4. For the two bus power system shown below, use the Newton-Raphson power flow to determine the voltage magnitude and angle at bus two. Assume that bus one is the slack and S-100 MVA. Base One Line Z = 0.1j 1.000 pu 0 MW 0 MVR Two 1.000 pu 200 MW 100 MVR

4. For the two bus power system shown below, use the Newton-Raphson power flow to determine the voltage magnitude and angle at bus two. Assume that bus one is the slack and S-100 MVA. Base One Line Z = 0.1j 1.000 pu 0 MW 0 MVR Two 1.000 pu 200 MW 100 MVR

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: 12 e12 R8 R4 -X cs 13 e13 Figure 2140

Q: For a system consist from 3 buses and bus 1 is the slack bus. The data of the system are:- 0.25 Ybus…

A: In this question we need to find a voltage of bus 3 after two iteration

Q: Q3) For the network shown in figure, carry out iterations of Gauss-Seidel method till the error…

A: Solution- The given network figure is shown below, The admittance matrix for the figure is given…

Q: Determine the modified bus admittance matrix by eliminating node 4 for the following one-line…

A: The one-line diagram is shown below,

Q: Please answer this diligently. Other answers in the internet seems wrong. Please help me understand…

Q: 3 j1.25 (4) j0.2 j0.4 (3) 2 j1.0.25 Reference j0.25 (2) 1 j1.25 (1)

Q: Why are resistors and inductors considered to be series impedance and capacitors considered as shunt…

A: The performance of transmission line depends on the parameters of the line. The transmission line…

Q: Draw convergent and divergent positive characteristic lines on an x-t plane. Indicating the time and…

A: The objective is to draw the convergent and divergent positive characteristic lines on an x-t plane…

Q: Two 30 22 parallel transmission lines supply a motor and a static load as shown in the figure.…

Q: Q1: For a medium line model, draw the circle diagram only and put the value of OR, OS and 0t If you…

A: Three-Phase Line: Three-phase alternating current is a popular form of alternating current used in…

Q: raw the single line diagram and form the Yus matrix for the data ven below. All the admittance…

A: Single line diagram if the admittance of the diagram is given. Admittance matrix of the given in…

Q: The single-line diagram of a subtransmision system is presented in the figure below. At point B a…

A: Three phase fault is the symmetrical fault and it is the most severe fault.

Q: ば 52+GS+13

A: In the question Find the Inverse laplace transform of the given function. We know cos(at)…

Q: The characteristic impedances and lengths of the line sections are indicated in the figure below.…

Q: j0.2 (5) lll 4 j0.125 (6) lell j0.25 (2) lelll j0.4 (3) j1.25 (1) j1.25 (4) Reference Determine Z…

Q: By using Gauss-Siedal method, the voltage of the bus 2 after two iteration is Your answer By using…

A: Given,The data of a system are,Ybus=j0.25-0.2-0.05-0.20.225-0.025-0.05-0.0250.075…

Q: b. Formulate the admittance matrix for this system. yı2= -j5 Pp.Qr y12b= -j5 Pai.Qai yı= -j1 y2= jl'

A: According to question: b)…

Q: A power system consists of 4 buses as shown in Figure Q1. Generators are connected at buses 1 and 3…

A: In a power system, Bus Admittance Matrix represents the nodal admittances of the various buses. With…

Q: Q2) The two control areas are interconnected through a tie-line. The parameters of each area based…

A: Two different areas are connected through tie line, to support one another to maintain constant…

Q: JOK A: For a medium line model, draw the circle diagram only and put the value of you know that the…

A: Load power factor cosθR=0.85 Sending end power factor cosθS=0.83 Torque angle δ = 240

Q: Problem 2.. Determine the 3×3 bus admittance matrix Yous for the 3-bus circuit in the figure below.…

A: Given circuit diagram, YBUS =?

Q: The separately-excited generator provides its own ______________ from the generated output voltage.

Q: Draw the single line diagram and determine the Y bus matrix for the given data. All admittances are…

A: In this question we need to draw a single line diagram and find Y bus matrix of the given system

Q: Power flow analysis using Newton-Raphson method occupies memory of the computer. O Limited O Less O…

A: Newton - Raphson method is used to solve load flow problems. It uses Tailor's series and partial…

Q: 10-The main use of delta -star connection is to step up the voltage i.e. at the beginning of low…

A: As per the guidelines given, We can only provide the solution of the first three questions in…

Q: At the end of the 8 km overhead line given in the figure below, there are two distribution…

A: According to question: The currents 'I1' and 'I2' in the distribution transformer is calculated as

Q: VI) For the circuit shown, answer the questions from 15-19. The load Zt = 8+j6 ohms, and the source…

Q: Consider a 3-bus system of the reactive network in Figure below where bus-bar 1 is slack. Use…

A: The objective of the question is to determine the voltage at bus 2 and bus 3 using the Gauss-Seidel…

Q: Draw the single line diagram and form the Ypus matrix for the data given below . All the admittance…

A: The given data consists of 4 buses. The single line diagram for the data is

Q: The Gauss-Seidel is an iterative method used to solve a set of nonlinear equations in the power…

A: Gauss-Seidel method is used to solve the power flow analysis question in the power system. In two…

Q: Example 1: Using gaussian elemination , solve the nodal equation bellow to find the bus voltages. At…

A: Gauss elimination technique is also known as row reduction technique This technique is used to…

Q: Take a look at the attached screenshot. Then, write down in words you guess as to what would happen…

A: According to the question, we need to discuss the given image as shown below,Note: In the given…

Q: Impedance matching is provided at D = 0.074? and L = 0.094? values for an unknown load using the end…

Q: Q1/ for the system shown in figure V12 = -j40 400 MW V23 -j20 |V2 1.05 Y13 -j20 Slack Bus V = 1.020°…

A: Given bus system: So, y12=-j40y13=-j20y23=-j20 To find: Find load flow solution Using the…

Q: Take a look at the attached screenshot. Then, write down in words you guess as to what would happen…

A: According to the question, we need to discuss the given image as shown below, Note: In the given…

Q: Establish Zbus matrix for the system shown in figure below using Direct Method and add the lines…

A: According to the data given in the question. Z1=j0.1Z2=j0.1Z3=j0.4Z4=j0.6Z5=j0.4 It is given that…

Q: VII. PROBLEMS : 1. The IR drop in the line due to the reactive current is one disadvantage of low…

A: In this question we will write why low power factor load is undesirable...

Q: Ideally, a dc load line is a straight line drawn on collector characteristic curves between which of…

A: The DC Load Line of BJT Biasing Circuit is a straight line drawn on the transistor output…

Q: For the system shown in figure obtain the positive sequence, negative sequence and zero sequence bus…

Q: [j0.11565 j0.045807 Ljo.04580 j0.13893 between buses 1 and 2, what is the new Zpus? A two-bus system…

A: A power station is to provide electricity to a huge number of people. Different customer’s power…

Q: following figure shows the one-line diagram of a power system. Bus 1 is selected as a reference bus…

A: Solution- Given, V1 = 1 + j(0) Z = 0.02+ j0.04 p.u. S2 = 280 MW + j60 Mvar

Q: The load flow data for the sample power system are given below. The voltage magnitude at bus 2 is to…

A: The first step in the Newton-Raphson method is to calculate the admittance matrix. The admittance is…

Q: What are the basics of transmission lines? What is characteristic impedance? How can we derive the…

A: Given: Transmission line and its characteristics

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

4. For the two bus power system shown below, use the Newton-Raphson power flow to
determine the voltage magnitude and angle at bus two. Assume that bus one is the slack and
S = 100 MVA.
Base
One
Line Z = 0.1j
1.000 pu
0 MW
0 MVR
Two
1.000 pu
200 MW
100 MVR

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: Introduction

VIEW

Step 2: Voltage magnitude and phase angle of bus 2 by N-R method

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps

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

What do you understand by means of power system? A 3-p, 50 Hz transmission [ line is 120 km long. It has a per phase series impedance of 0.05+j0.45 2 per km and a per phase shunt admittance of j3.4*10-6 S per km. It delivers 200 MW load at 220 kV with 80% power factor lagging. Find the voltage regulation and transmission efficiency.
√(Vicosc + Ja Ra ) ² + (V sind + Jaxs) X= Sin! IXS (osd +IRSingl Eo £o = Eo = (V cose + IRI² + (V since - IKCJ X = Sin¹ = Ixs cose. Eo - IRSIN Hello my friend, to find the load angle can these be the laws? in synchronous generator? If the laws are not valid by law
Shown are two buses connected via a transmission line. Connected to Bus 1 is a generator(modelled as a voltage source V1), and to Bus 2 is a generator( with Voltage V2) and a load. The line impedance Z = R + jX is not known. Three-phase load is forecasted as 100MW + 60MVar. Generator at Bus 2 is scheduled to deliver 40MW and its excitation is adjusted for the machine to deliver 55 MVar. Voltage at Bus 1 is 241 KV angle 10 deg, while voltage at bus is 230 kV; use V2 as the reference for all angles. 1. What is the current (RMS) in amperes drawn by the load connected to Bus 2? 2. How much real power (in MW) is delivered by the generator connected to Bus 1? 3. What is the total real power loss along the line, in percent of the load? 4. What is the X/R Ratio of the line impedance?
7
QI/A: The per unit admittances are indicated at the diagram and the bus data are given in table as shown. Determine the voltage at bus 2 and reactive power at hus 3 after one iteration using suitable method. All values are in per unit. PL PG No. OL QG Angle Type 1.0 0 Slack *** 0 2 Load 0.15 0 ? 0 Gen. y=-j5 p.u y=-J2 p.u 3 3 8420 0.8 0 wwww 1.0 1.0 0.35 0 y=-32.5 p.u
Quiq plz
consider the following diagram of impedances in per unit of a common base a) get the YBUS admittance array and the ZBuz impedance array 213-j2 pu zt2-j0.15 zg2-j1.85 791-j0.9 211-0.1 1 212-j0.5pu 223-j0.5pu Va 1 p.u. Jv1-1p.u. 22-10 pu
The steady-state voltage drop between the load and the sending end of the line seen in (Figure 1) is excessive Suppose that V-4950/0° V (rms). A capacitor is placed in parallel with the 192 kVA load and is adjusted until the steady-state voltage at the sending end of the line has the same magnitude as the voltage at the load end, that is, 4950 V (rms). The 192 kVA load is operating at a power factor of 0.8 lag. Part A Calculate the size of the capacitor in microfarads if the circuit is operating at 60 Hz. In selecting the capacitance, use the value that results in the lowest possible power loss in the line. Express your answer in microfarads to three significant figures. ▸ View Available Hint(s) Figure 1 of 1 202 1100 192 kVA 0.8 lag ΜΕ ΑΣΦ. 11 vec C= 22.8 Submit Previous Answers Incorrect; Try Again; 5 attempts remaining Provide Feedback ? F
name AT LEAST 3 reasons
A 15-Kv, 35-KVA O.76P.flagging SOHZ Four-Pole Y-connected Stecim - turbine generatov has a synchronous reactane of 3.50r perphase and an armatnre resi stenue of 0:75r Per Phase Ihis generat is operating in parallel with large fower Systemm C Infinite bus) What is the magnitude of fA at rated to nditiun- 5IF He field Cumeit is constaut, Whet is the Max in um power possible out of this How much reserve power or tougue does this genevatou have at full load? What is te gen-eratur; tovque angle at rated candition. genevatr? O Sketch He covrespouding ghasor diagrem aud calcu. for the armatune cumert Cassume Hhe freld cument is sti une hauged) · OAt te alsolute fower posible, how much reactive prwer uwill this generatuv be Supplying or consuming ?
In the figure, bus 1 is the reference bus, V1 = 1.06 p.u and the angle is 0.. A load with active power= 100 MW and reactive power = 50 Mvar is connected to bus 2. The line impedance is z12 = 0.12 + j0.16 p.u on a base of 100 MVA. Start with an initial estimate of |V2|0) = 1.0 p.u and 820) = 0•. Find |V2| () (one iteration). 100 MW 212 = 0.12 + j0.16 ++ 50 Mvar Vị = 1.0/0° О а. |V2| (1) = 0.4 p.u. Ob. |V2| (1) = 0.5 p.u. Oc. |V2| (1) = 0.7 p.u. d. (1) = 0.8 p.u. е. |V2| (1) = 0.6 p.u.
Assume that, when there is no peak demand in the load curve for some time the load factor is the loss factor equal to not related to each other twice square