ML20084B022

From kanterella
Jump to navigation Jump to search
Final Deficiency Rept SDR 84-02 Re Field Run Cables for Solenoid Valves.Initially Reported on 840315.Design Changes Implemented to Replace Field Wiring W/Qualified High Temp Wiring w/392 F Rated Insulation.Also Reported Per Part 21
ML20084B022
Person / Time
Site: Wolf Creek, Callaway, 05000000
Issue date: 04/13/1984
From: Seiken S
STANDARDIZED NUCLEAR UNIT POWER PLANT SYSTEM
To: Jay Collins, James Keppler
NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION III), NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION IV)
References
REF-PT21-84 SDR-84-02, SDR-84-2, SLNRC-84-065, SLNRC-84-65, NUDOCS 8404260045
Download: ML20084B022 (5)


Text

4 L'<' b nte I

SNUPPS Stenderdised Nuclear Unit Power Plant Systeen 5 Choke Cherry Road Rockville, Meryland 20060 5 "8***

  • April 13, 1984 SLNRC 84 065 FILE: 0491.10.2 SUBJ: Final Report: Field Run Cables for Solenoid Valves (50R 84-02)

Mr. James G. Keppler Regional Administrator, Region III U.S. Nuclear Regulatory Commission 799 Roosevelt Road Glen Ellyn, Illinois 60137 Mr. John T. Collins Regional Administrator, Region IV U.S. Nuclear Regulatory Commission Suite 1000, Parkway Central Plaza Arlington, Texas 76012 Docket Nos. STN 50-482 and STN 50-483 Gentlemen:

Pursuant to the requirements of 10CFR50.55(e) Messrs. J. Konklin of NRC Region III and W. Johnson of NRC Region _IV were informed via telecon on March 15, 1984, of a design deficiency in the selection of field run cable to Valcor solenoid valves. .This- deficiency is generic in nature and, as such, is. applicable to Calla.way and Wolf Creek plants. A written report on the deficiency is enclosed.

The enclosed report should be considered the final report on this matter.

NRC will be informed of any significant developments, should they occur.

Please do not hesitate to contact the undersigned or R. P. White of my staff should there be any questions concerning this report.

Very truly yours, 8404260045 840413 N PDR ADOCK 05000482 5 PDR _ S. Seiken QA Manager RPW/bds/lbl Enclosure -

cc: D. F. Schnell UE G. L. Koester KGE D. T. McPhee KCPL W. S. Schum NRC/WC J. H. Neisler NRC/ CAL B. H. Little NRC/ CAL R. C. DeYoung NRC/IE: HQ J.-E. Konklin 'NRC/IE: III gpg 18 M Record pg g\

10 CFR 50.55(e) REPORT ON FIELD WIRING DEFICIENCIES TO VALCOR SOLENOID VALVES INSTALLED AT THE SNUPPS UNITS s

BECHTEL POWER CORPORATION Gaithersburg, Maryland April 9, 1984 w

10 CFR 50.55(e) REPORT ON FIELD WIRING TO VALCOR SOLEN 0ID VALVES TABLE OF CONTENTS -

1.0 INTRODUCTION

2.0 DESCRIPTION

OF PROBLEH 3.0 SAFETY IMPACT 4.0 CAUSE OF DEFICIENCY 5.0 CORRECTIVE ACTION o

e

(

0

\

. \

l i

1.0 INTRODUCTION

In accordance with the requirements of 10CFR50.55(e), this final report provides a summary of the deficiency related to improperly rated field wiring to Valcor solenoid valves installed at the Callaway i and Wolf Creek jobsites. i This deficiency was initially reported by SNUPPS to Mr. J. Konklin and Mr. W. Johnson, NRC Regions III and IV respectively,-by telephone on f March 15, 1984. This deficiency has also been reported by Bechtel under 10CFR21 to Mr. C. E. Rossi. USNRC, on March 19, 1984.

This deficiency was first identified in the course of unrelated rework on one of the affected valves at which time degradation of an attached conductor was noted.

2.0 DESCRIPTION

OF PROBLEM Callaway NCR 2SN-9748-ET documented a deficiency involving degraded insulation on field cabling used to connect Valcor solenoid valves.

Valcor solenoid valves are supplied with a terminal block internal to the valve body. The incoming field cables are connected directly to this terminal block. Investigation of the valve qualification documents revealed that the ambient temperatures inside the valve body can approach a maximum of 250-280'F when the valves are energized for an extended period of time. The actual ambient temperatures inside the valve body will vary for each valve depending upon the length of time the valve is energized and the fluid or air temperature of the associated piping system. The incoming field calle..used to connect the valves into the plant control system has an insulation temperature rating of 90*C (194*F). Use of the 90*C rated field cabling in the high ambient temperature encountered inside_the valve body will cause the cable insulation to degrade prematurely resulting in failure of the cable insulation which can ultimately compromise the safety function of the valve. This deficiency exists for both the Wolf Creek and Callaway Generating Stations.

3.0 SAFETY IMPACT A total of 37 Class 1E valves supplied by Valcor st each jobsite are affected by this deficiency. An additional 6 non-class IE valves are also affected. The valves are used en the following safety related systems:

Containment Hydrogen Control Nuclear Sampling-Steam Generator Blowdown Residual Heat Removal Containment Purge Fuel Building RVAC

Failure of the cable insulation due to temperatures above its design capabilities could prevent these valves from performing their safety ,

function.

~

4.0 CAUSE OF DEFICIENCY This deficiency resulted from a unique solenoid valve configuration wherein the incoming field cables are terminated inside a totally enclosed valve body housing a large energized solenoid. The configuration is such that the terminal boards are located within the valve body and above the solenoid. No means is provided to dissipate the heat generated by the solenoid. Valcor supplied drawings depicting valve and wiring details provided no information concerning the high ambient temperatures inside the valve body. The normal solenoid valve application is to have vendor supplied pigtails routed from the valve body to a remotely located splice box. In such typical applications, the field wiring would not be subjected to the high ambient temperatures. The Architect Engineer did not recognize that high ambient temperatures would be encountered which could compromise the capability of the field run cabling and consequently did not utilize high temperature wire in the wiring design.

5.0 CORRECTIVE ACTION Design changes have been implemented to replace the field wiring with qualified high temperature wiring with 200*C (392*F) rated insulation.

The high temperature wire is used as a jumper from the terminal block inside the valve body to a splice box located approximately 5 to 10 feet remote from the valve. The incoming field cable is spliced into the high temperature wire in the splice box thus preventing the field cable from encountering the high temperatures inside the valve body.

The necessary wiring changes will be installed at each jobsite prior to the time that the valves are required for their operational modes.

  • The project is presently evaluating solenoid valves of other manufacturers utilized in the SNUPPS. design to insure that other valves are not subject to the same deficiency. If additional solenoid valves are discovered to have the same deficiency, appropriate corrective action will be taken and a supplemental report issued.

i 1

d 4