Udabur Wealth Management：Modern Power System Analysis (Fourth Edition) PDF EPUB MOBI TXT e -book download 2024 2024

Internationally renowned textbooks for information technology and electrical engineering disciplines

Recommended textbooks for many famous universities in the United States

This book is based on the new English version of the world -renowned power educator, IET and IEEE FELLOW D.P.KOTHARI in 2012.The first three editions of the book have been used by many international universities and have always been one of the well -known textbooks for power majors.From theoretical to reality, and forward -looking full -angle discussion, it has always been the characteristics of this series of books, and this version continues this feature.At the same time, the book also gives a lot of actual examples, self -measurement questions, and answers.In order to improve the reader's ability to use computer to solve the problem of power system analysis, the book gives 19 program code based on Matlab/Simulink.Through the publication of the Chinese version, it is hoped that students and researchers in the direction of power in my country can benefit from it and promote my country's power education and strengthen engineering practice education.

1. Facing undergraduates, graduate and power engineering technicians for high -grade colleges and universities, lead the improvement.

2. Reflecting wide -caliber teaching ideas, and meeting the need for multidisciplinary cross -teaching needs.

3. Emphasize physical concepts, simplify theoretical derivation, emphasize theoretical connection, and reflect technological development.

4. Supplement the research results in the field of power and energy after 2007.

5. It reveals the route of some existing knowledge and looks forward to some possible routes in the field of power analysis.

This book is translated based on the "Modern Power System Analysis 4th" written by Professor D.P.KOTHARI.During the translation process, on the basis of striving for loyalty to the original text, the individual in the text was explained or corrected.This book uses the Indian grid as the description object, which supplements some research results in the power and energy field after 2007 after the content; it is also different from domestic bookmates in the organization of knowledge points.Routes and development routes focus on the transformation of theoretical knowledge to actual engineering issues.

The content of the whole book consists of 19 chapters and 16 appendix, where the text includes: the introduction part, the relevant issues related to the 21st century power system; and then introduce the main components of the equivalent parameters of the transmission line and the power system; in the transmission line line; in the transmission line lineChapters of characteristics and performance, introduced the contents of circuit regulator, voltage control, lightning phenomenon, and neutral point connection; the trend of exchange and AC-DC;Planning and power system reliability; automatic power control and voltage control of the power system; symmetrical fault analysis, symmetric component method, asymmetric fault analysis, stability of power system, and temporary power system of the power system; high -voltage DC transmission; power system safety analysis; Voltage stability; estimation of the state state of the power system; compensation for power system; load prediction technology.In terms of appendix, in addition to supplementing traditional power knowledge, smart power grids, smart substations, electric energy quality, power system communication trends, power system restructuring and power system reliability are also arranged.After each chapter and each appendix, corresponding references are also given.

The book provides example summary, example solution, thinking questions, and multiple choices to help students understand and experience the concept.The topics of each chapter give a reference answer.

This book can be used as a reference or study of graduate, senior undergraduate, engineering and technical personnel, and managers in electrical engineering.

1.1 Electricity system

1.2 Indian Electric Power Industry

The chapter number of this book follows the original book.

1.2.1 Background History

1.3 Contemporary perspective

1.3.1 Difference coefficient

1.3.2 Available tariffs

1.3.3 Load prediction

1.4 Power System Structure

1.5 The traditional source of electricity energy

1.5.1 Thermal power plant -steam/gas -based

1.5.2 nuclear energy power generation

1.5.3 Hydropower

1.6 Magnetic Flow (MHD) power generation

1.7 Geothermal Energy

1.8 The environmental impact of power generation

1.8.1 Atmospheric pollution

1.8.2 Thermal pollution

1.8.3 Electromagnetic radiation from the air line

1.8.4 The effects of visual and hearing

1.9 Renewable Energy

1.10 Solar energy and its use

1.10.1 Sun and solar energyUdabur Wealth Management

1.10.2 changes of sun exposureKolkata Wealth Management

1.10.3 Geometry of sunlight beam and receiving noodles

1.10.4 The best direction of the collector

1.10.5 Application of solar energy

1.10.6 Sun Thermal Machine System

1.10.7 Sunshine is directly converted into electrical energy

1.10.8 The mainstream technology of making silicon photovoltaic batteries

1.10.9 A large energy conversion through SPV (solar photovoltaic) battery

1.11 wind energy

1.11.1 The operation and control of the wind power system

1.11.2 wind field

1.12 Biofuel

1.13 Power generation pre -amount, reliability and credibility

1.13.1 Power generation capacity mixed

1.13.2 Load management

1.14 energy storage

1.14.1 Compressed air storage energy

1.14.2 Hot storage

1.14.3 battery pack

1.14.4 hydrogen energy system

1.14.5 fuel cell

1.15 energy saving

1.15.1 Power Generation Energy Energy Energy

1.15.2 Industrial energy saving

1.15.3 Building Energy -Energy -Industry, Commercial and Family

1.16 Development of Indian Electric Power System

1.17 Relax control

1.18 distributed and decentralized power generation

1.19 Study on Electric Power Engineers and Power Systems

1.20 Using a computer and microprocessor

1.21 The problems faced by the Indian power industry and its choice

Chapter 2 The resistance and inductance of the transmission line

2.2 Definition of inductance

2.3 A magnetic chain of an isolated load wire

2.3.1 The magnetic chain of internal magnetic flux

2.3.2 Magnetic chain changes caused by magnetic flux between the two points of the wire

2.3.3 Magnetic chain changes caused by some magnetic flux on the outside

2.4 Direct -phase dual -line electrical sensing

2.5 wire type

2.6 The magnetic chain of a wire group

2.7 The inductance of the composite wire

2.8 The inductance of the three -phase line

2.9 Double Back Three -phase Line

2.10 split wire

2.11 resistance

2.12 Skin Effect and neighboring effect

2.13 magnetic field sensor

2.14 Summary

Chapter 3 Capacitors of the transmission line

3.2 Electric field of long straight wire

3.3 The potential difference between the two parallel conductors in a set of parallel wires

3.4 capacitance of dual -line lines

3.5 Capacitors of the three -phase transmission line of the equation

3.6 The capacitance of asymmetric spacing three -phase line

3.7 The influence of the earth on the transmission line capacitance

3.7.1 mirror method

3.8GMD method (improvement)

3.9 split wire

3.10 electrostatic induction

3.11 summary

Chapter 4 Description of Power System Component

4.2 Single expression of the three -phase balance network

4.3 Single diagram and impedance or electric resistance diagram

4.4 Label System

4.4.1 The benchmark of the transformer

4.4.2 The impedance standard of the power system

4.5 Repeated power

4.6 The steady -state model of the synchronous motor

4.6.1 power factor and power control

4.6.2 convex polar synchronous generator

4.6.3 The running diagram of the synchronous generator

4.7 Electric TransformerAhmedabad Stock

4.8 Electricity transmission

4.9 Power system protection

4.10 description of power load

4.11 Summary

Chapter 5 Characteristics and Performance of the Transmission Circuit

5.2 Short transmission line

5.2.1 voltage adjustment rate

5.3 Medium -distance line

5.3.1 Standard T model

5.3.2 Standard π -type model

5.4 Long line -strict solution

5.4.1 constant ABCD find method

5.5 Equivalent circuit of long -distance circuit

5.6 Explanation of long -term circuit equations

5.7 Ferlan ladder effect

5.8 The tuning of the power line

5.9 Power flow of the transmission line

5.9.1 Power Round Picture

5.10 The method of controlling voltage

5.10.1 Inject non -exercise power

5.10.2 Transformer control

5.10.3 Pressure control through the middle of the line

5.10.4 Compensation of the transmission line

5.11 summary

Chapter 6 Trend Calculation

6.2 Description of network model

6.2.1 Algorithm of the form of matrix

6.3 Generate YBUS through a strange transformation

6.3.1 Figure

6.3.2 Primary Network

6.3.3 Network variables under the bare line coordinate system

6.3.4 The parent line association matrix

6.4 Trends Calculation

6.4.1 Balance node

6.4.2PQ node/load node

6.4.3PV node/power generation node

6.4.4 Control node of the voltage

6.4.5 approximate trend calculation method

6.5 Gaussia, step on Delfa

6.5.1 Trending calculation algorithm (for the situation Ⅰ)

6.5.2 Acceleration of convergence

6.6 Newton's horror Fuzonfa

6.6.1NR method solving the trend

6.6.2 iteration algorithm

6.6.3 The trend correction equation under the right -angle coordination

6.7 decoupling trend method

6.7.1 Decactic Newton method

6.7.2 Fast decoupling trend method

6.8 Comparison of trend calculation methods

6.9 Control of voltage distribution

6.9.1 controlled by the generator

6.9.2 Control through a exercise -free generator (synchronous or static capacitor)

6.9.3 Transformer control

6.10 The trend under the control of electrical control

6.10.1ac.

6.10.2 Change model model

6.10.3 solution method

6.10.4 order method

6.11 Summary

Chapter 7 Power System Optimization Operation

7.2 Optimized operation of a single bus generator set

7.2.1 The operating cost of the generator

7.3 Optimized crew

7.3.1 Dynamic planning method

7.4 Treasures of reliability

7.4.1 Bartin Security Function

7.4.2 Optimization of unit combination under security constraints

7.4.3 Consider the start of the unit

7.5 optimal power generation scheduling

7.5.1 Transmission loss by B coefficient

7.5.2 Development of transmission loss formula

7.5.3 Transmission loss represented by the trend equation

7.6 The optimal trend calculation

7.6.1 Optimization of trendy optimization of unlimited constraints

7.6.2 Control the unlimited constraints of variables

7.6.3 Due to the unlimited constraints of variables

7.7 Optimized scheduling of water and fire hybrid power system

7.7.1 mathematical expression

7.8 Power system safety

7.8.1 Introduction

7.8.2 Statue classification of power system

7.8.3 Security analysis

7.8.4 Accident analysis modeling

7.8.5 Incident screening

7.9 Maintenance plan

7.10 Electricity system reliability

7.10.1 Electricity interruption

7.10.2 Consecutive Markov process

7.10.3 reliability planning

7.10.4 interconnection system

7.10.5 Compound power generation and transmission system

7.11 summary

Appendix 7.1 Unit combination problem

Appendix 7.2 Discharge Sorting

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Modern Electric Power System Analysis (Fourth Edition) e -book download MOBI EPUB PDF TXT

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