9, 2003 submittal shows an operator at the

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Michelle Honcharik - 2004065.doc

.Page 21 NLS2004065 Page 2 of 4 valve location dressed in "anti-Cs', it appears. Did the 30 minute time estimate include time to dress-out?

Response

The walkdown was performed by the design engineer responsible for the implementation of modifications to the Main Steam Isolation Valve (MSIV)

Leakage Pathway. The post-LOCA shaft adjustment is performed by Maintenance personnel who would likely be dispatched out of the Operations Support Center (OSC) after Emergency Response Organization (ERO) mobilization. The 30-minute time estimation includes the time for a single individual to reach the valves, obtain the pre-staged tools, setup the ladder, install the shaft adjustment tools, and apply the tools on the Turbine Stop Valves. The 30-minute estimation starts after the individual has entered the Turbine Building.

It did not include pre-entry logistics times such as ERO staffing time, pre-job brief, etc. However, even including those expected times, the total time to perform this evolution is still well within the 30-hour time period for completion.

With regards to the anti-contamination clothing in the photo, the picture was taken during a refueling outage when the turbines were disassembled and the area was posted as a contaminated area. Full dress out would not be required in this area during the postulated LOCA event.

Question 3:

Page 8 - "With the MSIV [main steam isolation valve] leakage assumed in the LOCA analysis and conservative assumptions, this evolution would be performed well before any radiological release to the Turbine Building could occurfrom Turbine Valve shaft clearance area leakage. 7he implementing emergency procedure directs completion within 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />." Please explain how the 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br /> time to take the required manual actions was derived. What is the minimum amount of time that an operator will have to perform the required actions before encountering a hostile environment?

Response

The 30-hour time period was determined based on the time it would take for MSIV leakage to migrate along the pathway from the Reactor Building to the point in the Turbine Building where the source term could potentially become a radiological hazard to the individual performing the shaft adjustment.

Question 4:

Page 9 - Please explain what modifications were made after refueling outage 21 to improve the capability of the emergency lighting system. "Directly after a LOCA induced shutdown, the area surrounding the Turbine Stop Valves would be hot from residual heat in the piping and valves..." Though the "majority of equipment in the area is insulated," how hot is the area expected to become? Is there needfor special personnel protection/equipment?

I'Michelle Hancharik - 2004065.doc Page 3
,J I Michelle Honcharik - 2004065.doc Page 3I NLS2004065 Page 3 of 4

Response

Sufficient emergency lighting was already in place for the valves on the 903'6"1909'6" levels of the Turbine Building. Three existing emergency lights on Elevation 932'6" of the Turbine Building required relocation/repositioning. A new emergency light was added on Turbine Building elevation 882'6" with two remote lamp heads.

The area where the Turbine Stop Valves are located have been accessed in the past during normal power operation, without the need for special personnel protective equipment. Unlike power operations, Main Steam is isolated under a design basis LOCA. Therefore, NPPD would not expect a harsh temperature environment when performing the Turbine Stop Valve shaft adjustment.

Additionally, installation of the shaft adjustment tools does not require physical contact with the uninsulated part of the Turbine Stop Valves by the individual performing the shaft adjustment.

Question 5:

Page IS (Table 1) - Please explain/clarify: Are all the manual actions in the table required to "configure the MSIV Leakage Pathway, " as the table title (and Page

3) indicate? If so, please explain how the manual actions (other than the Turbine Stop Valve adjustments) are accomplished. For example, where are the locations of the other valves in relation to the Turbine Stop Valves? Does the same person who is nianually adjusting the Turbine Stop Valves carry out the remaining valve closures? Wizat steps are required to perform the remaining valve manipulations? How much time is required to complete the remaining valve manipulations? How has it been determined that the other valve manipulations can be successfully performed in the time allowable?

Response

All of the manual actions contained on the Table for which NRC acceptance is requested, are required to configure the MSIV Leakage Pathway. The manual actions are controlled by an Emergency Procedure that directs their accomplishment. The valves are located in the Turbine Building and are accessed from Floor Elevations 882'6"'1, 903'6", 909'6", and 932'6". As discussed in Question 2, the Turbine Stop valve Shaft adjustment is performed by Maintenance personnel dispatched from the OSC. A plant operator who is normally part of the on-shift operating crew performs the valve repositionings.

The procedure that performs the valve position changes designates a limiting time of 2 1/2/ hours to perform the evolution. This time period was determined based on the time it would take for MSIV leakage to migrate along the pathwvay within the Reactor Building to the point where the source term could potentially become a radiological hazard to the individual performing the evolution in the Turbine Building. Walkdowns have been performned by Operations personnel that

1.

Floor Elevation 882'6" was inadvertently omnitted on Page 3 of Attachment I to Reference 2.

Michelle Honcharik - 2004065.doc Page 4 j

[ Michelle Honcharik - 2004065.doc Page.4 1 NLS2004065 Page 4 of 4 demonstrate that these actions can be readily accomplished within the required time frame. As an operator aid, the valves were affixed with special labels to distinguish them as valves to be manipulated to configure the MSIV Leakage Pathway. As part of the procedure implementation process committed to in Reference 2, Operations personnel will receive training on the performance of the evolution.

Should you have any questions concerning this matter, please contact Mr. Paul Fleming at (402) 825-2774.

I declare under the penalty of perjury that the foregoing is true and correct.

Executed on Randall K. Edington Vice President - Nuclear and Chief Nuclear Officer

/wrv cc: Regional Administrator USNRC - Region IV Senior Project Manager USNRC - NRR Project Directorate IV-1 Senior Resident Inspector USNRC NPG Distribution Records