3.) A 2300-V, three-phase transmission line has an impedance of 4+j 2 per phase. If it supplies a load of 1 MVA at 0.75 power factor (lagging), find: (a) the complex power, (b) the power loss in the line, (c) the voltage at the sending end.

3.) A 2300-V, three-phase transmission line has an impedance of 4+j 2 per phase. If it supplies a load of 1 MVA at 0.75 power factor (lagging), find: (a) the complex power, (b) the power loss in the line, (c) the voltage at the sending end.

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 2.26P: A small manufacturing plant is located 2 km down a transmission line, which has a series reactance...

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Concept explainers

Short Transmission Line

A short transmission line is a transmission line that has a length less than 80 kilometers, an operating voltage level of less than 20 kV, and zero capacitance effect.

Power Flow Analysis

Power flow analysis is a topic in power engineering. It is the flow of electric power in a system. The power flow analysis is preliminary used for the various components of Alternating Current (AC) power, such as the voltage, current, real power, reactive power, and voltage angles under given load conditions and is often known as a load flow study or load flow analysis.

Complex Form

A power system is defined as the connection or network of the various components that convert the non-electrical energy into the electric form and supply the electric form of energy from the source to the load. The power system is an important parameter in power engineering and the electrical engineering profession. The powers in the power system are primarily categorized into two types- active power and reactive power.

Question

3.) A 2300-V, three-phase transmission line has an impedance of 4+j 2 per phase. If it supplies a load of 1
MVA at 0.75 power factor (lagging), find: (a) the complex power, (b) the power loss in the line, (c) the
voltage at the sending end.

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