Information Notice 2007-26, Combustibility of Epoxy Floor Coatings at Commercial Nuclear Power Plants: Difference between revisions

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{{Adams
#REDIRECT [[Information Notice 2007-26, 12/17/2007 E-mail from Alex Klein to Alex Marion Regarding NRC Information Notice 2007-26]]
| number = ML071920090
| issue date = 08/13/2007
| title = Combustibility of Epoxy Floor Coatings at Commercial Nuclear Power Plants
| author name = Case M J, Pierson R C
| author affiliation = NRC/NMSS/FCSS, NRC/NRR/ADRA/DPR
| addressee name =
| addressee affiliation =
| docket =
| license number =
| contact person =
| document report number = IN-07-026
| document type = NRC Information Notice
| page count = 7
}}
{{#Wiki_filter:UNITED STATESNUCLEAR REGULATORY COMMISSIONOFFICE OF NUCLEAR REACTOR REGULATIONOFFICE OF NUCLEAR MATERIAL SAFETY AND SAFEGUARDSWASHINGTON, DC  20555-0001August 13, 2007NRC INFORMATION NOTICE 2007-26:COMBUSTIBILITY OF EPOXY FLOORCOATINGS AT COMMERCIAL NUCLEAR
 
===POWER PLANTS===
 
==ADDRESSEES==
All holders of operating licenses for nuclear power reactors and fuel cycle facilities exceptlicensees for reactors that have permanently ceased operations and who have certified that fuel
 
has been permanently removed from the reactor vessel.
 
==PURPOSE==
The U.S. Nuclear Regulatory Commission (NRC) is issuing this information notice (IN) to informaddressees of a fire protection issue raised by NRC inspectors at two nuclear power plants that
 
involves the combustibility of epoxy floor coatings over the concrete floors in various plant
 
areas.  The issue discussed in this IN could similarly apply to fuel cycle facilities.  The NRC
 
expects that recipients of this IN will review the information for applicability to their facilities and
 
consider taking actions, as appropriate, to avoid similar problems.  However, suggestions
 
contained in this IN are not NRC requirements; therefore, no specific action or written response
 
is required.
 
==DESCRIPTION OF CIRCUMSTANCES==
IntroductionOne of the principal goals of NRC fire protection regulation for commercial nuclear power plantsis to ensure that, in the event of fire in any area of the plant, one train of equipment needed to
 
achieve and maintain safe-shutdown conditions in the reactor will remain free of fire damage.
 
The regulations in Title 10 of the Code of Federal Regulations (10 CFR) Part 50, "DomesticLicensing of Production and Utilization Facilities," require each operating nuclear power plant to
 
have a fire protection plan.  This plan must satisfy Appendix A to Part 50, "General Design
 
Criteria for Nuclear Power Plants," specifically General Design Criterion 3 (GDC 3), "Fire
 
protection," as required by 10 CFR 50.48(a). GDC 3 states, in part, "Noncombustible and heat-resistant materials shall be used whereverpractical throughout the unit, particularly in locations such as the containment and control
 
room."  However, GDC 3 does not preclude the use of combustible materials.  Examples of
 
combustible materials found in nuclear power plants are electrical cable insulation and jackets,lubricants, hydraulic and control fluids, diesel generator fuel oils, charcoal and other filters, and
 
flammable gases.  In general, when such materials are properly managed, are accounted for inthe plant design and operation, and are incorporated as integral components of the plant fire
 
protection program, including the fire hazard analysis, they may be acceptable.  NRC
 
inspectors at two facilities raised an issue involving the fact that epoxy floor coating may or may
 
not be considered combustible in the NRC-approved fire protection program depending on (1)
the thickness with which the coating is applied, and (2) an independent laboratory testing of the
 
flame spread rating for the specific epoxy floor coating.  The inspectors found that although
 
these licensees considered the epoxy floor coatings non-combustible, they had not evaluated
 
and controlled the thickness with which the epoxy coating was applied on floors.  When
 
subsequent evaluation and testing by these licensees showed that the epoxy coating must be
 
considered combustible, these licensees performed a fire hazards analysis that incorporated
 
the combustible epoxy coating in accordance with their NRC-approved fire protection program.  The criteria for determining material combustibility are contained in NRC Generic Letter 86-10,"Implementation of Fire Protection Requirements," dated April 24, 1986, which provided
 
guidance for satisfying NRC regulatory requirements for fire protection.  Enclosure 1 to NRC
 
Generic Letter 86-10 included interpretations related to compliance with Appendix R, "Fire
 
Protection Program for Nuclear Power Facilities Operating Prior to January 1, 1979," to
 
10 CFR Part 50.  Enclosure 2 to NRC Generic Letter 86-10 provided the NRC staff's responses
 
to a list of industry questions.  NRC staff's response to Question 3.6.2, "In-Situ Exposed
 
Combustibles," states that a non-combustible material is defined as: "a. A material which in the
 
form in which it is used and under the conditions anticipated, will not ignite, burn, support
 
combustion, or release flammable vapors when subjected to fire or heat; and b. Material having
 
a structural base of noncombustible material, as defined in a., above, with a surfacing not over
 
1/8-inch thick that has a flame spread rating not higher than 50 when measured using the test
 
protocol of American Society for Testing and Materials (ASTM) E 84, "Standard Test Method for
 
Surface Burning Characteristics of Building Materials.""There is an exception to the Generic Letter 86-10 definition of non-combustible material. Appendix A to Branch Technical Position Auxiliary and Power Conversion Systems
 
Branch 9.5-1, ?Guidelines for Fire Protection for Nuclear Power Plants, Docketed Prior to July1, 1976," dated February 24, 1977, Position D.1.(d) allows the use of combustible interior
 
finishes when listed by a nationally recognized testing laboratory, such as Factory Mutual
 
Research Corporation or Underwriters Laboratory, Inc., for a flame spread of 25 or less in its
 
end use configuration using the test protocol of ASTM E 84.Regulatory Guide 1.189 "Fire Protection for Nuclear Power Plants," states that floor coveringcritical radiant flux be determined by testing in accordance with National Fire Protection
 
Association (NFPA) 253, "Standard Method of Test for Critical Radiant Flux of Floor Covering
 
Systems Using a Radiant Heat Energy Source."  ASTM E 84 is the standard test method
 
required by NRC regulations and should be in the licensing basis, unless the licensee has
 
changed their test requirement for floor covering flame spread or adopted NFPA 253.  Interior
 
finish materials, such as epoxy floor coating, should meet the NRC regulation, testing, and
 
qualification for surface flame spread rating when tested under approved test methods. NRC Inspection Procedures 71111.05T, "Fire Protection (Triennial)," and 71111.05AQ, "FireProtection (Annual/Quarterly)," provide guidance to the inspector on verification of combustible
 
material controls in plant areas containing components, equipment, or cabling relied on for post-fire safe-shutdown.  This guidance addresses unusual configurations of combustiblematerials as well as other combustible material controls.Donald C. Cook Nuclear Power Plant, Units 1 and 2An NRC inspection report for Donald C. Cook Nuclear Power Plant (D.C. Cook) documented anunresolved item (URI) regarding the fire spread rating and the thickness of the epoxy floor
 
coating used at the plant.  (NRC Inspection Report 05000315/2003005; 05000316/2003005, dated July 16, 2003, Agencywide Documents Access and Management System (ADAMS)
Accession No. ML032100754.)  Specifically, the inspectors were concerned that the epoxy floor
 
coating that was applied over the concrete flooring in various plant areas may have a
 
combustible loading that was not accounted for in the approved fire protection program.  The
 
URI was opened pending NRC review of the licensee's evaluation and testing of the epoxy
 
flooring's flame spread characteristics. In response to the URI, the licensee performed additional evaluation and testing.  The testreport results indicated that the epoxy floor covering of the type installed at D.C. Cook had a
 
flame spread rating of 140 at 0.115 inches thickness and 150 at 0.230 inches thickness.  The
 
test results for smoke development were 516 and 545, respectively.  The licensee's overall
 
evaluation concluded that:*the additional combustible loads attributed to epoxy are within the amount allowed or areinsignificant additions,*the epoxy flooring did not affect the Appendix R separation criteria, and
 
*the epoxy flooring would not cause fires to propagate between contiguous fire zones.
 
However, the licensee also concluded that the characteristics of the combustion process of thecoating make it undesirable as a floor coating.  Considering the low ignition temperature and
 
the test results for flame spread rate and smoke development, the licensee concluded that the
 
use of epoxy as a coating on floors should be immediately discontinued from future use.  In
 
addition, the licensee concluded that it should develop a multi-year plan to replace the current
 
floor coating with one that conforms to the flame spread criteria.  The NRC closed the URI based on the results of the licensee's fire hazards evaluation whichindicated that the additional combustible loading due to the epoxy floor coating produced no
 
impact on the fire load classification in the plant fire hazards analysis.  There was a negligible
 
increase in fire hazard due to the epoxy floor coating and sufficient margin existed for
 
maintaining combustible loading/fire severity within the established allowable limits.
 
Additionally, the fire zones that contained the epoxy floor coating did not rely on a 20-foot
 
horizontal separation distance in order to meet Appendix R compliance.  The NRC inspection
 
report that closed the URI stated that no licensee performance deficiency or violation was
 
identified.  (NRC Inspection Report 05000315/2006002; 05000316/2006002, dated
 
March 22, 2006, ADAMS Accession No. ML060830130.)Duane Arnold Energy Center An NRC inspection report for Duane Arnold Energy Center (DAEC) documented a URI that theepoxy floor covering applied over concrete floor-such as in the reactor building, high-pressure
 
coolant injection pump room, and other plant areas-may be a combustible not accounted for in
 
the approved fire protection program.  The URI was opened pending NRC review of the
 
licensee's evaluation and testing of the epoxy flooring's flame spread characteristics.  (NRC
 
Inspection Report 05000331/2003002, dated May 22, 2003, ADAMS Accession No.
 
ML031430217)In response to the URI, the licensee performed additional evaluation and testing.  The epoxytesting report results indicated that the epoxy floor covering of the type installed at DAEC had a
 
flame spread rating of 110, which is greater than the criteria of 50 specified in NRC Generic
 
Letter 86-10, and therefore, was considered a combustible material.  The licensee performed
 
an evaluation that determined the epoxy floor coating was acceptable.The NRC closed the URI based on the licensee's determination that there were no adjacent fireareas having the relatively high reported flame spread rating epoxy.  The inspectors concluded
 
that the coatings would not contribute towards the spread of a fire from one area to another.  In
 
addition, the combustible fire loads due to epoxy floor coatings did not present a challenge to
 
the DAEC fire barriers.  Also, those fire areas taking credit for 20-foot separation had epoxy
 
floor coatings with a relatively low flame spread rating and were less than 1/8-inch thick.  No
 
violation was identified.  (NRC Inspection Report 05000331/2005009, dated July 12, 2005, ADAMS Accession No. ML051940049.)
 
==BACKGROUND==
The basic fire protection regulation for U.S. commercial nuclear power plants is Section 50.48,"Fire protection," of 10 CFR Part 50.  It requires, in part, that each operating nuclear power
 
plant have a fire protection plan that satisfies GDC 3 in Appendix A to 10 CFR Part 50.  This fire
 
protection plan, using guidance provided in NRC Generic Letter 88-12, "Removal of Fire
 
Protection Requirements from Technical Specifications," dated August 2, 1988, is incorporated
 
into the operating license for the plant as a fire protection license condition.
 
Each operating nuclear power plant has an approved fire protection program that is anchored in
 
the long-established defense-in-depth safety principle of providing multiple protective barriers to
 
prevent and mitigate accidents.  The concept of defense-in-depth as applied to fire protection in
 
fire areas important to safety, is described in Section II, "General Requirements," of Appendix Rto 10 CFR Part 50.  It describes the following objectives:  to prevent fires from starting; to detect
 
rapidly, control, and extinguish promptly those fires that do occur; and to provide protection for
 
structures, systems, and components important to safety so that a fire that is not promptly
 
extinguished by the fire suppression activities will not prevent safe-shutdown of the plant.  The
 
multiple levels of protection that are embodied in the defense-in-depth philosophy ensure fire
 
safety throughout the life of the plant by minimizing both the probability and the consequence of
 
fires.  While the NRC recognizes that no one level can be perfect or complete by itself, and
 
strengthening any one level can compensate in some measure for known or unknown
 
weaknesses in the others, each level of protection must meet certain minimum requirements.All licensees are required to meet commitments in their fire protection program, as well as their fire protection license condition.  Fire prevention is the first line of defense-in-depth for fireprotection.  The fire prevention attributes of the program are directly related to the fire
 
protection plan objectives that are to minimize the potential for fire to occur, involve design and
 
administrative measures that provide a reasonable level of assurance of adequate protection
 
and management against fire hazards, and limit fire consequences for those fires that do occur.
 
==DISCUSSION==
Epoxy floor coatings have been applied to various building concrete floors at U.S. commercialnuclear power plants as a protective coating that provides a smooth surface that is easy to
 
clean and helps to reduce the spread of radioactive contamination.  Because the epoxy floor
 
coatings may be combustible depending on their thickness and flame spread rating, these
 
coatings must be evaluated and controlled in accordance with the NRC-approved fire protection
 
program.  There have been instances where the installed or repaired epoxy floor coatings have
 
been (1) purchased from numerous vendors, (2) installed to various thicknesses, (3) installed
 
over a previous epoxy floor coating, or (4) purchased with various flame spreading ratings, that
 
were not accounted for in the NRC-approved fire protection program.  Licensee evaluations of the epoxy floor coating serve to identify instances where the licenseemay need to include the fire loading of epoxy floor coating into plant fire hazards analysis in an
 
area where the rated fire barriers are provided.  The purpose of the fire hazards analysis is to
 
evaluate the increase in hazard due to the epoxy floor coating and to verify that the increased
 
combustible loading due to the epoxy floor coating does not present a challenge to the plant's
 
fire barriers.  In addition, a licensee could have a fire protection exemption (i.e., a commitment
 
to have no combustibles in the areas housing safety-related systems, equipment, and
 
components for safe-shutdown) that would not be met with an epoxy floor coating that was
 
combustible.  The epoxy floor coating could also cause a licensee to no longer meet the 20-foot
 
horizontal separation distance in order to meet Appendix R, Section III.G.2 of 10 CFR Part 50requirements, i.e., no intervening combustible or fire hazards between opposite redundant
 
trains of post-fire safe-shutdown equipment. CONCLUSIONThe problem of epoxy floor coatings that are considered combustible can be avoided by using aproduct with a low flame spread rating, applying it in accordance with the manufacturer's/
vendor's recommendations, and providing plant procedural controls for applying the coating to
 
ensure it does not exceed recommended thickness.  Coatings that are applied thicker than a
 
manufacturer's recommendations may exceed the listed flame spread rating.
 
==CONTACT==
This information notice does not require any specific action or written response.  Please directany questions about this matter to the technical contacts listed below or to the appropriate
 
Office of Nuclear Reactor Regulation (NRR) project manager./RA//RA by TQuay for/Robert C. Pierson, Director    Michael J. Case, DirectorDivision of Fuel Cycle Safety  Division of Policy and Rulemaking
 
and Safeguards  Office of Nuclear Reactor Regulation
 
===Office of Nuclear Material Safety===
  and Safeguards Technical Contacts: Naeem Iqbal, NRR  Darrell L. Schrum, Region III301-415-3346      630-829-9741 E-mail:  nxi@nrc.gov  E-mail:  dls3@nrc.govNote:  NRC generic communications may be found on the NRC public Web site,http://www.nrc.gov, under Electronic Reading Room/Document Collections.
 
==CONTACT==
This information notice does not require any specific action or written response.  Please directany questions about this matter to the technical contacts listed below or to the appropriate
 
Office of Nuclear Reactor Regulation (NRR) project manager./RA//RA by TQuay for/Robert C. Pierson, DirectorMichael J. Case, DirectorDivision of Fuel Cycle Safety  Division of Policy and Rulemaking
 
and Safeguards  Office of Nuclear Reactor Regulation
 
===Office of Nuclear Material Safety===
  and Safeguards Technical Contacts: Naeem Iqbal, NRR  Darrell L. Schrum, Region III301-415-3346      630-829-9741 E-mail:  nxi@nrc.gov  E-mail:  dls3@nrc.govNote:  NRC generic communications may be found on the NRC public Web site,http://www.nrc.gov, under Electronic Reading Room/Document Collections.Distribution:IN Reading FileADAMS Accession Number: ML071920090                    NRR-052OFFICEAFPB:DRAEB3:DRS:RIIITECH EDITORBC:AFPB:DRAD:DRANAMENIqbalDSchrumL-ACulpSWeerakkodyMCunningham
 
DATE07/11/200707/12/200707/13/200707/18/200707/18/2007 OFFICELA:PGCB:DPRPGCB:DPRFCSS:NMSSBC:FCSS:NMSSFCSS:NMSS
 
===NAMECHawesDBeaulieuRWescottBSmithMTschiltz===
DATE07/19/200707/19/200708/02/200708/02/200708/03/2007 OFFICEBC:PGCB:DPRD:DPRD:FCSS:NMSS
 
===NAMEMMurphyTQuay for MCaseRPierson===
DATE08/10/200708/10/200708/13/2007OFFICIAL RECORD COPY
 
}}
 
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