In a three-phase system, the apparent power of a consumer is 700 kVA with a power factor 0.7, lagging (inductive). For the consumer not to a pay reactive power consumption fee, what should be the value of reactive power supplied by the capacitors connected in parallel with the load? If the nominal voltage is 400V, calculate the capacitance value when the capacitors are connected in delta.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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In a three-phase system, the apparent power of a consumer is 700 kVA with a power factor
0.7, lagging (inductive). For the consumer not to a pay reactive power consumption fee,
what should be the value of reactive power supplied by the capacitors connected in parallel
with the load? If the nominal voltage is 400V, calculate the capacitance value when the
capacitors are connected in delta.
Transcribed Image Text:In a three-phase system, the apparent power of a consumer is 700 kVA with a power factor 0.7, lagging (inductive). For the consumer not to a pay reactive power consumption fee, what should be the value of reactive power supplied by the capacitors connected in parallel with the load? If the nominal voltage is 400V, calculate the capacitance value when the capacitors are connected in delta.
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