ML070030348
ML070030348 | |
Person / Time | |
---|---|
Site: | Harris |
Issue date: | 12/19/2006 |
From: | Progress Energy Carolinas |
To: | Office of Nuclear Reactor Regulation |
References | |
FAQ 06-0016, Rev 0 | |
Download: ML070030348 (5) | |
Text
FAQ Number 06-0016, Revision 0 Plant: Harris Nuclear Plant (HNP) FAQ # 06-0016 Rev. 0 Submittal Date: 11-6-06 Licensee
Contact:
David Miskiewicz Tele/email 919-546-7588 NRC
Contact:
Tele/email Distribution: Check all that apply (NEI Internal Use)
FPWG RIRWG NSSS OG NFPA 805 TF
Subject:
Clarification/enhancement of Ignition Source counting guidance for Electrical Cabinets in NUREG/CR-6850, supporting NFPA-805 Fire PRA application.
Interpretation of guidance? Yes Proposed new guidance not in NEI 04-02? Yes Details:
NEI 04-02 Guidance needing interpretation (include section, paragraph number, and line number):
New attachment on interpretation issues Circumstances requiring guidance interpretation or new guidance:
The guidance provided in NUREG/CR-6850 for Task 6, Fire Ignition Frequency (Section 6.5.6, Bin 15), states:
Bin 15 - Electrical Cabinets (Plant-Wide Components): Electrical cabinets represent such items as switchgears, motor control centers, DC distribution panels, relay cabinets, control and switch panels (excluding panels that are part of machinery), fire protection panels, etc. Electrical cabinets in a nuclear power plant vary significantly in size, configuration, and voltage. Size variation range from small-wall mounted units to large walk-through vertical control cabinets, which can be 20 to 30 long. The configuration can vary based on number of components that contribute to ignition, such as relays and circuit cards, and combustible loading, which also affects the fire frequency. Voltages in electrical cabinets vary from low voltage (120 V) panels to 6.9 kV switchgears. Even though it is expected that these features affect the likelihood of fire ignition, from a simple analysis of the event data involving the electrical cabinets, it was determined that the variation by cabinet type did not warrant separate frequency evaluation. Therefore, one fire frequency was estimated for the electrical cabinets.
This guidance infers that cabinet size is not a factor for ignition source counting. However, additional guidance states that electrical cabinets should be counted by their vertical segments .... During the presentation of Pilot Project results it was determined that differences related to the definition of segments could result in notable inconsistency between individual users of NUREG/CR-6850.
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FAQ Number 06-0016, Revision 0 The discussion of this issue found that this issue affects only general electrical cabinets and panels. In the case of switchgears, load centers, unit substations, and motor control centers the term segment was uniformly interpreted to be equal to the individual vertical sections that define these types of components. As applied to general electrical cabinets and panels, the term segments could be interpreted to mean different metrics.
A segment could be defined as an enclosed element that is generally independent of size or volume (also referred to as a vertical section).
A segment could be defined as an individual section of an enclosure regardless of whether it was fully enclosed.
A segment could be defined based on a standard or reference sample panel size.
Depending on the metric being used, the counting of electrical cabinets would result in varying results and consequently, different fire ignition frequency values. While NUREG/CR-6850 allows the establishment of plant specific criteria for counting of electrical cabinets, additional guidance is required to achieve a consistent basis for determining the ignition frequencies.
Detail contentious points if licensee and NRC have not reached agreement This topic has impact on the NFPA-805 pilots, non-pilots and other users of NUREG/CR-6850.
Potentially relevant existing FAQ numbers:
This guidance is specific to the characterization of electrical cabinets for Bin 15 ignition frequency determination. The characterization of switchgear and load center segments for the purposes of high energy arcing faults is addressed by FAQ 06-0017.
Response Section A generalized counting criterion for general electrical cabinets and panels is proposed. This proposed criterion would involve two elements.
For switchgears, load centers, unit substations, and motor control centers the counting for the purposes of NUREG/CR-6850, Task 6, Bin 15 would be based on vertical section. This counting is illustrated in the following examples.
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FAQ Number 06-0016, Revision 0 Medium Voltage Switchgear 9 Breakers and Sections Count = 9 for Bin 15 Load Center or Unit Substation 16 Breakers in 4 Sections Count = 4 for Bin 15 Motor Control Center 41 Breakers/Starters in 9 Sections Count = 9 for Bin 15 For general electrical cabinets and panels, it is proposed that the counting be based on a physically enclosed element. A physically enclosed element means that that the cabinet or panel is fully enclosed by 6 solid elements with the provision that a non-combustible floor or ceiling may represent the bottom or top. The term solid element is not intended to mean that the element is substantially continuous. Consequently, breeches or unsealed penetrations could still be treated as solid. The term solid is intended to prevent a panel that is divided by an element that is substantially open from being treated as two separate panels.
This proposed counting for electrical cabinets and panels is to be applied for a wide range of panel sizes. However, recognizing that the ignition frequency is more a function of the cabinet contents than the cabinet size, a basis is needed to address outlier conditions. It is proposed that each user be required to establish criteria for identifying the outliers and the basis for counting them. As an example, they can be counted by establishing a nominal standard or reference cabinet size. The count could also be based on evaluating the cabinet internals relative to a defined standard or reference configuration.
For example, a particular user may define a cabinet with any horizontal dimension more than 8 feet as an outlier, and a standard cabinet as being nominally 4 feet in length x 3 feet deep. (cabinet height is not generally an issue based on the use of vertical sections). Using this example, the following cabinet and panel examples would be counted as follows:
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FAQ Number 06-0016, Revision 0 6 ft Cabinet is not an outlier -
Count = 1 Cabinet is same as standard Count = 1 Internal dividers are not solid Count = 1 Internal dividers are solid Count = 6 Three independent cabinets Count = 3 12 feet, 3 ft deep Panel is an outlier, using a 4 standard cabinet -
Count = 3 9 ft long , 6 ft deep Cabinet is an outlier, no evaluation of contents, based on reference cabinet Count = 3 - due to both variation from the standard length and width..
9 ft long , 6 ft deep Cabinet is an outlier, evaluation of Walk Through Cabinet contents shows low cable loading typical of the standard cabinet -
Count = 1 4
FAQ Number 06-0016, Revision 0 The intent is that a basis for the counting of outliers is required. A volumetric comparison is not required. Also, to prevent any appearance that this treatment is intended to be based on physical measurements, the proposed approach allows only integer counting. The assignment of fractional values would not be allowed. In addition, the proposed methodology retains the option for screening small cabinets resulting in a count of zero for them (as discussed in NUREG/CR-6850). As applied in this case, the user would be allowed to screen cabinets or panels based on defined criteria and exclude them from the overall population count. When performing detailed fire modeling, the fire should be applied to the actual cabinet footprint by vertical section, including outliers.
Basis:
The existing guidance in NUREG/CR-6850 is based on industry data which has only been provided with fidelity adequate to support plant level ignition frequencies for electrical cabinets. Although the guidance does address the broad applicability of the data, it leaves room for variability that can create issues with PRA quality. It is important that the ignition frequency results be of sufficient quality to support not only NFPA-805 transition but also the more broad scope of regulatory inspection and enforcement issues.
The guidance proposed will provide more consistency when determining plant specific electrical cabinet ignition frequencies while working within the bounds of the exiting data provided by the NUREG. This should facilitate the review and acceptability of the results.
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