Score 5. Figure 2 represents for three sets of sequence components. (a) Fill in the brackets in Figure 2 with "0", "1" and "2" to determine zero-sequence, positive-sequence or negative-sequence currents separately. (b) Describe the distinguishing feature of zero-sequence, positive-sequence or negative-sequence components separately. (10¹) IBO Ic() IAO ICO IBO IAO Figure 2 three sets of sequence component IÃO IBO Ico

Subject:POWER SYSTEM ANALYSIS
AND DESIGN
I want to know many details of these 4 Questions Answer. And the teacher who will do these questions and answers for me must explain part by part. If you send me the answers after five hours, there is no problem, but the handwriting must be clear. please do all the question, i need all the question please . Thank you in advance,

Transcribed Image Text:

Score 5. Figure 2 represents for three sets of sequence components. (a) Fill in the brackets in Figure 2 with "0", “1” and “2” to determine zero-sequence, positive-sequence or negative-sequence currents separately. (b) Describe the distinguishing feature of zero-sequence, positive-sequence or negative-sequence components separately. (10') IBO) Ic() IAO IBO) -ICO ICO IBO IAO Figure 2 three sets of sequence component IÃO

Transcribed Image Text:

Score 3. A 500-MVA 18-kV, 50-Hz synchronous generator with reactances X = 0.15, X = 0.24, X = 1.1 per unit and time constants T=0.035, T = 2.0, T₁ = 0.20s is connected to a circuit breaker. The generator is operating at 5% above rated voltage and at no-load when a bolted three-phase short circuit occurs on the load side of the breaker. The breaker interrupts the fault 4 cycles after fault inception. (a)write definitions of X, X₁, X" (b) determine the subtransient fault current in per-unit and kA rms; (c) determine maximum dc offset as a function of time. (10')