Pump Piping Layout
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Transcript of Pump Piping Layout
![Page 1: Pump Piping Layout](https://reader035.fdocuments.net/reader035/viewer/2022081416/552f80af4a7959ed368b45af/html5/thumbnails/1.jpg)
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Pump is a mechanical device used to add kinetic and potential
energy to a liquid for the purpose of moving it from one point
to another. This energy will cause the liquid to do work such as
flow through a pipe or rise to a higher level and Pump gives
pressure to fluid passing through it.
DEFINITION :
Types:
Centrifugal Pump
Positive
Displacement:• Reciprocating:― Piston pump― Plunger pump― Diaphragm pump
• Rotary:― Gear pump― Screw pump ― Lobe pump
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Centrifugal Pump
![Page 4: Pump Piping Layout](https://reader035.fdocuments.net/reader035/viewer/2022081416/552f80af4a7959ed368b45af/html5/thumbnails/4.jpg)
External-gear Pump
Lobe Pump Internal-gear Pump
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PUMP TERMINOLOGYNPSHa (Net Positive Suction Head available): Net pressure in a given system, based on vessel pressure and
static head, minus the liquid vapor pressure.
NPSHr (Net Positive Suction Head required):Minimum head needed by the pump based on pump
characteristic (depends on Impeller inlet, Impeller design, pump flow rate, impeller speed, type of liquid).
Vapor Pressure:Pressure level when liquid flashes or changes to vapor
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CAVITATION:Cavitation is the formation of vapor bubbles in a high-velocity, low-pressure region and by the subsequent collapse when the bubbles move to a higher pressure region. Cavitation can cause loss of head and capacity. Also can create excessive erosion and vibration.
Indication: Knocking noise due to formation and subsequent
collapse of vapor bubbles.Cavitation occures due to :
• Pump cavitation can result from insufficient available NPSH
(NPSHa < NPSHr)
• High pump-suction velocities and long piping increase pressure fluctuations in the pump.
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THE MEDICINEIncrease NPSHa by : Increase pressure at suction of pump Decrease liquid temperature Reduce head losses Reduce NPSHr (Depends on Impeller inlet, Impeller design, Pump flow rate, impeller speed, type of liquid)
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PUMP LOCATION
Primary Purposes:
1.Minimize the length of the suction piping
2.Satisfying piping flexibility requirement / Sup
3.Adequate access for operation & maintenance / repair
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1A, 1B: under pipe rack minimal hydrocarbon spill from air cooler
provide support from pipe rack
3A, 3B: partially under pipe rack discharge piping can rise vertical into the vertical slot
6A, 6B: outside the pipe rack potentially hydrocarbon spill
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7A, 7B: under equipment equipment such as drums, HE, provide support from proximity pipe steel structure
9A, 9B: inline pump
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TYPICAL PIPING PUMP ARRANGEMENT & RULES
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1. STRAINER
Strainers is used to catch any foreign matters that may have collected during piping construction. Strainers will be located between pump suction block valve and pump. Type of strainer
1) Temporary strainer
2) Permanent strainer
SUCTION LINE
Suction Line Fittings :
Suction piping is one or two line sizes larger than the pump suction nozzle size.
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Conical strainers are longer than the basket type. These are used on suction lines 2” and larger.
For basket and conical types a removable spool piece must be provided downstream of suction block valve
Flat strainers use with very short suction lines where no debris is expected
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Bathtub or tee type strainers as most expensive, it does not require unbolting and removing spool piece to remove the strainer.
Permanent Strainer:
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Y- type strainer to permit servicing of the strainer. Also, a blow-off connection may be provided in the end cap to flush the strainer.
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2. REDUCERS;
• Should be as close as possible to the pump suction
nozzle so that
pump suction will not starved.
• Use Eccentric reducer with Flat Surface Up for
horizontal line
• Reducer located as close as possible to pump
nozzle
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Air pocket formed along upper side of pipe by concentric reducer.
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• Suction line should have positive shut off valve, use gate valve at the upstream of strainer.
• Pump valves are operating valves, thus keep them as low as possible
3. Block Valve
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PUMP PIPING LAYOUT CONSIDERATION
1. Flexibility & Support of the pump piping
Allowable loading on the pump nozzle is very low and the
piping must be properly supported to avoid overstressing.
Is there any structure or pipe rack nearby?
If there is no structure/pipe rack nearby consult to pipe
stress engineer to find best place to make support.
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When expansion loops are required between pumps, it is necessary to partially run the lines over pumps and driver .
Every effort must be made to minimize maintenance obstruction by running the piping outside the area of the pumps or at a high enough elevation to permit the removal of the pump or driver.
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2. Pump Maintenance & Operational
Consider how each component is to be physically removed if they need to be maintained or replaced and the tool needed to do that.
Make sure there is enough space to pick and move the component.
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There will be some valves that need to be operated so make sure there is adequate space on pump area to access the valve.
Orientation of block valves must minimize the plot area required.
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The elevation of the valves should generally be as low as possible and common in both lines when possible.
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3. Uniformity
Duplicate piping configurations at groups of pumps of similar size
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MULTIPLE PUMP ARRANGEMENT
The lines should be configured so the piping flexible enough & receive optimum support.
The elevation of the block valves should be within the reach of the operator.
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Multiple pumps arrangement, which the one in the center is a spare pump.
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BELOW GRADE SUCTION PUMP • Use Flat Side Top (FST) reducer to avoid cavitation.
• Use of basket strainer in this case is more practical
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THANK YOU