ML20140G893
| ML20140G893 | |
| Person / Time | |
|---|---|
| Site: | Big Rock Point File:Consumers Energy icon.png |
| Issue date: | 06/10/1997 |
| From: | NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION III) |
| To: | |
| Shared Package | |
| ML20140G871 | List: |
| References | |
| 50-155-97-04, 50-155-97-4, NUDOCS 9706170127 | |
| Download: ML20140G893 (20) | |
See also: IR 05000155/1997004
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U.S. NUCLEAR REGULATORY COMMISSION ,
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REGION ll! !
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Docket No: 50-155 ,
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License No: DPR-06
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Report No: 50-155/97004(DRP)
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l Licensee: Consumers Energy j
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Facility: Big Rock Point Nuclear Power Plant
Location: 10269 U.S. 31 North
Charlevoix, MI 49720
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Dates: March 13 - April 29,1997
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inspectors: R. J. Leemon, Senior Resident Inspector
1. N. Jackiw, Project Engineer
H. A. Walker, Reactor Inspector i
Approved by: Bruce L. Burgess, Chief i
Reactor Projects Branch 6
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9706170127 970610
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ADOCK 05000155
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EXECUTIVE SUMMARY
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Big Rock Nuclear Power Plant
NRC Inspection Report 50-155/97004
l This routine inspection covered aspects of licensee operations, engineering, maintenance,
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and plant support.
,Qoerations
- The inspectors concluded that the activities associated with reactor plant startups
and shutdowns were appropriately conducted. No violations of NRC requirements
were identified. (Section 01.2)
- The inspectors identified that, in reviewing the work package, work control center
(WCC) personnel did not determine that tagging was required to test the amplidyne
controller. which resulted in the 138 KV line tone relay being damaged. On another
occasion, after WCC personnel had tagging removed from main steam isolation
j valve (MSIV) MO-7050 following stroke testing by operations personnel, WCC
personnel did not ensure that MO-7050 was re-tagged prior to maintenance
workers meggering the valve. (Section 01.3)
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- Operations department personnel correctly performed the hydrostatic testing of the
containment portion of the post incident system. (Section 01.4)
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Maintenance !
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- Maintenance and surveillance activities were appropriately performed and
accurately documented. (Section M1.1) -
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l * The inspectors concluded that an electrician did not acquire the required. tagging
and clearance to test a coilin the amplidyne controller. This resulted in varistors on
the 138 KV line tone control panellocated in the control room to fail. This was a i
violation of Technical Specifications. (Section M1.2) l
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l * The inspectors concluded that maintenance personnel violated procedure l
requirements when meggering the MSIV-7050 motor without personnel protective
tagging and with the DC feeder breaker closed. (Section M1.3)
- To prevent further steam cutting darnage to backup core spray valves MO-7071
and VPI-303 and the increase in unidentified primary system leakage, the licensee
shut the plant down and refurbished the valves. (Section M1.4)
- The licensee unknowin0l y operated the station with protective devices for direct
current breakers 72-11 and 72-12 different than the original plant design. (Section
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- Indications were identified on diesel fire pump (DFP) relief valve RV-5062 springs;
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however, the DFP relief valve had been operable. The licensee verified that there
were no indications on a new spring and the spring was installed in the diesel fire
pump relief valve. (Section M1.6)
- The licensee promptly shut the plant down upon discovery of malfunctioning of the
No. 2 recirculation pump inner seal. Maintenance activities observed by the
inspectors related to the job were appropriately performed. (Section M1.7) '
Enoineerino
- The system modification design package to upgrade the portion of the fire
l protection / post incident system inside containment to a design pressure of 200 psig
l appeared to be good. The installation of 200 psig relief valves inside containment :
was made to prevent the actuation of these relief valves during fire pump testing l
and reduce the leakage problem through these valves.
The 1955 ASME Boiler and Pressure Vessel Code, which applies to Big Rock Point,
allows the design pressure to be exceeded, by a limited amount, for short periods
of time. The external portions of this system appeared to meet this criteria.
(Section E1.1)
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l * The inspectors found that the licensee's corrective actions for previous condition
j reports relating to clearance and tagging orders were ineffective. (Section E1,.2)
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Reoort Details
Summarv of Plant Status
On March 2,1997, the reactor was shutdown and the plant was taken to cold shutdown
to repair backup core spray valves MO-7071 and VPI-303, which were experiencing a
small amount of steam leaking through them. Following repairs to the valves, the plant
remained in cold shutdown while performing an analysis to re-rate the containment portion
of the post incident system from 150 psig to 200 psig. Upgrade work on the post incident
system was completed, and on April 20,1997, at 6:50 a.m., the reactor was taken
critical. At 12:30 p.m., with reactor pressure at 580 psig, the recirculation pump's seal
flows were being adjusted when the operator determined that the inner seal on the No. 2
recirculation pump (RCP) was not functioning properly. At 1:47 p.m., the reactor was
shutdown by a manual scram from 1 per cent power to repair the RCP seal. On April 27,
1997, at 3:45 p.m., the reactor was again taken critical, and on April 28,1997, at 5:25
a.m., the main generator breaker failed to close. At 10:59 a.m. the turbine was stopped,
and at 5:14 p.m. the reactor was shut down. The licensee was repairing the failed main
generator breaker at the end of the inspection period.
1. Operatioris
01 Conduct of Operations
01.1 General Comments (71707)
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Using inspection Procedure 71707, the inspectors conducted frequent reviews of
ongoing plant operations. Specific events and findings are detailed in the sections
below.
01.2 Ooservations of Plant Startuos and Shutdowns
a. Insoection Scooe
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The inspectors attended infrequently performed test and evolution briefings (IPTE) ,
conducted by the outage manager and reactivity management briefings conducted I
by the shift supervisor (SS). The inspectors observed the licensee's startup and
- shutdown activities.
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l b. Observations and Findinas i
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The inspectors observed reactor shutdowns and startups between March 2,1997, l
and April 28,1997 and the associated IPTE briefing. During these IPTE briefings,
the inspectors observed management stressing safety as the number one priority
and reminding the crew of their responsibility if an unsafe condition was identified.
The reactor engineer appropriately discussed what the expected critical rod notch
and startup step would be, and the reactivity value of the rod notches near the
- critical position. The inspectors observed that during reactor startup, procedures
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were in-hand and being followed, two operators properly verified the control rod to
be moved and used repeat back communications, SSs provided good command and
control, and three way communications existed among all members of the operating l
crew. An extra operator, with no other duties, was assigned to continuously I
monitor the reactor control panels. I
c. Conclusions
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The inspector.s concluded that the activities associated with reactor plant startups l
and shutdowns were appropriately conducted. No violations of NRC requirements
were identified.
01.3 Taaaina Reauirements For Testina Eauioment Not identified by Work Control Center
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a. Insoection Scooe l
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The inspectors reviewed the work control center's (WCC) involvement related to
testing the amplidyne controller and meggering a main steam line isolation valve
(MStV) without the required tagging. The inspectors held discussions with the
WCC personnel and reviewed condition reports (CR), work orders (WO), and
tagging orders: l
- CR C-BRP-97-164: 125 VDC ground resulted in smoke in the )
control room
- CR C-BRP-97-165: Inadequate tagging for breaker functional test
- WO SPS-12611404: Functional inspection of circuit breaker 052-
2A24 and inspect and test / operate associated !
contactor for amplidyne motor generator test l
- CR C-BRP-97-18: Auxiliary shutdown 125 VOC system ground
resulting from meggering MO-7050 1
installation and removal of test fixture
- Tagging Order Tagging MO-7050 (MSIV) WO 1270295
977-50133:
b. Observations and Findinas
WCC personnel consisting of a licensed reactor operator and a licensed senior
reactor operator reviewed WO SPS-12611404 for testing the 138 KV line
amplidyne breaker and controller. The inspector noted that the work planner did
not specify that tagging was required on the WO. Breakers were generally removed
from the motor control center and tested at a test stand, in some cases, the
controllers were part of the breaker and tagging would not be required. WCC
l personnel appeared to have the mind set that tagging was not required for testing
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breakers and controllers, and thus concluded that the WO was marked correctly.
The amplidyne controller for circuit breaker 052-2A24 was located external to the
breaker and had a separate 125 VDC breaker. The breaker configuration was
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indicated on a drawing attached to the WO. Following leak testing of MSIV MO-
7050, WCC personnel requested that maintenance workers clest the tagging on
i valve MO-7050 in order that operations personnel could strok's test the valve.
After stroke testing the valve, WCC personnel had scheduled meggering of MO-
7050 as part of post maintenance testing. WCC personnel failed to ensure that the
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breaker for MO-7050 was re-tagged prior to the maintenance workers meggering 7
the valve.
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l c. Conclusion
The inspectors identified that, in reviewing the work package, WCC personnel did
not determine that tagging was required to test the amplidyne controller, which
resulted in the 138 KV line tone relay being damaged. After WCC personnel had
removed the tags from MSIV MO-7050 following stroke testing by operations
personnel, WCC personnel did not ensure that MO-7050 was re-tagged prior to
maintenance wo kers meggering the valve (Reference Section M1.3). !
01.4 Hvdrostatic Testina of Containment Portion of Post Incident System f
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a. Insoection Scooe
The inspectors monitored the hydrostatic testing of the containment portion of the
[ post incident system in preparation for re-rating the piping to 200 psig. The
inspectors attended pre-job briefings, reviewed procedure TV-40H-A, " Hydrostatic
Test of Post incident System in Containment," and observed hydrostatic testing of ,
the system. 1
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b. Observations and Findinos ,
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On April 15,1997, during a first attempt to test the containment portion of the !
post incident system to 300-350 psig, boundary valves VFP-30 and VFP-29, ;
between the fire and core spray systems, leaked back into the screen house portion 1
of the system. During the test when containment test pressure reached
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approximately 200 psig, the screen house portion of the system increased to 150
psig. The test was terminated, and the licensee redesigned the test and made
procedure changes to run the diesel fire pump with flow through the core spray
heat exchanger in order to limit the pressure in the screen house portion of the
system. On April 16, the test was rerun and the containment portion of the core
spray system was successfully tested to 315 psig. The inspectors observed
operators perform visualinspection of the containment portion of the post incident
system piping. Three minor packing leaks on fire hose stations were identified and
appropriately dispositioned.
During pre-job briefings, the inspectors noted that duties and responsibilities of the !
SS and other personnel were well defined. The inspectors observed good in-hand-
use of the procedure by the auxiliary operator (AO) at the test pump, and the
supervisor performed on the job training for the AO. The inspector also observed
the AO perform continuous monitoring of the test pressure and parameters.
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c. Conclusion
Operations department personnel correctly performed the hydrostatic testing of the
containment portion of the post incident system.
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03 Operations Procedures and Documentation
03.1 Adhereng.e to Procedures
a. insoection Scona l
The inspectors reviewed the licensee's corrective actions regarding adherence to
procedure issues identified in Inspection Reports 50-155/97002(DRP) and 50-
155/97005.
b. Observations and Findinos ;
The inspectors noted that the corrective actions taken by the licensee to address i
procedure adherence problems included better defining management's expectations l
in this area. The new expectations required that if work could not be performed as l
written, the work was to be stopped, and the procedure revised. The inspectors
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observed or reviewed procedure revisions identified after the new expectations
were instituted. The following procedure changes were made:
o Procedure O-TGS-1, C-2A, " Wide Range Monitor (WRM) Instrument Check
List," was revised to allow the operator to retest the monitor if necessary.
The test circuit resets the monitor to normal from the test position after 3-
minutes. If the operator did not complete the test in the 3-minutes, the
original procedure was not clear on how to precede,
o Procedure ALP-1.4, " Alarm Response Procedure for Feedwater Heaters High
Level," inas revised to indicate that feedwater heaters high level alarms were
normal and expected during plant startup activities. The procedure revision
provided information which allowed operators to verify that the alarm was
valid for existing plant conditions.
e Procedure SOP-13, " Turbine Generator System," was revised to add
amplidyne excitation control checks to ensure that the control circuit 1
l operates satisfactorily. On December 7,1997, the plant tripped '
I because the amplidyne control circuit failed. At that time, the
! procedure did not have steps to initiate amplidyne control circuit
checks.
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c. Conclusions
! The inspectors concluded that the licensee's new expectation for procedure
adherence was being followed by operation's personnel.
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11. Maintenance
M1 Conduct of Maintenance
M1.1 General Comments
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a. Insoection Scoce (62703) (61726)
The inspectors observed all or portions of the following maintenance and
surveillance activities:
Maintenance Activities
e WO FPS-12710399: Inspect DFP relief valve (RV-5062) spring
- WO PIS-12710406: Hydrostatic test of containment portion of core
spray system
o WO PCS-12611212: Remove and install No. 2 RCP seal
e WO MdS-12710295: Install and remove test fixture on MSIV MO-
7050
e WO EPS-12710234: Replaced standby diesel generator batteries
e WO EPS-12710142: Replaced all batteries in battery bank (UPS-C)
e WO NMS-12710235: Source range 7 detector position indication
incorrect with detector in the in position both
the in and out position indicators illuminated
l e WO PCS-12300908: Disassemble No. 2 RCP seal cartridge
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e WO SPS-12710347: Perform load test on breaker 072-12
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Surveillance Activities
- TR-88: Core spray and enclosure spray valve initiation and i
operability test
e TR-390: Leak testing the main steam isolation valve
e TV-26: Local leak rate testing
- TSD-07: Core spray pump run and test loop operation
b. Observations and Findinas
Maintenance and surveillance activities were reviewed against the FSAR and were
found to be satisfactorily performed. All observed work was performed with the
work package present and in active use at the job site. Supervisors and system
engineers monitored job progress, and appropriate radiation control measures were
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in place.
c. Conclusion
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Maintenance and surveillance activities were appropriately performed and
accurately documented.
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M1.2 Over Volteae of the 138 KV Line Tone Relav
a. Insoection Scope
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On March 6,1997, the inspectors responded to a fire alarm in the control room.
Thr,re was a small amount of smoke from the 138kv line tone relay control panel
wnen the varistors popred and smoked during testing. The inspectors held
discussion with plant personnel and attended a management review board which
discussed this event.
h. Observations and Findinas
The Wspectors noted that the controller for the amplidyne was tested by an
electrician without the required tag-out and the DC control power breaker being
opened. A preventative maintenance WO written to test the amplidyne breaker and
controller, indicated that no tag-out was required.
During testing of the 138kv line tone relay, varistors in the relay control panel were
damaged when one of the 120 AC ter,t leads contacted a lifted lead and applied
excessive voltage to the tone relay. The total voltage applied to the tone relay
control panel for the 138 KV line was 245 volts and caused the varistors to smoke
and then open. Because of the smoke, the control room operators sounded the fire
alarm and the fire brigade responded to the control room. The fire brigade did not
use any fire fighting medium since there were no flames and the smoke lasted for
less than 10 minutes.
Technical Specification (TS) 6.8.1 requires that written procedures be established,
implemented, and maintained for all structures, systems, components, and safety
i actions defined in the Big Rock Point Quality List. These procedures shall meet or
exceed the requirements of ANSI N18.7, as endorsed by CPC-2A, " Quality Program
Description for Operational Nuclear Power Plants." CPC-2A, Section 5.2 states,in
part, administrative and maintenance general procedures are used to control
activities affecting the quality of safety related structures, systems, and
components. Administrative Procedure 3.2.1.1, " Performance of Maintenance,"
Revision 16, Step 5.2.1.f reouires that the repair person must ensure he has proper
working clearance prior to beginning work. Contrary to the above, on March 6,
1997, an event occurred when the tone relay control panel for the 138 KV line
varistors popped and smoked. An electrician did not acquire required tagging or
clearance for testing the amplidyne controller. During the testing, a 120 VAC signal
vias applied to the existing 125 VDC voltage making a total of 245 volts. The high
voltage caused the protective varistors to pop and smoke, then open and protect
the circuit from further damage. Performing the amplidyne controller testing
without adequate clearances was an example of a violation of Technical
Specifications (VIO 50-155/97004-01a(DHP)).
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c. Conclusion
The inspectors concluded that an electrician did not acquire the required tagging
and clearances to test a coil in the amplidyne controller. This resulted in varistors
on the 138 KV line tone control panel located in the control room to fail and was a
violation of Technical Specifications.
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M1.3 Main Steam isolation Valve-7050 Motor Meaaered with DC Feeder Breaker
Eneroized
a. Insoection Scope
On March 17,1997, the MSIV-7050 motor was meggered without required
l personnel protective tagging and with the DC feeder breaka ?losed. The inspectors
l reviewed station logs; WO MSS-12710295, " Testing of the MStV"; procedure
MGP-39, " Motor Operated Valve Post-Maintenance Testing"; Administrative
Procedure 3.2.1.1, " Performance of Maintenance,"; CR BRP-97-188, "ASD System
Ground"; Technical Specification 6.8.1; CPC-2A, " Quality Program Description for
Operational Nuclear Power Plants"; and previous inspection reports. The inspectors
also held discussions with maintenance personnel and licensee management.
b. Observations and Findinos
On March 17,1997, at 9:15 a.m, an auxiliary shutdown building (ASD) 125 VDC
ground alarm was received in the control room. A control room operator called the
ASD building and determined that the alarm occurred when maintenance personnel
were meggering the MSIV-7050 motor while performing WO MSS-12710295. The
work was stopped and management interviewed maintenance personnel. It was
determined that the meggering was being performed without personnel protective
tagging and without opening the DC feeder breaker. The need to check both items
had been discussed in the pre-job briefing between the maintenance supervisor and
two workers just prior tt )erforming the meggering; however, neither the
- supervisor nor the workers checked the items prior to performing the meggering.
The involved maintenance supervisor and two maintenance workers received
disciplinary action. On March 29, the licensee conducted a maintenance stand
down for 4-hours where maintenance, and work planning and scheduling personnel
discussed this error.
Technical Specification (TS) 6.8.1 requires that written procedures be established,
implemented, and maintained for all structures, systems, components, and safety
actions defined in the Big Rock Point Quality List. These procedures shall meet or
i exceed the requimments of ANSI N'r8.7, as endorsed by CPC-2A, " Quality Program
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Description for Operational Nuclear Power Plants." CPC-2A, Section 5.2 states, in
part, that maintenance general procedures (MGPs) are used to control activities
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affecting the quality of safety related structures, systems, and components,
i Maintenance General Procedure 39, " Motor Operated Valve Post-Maintenance
Testing," Revision 16, Step 3.0.k requires that, if required, Personnel Protective
Tagging be requested and obtained for work to be performed in this procedure and,
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Step 5.2.1 requires that the motor operated valve feeder breaker is ensured open.
Administrative Procedure 3.2.1.1, "Perfortnance of Maintenance," Section 5.2.1.f
requires that the repair person must ensure he has proper working clearance,if
required, prior to beginning work. The above self-revealing event resulted from
meggering the MSIV-7050 motor without tra required personnel protective tagging
and with the MOV DC feeder breaker closed. This was a violation of TS 6.8.1 (VIO
50-155/97004-01 b(DRP)).
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After the meggering error, on March 20,1997, a 4-hour maintenance and work
l control center stand down meeting was held. At the stand down meeting, the
above two events and fourteen other 1996 condition reports related to tagging and
work clearance errors were discussed. Licensee immediate corrective actions
resulting from the stand down meeting were:
e If a worker was not working directly with the personnel in charge of Clear
Form 173, permission to work under the person in charge would be required.
e WCC personnel were responsible for verifying the need for tagging,
o Maintenance personnel are required to verify on a daily basis that the
electrical system or component is deenergized, the equipment is checked
with a meter, and verification made that electrical protective tags are still in
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place.
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l * All released work orders that were issued and not completed would be
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returned to the work control center at the end of the day. The work orders
would be re-issued from the work control center at the beginning of the next
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day.
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c. Conclusions
The inspectors concluded that maintenance personnel violated TS requirements
when meggering the MSIV-7050 motor without personnel protective tagging and
with the DC feeder breaker closed. The inspectors also determined that the
licensee took appropriate corrective actions.
, M 1.4 Refurbishina of Backuo Core Sorav Valves MO-7071 and VPI-303
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- a. Insoection Scone
The inspectors monitored the repair of backup core spray valves MO-7071 and VPl-
303, held discussions with maintenance workers regarding these activities, and
reviewed WOs PIS-12612081 "MO-7071 Leaking Past the Seat" and PlS-
12710233 "VPI Leaks By."
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f On March 2,1997, after a small steam leak was identified through backup core
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spray valves MO-7071 and VPI-303 and through a pin hole in the telltale pipe, the
licensee made a decision to shut down the plant and refurbish the backup core
spray valves. Primary system unidentified leakage was at 0.206 gpm. which was !
less than the allowable leakage of 1.0 gpm. Backup core spray valve MO-7071 is a ,
l Anchor-Darling 4-inch gate valve, and valve VPI 303 is a Anchor Darling 4-inch ,
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check valve. Both valves were found to have damage from steam cutting, and in
i both cases the discs had to be refurbished and reassembled. >
l c. Conclusion
To prevent further steam cutting damage to valves MO-7071 and VPI-303 and the l
increase in unidentified primary system leakage, the licensee shut down the plant
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and refurbished the valves.
M1.5 Ooeration of Direct Current Breakers With Protectiye Devices Different Than Plant
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a. Insoection Scooe
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The inspector observed station direct current (DC) breaker testing, held discussions
with electrical engineers, and reviewed print No. 0740G30102, Sheet No.1 and
breaker testing sheets.
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b. Observations and Findinos
During testing of station DC breakers 72-11 and 72-12, the licensee determined
that the protective devices installed in the breakers were not the same as indicated
on plant drawings. According to drawing No. 0740G30102, both the breakers
were to have thermal only protective devices. Breaker 72-11 was found to have a 1
thermal and magnetic protective device, and breaker 72-12 had a magnetic only
protective device. The licensee developed concerns as to the protective tripping
coordination between the load breakers and DC distribution panel breakers 72-11
and 72-12. Review of the breaker coordination and the reason for the difference in I
installed protective devices is an unresolved item (URI 50-155/97004-02(DRP)). As
immediate corrective action, the licensee replaced breaker 72-12 with a new
breaker with a thermal only protective device. Breaker 72-11 was satisfactorily
tested e d e safety evaluation concluded that this breaker would adequately
perform .* protective functions.
c. Conclusions
The licensee unknowingly operated the station DC breakers 72-11 and 72-12 with
protective devices different than the original plant design.
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M1.6 Potential Defective Sorina in Diesel Fire Pumo Relief Valve
a. Insoection Scone
i The inspectors observed the inspection of diesel fire pump (DFP) relief valve RV-
5062 springs and the testing of the relief valve.
b. Observations and Findinas
in October 1996, during a DFP pump test, relief valve RV-5062 opened and failed
to reciose. The valve was replaced with a spare, and the replaced valve was sent
to a lab for metallurgical analysis. The lab determined that the valve spring had
manufacturing indications (crack lines) and had failed as a result of fatigue. A spare
spring was then sent to the lab and manufacturing indications were again identified.
On April 1,1997, DFP relief valve RV 5062 was removed from the system and a i
new spring was installed. The licensee ordered two new springs and performed I
magna-flex examinations on the new springs which revealed no indications. One of
the new springs was installed in the relief valve, and the relief valve's lift pressure
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was set and bench tested. The relief valve was re-installed into the fire system on 1
April 2,1997, and the diesel fire pump was satisfactorily tested,
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c. Conclusion l
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Indications were identified on diesel fire pump (DFP) relief valve RV-5062 springs,
however, the DFP relief valve remained in an operable condition. A new spring was
installed in the diesel fire pump relief valve and the valve was returned to service.
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M1.7 No. 2 Recirculation Pumo Seal Renair
a. Insoection Scooe
The inspectors attended a pre-job briefing for the No. 2 recirculation pump (RCP)
seal repairs, observed maintenance activities, held discussion with maintenance
personnel, and reviewed WO PCS-12611212 " Remove and Install RCP Seal," and
procedure MPC-2 " Reactor Recirculating Water Pump Seal Cartridge Replacement."
b. Observations and Findinas
On April 20,1997, after adjusting seal flows during a plant startup, the operator
determined that the inner seal on the No. 2 reactor recirculation pump was not
functioning properly. The reactor was shutdown and the seal was removed from
the pump. The sealis a Byron-Jackson two stage mechanical seal. The cause of
the seal failure was aging (4-years of operation) and dirt in the seal. The seal was
rebuilt and installed in the pump. The inspectors interviewed the maintenance
senior technical analyst (STA) who inspected the failed seal during the seal
disassembly. The inspectors learned that the seat failed from crud build-up. The
inner seal had recorder trackings and the upper seal had a combination of recorder
trackings and light checking. The control room log indicated that on April 24,
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1997, while maintenance was tightening the coupling that had a small water leak, ,
the 1-inch flexible hose No. 2 reactor recirculation pump heat exchanger for the
cooling water ruptured. The leak was successfully isolated and the hose and
j coupling were replaced. The pump was satisfactorily tested on April 24,1997.
The inspectors' review of WO PCS-12300908, to dissemble No. 2 RCP seal
cartridge, determined that the seal cartridge was last replaced on August 20,1993.
The inspectors' review of the WO summary indicated that the lower stationary face '
was chipped and saddle shaped, the upper stationary carbon faco was chipped and
l grooved, and the shaft sleeve was grooved at both u-cap surfaces.
c. Conclusion
The licensee promptly shut the plant down upon discovery of the malfunctioning of
l the No. 2 reactor recirculation pump inner seal. Maintenance activities observed by
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the inspectors related to the job were appropriately performed. l
Ill. Enaineerino
- E1 Conduct of Engineering
E1.1 Over Pressurization of Fire Protection / Post Incident System
a, Insnection Scooe
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l The inspectors reviewed the design change package for the over pressurization of I
the Fire Protection / Post incident System and discussed the results and proposed
actions to be taken with cognizant engineering personnel. Available records,
documents and procedures related to the problem were also reviewed.
b. Observations and Findinas
During post repair testing of the diesel driven fire pump, licensee personnel
discovered that, for brief periods of time, the fire protection / post incident system I
had been subjected to pressures in excess of the 150 psig design pressure. The l
design of the fire protection / post incident system did not provide a method for flow l
of water from the system during the testing of the fire pumps. The design pressure
of the system was 150 psig and the six relief valves in the system were set at 155
psig. Both the motor driven and the diesel driven fire pumps were tested weekly
with no allowances made for flow through the system. There were no problems
with the motor driven fire pump testing; however, during testing of the diesel
driven fire pump the system was subjected to pressures in excess of design
pressure for brief periods during the tests The diesel driven fire pump provided a
l higher pressure which resulted in the over pressurization of the system to a
l maximum of 168 psig. The six relief valves in the system opened each time the
i set-point pressure was exceeded. Most of the water was discharged through the
l 4-in:h system over pressure relief valve RV-5062.
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During the review and discussions regarding this problem, the inspectors were
informed that a design change was in process to raise the design pressure of the
post incident system inside containment to 200 psig. The three relief valves inside
containment would be replaced with relief valves set at 200 psig preventing the
relief valves from opening during diesel fire pump (DFP) testing.
The inspector reviewed the design change package SC 97-007 for this
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modification. The change appeared to be appropriate for the upgrade of the system
inside containment. Actions to be taken on the system outside of containment
were to be addressed under the licensee's corrective action system.
c. Conclusions
The system modification design package to upgrade the portion of the fire
protection / post incident system inside containment to a design pressure of 200 psig
appeared to be good. The installation of 200 psig relief valves inside containment
will prevent the actuation of these relief valves during fire pump testing and reduce
the leakage problem through these valves.
The external portions of this system appeared to meet the 1955 ASME Boiler and
Pressure Vessel Code, which applies to Big Rock Point. The code allows the design
pressure to be exceeded, by a limited amount, for short periods of time. The
external portions of this system appeared to meet this criteria.
E1.2 Licensee's Corrective Actions for Previous Conditions ineffective to Prevent Re-
occurrences of Taaaina Errors
a. Insoection Scoce
The inspectors reviewed the licensee's past CRs relating to clearance and tagging
orders to determine whether the corrective actions were adequate to prevent the
occurrence of the tagging and clearance errors related to testing of the amplidyne
controller coil and meggering the main steam isolation valve. The inspectors
reviewed the CRs listed below:
- C-BRP-96-0072: Inadequate Workmen's Protective Tagging MO-N001B j
e C-BRP-96-0158: Wrong Device Red Tagged ;
e C-BRP-96-0165: Inadequate Tagging For Breaker Functional
e C-BRP-96-0295: Electrical Arc While Performing Scram Solenoid Pilot
Valve Termination ,
e C-BRP-96-0301: No Tagging on MO-7070
e C-BRP-96-0475: Inadequate FME and Failure to Follow APM
e C-BRP-96-0504: Minor electrical Shock During Ballast Replacement
e C-BRP-96-0564: Failure to Receive Working Clearance
e C-BRP-96-0634: Miscommunication On Tagging and Planning
e C-BRP-96-0647: Unexpected 20 Volts After Tagging Equipment '
e C-BRP-96-0916: Waste Hold Tank Tagging For PM
e C-BRP-96-0929: Incorrect Breaker Tagged
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- C-BR P-96-0944: Insufficient Tagging for PI Test Tank
- C-BRP-96-1052: WO Had Work Listed That Should Not Be Performed
- C-BRP-96-1053: WO Released Without Proper Tagging Review
b. Observations and Findinas
The inspectors' review of the above CRs determined the apparent causes, and the
licensee's corrective actions were as follows:
- CR-96-0072 (Dated January 12,1996). The root cause was inadequate
electrical tag 0i ng for the work scope. Corrective actions included
discussions between operators and work control personnel to review the
work and the submitted formal, written requests for tagging assistance.
- CR-96-0295 (Dated February 20,1996). The cause of this event was the
fact that an exposed terminal block located inside the cable tray where work
was being performed had no warning label attached. The licensee
determined that the power to the terminal block could have been checked
)
prior to beginning work. One of the licensee's corrective actions was to '
place a warning label on the exposed 120V AC terminal block.
- CR-96-0301 (Dated February 21,1996). The root cause was failure to
verify that equipment being worked on was electrically isolated. Corrective l
actions included discussion of the event with plant personnel to reemphasize
the importance of physically ensuring that equipment was electrically
isolated.
- CR-96-0475 (Dated April 18,1996). The apparent cause of this event was
the worker failed to verify that voltage was removed from an electrical
solenoid valve SV-4928 after receiving tagging clearance and when working
on CV-4928. The teensee reviewed the incident with the repair worker and
reminded maintenaace crews of the importance of verifying that no voltage
was present prior to commencing work.
- CR-96-0564 (Dated.May 30,1996). This CR evaluated four electrical
tagging errors (96-295,96-504,96-634, and 95-629 " Electrical Shock
While Cleaning Tank T-51" (fire accumulator tank)). One of the licensee's
corrective actions was that the work group performing the electrical work
would identify the points that require tagging prior to performing work.
Another licensee action was to conduct tagging requalification training for
the maintenar.re personnel which was scheduled to be completed by August
31,1997.
- CR-96-1053 (Dated December 18,1996). A work order was released
l without a proper tagging review. The licensee's corrective actions were to
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discuss this and similar errors with WCC personnel. This action was
completed on February 11,1997 and the same corrective action was
completed with mechanical and electrical personnel on March 10,1997.
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c. Conclusions
The inspectors concluded that in some cases, the licensee's corrective actions were
incomplete, resulting in repetitive tagging and clearance problems. However, recent
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corrective actions related to clearance and tagging problems appear to be
comprehensive. The inspectors will continue to closely monitor for additional ,
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instances of clearance and tagging problems.
IV. Plant Suonort
R1 Radiological Protection and Chemistry Controls (71750)
R 1.1 General Comments -
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Using Inspection Procedures 71707 and 71750, the inspectors made frequent tours l
of the radiologically protected area (RPA) and discussed specific radiological l
controls with the ALARA coordinator and various radiation protection (RP) *
technicians. The inspectors observed plant conditions and licensee performance
including radiation protection practices.
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S1 Conduct of Security and Safe 0uards Activities (71750)
S1.1 General Comments
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During normal resident inspection activities, routine observations were conducted in
the areas of security and safeguards activities using Inspection Procedure 71750. ;
No discrepancies were noted. ;
V. Manaaement Meetinos
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X1 Exit Meetina Summarv l
The inspectors presented the inspection results to members of licensee
management at the conclusion of the inspection on April 29,1997. The licensee -
acknowledged the findings presented.
The licensee did not identify any of the documents or processes reviewed by the
inspectors as proprietary.
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PARTIAL LIST OF PERSONS CONTACTED ~
Licensee
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K. Powers, General Manager
, R. Addy, Plant Manager
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p. Beachum, Engineering Manager
G. Boss, Operations Manager
i. D. Hice, Maintenance Manager
l J. Rang, Decomrn & Business Manager
l K. Pallagi, Chemistry / Health Physics Manager
l W. Trubilowicz, Outage / Work Control Manager
l G. Withrow, Licensing Manager
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INSPECTION PROCEDURES USED _ . . , , ,
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IP 37551: Engineering
l lP 40500: Effectiveness of Licensee Controls in Identifying, Resolving, and Preventing
Problems
l IP 61726: Surveillance Observations
IP 62703: Maintenar.ce Observation
IP 64704: Fire Protection Program
IP 71707: Plant Operations
IP 71750: Plant Support Activities
IP 73753: Inservice Inspection 4
IP 83729: Occupational Exposure During Extended Outages I
IP 83750: Occupational Exposure '
iP 92700: Onsite Followup of Written Reports of Nonroutine Events at Power Reactor
Facilities l
IP 92902: Followup - Engineering
IP 92903: Followup - Maintenance
ITEMS OPENED and CLOSED
. Opened
155/96004-01a VIO Failure to Follow Procedures for Clearances and Tagging
155/96004-01 b VIO Failure to Follow Procedures for Clearances and Tagging
155/96004-02 URI Protective Devices Installed in DC Breakers Different from
Original Design
Closed
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LIST OF ACRONYMS USED ,
ALARA As Low As Reasonably Achievable
AO Auxiliary Operator -
AP Administrative Procedure .
CFR. Code of Federal Regulations
CR Condition Report
DFP Diesel Fire Pump
DRP Division of Reactor Projects
IP inspection Procedure
IPTE Infrequently Performed Test and Evolution
IR Inspecticn Report
MSIV Main Steam isolation Valve
MGP Maintenance General Procedure -
NCV Non-Cited Violation
NOV Notice of Violation
NRC Nuclear Regulatory Commission
RCP Recirculation Pump
RPA Radiologically Protected Area
SS Shift Supervisor
SV Solenoid Valve
TS Technical Specification
URI Unresolved item
VIO Violation
WCC Work Control Center
WO Work Order
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