value of x = 0.4, value of y = 0.5 c)The electricity network data provided in Figure Q3 is to be used for a loadflow study.Bus 1V=1 p.u.Slack Busjo.05 p.u.j(x) p.u.Last digit of your student number0, 3, 61,4,7Bus 2j0.025 p.u.(0.8 + j0.6) p.u.Bus 3P= Y p.u.|VI=1.02 p.u.Figure. Q3The line reactance X between Bus 1 and Bus 3 and the real power output Y ofthe generator connected at Bus 3 is given in the table below.Value of XValue of Y0.20.60.40.52,58,90.10.8Note that the values for X and Y to be used in the calculation depend on the last digitof your student number.Bus 1 is to be used as the Slack bus and Bus 3 is a generator bus.(i)Derive the bus admittance matrix(ii)Determine the voltage at Bus 2 after the first iteration of a GaussSeidel load flow solution.(iii) Determine the estimated reactive power injection at Bus 3 and voltageat Bus 3 after the first iteration of Gauss-Seidel load flow.

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Answered: Bus 1 V=1 p.u. Slack Bus j0.05 p.u.…

Engineering

Electrical Engineering

Bus 1 V=1 p.u. Slack Bus j0.05 p.u. j(x) p.u. Bus 2 jo.025 p.u. (0.8 + j0.6) p.u. Bus 3 P= Y p.u. |VI=1.02 p.u.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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Question

value of x = 0.4, value of y = 0.5

c)
The electricity network data provided in Figure Q3 is to be used for a load
flow study.
Bus 1
V=1 p.u.
Slack Bus
jo.05 p.u.
j(x) p.u.
Last digit of your student number
0, 3, 6
1,4,7
Bus 2
j0.025 p.u.
(0.8 + j0.6) p.u.
Bus 3
P= Y p.u.
|VI=1.02 p.u.
Figure. Q3
The line reactance X between Bus 1 and Bus 3 and the real power output Y of
the generator connected at Bus 3 is given in the table below.
Value of X
Value of Y
0.2
0.6
0.4
0.5
2,58,9
0.1
0.8
Note that the values for X and Y to be used in the calculation depend on the last digit
of your student number.
Bus 1 is to be used as the Slack bus and Bus 3 is a generator bus.
(i)
Derive the bus admittance matrix
(ii)
Determine the voltage at Bus 2 after the first iteration of a Gauss
Seidel load flow solution.
(iii) Determine the estimated reactive power injection at Bus 3 and voltage
at Bus 3 after the first iteration of Gauss-Seidel load flow.

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