Power available at shaft of pump
Ps = p x g x Q x h
where, p=density of fluid
g= gravitational acceleration
Q= discharge of fluid in m3/sec
h= differential head of pump
A Monobloc pump is a pump in which all rotating parts are mounted on a common shaft. The main components of a Monobloc pumps are Pump assembly and Motor assembly. Since there are 7% losses in belt driven sets and 3% losses in coupling driven sets hence to avoid these transmission losses Monobloc pump sets evolved. In monobloc pump sets as motor and pump are mounted on a single shaft there is no energy loss during energy transmission from motor to shaft.­­­­­­­­ By - Tanveer Ahmed Bankapur
Variable Frequency Drive
The power output of a motor can be changed by the use of gears. Gears can be used to increase torque by reducing the speed of the output shaft by placing a large gear on the output shaft, coupled to a smaller gear. Conversely, by using a small gear on the output shaft, coupled to a larger gear, the speed can be increased with a reduction in torque.
reciprocating motion in an appliance is obtained from a rotating motor shaft with the aid of
Friction is present at the motor shaft and also in various parts of the load. The friction torque is equivalent value of various friction torques referred to the motor shaft.
Bad Motor Start Capacitor
Fans shaft and blades are attached to rotor shaft of the motor
Motor shaft speed refers to the rotational speed of the motor's output shaft in revolutions per minute (RPM). It indicates how fast the motor is rotating and is a key parameter in determining the mechanical power output of the motor. Motor shaft speed is influenced by the frequency of the electrical power supplied to the motor and the motor's design specifications.
The shaft locks when power not applied.
A Monobloc pump is a pump in which all rotating parts are mounted on a common shaft. The main components of a Monobloc pumps are Pump assembly and Motor assembly. Since there are 7% losses in belt driven sets and 3% losses in coupling driven sets hence to avoid these transmission losses Monobloc pump sets evolved. In monobloc pump sets as motor and pump are mounted on a single shaft there is no energy loss during energy transmission from motor to shaft.­­­­­­­­ By - Tanveer Ahmed Bankapur
In centrifugal pumps there are two major types of pumps,One is Bare shat pumps and another one is close coupled pumps.Bare shaft pumps having casing,bearing housing with shaft which has to be coupled by means coupling arrangements like love joy,Tyre and spacer type coupling with electric motor.But in the close coupled pumps the motor will looks like a inbuilt arrangement to avoid extra shaft length and shaft deflection. Still if you have a doubt on this subject feel free to mail me in horsepower@sify.com Mahesh M Kumar Executive Engineer INDUSTRIAL MONO BLOCK PUMPS Coimbatore
In centrifugal pumps there are two major types of pumps,One is Bare shat pumps and another one is close coupled pumps.Bare shaft pumps having casing,bearing housing with shaft which has to be coupled by means coupling arrangements like love joy,Tyre and spacer type coupling with electric motor.But in the close coupled pumps the motor will looks like a inbuilt arrangement to avoid extra shaft length and shaft deflection. Still if you have a doubt on this subject feel free to mail me in horsepower@sify.com Mahesh M Kumar Executive Engineer INDUSTRIAL MONO BLOCK PUMPS Coimbatore
The shaft in this machine rotates to transfer power from the motor to other parts, allowing them to move or function.
P = I x V Power = volts x amps 240 x 4 = 560 watts. This is how much power will be consumed by the motor. The actual power produced at the shaft, will vary on type and efficiency of the motor.
Variable Frequency Drive
The power output of a motor can be changed by the use of gears. Gears can be used to increase torque by reducing the speed of the output shaft by placing a large gear on the output shaft, coupled to a smaller gear. Conversely, by using a small gear on the output shaft, coupled to a larger gear, the speed can be increased with a reduction in torque.
Pump power is based on BHP = Hydraulic horse power + pump mechanical efficiency Absorbed power = BHP + electric motor eficiency in your case you dont need to account for power absorbed by pump shaft as it would include motor efficiency. your steam consumption will be based on following : normal operating = based on BHP of pump Maximum required = turbine rated power