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{{Adams | |||
| number = ML20137V153 | |||
| issue date = 03/24/1997 | |||
| title = Insp Repts 50-369/97-01 & 50-370/97-01 on 970112-0222. Violations Noted.Major Areas Inspected:Operations, Maintenance,Engineering & Plant Support | |||
| author name = | |||
| author affiliation = NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION II) | |||
| addressee name = | |||
| addressee affiliation = | |||
| docket = 05000369, 05000370 | |||
| license number = | |||
| contact person = | |||
| document report number = 50-369-97-01, 50-369-97-1, 50-370-97-01, 50-370-97-1, NUDOCS 9704170226 | |||
| package number = ML20137V136 | |||
| document type = INSPECTION REPORT, NRC-GENERATED, TEXT-INSPECTION & AUDIT & I&E CIRCULARS | |||
| page count = 28 | |||
}} | |||
See also: [[see also::IR 05000369/1997001]] | |||
=Text= | |||
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1 | |||
U.S. NUCLEAR REGULATORY COMMISSION | |||
l | |||
REGION II ! | |||
l | |||
Docket Nos: 50-369. 50-370 | |||
License Nos: NPF-9. NPF-17 | |||
Report No: 50-369/97-01. 50-370/97-01 | |||
, | |||
1 | |||
Licensee: Duke Power Company | |||
Facility: McGuire Generating Station. Units 1 & 2 , | |||
Location: 12700 Hagers Ferry Rd. | |||
Huntersville. NC 28078 | |||
Dates: January 12. 1997 - February 22. 1997 | |||
Inspectors: S. Shaeffer. Senior Resident Inspector , | |||
M. Sykes Resident Inspector | |||
W. Holland. Regional Inspector (paragraphs M7.1. E8.1) | |||
P. Kellogg. Regional Inspector (paragraphs E2.2. E8.3) | |||
V. Nerses. NRR Senior Project Manager (paragraph E3.1) | |||
Approved by: C. Casto. Chief. Projects Branch 1 | |||
Division of Reactor Projects | |||
Enclosure 2 | |||
" | |||
9704170226 970324 | |||
PDR ADOCK 05000369 | |||
G PDR | |||
l | |||
1 | |||
, . | |||
, | |||
' | |||
, | |||
EXECUTIVE SUMMARY l | |||
McGuire Generating Station. Units 1 & 2 : | |||
NRC Inspection Report 50-369/97-01, 50-370/97-01 i | |||
l | |||
This integrated inspection includes aspects of licensee operations, engineer- ! | |||
ing, maintenance, and plant sup) ort. The report covers a 6-week period of | |||
resident inspection and region aased inspection. | |||
Ooerations | |||
. 0)erator actions to reduce unit power and realign main feedwater flow - | |||
t1 rough the auxiliary feedwater nozzle following identification of a | |||
' hydraulic fluid leak at main feedwater containment isolation valve 1CF26 | |||
was good (paragraph 02.1). l | |||
. Operator diagnosis of arid response to the loss of Unit 2 isophase bus | |||
cooling and coincident rcd control system malfunctions was good | |||
(paragraph 02.2). , | |||
. Operator response to the main generator voltage control problem was | |||
adec uate. Improved guidance to operators regarding the degraded | |||
concition was provided by engineering in a timely manner (paragraph | |||
02.3). | |||
. Control of Unit 1 shutdown for refueling was adequate. Shutdown | |||
activities were conducted with minimal impact on the operating unit | |||
(paragraph 02.4). | |||
. An URI was identified to continue inspection of an RCS leak through a | |||
letdown filter casing. Operator response to the event was good | |||
(paragraph 03.1). | |||
. The station's monitoring of control room indication problems, as defined | |||
by the licensee's CRIP process, was considered to be adequately | |||
implemented. The inspectors also concluded that the process may be | |||
challenged during the upcoming Unit 1 OAC replacement project. The use | |||
of Control Room information tags was generally well implemented. The | |||
inspectors expressed a concern to Operations Management regarding | |||
' | |||
potential overlapping of problem tracking processes, including the | |||
operator work around process, which could present confusion regarding | |||
problem monitoring and resolution (paragraph 04.1). | |||
* A significant weakness was identified concerning inconsistencies between | |||
; the critical action times modeled in the simulator and the actual plant | |||
response times during plant transients. The example noted could have | |||
adversely impacted operator response capabilities by training on the | |||
l incorrect critical action times. Once identified. licensee immediate | |||
! corrective actions and response to the concerns were considered adequate | |||
(paragraph 05.1). | |||
Enclosure 2 | |||
l | |||
' | |||
,. . | |||
. | |||
2 | |||
+ | |||
Control of overtime for plant personnel and postings to workers during | |||
this period was adequate. Licensee assessments performed on the control | |||
of overtime were detailed and provided good oversight (paragraphs 06.1 | |||
and 06.2). | |||
. | |||
The results of the INPO evaluation completed in late 1996 were generally | |||
consistent with the results of similar evaluations conducted by the NRC. | |||
No additional NRC follow-up of any specific issue was identified | |||
(paragraph 07.1). | |||
Maintenance | |||
. | |||
Corrective maintenance activities associated with malfunctions of | |||
isophase phase bus cooling fans were thorough (paragraph M2.1). | |||
. Control of non-tagout work activities was not sufficient to provide | |||
adequate controls to ensure proper tracking to prevent occurrences that | |||
may potentially result in personnel injuries and equipment damage | |||
(paragraph M3.1). | |||
. The licensee's restructuring of the Maintenance and Work Control | |||
organizations to provide better distribution of responsibilities without | |||
disrupting the current Work Control process was adequate. The | |||
inspectors also noted that the restructuring should also enhance QA/0C | |||
independence (paragraph M6.1). | |||
. The licensee was actively involved in evaluation and resolution of motor | |||
problems. The Root Cause Failure Analysis Report was thorough and | |||
identified several focus areas for improving motor performance. Even | |||
though some motor problems continued. the licensee's Quality Improvement | |||
Team initiative at McGuire had produced some positive results, and | |||
should im3 rove motor performance if the initiative is continued | |||
(paragrapa M7.1). | |||
Enaineerina | |||
. The inspector concluded that engineering personnel were performing in- | |||
depth reviews of the Refueling Water system design basis to ensure | |||
compliance in that area and to identify any potential problems. An IFI | |||
was identified regarding ongoing reviews of previous FWST design changes | |||
and the FWST current design basis (paragraph E2.1). | |||
. Reviews of engineering activities which support operations by | |||
observations of engineering and operations personnel interfaces and | |||
review of active engineering material in the control rooms concluded | |||
that engineering was providing effective support to operations. The | |||
number of open evaluations / determinations was not abnormal. The quality | |||
of the determinations was good and the results were well documentetl | |||
(paragraph E2.2). | |||
, | |||
Enclosurt 2 | |||
. . | |||
, | |||
4 | |||
3 | |||
. The review of the 50.59 annual summary of changes, tests, and | |||
experiments concluded that the licensee has complied with the | |||
regulations (paragraph E3.1). | |||
. The licensee's use of the trippable worth strategy in Mode 4 was | |||
considered conservative based on available information. The licensee's | |||
detailed evaluation of the practice confirmed that the issue was not a | |||
safety concern. The inspectors recognized the licensee's efforts and | |||
good questioning attitude (paragraph E4.1). | |||
. | |||
The final root cause analysis and corrective actions for the Emergency | |||
Diesel Generator lubricating oil pressure sensing line issue | |||
appropriately addressed the problem (paragraph E8.1). | |||
Plant Sucoort | |||
. | |||
A Violation of 10 CFR 70.24 (a)(3) was identified for failing to have | |||
established emergency procedures to address a potential criticality | |||
event. In addition, requirements to perform evacuation drills of the | |||
affected areas were also not met (paragraph R1.1). | |||
i | |||
l | |||
Enclosure 2 | |||
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l | |||
. - . - _ . . - . . - .. | |||
- | |||
. | |||
. | |||
Reoort Details | |||
Summarv of Plant Status | |||
Unit 1 began the inspection period at approximately 100 percent power. On | |||
January 23, a power reduction to approximately 20 percent was made to allow | |||
for repairs to the main feedwater isolation valve ICF26. The valve actuator | |||
had developed a fluid leak. After repairs were completed, the unit returned | |||
to 100 percent power. On February 11. Unit 1 began a coastdown power | |||
i reduction leading to the U1EOC11 outage. The unit was shutdown ori | |||
February 14. for the beginning of the planned 90 day outage. After an | |||
extended RCS crud burst to facilitate lower outage dose, the unit was cooled | |||
for defueling operations. At the end of the inspection period, Unit 1 was in | |||
progress of core offload. | |||
Unit 2 began the inspection period at approximately 100 percent power. On | |||
January 21 a power reduction to approximately 70 percent was necessary due to | |||
the failure of one of the unit's isophase bus cooling fans and the inability | |||
to immediately start the backup fan. After adjustment of a limit switch, the | |||
backup fan was started and the unit was returned to 100 percent power the | |||
following day. The unit operated at approximately 100 percent power for the | |||
remainder of the inspection period. | |||
Review of UFSAR Commitments | |||
While performing inspections discussed in this report, the inspectors reviewed | |||
the applicable portions of the UFSAR that were related to the areas inspected. | |||
The inspectors verified that the UFSAR wording was consistent with the | |||
observed plant practices, procedures, and/or parameters. | |||
I. Operations | |||
1 | |||
01 Conduct of Operations | |||
01.1 G_eneral Comments F/1707) | |||
Using Inspection Procedure 71707, the inspectors conducted frequent | |||
reviews of ongoing plant operations. In general, the conduct of | |||
operations was professional and safety-conscious; specific events and | |||
noteworthy observations are detailed in the sections below. The | |||
shutdown of Unit 1 for the planned 90 day refueling / steam generator i | |||
replacement outage was well controlled and executed. In addition to the i | |||
issues discussed in this report, other steam generator specific | |||
inspections are detailed in NRC Inspection Report 369/97-03. | |||
; | |||
4 | |||
Enclosure 2 | |||
__ _ _ _ _ _ _ _ _ . _ . _ _ _ . _ _ _ _ . _ ._ . | |||
' - | |||
i. . . | |||
' | |||
: | |||
{ | |||
! 2 | |||
02 Operational Status of Facilities and Equipment (71707) | |||
02.1 Main Feedwater/ Containment Isolation Valve ICF26 Actuator Hydraulic | |||
Fluid Leak | |||
On January 23, control room operators performed a rapid down)ower of | |||
l Unit 1 in accordance with Abnormal Procedure AP/1/A/5500/04 Rapid | |||
L Downpower. The_ unit power was reduced to approximately 20 percent in | |||
response to a hydraulic fluid leak at valve 1CF26. Main | |||
Feedwater/ Containment Isolation Valve to the "D" Steam Generator.. | |||
Operators realigned main feedwater flow through the auxiliary feedwater | |||
' | |||
nozzle to minimize the-probability of a loss of feedwater to the | |||
, | |||
generator due to the uncontrolled closure of ICF26. The valve is | |||
l- located in the Feedwater System flowpath to the O steam generator main ! | |||
j nozzle in the main steam vault. Valve ICF26 is a safety related ; | |||
hydraulic isolation valve. The valve receives a signal to close on a | |||
' | |||
j | |||
, | |||
Safety Injection Low Tavg coincident with Reactor Trip. HI-Hi doghouse 1 | |||
l | |||
Water Level, or HI-HI steam generator level | |||
l .The inspectors noted that control room operator recognition of 'and | |||
; response to the indications of the hydraulic fluid leak were good. The | |||
l unit remained at reduced power until-the leak could be repaired. | |||
l Following the repair.- testing was completed and the valve returned to l | |||
l service. The normal main feedwater flowpath was re-established and .i | |||
l power escalated to approximately 100 percent with no additional | |||
l operational challenges. | |||
02.2 Isolated Phase Bus Coolina Fan , | |||
, | |||
a. Insoection Scope | |||
l | |||
l The inspectors reviewed the licensee's response to the failure of the ) | |||
i Unit 2 Isolated Phase Bus Cooling System and coincident malfunction of , | |||
! the Unit 2 Rod Control System. ; | |||
i | |||
b. Observations and Findinas | |||
i | |||
On January 20, the Unit 2 IPS cooling fan 2A tripped. Operators were | |||
di_spatched to start the standby 2B fan but attempts to start the standby | |||
, fan were unsuccessful. As a result, control-room operators began a | |||
! rapid downpower in accordance with Abnormal Procedure AP/2/A/5500/04. : | |||
While reducing generator load, operators recognized that the rod control i | |||
system was not responding as expected to the Tavg-Tref mismatch. The | |||
operators took manual control of the rod control system and generator 1 | |||
load control and stabilized generator output at approximately 70 percent | |||
' | |||
.and busline-current less than 20,000 amperes. The reduction of busline | |||
current to less than 20,000 amperes was recommended to reduce the | |||
overheating electrical components. The standby 2B cooling fan was | |||
, subsequently started when the suction dam)er limit switch was manually | |||
' | |||
adjusted. The suction damper limit switc1 position must be established | |||
. | |||
: . | |||
Enclosure 2 | |||
' | |||
f | |||
l | |||
L | |||
l | |||
1. | |||
_ , . . - - . - - , | |||
_ _ - . _ . . . _ _ . _ _ . _ . . _ _ _._._. _ _._ _ _ _ _ _ . _ __ _ | |||
' - | |||
.. | |||
o | |||
3 | |||
prior to fan operation. Unit 2 returned to 100 percent power on January | |||
21. | |||
Work requests were generated to investigate and troubleshoot the IPB | |||
cooling system and rod control system malfunctions. See paragraph M2.1 | |||
for'further discussion of these items. | |||
c. Conclusions | |||
The . inspectors concluded that operator diagnosis of and response to the | |||
loss of IPB cooling 'and the coincident rod control system malfunctions | |||
was good. The inspectors also concluded that the load reduction, | |||
although not mandated by TS. was conservative. | |||
02.3 Unit 1 Voltace Reaulator Perturbations | |||
a. Insoection Scone | |||
The inspectors reviewed operator response to a Unit 1 generator voltage | |||
fluctuation and its potential impact to the unit. | |||
b. Observations and Findinos j | |||
On February 11. 1997, operators responded to indications that the Unit 1 | |||
generator voltage was increasing for unknown reasons. Attempts were | |||
made to lower the voltage using the voltage adjust pushbutton with | |||
little effect. CR o)erators dispatched NL0s to locally investigate the- | |||
problem. Within a s1 ort time, operators stopped the continued voltage | |||
increase: however, voltage swings were occurring. Transmission group | |||
personnel were called to assist in the troubleshooting effort. The | |||
maximum voltage seen during the transient was 25.45 kv and 713 MVAR. | |||
The swings lasted approximately one hour. The operators were eventually | |||
able to return the voltage to the normal range. The voltage swings were | |||
determined to not have adversely affected any major plant. equipment. | |||
The licensee. installed a recorder on the control cabinet to attempt to- | |||
determine what caused the voltage swings. During the shutdown of Unit 1 | |||
for the outage several days later, no additional problems were | |||
identified with the operation of the voltage. regulator. The licensee | |||
determined that operator guidance could be improved regarding this type | |||
of-anomaly and its potential impact on the plant. Procedural-guidance | |||
was developed to place operating limits on the voltage swings to protect | |||
plant equipment. The licensee plans to continue troubleshooting of the | |||
l problem during the Unit 1 outage and will perform a root cause | |||
investigation of the occurrence. Management focused the investigation | |||
on determining the problem due to a potential recurrence during unit | |||
restart from the outage. | |||
' | |||
. | |||
I | |||
Enclosure 2 | |||
{ | |||
i | |||
' ' - - " | |||
, ,, ,_,-4 - . . - - - , . , .---e . ~< v --v= ' - " - ' - - | |||
- . - - - . _ . - - - . - - . - - . - . - - . . - . .. . . . . - -. - . | |||
L | |||
n | |||
; , .a . | |||
i | |||
~ | |||
l | |||
' | |||
4 | |||
j c. Conclusions | |||
'The inspectors concluded that initial operator response to the main | |||
generator voltage control problem was adequate. Improved guidance to | |||
operators regarding the degraded condition was provided by engineering ) | |||
in a timely manner. ! | |||
02.4 Unit 1 Shutdown for Unit lEOC11 Outaae | |||
l | |||
a. Insoection Scooe I | |||
The inspectors witnessed portions of the Unit 1 shutdown.to Mode 4 | |||
focusing on special activities in progress that could impact safety | |||
system performance or reliability to verify that licensee controls were | |||
l sufficient, | |||
j b. Observations and Findinas , | |||
.i | |||
The inspectors witnessed portions of the Unit 1 shutdown for.1E0C11 on | |||
l February 14. The unit entered Mode 3 on at 0412 and Mode 4 at 1438. | |||
The shutdown was controlled in accordance with 0)erating Procedure | |||
OP/1/A/6100/02. Controlling Procedure for Unit Slutdown. During the | |||
shutdown, the inspectors noted that on shift control room operators were | |||
attentive and responsive to )lant parameter changes and communicated the | |||
changes to the appropriate slift personnel. Control room staffing met | |||
l TS requirements and distractions were kept to a minimum in the horseshoe | |||
i area. Operating conditions of plant equipment were ade | |||
' | |||
and appropriate actions were initiated when necessary. Known quately | |||
steammonitored | |||
generator 1B leakage remained below TS leakage limits with no unexpected | |||
increases. At the time of the unit shutdown, the leakage was | |||
approximately 60 gad. Adequate core monitoring equipment was available ' | |||
and operable for t1e operational mode. | |||
During the unit shutdown, the inspectors witnessed portions of ongoing | |||
surveillance activities including B Train EDG-24 hour surveillance run. | |||
; ~ | |||
4160V essential power system realignment to support offsite and | |||
L emergency power supply maintenance, and RCCA drop time testing to meet | |||
. Generic Letter 96-01 commitments. | |||
L | |||
! | |||
The licensee encountered some unexpected difficulties 'during the < | |||
shutdown to Mode 5. The Source range channel N31 detector failed. | |||
Because the licensee had installed additional source range monitoring | |||
equipment no dgnificant safety concerns were identified. The rod drop | |||
time testing could not be completed-in its entirety due to rod control | |||
malfunctiom. The inspectors determire3 that no deviation from the | |||
Generic Letter 96-01 commitment existed. A primary system leak occurred | |||
on a letdown filter casing (see paragraph 03.1). At the close of the | |||
; -inspection reporting period. no enforcement' actions were identified. | |||
? | |||
+ | |||
1 | |||
l | |||
i Enclosure 2 | |||
! l | |||
L i | |||
l | |||
l | |||
1 | |||
,, _, - - . _ | |||
, _ _ _ , _ . _ . | |||
i | |||
' | |||
. | |||
; | |||
5 | |||
l | |||
c. Conclusions | |||
4 | |||
The inspectors noted chat licensee response to unexpected occurrences | |||
was good and control of plant shutdown was adequate. Shutdown | |||
activities were conducted with minimal impact on the operating unit. ) | |||
, | |||
02.5 50.72 Notifications | |||
a. Insoection Scooe | |||
1 | |||
During the inspection period, the licensee made the following i | |||
notifications to the NRC as required or for information purposes. | |||
b. Observations and Findinas | |||
l | |||
On February 15. 1997, operators made a 50.72 notification regarding | |||
excessive leakage from an isolable leak on the Unit 1 RCS letdown filter | |||
housing. The report was made under guidance provided by 10 CFR 50.72 | |||
(b)(1)(vi). where the leakage potentially could have hampered the | |||
performance of station Jersonnel due to the localized requirement for | |||
anti-contamination clotling. Based on subsequent review. the licensee | |||
later retracted the notification based on their determination that the | |||
leak did not pose a threat to the safety of the plant or hamper station | |||
personnel. | |||
c. Conclusions | |||
The inspectors concluded that the notification was prudent and that the | |||
retraction was adequate for the circumstances. The inspectors also | |||
reviewed the occurrence for potential Notification of Unusual Event | |||
(NOUE) and concluded the criteria for NOUE was not established. Details | |||
of the event are discussed below. | |||
03 Operations Procedures and Documentation | |||
03.1 RCS Leakaae in Excess of TS Limit Durino letdown Filter Chanaeout | |||
a. Insoection Scoce | |||
The inspectors reviewed events regarding an RCS leak which developed | |||
during changeout of the Unit 1 "A" RCS letdown filter. The unit was in | |||
MODE 4 and in process of being taken to MODE 5 for refueling | |||
preparations. | |||
b. Observations and Findinos | |||
At approximately 2350 hours on February 14 a leak developed at the | |||
filter access plate on the 1A RCS letdown iter housing when operators | |||
detensioned the housing cover. Filter c h geout was in 3rogress due to | |||
an approximate 19 psi differential pressure reading whic1 prompted the | |||
Enclosure 2 | |||
i | |||
_- - . - - . . - . . - - . - . - - . - - - . . . - . - - . - - . - - - . . . - | |||
, | |||
, | |||
* - | |||
, . | |||
' | |||
: | |||
i 6 | |||
1 | |||
* | |||
activity (not uncommon during unit shutdown). The unit was in MODE 4 at | |||
:' the time of the leak and at an RCS aressure of approximately 300 psig. | |||
All four RCPs were in operation. T1e operators entered the appropriate | |||
j abnormal response procedures and took actions (sampled) to identify the | |||
5 | |||
leak as either RCS-'or RMWST (RMWST is demineralized flush water which is | |||
utilized during filter changeout). The leakage was confirmed to be RCS | |||
and operators then isolated letdown, which stopped the leakage. Prior | |||
to repair of the leak area, operators raised a concern whether excess- | |||
letdown could be adequately established given the low RCS pressure and- | |||
whether pressurizer level should be reduced to increase the margin to | |||
solid RCS oaerations. After discussing the available options. | |||
Operations ianagement allowed letdown to be briefly reinitiated to allow | |||
for reduction of pressurizer level from approximately 80 to 40 percent. | |||
This and the placement of excess letdown in service allowed adequate | |||
repair time without challenging solid operaticns. | |||
The leak was estimated at ap3roximately 14 gpm. TS 3.4.6.2 requires | |||
that RCS identified leakage Je limited to 10 gpm or reduce the leakage | |||
within 4 hours or be in Hot Standby within 6 hours and cold shutdown | |||
with in the following 30 hours. As stated, the unit was in MODE 4 at | |||
the time of the event and the leakage was secured within the allowable | |||
TS ACTION requirements. Cleanup of the leak was completed in a timely | |||
manner and the event did not result in any personnel contamination | |||
incidents. Initial licensee review of the event identified leakage | |||
through the letdown filter isolation valve, procedural weaknesses, and | |||
configuration problems with the installed letdown filter housing vent. | |||
- | |||
The licensee is planning o.n performing a complete root cause .l | |||
investigation of the event. This issue will be identified as URI 50-- 1 | |||
369/97-01-01. Root Cause of RCS Letdown Filter leak. | |||
c. Conclusions | |||
The inspectors concluded that the operators were challenged by the RCS. | |||
leak and reacted to the event in an appropriate manner. Root cause | |||
evaluations will be performed to address the identified URI. | |||
' | |||
04 Operator Knowledge and Performance (71707) | |||
.04.1 Trackina of Control Room Problems | |||
.a. Insoection Scone | |||
During the inspection period, the inspectors reviewed a process by which | |||
the licensee monitors and trends control room indication problems and | |||
information tags on the control boards. | |||
b. Observations and Findinas | |||
One method that the licen a utilized to monitor CR problems is the | |||
Control Room Indicator ~ ;1em (CRIP) process. CRIPs are routinely | |||
Enclosure 2 | |||
_____ _ _. _ . _ .. _ _._- m. _ _ _ _ _ . _ . . _ . - _ _ _ _ | |||
- - | |||
. . | |||
~ | |||
: | |||
l' 7 | |||
) | |||
l | |||
tracked by operations and' reported to site management as a performance | |||
j | |||
measure to assess the impact of the equipment concerns on plant | |||
l operations. The program is defined by MSD 590. A CRIP is defined as a | |||
j control room instrument or control that cannot perform its intended | |||
! | |||
function, including any equipment problem which prevents a dark | |||
! annunciator condition when required. In general, these devices provide | |||
l information to CR operators on the status of plant equipment. provides | |||
! input to control process parameters, controls equipment operated from | |||
l the CR. and provides integrated information retrieval and display | |||
! capabilities. | |||
WRs are reviewed for applicability to the CRIP criteria as part of the | |||
work planning process. Per MSD 590, higher priority is given to those | |||
work recuests identified as a CRIP. Innage CRIP work orders are | |||
! expectec to be planned to allow resolution of the problem within two | |||
L weeks of origination. The status of CRIPs are monitored by maintenance | |||
management, operetions. and work control. | |||
The inspector discussed the CRIP process with involved plant personnel. | |||
performed CR walkdowns to determine if all relative issues were | |||
. | |||
' | |||
, | |||
. identified as CRIPs, and reviewed the historical completion of CRIP WRs. ; | |||
j As of the end of 1996, the total number of innage CRIP's was eight with | |||
' | |||
l a YTD average of six. The oldest innage CRIP was less than two weeks. | |||
l indicating that the work off was within the program guidance. The total | |||
l | |||
number of outage CRIP work orders was approximately 40. with the | |||
l expectation that all items would be resolved post outage. All equipment . | |||
l problems reviewed for CRIP applicability were found to be appropriately l | |||
l identified as such | |||
The inspectors also reviewed the CR information tagging process. This | |||
j utilizes yellow information tags on a variety of CR equipment which | |||
! | |||
allows operators to be informed about special equipment concerns. | |||
l problems, or expected responses. The inspectors compared the current | |||
information tags to the CR information tag log and did not identify any | |||
i majordiscrepancies. Some minor inconsistencies were found regarding | |||
, | |||
, | |||
tag issue information such as lead contacts or initiation dates. In l | |||
l general, operator awareness of the content of the information tags was | |||
considered adequate. All operators questioned were knowledgeable as to | |||
where to find additional information if necessary. | |||
c. Conclusions | |||
! | |||
l Based on the inspector's review, the station's monitoring of ' control | |||
> | |||
room indication problems, as defined by the licensee's CRIP process was | |||
[ effectively implemented. The inspectors also concluded that the process | |||
may be challenged during the upcoming Unit 1 0AC replacement project. | |||
' | |||
, | |||
l | |||
l | |||
' | |||
The use of CR information tags was generally well implemented. The | |||
, inspectors expressed a concern to Operations Management concerning | |||
; - potential overlapping of problem tracking processes, including the | |||
j operator work around process, which could present confusion regarding | |||
). Enclosure 2 | |||
N. . _. _ - | |||
, . - . | |||
~ | |||
. | |||
. | |||
8 | |||
problem mc'itoring and resolution. The licensee was receptive to the | |||
concente and was reviewing the issue for potential impacts. | |||
05 Operator Training and Qualification | |||
05.1 Differences in Assumed Simulator Response Times for Ooerator Actions | |||
a. Insoection Scope | |||
During the insaection period, the inspectors reviewed a licensee | |||
identified pro)1em concerning discrepancies between actual plant | |||
equipment response times versus simulator modeling of certain operator | |||
time critical actions. | |||
b. Observations and Findinas | |||
During an effort to verify that F5AR response times matched actual | |||
operator performance in transferring to RCS cold leg recirculation, the | |||
licensee identified several critical times which needed to be evaluated. | |||
Operators did not have problems completing the necessary steps prior to | |||
FWST depletion; however, critical times assumed in the simulator | |||
response were based on design assumations that differed from actual | |||
plant performance. Specifically, t1e most significant example was | |||
identified where the simulator was modeled with the containment spray | |||
pump flow rate of approximately 3.400 gpm whereas actual plant flow | |||
rates were closer to 4,000 gpm. This incorrect modeling of the | |||
simulator could have )otentially impacted operator response to a plant | |||
event by decreasing t1e time for critical operator action prior to FWST | |||
depletion. The ins)ector was specifically concerned that tN. incu rect | |||
simulator modeling lad gone undetected for a long period of time and | |||
could have conditioned operators to expecting a certain amount of time , | |||
to complete key actions during event response.. l | |||
Upon recognition of the con:.ern, operations reviewed the applicable ! | |||
procedures and identified numerous areas were enhancements could be made | |||
to increase the time allowed for critical action response. After the ! | |||
procedure enhancements were made, the procedures were re-validated with l | |||
crew performance. indicating that the critical functions could be | |||
3erformed. In addition, operator training emphasized that since the l | |||
WST could deplete faster than the simulator model during a design base l | |||
LOCA, operators may have been accustomed to exaggerated critical action ' | |||
time requirements in the past. The licensee also provided additional | |||
guidance which emphasized that key critical tasks should be performed | |||
"without delay" At the end of the inspection period, the licensee was | |||
continuing to evaluate other potential areas where operator critical | |||
time monitoring could be enhanced. | |||
Enclosure 2 | |||
.- -. . . ___ . .. . | |||
. . | |||
. | |||
. | |||
9 | |||
1 | |||
c. Conclusions | |||
The inspectors concluded that the inconsistency between the critical | |||
action times modeled in the simulator and the actual plant response | |||
times during plant transients was indicative of a significant weakness. | |||
The example noted could have adversely impacted operator response | |||
capabilities by training on the incorrect critical action times. Once | |||
identified, licensee immediate corrective actions and response to the | |||
concerns were considered adequate. | |||
06 Operations Organization and Administration (71707) | |||
06.1 Overtime Controls | |||
a. Insoection Scoce | |||
; The inspector performed a review of approved overtime for the most . | |||
recent months for the plant operations and maintenance groups. The l | |||
inspector also overviewed licensee records of all personnel overtime | |||
- | |||
exemptions for hours in excess of established limits. Control of | |||
overtime for plant personnel is required by Technical Specification | |||
- | |||
6.2.2.e and NSD 200. Overtime Control. These documents require the | |||
: licensee to document and properly authorize work hour extensions. | |||
b. Observations and Findinas | |||
' | |||
The inspector reviewed work hour extension documentation for the subject I | |||
groups and determined that the forms, in general, were properly filled | |||
, out and reasons for the work hour extensions were appropriate for the i | |||
; circumstances. The inspector verified that the station manager was ! | |||
reviewing a monthly site overtime report to determine that the use of | |||
overtime was warranted and not being abused. l | |||
- | |||
The inspector noted that in an overtime control report dated November | |||
20, 1996, the licensee's evaluation of the data identified several | |||
- | |||
discrepancies regarding the completeness of the required forms. The | |||
problems were documented in PIP 0-M-96-3399 for corrective action. | |||
c. Conclusions | |||
The inspector concluded that control of overtime for plant personnel | |||
during this period was adequate. In addition, the licensee assessments | |||
performed on the control of overtime were detailed and provided good | |||
oversight. | |||
06.2 Postino of Notices to Workers i | |||
During the ins)ection period, the inspector reviewed the licensee's | |||
compliance wit 1 the requirements of 10 CFR 50 Part 19.11, Posting of | |||
' | |||
Notices to Workers. The licensee implements these requirements via NSD | |||
Enclosure 2 | |||
r | |||
. .~ | |||
- | |||
, | |||
10 | |||
205, Posting Requirements. This procedure identifies three locations | |||
where required postings are to be maintained. The inspector verified | |||
that the licensee conspicuously posted current copies of NRC Form-3 and | |||
other required materials such as escalated enforcement and radiological | |||
violations in the areas. No problems were observed by the inspectors | |||
during this review. | |||
07 Quality Assurance in Operations (40500) | |||
07.1 Review of Institute of Nuclear Power Operations (INPO) report | |||
During the inspection period, the SRI and the NRC DRP Branch Chief, | |||
reviewed the most recent Institute of Nuclear Power Operations (INPO) | |||
report. The review concluded that the results of the INP0 evaluation | |||
completed in late 1996 were generally consistent with the results of | |||
similar evaluations conducted by the NRC. No additional NRC follow-up | |||
of any specific issue was identified. | |||
08 Miscellaneous Operations Issues (92700) | |||
08.1 LCL_SfD) LER 50-369/96-03: Inoperability of Both Unit 2 EDGs. This LER | |||
is closed based on reviews performed during the closure of Violation | |||
369.370/96-07-07. Failure to Take Adequate Corrective Action for EDG | |||
Fuel Line Failure which is discussed in paragraph E8.3. | |||
II. Maintenance | |||
M1 Conduct of Maintenance | |||
M1.1 General Comments (61726 and 62707) | |||
The inspectors witnessed selected surveillance tests to verify that | |||
approved procedures were available and in use, test equipment in use was | |||
calibrated, test prerequisites were met, system restoration was | |||
completed, and acceptance criteria were met. In addition, resident | |||
inspectors reviewed and/or witnessed routine maintenance activities to | |||
verify, where applicable, that approved procedures were available and in | |||
use, prerequisites were met, equipment restoration was completed, and | |||
maintenance results were adequate. | |||
a. Insoection Scope | |||
The inspectors observed all or portions of the following work | |||
activities: | |||
PROCEDURE /WO# TITLE | |||
. PT/0/A/4600/78 RCCA Drop Timing Using Rod Position Grey | |||
Code | |||
Enclosure 2 | |||
' | |||
. | |||
. | |||
11 | |||
. PT/1/A/4350/368 Emergency Diesel Generator 18 24 Hour Run | |||
. PT/1/A/4350/06 4160V Essential Power System Test | |||
l | |||
. PT/0/A/4601/08A SSPS Train A Periodic Test with NC System l | |||
Pressure > 1955 Psig | |||
M2 Maintenance and Material Condition of Facilities and Equipment | |||
M2.1 Malfunctions of Isophase Phase Bus Coolina Fans and Rod Control System | |||
1 | |||
a. Inspection Scoce i | |||
The inspectors conducted inspections to verify that activities to | |||
correct the isolated phase bus cooling system and rod control system I | |||
malfunctions were conducted in manner to ensure safe and reliable l | |||
equipment operation. | |||
b. Observations and Findinas | |||
l | |||
Maintenance technicians were contacted to identify and correct the cause | |||
for the 2A isophase bus cooling fan trip and subsequent 28 isophase | |||
cooling fan failure to start. Technicians investigated the cause for | |||
the 2A fan trip and determined that the 2A IPB fan tripped on thermal | |||
overload due to higher than anticipated area temperatures. The area | |||
ventilation had been secured resulting in elevated temperatures. The | |||
licensee determined that the thermal overload trip setpoint was overly | |||
conservative providing very little margin between normal operating | |||
ranges and the overload relay trip setpoints. The licensee developed | |||
and implemented modifications to replace the 2A and 2B thermal overloads | |||
to provide additional margin. The relay was replaced and functionally | |||
verified. | |||
The licensee investigated the failure of the backup supply fan to start | |||
and determined that a limit switch at the fan outlet damper failed to | |||
provide the necessary interlock for the manual start of the standby fan. | |||
A Work Request was written to investigate the rod control system failure | |||
to operate in automatic when the operators began reducing power. The | |||
licensee's investigations identified a'comaarator circuit card which | |||
controls the rods in-rods out function. T1e card was replaced. The | |||
licensee concluded that the rods would have 03erated properly following | |||
s | |||
a manual or automatic reactor trip signal. T1e comparator circuit card | |||
was replaced and functionally tested. Rod control was returned to | |||
automatic. No other rod control malfunctions occurred prior to unit | |||
shutdown for refueling outage 1EOC11. | |||
Enclosure 2 | |||
__ . _ . _ _ .. _ . . _ _ _ _ _ _ _ . _ _ - - . _ _ _ _ _. _ | |||
: | |||
. .' | |||
* | |||
. | |||
i | |||
12 | |||
'c. Conclusions | |||
< | |||
The inspectors concluded that the licensee's corrective maintenance was | |||
effective. Rod control system repairs were adequate. Isophase cooling . | |||
relaying modifications and damper switch replacement should provide ; | |||
' improved cooling system reliability. ! | |||
M3 Maintenance Procedures and Documentation | |||
: | |||
M3.1 Work Control Process i | |||
- | |||
a. Insoection Scooe | |||
The inspectors performed inspection of activities related to the | |||
unanticipated automatic trip of the "A" auxiliary electric boiler (AEB). | |||
b. Observations and Findinas . | |||
; | |||
On January 10. the "A" AEB was started to support functional | |||
verification following completion of mechanical maintenance activities. | |||
The boiler was started and operated. Monitored parameters were normal | |||
with the exception of slow steam pressure response. The boiler tripped | |||
and station personnel observing boiler o)eration promptly exited the ; | |||
-area. :The licensee determined that the ] oiler tripped due to | |||
overcurrent conditions related to' boiler ph levels. No station i | |||
personnel were injured due to the boiler operation. | |||
' | |||
Prior to the boiler operation and subsequent trip, other maintenance on | |||
the 'A' AEB on the steam pressure control loop had begun and had not ! | |||
been com)leted prior to boiler. operation. The steam pressure control . | |||
valve. C370 was closed with air removed. Completion of the maintenance | |||
activity was scheduled. No tags had been issued to perform this work. | |||
Technicians had provided information describing the maintenance effort | |||
on the boiler and had received authorization to perform the activity. , | |||
The maintenance activity was not completed prior to shift turnover. | |||
During shift turnover, the information was not communicated to the | |||
oncoming operations shift and no tag clearance was necessary to operate | |||
the AEB. The inspectors noted that the work control for the particular | |||
work activity was not managed adequately to minimize the potential for. | |||
personnel injury and/or equipment damage. 'The operation of the "A" AEB | |||
while IAE maintenance was ongoing was due to poor communications between | |||
operating shifts. The inspectors discussed tie occurrence and | |||
determined that no information was readily available to inform the on- | |||
shift operations staff of the ongoing maintenance activity prior. to | |||
boiler operation'. | |||
i | |||
! | |||
! | |||
l Enclosure 2 | |||
! | |||
' | |||
_- . - . . _ , _ .-~ - _ . . _ _ | |||
__ | |||
, | |||
.. . | |||
. | |||
13 | |||
! c. Conclusion | |||
The inspectors reviewed the events and determined that control of no | |||
tagout work activities was not sufficient to provide adequate controls. | |||
Similar occurrences may potentially result in personnel injuries or | |||
, equipment damage. | |||
4 | |||
M6 Maintenance Organization and Administration | |||
4 | |||
M6.1 Maintenance and Work Control Restructurina | |||
The licensee made organizational changes in Maintenance and Work Control | |||
to re-establish consistency between the three Duke Power licensed | |||
facilities. The official restructuring was scheduled to be completed no | |||
later that June 1, 1997. | |||
Under the new organization. Quality Assurance /Ouality Control, | |||
Procedures. Planning Clerical Sup3 ort. Welding, and Modification | |||
Execution teams. previously under iaintenance will report to Work | |||
Control. This licensee concluded that this restructuring should better | |||
distribute responsibilities between Maintenance and Work Control and | |||
does not require changes to the current work control process. The | |||
restructuring should also enhance OA/QC independence. | |||
M7 Quality Assurance in Maintenance Activities | |||
M7.1 Review of Motor Reliability Problems /Imorovement Initiative | |||
a ., inspection Scone (62700 and 4C500) | |||
1 | |||
In June 1995. Duke Power Company identified that motor performance at | |||
nuclear power stations did not meet industry standards. McGuire. Unit 1 | |||
performance, based on Nuclear Plant Reliability Data System data, showed | |||
the highest failure rate for large motors of all nuclear sites in the l | |||
country over a three year period. McGuire Nuclear Station established a ; | |||
_ | |||
Ouality Improvement Team initiative to improve reliability of all motors i | |||
at the station in September 1995. The licensee initiated PIP 0-M96-0204 l | |||
to document the problem and corrective actions at McGuire. The ! | |||
inspectors reviewed corrective actions for PIP 0-M96-0204 including the | |||
Motor Reliability Improvement Initiative Report, specific motor problems | |||
and corrective actions, and conducted plant walkdowns and discussions ! | |||
with engineering personnel responsible for implementing corrective | |||
actions to improve motor performance. | |||
b. Observations and Findings | |||
A review of PIP 0-M96-0204 identified several motor problems and | |||
corrective actions taken to date. Motors identified with high failure ' | |||
rates included Condensate Booster Pump motors. "C" Heater drain Pump | |||
motors, Steam Generator Blowdown motors. Lower Containment Ventilation | |||
Enclosure 2 | |||
. _. ._. ._ - . _ _ . . _ . _ _ . _ _ _ - - - - _ _ | |||
. .v - | |||
i | |||
. | |||
14 | |||
l | |||
l motors. Control Rod Drive Mechanist Ventilation motors, Fuel Pool | |||
l. Cooling motors, Reactor Coolant Pump motors. Turbine Building ) | |||
l Ventilation motors. Instrument Air Compressor motors, and ' | |||
l';. motor / Generator Sets. The licensee identified specific causes of the | |||
failures for each motor type and. instituted corrective actions in most 1 | |||
l cases. For example, the Fuel Pool Cooling motor problem was deteemined I | |||
l to be impro)er ventilation configuration resulting in lower than ; | |||
i required luarication levels for bearings. The ventilation was | |||
L reconfigured to resolve the problem. The Reactor Coolant Pump Motor , | |||
l: problem recuired' refurbishment of each motor. This arocess has not been ! | |||
completed cue to operational recuirements and availa)ility of only one | |||
. | |||
spare motor for both McGuire anc -Catawba. However, the causes of past | |||
! | |||
failures were understood, and corrective actions were scheduled | |||
l The inspectors noted the licensee matrixed the causes of the motor | |||
l failures in the Root Cause Failure Analysis Report in a Motor Fault Tree | |||
j format, The report identified several problems associated with motor | |||
: failures. Specific failure causes were identified as inadequate | |||
I maintenance, lack of vendor cuality control, and improper motor- | |||
application. The licensee icentified the root cause of the motor ; | |||
problems as a motor program management deficiency. The inspectors ; | |||
! considered the licensee's failure analysis was properly focusing on | |||
l problem areas. | |||
The inspectors discussed the motor problems with engineering personnel i | |||
and performed plant walkdowns to evaluate motor material conditions. In | |||
-addition, preventive maintenance work orders and procedures were | |||
reviewed to evaluate adequacy of the licensee maintenance in this area. ; | |||
The reviews. determined the licensee was focusing resources on preventive | |||
maintenance for motors which was based on causes of past failures and | |||
vendor recommendations. Observed conditions of motors in the plant were i | |||
generally good. However, some items were identified which required | |||
additional disposition. One issue involved internal inspection of RHR | |||
(ND) and Containment Spray (NS) Pump motors. When questioned by the | |||
inspectors, the licensee could not provide documentation of motor | |||
internal inspections. The licensee initiated PIP 0-M97-0177 on January | |||
L' 16, 1997, to review and disposition this issue. | |||
The inspectors also noted that the "C" Heater Drain Pump motors | |||
continued to exhibit some problems. During plant walkdown, the | |||
inspectors noted oil leakage from four of the six "C" Heater Drain Pump | |||
l motors. In addition, the air filters on the side panels for the Unit 1 | |||
j pump motors were dirty. These items were discussed with engineering | |||
I personnel who stated they would be addressed as part of PIP 0-M96 0204 | |||
corrective actions. The licensee identified the root cause of these | |||
motor 3roblems to be inadequate repair / refurbishment information | |||
t- availa)le to motor repair shops. The licensee was working with | |||
! | |||
k | |||
: | |||
j Enclosure 2 | |||
l' | |||
1 | |||
- - | |||
_ _.___. _.. _ . . . _ _ _ _ _ _ _ . _ . _ . _ _ _ _ _ . _ _ _ | |||
; | |||
, , | |||
e- . | |||
:- | |||
t , | |||
15 | |||
Westinghouse to provide appropriate repair information during future | |||
motor refurbishment. The inspectors concluded that this area requires | |||
continued licensee attention to assure appropriate corrective actions | |||
are implemented. | |||
During this period, the inspectors noted several observations relating | |||
to plant 3rocesses and housekeeping. Positive observations included: | |||
low threslold for identification of issues in the problem investigation | |||
process, good housekeeping in the charging pump rooms, examples of good | |||
predictive maintenance / monitoring, good engineering response to issues, | |||
and a thorough Operations shift turnover in the control room on January | |||
- | |||
-16,*1997. Other observations included staging located in RHR pump room | |||
2A and Containment Spray pump room 18. The inspectors discussed the | |||
staging observations with the operations shift on January 16. 1997. | |||
Operators stated they did not brief status of activities requiring | |||
staging in operable safety-related pump rooms at shift turnovers. | |||
Although the staging was appropriately tagged, the inspectors considered 1 | |||
that activities involving staging in operational . safety-related pump ! | |||
rooms should be minimized with appropriate operational focus being - ; | |||
maintained, | |||
c. Conclusions | |||
The inspectors concluded-the licensee was actively involved in | |||
evaluation and resolution of motor problems. The Root Cause Failure , | |||
Analysis Report was thorough and identified several focus areas for | |||
improving motor performance.- Even though some motor problems continued, | |||
the licensee's Quality Improvement Team initiative at McGuire had | |||
produced some positive results, and should improve motor performance if | |||
the initiative is continued. | |||
III. Enaineerina | |||
E2- Engineering Support of Facilities and Equipment | |||
E2.1 Review of Desian Basis for the FWST and Surroundina Missile Wall | |||
' | |||
a. Insoection Scooe (37551) | |||
Review of design basis for the FWST and surrounding missile wall. | |||
b. Observations and Findinos | |||
During the inspection' period, the inspectors questioned the design basis | |||
for the FWST swapover function during post LOCA operator actions. | |||
Specifically. the inspector.noted that the licensee's design did not | |||
incorporate an interlock between the automatic post LOCA injection | |||
realignment and actual containment sump levels. An interlock feature | |||
has been incorporated at other facilities, including Catawba, to ensure | |||
- that appropriate containment sump levels exist after FWST depletion in | |||
order to ensure adequate suction supply to the ECCS pumps. | |||
Enclosure 2 | |||
_ | |||
- - -. . - - - - . -- _. -.. -. . -- | |||
, . | |||
~ - | |||
, | |||
. | |||
, | |||
l | |||
, 16 | |||
The licensee reviewed the inspector's concern and also other in-progress | |||
reviews that were being performed at other Duke facilities regarding the | |||
overall design basis of the FWST. It was determined that a discrepancy | |||
existed in the wall height of the FWST missile shield wall. | |||
Specifically, the height of the McGuire FWST missle wall was 2 inches . | |||
below the height of the FWST to containment sump ECCS suction swapover ) | |||
level setpoint. The FWST missle wall was desianed to protect the tank ' | |||
, during a tornado event, assuring sufficient volume to make up for the | |||
j RCS system shrinkage during a postulated steam line break. In this | |||
event the centrifugal charging pumps would inject to offset the volume I | |||
contraction and to provide a source of negative reactivity for i | |||
criticality considerations. ' | |||
. | |||
The licensee performed extensive analysis of the concern which was | |||
. | |||
documented in PIP 0-M97-0180. The licensee identified that a change was | |||
, made in the mid 1980's which raised the automatic swap-over level set ! | |||
point from 100 inches to 150 inches. This change (NSM-MG-1-1790) made l | |||
the swapover level relative to the bottom of the tank to be 170 inches. | |||
3 However, the missle wall was built to be 168 inches relative to the | |||
!> | |||
' | |||
bottom of the tank. Therefore, a rupture of the tank at the missle wall | |||
height could potentially deplete the tank's volume below the auto swap | |||
level without the required containment sump inventory for cold leg | |||
recirculation. The licensee reviewed this scenario and concluded that | |||
4 | |||
since auto swapover aligns the low head ECCS pumas to the sump, the Low | |||
' | |||
head (RHR) pumps would not be injecting due to t1e primary system | |||
pressure not falling below the pump's shutoff head. The review | |||
concluded that the RHR pumps would have sufficient volume in their mini- | |||
, | |||
flow recirculation volume to not ex3erience cavitation for the duration | |||
* | |||
of the event. In addition, the hig, and intermediate head pumps would | |||
still have adequate suction supply from the FWST. The licensee | |||
concluded the FWST was both past and currently operable. ' | |||
; | |||
< | |||
In addition to the above, the licensee identified several other | |||
! | |||
questions regarding FWST design and operator actions associated with i | |||
FWST depletion scenarios. At the end of the inspection period, the | |||
inspector was continuing to evaluate the licensee's engineering reviews | |||
of the FWST design and operability basis. The reviews will be ; | |||
; | |||
identified as IFI 369. 370/97-01-02, FWST Design Basis. | |||
~ | |||
c. Conclusions | |||
The inspector concluded that engineering personnel were performing in- | |||
, depth reviews of the FWST design basis to ensure compliance in that area | |||
, and to identify any potential problems. | |||
i | |||
4 | |||
1 | |||
Enclosure 2 | |||
.. - -- .-- . _- - . - | |||
l | |||
, . | |||
- - | |||
, | |||
a | |||
17 | |||
i | |||
, E2.2 Enaineerina Sucoort of Ooerations i | |||
l | |||
, | |||
a. Insoection Scone (37550) l | |||
The inspector reviewed engineering activities which support operations | |||
by observations of engineering and operations personnel interfaces and | |||
# | |||
review of active engineering material in the control rooms. | |||
. b. Observations and Findinas | |||
- | |||
The inspector reviewed the open o)erability evaluations, the degraded | |||
- | |||
but operable determinations and t1e ongoing evaluations. The | |||
evaluations and determinations were reviewed to ensure that they did not | |||
involve an unreviewed safety question and that the margin to safety was | |||
not decreased by the existing degraded condition. Reviewed were 13 | |||
operability evaluations, two ongoing evaluations, and three degraded but | |||
operable determinations. | |||
i | |||
c. Conclusions | |||
l The inspector concluded that Engineering was providing effective support | |||
to Operations. The number of open evaluations / determinations was not I | |||
abnormal. The quality of the determinations was good and the results | |||
were well documented. | |||
' | |||
E3 Engineering Procedures and Documentation | |||
E3.1 Chanaes. Tests and Experiments Performed In Accordance With 10 CFR 50.59 | |||
( Aoril J .1995. to Aoril 1.1996) | |||
a. Insoection Scooe | |||
By letter dated October 16, 1996, the licensee submitted its annual | |||
summary of all ch.inges, tests, and experiments that were completed under | |||
the provisions of 10 CFR 50.59 for the period April 1,1995, to April 1, | |||
1996. The licensee's October 18. 1996, summary includes 82 changes made | |||
during the subject period. The ins)ector reviewed a number of these | |||
changes against the provisions of t1e regulation. | |||
b. Observations and Findinas | |||
1. Backaround | |||
10 CFR 50.59 provides that a licensee may (1) make changes in the | |||
facility as described in the safety analysis report. (2) make changes in | |||
the procedures as described in the safety analysis report, (3) conduct | |||
tests or experiments not described in the safety analysis report, | |||
without prior Commission approval, unless the change involves a change | |||
in the technical speciheations or an unreviewed safety question (US0). | |||
4 | |||
The regulation defines a US0 as a proposed action that (a) may increase | |||
Enclosure 2 | |||
s. . | |||
, | |||
. | |||
18 | |||
l | |||
the probability of occurrence or consequences of an accident or | |||
malfunction of equipment important to safety previously evaluated in the | |||
safety analysis report. (b) may create a possibility for an accident or | |||
malfunction of a different type than any previously evaluated in the | |||
safety analysis report, (c) may reduce the margin of safety as defined | |||
in the basis for any technical specification. | |||
2. Procedures | |||
The inspector reviewed the licensee's current (dated March 21, 1996) | |||
version of Nuclear System Directive (NSD) 209 "10 CFR 50.59 | |||
Evaluations." which is a procedure that describes how Duke Power Company | |||
(DPC) meets the requirements of 10 CFR 50.50. NSD 209 requires that | |||
changes be evaluated against appropriate Final Safety Analysis Report | |||
(FSAR). Technical Specifications, and NRC Safety Evaluation Report | |||
sections to determine if there is need for revision. Specifically, the | |||
procedure in NSD 209 has the criteria saecified by 10 CFR 50.59 broken | |||
down into seven (7) questions. For a clange to be qualified for 10 CFR | |||
50.59, the answers to all seven questions must be "no". | |||
3. Trainina , | |||
The licensee has a required training program for personnel that perform | |||
reviews of 50.59 screenings and evaluations. These personnel are known | |||
as Qualified Reviewers (ors). A OR is defined by the licensee as an | |||
individual qualified by education, training and experience to perform | |||
the reviews for procedures, procedure changes and nuclear station | |||
modi fications. Often preparers of procedures, procedure changes and | |||
nuclear station modifications are also qualified as ors. A review of | |||
the training program determined that the program covered all the | |||
essential aspects of the 50.59 screenings and US0 evaluations. | |||
4. Imolementation | |||
The implementation of the licensee's 50.59 program was evaluated by | |||
reviewing a sample of completed 50.59 screenings and USQ evaluations and | |||
interviewing personnel involved in the preparation or review of 50.59 | |||
screenings and U50 evaluations. The sample was taken from a total of 82 | |||
changes made between April 1995 and April 1996, that were reported in | |||
the licensee's annual summary of changes. Also, a review was done of a | |||
sample of " screened out" (determined not to require US0 evaluation) | |||
items that were randomly chosen from the licensee's files. | |||
The inspector performed an in-office review of the licensee's summary to | |||
determine the nature and safety significance of each change. Through | |||
this review, the inspector selected the following changes for more | |||
detailed review onsite: | |||
Enclosure 2 | |||
1 | |||
. .- l | |||
l | |||
l | |||
l | |||
19 ; | |||
l | |||
Procedure changes - l | |||
OP/ 1/A/6400/05, 1/A/6100/10K. 0/B/6200/109. 1/A/6200/04A. | |||
2/A/6200/04A | |||
EP/ 1/A/5000/FR-P.1. 1/A/5000/FR-I.1. 1/A/5000/ES-1.1. | |||
1/A/5000/ECA-2.1. 1/A/5000/ECA-0.2. 1/A/5000/ECA-0.1. | |||
1/A/5000/E-3. 1/A/5000/G-1 | |||
AP/ 1/A/5000/35 | |||
MP/ 2/A/7150/57. 0/B/7150/121 | |||
PT/ 1/A/4150/044 | |||
Modifications - - | |||
NSM 12096, 12279/P6. 12441. 22096, 22441, 22445, 22454, | |||
22455.22457.22473. 29040/P22 | |||
MM 3409, 3416, 3860. 3866. 3919, 4039. 4040, 4045. 4097. 5451. | |||
5452. 6164. 6165. 7067.7068. 7096. 7125. 7757 | |||
Revision to NRC commitments - | |||
Monitoring eight break locations | |||
Licensee " screened out" items - | |||
OP/ 2/A/6100/23 | |||
EP/ 2/A/5000/ECA-2.1 | |||
EP/ 1/A/5000/FR-P.2 | |||
PT/ 1/A/4206/03A (CHANGE 13) | |||
IPOA 3207007 | |||
During the in-office and onsite reviews, the inspector made a number of | |||
observations as noted below and has communicated them to licensee | |||
personnel: | |||
- | |||
A good self-assessment was recently performed on the 50.59 process | |||
at Catawba. McGuire has utilized the results of this self- | |||
assessment by incorporating the lessons learned into their 50.59 | |||
process. | |||
- | |||
NSD 209 represents a solid foundation for the 50.59 process and | |||
should serve the three stations well, provided the licensee is | |||
diligent in getting personnel to correctly implement the | |||
Directive's requirements. | |||
- | |||
Minor administrative problems, which were similar to those | |||
identified by the licensee in the above mentioned self-assessment, | |||
were found in the McGuire 50.59 packages. These included: | |||
e Blocks on some of the 50.59 forms were not checked as | |||
required by NSD 209. | |||
Enclosure 2 | |||
__ - . - . . _ _ _ _ _ _ . -_ _ . _ _ _ _ _ _ _ _ _ . _ _ _ .. _ _._ _ _ .. | |||
. . | |||
~ - | |||
( | |||
, | |||
20 | |||
1 | |||
e Illegible preparer and OR signatures were noted on some j | |||
forms. ) | |||
1 | |||
e The justification write-ups for some 50.59 packages did not | |||
clearly address the questions asked on the 50.59 form. | |||
c. Conclusion | |||
Based on the review of the. licensee's October 18, 1996, annual summary | |||
on 10 CFR 50.59 changes, and audit of the licensee's procedures and | |||
evaluations, the inspector concludes that the licensee has complied with | |||
the provisions of this regulation for the changes reported in the annual | |||
summary. | |||
E4 Engineering Staff Knowledge and Performance | |||
. E4.1 Shutdown Bank Triocable Worth Strateay | |||
a. Insoection Scoce (37551) | |||
: | |||
The insSectors reviewed the licensee evaluation of withdrawing shutdown | |||
banks w111e in Mode 4 to provide additional shutdown reactivity. | |||
i | |||
b. Observations and Findinas | |||
The licensee held PORC meetings to review and evaluate the practice and -l | |||
determined that a no potential existed for a noncompliance with assumptions | |||
used in UFSAR accident analyses. Some questions were raised about the , | |||
assumptions used in'the uncontrolled bank withdrawal'from zero power l | |||
analysis. The PORC concluded that the assumptions of the current UFSAR 1 | |||
uncontrolled rod withdrawal. analysis bound any credible unexpected rod | |||
withdrawal power transient. | |||
-The current UFSAR analysis assumes that the reactor is critical such that | |||
the first available trip is the 25 percent low power trip. This assumption ; | |||
allows for an extremely fast reactivity addition, allowing the reactor to | |||
reach a prompt critical condition. -This_results in a severe )ower, | |||
temperature and pressure transient by withdrawal of shutdown aanks. With | |||
the unit subcritical in MODE 4. operators would receive the high flux at | |||
shutdown alarm at one half decade above background counts and the reactor | |||
would also encounter the source range trip at 10E5 cps. Therefore, a real | |||
rod withdrawal event from subcritical conditions could be terminated by | |||
l operator action or automatically with the reactor significantly ' | |||
subcritical. There would not be a resulting reactor coolant system | |||
temperature or pressure transient. Therefore the consequences of such an , | |||
j event were determined to be bounded by the current analysis. i | |||
Following the PORC, the licensee concluded that the withdrawal of shutdown | |||
l banks A and B would not. place the plant in a degraded condition with | |||
j- regards to an uncontrolled bank withdrawal event. As a result, the | |||
! Enclosure 2 | |||
t | |||
- , - , . . _ , -, . - . -- | |||
_ _ _ . _ .- _ _ _ _ _ _ _ | |||
__ -__ _ _ _ _ . . | |||
. | |||
~ - | |||
. | |||
4 | |||
' | |||
. | |||
21 | |||
.1 | |||
licensee revised the existing shutdown and startu) procedures to allow I | |||
control room operators to close the reactor trip areakers and withdraw pre- . | |||
selected shutdown rod banks during Modes 3 and 4. l | |||
c Conclusions | |||
The inspectors concluded that the licensee's use of the trip)able worth I | |||
strategy was conservative based on available information. T1e inspectors q | |||
identified no TS noncompliances or UFSAR deviations. The inspectors 3 | |||
reviewed the results of the licensee's evaluation and concluded that the | |||
practice of early withdrawal of a shutdown bank to provide a means for | |||
immediate negative reactivity addition during a dilution was conservative, j | |||
E8 Miscel.laneous Engineering Issues (92902) | |||
E8.1 (Closed) Violation 50-369. 370/96-02-02: Failure to Correct Long Term | |||
Deficiencies Resulting in Valid Failures of EDGs. | |||
The-issue involved emergency diesel generator failures due to inadequate | |||
design of the lines for lubrication oil pressure sensing instrumentation | |||
and control. The licensee responded to the Violation in a letter dated | |||
June 6, 1996. In that letter, the licensee stated they took corrective ) | |||
actions including conducting a root cause failure analysis and identifying | |||
corrective actions. The correcti_ve actions included periodic maintenance | |||
to vent the lubrication oil pressure loops, periodic testing of the | |||
lubrication oil impulse lines, and implementation of a modification on the | |||
Unit 2 emergency diesel generator lubrication oil instrumentation lines to | |||
shorten the lines. | |||
The inspectors reviewed the licensee's root cause analysis report (PIP 2-M- | |||
96-0331), verified other corrective actions were implemented as stated, and | |||
observed routine testing of the 1B EDG on. January 14, 1997. All equipment | |||
Serformed as required. Implementation of the modification to shorten the | |||
Jnit 1 lubrication oil instrumentation sensing lines was scheduled for the | |||
next refueling outage commencing in February 1997. The inspectors | |||
. determined that corrective action without the modification in place for | |||
Unit I was adequate; however, based on Unit 2 test results, the | |||
modification provided additional margin to prevent recurrence of the | |||
problem. The inspectors concluded the root cause analysis and corrective | |||
actions for the EDG lubricating oil pressure sensing line issue | |||
appropriately addressed the problem. | |||
: | |||
I | |||
, | |||
Enclosure 2 | |||
; | |||
i | |||
-. - | |||
' | |||
, | |||
' | |||
. | |||
* | |||
. | |||
22 | |||
: | |||
E8.2 (CLOSED) DEV 50-369.370/96-07-04: Failure to Comply with Commitments in | |||
Response to Generic Letter 88-03 Steam Binding of Auxiliary Feedwater Pumps | |||
This deviation involved the failure of the licensee to provide continuous | |||
monitoring to detect steam voiding that was not accomplished due to the | |||
installation of an incorrect type of resistance thermal detector (RTD). | |||
These RTDs provide indication of auxiliary feedwater piping temperature and | |||
activation of control room alarms when temperatures exceeded established | |||
administrative limits. In addition, inadequate compensatory measures were | |||
taken once the problem was identified. The inspector noted that the | |||
licensee had installed RTDs of the correct type to provide continuous | |||
indication of CA piping surface temperatures and alarms. This deviation is | |||
closed. | |||
E8.3 (CLOSED) Violation 50-369.370/96-07-07: Failure to take Adequate | |||
Corrective Action for EDG Fuel Line Failure and LER 50-369/96-03 Rev 1. | |||
On June 19. 1996, the licensee experienced a failure of the 4R cylinder | |||
fuel line on the 1B EDG. The licensee issued a root cause evaluation | |||
report of the 1B EDG fuel line failure on the 4R cylinder. The failure was | |||
attributed to tube pullout of the 4R cylinder fuel injection line to fuel | |||
pump connection. Specifically, the report concluded the line had ejected | |||
from the ferrule connection due to inadequate crimping of the ferrule to | |||
the tube. All the fuel lines on the Unit 1 EDGs had been upgraded to a new | |||
double-walled tube design in December 1995 to prevent through wall crack | |||
propagation. The Unit 2 EDGs fuel lines were previously replaced (all but | |||
four were upgraded double-wall) during earlier unit refueling cycles and | |||
had not experienced any failures. Corrective actions were developed to re- | |||
crimp all applicable EDG fuel lines on Unit 1 and the four selected fuel | |||
lines for t1e Unit 2 EDGs. These actions were scheduled to occur | |||
concurrent with the routinely scheduled EDG outage days (i.e., one EDG per | |||
month) to minimize unavailability. On July 30. 1996, the licensee | |||
experienced an additional failure of the 1B EDG 4R cylinder, prior to | |||
performing the re-crimping as discussed above. Based on the second failure | |||
at the same location, the licensea expanded their original root cause | |||
investigation process and obtained the services of two separate vendors to | |||
act as oversig1t for the failure analysis and to provide technical | |||
expertise. The second revision to the root cause analysis concluded that | |||
the most likely cause of the second failure was improper crimping of the | |||
sleeve onto the fuel line, possibly aggravated by some pressure increase at | |||
the fuel pump outlet. The licensee also concluded that the monitoring of | |||
cylinder exhaust temperatures was not as good of a failure indicator as | |||
previously expected. | |||
Based on the revised root cause, the licensee significantly expanded their | |||
corrective actions. These PORC reviewed actions included: | |||
- | |||
For the IB EDG. fuel lines were re-crimped, fuel line ends were | |||
machined for proper ferrule positioning, and a 16 hour run performed | |||
to verify the re-crimping process. | |||
Enclosure 2 | |||
, | |||
c ._ _ _ _ . _ _. _ _. _ _ _ _ _ .. __ - _ _ . _ . _ _ . . . _ _ . _ _ . _ _ . _ | |||
~ | |||
' | |||
= . | |||
- | |||
[ , | |||
- | |||
, | |||
l' | |||
, | |||
23 | |||
, | |||
[ - | |||
Replaced both injector and fuel pump on the 4R cylinder and inspected | |||
the two additional injectors.for contamination. No contamination was | |||
j identi fied. | |||
' . | |||
- | |||
Ferrule connections and the crimping process was reviewed by an | |||
industry expert. | |||
- | |||
Removed re-crimped, machined tube ends, and reinstalled all fuel | |||
l injection lines for the 1A 2A. and 2B EDGs in an expedited manner. | |||
! | |||
I The inspector reviewed the licensee's response to a Notice of Violation | |||
i dated. October 24, 1996, and the corrective actions included in that | |||
i response. The inspector reviewed Revision 4 to MCS-1301.00-000007. dated . | |||
j January 16. 1997, the EDG spare parts specificatico. This specification | |||
l had been revised to address the new fuel line crimpir9 and dimensional | |||
j requirements. Procedures MP/0/A/7400/009. Nordberg Diesel Engine Cylinder - | |||
- | |||
Head Removal and Installation. Rev 13. and MP/0/A/7400/01. Nordberg Diesel | |||
: | |||
Engine Fuel Oil Injection Pump Removal. Installation and Lift.to Port- | |||
l Closure Check, Rev 5. were reviewed to ensure the new crimping and | |||
; dimensional checks had been included. The inspector reviewed the Nordberg | |||
; Diesel Owners Group Recommended Maintenance Program, endated. to verify | |||
L that it contained a six-year recommendation to clean the injector spray | |||
i tips. The inspector observed the spare fuel lines in the warehouse for | |||
F proper crimping. This had been accomplished under WO 96087369. The | |||
engineering training package discussing the fuel line failures and lessons | |||
j learned was reviewed. Based upon the above reviews and observations, this | |||
, item and LER 50-369/96-03. Revision 1 is closed. | |||
r1 | |||
' | |||
IV. Plant Supoort | |||
: l | |||
# | |||
R1 Radiological Protection and Chemistry Controls | |||
! R1.1 Review of Criticality Monitorina Reauirements | |||
h | |||
j a. Insoection Scooe | |||
; 4 | |||
1 | |||
' | |||
Review of the licensee's compliance with criticality monitoring and ' | |||
t associated requirements contained in 10 CFR 70.24 (a). | |||
! | |||
l b. Observations and Findinas | |||
; | |||
j During the inspection period, the inspector reviewed the licensee's actions | |||
i to comply with the requirements of 10 CFR 70.24 (a). The purpose of 70.24 | |||
(a) was to require monitoring, procedural guidance, and emergency drills. | |||
L unless a specific exemption was granted to the requirements. The | |||
. licensee's monitoring capability in the-area of the new fuel receipt / spent | |||
i fuel pool areas consisted.of two detectors in the new fuel vault and one | |||
; detector on the refueling bridge. 70.24(a), in general, requires that a | |||
monitoring system be capable of detecting a criticality within a required | |||
! time frame. The coverage of the monitoring system in all areas shall be | |||
. | |||
l Enclosure 2 | |||
1 | |||
! | |||
; | |||
$ | |||
- | |||
. . _ . | |||
_ _ _ _ _ _ _ - . _ . _ . _ _ _ . _ _ _ _ . - . _ . _ . . . _ . _ _ _ __. _ _ | |||
, | |||
: ; | |||
j..O . * | |||
- ., | |||
: | |||
l 24- | |||
! | |||
; provided by two detectors. In addition, appropriate drills and procedures i | |||
j. shall be established as part of the requirements. l | |||
t' | |||
The licensee had previously received an exemption from the applicable 70.24 | |||
3 monitoring requirements as part of their special nuclear material (SNM) | |||
4 | |||
license during construction: however, the licensee did not request an i | |||
; additional exemption cace the construction license terminated. The | |||
i | |||
inspectors discussed the status of their current compliance with 70.24 (a) .; | |||
j and determined the following: | |||
I -- | |||
No emergency procedures were in place for evacuation of the I | |||
applicable areas nor were evacuation drills performed as required by | |||
. 70.24 (a)(3). At the end of the inspection period, the licensee had | |||
j developed emergency procedures and were planning the performance of | |||
. | |||
evacuation drills prior to the receipt or movement of any new-fuel. | |||
l The inspector verified that the new fuel inspection and storage | |||
: procedures were on hold status such that new fuel would not be | |||
: received prior to procedure training and drill completion. | |||
: | |||
" Once identified to the licensee, prompt actions were taken to submit | |||
i an exemption request to the Commission (dated February 4. 1997) on | |||
i behalf of the McGuire. Catawba, and Oconee sites. On February 13, | |||
i 1997, the NRC requested additional information regarding the | |||
licensee's compliance with 70.24 requirements. As of the end of the | |||
' | |||
$ | |||
inspection period, NRR review of the exemption request was still in | |||
i progress, | |||
c. Conclusions | |||
f | |||
! The inspector discussed the above findings with NRC management and reviewed | |||
, | |||
the regulatory significance. Based on the review, a Violation of 10 CFR | |||
! 70.24 (a)(3) was identified for failing to have established emergency | |||
i procedures to address a potential criticality event. In addition, | |||
i requirements to perform evacuation drills of the affected. areas were also | |||
i not met. This will be identified as Violation 50-369, 370/97-01-03, | |||
Violation of 10 CFR 70.24 Requirements. | |||
! | |||
V. Manaaement Meetinas | |||
[ X1 Exit Meeting Summt.ry | |||
I' | |||
-The inspectors presented the inspection results to members of licensee management | |||
; at the conclusion'of the inspection on February 24, 1997. The licensee | |||
' | |||
acknowledged the findings presented. l | |||
. | |||
The inspectors asked the licensee whether any materials examined during the | |||
; ' inspection should be considered proprietary. No proprietary information was | |||
identified. | |||
- | |||
1 | |||
I Enclosure 2 i | |||
!- | |||
! | |||
: | |||
I | |||
, | |||
1,.-._--- - | |||
_ _ - . . - _ . , . , . _ ,_ _-. . | |||
. | |||
, | |||
* - | |||
C* | |||
, | |||
2S | |||
PARTIAL LIST OF PERSONS CONTACTED | |||
Licensee | |||
1 | |||
Barron, B. , Vice President. McGuire Nuclear Station | |||
Boyle J. , Civil / Electrical Systems Engineering ) | |||
Byrum W., Manager. Radiation Protection | |||
Cline. T. , Senior Technical Specialist. General Office Support l | |||
Cross. R., Regulatory Compliance | |||
Davison. Valve Supervisor l | |||
Dolan. B. , Manager. Safety Assurance l | |||
Geddie. E., Manager. McGuire Nuclear Station i | |||
Harley. M., Engineering Supervisor ' | |||
Herran. P., Manager. Engineering | |||
Jones. R., Superintendent. Operations | |||
Karriker. S., Valve Engineer (Site GL 89-10 Program Lead) | |||
Kunkel. N., Senior Engineer i | |||
Lamb. J., Valve Engineer l | |||
Michael R., Chemistry Manager l | |||
Nazar. M., Superintendent. Maintenance l | |||
Painter. D., Valve Engineer ' | |||
Sample, M.. Manager. Steam Generator Maintenance Group l | |||
Setzer, F.. Valve Engineer l | |||
Snyder. J., Manager. Regulatory Compliance i | |||
Thomas K., Superintendent. Work Control | |||
Travis. B. , Manager, Mechanical / Nuclear Systems Engineering i | |||
' | |||
Tuckman. M.. Senior Vice President. Nuclear Duke Power Company | |||
Welch. T., Engineering Supervisor | |||
NRC l | |||
S. Shaeffer. Senior Resident Inspector McGuire | |||
M. Sykes. Resident Inspector. McGuire | |||
P. Kellogg Regional Inspector l | |||
W. Holland. Regional Inspector ! | |||
l | |||
Enclosure 2 | |||
. .~ | |||
1 | |||
* * | |||
. | |||
y | |||
' j | |||
26 | |||
l | |||
INSPECTION PROCEDURES USED | |||
IP 71707: Coriduct of Operations ! | |||
IP 40500: Self Assessment l | |||
IP 92700: Miscellaneious Operations Issues l | |||
IP 62703: Maintenance Observations l | |||
IP 61726: Surveillance Observations 1 | |||
IP 37550: Engineering | |||
IP 37551: Onsite Engineering | |||
IP 92902: Miscellaneous Engineering Issues ! | |||
IP 71750: Plant Support | |||
IP 37550: Engineering Staff Knowledge and Performance | |||
ITEMS OPENED. CLOSED, AND DISCUSSED | |||
) | |||
OPENED TITLE | |||
1 | |||
URI 50-369/97-01-01 Root Cause of RCS Letdown Filter leak l | |||
(paragraph 03.1) | |||
IFI 50-369.370/97-01-02 FWST design basis (paragraph E2.1) l | |||
l | |||
VIO 50-369.370/97-01-03 Violation of 10 CFR 70.24 Requirements I | |||
(paragraph R1.1) | |||
CLOSED TITLE | |||
VIO 50-369.370/96-02-02 Failure to Correct Long Term Deficiencies | |||
Resulting in Valid Failures of EDGs | |||
(paragraph E8.1) | |||
LER 50-369/96-03 Inoperability of Both Unit 2 EDGs (paragraph | |||
08.1) | |||
DEV 50-369.370/96-07-04 Failure to Comply with Commitments in | |||
Response to Generic Letter 88-03 Steam | |||
Binding of Auxiliary Feedwater Pumps | |||
(paragraph E8.2) | |||
VIO 50-369.370/96-07-07 Failure to take Adequate Corrective Action | |||
for EDG Fuel Line Failure and LER 50-369/96- | |||
03 Rev 1 (paragraph E8.3) | |||
Enclosure 2 | |||
. _. __. . | |||
. | |||
. | |||
{~ | |||
27 | |||
LIST OF ACRONYMS USED | |||
AEB - | |||
Auxiliary Electric Boiler | |||
CA - | |||
Auxiliary Feedwater System | |||
> | |||
CR - | |||
Control Room | |||
CRIP - Control Room Indicator Problem | |||
DRP - | |||
Division of Reactor Projects | |||
ECCS - Emergency Core Cooling System | |||
EDG - | |||
Emergency Diesel Generator | |||
FWST - Refueling Water Storage Tank | |||
IFI - | |||
Inspector Followup Item | |||
IPB - | |||
Isolated Phase Bus | |||
LER - | |||
Licensee Event Report ! | |||
. | |||
LOCA - Loss of Coolant i | |||
MVAR - Mega Volts Amperes Reactive i | |||
NCV - | |||
Non-Cited Violation | |||
NLO - | |||
Non-licensed Operator | |||
NRC - | |||
Nuclear Regulatory Commission | |||
NRR - | |||
NRC Office of Nuclear Reactor Regulation | |||
PDR - | |||
Public Document Room | |||
PIP - | |||
Problem Investigation Process l | |||
PMT - | |||
Post Maintenance Test : | |||
I | |||
PORC - Plant Operations Review Committee | |||
RCCA - Rod Cluster Control Assembly | |||
RCS - | |||
Reactor Coolant System | |||
RHR - | |||
Residual Heat Removal | |||
RTD - | |||
Re.sistance Temperature Detector | |||
SNM - | |||
Special Nuclear Material | |||
SRI - | |||
Senior Resident Inspector | |||
TI - | |||
Tem 3orary Instruction | |||
TS - | |||
Tec1nical Specification | |||
UFSAR - Updated Final Safety Anclysis Report | |||
URI - | |||
Unresolved Item | |||
VIO - | |||
Violation | |||
WO - | |||
Work Order | |||
WR - | |||
Work Request . | |||
. | |||
Enclosure 2 | |||
, | |||
}} | |||
Latest revision as of 18:26, 30 June 2020
| ML20137V153 | |
| Person / Time | |
|---|---|
| Site: | McGuire, Mcguire  |
| Issue date: | 03/24/1997 |
| From: | NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION II) |
| To: | |
| Shared Package | |
| ML20137V136 | List: |
| References | |
| 50-369-97-01, 50-369-97-1, 50-370-97-01, 50-370-97-1, NUDOCS 9704170226 | |
| Download: ML20137V153 (28) | |
See also: IR 05000369/1997001
Text
.
' '
.
l
< .
I
l
1
U.S. NUCLEAR REGULATORY COMMISSION
l
REGION II !
l
Docket Nos: 50-369. 50-370
Report No: 50-369/97-01. 50-370/97-01
,
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Licensee: Duke Power Company
Facility: McGuire Generating Station. Units 1 & 2 ,
Location: 12700 Hagers Ferry Rd.
Huntersville. NC 28078
Dates: January 12. 1997 - February 22. 1997
Inspectors: S. Shaeffer. Senior Resident Inspector ,
M. Sykes Resident Inspector
W. Holland. Regional Inspector (paragraphs M7.1. E8.1)
P. Kellogg. Regional Inspector (paragraphs E2.2. E8.3)
V. Nerses. NRR Senior Project Manager (paragraph E3.1)
Approved by: C. Casto. Chief. Projects Branch 1
Division of Reactor Projects
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9704170226 970324
PDR ADOCK 05000369
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EXECUTIVE SUMMARY l
McGuire Generating Station. Units 1 & 2 :
NRC Inspection Report 50-369/97-01, 50-370/97-01 i
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This integrated inspection includes aspects of licensee operations, engineer- !
ing, maintenance, and plant sup) ort. The report covers a 6-week period of
resident inspection and region aased inspection.
Ooerations
. 0)erator actions to reduce unit power and realign main feedwater flow -
t1 rough the auxiliary feedwater nozzle following identification of a
' hydraulic fluid leak at main feedwater containment isolation valve 1CF26
was good (paragraph 02.1). l
. Operator diagnosis of arid response to the loss of Unit 2 isophase bus
cooling and coincident rcd control system malfunctions was good
(paragraph 02.2). ,
. Operator response to the main generator voltage control problem was
adec uate. Improved guidance to operators regarding the degraded
concition was provided by engineering in a timely manner (paragraph
02.3).
. Control of Unit 1 shutdown for refueling was adequate. Shutdown
activities were conducted with minimal impact on the operating unit
(paragraph 02.4).
. An URI was identified to continue inspection of an RCS leak through a
letdown filter casing. Operator response to the event was good
(paragraph 03.1).
. The station's monitoring of control room indication problems, as defined
by the licensee's CRIP process, was considered to be adequately
implemented. The inspectors also concluded that the process may be
challenged during the upcoming Unit 1 OAC replacement project. The use
of Control Room information tags was generally well implemented. The
inspectors expressed a concern to Operations Management regarding
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potential overlapping of problem tracking processes, including the
operator work around process, which could present confusion regarding
problem monitoring and resolution (paragraph 04.1).
- A significant weakness was identified concerning inconsistencies between
- the critical action times modeled in the simulator and the actual plant
response times during plant transients. The example noted could have
adversely impacted operator response capabilities by training on the
l incorrect critical action times. Once identified. licensee immediate
! corrective actions and response to the concerns were considered adequate
(paragraph 05.1).
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Control of overtime for plant personnel and postings to workers during
this period was adequate. Licensee assessments performed on the control
of overtime were detailed and provided good oversight (paragraphs 06.1
and 06.2).
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The results of the INPO evaluation completed in late 1996 were generally
consistent with the results of similar evaluations conducted by the NRC.
No additional NRC follow-up of any specific issue was identified
(paragraph 07.1).
Maintenance
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Corrective maintenance activities associated with malfunctions of
isophase phase bus cooling fans were thorough (paragraph M2.1).
. Control of non-tagout work activities was not sufficient to provide
adequate controls to ensure proper tracking to prevent occurrences that
may potentially result in personnel injuries and equipment damage
(paragraph M3.1).
. The licensee's restructuring of the Maintenance and Work Control
organizations to provide better distribution of responsibilities without
disrupting the current Work Control process was adequate. The
inspectors also noted that the restructuring should also enhance QA/0C
independence (paragraph M6.1).
. The licensee was actively involved in evaluation and resolution of motor
problems. The Root Cause Failure Analysis Report was thorough and
identified several focus areas for improving motor performance. Even
though some motor problems continued. the licensee's Quality Improvement
Team initiative at McGuire had produced some positive results, and
should im3 rove motor performance if the initiative is continued
(paragrapa M7.1).
Enaineerina
. The inspector concluded that engineering personnel were performing in-
depth reviews of the Refueling Water system design basis to ensure
compliance in that area and to identify any potential problems. An IFI
was identified regarding ongoing reviews of previous FWST design changes
and the FWST current design basis (paragraph E2.1).
. Reviews of engineering activities which support operations by
observations of engineering and operations personnel interfaces and
review of active engineering material in the control rooms concluded
that engineering was providing effective support to operations. The
number of open evaluations / determinations was not abnormal. The quality
of the determinations was good and the results were well documentetl
(paragraph E2.2).
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. The review of the 50.59 annual summary of changes, tests, and
experiments concluded that the licensee has complied with the
regulations (paragraph E3.1).
. The licensee's use of the trippable worth strategy in Mode 4 was
considered conservative based on available information. The licensee's
detailed evaluation of the practice confirmed that the issue was not a
safety concern. The inspectors recognized the licensee's efforts and
good questioning attitude (paragraph E4.1).
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The final root cause analysis and corrective actions for the Emergency
Diesel Generator lubricating oil pressure sensing line issue
appropriately addressed the problem (paragraph E8.1).
Plant Sucoort
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A Violation of 10 CFR 70.24 (a)(3) was identified for failing to have
established emergency procedures to address a potential criticality
event. In addition, requirements to perform evacuation drills of the
affected areas were also not met (paragraph R1.1).
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Reoort Details
Summarv of Plant Status
Unit 1 began the inspection period at approximately 100 percent power. On
January 23, a power reduction to approximately 20 percent was made to allow
for repairs to the main feedwater isolation valve ICF26. The valve actuator
had developed a fluid leak. After repairs were completed, the unit returned
to 100 percent power. On February 11. Unit 1 began a coastdown power
i reduction leading to the U1EOC11 outage. The unit was shutdown ori
February 14. for the beginning of the planned 90 day outage. After an
extended RCS crud burst to facilitate lower outage dose, the unit was cooled
for defueling operations. At the end of the inspection period, Unit 1 was in
progress of core offload.
Unit 2 began the inspection period at approximately 100 percent power. On
January 21 a power reduction to approximately 70 percent was necessary due to
the failure of one of the unit's isophase bus cooling fans and the inability
to immediately start the backup fan. After adjustment of a limit switch, the
backup fan was started and the unit was returned to 100 percent power the
following day. The unit operated at approximately 100 percent power for the
remainder of the inspection period.
Review of UFSAR Commitments
While performing inspections discussed in this report, the inspectors reviewed
the applicable portions of the UFSAR that were related to the areas inspected.
The inspectors verified that the UFSAR wording was consistent with the
observed plant practices, procedures, and/or parameters.
I. Operations
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01 Conduct of Operations
01.1 G_eneral Comments F/1707)
Using Inspection Procedure 71707, the inspectors conducted frequent
reviews of ongoing plant operations. In general, the conduct of
operations was professional and safety-conscious; specific events and
noteworthy observations are detailed in the sections below. The
shutdown of Unit 1 for the planned 90 day refueling / steam generator i
replacement outage was well controlled and executed. In addition to the i
issues discussed in this report, other steam generator specific
inspections are detailed in NRC Inspection Report 369/97-03.
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02 Operational Status of Facilities and Equipment (71707)
02.1 Main Feedwater/ Containment Isolation Valve ICF26 Actuator Hydraulic
Fluid Leak
On January 23, control room operators performed a rapid down)ower of
l Unit 1 in accordance with Abnormal Procedure AP/1/A/5500/04 Rapid
L Downpower. The_ unit power was reduced to approximately 20 percent in
response to a hydraulic fluid leak at valve 1CF26. Main
Feedwater/ Containment Isolation Valve to the "D" Steam Generator..
Operators realigned main feedwater flow through the auxiliary feedwater
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nozzle to minimize the-probability of a loss of feedwater to the
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generator due to the uncontrolled closure of ICF26. The valve is
l- located in the Feedwater System flowpath to the O steam generator main !
j nozzle in the main steam vault. Valve ICF26 is a safety related ;
hydraulic isolation valve. The valve receives a signal to close on a
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Safety Injection Low Tavg coincident with Reactor Trip. HI-Hi doghouse 1
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Water Level, or HI-HI steam generator level
l .The inspectors noted that control room operator recognition of 'and
- response to the indications of the hydraulic fluid leak were good. The
l unit remained at reduced power until-the leak could be repaired.
l Following the repair.- testing was completed and the valve returned to l
l service. The normal main feedwater flowpath was re-established and .i
l power escalated to approximately 100 percent with no additional
l operational challenges.
02.2 Isolated Phase Bus Coolina Fan ,
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a. Insoection Scope
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l The inspectors reviewed the licensee's response to the failure of the )
i Unit 2 Isolated Phase Bus Cooling System and coincident malfunction of ,
! the Unit 2 Rod Control System. ;
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b. Observations and Findinas
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On January 20, the Unit 2 IPS cooling fan 2A tripped. Operators were
di_spatched to start the standby 2B fan but attempts to start the standby
, fan were unsuccessful. As a result, control-room operators began a
! rapid downpower in accordance with Abnormal Procedure AP/2/A/5500/04. :
While reducing generator load, operators recognized that the rod control i
system was not responding as expected to the Tavg-Tref mismatch. The
operators took manual control of the rod control system and generator 1
load control and stabilized generator output at approximately 70 percent
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.and busline-current less than 20,000 amperes. The reduction of busline
current to less than 20,000 amperes was recommended to reduce the
overheating electrical components. The standby 2B cooling fan was
, subsequently started when the suction dam)er limit switch was manually
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adjusted. The suction damper limit switc1 position must be established
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prior to fan operation. Unit 2 returned to 100 percent power on January
21.
Work requests were generated to investigate and troubleshoot the IPB
cooling system and rod control system malfunctions. See paragraph M2.1
for'further discussion of these items.
c. Conclusions
The . inspectors concluded that operator diagnosis of and response to the
loss of IPB cooling 'and the coincident rod control system malfunctions
was good. The inspectors also concluded that the load reduction,
although not mandated by TS. was conservative.
02.3 Unit 1 Voltace Reaulator Perturbations
a. Insoection Scone
The inspectors reviewed operator response to a Unit 1 generator voltage
fluctuation and its potential impact to the unit.
b. Observations and Findinos j
On February 11. 1997, operators responded to indications that the Unit 1
generator voltage was increasing for unknown reasons. Attempts were
made to lower the voltage using the voltage adjust pushbutton with
little effect. CR o)erators dispatched NL0s to locally investigate the-
problem. Within a s1 ort time, operators stopped the continued voltage
increase: however, voltage swings were occurring. Transmission group
personnel were called to assist in the troubleshooting effort. The
maximum voltage seen during the transient was 25.45 kv and 713 MVAR.
The swings lasted approximately one hour. The operators were eventually
able to return the voltage to the normal range. The voltage swings were
determined to not have adversely affected any major plant. equipment.
The licensee. installed a recorder on the control cabinet to attempt to-
determine what caused the voltage swings. During the shutdown of Unit 1
for the outage several days later, no additional problems were
identified with the operation of the voltage. regulator. The licensee
determined that operator guidance could be improved regarding this type
of-anomaly and its potential impact on the plant. Procedural-guidance
was developed to place operating limits on the voltage swings to protect
plant equipment. The licensee plans to continue troubleshooting of the
l problem during the Unit 1 outage and will perform a root cause
investigation of the occurrence. Management focused the investigation
on determining the problem due to a potential recurrence during unit
restart from the outage.
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j c. Conclusions
'The inspectors concluded that initial operator response to the main
generator voltage control problem was adequate. Improved guidance to
operators regarding the degraded condition was provided by engineering )
in a timely manner. !
02.4 Unit 1 Shutdown for Unit lEOC11 Outaae
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a. Insoection Scooe I
The inspectors witnessed portions of the Unit 1 shutdown.to Mode 4
focusing on special activities in progress that could impact safety
system performance or reliability to verify that licensee controls were
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j b. Observations and Findinas ,
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The inspectors witnessed portions of the Unit 1 shutdown for.1E0C11 on
l February 14. The unit entered Mode 3 on at 0412 and Mode 4 at 1438.
The shutdown was controlled in accordance with 0)erating Procedure
OP/1/A/6100/02. Controlling Procedure for Unit Slutdown. During the
shutdown, the inspectors noted that on shift control room operators were
attentive and responsive to )lant parameter changes and communicated the
changes to the appropriate slift personnel. Control room staffing met
l TS requirements and distractions were kept to a minimum in the horseshoe
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and appropriate actions were initiated when necessary. Known quately
steammonitored
generator 1B leakage remained below TS leakage limits with no unexpected
increases. At the time of the unit shutdown, the leakage was
approximately 60 gad. Adequate core monitoring equipment was available '
and operable for t1e operational mode.
During the unit shutdown, the inspectors witnessed portions of ongoing
surveillance activities including B Train EDG-24 hour surveillance run.
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4160V essential power system realignment to support offsite and
L emergency power supply maintenance, and RCCA drop time testing to meet
. Generic Letter 96-01 commitments.
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The licensee encountered some unexpected difficulties 'during the <
shutdown to Mode 5. The Source range channel N31 detector failed.
Because the licensee had installed additional source range monitoring
equipment no dgnificant safety concerns were identified. The rod drop
time testing could not be completed-in its entirety due to rod control
malfunctiom. The inspectors determire3 that no deviation from the
Generic Letter 96-01 commitment existed. A primary system leak occurred
on a letdown filter casing (see paragraph 03.1). At the close of the
- -inspection reporting period. no enforcement' actions were identified.
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c. Conclusions
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The inspectors noted chat licensee response to unexpected occurrences
was good and control of plant shutdown was adequate. Shutdown
activities were conducted with minimal impact on the operating unit. )
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02.5 50.72 Notifications
a. Insoection Scooe
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During the inspection period, the licensee made the following i
notifications to the NRC as required or for information purposes.
b. Observations and Findinas
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On February 15. 1997, operators made a 50.72 notification regarding
excessive leakage from an isolable leak on the Unit 1 RCS letdown filter
housing. The report was made under guidance provided by 10 CFR 50.72
(b)(1)(vi). where the leakage potentially could have hampered the
performance of station Jersonnel due to the localized requirement for
anti-contamination clotling. Based on subsequent review. the licensee
later retracted the notification based on their determination that the
leak did not pose a threat to the safety of the plant or hamper station
personnel.
c. Conclusions
The inspectors concluded that the notification was prudent and that the
retraction was adequate for the circumstances. The inspectors also
reviewed the occurrence for potential Notification of Unusual Event
(NOUE) and concluded the criteria for NOUE was not established. Details
of the event are discussed below.
03 Operations Procedures and Documentation
03.1 RCS Leakaae in Excess of TS Limit Durino letdown Filter Chanaeout
a. Insoection Scoce
The inspectors reviewed events regarding an RCS leak which developed
during changeout of the Unit 1 "A" RCS letdown filter. The unit was in
MODE 4 and in process of being taken to MODE 5 for refueling
preparations.
b. Observations and Findinos
At approximately 2350 hours0.0272 days <br />0.653 hours <br />0.00389 weeks <br />8.94175e-4 months <br /> on February 14 a leak developed at the
filter access plate on the 1A RCS letdown iter housing when operators
detensioned the housing cover. Filter c h geout was in 3rogress due to
an approximate 19 psi differential pressure reading whic1 prompted the
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activity (not uncommon during unit shutdown). The unit was in MODE 4 at
- ' the time of the leak and at an RCS aressure of approximately 300 psig.
All four RCPs were in operation. T1e operators entered the appropriate
j abnormal response procedures and took actions (sampled) to identify the
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leak as either RCS-'or RMWST (RMWST is demineralized flush water which is
utilized during filter changeout). The leakage was confirmed to be RCS
and operators then isolated letdown, which stopped the leakage. Prior
to repair of the leak area, operators raised a concern whether excess-
letdown could be adequately established given the low RCS pressure and-
whether pressurizer level should be reduced to increase the margin to
solid RCS oaerations. After discussing the available options.
Operations ianagement allowed letdown to be briefly reinitiated to allow
for reduction of pressurizer level from approximately 80 to 40 percent.
This and the placement of excess letdown in service allowed adequate
repair time without challenging solid operaticns.
The leak was estimated at ap3roximately 14 gpm. TS 3.4.6.2 requires
that RCS identified leakage Je limited to 10 gpm or reduce the leakage
within 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> or be in Hot Standby within 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> and cold shutdown
with in the following 30 hours3.472222e-4 days <br />0.00833 hours <br />4.960317e-5 weeks <br />1.1415e-5 months <br />. As stated, the unit was in MODE 4 at
the time of the event and the leakage was secured within the allowable
TS ACTION requirements. Cleanup of the leak was completed in a timely
manner and the event did not result in any personnel contamination
incidents. Initial licensee review of the event identified leakage
through the letdown filter isolation valve, procedural weaknesses, and
configuration problems with the installed letdown filter housing vent.
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The licensee is planning o.n performing a complete root cause .l
investigation of the event. This issue will be identified as URI 50-- 1
369/97-01-01. Root Cause of RCS Letdown Filter leak.
c. Conclusions
The inspectors concluded that the operators were challenged by the RCS.
leak and reacted to the event in an appropriate manner. Root cause
evaluations will be performed to address the identified URI.
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04 Operator Knowledge and Performance (71707)
.04.1 Trackina of Control Room Problems
.a. Insoection Scone
During the inspection period, the inspectors reviewed a process by which
the licensee monitors and trends control room indication problems and
information tags on the control boards.
b. Observations and Findinas
One method that the licen a utilized to monitor CR problems is the
Control Room Indicator ~ ;1em (CRIP) process. CRIPs are routinely
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tracked by operations and' reported to site management as a performance
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measure to assess the impact of the equipment concerns on plant
l operations. The program is defined by MSD 590. A CRIP is defined as a
j control room instrument or control that cannot perform its intended
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function, including any equipment problem which prevents a dark
! annunciator condition when required. In general, these devices provide
l information to CR operators on the status of plant equipment. provides
! input to control process parameters, controls equipment operated from
l the CR. and provides integrated information retrieval and display
! capabilities.
WRs are reviewed for applicability to the CRIP criteria as part of the
work planning process. Per MSD 590, higher priority is given to those
work recuests identified as a CRIP. Innage CRIP work orders are
! expectec to be planned to allow resolution of the problem within two
L weeks of origination. The status of CRIPs are monitored by maintenance
management, operetions. and work control.
The inspector discussed the CRIP process with involved plant personnel.
performed CR walkdowns to determine if all relative issues were
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. identified as CRIPs, and reviewed the historical completion of CRIP WRs. ;
j As of the end of 1996, the total number of innage CRIP's was eight with
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l a YTD average of six. The oldest innage CRIP was less than two weeks.
l indicating that the work off was within the program guidance. The total
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number of outage CRIP work orders was approximately 40. with the
l expectation that all items would be resolved post outage. All equipment .
l problems reviewed for CRIP applicability were found to be appropriately l
l identified as such
The inspectors also reviewed the CR information tagging process. This
j utilizes yellow information tags on a variety of CR equipment which
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allows operators to be informed about special equipment concerns.
l problems, or expected responses. The inspectors compared the current
information tags to the CR information tag log and did not identify any
i majordiscrepancies. Some minor inconsistencies were found regarding
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tag issue information such as lead contacts or initiation dates. In l
l general, operator awareness of the content of the information tags was
considered adequate. All operators questioned were knowledgeable as to
where to find additional information if necessary.
c. Conclusions
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l Based on the inspector's review, the station's monitoring of ' control
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room indication problems, as defined by the licensee's CRIP process was
[ effectively implemented. The inspectors also concluded that the process
may be challenged during the upcoming Unit 1 0AC replacement project.
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The use of CR information tags was generally well implemented. The
, inspectors expressed a concern to Operations Management concerning
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j operator work around process, which could present confusion regarding
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problem mc'itoring and resolution. The licensee was receptive to the
concente and was reviewing the issue for potential impacts.
05 Operator Training and Qualification
05.1 Differences in Assumed Simulator Response Times for Ooerator Actions
a. Insoection Scope
During the insaection period, the inspectors reviewed a licensee
identified pro)1em concerning discrepancies between actual plant
equipment response times versus simulator modeling of certain operator
time critical actions.
b. Observations and Findinas
During an effort to verify that F5AR response times matched actual
operator performance in transferring to RCS cold leg recirculation, the
licensee identified several critical times which needed to be evaluated.
Operators did not have problems completing the necessary steps prior to
FWST depletion; however, critical times assumed in the simulator
response were based on design assumations that differed from actual
plant performance. Specifically, t1e most significant example was
identified where the simulator was modeled with the containment spray
pump flow rate of approximately 3.400 gpm whereas actual plant flow
rates were closer to 4,000 gpm. This incorrect modeling of the
simulator could have )otentially impacted operator response to a plant
event by decreasing t1e time for critical operator action prior to FWST
depletion. The ins)ector was specifically concerned that tN. incu rect
simulator modeling lad gone undetected for a long period of time and
could have conditioned operators to expecting a certain amount of time ,
to complete key actions during event response.. l
Upon recognition of the con:.ern, operations reviewed the applicable !
procedures and identified numerous areas were enhancements could be made
to increase the time allowed for critical action response. After the !
procedure enhancements were made, the procedures were re-validated with l
crew performance. indicating that the critical functions could be
3erformed. In addition, operator training emphasized that since the l
WST could deplete faster than the simulator model during a design base l
LOCA, operators may have been accustomed to exaggerated critical action '
time requirements in the past. The licensee also provided additional
guidance which emphasized that key critical tasks should be performed
"without delay" At the end of the inspection period, the licensee was
continuing to evaluate other potential areas where operator critical
time monitoring could be enhanced.
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c. Conclusions
The inspectors concluded that the inconsistency between the critical
action times modeled in the simulator and the actual plant response
times during plant transients was indicative of a significant weakness.
The example noted could have adversely impacted operator response
capabilities by training on the incorrect critical action times. Once
identified, licensee immediate corrective actions and response to the
concerns were considered adequate.
06 Operations Organization and Administration (71707)
06.1 Overtime Controls
a. Insoection Scoce
- The inspector performed a review of approved overtime for the most .
recent months for the plant operations and maintenance groups. The l
inspector also overviewed licensee records of all personnel overtime
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exemptions for hours in excess of established limits. Control of
overtime for plant personnel is required by Technical Specification - 6.2.2.e and NSD 200. Overtime Control. These documents require the
- licensee to document and properly authorize work hour extensions.
b. Observations and Findinas
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The inspector reviewed work hour extension documentation for the subject I
groups and determined that the forms, in general, were properly filled
, out and reasons for the work hour extensions were appropriate for the i
- circumstances. The inspector verified that the station manager was !
reviewing a monthly site overtime report to determine that the use of
overtime was warranted and not being abused. l
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The inspector noted that in an overtime control report dated November
20, 1996, the licensee's evaluation of the data identified several
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discrepancies regarding the completeness of the required forms. The
problems were documented in PIP 0-M-96-3399 for corrective action.
c. Conclusions
The inspector concluded that control of overtime for plant personnel
during this period was adequate. In addition, the licensee assessments
performed on the control of overtime were detailed and provided good
oversight.
06.2 Postino of Notices to Workers i
During the ins)ection period, the inspector reviewed the licensee's
compliance wit 1 the requirements of 10 CFR 50 Part 19.11, Posting of
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Notices to Workers. The licensee implements these requirements via NSD
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205, Posting Requirements. This procedure identifies three locations
where required postings are to be maintained. The inspector verified
that the licensee conspicuously posted current copies of NRC Form-3 and
other required materials such as escalated enforcement and radiological
violations in the areas. No problems were observed by the inspectors
during this review.
07 Quality Assurance in Operations (40500)
07.1 Review of Institute of Nuclear Power Operations (INPO) report
During the inspection period, the SRI and the NRC DRP Branch Chief,
reviewed the most recent Institute of Nuclear Power Operations (INPO)
report. The review concluded that the results of the INP0 evaluation
completed in late 1996 were generally consistent with the results of
similar evaluations conducted by the NRC. No additional NRC follow-up
of any specific issue was identified.
08 Miscellaneous Operations Issues (92700)
08.1 LCL_SfD) LER 50-369/96-03: Inoperability of Both Unit 2 EDGs. This LER
is closed based on reviews performed during the closure of Violation
369.370/96-07-07. Failure to Take Adequate Corrective Action for EDG
Fuel Line Failure which is discussed in paragraph E8.3.
II. Maintenance
M1 Conduct of Maintenance
M1.1 General Comments (61726 and 62707)
The inspectors witnessed selected surveillance tests to verify that
approved procedures were available and in use, test equipment in use was
calibrated, test prerequisites were met, system restoration was
completed, and acceptance criteria were met. In addition, resident
inspectors reviewed and/or witnessed routine maintenance activities to
verify, where applicable, that approved procedures were available and in
use, prerequisites were met, equipment restoration was completed, and
maintenance results were adequate.
a. Insoection Scope
The inspectors observed all or portions of the following work
activities:
PROCEDURE /WO# TITLE
. PT/0/A/4600/78 RCCA Drop Timing Using Rod Position Grey
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. PT/1/A/4350/368 Emergency Diesel Generator 18 24 Hour Run
. PT/1/A/4350/06 4160V Essential Power System Test
l
. PT/0/A/4601/08A SSPS Train A Periodic Test with NC System l
Pressure > 1955 Psig
M2 Maintenance and Material Condition of Facilities and Equipment
M2.1 Malfunctions of Isophase Phase Bus Coolina Fans and Rod Control System
1
a. Inspection Scoce i
The inspectors conducted inspections to verify that activities to
correct the isolated phase bus cooling system and rod control system I
malfunctions were conducted in manner to ensure safe and reliable l
equipment operation.
b. Observations and Findinas
l
Maintenance technicians were contacted to identify and correct the cause
for the 2A isophase bus cooling fan trip and subsequent 28 isophase
cooling fan failure to start. Technicians investigated the cause for
the 2A fan trip and determined that the 2A IPB fan tripped on thermal
overload due to higher than anticipated area temperatures. The area
ventilation had been secured resulting in elevated temperatures. The
licensee determined that the thermal overload trip setpoint was overly
conservative providing very little margin between normal operating
ranges and the overload relay trip setpoints. The licensee developed
and implemented modifications to replace the 2A and 2B thermal overloads
to provide additional margin. The relay was replaced and functionally
verified.
The licensee investigated the failure of the backup supply fan to start
and determined that a limit switch at the fan outlet damper failed to
provide the necessary interlock for the manual start of the standby fan.
A Work Request was written to investigate the rod control system failure
to operate in automatic when the operators began reducing power. The
licensee's investigations identified a'comaarator circuit card which
controls the rods in-rods out function. T1e card was replaced. The
licensee concluded that the rods would have 03erated properly following
s
a manual or automatic reactor trip signal. T1e comparator circuit card
was replaced and functionally tested. Rod control was returned to
automatic. No other rod control malfunctions occurred prior to unit
shutdown for refueling outage 1EOC11.
Enclosure 2
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'c. Conclusions
<
The inspectors concluded that the licensee's corrective maintenance was
effective. Rod control system repairs were adequate. Isophase cooling .
relaying modifications and damper switch replacement should provide ;
' improved cooling system reliability. !
M3 Maintenance Procedures and Documentation
M3.1 Work Control Process i
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a. Insoection Scooe
The inspectors performed inspection of activities related to the
unanticipated automatic trip of the "A" auxiliary electric boiler (AEB).
b. Observations and Findinas .
On January 10. the "A" AEB was started to support functional
verification following completion of mechanical maintenance activities.
The boiler was started and operated. Monitored parameters were normal
with the exception of slow steam pressure response. The boiler tripped
and station personnel observing boiler o)eration promptly exited the ;
-area. :The licensee determined that the ] oiler tripped due to
overcurrent conditions related to' boiler ph levels. No station i
personnel were injured due to the boiler operation.
'
Prior to the boiler operation and subsequent trip, other maintenance on
the 'A' AEB on the steam pressure control loop had begun and had not !
been com)leted prior to boiler. operation. The steam pressure control .
valve. C370 was closed with air removed. Completion of the maintenance
activity was scheduled. No tags had been issued to perform this work.
Technicians had provided information describing the maintenance effort
on the boiler and had received authorization to perform the activity. ,
The maintenance activity was not completed prior to shift turnover.
During shift turnover, the information was not communicated to the
oncoming operations shift and no tag clearance was necessary to operate
the AEB. The inspectors noted that the work control for the particular
work activity was not managed adequately to minimize the potential for.
personnel injury and/or equipment damage. 'The operation of the "A" AEB
while IAE maintenance was ongoing was due to poor communications between
operating shifts. The inspectors discussed tie occurrence and
determined that no information was readily available to inform the on-
shift operations staff of the ongoing maintenance activity prior. to
boiler operation'.
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! c. Conclusion
The inspectors reviewed the events and determined that control of no
tagout work activities was not sufficient to provide adequate controls.
Similar occurrences may potentially result in personnel injuries or
, equipment damage.
4
M6 Maintenance Organization and Administration
4
M6.1 Maintenance and Work Control Restructurina
The licensee made organizational changes in Maintenance and Work Control
to re-establish consistency between the three Duke Power licensed
facilities. The official restructuring was scheduled to be completed no
later that June 1, 1997.
Under the new organization. Quality Assurance /Ouality Control,
Procedures. Planning Clerical Sup3 ort. Welding, and Modification
Execution teams. previously under iaintenance will report to Work
Control. This licensee concluded that this restructuring should better
distribute responsibilities between Maintenance and Work Control and
does not require changes to the current work control process. The
restructuring should also enhance OA/QC independence.
M7 Quality Assurance in Maintenance Activities
M7.1 Review of Motor Reliability Problems /Imorovement Initiative
a ., inspection Scone (62700 and 4C500)
1
In June 1995. Duke Power Company identified that motor performance at
nuclear power stations did not meet industry standards. McGuire. Unit 1
performance, based on Nuclear Plant Reliability Data System data, showed
the highest failure rate for large motors of all nuclear sites in the l
country over a three year period. McGuire Nuclear Station established a ;
_
Ouality Improvement Team initiative to improve reliability of all motors i
at the station in September 1995. The licensee initiated PIP 0-M96-0204 l
to document the problem and corrective actions at McGuire. The !
inspectors reviewed corrective actions for PIP 0-M96-0204 including the
Motor Reliability Improvement Initiative Report, specific motor problems
and corrective actions, and conducted plant walkdowns and discussions !
with engineering personnel responsible for implementing corrective
actions to improve motor performance.
b. Observations and Findings
A review of PIP 0-M96-0204 identified several motor problems and
corrective actions taken to date. Motors identified with high failure '
rates included Condensate Booster Pump motors. "C" Heater drain Pump
motors, Steam Generator Blowdown motors. Lower Containment Ventilation
Enclosure 2
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l motors. Control Rod Drive Mechanist Ventilation motors, Fuel Pool
l. Cooling motors, Reactor Coolant Pump motors. Turbine Building )
l Ventilation motors. Instrument Air Compressor motors, and '
l';. motor / Generator Sets. The licensee identified specific causes of the
failures for each motor type and. instituted corrective actions in most 1
l cases. For example, the Fuel Pool Cooling motor problem was deteemined I
l to be impro)er ventilation configuration resulting in lower than ;
i required luarication levels for bearings. The ventilation was
L reconfigured to resolve the problem. The Reactor Coolant Pump Motor ,
l: problem recuired' refurbishment of each motor. This arocess has not been !
completed cue to operational recuirements and availa)ility of only one
.
spare motor for both McGuire anc -Catawba. However, the causes of past
!
failures were understood, and corrective actions were scheduled
l The inspectors noted the licensee matrixed the causes of the motor
l failures in the Root Cause Failure Analysis Report in a Motor Fault Tree
j format, The report identified several problems associated with motor
- failures. Specific failure causes were identified as inadequate
I maintenance, lack of vendor cuality control, and improper motor-
application. The licensee icentified the root cause of the motor ;
problems as a motor program management deficiency. The inspectors ;
! considered the licensee's failure analysis was properly focusing on
l problem areas.
The inspectors discussed the motor problems with engineering personnel i
and performed plant walkdowns to evaluate motor material conditions. In
-addition, preventive maintenance work orders and procedures were
reviewed to evaluate adequacy of the licensee maintenance in this area. ;
The reviews. determined the licensee was focusing resources on preventive
maintenance for motors which was based on causes of past failures and
vendor recommendations. Observed conditions of motors in the plant were i
generally good. However, some items were identified which required
additional disposition. One issue involved internal inspection of RHR
(ND) and Containment Spray (NS) Pump motors. When questioned by the
inspectors, the licensee could not provide documentation of motor
internal inspections. The licensee initiated PIP 0-M97-0177 on January
L' 16, 1997, to review and disposition this issue.
The inspectors also noted that the "C" Heater Drain Pump motors
continued to exhibit some problems. During plant walkdown, the
inspectors noted oil leakage from four of the six "C" Heater Drain Pump
l motors. In addition, the air filters on the side panels for the Unit 1
j pump motors were dirty. These items were discussed with engineering
I personnel who stated they would be addressed as part of PIP 0-M96 0204
corrective actions. The licensee identified the root cause of these
motor 3roblems to be inadequate repair / refurbishment information
t- availa)le to motor repair shops. The licensee was working with
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Westinghouse to provide appropriate repair information during future
motor refurbishment. The inspectors concluded that this area requires
continued licensee attention to assure appropriate corrective actions
are implemented.
During this period, the inspectors noted several observations relating
to plant 3rocesses and housekeeping. Positive observations included:
low threslold for identification of issues in the problem investigation
process, good housekeeping in the charging pump rooms, examples of good
predictive maintenance / monitoring, good engineering response to issues,
and a thorough Operations shift turnover in the control room on January
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-16,*1997. Other observations included staging located in RHR pump room
2A and Containment Spray pump room 18. The inspectors discussed the
staging observations with the operations shift on January 16. 1997.
Operators stated they did not brief status of activities requiring
staging in operable safety-related pump rooms at shift turnovers.
Although the staging was appropriately tagged, the inspectors considered 1
that activities involving staging in operational . safety-related pump !
rooms should be minimized with appropriate operational focus being - ;
maintained,
c. Conclusions
The inspectors concluded-the licensee was actively involved in
evaluation and resolution of motor problems. The Root Cause Failure ,
Analysis Report was thorough and identified several focus areas for
improving motor performance.- Even though some motor problems continued,
the licensee's Quality Improvement Team initiative at McGuire had
produced some positive results, and should improve motor performance if
the initiative is continued.
III. Enaineerina
E2- Engineering Support of Facilities and Equipment
E2.1 Review of Desian Basis for the FWST and Surroundina Missile Wall
'
a. Insoection Scooe (37551)
Review of design basis for the FWST and surrounding missile wall.
b. Observations and Findinos
During the inspection' period, the inspectors questioned the design basis
for the FWST swapover function during post LOCA operator actions.
Specifically. the inspector.noted that the licensee's design did not
incorporate an interlock between the automatic post LOCA injection
realignment and actual containment sump levels. An interlock feature
has been incorporated at other facilities, including Catawba, to ensure
- that appropriate containment sump levels exist after FWST depletion in
order to ensure adequate suction supply to the ECCS pumps.
Enclosure 2
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The licensee reviewed the inspector's concern and also other in-progress
reviews that were being performed at other Duke facilities regarding the
overall design basis of the FWST. It was determined that a discrepancy
existed in the wall height of the FWST missile shield wall.
Specifically, the height of the McGuire FWST missle wall was 2 inches .
below the height of the FWST to containment sump ECCS suction swapover )
level setpoint. The FWST missle wall was desianed to protect the tank '
, during a tornado event, assuring sufficient volume to make up for the
j RCS system shrinkage during a postulated steam line break. In this
event the centrifugal charging pumps would inject to offset the volume I
contraction and to provide a source of negative reactivity for i
criticality considerations. '
.
The licensee performed extensive analysis of the concern which was
.
documented in PIP 0-M97-0180. The licensee identified that a change was
, made in the mid 1980's which raised the automatic swap-over level set !
point from 100 inches to 150 inches. This change (NSM-MG-1-1790) made l
the swapover level relative to the bottom of the tank to be 170 inches.
3 However, the missle wall was built to be 168 inches relative to the
!>
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bottom of the tank. Therefore, a rupture of the tank at the missle wall
height could potentially deplete the tank's volume below the auto swap
level without the required containment sump inventory for cold leg
recirculation. The licensee reviewed this scenario and concluded that
4
since auto swapover aligns the low head ECCS pumas to the sump, the Low
'
head (RHR) pumps would not be injecting due to t1e primary system
pressure not falling below the pump's shutoff head. The review
concluded that the RHR pumps would have sufficient volume in their mini-
,
flow recirculation volume to not ex3erience cavitation for the duration
of the event. In addition, the hig, and intermediate head pumps would
still have adequate suction supply from the FWST. The licensee
concluded the FWST was both past and currently operable. '
<
In addition to the above, the licensee identified several other
!
questions regarding FWST design and operator actions associated with i
FWST depletion scenarios. At the end of the inspection period, the
inspector was continuing to evaluate the licensee's engineering reviews
of the FWST design and operability basis. The reviews will be ;
identified as IFI 369. 370/97-01-02, FWST Design Basis.
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c. Conclusions
The inspector concluded that engineering personnel were performing in-
, depth reviews of the FWST design basis to ensure compliance in that area
, and to identify any potential problems.
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, E2.2 Enaineerina Sucoort of Ooerations i
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a. Insoection Scone (37550) l
The inspector reviewed engineering activities which support operations
by observations of engineering and operations personnel interfaces and
review of active engineering material in the control rooms.
. b. Observations and Findinas
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The inspector reviewed the open o)erability evaluations, the degraded
-
but operable determinations and t1e ongoing evaluations. The
evaluations and determinations were reviewed to ensure that they did not
involve an unreviewed safety question and that the margin to safety was
not decreased by the existing degraded condition. Reviewed were 13
operability evaluations, two ongoing evaluations, and three degraded but
operable determinations.
i
c. Conclusions
l The inspector concluded that Engineering was providing effective support
to Operations. The number of open evaluations / determinations was not I
abnormal. The quality of the determinations was good and the results
were well documented.
'
E3 Engineering Procedures and Documentation
E3.1 Chanaes. Tests and Experiments Performed In Accordance With 10 CFR 50.59
( Aoril J .1995. to Aoril 1.1996)
a. Insoection Scooe
By letter dated October 16, 1996, the licensee submitted its annual
summary of all ch.inges, tests, and experiments that were completed under
the provisions of 10 CFR 50.59 for the period April 1,1995, to April 1,
1996. The licensee's October 18. 1996, summary includes 82 changes made
during the subject period. The ins)ector reviewed a number of these
changes against the provisions of t1e regulation.
b. Observations and Findinas
1. Backaround
10 CFR 50.59 provides that a licensee may (1) make changes in the
facility as described in the safety analysis report. (2) make changes in
the procedures as described in the safety analysis report, (3) conduct
tests or experiments not described in the safety analysis report,
without prior Commission approval, unless the change involves a change
in the technical speciheations or an unreviewed safety question (US0).
4
The regulation defines a US0 as a proposed action that (a) may increase
Enclosure 2
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the probability of occurrence or consequences of an accident or
malfunction of equipment important to safety previously evaluated in the
safety analysis report. (b) may create a possibility for an accident or
malfunction of a different type than any previously evaluated in the
safety analysis report, (c) may reduce the margin of safety as defined
in the basis for any technical specification.
2. Procedures
The inspector reviewed the licensee's current (dated March 21, 1996)
version of Nuclear System Directive (NSD) 209 "10 CFR 50.59
Evaluations." which is a procedure that describes how Duke Power Company
(DPC) meets the requirements of 10 CFR 50.50. NSD 209 requires that
changes be evaluated against appropriate Final Safety Analysis Report
(FSAR). Technical Specifications, and NRC Safety Evaluation Report
sections to determine if there is need for revision. Specifically, the
procedure in NSD 209 has the criteria saecified by 10 CFR 50.59 broken
down into seven (7) questions. For a clange to be qualified for 10 CFR
50.59, the answers to all seven questions must be "no".
3. Trainina ,
The licensee has a required training program for personnel that perform
reviews of 50.59 screenings and evaluations. These personnel are known
as Qualified Reviewers (ors). A OR is defined by the licensee as an
individual qualified by education, training and experience to perform
the reviews for procedures, procedure changes and nuclear station
modi fications. Often preparers of procedures, procedure changes and
nuclear station modifications are also qualified as ors. A review of
the training program determined that the program covered all the
essential aspects of the 50.59 screenings and US0 evaluations.
4. Imolementation
The implementation of the licensee's 50.59 program was evaluated by
reviewing a sample of completed 50.59 screenings and USQ evaluations and
interviewing personnel involved in the preparation or review of 50.59
screenings and U50 evaluations. The sample was taken from a total of 82
changes made between April 1995 and April 1996, that were reported in
the licensee's annual summary of changes. Also, a review was done of a
sample of " screened out" (determined not to require US0 evaluation)
items that were randomly chosen from the licensee's files.
The inspector performed an in-office review of the licensee's summary to
determine the nature and safety significance of each change. Through
this review, the inspector selected the following changes for more
detailed review onsite:
Enclosure 2
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Procedure changes - l
OP/ 1/A/6400/05, 1/A/6100/10K. 0/B/6200/109. 1/A/6200/04A.
2/A/6200/04A
EP/ 1/A/5000/FR-P.1. 1/A/5000/FR-I.1. 1/A/5000/ES-1.1.
1/A/5000/ECA-2.1. 1/A/5000/ECA-0.2. 1/A/5000/ECA-0.1.
1/A/5000/E-3. 1/A/5000/G-1
AP/ 1/A/5000/35
MP/ 2/A/7150/57. 0/B/7150/121
PT/ 1/A/4150/044
Modifications - -
NSM 12096, 12279/P6. 12441. 22096, 22441, 22445, 22454,
22455.22457.22473. 29040/P22
MM 3409, 3416, 3860. 3866. 3919, 4039. 4040, 4045. 4097. 5451.
5452. 6164. 6165. 7067.7068. 7096. 7125. 7757
Revision to NRC commitments -
Monitoring eight break locations
Licensee " screened out" items -
OP/ 2/A/6100/23
EP/ 2/A/5000/ECA-2.1
EP/ 1/A/5000/FR-P.2
PT/ 1/A/4206/03A (CHANGE 13)
IPOA 3207007
During the in-office and onsite reviews, the inspector made a number of
observations as noted below and has communicated them to licensee
personnel:
-
A good self-assessment was recently performed on the 50.59 process
at Catawba. McGuire has utilized the results of this self-
assessment by incorporating the lessons learned into their 50.59
process.
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NSD 209 represents a solid foundation for the 50.59 process and
should serve the three stations well, provided the licensee is
diligent in getting personnel to correctly implement the
Directive's requirements.
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Minor administrative problems, which were similar to those
identified by the licensee in the above mentioned self-assessment,
were found in the McGuire 50.59 packages. These included:
e Blocks on some of the 50.59 forms were not checked as
required by NSD 209.
Enclosure 2
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e Illegible preparer and OR signatures were noted on some j
forms. )
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e The justification write-ups for some 50.59 packages did not
clearly address the questions asked on the 50.59 form.
c. Conclusion
Based on the review of the. licensee's October 18, 1996, annual summary
on 10 CFR 50.59 changes, and audit of the licensee's procedures and
evaluations, the inspector concludes that the licensee has complied with
the provisions of this regulation for the changes reported in the annual
summary.
E4 Engineering Staff Knowledge and Performance
. E4.1 Shutdown Bank Triocable Worth Strateay
a. Insoection Scoce (37551)
The insSectors reviewed the licensee evaluation of withdrawing shutdown
banks w111e in Mode 4 to provide additional shutdown reactivity.
i
b. Observations and Findinas
The licensee held PORC meetings to review and evaluate the practice and -l
determined that a no potential existed for a noncompliance with assumptions
used in UFSAR accident analyses. Some questions were raised about the ,
assumptions used in'the uncontrolled bank withdrawal'from zero power l
analysis. The PORC concluded that the assumptions of the current UFSAR 1
uncontrolled rod withdrawal. analysis bound any credible unexpected rod
withdrawal power transient.
-The current UFSAR analysis assumes that the reactor is critical such that
the first available trip is the 25 percent low power trip. This assumption ;
allows for an extremely fast reactivity addition, allowing the reactor to
reach a prompt critical condition. -This_results in a severe )ower,
temperature and pressure transient by withdrawal of shutdown aanks. With
the unit subcritical in MODE 4. operators would receive the high flux at
shutdown alarm at one half decade above background counts and the reactor
would also encounter the source range trip at 10E5 cps. Therefore, a real
rod withdrawal event from subcritical conditions could be terminated by
l operator action or automatically with the reactor significantly '
subcritical. There would not be a resulting reactor coolant system
temperature or pressure transient. Therefore the consequences of such an ,
j event were determined to be bounded by the current analysis. i
Following the PORC, the licensee concluded that the withdrawal of shutdown
l banks A and B would not. place the plant in a degraded condition with
j- regards to an uncontrolled bank withdrawal event. As a result, the
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licensee revised the existing shutdown and startu) procedures to allow I
control room operators to close the reactor trip areakers and withdraw pre- .
selected shutdown rod banks during Modes 3 and 4. l
c Conclusions
The inspectors concluded that the licensee's use of the trip)able worth I
strategy was conservative based on available information. T1e inspectors q
identified no TS noncompliances or UFSAR deviations. The inspectors 3
reviewed the results of the licensee's evaluation and concluded that the
practice of early withdrawal of a shutdown bank to provide a means for
immediate negative reactivity addition during a dilution was conservative, j
E8 Miscel.laneous Engineering Issues (92902)
E8.1 (Closed) Violation 50-369. 370/96-02-02: Failure to Correct Long Term
Deficiencies Resulting in Valid Failures of EDGs.
The-issue involved emergency diesel generator failures due to inadequate
design of the lines for lubrication oil pressure sensing instrumentation
and control. The licensee responded to the Violation in a letter dated
June 6, 1996. In that letter, the licensee stated they took corrective )
actions including conducting a root cause failure analysis and identifying
corrective actions. The correcti_ve actions included periodic maintenance
to vent the lubrication oil pressure loops, periodic testing of the
lubrication oil impulse lines, and implementation of a modification on the
Unit 2 emergency diesel generator lubrication oil instrumentation lines to
shorten the lines.
The inspectors reviewed the licensee's root cause analysis report (PIP 2-M-
96-0331), verified other corrective actions were implemented as stated, and
observed routine testing of the 1B EDG on. January 14, 1997. All equipment
Serformed as required. Implementation of the modification to shorten the
Jnit 1 lubrication oil instrumentation sensing lines was scheduled for the
next refueling outage commencing in February 1997. The inspectors
. determined that corrective action without the modification in place for
Unit I was adequate; however, based on Unit 2 test results, the
modification provided additional margin to prevent recurrence of the
problem. The inspectors concluded the root cause analysis and corrective
actions for the EDG lubricating oil pressure sensing line issue
appropriately addressed the problem.
I
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Enclosure 2
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E8.2 (CLOSED) DEV 50-369.370/96-07-04: Failure to Comply with Commitments in
Response to Generic Letter 88-03 Steam Binding of Auxiliary Feedwater Pumps
This deviation involved the failure of the licensee to provide continuous
monitoring to detect steam voiding that was not accomplished due to the
installation of an incorrect type of resistance thermal detector (RTD).
These RTDs provide indication of auxiliary feedwater piping temperature and
activation of control room alarms when temperatures exceeded established
administrative limits. In addition, inadequate compensatory measures were
taken once the problem was identified. The inspector noted that the
licensee had installed RTDs of the correct type to provide continuous
indication of CA piping surface temperatures and alarms. This deviation is
closed.
E8.3 (CLOSED) Violation 50-369.370/96-07-07: Failure to take Adequate
Corrective Action for EDG Fuel Line Failure and LER 50-369/96-03 Rev 1.
On June 19. 1996, the licensee experienced a failure of the 4R cylinder
fuel line on the 1B EDG. The licensee issued a root cause evaluation
report of the 1B EDG fuel line failure on the 4R cylinder. The failure was
attributed to tube pullout of the 4R cylinder fuel injection line to fuel
pump connection. Specifically, the report concluded the line had ejected
from the ferrule connection due to inadequate crimping of the ferrule to
the tube. All the fuel lines on the Unit 1 EDGs had been upgraded to a new
double-walled tube design in December 1995 to prevent through wall crack
propagation. The Unit 2 EDGs fuel lines were previously replaced (all but
four were upgraded double-wall) during earlier unit refueling cycles and
had not experienced any failures. Corrective actions were developed to re-
crimp all applicable EDG fuel lines on Unit 1 and the four selected fuel
lines for t1e Unit 2 EDGs. These actions were scheduled to occur
concurrent with the routinely scheduled EDG outage days (i.e., one EDG per
month) to minimize unavailability. On July 30. 1996, the licensee
experienced an additional failure of the 1B EDG 4R cylinder, prior to
performing the re-crimping as discussed above. Based on the second failure
at the same location, the licensea expanded their original root cause
investigation process and obtained the services of two separate vendors to
act as oversig1t for the failure analysis and to provide technical
expertise. The second revision to the root cause analysis concluded that
the most likely cause of the second failure was improper crimping of the
sleeve onto the fuel line, possibly aggravated by some pressure increase at
the fuel pump outlet. The licensee also concluded that the monitoring of
cylinder exhaust temperatures was not as good of a failure indicator as
previously expected.
Based on the revised root cause, the licensee significantly expanded their
corrective actions. These PORC reviewed actions included:
-
For the IB EDG. fuel lines were re-crimped, fuel line ends were
machined for proper ferrule positioning, and a 16 hour1.851852e-4 days <br />0.00444 hours <br />2.645503e-5 weeks <br />6.088e-6 months <br /> run performed
to verify the re-crimping process.
Enclosure 2
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Replaced both injector and fuel pump on the 4R cylinder and inspected
the two additional injectors.for contamination. No contamination was
j identi fied.
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Ferrule connections and the crimping process was reviewed by an
industry expert.
-
Removed re-crimped, machined tube ends, and reinstalled all fuel
l injection lines for the 1A 2A. and 2B EDGs in an expedited manner.
!
I The inspector reviewed the licensee's response to a Notice of Violation
i dated. October 24, 1996, and the corrective actions included in that
i response. The inspector reviewed Revision 4 to MCS-1301.00-000007. dated .
j January 16. 1997, the EDG spare parts specificatico. This specification
l had been revised to address the new fuel line crimpir9 and dimensional
j requirements. Procedures MP/0/A/7400/009. Nordberg Diesel Engine Cylinder -
-
Head Removal and Installation. Rev 13. and MP/0/A/7400/01. Nordberg Diesel
Engine Fuel Oil Injection Pump Removal. Installation and Lift.to Port-
l Closure Check, Rev 5. were reviewed to ensure the new crimping and
- dimensional checks had been included. The inspector reviewed the Nordberg
- Diesel Owners Group Recommended Maintenance Program, endated. to verify
L that it contained a six-year recommendation to clean the injector spray
i tips. The inspector observed the spare fuel lines in the warehouse for
F proper crimping. This had been accomplished under WO 96087369. The
engineering training package discussing the fuel line failures and lessons
j learned was reviewed. Based upon the above reviews and observations, this
, item and LER 50-369/96-03. Revision 1 is closed.
r1
'
IV. Plant Supoort
- l
R1 Radiological Protection and Chemistry Controls
! R1.1 Review of Criticality Monitorina Reauirements
h
j a. Insoection Scooe
- 4
1
'
Review of the licensee's compliance with criticality monitoring and '
t associated requirements contained in 10 CFR 70.24 (a).
!
l b. Observations and Findinas
j During the inspection period, the inspector reviewed the licensee's actions
i to comply with the requirements of 10 CFR 70.24 (a). The purpose of 70.24
(a) was to require monitoring, procedural guidance, and emergency drills.
L unless a specific exemption was granted to the requirements. The
. licensee's monitoring capability in the-area of the new fuel receipt / spent
i fuel pool areas consisted.of two detectors in the new fuel vault and one
- detector on the refueling bridge. 70.24(a), in general, requires that a
monitoring system be capable of detecting a criticality within a required
! time frame. The coverage of the monitoring system in all areas shall be
.
l Enclosure 2
1
!
$
-
. . _ .
_ _ _ _ _ _ _ - . _ . _ . _ _ _ . _ _ _ _ . - . _ . _ . . . _ . _ _ _ __. _ _
,
- ;
j..O . *
- .,
l 24-
!
- provided by two detectors. In addition, appropriate drills and procedures i
j. shall be established as part of the requirements. l
t'
The licensee had previously received an exemption from the applicable 70.24
3 monitoring requirements as part of their special nuclear material (SNM)
4
license during construction: however, the licensee did not request an i
- additional exemption cace the construction license terminated. The
i
inspectors discussed the status of their current compliance with 70.24 (a) .;
j and determined the following:
I --
No emergency procedures were in place for evacuation of the I
applicable areas nor were evacuation drills performed as required by
. 70.24 (a)(3). At the end of the inspection period, the licensee had
j developed emergency procedures and were planning the performance of
.
evacuation drills prior to the receipt or movement of any new-fuel.
l The inspector verified that the new fuel inspection and storage
- procedures were on hold status such that new fuel would not be
- received prior to procedure training and drill completion.
" Once identified to the licensee, prompt actions were taken to submit
i an exemption request to the Commission (dated February 4. 1997) on
i behalf of the McGuire. Catawba, and Oconee sites. On February 13,
i 1997, the NRC requested additional information regarding the
licensee's compliance with 70.24 requirements. As of the end of the
'
$
inspection period, NRR review of the exemption request was still in
i progress,
c. Conclusions
f
! The inspector discussed the above findings with NRC management and reviewed
,
the regulatory significance. Based on the review, a Violation of 10 CFR
! 70.24 (a)(3) was identified for failing to have established emergency
i procedures to address a potential criticality event. In addition,
i requirements to perform evacuation drills of the affected. areas were also
i not met. This will be identified as Violation 50-369, 370/97-01-03,
Violation of 10 CFR 70.24 Requirements.
!
V. Manaaement Meetinas
[ X1 Exit Meeting Summt.ry
I'
-The inspectors presented the inspection results to members of licensee management
- at the conclusion'of the inspection on February 24, 1997. The licensee
'
acknowledged the findings presented. l
.
The inspectors asked the licensee whether any materials examined during the
- ' inspection should be considered proprietary. No proprietary information was
identified.
-
1
I Enclosure 2 i
!-
!
I
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2S
PARTIAL LIST OF PERSONS CONTACTED
Licensee
1
Barron, B. , Vice President. McGuire Nuclear Station
Boyle J. , Civil / Electrical Systems Engineering )
Byrum W., Manager. Radiation Protection
Cline. T. , Senior Technical Specialist. General Office Support l
Cross. R., Regulatory Compliance
Davison. Valve Supervisor l
Dolan. B. , Manager. Safety Assurance l
Geddie. E., Manager. McGuire Nuclear Station i
Harley. M., Engineering Supervisor '
Herran. P., Manager. Engineering
Jones. R., Superintendent. Operations
Karriker. S., Valve Engineer (Site GL 89-10 Program Lead)
Kunkel. N., Senior Engineer i
Lamb. J., Valve Engineer l
Michael R., Chemistry Manager l
Nazar. M., Superintendent. Maintenance l
Painter. D., Valve Engineer '
Sample, M.. Manager. Steam Generator Maintenance Group l
Setzer, F.. Valve Engineer l
Snyder. J., Manager. Regulatory Compliance i
Thomas K., Superintendent. Work Control
Travis. B. , Manager, Mechanical / Nuclear Systems Engineering i
'
Tuckman. M.. Senior Vice President. Nuclear Duke Power Company
Welch. T., Engineering Supervisor
NRC l
S. Shaeffer. Senior Resident Inspector McGuire
M. Sykes. Resident Inspector. McGuire
P. Kellogg Regional Inspector l
W. Holland. Regional Inspector !
l
Enclosure 2
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y
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26
l
INSPECTION PROCEDURES USED
IP 71707: Coriduct of Operations !
IP 40500: Self Assessment l
IP 92700: Miscellaneious Operations Issues l
IP 62703: Maintenance Observations l
IP 61726: Surveillance Observations 1
IP 37550: Engineering
IP 37551: Onsite Engineering
IP 92902: Miscellaneous Engineering Issues !
IP 71750: Plant Support
IP 37550: Engineering Staff Knowledge and Performance
ITEMS OPENED. CLOSED, AND DISCUSSED
)
OPENED TITLE
1
URI 50-369/97-01-01 Root Cause of RCS Letdown Filter leak l
(paragraph 03.1)
IFI 50-369.370/97-01-02 FWST design basis (paragraph E2.1) l
l
VIO 50-369.370/97-01-03 Violation of 10 CFR 70.24 Requirements I
(paragraph R1.1)
CLOSED TITLE
VIO 50-369.370/96-02-02 Failure to Correct Long Term Deficiencies
Resulting in Valid Failures of EDGs
(paragraph E8.1)
LER 50-369/96-03 Inoperability of Both Unit 2 EDGs (paragraph
08.1)
DEV 50-369.370/96-07-04 Failure to Comply with Commitments in
Response to Generic Letter 88-03 Steam
Binding of Auxiliary Feedwater Pumps
(paragraph E8.2)
VIO 50-369.370/96-07-07 Failure to take Adequate Corrective Action
for EDG Fuel Line Failure and LER 50-369/96-
03 Rev 1 (paragraph E8.3)
Enclosure 2
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LIST OF ACRONYMS USED
AEB -
Auxiliary Electric Boiler
CA -
Auxiliary Feedwater System
>
CR -
Control Room
CRIP - Control Room Indicator Problem
DRP -
Division of Reactor Projects
ECCS - Emergency Core Cooling System
EDG -
FWST - Refueling Water Storage Tank
IFI -
Inspector Followup Item
IPB -
Isolated Phase Bus
LER -
Licensee Event Report !
.
LOCA - Loss of Coolant i
MVAR - Mega Volts Amperes Reactive i
NCV -
Non-Cited Violation
NLO -
Non-licensed Operator
NRC -
Nuclear Regulatory Commission
NRR -
NRC Office of Nuclear Reactor Regulation
PDR -
Public Document Room
PIP -
Problem Investigation Process l
PMT -
Post Maintenance Test :
I
PORC - Plant Operations Review Committee
RCCA - Rod Cluster Control Assembly
RCS -
RHR -
RTD -
Re.sistance Temperature Detector
SNM -
SRI -
Senior Resident Inspector
TI -
Tem 3orary Instruction
TS -
Tec1nical Specification
UFSAR - Updated Final Safety Anclysis Report
URI -
Unresolved Item
VIO -
Violation
WO -
Work Order
WR -
Work Request .
.
Enclosure 2
,