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Sprinkler Systems and Standpipe Operations

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Water contained in the piping immediately discharges from the open sprinkler. As water begins to flow through the system, the alarm check valve on the water supply riser ... – PowerPoint PPT presentation

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Title: Sprinkler Systems and Standpipe Operations


1
Sprinkler Systems and StandpipeOperations
2
Special Considerations
  • Wet Systems, most frequently used. Designed for
    areas that are not subject to freezing.
  • Dry Systems, used in areas that are subject to
    freezing.
  • Preaction Systems, used in areas were additional
    precaution is desired to assure there is no water
    damage.
  • Deluge Systems, used in areas that are considered
    to be a high hazard.

3
  • Residential systems, these system normally
    utilize a quick response type sprinkler head that
    affords a higher level of life safety for
    occupants. It should be noted that the
    residential type systems normally protect the
    occupied or living areas only.

4
Operational Sequence Wet-Pipe Systems
  • Heat from a fire causes the heat-actuating plug
    in the sprinkler to drop from the frame.
  • Water contained in the piping immediately
    discharges from the open sprinkler.
  • As water begins to flow through the system, the
    alarm check valve on the water supply riser opens
    and activates the water motor gong and /or
    electronic signaling equipment.

5
  • The alarm is transmitted to a supervising agency
    or fire department.
  • If needed, the volume and pressure of water in
    the system is boosted via a fire department
    pumper through the fire department connection.

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Operational SequenceDry-Pipe Systems
  • Heat from a fire causes the heat-actuating plug
    in the sprinkler to drop from the frame.
  • Pressurized air contained in the piping begins to
    flow through the open sprinkler.
  • After a slight drop in air pressure, the
    quickopening device (if present) activates to
    accelerate the removal of air from the piping.

8
  • Once the air pressure is reduced sufficiently,
    the dry-pipe valve trips open. The interior
    clapper is held in the open position by a latch.
  • Water enters the intermediate chamber of the
    dry-pipe valve. This automatically forces the
    automatic drip valve closed and begins the flow
    of water through alarm-signaling equipment.
  • Water flows through the entire piping system and
    is discharged through the open sprinkler.

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Operational Sequence Deluge System
  • A product-of-combustion (heat, smoke, or flame)
    detector senses the presence of a fire condition.
    OR
  • An individual working in the area discovers a
    fire in progress.
  • The fire detection system sends a signal to the
    deluge valve, causing the valve to open. OR
  • The individual who discovers the fire manually
    trips the deluge valve.

11
  • As water enters the deluge valve and the piping,
    water flow indicator alarms are transmitted to
    signaling stations, and the water motor gong (if
    present) is activated.
  • Water flow through all open sprinklers
    simultaneously.

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Operational SequencePreaction Systems
  • A product -of-combustion (heat, smoke, or flame)
    detector senses the presence of a fire condition.
  • The fire detection system sends a signal to the
    preaction valve, causing the valve to open.
  • Sensors in the piping system detect the flow of
    water into the system and trigger the water flow
    fire alarm.
  • When the level of heat at a sprinkler reaches the
    appropriate temperature, the sprinkler fuses and
    water flows through the open orifice.

19
Standpipe and Sprinkler SystemsS.O.P. 30.5
  • Standpipe Systems
  • For fire ground operations, the second arriving
    engine company will supply the standpipe system
    with 150 psi. elevation loss per floor
    friction loss.
  • Elevation Loss 5 psi. per floor or .5 psi. per
    foot
  • Sprinkler Systems
  • Nothing Showing
  • Alarm bell not ringing - water not flowing.
  • The second arriving engine company will lay out
    hose and prepare to supply the system. The
    sprinkler system will not be charged unless
    ordered.
  • The first arriving officer should give a
    situation report as soon as possible so as to
    assist in developing a plan of attack.
  • Smoke of fire showing
  • Alarm bell ringing - water flowing.
  • The first arriving engine company will supply
    the system with 150 psi. pump pressure.
  • The first arriving officer at the scene of
    buildings equipped with standpipe and/or
    sprinkler systems may alter the standard
    operating procedure if necessary. However, the
    dispatcher will be informed immediately of the
    procedure change and ordered to replay this
    information to the second and third arriving
    companies so they can adjust their plans
    according.

20
  • It should be noted that a majority of all the
    standpipe systems in Chesapeake will be a
    combination sprinkler and standpipe system. In
    the event that you are supplying a standpipe
    system that is not part of the sprinkler system,
    the following is to be considered to determine
    pump pressure
  • Friction loss of hose from pumper to FDC
  • Friction loss of hose on fire floor
  • Nozzle pressure
  • Elevation
  • Friction loss in standpipe (25 psi)

21
  • Fire Department Connections (FDC) may be attached
    through walls or they may be a free standing
    type.
  • Fire Department Connections may be designed to
    supply sprinkler systems or standpipe systems
    separately.
  • The majority of all F.D.C.s in Chesapeake are
    combination type connections which will supply
    both the sprinkler and standpipe system (when
    present).

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  • Many sprinkler systems are supplied by fire
    pumps. The following slide is of an electric
    driven 1500 g.p.m. fire pump.

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  • Attached to the fire pump, you will see a
    regulating device. The purpose of this valve is
    to not allow the fire pump to drop the citys
    pressure below a specified pressure (pre-set at
    factory for 20psi). This valve will
    automatically gate back the discharge of the fire
    pump to maintain the minimum specified city
    pressure. It may become necessary to supply the
    F.D.C. when residual pressures drop below 20 psi.
    and/or request the Water department to boost city
    pressure.

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  • The following slide is affectionately know as a
    rose bud. In reality, it is a test header for
    the fire pump. A simple rule of thumb to
    remember is that each 2.5 discharge is equal to
    250gpm.

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30
  • Some wet sprinkler systems may have a small area
    of sprinkler heads that are on the out side of a
    building that may be subject to freezing. It is
    in these areas that a antifreeze loop is added to
    the existing wet system.

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  • Hose stations through warehouses are normally 1
    to 1.5 pipe with 1.5 valves. They are not
    normally used for major fire fighting but for
    moping up.

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  • Standpipe connections may be located in
    stairwells at Hotels, High Rises, multi story
    schools, Hospitals, and other multi story
    facilities.
  • Standpipe connections for shopping malls will
    normally be located at the entrances to the mall
    exit corridors. You will also find the standpipe
    connections at the mall entrances to the anchor
    stores.
  • Standpipe connections may also be located at high
    hazard areas for example, grain elevators.

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Standpipe Operations
  • Accurately I.D. the fire floor.
  • Establish control of the lobby.
  • Evaluate conditions on the fire floor.
  • Provide for the life safety of persons in
    immediate danger.
  • Ensure an adequate water supply.
  • Provide an initial attack on the fire.
  • Check for fire extension and occupants on floors
    above the fire.

37
  • Note
  • Firefighters should connect their hose to the
    standpipe on the floor below the fire and advance
    the hose up to the fire floor.
  • Excess hose can be laid up the stairway past the
    fire floor. This will make it feed easier onto
    the fire floor as it is pulled.
  • Use SCBAs. It would be good practice to carry a
    CO meter with crews that are in the stairwells or
    other floors that do not appear to be affected by
    visible smoke (lobby, staging, search, etc.).

38
High Rise / Mall Packs
  • Hose, 150 feet.
  • Valve wheel .
  • Nozzle.
  • Pipe wrench.
  • Gated wye, 2.5 x 1.5 x 1.5 inch.
  • Forcible entry tools.
  • Spanner wrench.
  • Rope hose tool.

39
Alternative Methods to Supply a Sprinkler and/or
Standpipe System
  • Use double 2.5 inch female on private yard
    hydrants that are part of the suppression system.
    You will need to use a city hydrant for your
    supply. ( Note There should be a back flow
    prevention device which will protect the citys
    water supply.)
  • Use double 2.5 inch female on interior standpipe
    connection.
  • Connect lines to aerial device and use as a
    standpipe.
  • Use double male on FDC when the female swivel
    does not work.
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