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Joint EPRI/NRC-RES Fire PRA Workshop August 6-10, 2018 Module III - Fire Analysis Fire Fundamentals -

Detection and Suppression A Collaboration of the Electric Power Research Institute (EPRI) & U.S. NRC Office of Nuclear Regulatory Research (RES)

2 Objectives Fire PRA credits fire detection and suppression features when appropriate The objective of this presentation is to briefly describe typical detection and suppression features that are credited

3 Fire Detection Typical fire detection features credited in the Fire PRA

- Prompt detection (by plant personnel)

- Smoke detectors

- Heat detectors

- Flame/flash detectors

- Incipient detection systems

- Delayed detection

4 Prompt Detection Prompt detection applies when a fire occurs in the presence of workers (often due to worker activities):

Continuous fire watch Hot-work or other activity-specific fire watch Continuously manned rooms, e.g., the control room Also applies to explosions:

Hydrogen releases leading to explosion High energy arc fault fires

5 Smoke Detectors Spot type smoke detectors are the most common type of fixed fire detection

- Ionization detection

- Optical density detection Generally, smoke particles must move into the devices detection chamber for the device to actuate

- Response is driven by convective flow of fire products to the device Devices need power

- For NPP, generally have line power plus backup battery

6 Heat Detectors Heat detectors can be used in much the same way smoke detectors are used:

- Localized heat detectors

- May be used in areas where smoke detector not appropriate or simply overly sensitive Other examples of heat detectors:

- Sprinkler heads - a melting link releases the flow of fire suppression water

- Linear heat detectors - twisted wire pairs where insulation melts easily causing a short circuit and detection signal Ceiling-mounted detector Locally-mounted detectors

7 Heat Detectors (cont.)

Two broad types of spot heat detectors:

- Temperature set-point - activates when temperature reaches set point

- Rate of rise - activates when the temperature is seen to increase at a rate (degree per second) greater than set point Visually very similar, hard to tell apart by visual observation (have to ask)

Heat detectors (including sprinkler heads) are generally characterized by a response time index (RTI) and an activation value (temperature or rate of rise)

- RTI: a parameter describing how fast the device responds to the surrounding gas temperature

8 Flame detectors Not very common in NPP applications Generally associated with a very specific fire hazard:

- A particular fire source in a location where rapid detection is desired Devices are typically characterized by the wavelength of light they are sensitive to and the threshold sensitivity value

- Can operate at very specific wave length or over a very broad spectrum

- Very fast acting given a sufficient input signal (they work at the speed of light)

9 Incipient Detection Relatively new concept in fire detection Most common examples are based on air sampling systems

- Condensation particular detectors

- Laser scattering particulate detectors Designed to detect trace pyrolysis products during incipient stage of a fire (i.e., before actual flames appear)

Typically used where conventional fire detectors cant provide sufficiently rapid response.

The objective is to allow time for plant personnel to prevent potential fire impacts

10 Delayed Detection Eventually any actual fire of the type we postulate will be detected

- If there is no fixed detection system present or fixed detection fails to function then we credit delayed detection Roving fire watch General plant personnel (including roving security personnel)

Control room indication

- The control room receives a process alarm and dispatches an operator to inspect the situation

11 Fire Suppression Fire can be suppressed by:

- Cooling the burning fuel and adjacent items e.g.: water spray

- Removing/displacing oxygen e.g.: CO2

- Separating burning surface from impinging heat flux from the flame e.g.: AFFF (Foam)

- Interfering with the chemical oxidation process e.g.: Halon, dry chemical Break the fire triangle!

12 Fire Suppression vs. Control Fire suppression

- Control and extinguishing of fires [Reg. Guide 1.189]

Fire control

- A controlled condition where the spread of the fire and its effects is contained.

The primary objective is to estimate the time to fire control

- In the context of a fire PRA it is assumed that achieving fire control will lead to target-set damage slow down significantly so that no further damage is realized.

- In most cases time to control and extinguishing are virtually the same. However, in very few reported cases controlled fires were allowed to burnout.

13 Fire Suppression We can and will credit multiple means of fire suppression as available in a given situation:

- Prompt suppression (fire watch)

- Water based fixed systems:

Automatic sprinklers Dry-Pipe/Pre-action sprinklers Deluge systems

- Gaseous suppression systems (automatic or manual activation):

CO2 Halon

- Manual suppression:

Fire brigade General plant personnel (hand-held extinguishers)

Manual activation of fixed suppression systems

14 Prompt Suppression Applies to hot-work fire watch in particular but

- already factored into fire frequency

- hot work fires suppressed promptly by a posted fire watch are not counted in fire frequency calculations Applies to continuous fire watch if they are trained and instructed to suppress fires (e.g., rather than to simply report fires)

For more general suppression by plant personnel quick response to fires is factored into manual suppression timing curves (to be discussed later)

- e.g., MCR operators are generally trained in the use of portable extinguishers so MCR fire suppression curve is very aggressive

15 Wet Pipe Fire Sprinklers Most common of the water-based systems Fusible links at each discharge nozzle Water readily available (pipe is charged)

May see full room coverage, localized zone coverage, directed water spray in trays,

16 Dry-Pipe/Pre-Action Sprinklers Similar to wet-pipe sprinkler but feed pipes are maintained dry

- There is an upstream shutoff valve that keeps the water away from sprinkler heads Either a fire detection system or manual actions open the shutoff valve filling and pressurizing the feed pipes

- Turns the system into a wet system Fusible links at sprinkler heads still need to open from exposure to heat from the fire before water spray starts

17 Deluge System Similar to dry pipe sprinkler but all discharge nozzles are open (no fusible link)

- Feed pipes are dry beyond a shut-off valve A fire detection signal or manual action opens the main shutoff valve All nozzles discharge water at the same time upon opening of the shutoff valve Generally used for protecting high fire hazard sources

- Spray is often directed towards a specific hazard with potential for large fires

- e.g. a big oil tank or oil-filled transformer Generally involves very high water volumes since all heads are open

- Sprinkler heads will open more selectively depending on fire location and intensity

- Deluge systems spray all heads at once

18 Carbon Dioxide CO2 gas is used as a fire suppressant - displaces oxygen from the fire Life safety considerations - displaces oxygen for humans as well as the fire so it will kill

- Look for warning signs on the doors

- If you are in a room with CO2 suppression and the alarm goes off, get out System types:

- Automatic room flooding CO2 - generally released after heat or flame detection, a life safety alarm and delay time for evacuation of area

- Manual room flooding CO2 - requires an operator or fire brigade personnel to activate the system manually - still has time delay for personnel safety

- May also see CO2-based manual hose stations Room flooding systems must maintain proper suppression agent concentration for a soak time of several minutes

- Typical room flooding goal is 60% by volume CO2

19 Halon Halon interferes with the chemical oxidation process No life safety issues - does not displace oxygen, safe for use in occupied space System types:

- Automatic room flooding - suppression agent is generally released after smoke or heat detection and a life safety alarm and delay time

- Manual room flooding - requires an operator or fire brigade personnel to activate the system after smoke detection

- Also used in hand-held extinguishers, but becoming more and more rare Must maintain proper suppression agent concentration for a soak time (typically 15 minutes)

Halon is not being manufactured any more and existing systems are being phased out because of environmental considerations

- Fluorocarbon based product banned by the Montreal protocol on ozone depleting substances

20 Manual Fire Suppression Credited in most fire scenarios Includes both general plant personnel and the fire brigade

- Typical plants maintain a professional brigade of operators and other plant personnel trained in advanced fire fighting techniques

- Some general plant personnel will likely have basic fire extinguisher training Manual fire suppression is triggered by fire detection event

- Approach assumes that fire suppression efforts begin as soon as a fire is detected, but likelihood of fire suppression is based on time Typically begins with use portable extinguishers provided fire is not too big

- This is not always successful and may take several attempts before fire is suppressed Fire brigade will use water (fire hoses) if needed, but we assume general plant personnel will not use a fire hose

21 Passive Fire Protection Passive fire protection refers to fixed features put in place for reducing or preventing fire propagation.

Such features include coatings, cable tray barriers, fire stops, self-closing dampers, penetration seals, self-closing doors, and fire-rated walls.