Pump Motor Horsepower Calculator
Pump Motor Horsepower Calculator. This centrifugal pump power calculator is meant to quickly calculate mechanical power required for a specific set point. P out =output power (hp) t=torque (lbf.ft) n=rotational speed (rpm) engineers can also utilize the electric motor horsepower calculators on manufacturers’ websites for their motor power calculation needs.
Electric motor horsepower (hp) required to drive a given hydraulic pump use this equation to help figure out what electric motor horsepower (hp) is required to drive a hydraulic pump. H = total developed head in meters = density in kg/m 3. All about convert horsepower to amps & to convert motor hp to amps.
Enter The Motor Rated Voltage In Volts (V) Enter The Motor Power Rating And Select The Appropriate Unit (Hp Or Kw) Enter The Power Factor And Efficiency Of The Motor.
Psi = pressure in pounds per square inch. Please note that this calculator is provided for information purposes only. P in kw = here.
Determining Motor Overload Using Motor Horsepower Calculations.
H p is power rating in horsepower, q is flow in gpm, p is pressure in psi, and e is the pump’s mechanical efficiency. Click on the calculate button to see the results. V is the measured motor voltage in volts, i is the measured motor current in amperes, and pf is the power factor.
The Shaft And Hydraulic Powers Are Then Calculated By The Pump Horsepower.
To find hydraulic horsepower, use the equation: Brake horsepower is the power out of the drive motor, and the power into the water pump and is how most pumps and drive motors are specified. Imperial units n = pump speed, rpm// si units n = pump speed, rpm.
The Water Level In The Tank Will Also Equal The Water Level In The Pipe, So This Is The Level The Pump Is Currently Drawing From.
Hp= (10 x 2000) / 1714. Imperial units h = pump head, ft// si units h = pump head, m. Simply take the gallons per minute (gpm) multiplied by the pump pressure psi then divide that number by the result of 1,714 times efficiency (we used 85%.
Imperial Units Q = Flow, Gpm// Si Units Q = Flow, M3/Hr.
Hp = (flow x pressure) / 1714. P_s\ =\ 1.732\times v\ \times i\ \times pf\ \times motor\ efficiency\times coupling\ efficiency. The input horsepower required for a pump that needs to.
Komentar
Posting Komentar