164688287 cc102 construction materials and application dry n wet risers

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    DRY RISER

    1.0 INTRODUCTION

    Dry risers are a form of internal hydrant for the firemen to use and are only required for

    buildings where the topmost floor is higher than 18.3 metres and less than 30.5 metres above

    the fire appliance access level. Dry risers are normally dry and depend on the fire engine to

    pump water into system. Dry riser system comprises a riser pipe with landing valves at each

    floor and to which canvas hose with nozzles can be connected to direct the water jet at the

    fire. Breeching inlets into which the firemen pumps water are provided at ground and are

    connected to the bottom of the dry risers. A typical dry risers installation is shown as below:-

    1

    COMPONENT / EQUIPMENT

    1. 4-way Breeching Inlet

    2. Landing Valve

    3. Hose Cradle

    4. Air Release Valve c/w BallValve

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    Figure 1.0.1 Dry Riser System Typical Arrangement Drawing

    2

    1

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    Figure 1.0.2 Typical Dry Riser Installation

    Figure 1.0.3 Automatic Air Release Valve

    1.1 Specifications for air release valve

    Provides automatic release of air from a dry riser when being charged with water and

    admission of air when it is being drained.

    Inlet connection 1 male BSP to BS 2779.

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    2.0 DESIGN REQUIREMENTS DRY AND WET

    2.1 Design Standards

    In the Uniform Building By-laws 1984, the By-lows pertaining to dry risers are By-

    lows 230 and 232. The relevant standards for dry risers are:

    MS 1489 : Part 1 : 1999

    Fire extinguishing installations and equipment : Part 1 : Hydrant systems, hose reels

    and foam inlets

    Covers good practice in matters affecting the planning, installation, testing and upkeep of

    fire hydrant systems including wet and dry rising mains, hose reels and foam inlets on

    premises. Although statutory fire hydrants need to be considered when co-ordinating all

    fire fighting systems in a locality, the scope of this code of practice does not include them

    and if information is required concerning them reference should be made to the fire

    authority. This standard supersedes MS 1209 : Part 2 : 1991 and MS 1209 : Part 3 : 1991.

    Price Code : D

    MS 1210 : Part 2 : 1991

    Specification for fire hydrant systems equipment : Part 2 : Landing valves for dry

    risers.

    This part of Malaysian Standard specifies requirements for copper alloy gate valves

    generally complying with BS 5754, suitable for installation as landing valves on dry

    risers. The valves have screwed or flanged inlets and also delivery hose connections

    complying with BS 336. The standard covers valves of nominal pressure (PN)

    designation 1500kPa and nominal inlet size DN 65 for flanged ends and 2 for screwed

    ends.

    Price Code : B Amendment 1 : 1999

    MS 1210 : Part 3 : 1991

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    Specification for fire hydrant systems equipment : Part 3 : Inlet breeching for dry

    riser inlets.

    This part of Malaysian Standard specifies requirements for 2-way and 4-way inlet

    breechings intended for dry risers only. They are to be filled with male instantaneous

    connections complying with the requirements of BS 336, drain valves, complying with

    requirements of BS 5154, rating PN 16, and non-return valves.

    Price Code : B Amendment 1 : 1999

    MS 1210 : Part 4 : 1991 (1999)

    Specification for fire hydrant systems equipment : Part 4 : Boxes for landing valves

    for dry risers.

    This part of Malaysian Standard specifies requirements for boxes (including their frames,

    doors and glazing) suitable for enclosing landing valves for dry risers as specified in Part

    2 of this standard.Price Code : A

    MS 1210 : Part 5 : 1991 (1999)

    Specification for fire hydrant systems equipment : Part 5 : Boxes for foam inlets and

    dry risers inlets.

    MS 1210 : Part 1 : 1991

    Specification for fire hydrant systems equipment : Part 1 : Landing valves for wet

    risers.

    This part of Malaysian Standard specifies requirements for copper alloy globe valves

    generally complying with BS 5754 and diaphragm valves generally complying with BS

    5156, both suitable for installation as landing valves on wet risers. The valves have

    screwed or flanged inlets and also delivery hose connections, complying with BS 336.

    This standard covers valves of nominal pressure (PN) designations 1500kPa and 2000kPa

    and nominal inlet sizes DN 40 to DN 65 for flanged ends and 1 and 2 for screwed

    ends.

    Price Code : C Amendment 1 : 1999

    2.2 Landing Valves

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    Landing valves are provided on each floor and should comply with M.S.1210 : Part 2.

    They are usually located within fire access lobbies, protected staircases or other protected

    lobbies, and installed at not more than 0.75 metres above the floor level. To protect the

    landing valves, boxes may be provided and these should comply with M.S. 1210 Part 4.

    Fire hose of not less than 38mm diameter, 30 metre in length, complete with 65mm

    diameter quick coupling and nozzle should be provided at each landing valve.

    Figure 2.2.1 Type of Landing Valve

    Specifications

    Globe pattern valves available in horizontal, oblique or right-angle

    configuration.

    Manufactured to BS 5041 and BS 5154 with Gunmetal bodies and major

    working parts in manganese bronze.

    Body and internals designed for low working pressure.

    Compact with excellent flow characteristics.

    Flanged inlets either 65mm BS 4504 NP 16 or 2 BS10 Table D.

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    Outlet 2 female instantaneous to BS 336.

    2.3 Breeching Inlet

    The fire brigade breeching installed at the bottom of the riser should comply with

    M.S. 1210 : Part 3. Where the breeching inlet is enclosed within a box, the enclosure

    should comply with M.S. 1210 Part 5 and labeled Dry Riser Inlet. A drain should be

    provided at the bottom of the riser to the drain the system after use.

    A two-way breeching should be provided for a 100mm diameter dry riser while a

    150mm diameter dry riser should be installed with a 4-way breeching inlet. Breeching

    inlets should be located no more than at 18 metres from the fire uppliance access road

    and not more than 30 metres from the nearest external hydrant outlet.

    Figure 2.3.1 Two Way Breeching Inlets

    Specifications

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    These are manufactured to BS5041-3, inlets 65mm (2 1/2) male instantaneous to BS

    336 with integral non-return valves, 25mm (1) drain valve, and blank caps and

    chains.

    Suitable for use with a 100mm (4) rising main.

    SG Iron with Gunmetal fittings.

    Flanged outlets either 100mm BS4504 NP16 or 4 BS10 Table D.

    Vertical or horizontal mounting.

    Figure 2.3.2 Dry Riser Inlet Valve

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    Figure 2.3.3 Inlet and Outlet Cabinets

    Specifications

    Designed to house inlet breechings and landing valves.

    Georgian wired glass panel and spring cylinder lock with key.

    Manufactured from zintec, epoxy polyester powder coated Red.

    2 way vertical - 395mm wide x 595mm long x 295mm deep.

    2 way horizontal - 595mm wide x 395mm long x 295mm deep.

    Outlet - 463mm wide x 612mm long x 325mm deep

    2.4 Riser Pipe

    The riser pipe diameter usually located within the fire access lobby or staircase

    should be 150mm if the highest outlet is more than 22.875 metres above the breechinginlet. Otherwise, the riser pipe can be 100mm in diameter. The riser pipe shall be of

    galvanized iron to B.S. 1387 (Heavy Gauge) or Class C, tested to 21 bars.

    Horizontal of pipework feeding the risers should be sloped to enable proper draining

    after use. An air release valve should be installed at the top of the riser to relief air

    trapped in the system. The riser pipe should be electrically earthed or connected to the

    building earth to achieve equipotential.

    3.0 TEST REQUIREMENTS

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    3.1 Static Pressure Test

    The system first should be flushed to clear all debris from the inside of the riser. The

    riser is then hydraulically tested to a pressure of 14 bars for 2 hours, measured at the

    breeching inlet and a check is carried out for leakage at the joints and landing valve

    connections.

    4.0 MAINTENANCE REQUIREMENTS

    4.1 Inspection and Testing

    The breeching inlets, landing valves and hoses, dry riser pipe, drain valve and

    cabinets should be inspected regularly to ensure that they are in good operating condition.

    5.0 DESIGN CHECKLIST

    (a) Dry riser is required for building which the topmost floor is more than 18.3 metres

    but less than 30.5 metres above fire appliance access.

    (b) Total number of landing valve __________ nos per riser.

    (c) Rising main location :

    In stairway enclosure

    Within a fire fighting lobby

    Other : ____________

    (d) Riser diameter : ___________mm.

    (e) Pipe material : ___________.

    (f) Lowest point of landing valve at about 750mm above floor level.

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    (g) Fire brigade breeching inlet :

    Two-way pumping inlet

    Four-way pumping inlet

    6.0 VISUAL INSPECTION CHECKLIST

    6.1 Visual Inspection of Water Supplies

    Breeching inlet.

    6.2 Visual Inspection of Landing Valves

    Location of valves.

    Caps for outlet of landing valves

    6.3 Visual Inspection of Pipework

    Isolating valve for hose reel.

    Physical condition of hose reel drum, hose, nozzles, etc.

    6.4 Visual Inspection of Pumps

    Type of pipes used.

    Protection of underground pipes.

    Painting of pipes.

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    Pipe supports.

    Pipe sleeves.

    Fire seal.

    7.0 TESTING AND COMMISSIONING CHECKLIST

    7.1 Testing and Commissionning of Piperwork

    Hydrostatic testing of piperwork.

    Flushing of pipework.

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    8.0 INTRODUCTION (WET RISER)

    Wet risers are a form of internal hydrant for the firemen to use always charged with

    water. Wet risers are only required for building where the topmost floor is higher than 30.5

    metres above the fire appliance access level. Wet riser system comprises duty fire pump wit

    standby pump discharging into a 150mm diameter riser pipe with landing valves at each floor

    and to which canvas hose with nozzles can be connected to direct the water jet at the fire. A

    jockey pump is usually provided to maintain system pressure. For high rise buildings, each

    stage of the wet riser should not exceed 70.15 metres. A typical wet riser installation is

    shown as below :-

    13

    COMPONENT/EQUIPMENT

    1. Water Tank 12. Y-Strainer

    2. 4-Way Breeching Inlet 13. Gate Valve

    3. Vent Pipe c/w Mosquito Net 14. Duty Pump

    4. Access Opening 15. Concentric Reducer

    5. Level Indicator 16. Check Valve

    6. External Cat Ladder 17. Jockey Pump

    7. Overflow Pipe 18. Pump Start TestPipe

    8. Warning Pipe 19. Pump StarterPanel

    9. Standby Pump 20. Landing Valve

    10. Eccentric Reducer 21. Hose Cradle

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    Figure 8.1 Example Wet Riser Pipework

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    9.0 DESIGN REQUIREMENTS

    9.1 Wet Riser Landing Valve

    Landing valve are provided on each floor should comply with M.S. 1210 Part 1. They

    are usually located within fire fighting access lobbies, protected staircases or other protected

    lobbies, and installed at not more than 0.75 metres from the floor. To protect the landing

    valves, boxes can be provided and these should comply with M.S. 1210 Part 4.

    The pressure at the landing valve should be no less than 4 bars and not more than 7

    bars. To achieve this, they are to types of landing valves i.e. pressure reducing type with or

    without relief outlet. Those with relief outlets require a wet riser return pipe. Fire hose of the

    canvas type of not less than 38mm dia. 30 metres in length, complete with 65mm diameter

    quick coupling and jet and spray nozzle should be provided in a hose cradle beside each

    landing valve.

    Figure 9.1.1 Pressure Reducing Type

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    9.2 Breeching Inlet

    With the fire brigade breeching inlets the firemen can pump water into the wet riser

    storage tank to make up for water use. The breeching inlet should be a 4-way tipe complying

    with M.S. 1210 : Part 3. Where the breeching inlet is enclose within a box, the enclosure

    should comply with M.S. 1210 : Part 5 and labeled Wet Riser Inlet. A drain should be

    provided at the bottom of the riser to drain the system after use. Breeching inlet should be

    located no more than 18 metres fron the fire appliance access road and not more than 30

    metres from the nearest external hydrant.

    9.3 Wet Riser Pipe

    The wet riser mains are usually located within smoke free lobby or protected areas and

    suck that all space are be to be within a 45 metres coverage from a landing valve. Where

    more than one riser is required for each floor, the distance apart between the risers should not

    exceed 60 metres. The distance between the lowest and topmost landing valve in any upper

    stage riser should not exceed 60 metres. The riser pipe diameter should be 150mm

    galvanized to B.S. 1387 (Heavy Gauge) or Class C. where a relief pipe is required, this return

    pipe shall be minimum 100mm diameter galvanized iron to B.S. 1387 (Medium Gauge) or

    Class B, discharging back to wet riser tank wherever possible. An air release valve should be

    installed at the to of the riser to relief air trapped in the system. All wet riser pipes should be

    coated with primer and finished with red gloss paint. Alternatively the pipe can be colour

    coded with red bands of 100mm with and the elbows and tees painted red. The riser pipe

    should be electrically earthed to achieve equipotential with the building.

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    9.4 Wet Riser Pumps

    The wet riser pumps draw water from wet riser storage tank and two sets of pumps, one

    on duty and the other on standby, are provided. The pump capacity is usually sized to thedeliver a flow rate of 1500 l/min at a running pressure of not less than 4 bars but not more

    than 7 bars, when any three landing valves are in use at the same time.

    The standby wet riser pumpset should be supplied with power from the emergency

    generator if this is available. Otherwise, the standby pumpset should be diesel engine driven.

    Fuel supply should be other adequate for minimum 2 hour of continuous operation. Electrical

    cabling to supply power to the wet riser pumps should be of MICC or fire rated type.

    Batteries for the diesel engine should be maintenance-free type.

    The wet riser pumpsets should be protected from fire and away from locations likely to

    be flooded. Sump pumps shall be installed where the fire pump room is located in the

    basement below external drainage levels. It should also be ventilated by natural or

    mechanical means and provided with the necessary signage. A carbon dioxide type portable

    extinguisher should be provided as well.

    Figure 9.4.1 Wet Riser Pump

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    9.5 Wet Riser Tanks

    The fire water storage tank should be sized for a minimum effective capacity of 45500

    litres with automatic refill rate of 455 l/min. the intermediate break tank for upper stages ofthe wet riser should be not less than 11375 litres with and automatic make-up flow of 1365

    l/min.

    Wet riser tanks may be pressed steel, fibre reinforced polyester(FRP) or concrete.

    Pressed steel tanks where use should be hot dipped galvanized and coated internally with

    bituminous paint for corrosion protection. The water tanks should be compartmented unless

    they are of reinforced concrete. Ball float valves, overflow pipes, drain pipes and water level

    indicators should be provided for each compartment. The external surface of the tank shouldbe painted red or were this not desirable, a red band of minimum 200mm should be painted

    indicated that this is a fire tank.

    The wet riser tanks may be located on the ground floor, first or second basement. The

    wet riser tanks are usually separated from other water storage tank. However it may be

    combained with hose reel tank, in which cases the tank capacity should be the sum total of

    the water storage for both wet riser and where as for hose reel system. The hose reel tap of

    level should be above the wet riser tap off level such that the water riser reserve and

    maintained.

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    9.6 Pump Starter Panels Controls

    Pump starter panel should be complete with indicator lights as shown in the.

    Ventilation slots should be provided with insect screen to prevent entry of vermin. Powersupply cables to the panel should be of mineral insulated copper cable (MICC) or fire rated

    type routed within areas with low fire risk. The pump starter panel should be placed within

    the same room as the fire pumps it controls.

    Wet riser pumps are automatically started upon actuation of the pressure switches but should

    only be stopped manually. Usually three pressure switches are provided with the following

    suggested pressure settings:

    Starting the duty pumpset seet at 80% of the system pressure;

    Starting the standby pumpset set at 60% of the system pressure; and

    Starting and stopping the jockey pumpset set at 90% and 110% of the system pressure

    respectively.

    The pressure switches are normally installed in the test and drain line on the pump discharge

    side. The pressure settings should be clearly labeled on tags attached to each pressure switch.

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    Figure 7.6 Automatic Starter Pump Panel Control

    10.0 TEST REQUIREMENTS

    10.1 Static Pressure Test

    The system should first be flushed to clear all debris from the inside of the riser. The riser is

    then hydraulically tested to a pressure of 14 bars or 150% the working pressure,

    whichever is the higher for 2 hours, measured at the lowest landing valve connections.

    10.2 Flow Test

    A three way landing valve should be provided on the roof or topmost floor for testing

    purposes. Means should be provided to measure the water flowrate.

    11.0 MAINTENANCE REQUIREMENTS

    11.1 Inspection and testing

    A flow should be carried out to ensure that the pumps are in proper working condition.

    The pipework should be checked for leakage and the breeching inlets, landing valves and

    hoses, drain valves and cabinets should be inspected as recommended in the checklist

    attached.

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    12.0 DESIGN CHECKLIST

    (a) Wet riser is required for building where the topmost floor is more than 30.5 metres above fire

    appliance access.

    (b) A minimum flow rate of 500 litres/minute at running pressure of 4 to 7 bars is maintained at

    each landing valve when three numbers of the furthest landing valves are fully opened.

    (c) Water source :

    Pump suction tank

    Fire water main.

    Other : .

    (d) Multi-stage system shall be installed for highest outlet more than 70.15 metres above pump

    level.

    (e) Each stage of riser does not exceed 60 metres.

    (f) Landing valves shall be pressure regulating/reducing type.

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    (g) Total number of landing vavle per stage :

    Stage 1 : nos.

    Stage 2 : nos.

    (h) Three way 63.5mm outlets are provided at location above the roof line.

    (i) Riser spacing : metres.

    (j) Rising main location :

    In stairway enclosure.

    Within fire fighting lobby.

    Other : .

    (k) Number of fire hose provided : nos.

    (l) Hose size : _____ mm ; length : ____ m.

    (m) Break tank capacity : 11,375 litres.

    (n) Water tank capacity : 45,500 litres.

    (o) Minimum nominal diameter of riser shall be 150mm.

    (p) Pipe material : .

    (q) Lowest point of landing valve at about 750mm above floor level.

    (r) To provide fire brigade breeching inlet.

    (s) Wet riser pump :

    Rated flow rate : ___ litres/min at metre head.

    Rated power : kW.

    (t) Pipe norminal size : Suction : mm ; Delivery : mm

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    (u) For diesel engine :

    Fuel capacity sufficient to run engine at full load for hours.

    Reserve supply of fuel for hours of engine full load running.

    13.0 VISUAL INSPECTION CHECKLIST

    13.1 Visual Inspection of Water Supplies

    Capacity of water available

    Compartmentation of water tanks.

    Priming tank (if any).

    Monitoring of water tank level.

    Vortex inhibitors for water tanks.

    Breeching inlet.

    13.2 Visual Inspection of Landing Valves and Accessories

    Location of landing valve.

    Storage of canvas hose and accessories.

    Physical condition of canvas hose, accessories and landing valve.

    Caps for outlet of landing valves.

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    13.3 Visual Inspection of Pipework

    Type of pipes used.

    Protection of underground pipework.

    Painting pipework.

    Pipe supports.

    Pipe sleeves.

    Fire seal.

    13.4 Visual Inspection of pumps

    Protection of rotating parts of pump sets.

    Mounting of pump sets.

    14.0 TESTING AND COMMISIONING CHECKLIST

    14.1 Testing and Commisioning of Water Supplies

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    Pump operating current and voltage.

    Pump operating pressure and flow rate.

    Pump operating RPM.

    Pump not overheating.

    Vibration and noise level.

    Testing of electrical wiring system.

    Alternative power supply for electric pumps.

    Batteries for diesel pumps.

    Fuel for pumps.

    Automatic operation of pumps.

    14.2 Testing and Commissioning of Pipework

    Hydrostatic testing of pipework.

    Flushing pipework.

    14.3 Testing and Commissioning of Landing Valves

    Pressure at landing valve outlet.

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    Flow rate water.

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    15.0 CONCLUSION

    Dry risers are a form of internal hydrant for the firemen to use and are only required

    for buildings where the topmost floor is higher than 18.3 metres and less than 30.5 metres

    above the fire appliance access level. Dry risers are normally dry and depend on the fire

    engine to pump water into system. Dry riser system comprises a riser pipe with landing

    valves at each floor and to which canvas hose with nozzles can be connected to direct the

    water jet at the fire. Breeching inlets into which the firemen pumps water are provided at

    ground and are connected to the bottom of the dry risers.

    Wet risers are a form of internal hydrant for the firemen to use always charged

    with water. Wet risers are only required for building where the topmost floor is higher

    than 30.5 metres above the fire appliance access level. Wet riser system comprises duty

    fire pump wit standby pump discharging into a 150mm diameter riser pipe with landing

    valves at each floor and to which canvas hose with nozzles can be connected to direct the

    water jet at the fire. A jockey pump is usually provided to maintain system pressure. For

    high rise buildings, each stage of the wet riser should not exceed 70.15 metres.

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    16.0 REFERENCES

    Guide To Fire Protection In Malaysia

    http://www.sirim.my

    http://www.arrowfire.co.uk/dryrisers.htm

    http://www.firecontrol.com.my/services5_DryRiserSys.htm

    http://www.excelfire.com.my

    http://shtpypump.en.alibaba.com

    http://en.wikipedia.org/wiki/Fire_pump

    30

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