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Essentials of Fire Fighting,

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Title: Essentials of Fire Fighting,


1
  • Essentials of Fire Fighting,
  • 5th Edition

Chapter 16 Fire Detection, Alarm, and
Suppression Systems Firefighter II
2
Chapter 16 Lesson Goal
  • After completing this lesson, the student shall
    be able to operate different types of fire
    detection, alarm, and suppression systems and
    identify the different types of alarm and
    auxiliary systems following the policies and
    procedures set forth by the authority having
    jurisdiction (AHJ).

3
Specific Objectives
  • 1. Describe types of heat detectors.
  • 2. Describe types of smoke detectors/alarms.
  • 3. Explain how flame detectors and fire-gas
    detectors operate.

(Continued)
4
Specific Objectives
  • 4. Discuss combination detectors and indicating
    devices.
  • 5. Describe types of automatic alarm systems.
  • 6. Discuss supervising fire alarm systems and
    auxiliary services.

(Continued)
5
Specific Objectives
  • 7. Describe the operation of an automatic fire
    sprinkler system.
  • 8. Discuss water supply for sprinkler systems.
  • 9. Describe major applications of sprinkler
    systems.

6
Fixed-Temperature Heat Detectors
  • Relatively inexpensive compared to other types of
    systems
  • Can be slowest to activate
  • Activate when heated to temperature for which
    rated

(Continued)
7
Fixed-Temperature Heat Detectors
  • Installed in highest portions of room
  • Should have activation temperature rating
    slightly above highest ceiling temperatures
    normally inspected in space

(Continued)
8
Fixed-Temperature Heat Detectors
  • Activate by one or more of three mechanisms
  • Fusible device
  • Frangible bulb
  • Continuous line detector

9
Rate-of-Rise Heat Detectors
  • Operate on assumption that temperature in room
    will increase faster from fire than from normal
    atmospheric heating
  • Designed to initiate signal when rise in
    temperature exceeds 12 to 15F (-11C to -9C)
    in one minute

(Continued)
10
Rate-of-Rise Heat Detectors
  • Can be initiated at room temperature far below
    that required for initiating fixed-temperature
    device
  • Reliable, not subject to false activations
  • Pneumatic rate-of-rise spot detector

(Continued)
11
Rate-of-Rise Heat Detectors
  • Pneumatic rate-of-rise line detector
  • Rate-compensated detector
  • Thermoelectric detector

12
Smoke Detectors
  • Detect presence of smoke must transmit signal to
    another device that sounds alarm
  • Respond to smoke or other products of combustion
  • Preferred over heat detectors

13
Smoke Alarms
  • Capable of
  • Detecting presence of smoke
  • Sounding an alarm

14
Photoelectric Smoke Detectors
  • Use photoelectric cell coupled with tiny light
    source
  • Function in two ways to detect smoke

15
Ionization Smoke Detectors
  • Detect minute particles, aerosols produced during
    combustion
  • Use a tiny amount of radioactive material to
    ionize air molecules as they enter chamber within
    detector

(Continued)
16
Ionization Smoke Detectors
  • Respond satisfactorily to most fires
  • Respond faster to flaming fires than smoldering
    ones

17
Power Sources of Smoke Alarms
  • Battery-operated
  • Household current

18
Flame Detectors
  • Types
  • Among most sensitive detectors used to detect
    fires
  • Prone to being activated by nonfire conditions

(Continued)
19
Flame Detectors
  • Usually positioned in areas where other light
    sources unlikely
  • Positioned to have unobstructed view of protected
    area

(Continued)
20
Flame Detectors
  • Some single-band IR detectors sensitive to
    sunlight, should be installed in fully enclosed
    areas
  • UV detectors virtually insensitive to sunlight,
    can be used in areas not suitable for IR detectors

21
Fire-Gas Detectors
  • Monitor levels of carbon dioxide, carbon monoxide
    because these are only chemicals released from
    all fires
  • Initiate alarm signal faster than heat detector
    but not as quickly as smoke detector

(Continued)
22
Fire-Gas Detectors
  • Can be more discriminating than other types
  • Can be designed to be sensitive only to specific
    gases

(Continued)
23
Fire-Gas Detectors
  • Use semiconductors/catalytic elements to sense
    gas, transmit signal to initiate alarm
  • Not used as frequently as other types

24
Combination Detectors
  • Various combinations of previously described
    means of detection may be used in single device

25
Indicating Devices
  • Some produce loud signal to attract attention in
    high-noise areas
  • Some generate electronic tone audible in almost
    any type of environment
  • Some employ bells, horns, chimes

(Continued)
26
Indicating Devices
  • Others use speakers that broadcast prerecorded
    evacuation instructions
  • May include visual alarm indicators to
    accommodate special circumstances/populations

(Continued)
27
Indicating Devices
  • May include strobe indicators Must meet
    requirements of Americans with Disabilities Act
    in areas where there may be people with hearing
    impairments

28
Automatic Alarm Systems
  • Transmit signal to off-site location to summon
    organized assistance
  • Produce automatic response upon activation of
    local alarm
  • May be installed to complement wet-pipe or
    dry-pipe sprinkler systems

29
Auxiliary Systems
  • Local energy systems
  • Shunt systems
  • Parallel telephone systems

30
Remote Station Systems
  • Similar to auxiliary systems but connected to
    fire department telecommunication center
    directly/through answering service by some means
    other than municipal fire alarm box system

(Continued)
31
Remote Station Systems
  • Can be connected by leased telephone line or
    radio signal on dedicated frequency
  • Common in localities not served by central
    station systems

(Continued)
32
Remote Station Systems
  • May transmit coded or noncoded signal
  • Must have ability to transmit trouble signal to
    fire alarm center when system impaired

(Continued)
33
Remote Station Systems
  • May not have local alarm capabilities if
    evacuation is not desired action in fire
  • May be monitored by entity besides fire department

34
Proprietary Systems
  • Used to protect large commercial, industrial
    buildings, high-rise buildings, groups of
    commonly owned buildings in single location

(Continued)
35
Proprietary Systems
  • Each building/area has own system wired into a
    common receiving point somewhere on facility
  • The receiving station
  • Capabilities

36
Central Station Systems
  • Very similar to proprietary systems instead of
    having alarm-receiving point monitored by
    occupants representative on protected premises,
    receiving point is at off-site, contracted
    service point called a central station

(Continued)
37
Central Station Systems
  • Central station is alarm company that contracts
    with individual customers

(Continued)
38
Central Station Systems
  • When alarm initiated at contracting occupancy,
    central station employees take information,
    initiate appropriate emergency response
  • Response usually includes calling fire
    department, representatives of protected occupancy

(Continued)
39
Central Station Systems
  • Alarm systems at protected property and central
    station most commonly connected by supervised
    telephone lines

40
Supervising Fire Alarm Systems
  • Designed to be self-supervising
  • Older systems
  • Newer systems

(Continued)
41
Supervising Fire Alarm Systems
  • Sounds of alarm, trouble signals may differ with
    each brand
  • Many fixed fire suppression systems depend on
    signal from manual pull station/from automatic
    fire detection device to trigger suppression
    system

42
Auxiliary Services Available on Newer Systems
  • Shutting down, altering airflow in heating,
    ventilating, and air-conditioning (HVAC) systems
    for smoke control
  • Closing smoke/fire-rated doors, dampers

(Continued)
43
Auxiliary Services Available on Newer Systems
  • Facilitating evacuation by increasing air
    pressure in stairwells to exclude smoke
  • Overriding elevator controls
  • Monitoring operation of commercial incinerator
    management systems

(Continued)
44
Auxiliary Services Available on Newer Systems
  • Monitoring refrigeration systems, cold-storage
    areas
  • Controlling personnel access to hazardous
    process/storage areas
  • Detecting combustible/toxic gases

45
Principle Parts of Automatic Sprinkler System
  • Water supply
  • Sprinkler valve
  • Alarm
  • Manual valve
  • System drain

(Continued)
46
Principle Parts of Automatic Sprinkler System
  • Test connection
  • Sprinkler head
  • Riser
  • Feed main
  • Cross mains

47
Sprinklers
  • Discharge water after release of cap or plug
    activated by some heat-responsive element such as
    fusible link

(Continued)
48
Sprinklers
  • Identified by temperature at which designed to
    operate, either by color-coding, using different
    colored liquid, stamping temperature on sprinkler

(Continued)
49
Sprinklers
  • Fusible link
  • Frangible bulb

(Continued)
50
Sprinklers
  • Chemical pellet

51
Sprinkler Position
  • Pendant
  • Upright

(Continued)
52
Sprinkler Position
  • Sidewall
  • Special-purpose

53
Sprinkler Storage
  • Storage cabinet to house spare sprinklers, a
    sprinkler wrench usually installed near sprinkler
    rise, main shut-off valve
  • Cabinets hold a minimum of six sprinklers and
    sprinkler wrench in accordance with NFPA 13 and
    13D

(Continued)
54
Sprinkler Storage
  • In many jurisdictions, job of changing sprinklers
    must be performed by representatives of
    buildings occupants qualified to perform work on
    sprinkler systems

(Continued)
55
Sprinkler Storage
  • In other jurisdictions, firefighters allowed to
    replace fused/damaged sprinklers to restore
    system to service sooner

56
Water Supply
  • Minimum water supply has to deliver required
    volume of water to highest sprinkler in building
    at residual pressure of 15 psi (105 kPa)
  • Minimum flow depends on hazard to be protected,
    occupancy, building contents

(Continued)
57
Water Supply
  • In most cases, water supply for sprinkler systems
    designed to supply only fraction of sprinklers
    actually installed on system
  • If large fire occurs/pipe breaks, sprinkler
    system will need outside source of water and
    pressure

(Continued)
58
Water Supply
  • Sprinkler FDCs should be supplied with water from
    pumpers that have capacity of at least 1,000 gpm
    (4 000 L/min) or greater minimum of two 2½-inch
    (65 mm) or larger hoses should be attached to the
    FDC

(Continued)
59
Water Supply
  • After water flows through FDC into system, passes
    through check valve
  • Proper direction of water flow through check
    valve usually indicated by arrow on valve or
    appearance of valve casing

60
Water Supply
  • Departmental preincident plans may identify the
    pressure at which a sprinkler system should be
    supported

61
Wet-Pipe Systems
  • Used in locations where temperatures below 40F
    (4C) not expected
  • Simplest type of automatic fire sprinkler system

(Continued)
62
Wet-Pipe Systems
  • Generally require little maintenance
  • Contain water under pressure at all times
  • Connected to public/private water supply so fused
    sprinkler immediately discharges water spray,
    actuates alarm

(Continued)
63
Wet-Pipe Systems
  • Usually equipped with alarm check valve installed
    in main riser adjacent to where feed main enters
    building
  • Newer versions may have a backflow prevention
    check valve and electronic flow alarm.

(Continued)
64
Wet-Pipe Systems
  • May be equipped with retarding device as part of
    alarm check valve

65
Dry-Pipe Systems
  • Used in locations where piping may be subjected
    to temperatures below 40F (4C)

(Continued)
66
Dry-Pipe Systems
  • Have pitched (sloped) pipes to help drain water
    in system back toward main drain
  • Replace water in sprinkler piping with air under
    pressure

(Continued)
67
Dry-Pipe Systems
  • Designed so small amount of air pressure above
    dry-pipe valve will hold back much greater water
    pressure on water supply side of dry-pipe valve
  • Equipped with electric or hydraulic
    alarm-signaling equipment

(Continued)
68
Dry-Pipe Systems
  • Larger systems may have several-minute delay
    while air expelled from system

69
Preaction Systems
  • Dry systems that employ deluge-type valve, fire
    detection device, closed sprinklers
  • Used when especially important to prevent water
    damage, even if pipes broken

(Continued)
70
Preaction Systems
  • Will not discharge water into sprinkler piping
    except in response to smoke- or heat-detection
    system actuation
  • Sound alarm to give warning before opening of
    sprinklers

71
Deluge Systems
  • Similar to dry-pipe system in no water in
    distribution piping before system activation
  • Differ from dry-pipe systems in sprinklers have
    no fusible links, do not function as fire
    detection devices

(Continued)
72
Deluge Systems
  • Designed to quickly supply large volume of water
    to protected area
  • Sometimes used to discharge foam/other
    extinguishing agents in occupancies containing
    flammable liquids, other volatile fuels

73
Residential Systems
  • Installed in one- and two-family dwellings
  • Designed to give occupants of dwelling chance to
    escape, prevent total involvement in room of
    origin
  • Employ quick-response sprinklers

(Continued)
74
Residential Systems
  • Use several types of piping systems
  • Must have pressure gauge, flow detector, means
    for draining and testing system
  • Can be either connected directly to public water
    supply or to dwellings domestic water system

(Continued)
75
Residential Systems
  • Require control valve to turn off water to
    sprinkler system and to domestic water system if
    connected if sprinkler system supplied
    separately from domestic water system, sprinkler
    control valve must be supervised in open position

(Continued)
76
Residential Systems
  • Operate in same manner as other wet-pipe/dry-pipe
    systems
  • May be equipped with fire department connection
    (FDC) FDC may be 1½-inch (38 mm) connection

77
Summary
  • Many of the buildings to which firefighters are
    called for emergency operations are protected
    partially or fully by automatic fire detection
    and/or suppression systems.

(Continued)
78
Summary
  • Firefighters need to familiarize themselves with
    the types of systems installed in their area of
    responsibility. They should also learn the
    locations of these systems as well as the
    capabilities and limitations of each type of
    system.

79
Review Questions
  • 1. How does a photoelectric smoke detector work?
  • 2. How do flame detectors work?
  • 3. Describe the three basic types of auxiliary
    automatic alarm systems.

(Continued)
80
Review Questions
  • 4. What is a proprietary automatic alarm
    system?
  • 5. Describe commonly used release mechanisms to
    activate sprinklers.
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