A generator operating at 50 Hz delivers 1 pu power to an infinite busbar through a network with negligible resistance. The maximum transferrable power at pre-fault condition is 2.0 pu. a) Calculate the load angle before the fault occurred b) On the occurrence of fault, the power drops to 0.5 pu which reduces the maximum power transferrable to 0.4 pu. After the clearance of the fault the power rises to 1.5 pu. Calculate the following: i)load angle after the fault has been cleared ii)load angle critical clearing angle iii)area of acceleration iv)area of deceleration Comment on your answers to iv) and v)
A generator operating at 50 Hz delivers 1 pu power to an infinite busbar through a network with negligible resistance. The maximum transferrable power at pre-fault condition is 2.0 pu. a) Calculate the load angle before the fault occurred b) On the occurrence of fault, the power drops to 0.5 pu which reduces the maximum power transferrable to 0.4 pu. After the clearance of the fault the power rises to 1.5 pu. Calculate the following: i)load angle after the fault has been cleared ii)load angle critical clearing angle iii)area of acceleration iv)area of deceleration Comment on your answers to iv) and v)
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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A generator operating at 50 Hz delivers 1 pu power to an infinite busbar
through a network with negligible resistance. The maximum transferrable
power at pre-fault condition is 2.0 pu.
a) Calculate the load angle before the fault occurred
b) On the occurrence of fault, the power drops to 0.5 pu which reduces the
maximum power transferrable to 0.4 pu. After the clearance of the fault
the power rises to 1.5 pu. Calculate the following:
i)load angle after the fault has been cleared
ii)load angle critical clearing angle
iii)area of acceleration
iv)area of deceleration
Comment on your answers to iv) and v)
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