Hydraulic pump maintaining preset pressure at outlet by regulating its flow delivery
The Variable-Displacement Pressure-Compensated Pump block represents a positive, variable-displacement, pressure-compensated pump of any type as a data-sheet-based model. The key parameters required to parameterize the block are the pump maximum displacement, regulation range, volumetric and total efficiencies, nominal pressure, and angular velocity. All these parameters are generally provided in the data sheets or catalogs.
The following figure shows the delivery-pressure characteristic of the pump.
The pump tries to maintain preset pressure at its outlet by adjusting its delivery flow in accordance with the system requirements. If pressure differential across the pump is less than the setting pressure, the pump outputs its maximum delivery corrected for internal leakage. After the pressure setting has been reached, the output flow is regulated to maintain preset pressure by changing the pump's displacement. The displacement can be changed from its maximum value down to zero, depending upon system flow requirements. The pressure range between the preset pressure and the maximum pressure, at which the displacement is zero, is referred to as regulation range. The smaller the range, the higher the accuracy at which preset pressure is maintained. The range size also affects the pump stability, and decreasing the range generally causes stability to decrease.
The variable-displacement, pressure-compensated pump is represented with the following equations:
|p||Pressure differential across the pump|
|pP,pT||Gauge pressures at the block terminals|
|D||Pump instantaneous displacement|
|Dmax||Pump maximum displacement|
|pset||Pump setting pressure|
|pmax||Maximum pressure, at which the pump displacement is zero|
|T||Torque at the pump driving shaft|
|ω||Pump angular velocity|
|ηV||Pump volumetric efficiency|
|ηmech||Pump mechanical efficiency|
|ν||Fluid kinematic viscosity|
|ρnom||Nominal fluid density|
|pnom||Pump nominal pressure|
|ωnom||Pump nominal angular velocity|
|νnom||Nominal fluid kinematic viscosity|
The leakage flow is determined based on the assumption that it is linearly proportional to the pressure differential across the pump and can be computed by using the Hagen-Poiseuille formula
|d, l||Geometric parameters of the leakage path|
|μ||Fluid dynamic viscosity, μ = ν.ρ|
The leakage flow at p = pnom and ν = νnom can be determined from the catalog data
which provides the formula to determine the Hagen-Poiseuille coefficient
The pump mechanical efficiency is not usually available in data sheets, therefore it is determined from the total and volumetric efficiencies by assuming that the hydraulic efficiency is negligibly small
The block positive direction is from port T to port P. This means that the pump transfers fluid from T to P provided that the shaft S rotates in the positive direction. The pressure differential across the pump is determined as .
Fluid compressibility is neglected.
No loading on the pump shaft, such as inertia, friction, spring, and so on, is considered.
Leakage inside the pump is assumed to be linearly proportional to its pressure differential.
Pump displacement. The default value is 5e-6 m^3/rad.
Pump pressure setting. The default value is 1e7 Pa.
Pressure range required to change the pump displacement from its maximum to zero. The default value is 6e5 Pa.
Pump volumetric efficiency specified at nominal pressure, angular velocity, and fluid viscosity. The default value is 0.85.
Pump total efficiency, which is determined as a ratio between the hydraulic power at the pump outlet and mechanical power at the driving shaft at nominal pressure, angular velocity, and fluid viscosity. The default value is 0.75.
Pressure differential across the pump, at which both the volumetric and total efficiencies are specified. The default value is 1e7 Pa.
Angular velocity of the driving shaft, at which both the volumetric and total efficiencies are specified. The default value is 188 rad/s.
Working fluid kinematic viscosity, at which both the volumetric and total efficiencies are specified. The default value is 18 cSt.
Working fluid density, at which both the volumetric and total efficiencies are specified. The default value is 900 kg/m^3.
Parameter determined by the type of working fluid:
Fluid kinematic viscosity
The block has the following ports:
The Closed-Loop Electrohydraulic Actuator with Proportional Valve example illustrates the use of the Variable-Displacement Pressure-Compensated Pump block in hydraulic systems.