30. A three-phase synchronous machine is mechanically connected to a shunt dc machine, forming a motor-generator set, as

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30 A Three Phase Synchronous Machine Is Mechanically Connected To A Shunt Dc Machine Forming A Motor Generator Set As 1 (193.65 KiB) Viewed 41 times

30. A three-phase synchronous machine is mechanically connected to a shunt dc machine, forming a motor-generator set, as shown in Figure P8-11. The dc machine is connected to a dc power system supplying a constant 240 V, and the ac machine is connected to a 480-V 60-Hz infinite bus. MG set DC machine AC machine D с RA P 0 RE e AC power system (infinite bus) EN VI r LA y t e LE ol RF m VE The dc machine has four poles and is rated at 50 kW and 240 V. It has a per-unit armature resistance of 0.03. The ac machine has four poles and is Y-connected. It is rated at 50 kVA, 480 V, and 0.8 PF, and its saturated synchronous reactance is 3.0 22 per phase. All losses except the dc machine's armature resistance may be neglected in this problem. Assume that the magnetization curves of both machines are linear. (a) Initially, the ac machine is supplying 50 kVA at 0.8 PF lagging to the ac power system. 1. How much power is being supplied to the dc motor from the dc power system? 2. How large is the internal generated voltage EA of the dc machine? 3. How large is the internal generated voltage EA of the ac machine? (b) The field current in the ac machine is now increased by 5 percent. What effect does this change have on the real power supplied by the motor-generator set? On the reactive power supplied by the motor-generator set? Calculate the real and reactive power supplied or consumed by the ac machine under these conditions. Sketch the ac machine's phasor diagram before and after the change in field current.