3.15. The three-phase power and line-line ratings of the electric power systemshown in Figure 3.34 are given below.ΤV₂OBEG1FIGURE 3.34One-line diagram for Problem 3.15G₁: 60 MVAT₁:50 MVA50 MVAT2:M: 43.2 MVALine:Line20 kV20/200 kV200/20 kV18 KV200 kV2X = 9%X = 10%X = 10%X = 8%Z= 120+ j200T238VmM(a) Draw an impedance diagram showing all impedances in per-unit on a100-MVA base. Choose 20 kV as the voltage base for generator. (b) The motor is drawing 45 MVA, 0.80 power factor lagging at a line-to-lineterminal voltage of 18 kV. Determine the terminal voltage and the internalemf of the generator in per-unit and in kV.

Given: Three Phase Power & Line-Line rating of electrical Power system

3.15. The three-phase power and line-line ratings of the electric power system shown in Figure 3.34 are given below. Τ OBE G FIGURE 3.34 One-line diagram for Problem 3.15 G₁: 60 MVA T₁: 50 MVA T2: 50 MVA M: 43.2 MVA Line: Line 20 kV 20/200 kV 200/20 kV 18 kV 200 kV X = 9% X = 10% X = 10% 2 X = 8% Z = 120+ j200 T₂ Vm M (a) Draw an impedance diagram showing all impedances in per-unit on a 100-MVA base. Choose 20 kV as the voltage base for generator.

3.15. The three-phase power and line-line ratings of the electric power system shown in Figure 3.34 are given below. Τ OBE G FIGURE 3.34 One-line diagram for Problem 3.15 G₁: 60 MVA T₁: 50 MVA T2: 50 MVA M: 43.2 MVA Line: Line 20 kV 20/200 kV 200/20 kV 18 kV 200 kV X = 9% X = 10% X = 10% 2 X = 8% Z = 120+ j200 T₂ Vm M (a) Draw an impedance diagram showing all impedances in per-unit on a 100-MVA base. Choose 20 kV as the voltage base for generator.

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...

See similar textbooks

Similar questions

Describe the concept of three-phase power in electrical systems and its significance in power distribution.
For the system as shown in the following figure, convert the components to same base voltage and apparent power, by choosing 100 kVA as the base kVA and 2000 V as the base voltage for the generators. Redraw the single line diagram with the new per unit values. 15 KVA 2000 V Z=j0.3 pu 25 KVA 2000 V Z=j0.15 pu G1 G2 35 KVA 2000/8000 V Z=j0.2 pu Z=30+j100 Z=60+j120 pu O pu leee 35 KVA 8000/2000 V Z=j0.3 pu 35 kVA 2000/8000 V Z=j0.25 pu G3 10 KVA 2000V Z=j0.35 pu M 30 KVA 2000 V
In a 3-phase Overhead System, each line is suspended by a string of 3 Insulators. The voltage across the top unit and middle unit are 10KV and 11KV respectively. Calculate (i) Ratio of Shunt Capacitance to Self-Capacitance of each insulator and (ii) String Efficiency
thats it
Overhead lines.
Power engineering book Mehta
A Three-phase transposed line is composed of one conductor per phase with flat horizontal spacing of D-14 meters, as shown in the below figure. The conductors have a diameter of 2.6 cm and a GMR of 1.012 cm. Find the capacitance per phase per kilometer of the line a D D 2D Select one: a 0.0088 microF/Km Ob. 0.0077 microF/Km Oc1455 microF/Km Od. None of these
What are microgrids, and how do they differ from traditional power distribution systems? Discuss their benefits and challenges.
Q1. For the system shown in Figure Q1, draw an impedance diagram in per unit, by choosing 100 kVA to be the base kVA and 2400 V as the base voltage for the generators. 10 KVA 2400 V G₁ Z=j0.2pu 20 KVA 2400 V Z=j0.2pu G₂ T₁ Transmission Line Z= (50+j200) 40 KVA 2400/9600 V Z=j0.1pu Fig Q1 T₂ 80 KVA 10/5 kV Z=j0.1pu M 25 KVA 4 kV
The simultaneous equations representing the currents flowing in an unbalanced, three-phase, star connected, electrical network are as follows: 2.4I1 + 3.6I2 + 4.8I3 = 1.2 −3.9I1 + 1.3I2 − 6.5I3 = 2.6 1.7I1 + 11.9I2 + 8.5I3 = 0 Using Gaussian elimination, solve the equations for the currents.
3. A circuit consists of two impedances. Z1 =20230° and Z2 =25260° 2, in parallel, supplied by a source voltage V=1002600 volts. Determine the power triangle for each of the impedances and for the source.
A three-phase transmission line and a telephone line are supported on the same towers a shown in the figure. The power line carries a 60-Hz balanced current of 200-A per phase . the telephone line is located directly below phase b. assuming balanced three-phase currents in the power line, find the voltage per kilometer induced in the telephone line. 3.6 m 3.6 m Dal Da2 Del De 4 m 11.2 m-