There are only two generators in a power system, and these generators supply a total load of 10 MW. The no-load frequencics and droop constants for the generators are 51 Hz, 0.5Hz/MW, and 52 Hz, 1Hz/MW, respectively. What is the frequency of the combincd system? What are the powers produced by individual generators? At this loading condi- tion, if the generator 1 is delivered to produce equal amount of power as the generator 2, what should be the no-load frequency of the generator 1?
There are only two generators in a power system, and these generators supply a total load of 10 MW. The no-load frequencics and droop constants for the generators are 51 Hz, 0.5Hz/MW, and 52 Hz, 1Hz/MW, respectively. What is the frequency of the combincd system? What are the powers produced by individual generators? At this loading condi- tion, if the generator 1 is delivered to produce equal amount of power as the generator 2, what should be the no-load frequency of the generator 1?
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Author:Robert L. Boylestad
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Transcribed Image Text:There are only two generators in a power system, and these generators supply a total load
of 10 MW. The no-load frequencies and droop constants for the generators are 51 Hz,
0.5Hz/MW, and 52 Hz, 1Hz/MW, respectively. What is the frequency of the combined
system? What are the powers produced by individual generators? At this loading condi-
tion, if the generator 1 is delivered to producc equal amount of power as the generator 2,
what should be the no-load frequency of the generator 1?
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