... (Time)Frommidnight toFrom3 a.m toA generation station of 500 kw supply a two regions A & B .The linelosses are neglected. And the load variation of these regions is as follow.Region AFromFrom10 a.m toFrom5 p.m toLoad (kw)Region B(Time)3 a.m90From10 a.m30From5 p.m100From.9 pp.m60From9 p.m tomidnight120Frommidnight to6 a.m to9 a.m toLoad (kw)6 a.m409 a.m904 p.m130 /4 p.m to7 p.m7 p.m tomidnight80501-Plot The daily load duration curve of the total system.2-Find the load factor, diversity factor,plant user factor and maximumactual generation by the station in kwh in the day for the total system.

Step 1: Given load profile of a 500 kW capacity generating station. But the time divisions are not…

Answered: ... (Time) From midnight to From 3 a.m…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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A generating station has a maximum capacity of 100 kW and costs $300,000. The annual fixed charges are 12% of the cost of the generating station consisting of 5% interest, 5% depreciation and 2% taxes. Find the fixed charges per kWh generated if load factor is (a) 100% and (b) 25%.
The voltage regulation of an alternator having 0.75 leading p.f. load, no-load induced e.m.f. of 2400V and rated terminal voltage of 3000V is............... percent. *
If the voltage and current supplied to a circuit orload by a source are˜VS = 170∠(−0.157) V ˜IS = 13∠0.28 Adeterminea. The power supplied by the source which isdissipated as heat or work in the circuit (load).b. The power stored in reactive components in thecircuit (load).c. The power factor angle and power factor.
A series circuit consisting of a resistor that dissipates 640watts, a coil and an ideal capacitor is connected across a 220volts, 60Hz power supply. The current drawn by the load is 8 amperes. The voltage across the coil is 150 volts and its power factor is 0.8 lagging. Determine: a. the resistance of the resistor (10 Ohms)b. the resistance and the inductance of the coil ( 15 Ohms, 29.8416 mH)c. the voltage across the capacitor (181.6515 V)d. the capacitance of the capacitor (116.8207 μF)
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1. (a) A sinusoidal voltage with Veff = 10V is connected across Z₁ = 1 + jas shown in figure(a) below. Find i₁, leff, p₁(t), P₁, Q₁, power factor pf₁, and S1. (b) Repeat part (a) replacing the load Z₁ in (a) by Z₂ = 1-j as shown in figure (b) below. (c) Repeat part (a) after connecting in parallel Z₁ and Z₂ as shown in figure (c). Let v = 10√2cos wt. V= 10 V V= 10 V Z 10 V won 4½ mit T 4½ (a) (b) (c) S₁ 1 P₁ 3 $₂ 45° P₂ 45° P₁ S=P = P₁ + P₂ P₂ 2₂
1. (a) A sinusoidal voltage with Veff = 10V is connected across Z₁ = 1 + jas shown in figure(a) below. Find i₁, leff, p₁(t), P₁, Q₁, power factor pf₁, and S1. (b) Repeat part (a) replacing the load Z₁ in (a) by Z₂ = 1-j as shown in figure (b) below. (c) Repeat part (a) after connecting in parallel Z₁ and Z₂ as shown in figure (c). Let v = 10√2cos wt. V= 10 V V= 10 V Z 10 V wing Emit T 4½ 44 (a) (b) (c) S₁ 1 P₁ 3 $₂ 45° P₂ 45° P₁ S=P = P₁ + P₂ P₂ 2₂ 2. A certain passive network has equivalent impedance Z= 3 + j402 and an applied voltage v(t) = 42.5 cos (1000t +30°) V. Give complete power information. (a) Apparent power, S (b) Real Power, P (c) Reactive Power, Q (d) power factor, p.f.
What is the load factor? What happens when load factor = 1?
Q4. The source current in the circuit shown is in Figure 3a) What impedance should be connected across terminals a,b for maximum average powertransfer?b) What is the average power transferred to the impedance in (a)?c) Assume that the load is restricted to pure resistance. What size resistor connected across a,bwill result in the maximum average power transferred?d) What is the average power transferred to the resistor in (c)?v
Fundamentals Of Energy Systems HW 6 Q5

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