EA-15-276 - Energy Northwest, Columbia Generating Station Response to Disputed Non-Cited Violation, NRC Inspection Report 05000397/2015003

ML16162A735
Person / Time
Site:	Columbia
Issue date:	06/10/2016
From:	Dapas M Region 4 Administrator
To:	Reddemann M Energy Northwest
References
EA-15-276, IR 2015003
Download: ML16162A735 (12)
v • d • e

See also: IR 05000397/2015003

Text

UNITED STATES

NUCLEAR REGULATORY COMMISSION

REGION IV

1600 E. LAMAR BLVD.

ARLINGTON, TX 76011-4511

June 10, 2016

EA-15-276

Mr. Mark E. Reddemann

Chief Executive Officer

Energy Northwest

P.O. Box 968, Mail Drop 1023

Richland, WA 99352-0968

SUBJECT: COLUMBIA GENERATING STATION - RESPONSE TO DISPUTED NON-CITED

VIOLATION - NRC INSPECTION REPORT 05000397/2015003

Dear Mr. Reddemann:

On November 12, 2015, the U.S. Nuclear Regulatory Commission (NRC) issued the subject

inspection report and non-cited violation (NCV) of 10 CFR Part 50, Appendix B, Criterion III,

Design Control, related to the verification of the adequacy of the design of the control room

heating, ventilation, and air conditioning system (Agencywide Documents Access and

Management System (ADAMS) Accession ML15316A834).

On December 22, 2015, you provided a response (ML15356A817) in which you contested the

NCV (NCV 05000397/2015003-03) described in the inspection report. On December 31, 2015,

the NRC acknowledged receipt of this letter (ML15365A496) and informed you that we would

evaluate your response and inform you of the results of our evaluation.

The NRC conducted a detailed review of your response and the applicable regulatory

requirements, in accordance with Part I, Section 2.2.8, of the NRC Enforcement Manual. The

NRC staff who performed the review were not involved with the original inspection effort. After

careful consideration of the basis for your denial of the NCV, the NRC has concluded that the

inspection report adequately describes the violation and characterization of the finding;

however, clarification regarding the basis for the NCV is provided in the enclosure to this letter.

As a result, the NRC is upholding the NCV contained in the inspection report. The results of the

NRCs evaluation of your reply to the NCV is contained in the enclosure to this letter.

M. Reddemann -2-

In accordance with 10 CFR 2.390 of the NRC's "Agency Rules of Practice and Procedure," a

copy of this letter and its enclosure will be made available electronically for public inspection in

the NRC Public Document Room and in the NRCs Agencywide Documents Access and

Management System (ADAMS), accessible from the NRC Web site at

http://www.nrc.gov/reading-rm/adams.html.

Sincerely,

/RA/

Marc L. Dapas

Regional Administrator

Docket: 50-397

License: NPF-21

Enclosure:

NRC Evaluation of Licensee Response to

Non-Cited Violation

ML16162A735

SUNSI Review ADAMS Publicly Available Non-Sensitive Keyword:

By: CHY Yes No Non-Publicly Available Sensitive

OFFICE DRP/SPE/C DRP/BC/C ORA/ACES ORA/RC OE NRR DRP/D

NAME CYoung GWarnick JKramer KFuller GFigueroa LCasey TPruett

SIGNATURE /RA/ /RA/ /RA/ /RA/ /E/ /E/ /RA/

DATE 05/12/16 05/12/16 05/17/16 05/19/16 05/26/16 05/26/16 06/01/16

OFFICE ORA/RA

NAME MDapas

SIGNATURE /RA/

DATE 06/10/16

NRC EVALUATION OF LICENSEE RESPONSE TO NON-CITED VIOLATION

Restatement of the Violation

Title 10 CFR Part 50, Appendix B, Criterion III, Design Control, requires, in part, that design

control measures shall provide for verifying or checking the adequacy of design, such as, by the

performance of design reviews, by the use of alternate or simplified calculational methods, or by

the performance of a suitable testing program. Final Safety Analysis Report, Section 9.4.1.1,

Design Basis, established the design of the control room heating, ventilation, and air

conditioning (HVAC) system and specified, in part, that during emergency conditions, the control

room temperature will be maintained within the habitability limit (85°F) by the control room

chilled water. Service water can maintain the control room temperature limit of 85°F during

colder weather. Service water will maintain the control room within the environmental

qualification temperature limit for control room equipment (104°F).

Contrary to the above, prior to July 2, 2015, the licensee failed to implement design control

measures for verifying or checking the adequacy of design, such as, by the performance of

design reviews, by the use of alternate or simplified calculational methods, or by the

performance of a suitable testing program. Specifically, the licensee failed to verify the

adequacy of the design of the control room emergency chillers involving loss-of-offsite power

scenarios that result in transient losses of control room cooling, such that, the design basis

established in Final Safety Analysis Report, Section 9.4.1.1, was ensured.

The licensee initiated Action Request 332565 to document the concern, issued Night

Order 1662 to communicate the issue, aligned both control room air handling units to their

respective chillers, created a quick card procedure to perform the chiller reset actions, and

validated the quick card actions could be accomplished within 10 minutes. Because the finding

is of very low safety significance (Green) and has been entered into the licensees corrective

action program, this violation is being treated as a non-cited violation (NCV), consistent with

Section 2.3.2.a of the NRC Enforcement Policy. (NCV 05000397/2015003-03, Failure to

Provide Design Control Measures for Control Room Emergency Chillers)

Summary of Licensee Response

In response to the NCV, the licensee contested it as described in a letter dated December 22,

2015. The letter provided the licensees bases for denying the NCV, which included the

following contentions:

1. There are no design basis requirements to maintain the control room temperature at less

than or equal to 85°F at all times for all accident scenarios.

2. Columbia Generating Stations control room HVAC system design was approved with no

requirement to have automatic features.

3. Columbia Generating Stations control room HVAC design has been previously

evaluated by the NRC on at least two separate occasions and determined to be

adequate.

Enclosure

4. Consideration for transient conditions during initial startup of support systems was

established after Columbia Generating Station was licensed.

In addition, the licensee contended that the NRC introduced new requirements in the inspection

report with regard to maintaining the control room below a maximum temperature limit for the

duration of all accident scenarios.

NRC Evaluation

Review of System Design Basis

The NRC reviewed the design and licensing basis of the control room emergency chilled

water (CCH) system, and identified the following key milestones applicable to the review of

NCV 05000397/2015003-03, Failure to Provide Design Control Measures for Control Room

Emergency Chillers.

1. Initial Licensing and Regulatory Requirements for the Control Room Emergency Chillers

In February 1973, Columbia Generating Station (formerly Washington Public Power

Supply System (WPPSS), Washington Nuclear Project, Unit 2) submitted its Preliminary

Safety Analysis Report to the NRC. Preliminary Safety Analysis Report, Section 9.4,

Main Control Room/Cable Spreading Room/Critical Switchgear Area HVAC System,

stated that the standby service water system is used as an emergency cooling medium

and will maintain the control room temperature below 104°F, which is the temperature

limit for maintaining equipment performance.

During the initial licensing of Columbia Generating Station, the NRC staff expressed

concern about the 104°F maximum temperature for the main control room. In response

to the NRC staffs concern, the licensee committed to provide seismic, Category I,

redundant, environmentally qualified water chillers for control room heating, ventilation,

and air conditioning to maintain ambient conditions compatible with the comfort zone, as

defined by the American Society of Heating, Refrigeration, and Air Conditioning

Engineers (ASHRAE). The need to add control room chillers to the Columbia

Generating Station design is reflected in following Final Safety Analysis Report (FSAR)

question:

NRC Staff Question 010.063, dated December 1981: Discuss the control room

environment which will result from the most extreme ambient and accident conditions

(including the worst single failure for the HVAC). Note: The temperature/humidity for

all operating/accident conditions shall be maintained within the comfort zone as

defined by ASHRAE. This requirement applies to all areas which require operating

personnel.

Licensee response: To maintain the control room at an ambient condition which is

compatible to the comfort zone defined in ASHRAE, redundant seismic and

environmentally qualified liquid chillers are being incorporated into the control room

HVAC design. Sections 9.4.1 and 6.4 will be updated when this design is complete.

The control room is the only area with essential equipment where personnel are

routinely required during accidents.

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The NRC staff concluded in NUREG-0892, Safety Evaluation Report related to the

operation of WPPSS Nuclear Project No. 2, dated December 1983, that with the

addition of the control room emergency chillers, the requirements of 10 CFR Part 50,

Appendix A, General Design Criteria 19, Control Room, with respect to ambient

operator/equipment environmental conditions would be satisfied. The NRC modified the

operating license for Columbia Generating Station by adding Condition 2.C.(21), which

required these emergency chillers be operable for control room HVAC prior to

May 31, 1984.

2. Licensee Actions to Satisfy License Condition 2.C.(21)

Based on the requirement in License Condition 2.C.(21), the licensee approved a

change to the FSAR under Burns and Roe Safety Analysis Report Change Notice 84-07

on February 8, 1984. This FSAR change was implemented in parallel with a design

change under Project Engineering Directive S215-B-6897, CCH System SRM List

Addition, approved on March 14, 1984. This design change added a chilled water

system to, maintain area habitability in the control room under accident conditions.

The licensee performed a 10 CFR 50.59 evaluation for this design change and

concluded the addition of these chillers did not meet any unreviewed safety question

criteria such that the design change would require prior NRC approval.

The addition of the control room emergency chillers was reflected in Amendment 35 of

the FSAR dated November 1984. The temperature that the control room HVAC system,

including the control room emergency chillers, would be capable of maintaining was

established in this amendment. Final Safety Analysis Report, Section 9.4.1.2.1, stated:

During emergency condition, emergency chilled water or standby service

water is supplied to the air handling units for cooling. In this mode of

operation the control room ambient temperature will be maintained at

75°F +/- 3 degrees, which is sufficient to ensure critical equipment operation

and area habitability.

Amendment 35 of the FSAR also established that portions of the control room

emergency chilled water system would function automatically during a design basis

accident (DBA). In particular, FSAR, Section 9.4.1.5.1, stated:

In the emergency condition (loss-of-radwaste building chilled water during

design basis accident), the cooling coil WMA-CC-51A1 serving air-handling

unit WMA-AH-51A is automatically supplied with standby service water and

the cooling coil WMA-CC-51B1 is automatically supplied with emergency

chilled water. If necessary, cooling coil WMA-CC-51A1 can be supplied with

emergency chilled water by manual opening or closing of valves in standby

service water and emergency chilled water lines to chiller CCH-CR-1A.

The NRC determined that Amendment 35 to the FSAR was the first point where the

CCH system was described in the FSAR, and incorporated the initial design basis

information for the CCH system. Specifically, the licensee, in Amendment 35, identified

specific functions required of the CCH system during emergency conditions, such as a

DBA.

-3-

Title 10 of CFR 50.2 defines design bases as that information which identifies the

specific functions to be performed by a structure, system, or component of a facility, and

the specific values or ranges of values chosen for controlling parameters as reference

bounds for design. These values may be (1) restraints derived from generally accepted

"state of the art" practices for achieving functional goals, or (2) requirements derived

from analysis (based on calculation and/or experiments) of the effects of a postulated

accident for which a structure, system, or component must meet its functional goals.

For the control room HVAC system, the control room emergency chillers are an integral

part of the design. Functional goals were established for the system to be capable of

ensuring that area temperatures will support critical equipment operation and area

habitability. In Amendment 35 to the FSAR, the system was described as achieving

those functional goals to automatically start and supply cooling water to the control room

air handling units in order to maintain control room temperatures that are sufficient to

ensure critical equipment operation and area habitability.

3. Design Change from Automatic to Manual

On November 11, 1989, the licensee approved FSAR Change 89-068. The purpose of

this FSAR change was to, change the automatic supply WMA-CC-51B1 with chilled

water to manually starting the chilled water pump and emergency control room chiller

during an emergency condition (post LOCA [loss-of-coolant accident] or during a LOOP

[loss-of-offsite power]). This change resulted in a revision to FSAR, Section 9.4.1.5.1,

(see above) in Amendment 42 to state that, cooling coil WMA-CC-51B1 is manually

supplied with emergency chilled water. The licensee performed a 10 CFR 50.59

evaluation for FSAR Change 89-068 and documented the following conclusions when

evaluating the change with respect to the following unreviewed safety question criteria:

• Can the probability of occurrence or the consequences of an accident or malfunction

of equipment important to safety previously evaluated in the FSAR be increased?

Licensee Evaluation: [No] The proposed change requires manual action to start the

chilled water system and the chiller. The accident that requires the B emergency

control room chiller is LOCA or LOOP. The service water A pump fails to start, which

is valved to the cooling coil in the 51A air handling unit. The B control room

ventilation system is required to maintain the control room habitable. The time for

the control room temperature to rise from the normal setpoint to 85°F would be

approximately 30 minutes (preliminary calculations 30+ minutes). The time to a

temperature of 104°F would be conservatively 85 minutes. Operator action to turn

on the pump breaker and control power to the chiller could be accomplished in

35 minutes. A short time increase in the control room temperature would have

minimum effect on personnel.

-4-

• Can a possibility for an accident or malfunction of a different type than evaluated

previously in the FSAR be created?

Licensee Evaluation: [No] The chilled water pump and chiller will start with operator

action. Previously, the chilled water [emergency chilled water system] was started

when service water pressure exceeded 100 psig. No other changes have been

made. The time required to close the breaker and to turn on control power has been

increased, this will delay start of the emergency chilled water system by 35 minutes.

The FSAR has evaluated the manual line up of an emergency chiller for control room

cooling if it is required. This manual action takes about 1/2 hour.

• Is the margin of safety as defined in the basis for any technical specification

reduced?

Licensee Evaluation: [No] The technical specifications basis is temperature less

than or equal to 85°F in the control room for personnel habitability for 30 days

post-accident. The time for operator action to start the emergency cooling

[emergency chilled water system] has increased to about 35 minutes (no action for

30 minutes; 5 minutes for action) - the temperature may rise to 85°F or slightly

above, but the effect on habitability is minimal for the short duration.

The NRCs evaluation of the NCV in question included a review of the change that

incorporated the manual starting of the chilled water pump and emergency control room

chiller during an emergency condition (post LOCA or during a LOOP). The NRC agreed

that a change from automatic to manual operation of the control room emergency

chillers would not result in any of the unreviewed safety question criterion being met,

provided that the licensee adequately justified the proposed changes. The NRC

identified the following deficiencies in the licensees justification for the proposed

change:

• The licensees evaluation stated that the time required to, close the [emergency chill

water breaker] and to turn on control power has been increased, this will delay start

of the emergency chilled water system by 35 minutes. The NRC concluded that this

statement does not accurately reflect the design of the control room emergency

chiller system. Specifically, the NRC determined that the time required to manually

start the control room emergency chillers may be longer than the 35 minutes

asserted in the licensees evaluation because of an anti-recycle relay in the chiller

start circuitry that actuates on a loss of power to prevent chiller re-start for

30 minutes. This time delay associated with the anti-recycle relay coupled with the

time needed to diagnose and respond to a loss of control room air conditioning would

likely result in a longer manual action response time.

During the inspection that resulted in the NCV in question, the NRC also determined

that the licensee was unable to demonstrate that during certain DBAs, there would

be an appropriate time sensitivity to the required manual actions necessary to start

the control room emergency chillers.

-5-

• The licensees evaluation stated that the time for the control room temperature to rise

from the normal setpoint to 85°F would be approximately 30 minutes (preliminary

calculations 30+ minutes). During the inspection that resulted in the NCV in

question, the NRC determined that the licensee had not maintained an analysis or

calculation that supported the assertion that the temperature rise to 85°F would be

approximately 30 minutes. Therefore, the inspectors were unable to verify the

validity of this assertion. The lack of a supporting analysis that demonstrated the

ability of the control room HVAC system to maintain control room temperatures to

ensure critical equipment operation and area habitability was the basis for the NCV

in question.

• The licensees evaluation stated that, the temperature [in the control room] may rise

to 85°F or slightly above, but the effect on habitability is minimal for the short

duration. The NRC noted that this conclusion relies on the qualitative judgment that

operator performance would not be negatively impacted by the temperature

increase. The NRC also determined that the validity of this conclusion is dependent

on: (1) a manual action time of approximately 35 minutes to start the control room

emergency chiller, and (2) an appropriate analysis that determines the control room

temperature profile (i.e., peak temperature and duration of elevated temperature)

during the time period associated with the actions necessary to place the system in

service.

The NRC determined that the licensee may make a change to the facility design that

relies on qualitative judgment in assessing whether operator performance would not be

negatively impacted by temperature excursions above 85°F. However, it is the

responsibility of the licensee to ensure there is adequate justification for the change and

that the change is accurately reflected in the facility design basis.

The NRC also noted that the description of the system operation in FSAR,

Section 9.4.1.5.1, which was referenced above as having been revised in a 1989 change

from automatic to manual with respect to cooling coil WMA-CC-51B1 being supplied with

emergency chilled water, has since been further revised by the licensee. The current

FSAR (Amendment 63), Section 9.4.1.5.1, states that When the Off-Auto control switch

in the control room, which is normally in the Off position, is set to Auto, the cooling

coil WMA-CC-51B1 will be automatically supplied with emergency chilled water.

Evaluation of Non-Cited Violation

As indicated above, FSAR, Section 9.4.1, Main Control Room/Cable Spreading Room/Critical

Switchgear Area, Section 9.4.1.1, Design Bases, states that, the control room chilled water

system or standby service water system is used as the cooling medium for the control room

HVAC system during emergency conditions. This section further states that, in the event both

radwaste chillers are inoperative (emergency condition) the control room temperature will be

maintained within the habitability limit (85°F) by control room chilled water. Standby service

water can maintain the control room temperature limit of 85°F during colder weather. Standby

service water will maintain the control room within the environmental qualification temperature

limit for control room equipment (104°F).

-6-

These design limits are also included in the bases for Technical Specification 3.7.4, Control

Room Air Conditioning (AC) System, as follows, The design condition for the control room

environment is 85°F for control room habitability. The environmental qualification temperature

for control room equipment is 104°F.

As described in NRC Inspection Report 05000397/2015003, the inspectors identified that the

licensee does not have an evaluation to demonstrate the capability of the control room HVAC

system to perform its safety function of maintaining control room temperature within established

limits for habitability and equipment qualification during DBA scenarios that involve the need for

system realignment to place the system in service. In the introduction and analysis sections

that described the finding in the inspection report, as well as in the reports summary of findings,

the NRC stated, as a basis for the NCV in question, that, the licensee failed to demonstrate the

ability of the control room HVAC design to maintain the temperatures in the main control room

below habitability and environmental qualification limits, for the duration of all accident

scenarios.

In order to more clearly characterize the basis for the NCV, the above phrase, for the duration

of all accident scenarios, could be better stated as, as described in the system design basis,

under applicable DBA conditions. The NRCs intent is not to indicate that there is a specific or

unique requirement for this system to maintain temperature below a certain limit at all times

throughout all DBA scenarios. The statement was intended to reflect a requirement for design

verification by which a safety system must be evaluated to be capable of performing the function

that is described in the facility design basis, under the worst-case conditions included in

applicable DBA scenarios. In the absence of any properly evaluated exception or allowance to

the contrary being included in the design basis, the systems capability to perform its specified

function during a DBA would be for the duration of the event.

The licensees response letter stated that there is no design basis requirement to achieve a

control room temperature less than the habitability limit (85°F) within any certain amount of time

following the onset of a design basis event. The NRC agrees that no certain time period is

established or referenced in the facility design basis for control room temperature to depart

from, and be subsequently re-established within, this temperature limit. Therefore, no

allowance is currently provided in the design basis for the aforementioned temperature limits for

control room habitability or equipment environmental qualification to be exceeded, or for these

functions of the control room HVAC system to not be maintained at all times during a DBA.

As discussed above, the requirement for installation of the CCH system was established in

order to ensure that the control room HVAC system would be capable of maintaining acceptable

control room habitability, which is a function that must be maintained for all operating/accident

conditions. Maintaining control room habitability is of particular importance during operator

response to a DBA. The NRC recognizes that certain DBA scenarios may involve a transient

period during which a realignment of the control room HVAC system may be necessary. A

corresponding transient departure above the established temperature limit for control room

habitability may be acceptable from the standpoint of maintaining the function of providing

acceptable control room habitability, provided that such a departure is appropriately evaluated

as such, and included in the description of the safety systems function in the facility design

basis.

-7-

The licensees response letter stated that there is no requirement for the control room HVAC

systems function to include automatic features. The NRC agrees that no requirement exists for

the systems function to be automatic; however, the NRC noted the following:

• When the control room emergency chilled water system design basis was initially

established and incorporated into the FSAR to meet the requirements of License

Condition 2.C.(21), it was described as having automatic features. That design basis

information was subsequently changed to indicate manual operations.

• The NCV in question is independent of whether the systems features are automatic.

Regardless of whether the systems operation is automatic or manual or some

combination thereof, the system must be evaluated to determine if it is able to perform

its function as described in the design basis, which may or may not include incorporation

of appropriately evaluated manual actions.

The licensees response also stated that the adequacy of the control room HVAC system design

had been previously evaluated by the NRC and determined to be adequate. The NRCs

Reactor Oversight Process includes inspections, which provide for a continuous review of

licensee activities, programs, processes, design output, and plant systems, in determining if

regulatory requirements are being met. The results of previous NRC reviews to assess the

adequacy of plant systems or licensee actions in meeting regulatory requirements, do not

preclude the NRC from subsequently determining that deficiencies exist in a particular area

based on additional NRC inspections of regulated activities. As indicated in the licensees

response, the NRC did not conclude from the previous reviews that the design of the control

room HVAC system was inadequate. The NCV in question also does not challenge the

adequacy of the design, but rather, it involves a deficiency with regard to the verification of the

capability of the control room HVAC system to perform its design function as described in the

FSAR.

The licensees response also stated that consideration for transient conditions during initial

startup of support systems was established after Columbia Generating Station was licensed.

The licensees response references recommendations contained in a memorandum issued by a

working group of NRC staff in response to issues raised by the NRCs Advisory Committee on

Reactor Safeguards. This memorandum is not part of the licensing basis for Columbia

Generating Station. Applicable requirements that were incorporated into the licensing basis for

Columbia Generating Station, involving systems to maintain control room temperatures, are

discussed above in the section entitled Review of System Design Basis.

Verifying by analysis the capability of a safety-related plant system to perform its function as

described in the facility design basis under applicable DBA conditions is not a new requirement.

Therefore, the NRC is not invoking any provisions associated with 10 CFR 50.109, Backfitting.

NRC Conclusion

With the support of an analysis of the control room temperature that would be achieved during a

worst-case DBA by the operation of the control room HVAC system with a single failure, it may

be acceptable for design basis documentation to reflect that the systems function of maintaining

an acceptable environment for habitability and equipment qualification would be met, even with

the established temperature limit for habitability being transiently exceeded (with an acceptable

-8-

peak temperature and duration). In the absence of such an analysis to verify the adequacy of

the design, it cannot be concluded that the system function as described in the current design

basis can be achieved.

Based on the results of the review described above, the NRC concluded that the NCV

of 10 CFR Part 50, Appendix B, Criterion III, for the licensees failure to verify the adequacy of

the design of the control room HVAC system, as documented in NRC Inspection

Report 05000397/2015003, is valid. Therefore, this NCV is being upheld.

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