Positive displacement pumps
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Positive displacement pumps centrifugal pumps reciprocating pumps rotary pumps controlling Positive displacement pump discharge/suction throttling
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Positive displacement pumps
- 2. POSITIVE DISPLACEMENT PUMPS PUMPS CAN BE PUT INTO THREE CLASSES: CENTRIFUGAL •Develops pressure as a result of centrifugal forces •Mostly used where large volumes at relatively low pressures are required •Operate at comparatively high speed usually directly connected to driver •Not self-priming and delivered capacity will vary considerably with change in discharge pressure •Not particularly adapted to handling viscous fluids
- 3. RECIPROCATING •Has positive pressure characteristics – Creates flow •Used principally to handle small volumes at relatively high pressures •Speeds relatively low due to reciprocating motion and inertia effect of parts •Self-priming and delivered capacity is practically constant regardless of discharge pressure •Capable of handling practically all types of fluids with uniformly high volumetric efficiency POSITIVE DISPLACEMENT PUMPS
- 4. POSITIVE DISPLACEMENT PUMPS ROTARY •Combines the rotary motion of the centrifugal with the positive pressure characteristics of the reciprocating •Is a positive displacement type as reciprocating and delivers with each revolution a given quantity of fluid •Self-priming and gives practically constant delivered capacity regardless of pressure •Speeds are much higher and hence possible to directly connect with driver in most cases •Can pump practically any fluid that will flow
- 5. POSITIVE DISPLACEMENT PUMPS TYPES: 1. RECIPROCATING • PISTON • PLUNGER • DIAPHRAGM 2. ROTARY • SCREW (Single, Twin, Triple) • GEAR • VANE • LOBE (Two & Three)
- 11. POSITIVE DISPLACEMENT PUMPS PROGRESSIVE CAVITY PUMP
- 12. POSITIVE DISPLACEMENT PUMPS WHEN TO USE A PD PUMP: •ELEVATED/VARYING VISCOSITY APPLICATION •LOW FLOW, MODEST TO HIGH HEAD CONDITIONS •VARIABLE PRESSURE CONDITIONS •NPSHr
- 13. POSITIVE DISPLACEMENT PUMPS •CENTRIFUGAL IS BEST WHEN SYSTEM CALLS FOR PRESSURIZED NETWORK OF PIPING WITH CONSTANT PRESSURE AT VARYING FLOWRATES •PD PUMP BEST FOR SYSTEMS WITH CONSTANT FLOWRATES AT VARIOUS PRESSURES (LIKE WITH VARYING VISCOSITY)
- 14. POSITIVE DISPLACEMENT PUMPS CONTROLLING A PD PUMP:
- 15. POSITIVE DISPLACEMENT PUMPS DISCHARGE/SUCTION THROTTLING:
- 16. POSITIVE DISPLACEMENT PUMPS RECYCLE CONTROL:
- 17. POSITIVE DISPLACEMENT PUMPS SPEED CONTROL:
- 18. •The maximum speed at which a reciprocating positive displacement pump can properly operate decreases as the viscosity of a liquid increases. Therefore, as viscosity increases, the maximum flow rate through the pump decreases. •The characteristic curve for a positive displacement pump operating at a certain speed is a vertical line on a graph of head versus flow. •Slippage is the rate at which liquid leaks from the discharge of the pump back to the pump suction. •Positive displacement pumps are protected from over pressurization by a relief valve on the upstream side of the pump discharge valve. POSITIVE DISPLACEMENT PUMPS
- 19. POSITIVE DISPLACEMENT PUMPS MACHINE PROTECTION: The greatest danger is OVERPRESSURE. A blocked discharge means overpressure is certain. Protection is generally in-built in the form of an integral relief valve to relief excess pressure from discharge back to suction. In majority of cases, an external relief valve must be provided as close to discharge as possible with no means for blocking at its inlet or outlet. Instrumentation provision, in addition to relief valve, to shutdown machine in case of high discharge pressure is advisable.
- 20. POSITIVE DISPLACEMENT PUMPS CONCLUSION The flow delivered by a centrifugal pump during one revolution of the impeller depends upon the head against which the pump is operating. The positive displacement pump delivers a definite volume of fluid for each cycle of pump operation regardless of the head against which the pump is operating. Positive displacement pumps may be classified in the following ways: Reciprocating piston pump Gear-type rotary pump Lobe-type rotary pump Screw-type rotary pump Moving vane pump Diaphragm pump
- 21. POSITIVE DISPLACEMENT PUMPS •The maximum speed at which a reciprocating positive displacement pump can properly operate decreases as the viscosity of a liquid increases. Therefore, as viscosity increases, the maximum flow rate through the pump decreases. •The characteristic curve for a positive displacement pump operating at a certain speed is a vertical line on a graph of head versus flow. •Slippage is the rate at which liquid leaks from the discharge of the pump back to the pump suction. •Positive displacement pumps are protected from over pressurization by a relief valve on the upstream side of the pump discharge valve.