For Figure 1: A short 3-phase line with an impedance of (6+j8) per line has sending end and receiving end line voltages of 120 and 110 kV, respectively. If the power factor at this loading is 0.90 lagging, determine (a) the current delivered to the load, (b) the power consumed by the balanced 3-phase load in kW, and (c) the voltage regulation of the system. (hint: Voltage at the sending and receiving have some magnitude but different angles.)
For Figure 1: A short 3-phase line with an impedance of (6+j8) per line has sending end and receiving end line voltages of 120 and 110 kV, respectively. If the power factor at this loading is 0.90 lagging, determine (a) the current delivered to the load, (b) the power consumed by the balanced 3-phase load in kW, and (c) the voltage regulation of the system. (hint: Voltage at the sending and receiving have some magnitude but different angles.)
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 2.15MCQ
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For Figure 1: A short 3-phase line with an impedance of (6+j8) per line has sending end and receiving end line voltages of 120 and 110 kV, respectively. If the power factor at this loading is 0.90 lagging, determine
(a) the current delivered to the load,
(b) the power consumed by the balanced 3-phase load in kW, and
(c) the voltage regulation of the system. (hint: Voltage at the sending and receiving have some magnitude but different angles.)
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