Q2. The synchronous motor of Problem Q1 is supplied from a 575-V source through a feeder with a reactive impedance of X, = 0.95 ohms. The generator is operating at rated speed and source voltage and at an output power of 40kW. Ignoring losses in the generator, calculate the magnitude and phase angle of the line-to neutral generated voltage Eaf, the field current If and the line-to-line generator terminal voltage Va if the generator is operating at (a) 0.9 power factor lagging, (b) unity power factor, and (c) 0.9 power factor leading as measured at the 575-V source. %3D

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I need to solve the question(Q2)
Q2. The synchronous motor of Problem Q1 is
supplied from a 575-V source through a feeder with
a reactive impedance of X, = 0.95 ohms. The
generator is operating at rated speed and source
voltage and at an output power of 40kW. Ignoring
losses in the generator, calculate the magnitude and
phase angle of the line-to neutral generated voltage
Eaf, the field current If and the line-to-line generator
terminal voltage Va if the generator is operating at
(a) 0.9 power factor lagging,
(b) unity power factor, and (c) 0.9 power factor
leading as measured at the 575-V source.
%3D
Q1. A 575 V, 50 kW, 60 Hz three phase
synchronous generator has a synchronous
reactance of Xs=4.652, and a armature to field
mutual inductance Laf 105 mH. The generator is
operating at rated speed, terminal voltage, and an
output power of 40 kW. Ignoring losses in the
generator, calculate the magnitude and phase angle
of the L-N generated voltage Eaf and the field
current I, if the generator is operating at
a. 0.9 pf lagging
b. Unity pf
c. 0.9 pf leading
Transcribed Image Text:I need to solve the question(Q2) Q2. The synchronous motor of Problem Q1 is supplied from a 575-V source through a feeder with a reactive impedance of X, = 0.95 ohms. The generator is operating at rated speed and source voltage and at an output power of 40kW. Ignoring losses in the generator, calculate the magnitude and phase angle of the line-to neutral generated voltage Eaf, the field current If and the line-to-line generator terminal voltage Va if the generator is operating at (a) 0.9 power factor lagging, (b) unity power factor, and (c) 0.9 power factor leading as measured at the 575-V source. %3D Q1. A 575 V, 50 kW, 60 Hz three phase synchronous generator has a synchronous reactance of Xs=4.652, and a armature to field mutual inductance Laf 105 mH. The generator is operating at rated speed, terminal voltage, and an output power of 40 kW. Ignoring losses in the generator, calculate the magnitude and phase angle of the L-N generated voltage Eaf and the field current I, if the generator is operating at a. 0.9 pf lagging b. Unity pf c. 0.9 pf leading
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