Briefly describe how the virtually constant reactive power requirement of a three-phase squirrel-cage induction motor affects...

1, Explain the relation between reactive and real power in squirrel cage induction motor with load...

1, Explain the relation between reactive and real power in squirrel cage induction motor with load and with no load. ( just explain no need formulas) 2, in squirrel cage induction motor with load , what is the relation of Torque -speed curve , line current vs rated load and slip Vs rated load.

Consider a three-phase squirrel cage motor powered at 220 V / 60 Hz. It is known...

Consider a three-phase squirrel cage motor powered at 220 V / 60 Hz. It is known that at full load the power demanded from the network is 20,800 W, the line current is 64 A, and the speed is 830 rpm. The engine was designed to deliver a power of 25 HP. Calculate at full load: e) Output power f) The developed pair g) Efficiency

a three phase induction motor delivers %00 HP at the efficiency of 90% when the operating...

a three phase induction motor delivers %00 HP at the efficiency of 90% when the operating point of p.f is 0.8 lag. a loaded synchronous motor with power consumption of 120KW is connected in parallel with the induction motor. calculate the necessary and the operating power factor of the synchronous motor if the overall power factor is to be unity.

a squirrel cage induction machine is driving a 700 N load through a wheel with a...

a squirrel cage induction machine is driving a 700 N load through a wheel with a diameter of 0.5 m using the simplified gamma model and the machine parameters presented below calculate the followings: a) The speed of the machine, assuming a flux linkage of 0.703: b)Stator current phasor is: c)Active power, reactive power, apparent power, and power factor from the point of view of the source the parameters are: -line to line voltage 480 v - # poles 4...

A 480V, 60Hz, 50hp, three phase induction motor draws 60 amps at 0.85 power factor lagging....

A 480V, 60Hz, 50hp, three phase induction motor draws 60 amps at 0.85 power factor lagging. The stator copper losses are 2kW and the rotor copper losses are 700W. The friction and windage losses are 600W, the core losses are 1800W. (1) Determine the airgap power. (2) Determine the power converted into mechanical form. (3) Determine the net output power. (4) Determine the efficiency of the motor.

Q4) A three-phase, 104 kW, 3300 V, 50 Hz, Y-connected induction motor delivers full output power...

Q4) A three-phase, 104 kW, 3300 V, 50 Hz, Y-connected induction motor delivers full output power to a load connected to its shaft. The full-load slip is 0.02 and full-load power factor is 0.85 lagging. If the stator copper loss is 2400 W, the stator core loss is 3500 W, and the friction and windage loss is 1200 W. Calculate: (i) The developed mechanical power. (ii) The air gap power. (iii) The rotor copper loss. (iv) The efficiency of the...

A three-phase, 280 V, 60 Hz, 20 hp, 1710 r/m. Y-connected induction motor has the following...

A three-phase, 280 V, 60 Hz, 20 hp, 1710 r/m. Y-connected induction motor has the following impedances in ohms per phase referred to the stator circuit: R1=0.12 Ω.                Rˈ2=0.1 Ω X1=Xˈ2=0.25 Ω        Xm=10 Ω A total rotational loss are 400 W. The core loss is lumped in with the rotational losses. For a slip of 0.05 at the rated voltage and rated frequency. Find: a) The numbers of poles of the motor. b) The stator current. c) the power factor...

A 3-phase 440V line-to-line source drives a 18 horsepower motor at 80% efficiency and 80% power...

A 3-phase 440V line-to-line source drives a 18 horsepower motor at 80% efficiency and 80% power factor lagging. The 18 horsepower figure is the output mechanical power. Find the current, real power, and reactive power drawn by the motor. What would this problem look like to set up?

A three phase Wye-connected 460 v, 4 poles, 60 Hz wound rotor induction motor has the...

A three phase Wye-connected 460 v, 4 poles, 60 Hz wound rotor induction motor has the following parameters: R1=0.3, R2=0.15, X1=0.5, X2=0.2, Xm=14 The total friction, windage, and core loss is constant at 400 w. The motor is working at its rated voltage and drives its load at 1764 rpm. a)Calculate the input current and the input power. b)Calculate the output mechanical power and torque and motor efficiency. c)Calculate the starting current of this motor and compare it with its...

Suppose you have the same three-phase induction motor as the following conditions. It has conditions of...

Suppose you have the same three-phase induction motor as the following conditions. It has conditions of rated output=80]kW", rated voltage=[220V] and polarity=4 and is operated at slip s=0.05 with efficiency of 90%. In this case, determine primary input [kW], secondary efficiency [%], rotor input power [kW], and rotor copper loss [kW].