Only three iteration using Gauss-Seidel Method in part 2. Please show complete process. Consider the power system given below: A в D 5MW pf=0.9 lagging Zn=10+j100 13.2kV 5MVA 13.2A-132YKV 10MVA 138A-69YKV X,=10% Xz=8% 1) Assume the generator voltage is set at 10% above its rated value, and the load connected to bus D is equal to 5 MW at a pf of 0.9 lagging. Compute the per-unit model for the above system. 2) Compute the load voltage (Bus D). 3) Compute the active and reactive power supplied by Bus A. 4) Compute the active and reactive losses. Note: Use Base 10MVA, 66 KV at load. Only three iteration using Gauss-Seidel Method in part #2.

Only three iteration using Gauss-Seidel Method in part 2. Please show complete process. Consider the power system given below: A в D 5MW pf=0.9 lagging Zn=10+j100 13.2kV 5MVA 13.2A-132YKV 10MVA 138A-69YKV X,=10% Xz=8% 1) Assume the generator voltage is set at 10% above its rated value, and the load connected to bus D is equal to 5 MW at a pf of 0.9 lagging. Compute the per-unit model for the above system. 2) Compute the load voltage (Bus D). 3) Compute the active and reactive power supplied by Bus A. 4) Compute the active and reactive losses. Note: Use Base 10MVA, 66 KV at load. Only three iteration using Gauss-Seidel Method in part #2.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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$ C₁ = [0.05P² + 20P₂ + 30] hr C₂ = [0.056P2 + 15P₂ + 40] hr Here P₁ and P₂ are in MW. Each generated is rated for 210 MW and load is 400 MW. Determine (i) the values of P₁ and P₂ when the load sharing is most economic and (ii) increase in operation cost for generator 1 when load is shared equally.
a syn A: A sylienfonotus generator of 100 MVA, 22 kV, and 0.25 pu transient reactance supplies a motor of 50 MVA, 22 kV, and 0.2 pu transient reactance. The motor is drawing 40 MW at 0.8 power factor leading and terminal voltage of 21.9 kV. The line connecting them has a reactance of 0.05 pu on a base of 100 MVA. Find the transient currents in the generator, the motor, and the fault when a 3-ph fault occurs at the motor terminals. Take SB = 100 MVA, VB = 22 kV, and use the internal voltages %3D %3D of the machines method.
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