ML18085A040

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IP 71111.05 Fire Protection
ML18085A040
Person / Time
Issue date: 08/01/2018
From: Shawn Campbell
NRC/NRR/DIRS/IRIB
To:
Campbell S
Shared Package
ML18088A002, ML18213A244 List:
References
CN 18-025, DC 18-009
Download: ML18085A040 (11)


Text

NRC INSPECTION MANUAL IRIB INSPECTION PROCEDURE 71111 ATTACHMENT 05 FIRE PROTECTION Effective Date: 01/01/2019 PROGRAM APPLICABILITY: IMC 2515 App A CORNERSTONE: Initiating Events Mitigating Systems INSPECTION BASES: Inspection Manual Chapter (IMC) 0308, Reactor Oversight Process Basis Document, Attachment 2, Technical Basis for Inspection Program SAMPLE REQUIREMENTS:

Sample Requirements Minimum Baseline Sample Budgeted Range Completion Requirements Sample Type Section(s) Frequency Sample Size Samples Hours per Site (per site) (per site)

Fire Area Walkdown 03.01 Annual 16 16 to 24 30+4 and Inspection*

Fire Brigade Drill 03.02 Annual 1 1 5+1 Performance

  • Recommend performing one-fourth of the annually planned samples every quarter.

71111.05-01 INSPECTION OBJECTIVES 01.01 To verify implementation of an adequate fire protection program (FPP) in regard to material condition and operational status of fire detection and suppression systems and equipment and fire barriers used to prevent fire damage or fire propagation.

01.02 To verify adequate onsite fire brigade drill performance.

71111.05-02 GENERAL GUIDANCE Typically, there are two types of fire protection Licensing Bases; Deterministic or Risk-informed Performance-based:

Issue Date: 08/01/18 1 71111.05

Deterministic:

This inspection procedure (IP) covers annual inspection of operating plants licensed under Title 10 of the Code of Federal Regulations (10 CFR) 50.48(a) to 10 CFR Part 50, Domestic Licensing of Production and Utilization Facilities, 10 CFR 50.48(b), Appendix R, Fire Protection Program for Nuclear Power Facilities Operating Prior to January 1, 1979.

Risk-informed Performance-based:

10 CFR 50.48(c) via National Fire Protection Association (NFPA) 805, Performance-Based Standard for Fire Protection for Light Water Reactor Electric Generating Plants, 2001 Edition.

For those fire protection structures, systems, and components installed to satisfy the U.S. Nuclear Regulatory Commissions (NRCs) regulatory requirements and designed and installed using NFPA codes and standards, the code edition in force at the time of the design and installation is the code of record (COR) to which the design is evaluated.

The updated final safety analysis report or fire hazard analysis report should identify and justify deviations from the COR. A licensee may apply the equivalency concept (justification for not meeting code and alternatives used to meet the code) in meeting the provisions of the NFPA codes and standards. When the licensee states that its design meets the NFPA code(s) or meets the intent of the NFPA code(s) and does not identify any deviations from such codes, the NRC expects that the design conforms to the codes and that the design is subject to inspection against the NFPA COR.

The Authority Having Jurisdiction, as described in NFPA codes and standards, refers to the Director of the NRC Office of Nuclear Reactor Regulation (NRR), or his or her designee, consistent with the authority specified in 10 CFR 1.43, Office of Nuclear Reactor Regulation.

Use plant specific fire risk insights (e.g., fire risk ranking of the plant fire areas) to select fire areas important to risk for inspection. Review the last triennial fire protection inspection report and probabilistic risk assessments (PRA) if applicable as a guide for determining areas.

Consider the risk insights developed by licensees that have adopted a risk-informed, performance-based FPP in accordance with 10 CFR 50.48(c) and NFPA 805. Consider the plant configuration, out-of-service equipment, operating experience, maintenance activities, and the effects that a fire may have on safety.

For each sample, conduct a routine review of problem identification and resolution activities using Inspection Procedure (IP) 71152, Problem Identification and Resolution.

71111.05-03 INSPECTION SAMPLES 03.01 Fire Area Walkdown and Inspection Sample.

Verify the adequate implementation of the FPP by conducting a walkdown of selected fire area and performing a review to verify program compliance, equipment functionality, material condition, and operational readiness.

Issue Date: 08/01/18 2 71111.05

Specific Guidance Review the prefire plan and, if not in the plan, the licensees combustible loading calculation for the particular fire zone for the fire area selected against the FPP-defined hazards and defense-in-depth (DID) features to verify that the prefire plan is adequate.

The concept of DID to fire protection in plant areas important to safety by the following means:

preventing fires from starting; rapidly detecting, controlling, and extinguishing fires that do occur; and providing protection for structures, systems, and components important to safety so that a fire that is not promptly extinguished by fire suppression activities will not prevent the safe shutdown (SSD) of the reactor.

Use the prefire plan as a tool in evaluating the attributes listed below for the selected fire areas. The prefire plan should define the hazards and fire protection DID features to assist the inspector in determining whether the attributes of the fire area are within the limits of the licensing basis defined in the FPP. The required content of the prefire plans will be defined in the FPP and will include information such as fire hazards, locations of fire hose stations and portable extinguishers, locations of sprinkler isolation valves, Post-Fire SSD Analyses (referred to as Nuclear Safety Capability Assessment (NSCA))

equipment in the area, and other such information. The plan can be a great help in distinguishing what combustibles are transient combustibles (i.e., if it is not on the plan, it is probably transient). The accuracy of the prefire plan is important because the plan will be a major tool to inform and guide the fire brigade team leader in determining the most likely location of the fire in the fire area and the best strategy for approaching the fire.

Select a fire area based on the licensee-approved FPP and perform an area walkdown to verify the following:

a. Control of Transient Combustibles and Ignition Sources
1. The licensee is controlling transient combustible materials and location of transient combustible materials in accordance with its administrative control procedures and its fire PRA if applicable. Give special focus to transient combustibles located near ignition sources and SSD or NSCA cables and equipment.
2. The licensee is performing hot work, welding, cutting, heat treating, grinding, brazing, flame or plasma arc cutting, or arc gouging in accordance with its FPP administrative control procedures.
b. Fire Detection Systems
1. Inspect the physical condition of the fire detection devices.
2. Note any devices that show physical damage, blockage, or potential interference which could impact functionality..

Issue Date: 08/01/18 3 71111.05

c. Water-Based Fire Suppression Systems
1. Sprinklers and nozzles are not obstructed by equipment (e.g., ventilation ducts, cable trays/conduits, or temporary scaffolding), are not damaged or painted, and are installed in the proper orientation (e.g., upright, pendent, or sidewall). Floor drains in areas protected by sprinkler/water spray systems are open and unobstructed, and drainage is directed to areas that will not be adversely affected by the runoff.
2. Water supply control valves to the system are open, and the fire water supply and pumping capability is operable and capable of supplying the water supply demand of the system (verify through visual observation or surveillance record -. see Monticello Nuclear Generating Plant Special Inspection (ADAMS Accession No. ML11363A182 and NRC Information Notice 2013-06, Corrosion in Fire Protection Piping Due to Air and Water Interaction, ADAMS Accession No. ML13031A618) for an example of fire water system corrosion blockage). Verify that trim valves on alarm check valves and deluge valves are aligned to the correct position for automatic operation.
3. Spot check sprinkler piping, hanger, or seismic braces condition and damage or leakage. Look for corroded piping or hangers, broken hangers, improper pipe alignment or other adverse conditions.
4. During regular system testing fire pumps should remain in full service. Fire pumps are sometimes impaired during testing due to concerns of pressure surges and water hammer damaging water mains. For diesel fire pump, check fuel storage tank has sufficient fuel. Pressure maintenance (jockey or make-up) pump is installed on fire water systems in order to maintain system pressures from small fluctuations without turning on the main fire pump.
5. Material conditions such as mechanical damage, painted sprinklers/nozzles, and corrosion will not affect the performance of the system.
d. Gaseous Fire Extinguishing Systems
1. The nozzles of gaseous extinguishing systems (e.g., Halon 1301, carbon dioxide, and clean agents (e.g., FM200, Inergen)) are not obstructed or blocked by equipment (e.g., ventilation ducts cable, trays/conduits or temporary scaffolding) that would significantly impede the dispersal of a gaseous agent.
2. The fire extinguishing agent charge pressure is within the normal band, extinguishing agent supply valves are open, and the system is in the appropriate mode. Observe any corrosion, physical damage to system tanks and cylinders or potential interface with functionally. System actuation panels are powered on, and the panels are free of trouble indications or standing alarms. Look for longstanding uncorrected equipment problems.
3. Dampers and electrically supervised self-closing fire doors are unobstructed so that they can close automatically upon actuation of the gaseous system. Observe any material condition that may affect the performance of the system, such as mechanical damage to doors or dampers and open penetrations (i.e., open floor drains may preclude proper gaseous concentration following actuation). In rooms protected with Issue Date: 08/01/18 4 71111.05

a total flooding gaseous fire extinguishing system, verify that all egress doors are properly labeled to warn the occupants of the danger of a system discharge and that egress door latches fully engage to maintain design concentrations. Note properly mark/label pull stations and audible and visual pre-discharge alarms to indicate their functions.

4. Room penetration seals are sealed and in good condition to prevent airflow and to prevent loss of the gaseous extinguishing agent concentration following discharge.
5. Inspect material conditions such as mechanical damage, corrosion, damage to doors or dampers, open penetrations, or nozzles blocked by plant equipment (e.g. overhead obstructions) that may affect the performance of the system.
e. Manual Firefighting Equipment and Capability
1. Portable fire extinguishers are appropriate for the class of fire hazard and are available at their designated locations in or near the area being inspected. Access to the fire extinguishers is unobstructed by plant equipment or other work-related activities.
2. The general condition of portable fire extinguishers is satisfactory (e.g., there is no corrosion, the pressure gauge reads in the acceptable range, nozzles are clear and unobstructed, and charge test records indicate testing within the normal periodicity).
3. Fire hose stations are installed at their designated locations; the general condition of hoses and hose stations is satisfactory (e.g., there is no corrosion or holes in, or chafing of, the hose; the nozzles are not mechanically damaged and not obstructed; and the valve hand wheels are in place); and access to the hose stations is unobstructed and testing records indicate testing within the normal periodicity.
4. Standpipes and hose connections necessary for manual firefighting in areas containing equipment required for SSD or NSCA in the event of an earthquake.
5. Water supply control valves to the standpipe system are open, and the fire water supply and pumping capability is operable and able to supply the water flow and pressure demand.
6. The general condition of yard fire hydrants is satisfactory to ensure water supplies are available in a fire emergency (e.g., material conditions such as mechanical damage, corrosion, damage to yard fire hydrants).
7. If tanks are used for fire water supply, they should free from corrosion, corrosion could occur at tank bottom at inaccessible locations.
8. Access to manual actuators for fixed suppression systems (e.g., gaseous systems, dry sprinkler systems) is unobstructed by overhead obstructions or work-related activities.
f. For plants that have transitioned to NFPA 805 licensing basis verify that the licensee has evaluated that any radiation release to any unrestricted area that results from the direct effects of fire suppression activities (but not involving fuel damage) shall be as low as reasonably achievable and shall not exceed applicable 10 CFR Part 20, Standards for Issue Date: 08/01/18 5 71111.05

protection against radiation limits, (see NFPA 805, Section 1.5.2, Radioactive Release Performance Criteria). This is a new requirement in NFPA 805 that have not previously existed in NRC fire protection regulations.

g. To meet the radioactive release performance criteria, licensees generally credited engineering controls (e.g., floor drains, storage tanks, ventilation systems, portable fans, etc.) and/or administrative controls (e.g. pre-fire plans, fire brigade response activities, etc.). Licensees also identified the administrative controls in the pre-fire plans for implementation by the fire brigade to ensure that any radioactive release due to suppression activities or smoke migration do not exceed the public dose limits of 10 CFR Part 20.
h. The licensee met the radioactive release performance criteria if it demonstrated on a fire area basis that the effects of fire suppression activities and smoke migration are contained in a system that was designed to maintain and control radioactive waste.
i. Passive Fire Protection Features
1. Electrical raceway fire barrier systems such as cable tray and conduit (including the associated support system) fire wraps or blanket materials are in good condition with no cracks, gouges, or holes in the barrier material and no gaps in the material at joints or seams, and banding, wire tie, and other fastener pattern and spacing appear appropriate.
2. Fire doors self-close without gapping (e.g., as the result of fire door damage from previous obstructions), and the door latching hardware functions securely.
3. The condition of ventilation system fire damper material, including fusible links, where applicable, is adequate to ensure unobstructed operability. For those dampers that cannot be readily observed in the selected plant areas, review the licensees surveillance efforts directed toward verifying the continuing operability of ventilation fire dampers.
4. Structural steel fireproofing material, such as fibrous or concrete encapsulation, is installed in such a way that the structural steel is uniformly covered (there are no bare areas).
5. Fire barrier and fire area/room/zone electrical and piping penetration seals are not missing from locations where they are needed to complete a fire barrier wall. Seals appear to be properly installed and in good condition.
6. For pressurized-water reactors, reactor coolant pump (RCP) oil collection systems designed to collect oil leakage and spray from all potential RCP oil collection system leakage points have been installed and are properly maintained (i.e., time permitting, the actual installation should be verified during outages after work on the pumps has been completed). Oil collection pans and spray shields properly positioned and maintained to collect all oil leakage.
j. Compensatory Measures and Fire Watch
1. Verify that the licensee has put in place compensatory measures for out-of-service, Issue Date: 08/01/18 6 71111.05

degraded, or inoperable fire protection equipment and systems or features (e.g., detection and suppression systems and equipment, passive fire barrier features, SSD, or NSCA equipment functions or capabilities). A fire watch is often the compensatory measure of choice for a large variety of fire protection system and feature malfunctions and deficiencies. The established fire watch or other compensatory measures should be commensurate with the significance of the deficiency.

2. Fire watches are typically tracked via a fire watch log. The log can be checked against the security key card entry records to validate that proper completion of fire watches. Another inspection method could be to wait in an area that requires a fire watch inspection to see if the individual performing the fire watch comes through the area. This latter method could be combined with an inspection of that area as a fire area sample.
3. Inspect the licensees plans for permanent corrective actions, including effectiveness in returning the fire protection equipment to service in a reasonable period of time.

Review the licensee corrective actions to address fire protection non-compliances that are rely upon long compensatory measures and schedule to complete the compensatory measures and the licensee efforts to eliminate the reliance on the compensatory measures.

03.02 Fire Brigade Drill Performance Sample Verify adequate onsite fire brigade performance during an announced/ unannounced fire drill or an actual event.

Specific Guidance The annual inspection evaluates the licensees onsite fire brigade performance.

Although the evaluation is an annual process, inspectors may not be able to observe and evaluate all of the important drill activities as part of a single drill. Therefore, inspectors may need to observe the conduct of several fire brigade drill segments (announced and unannounced) throughout the year to adequately sample this area.

The purpose of this sample is to ensure the capability of the fire brigade team members, the leadership ability of the brigade leader, use of turnout gear and firefighting equipment, and the effectiveness of the team operation.

Select an unannounced drill or actual activation of the fire brigade in response to a fire event. An announced fire drill is acceptable but not the preferred option. Observe and/or evaluate the licensees fire brigade performance in the following activities and programs to assess their operational effectiveness in combating fires, particularly drills in areas of the plant that are pertinent to 10 CFR 50.48(b) when available:

a. Brigade Staffing Size. Collateral responsibilities of the fire brigade team members should not conflict with their responsibilities related to the fire brigade during a fire.
b. Proper Donning of Fire Gear. Each team member sets out his or her designated protective clothing and turnout gear and properly dons the gear.
c. Proper Donning, Availability, and Program Control of Self-Contained Breathing Issue Date: 08/01/18 7 71111.05

Apparatuses (SCBAs). SCBAs are available and are properly worn and used. Each individual should completely don his or her bunker gear (e.g., helmets, hood, pants, coats, gloves, boots, and air packs). This includes donning an SCBA, before entering the fire scene. Evaluate the SCBA program, including storage, training, expectations for use, and maintenance.

d. Procedure Adherence. Control room personnel follow the procedures for fire verification and response initiation, including identifying the fires location, dispatching the fire brigade, and sounding the alarms. The licensee declares the emergency action levels and makes the appropriate notifications in accordance with NUREG-0654, Criteria for Preparation and Evaluation of Radiological Emergency Response Plans and Preparedness in Support of Nuclear Power Plants, issued November 1980, and 10 CFR Part 50.
e. Command and Control. The fire brigade leader exhibits command of the fire brigade and has a copy of the prefire plans or firefighting strategy.
1. Planning. The manager in charge of the response (e.g., the shift supervisor or senior reactor operator (not the fire brigade leader)) has access to prefire plans or firefighting strategy and applicable procedures. Starting at the muster area, the fire brigade leader maintains command and control.
2. Briefing. Fire brigade team members are briefed, discuss the plan of attack, receive individual assignments, complete communications checks, and generally get ready to combat the fire. The discussion of the plan of attack should be consistent with the prefire plans or firefighting strategies and should include potential hazards in the fire area. The fire brigade takes the appropriate access route specified in the strategies and procedures and arrives at the fire scene in a timely manner. For fire drills conducted in the radiation control areas, the fire brigade may follow the specified, most direct route.
3. Communication. Control/command is set up near the location of the fire after the fire is assessed, and communications are established with the control room and fire brigade team members. Radio communications among the command post, control room, and plant operators and among fire brigade team members remain efficient and effective for the duration of the drill.
4. Implementation. Fire hose lines are capable of reaching all necessary fire hazard locations, the lines are laid out without flow constrictions, and the hose is simulated as being charged with water. The fire area of concern is entered in a controlled manner following the principle of two-in/two-out (two fire brigade team members enter while two remain outside the area of concern). Additionally, the fire brigade team members stay low to the floor and feel the door for heat before entering the fire area of concern. The fire brigade brings sufficient firefighting equipment to the scene to properly perform its firefighting duties. Team members of the fire brigade check for fire victims and propagation of the fire into other plant areas. Effective smoke removal operations are simulated in accordance with prefire plans and firefighting strategies by aligning ventilation in the fire area or by placing smoke removal units at the proper doors. Areas protected by gaseous fire extinguishing systems should not be ventilated before the brigade confirms that the fire is extinguished. If the Issue Date: 08/01/18 8 71111.05

simulation of smoke removal is not part of the drill, verify the availability and condition of such equipment (e.g., fans, hoses).

f. Scenario Adherence, Drill Objectives, Postdrill Critique, and Equipment Restoration. The licensee performs a post critique to discuss fire brigade performance and determine if drill scenario was properly implemented and acceptance criteria for the drill objectives were met.

71111.05-04 REFERENCES

1. Cross Reference of Generic Communications to IP 71111.05 and Inspection Resources, available at. http://drupal.nrc.gov/nrr/ope/33988 (nonpublic)
2. Operating Experience, gateway available at http://drupal.nrc.gov/nrr/ope (nonpublic).
3. Information Handling Services Codes and Standards, available at http://www.internal.nrc.gov/TICS/library/standards/ihs.html (nonpublic).
4. NRC Technical Library, available at http://www.internal.nrc.gov/TICS/library/index.html (nonpublic).
5. National Fire Protection Association (NFPA) 805, Performance-Based Standard for Fire Protection for Light Water Reactor Electric Generating Plants, 2001 Edition.
6. Regulatory Guide 1.189, Fire Protection for Nuclear Power Plants, Revision 2, October 2009, Agencywide Documents Access and Management System (ADAMS)

Accession No. ML092580550.

7. NRC Regulatory Issue Summary 2005-07: Compensatory Measures to Satisfy the Fire Protection Program Requirements, April 2005, ADAMS Accession No. ML042360547
8. NUREG/CR-3175, Compensatory and Alternative Regulatory MEasures for Nuclear Power Plant FIRE Protection (CARMEN-FIRE), August 2015, ADAMS Accession ML15226A446
9. NUREG-0654, Criteria for Preparation and Evaluation of Radiological Emergency Response Plans and Preparedness in Support of Nuclear Power Plants, Revision 1, November 1980, ADAMS Accession No. ML040420012.
10. Regional Reactor Inspector Training and Reference Handbook, Inspection Procedure 71111.05XT NFPA 805 (Triennial), Revision 0, April 2017, ADAMS Accession No.

ML17110A559

11. NRC Information Notice 2013-06, Corrosion in Fire Protection Piping Due to Air and Water Interaction, ADAMS Accession No. ML13031A618
12. Monticello Nuclear Generating Plant Special Inspection Report ADAMS Accession No.

ML11363A182 END Issue Date: 08/01/18 9 71111.05

Attachment 1 Revision History for IP 71111.05 Commitment Accession Description of Change Description of Comment Resolution Tracking Number Training Required and and Closed Feedback Number Issue Date Completion Date Form Accession Change Notice Number (Pre-Decisional, Non-Public Information) 08/31/2006 Researched commitments back 4 years; none None found.

09/10/04 Issued Inspection Procedure (IP) 71111.05AQ, None CN 04-023 Fire Protection Annual/Quarterly, to separate 71111.05T, Fire Protection (Triennial), from IP 71111.05AQ. No substantial changes.

07/07/05 Updated guidance to assess fire brigade None CN 05-018 performance.

ML061910174 Added Completion Status, identifying a sample None 09/05/06 size of 24.

CN 06-022 ML072830418 The 2007 Reactor Oversight Process (ROP) None 01/31/08 realignment reduced the sample size to 16 and CN 08-005 resource hours to 35. Replaced tour with perform a DID walkdown. (ROPFF 1155)

ML092780058 Updated the procedure to incorporate specific None ML092780063 11/16/09 elements of NFPA 805.

CN 09-027 ML102570167 Revised IP 71111.05AQ to address feedback form None 09/30/10 71111.05-1542. The revision added a reference CN 10-020 section to the procedure.

ML18085A040 Eliminated redundancy and improved IP 71111.05 ML18088A003 08/01/18 for plain writing. Relocated optional requirements Closed FBF:

CN 18-025 to the guidance section for better alignment with 71111.05AQ-1783 the sample completion requirements in ML18213A246 Section 8.04 of IMC 2515, Light-Water Reactor Inspection ProgramOperations Phase. Added Issue Date: 08/01/18 Att 1-1 71111.05

Commitment Accession Description of Change Description of Comment Resolution Tracking Number Training Required and and Closed Feedback Number Issue Date Completion Date Form Accession Change Notice Number (Pre-Decisional, Non-Public Information) a reference to Monticello Nuclear Generating Station Special Inspection in Section 03.01c.2.

Changed IP number from 71111.05A/Q to 71111 Attachment 5 to accommodate RRPS and future efforts to automate inspection report auto-generation.

Issue Date: 08/01/18 Att 1-2 71111.05