PART B:- AC CIRCUIT ANALYSIS The loads, connected in parallel, taken from a 230 V, f= 50 Hz AC supply consists of Load 1: a heating load of 15 kW Load 2: a motor load of 40 kVA at 0.6 power factor lagging Load 3: a load of 20 kW at 0.8 power factor lagging If each load has a separate switch resulting in the following operating conditions I. load 1 OFF, load 2 OFF, Load 3 OFF II. load 1 OFF, load 2 OFF, Load 3 ON III, load 1 OFF, load 2 ON, Load 3 OFF IV. load 1 OFF, load 2 ON, Load 3 ON V. load 1 ON, load 2 OFF, Load 3 OFF VI, load 1 ON, load 2 OFF, Load 3 ON VII. load 1 ON, load 2 ON, Load 3 OFF VIII. load 1 ON, load 2 ON, Load 3 ON For each condition, determine a) draw the circuit diagram. b) the combined loading and the overall power factor. c) the supply and load currents. Draw the phasor diagram. d) the capacitor current, capacitance, KVAr rating of the capacitor bank to correct the power factor to unity. Draw the circuit diagram and phasor diagram. Show the circuit diagram of how you would implement the system with the capacitors and load switches.

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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PART B:- AC CIRCUIT ANALYSIS
The loads, connected in parallel, taken from a 230 V, f= 50 Hz AC supply consists of
Load 1: a heating load of 15 kW
Load 2: a motor load of 40 kVA at 0.6 power factor lagging
Load 3: a load of 20 kW at 0.8 power factor lagging
If each load has a separate switch resulting in the following operating conditions
I. load 1 OFF, load 2 OFF, Load 3 OFF
II. load 1 OFF, load 2 OFF, Load 3 ON
III, load 1 OFF, load 2 ON, Load 3 OFF
IV. load 1 OFF, load 2 ON, Load 3 ON
V. load 1 ON, load 2 OFF, Load 3 OFF
VI, load 1 ON, load 2 OFF, Load 3 ON
VII. load 1 ON, load 2 ON, Load 3 OFF
VIII. load 1 ON, load 2 ON, Load 3 ON
For each condition, determine
a) draw the circuit diagram.
b) the combined loading and the overall power factor.
c) the supply and load currents. Draw the phasor diagram.
d) the capacitor current, capacitance, KVAr rating of the capacitor bank to correct the power factor
to unity. Draw the circuit diagram and phasor diagram.
Show the circuit diagram of how you would implement the system with the capacitors and load
switches.
Transcribed Image Text:PART B:- AC CIRCUIT ANALYSIS The loads, connected in parallel, taken from a 230 V, f= 50 Hz AC supply consists of Load 1: a heating load of 15 kW Load 2: a motor load of 40 kVA at 0.6 power factor lagging Load 3: a load of 20 kW at 0.8 power factor lagging If each load has a separate switch resulting in the following operating conditions I. load 1 OFF, load 2 OFF, Load 3 OFF II. load 1 OFF, load 2 OFF, Load 3 ON III, load 1 OFF, load 2 ON, Load 3 OFF IV. load 1 OFF, load 2 ON, Load 3 ON V. load 1 ON, load 2 OFF, Load 3 OFF VI, load 1 ON, load 2 OFF, Load 3 ON VII. load 1 ON, load 2 ON, Load 3 OFF VIII. load 1 ON, load 2 ON, Load 3 ON For each condition, determine a) draw the circuit diagram. b) the combined loading and the overall power factor. c) the supply and load currents. Draw the phasor diagram. d) the capacitor current, capacitance, KVAr rating of the capacitor bank to correct the power factor to unity. Draw the circuit diagram and phasor diagram. Show the circuit diagram of how you would implement the system with the capacitors and load switches.
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