A power system network as shown in Figure 1 comprises of synchronous generators, transformers, transmission lines and three loads. Using SB as 100 MVA and VB generator as 11 kV, determine the followings: 2 3 20 MVA, 132/22 kV X-15% Xline 1 32.52 40CMVA, 11/132 kV X-20% T3 Xline 2 20.8 2 T 40 MVA, 11/132 kV X-20% 20 MVA, 10MW +j20MVAR pf 0.83 lagging 35 MVA, pf 0.72 lagging Figure 1: A single line diagram (a) The single phase transformer, T3 has a shunt resistance of 360 Q and a shunt reactance of 290 2. A short circuit test performed on the high-voltage side of the transformer yielded the following data: Vsc = 450 V Isc= 125 A Psc = 46.4 kW %3D Given core loss is 55.6 kW, find the equivalent circuit referred to the low voltage side of this transformer and the efficiency when it is operating at full load for 0.70 power factor lagging.

A power system network as shown in Figure 1 comprises of synchronous generators, transformers, transmission lines and three loads. Using SB as 100 MVA and VB generator as 11 kV, determine the followings: 2 3 20 MVA, 132/22 kV X-15% Xline 1 32.52 40CMVA, 11/132 kV X-20% T3 Xline 2 20.8 2 T 40 MVA, 11/132 kV X-20% 20 MVA, 10MW +j20MVAR pf 0.83 lagging 35 MVA, pf 0.72 lagging Figure 1: A single line diagram (a) The single phase transformer, T3 has a shunt resistance of 360 Q and a shunt reactance of 290 2. A short circuit test performed on the high-voltage side of the transformer yielded the following data: Vsc = 450 V Isc= 125 A Psc = 46.4 kW %3D Given core loss is 55.6 kW, find the equivalent circuit referred to the low voltage side of this transformer and the efficiency when it is operating at full load for 0.70 power factor lagging.

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

Related questions

Q: 1. How do you measure three phase line currents by using two current transformers? Draw the…

A: The diagram for the three-phase system and the two current transformers are drawn below, Consider…

Q: b) A fault occurs at bus 2 of the network shown in Figure Q3. Pre-fault nodal voltages throughout…

Q: Please enter your answer in the blank's: Voltage at load bus, VLoad = ° p.u. Motor apparent power,…

A: One line diagram of a three phase system From circuit

Q: What is load line and what is duty cycle?

Q: L-type equivalent circuit and parameters for a continuous sinusoidal phase of a 5.5 kW, 1450 rpm,…

A: First we will calculate impedance ssen by the source and than we will find current from source in…

Q: The zero-sequence 3-6 transformer impedance of a is shown below. The connection of its winding are:…

A: Given a single line diagram:

Q: In single phase power factor meter there is error due to frequency and waveforms but not in three…

A: It is given that:Why there is an error due to frequency and waveforms in the single-phase power…

Q: The busbars of a gonerating station are divided into two soctions A and B by a busbar reactor rated…

A: Two bus bars A and B,connected through 8000KVA with 9% reactance.Two buses are connected to A and B…

Q: L-type equivalent circuit and parameters for a continuous sinusoidal phase of a 5.5 kW, 1450 rpm,…

A: According to the question we have to calculate how many times the inrush current will be the rated…

Q: H.W A 25 MVA, 13.8 KV synchronous generator with subtransient- reactance of 15% motors 10 MVA, 6.9…

Q: G1 Bus 1 Bus 2 Line Bus 3 T2 Bus4 M1 j402 25 MVA Ye A 13.0 kV Xg1 =10% зо мVA 13.4/69 kV 20 MVA…

Q: The _____________________ of transformers are neglected to draw the reactance diagram. a-Shunt…

A: This is based on the fill the blank The _____________________ of transformers are neglected to draw…

Q: the figure below to supply a balanced 3-phase, 150 KVA, 600 VLL load from primary 4.16 KVLL line.…

A: Please find your answer below in step 2

Q: The generator fault current in Ampere is:

A: Given that, Base Voltage (Vb)=13.8kV, Base MVA (Sb)=100 MVA, reactance of line (Z)=20 Ω, Three phase…

Q: Load duration curve Hours 0 500 2000 4500 6000 8760 Mw 50 Load 50 35 30 20 |15 there are two (2) -40…

A: Rating of each generator = 40 MW Energy = power X time Plant load factor = Actual energy generated…

Q: Consider the system shown in Figure 1. Assume the load voltage (VL) is 4720 V and the load…

A: Given circuit is,Load current?Primary and secondary voltages of ideal transformer.

Q: Q.3 Power Systems - Basics of Power Syst... A power system is represented by a single line diagram…

A: Power system- Generating rating = 40 MVA, 25 KV, XG=0.2 p.u. Transformer T1 rating=33/220 KV

Q: A three phase generator is operating at 1500rpm and has a no-load voltage of 7 kV. What would be the…

A: In this question, we need to choose the correct option.

Q: For the circuit shown, if a symmetrical three-phase fault occurs in node 2, determine a. The…

Q: Q1 (а) In Figure Q1(a), four identical 10 MVA, 11 kV, 50 Hz three-phase generators, A, B, C and D,…

Q: 4- With the increase of the winding of a d.c. generator, terminal voltage wil c) Remain same a)…

A: (4) With the increase of winding of a dc generator, the armeture resistance of winding also…

Q: In the single line diagram shown below, generators G₁ and G₂ have a leakage reactance of 0.26 per…

A: Given single line diagram, Ratings of the generator G1 and G2, 66.5 MVA11 kV0.26 pu

Q: 4- For the transformers operating in parallel prove the following: a- The circulating current…

A: Electrical machines can be either generator , motors or transformers. They can be either Ac machines…

Q: in a tie-bus arrangement as shown in figure. the reactances of the generators and reactors are 0.2…

A: We redraw the circuit on per phase per unit basis: In the circuit the fault point is connected to…

Q: The bases of the system are 66 kV and 20 MVA, the transformers will be treated as impedances in…

Q: ş DC (6 amps) 8 ohms 4 ohms 15 www 6 ohms 5 volts W 2 ohms 10 volts 12 www 1 ohm ·+|+ 15 volts www 3…

Q: .2 Three 20 MVA, 11/0.66 kV, 50 Hz, 3-phase transformers are connected together to supply a mining…

A: Ans:- Main Conditions before these three transformers are connected together:- 1) Phase sequence of…

Q: Assume that a 5 mile long feder is supplying a 2000 kVA load of increasing load density starting at…

A: It is given that: l=5 miS=2000 KVAK=0.00001 % VD/KVA.mi

Q: The reactance of a generator is given as 0.2 per unit based on the generator's nameplate rating of…

Q: Three single phase ideal transformers, each of rating 5kVA, 200V/400V, 50 Hz are available. The LV…

A: Delta connection: If three- single-phase winding is connected in such a way that one’s tale winding…

Q: System Model and Per Unit T1 Line T2 BE ji0/km BE 31.25miles 3C Impedance Load R1.jXi.-0.1+j0.5 p.u.…

A: The single line diagram is shown below: (a) The value of the base MVA and Base KV will be 30 and 13…

Q: T 2 (3 T₂ (4) Machine 1 FLY Machine 2 Krossy 147 YA For the three-phase power system with…

A: Step 1: Step 2: Step 3: Step 4:

Q: L-type equivalent circuit and parameters for a continuous sinusoidal phase of a 5.5 kW, 1420 rpm,…

A: The slip of the three-phase ASM is calculated as shown below: Ns=120fPP=4f=50…

Q: L-type equivalent circuit and parameters for a continuous sinusoidal phase of a 5.5 kW, 1420 rpm,…

Q: Two single phase transformers A and B with equal turns ratio have reactance of j3.2 and j19.2…

Q: A Single Area consists of 3 generating units (G1/G2/G3) with the following characteristics: G1: 425…

Q: A workshop from a 231/400 V transformer center with a 3-phase and four-conductor underground cable…

A: Transformer: It is a static device, which converts the electrical power from one circuit to another…

Q: QIA Generator operation dt 50 HZ, delivers 1-1 P-4: Power to an infinite busbar Throught a Network.…

Concept explainers

Load flow analysis

Load flow analysis is a study or numerical calculation of the power flow of power in steady-state conditions in any electrical system. It is used to determine the flow of power (real and reactive), voltage, or current in a system under any load conditions.

Nodal Matrix

The nodal matrix or simply known as admittance matrix, generally in engineering term it is called Y Matrix or Y bus, since it involve matrices so it is also referred as a n into n order matrix that represents a power system with n number of buses. It shows the buses' nodal admittance in a power system. The Y matrix is rather sparse in actual systems with thousands of buses. In the power system the transmission cables connect each bus to only a few other buses. Also the important data that one needs for have a power flow study is the Y Matrix.

Types of Buses

A bus is a type of system of communication that transfers data between the components inside a computer or between two or more computers. With multiple hardware connections, the earlier buses were parallel electrical wires but the term "bus" is now used for any type of physical arrangement which provides the same type of logical functions similar to the parallel electrical bus. Both parallel and bit connections are used by modern buses. They can be wired either electrical parallel or daisy chain topology or are connected by hubs which are switched same as in the case of Universal Serial Bus or USB.

Question

100%

A power system network as shown in Figure 1 comprises of synchronous generators,
transformers, transmission lines and three loads. Using SB as 100 MVA and VB generator as
11 kV, determine the followings:
2
3
20 MVA,
132/22 kV X-15%
1
4
Xline 1 = 32.5 2
40CMVA,
T3
G
11/132 kV X-20%
Xline 2 = 20.8 2
T
40 MVA,
11/132 kV X-20%
20 MVA,
pf 0.83 lagging
10MW + j20MVAR
35 MVA,
pf 0.72 lagging
Figure 1: A single line diagram
(a)
The single phase transformer, T3 has a shunt resistance of 360 2 and a shunt reactance
of 290 2. A short circuit test performed on the high-voltage side of the transformer
yielded the following data:
Vsc = 450 V
Isc = 125 A
Psc = 46.4 kW
Given core loss is 55.6 kW, find the equivalent circuit referred to the low voltage side
of this transformer and the efficiency when it is operating at full load for 0.70 power
factor lagging.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step 5

Trending now

This is a popular solution!

Step by step

Solved in 5 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Calculate new per unit reactance of T2. Generator G: 15 MVA, 13.8 kV, X = 0.15 p.u. %3D Motor M1: 5 MVA, 13.8 kV, X = 0.15 p.u. %3D Motor M2: 5 MVA, 14.4 kV, X = 0.15 p.u. T: 25 MVA, 13.2 - 161 kV, X %3D 0.1 р.u. T;: 15 MVA, 13.8 –. 161 kV, X = 0.1 p.u. Line: j100 N (actual) Select a base of 100 MVA and 161 kV in the transmission line. M) T G Line (M2) 0.67 pu O 6.67 pu О 0.33 pu 0.015 pu cede
Q2) Three shunt generators operate in parallel and supply a load current of 12000 A, connected across the bus-bars. Details of the generators are given below, Generator A Generator B Generator C = 450 V Raa = 0.02 N %3D EgB = 460 V Egc = 410 V RaB = 0.025 N %3! %3! Rac = 0.01 %3D a) Calculate the load voltage (bus bar voltage). b) Find the current supplied by each generator. c) Determine the output power (in KW) for each machine Neglect field current.
What do the connection angles and groups show in transformers? For example, where are the Yy0 , Dy5 ,Yd5, Yz5 group transformers used?
6. In figure below the rating of reactance and various components are shown. A load of 50MW at p.f. lagging is taking from the 33kv substation which is to be maintained at 30kv. Calculate the terminal voltage of the synchronous machine (Vs) in pu, also represent the line and transformer in series reactance. The system is three phase system V6 11 kV 132 kV 132 kV 33 kV 50 MW Line 0.8 p.f. lagging j1000 50 MVA X 10% 50 MVA X 12% 30 kV
There is a three-phase system such that the phase current in the generator, lines and charging phase is the same. The phase voltage in the generator must be 1000 [V] with clockwise sequence. The connected load must be such that the phase current in each load is 10 [A] and its power factor is 0.97 “lagging”. a) Determine phase currents in the generator, lines and phase in the load
In the following power system M ilio YA T₂ L47 YA 5 ΔΥ synchronous generators G₁,G₂ and synchronous motor M all have the same per-unit impedances Xo=0.05, X₁=X₂=0.7 The three transformers T₁, T₂, T3 are identical with X=0.1pu. Finally, the three transmission lines L47, L57, L67 are identical with per-unit impedances X₁=0.2, X₁=X₂=0.1 Pre-fault all voltages are 1 pu. Then the a phase at bus 6 faults to ground (through zero impedance). What is the magnitude of the per-unit fault current? उह 4 7 L 67 L 57 Y
6) By laminating the core, the Hysteresis losses can be reduced. Select one: True False
Solve it quickly please
Q3/ For the system shown in figure. The generator is supplying 1.0 pu MW power under prefault condition. When three-phase fault occur at point F. What should the value of fault reactance must be to make the critical clearing angle equal to 58.9. Sc j0.1 j0.1 10.21 BE j0.38 38 j0.21 IEgl-12 pu 10.19 F 10.19 IVI-1.00 pu j0.1 j0.1 Q4/ Figure below shows the one-line diagram
Power engineering book Mehta
L-type equivalent circuit and parameters for a continuous sinusoidal phase of a 5.5 kW, 1460 rpm, line voltage 220 V and frequency 50 Hz star-connected 3-phase ASM, ignoring core (iron) losses given as follows: R1=0.21 Ohm, R2=0.18 Ohm, X1=X2=0.66 Ohm and Xm=9.9 Ohm How many times the inrush current will be the rated current when the ASM is started directly? Answer options group 3.7473 5.2280 8.0815 7.1534 1.2558 4.3763 2.6455 6.3414