Description In the particular case of figure below derive both the critical clearing angle and the critical clearing time. P P. = Pmaz sin 8 Pm do der Smas A generator having H = 6.R MJ/MVA is delivering power of 1.0 per unit to an infinite bus through a purely reactive network when the occurrence of a fault reduces the generator output power to zero. The maximum power that could be delivered is 2.5S per unit. When the fault is cleared, the original network conditions again exist. Determine the critical clearing angle and critical clearing time. (Roll=PQRS)

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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In the particular case of figure below derive both the critical clearing angle and
the critical clearing time.
P, = Pmaz sin d
Pm
A1
do
der
Smar
A generator having H = 6.R MJ/MVA is delivering power of 1.0 per unit to an
infinite bus through a purely reactive network when the occurrence of a fault
reduces the generator output power to zero. The maximum power that could be
delivered is 2.5S per unit. When the fault is cleared, the original network
conditions again exist. Determine the critical clearing angle and critical clearing
time. (Roll=PQRS)
Transcribed Image Text:Description In the particular case of figure below derive both the critical clearing angle and the critical clearing time. P, = Pmaz sin d Pm A1 do der Smar A generator having H = 6.R MJ/MVA is delivering power of 1.0 per unit to an infinite bus through a purely reactive network when the occurrence of a fault reduces the generator output power to zero. The maximum power that could be delivered is 2.5S per unit. When the fault is cleared, the original network conditions again exist. Determine the critical clearing angle and critical clearing time. (Roll=PQRS)
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