The particulars of the series compensated transmission line in figure shown below are V=220V, f=60 Hz, X=15Ω, and δ=60º. The degree of inductive compensation is r=30%. Find (a) the line current I, (b) the active power PP, and (c) the reactive power QP. The particulars of the series compensated transmission line in figure shown beloware V=220V, f=60 Hz, X=15N, and 8=60°. The degree of inductive compensation isr=30%. Find (a) the line current I, (b) the active power Pp, and (c) the reactive powerQp.Ideal series +compensator

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The particulars of the series compensated transmission line in figure shown below are V=220V, f=60 Hz, X=15Ω, and δ=60º. The degree of inductive compensation is r=30%. Find (a) the line current I, (b) the active power PP, and (c) the reactive power

The particulars of the series compensated transmission line in figure shown below are V=220V, f=60 Hz, X=15Ω, and δ=60º. The degree of inductive compensation is r=30%. Find (a) the line current I, (b) the active power PP, and (c) the reactive power

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.18P: Let a series RLC network be connected to a source voltage V, drawing a current I. (a) In terms of...

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Concept explainers

Compensation Techniques

The compensation techniques are the methods that are employed in the electrical control systems to enhance the performance of the system. The performance are generally affected by the factors like lag in the compensating devices, slow response of the system of the components like sensors used in the control system. The basic compensation technique involves lag compensation, lead compensation or the combination of the both.

Question

The particulars of the series compensated transmission line in figure shown below
are V=220V, f=60 Hz, X=15Ω, and δ=60º. The degree of inductive compensation is
r=30%. Find (a) the line current I, (b) the active power PP, and (c) the reactive power
QP.

The particulars of the series compensated transmission line in figure shown below
are V=220V, f=60 Hz, X=15N, and 8=60°. The degree of inductive compensation is
r=30%. Find (a) the line current I, (b) the active power Pp, and (c) the reactive power
Qp.
Ideal series +
compensator

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