Q2. a) Discuss why a star/delta or delta/star configuration of a three-phase transformer is optimal for a wide range of installations. b) Two three-phase transformers have the following secondary equivalent circuit parameters per phase where the values have been derived from your student number using the same method as in Question 1: Transformer 1: R1 = 0.04Χ Ω Transformer 2 Χ1 = 0.12Χ Ω R₂ = 0.05Y Χ2 = 0.14Υ Ω Calculate the current delivered by each transformer if the load draws a current of 200 A at a power factor of 0.8X lagging when connected in parallel. State any assumptions which you make.
Q2. a) Discuss why a star/delta or delta/star configuration of a three-phase transformer is optimal for a wide range of installations. b) Two three-phase transformers have the following secondary equivalent circuit parameters per phase where the values have been derived from your student number using the same method as in Question 1: Transformer 1: R1 = 0.04Χ Ω Transformer 2 Χ1 = 0.12Χ Ω R₂ = 0.05Y Χ2 = 0.14Υ Ω Calculate the current delivered by each transformer if the load draws a current of 200 A at a power factor of 0.8X lagging when connected in parallel. State any assumptions which you make.
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Q2.
a)
Discuss why a star/delta or delta/star configuration of a three-phase
transformer is optimal for a wide range of installations.
b) Two three-phase transformers have the following secondary equivalent circuit
parameters per phase where the values have been derived from your student
number using the same method as in Question 1:
Transformer 1:
R1 = 0.04Χ Ω
Transformer 2
Χ1 = 0.12Χ Ω
R₂ = 0.05Y
Χ2 = 0.14Υ Ω
Calculate the current delivered by each transformer if the load draws a current
of 200 A at a power factor of 0.8X lagging when connected in parallel. State
any assumptions which you make.
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