Preface to Third Edition
Preface to First Editionntroduction
A Perspective
Structure of Power Systems
Conventional Sources of Electric Energy
Renewable Energy Sources
Energy Storage
Growth of Power Systems in India
Energy Conservation
Deregulation
Distributed and Dispersed Generation
Environmental Aspects of Electric Energy Generation
Power System Engineers and Power System Studies
Use of Computers and Microprocessors
Problems Facing Indian Power Industry and its Choices
ReferencesInductance and Resistance of Transmission Lines
ntroduction
Definition of Inductance
Flux Linkages of an Isolated Current-Carrying Conductor
nductance of a Single-Phase Two-Wire Line
Conductor Types
Flux Linkages of one Conductor in a Group
nductance of Composite Conductor Lines
nductance of Three-Phase Lines
Double-Circuit Three-Phase Lines
Bundled Conductors
Resistance
Skin Effect and Proximity Effect
Problems
ReferencesCapacitance of Transmission Lines
ntroduction
Electric Field of a Long Straight Conductor
Potential Difference between two Conductors of a Group of Parallel Conductors
Capacitance of a Two-Wire Line
Capacitance of a Three-Phase Line with Equilateral Spacing
З.6 Capacitance of a Three-Phase Line with Unsymmetrical Spacing
Effect of Earth on Transmission Line Capacitance
Method of GMD (Modified)
Bundled Conductors
Problems
ReferencesRepresentation of Power System Components
ntroduction
Single-phase Solution of Balanced Three-phase Networks
One-Line Diagram and Impedance or Reactance Diagram
Per Unit (PU) System
Complex Power
Synchronous Machine
Representation of Loads
Problems
ReferencesCharacteristics and Performance of Power Transmission Lines
ntroduction
Short Transmission Line
Medium Transmission Line
The Long Transmission Line – Rigorous Solution
nterpretation of the Long Line Equations
Ferranti Effect
Tuned Power Lines
The Equivalent Circuit of a Long Line
Power Flow through a Transmission Line
Methods of Voltage Control
Problems
ReferencesLoad Flow Studies
ntroduction
Network Model Formulation
Formation of YBm by Singular Transformation
Load Flow Problem
Gauss-Seidel Method
Newton-Raphson (NR) Method
Decoupled Load Flow Methods
Comparison of Load Flow Methods
Control of Voltage Profile
ProblemsOptimal System Operation
ntroduction
Optimal Operation of Generators on a Bus Bar
Optimal Unit Commitment (UC)
Reliability Considerations
Optimum Generation Scheduling
Optimal Load Flow Solution
Optimal Scheduling of Hydrothermal System
Problems
ReferencesAutomatic Generation and Voltage Control
ntroduction
Load Frequency Control (Single Area Case)
Load Frequency Control and Economic Dispatch Control
Two-Area Load Frequency Control
Optimal (Two-Area) Load Frequency Control
Automatic Voltage Control
Load Frequency Control with Generation Rate Constraints (GRCs)
Speed Governor Dead-Band and Its Effect on AGC
Digital LF Controllers
Decentralized Control
Problems
ReferencesSymmetrical Fault Analysis
ntroduction
Transient on a Transmission Line
Short Circuit of a Synchronous Machine (On No Load)
Short Circuit of a Loaded Synchronous Machine
Selection of Circuit Breakers
' Algorithm for Short Circuit Studies
ZBUS Formulation
Problems
ReferencesSymmetrical Components
ntroduction
Symmetrical Component Transformation
Phase Shift in Star-Delta Transformers
Sequence Impedances of Transmission Lines
Sequence Impedances and Sequence Network of Power System
Sequence Impedances and Networks of Sуnchronous Machine
Sequence Impedances of Transmission Lines
Sequence Impedances and Networks of Transformers
Construction of Sequence Networks of a Power System
Problems
ReferencesUnsymmetrical Fault Analysis
ntroduction
Symmetrical Component Analysis of Unsymmetrical Faults
Single Line-To-Ground (LG) Fault
Line-To-Line (LL) Fault
Double Line-To-Ground (LLG) Fault
Open Conductor Faults
Bus Impedance Matrix Method For Analysis of Unsymmetrical Shunt Faults
Problems
ReferencesPower System Stability
ntroduction
Dynamics of a Synchronous Machine
Power Angle Equation
A Node Elimination Technique
Simple Systems
Steady State Stability
Transient Stability
Equal Area Criterion
Numerical Solution of Swing Equation
Multimachine Stability
Some Factors Affeeting Transient Stability
Problems
ReferencesPower System Security
ntroduction
System State Classification
Security Analysis
Contingency Analysis
Sensitivity Factors
Power System Voltage Stability
ReferencesAn Introduction to State Estimation of Power Systems
ntroduction
Least Squares Estimation: The Basic Solution
Static State Estimation of Power Systems
Tracking State Estimation of Power Systems
Some Computational Considerations
External System Equivalencing
Treatment of Bad Data
Network Observability and Pseudo-Measurements
Application of Power System State Estimation
Problems
ReferencesCompensation in Power Systems
ntroduction
Loading Capability
Load Compensation
Line Compensation
Series Compensation
Shunt Compensators
Comparison between STATCOM and SVC
Flexible AC Transmission Systems (FACTS)
Principle and Operation of Converters
Facts Controllers
ReferencesLoad Forecasting Technique
ntroduction
Forecasting Methodology
Estimation of Average and Trend Terms
Estimation of Periodic Components
Estimation of ys (k): Time Series Approach
Estimation of Stochastic Component: Kalman Filtering Approach
Long-Term Load Predictions Using Econometric Models
Reactive Load Forecast
ReferencesVoltage Stability
ntroduction
Comparison of Angle and Voltage Stability
Reactive Power Flow and Voltage Collapse
Mathematical Formulation of Voltage Stability Problem
oltage Stability Analysis
Prevention of Voltage Collapse
State-of-the-Art, Future Trends and Challenges
ReferencesAppendix A: Introduction to Vector and Matrix Algebra
Appendix B: Generalized Circuit Constants
Appendix C: Triangular Factorization and Optimal Ordering
Appendix D: Elements of Power System Jacobian Matrix
Appendix E: Kuhn-Tucker Theorem
Appendix F: Real-time Computer Control of Power Systems
Appendix G: Introduction to MATLAB and SIMULINK
Answers to Problems
Index
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Book Summary
Electric Machines By DP Kothari and IJ Nagrath now in its 5″ edition, is intended for third and fourth year UG students and first-year PG students of electrical engineering-updated with latest scientific advancements. The changes are made keeping the original flavor of the book intact, that is, in-depth coverage of fundamental concepts. This edition contains plethora of solved examples, competitive examination based MCQs and MATLAB examples to enhance problem-solving skills. Electric Machines By DP Kothari and IJ Nagrath can be used as a quick reference by practicing engineers and is also useful to lAS, IES, GATE and other entrance and job examination aspirants preparing for the subject. Mlb 2k12 pc keygen free.
Electric Machines By DP Kothari and IJ Nagrath is designed to supplement textbooks on electric machines; the book presents basic concepts, techniques and services relating to electric machines through a series of carefully formulated solved examples, review questions and objective questions. Electrical MCQ Question and Answer for Electrical competitive exam.
Salient features
- Contains detailed answers to the concept review questions;
- A conceptual review which includes a summary of basic definitions and principles along with relevant equations and formulae;
- Well – illustrated with over 250 drawings to enable conceptual clarity;
- This book has 290 review questions with answers, 405 objective questions, 355 solved examples and supplementary questions;
- Appendix having review material for preparation of vivas and interviews.
Book Name – Basic Electrical & Electronics Engineering By JB Gupta
Author – DP Kothari and IJ Nagrath
Publisher – Mcgraw Hill
Language – English
Edition – 5th, 2017
Paperback – 1000 Pages
Book Contents
- Introduction
- Magnetic Circuits and Induction
- Transformers
- Principles of ElectromechanicalEnergy Conversion
- Basic Concepts in Rotating Machines
- AC Armature Windings
- DC Machines
- Synchronous Machines
- Induction Machine
- Fractional Kilowatt Motors
- Generalised Theory of ElectricalMachines
- Motor Control by Static PowerConverters
1. Introduction
1.2 Basic Principle, Types and Constructional Features of Electric Machines
1.3 Recent Trends in Research and Developments in Electric Machines
2. Magnetic Circuits and Induction
2.1 Introduction
2.2 Magnetic Circuits
2.3 Magnetic Materials and Their Properties
2.4 Magnetically Induced EMF and Force
2.5 AC Operation of Magnetic Circuits
2.6 Hysteresis and Eddy-Current Losses
2.7 Permanent Magnets
2.8 Application of Permanent Magnet Materials
Summary
practice Problems
Review Questions Wii game collection torrent.
3. Transformers
3.1 Introduction
3.2 Transformer Construction and Practical Considerations
3.3 Transformer on No-Load
3.4 Ideal Transformer
3.5 Real Transformer and Equivalent Circuit
3.6 Transformer Losses
3.7 Transformer Testing
3.8 The Per Unit System
3.9 Efficiency and Voltage Regulation
3.10 Excitation Phenomenon in Transformers
3.11 Autotransformers
3.12 Variable Frequency Transformer
3.13 Three-Phase Transformers
3.14 Parallel Operation of Transformers
3.15 Three-Winding Transformers
3.16 Phase Conversion
3.17 Tap Changing Transformers
3.18 Voltage and Current Transformers
3.19 Audio-Frequency Transformer
3.20 Grounding Transformer
3.21 Welding Transformer
3.22 Transformer as a Magnetically Coupled Circuit
Summary
Practice Problems
Review Questions
Multiple-Choice Questions
Power System Analysis Nagrath Kothari Pdf
4. Principles of Electromechanical Energy Conversion
4.1 Introduction
4.2 Energy in Magnetic System
4.3 Field Energy and Mechanical Force
4.4 Multiply-Excited Magnetic Field Systems
4.5 Forces/Torques in Systems with Permanent Magnets
4.6 Energy Conversion via Electric Field
4.7 Dynamical Equations of Electromechanical Systems
Summary
Practice Problems
Review Questions
5. Basic Concepts in Rotating Machines
5.1 Introduction
5.2 Elementary Machines
5.3 Generated EMF
5.4 MMF of Distributed ac Windings
5.5 Rotating Magnetic Field
5.6 Torque in Round Rotor Machine
5.7 Operation of Basic Machine Types
5.8 Linear Machines
5.9 Magnetic Leakage in Rotating Machines
5.10 Losses and Efficiency
5.11 Rating and Loss Dissipation
5.12 Matching Characteristics of Electric Machine and Load
5.13 Resume
Summary
Practice Problems
Review Questions
Multiple-Choice Questions
6. AC Armature Windings
Power System Nagrath Kothari Pdf 2016
6.1 Introduction
6.2 AC Windings
Summary
Practice Problems
Review Questions
7. DC Machines
7.1 Introduction
7.2 Armature Winding and Commutator
7.3 Certain Observations
7.4 EMF and Torque
7.5 Circuit Model
7.6 Armature Reaction
7.7 Compensating Winding
7.8 Commutation
7.9 Methods of Excitation
7.10 Operating Characteristics of dc Generator
7.11 Self-Excitation
7.12 Characteristics of dc Generators
7.13 Shunt Generator–Predetermination of External Characteristic
7.14 Parallel Operation of dc Generators
7.15 Characteristics of dc Motors
7.16 Starting of dc Motors
7.17 Speed Control of dc Motors
7.18 Braking of dc Motors
7.19 Efficiency and Testing
7.20 Testing of dc Machines
7.21 DC Machine Dynamics
7.22 Permanent Magnet dc (PMDC) Motors
7.23 DC Machine Applications
Summary
Practice Problems
Review Questions
Multiple-Choice Questions
8. Synchronous Machines
8.1 Introduction
8.2 Basic Synchronous Machine Model
8.3 Circuit Model of Synchronous Machine
8.4 Determination of the Synchronous Reactance
8.5 MMF Method
8.6 Determination of Armature Reaction Ampere-Turns and Leakage Reactance of a Synchronous Machine—Potier Method
8.7 ASA (American Standards Association) Method (Latest)
8.8 Nature of Armature Reaction
8.9 Synchronizing to Infinite Bus-Bars
8.10 Operating Characteristics
8.11 Efficiency of Synchronous Machines
8.12 Power Flow (Transfer) Equations
8.13 Capability Curve of Synchronous Generator
8.14 Salient-Pole Synchronous Machine Two-Reaction Model
8.15 Staying in Synchronizm – The Synchronizing Power (Torque)
8.16 Determination of XD And XQ —Slip Test
8.17 Parallel Operation of Synchronous Generators
8.18 Hunting in Synchronous Machines
8.19 Starting of Synchronous Motors
8.20 Short-Circuit Transient in Synchronous Machine
8.21 Single-Phase Synchronous Generators
8.22 Brushless DC Motors
Summary
Practice Problems
Review Questions
Multiple-Choice Questions
9. Induction Machine
9.1 Introduction
9.2 Construction
9.3 Flux and MMF Waves in Induction Motor—Principle of Operation
9.4 Development of Circuit Model (Equivalent Circuit)9.5 Power Across Air-Gap, Torque and Power Output
9.6 Tests to Determine Circuit-Model Parameters
9.7 The Circle Diagram (Approximate)
9.8 Starting
9.9 Cogging and Crawling
9.10 Speed Control
9.11 Deep-Bar/Double-Cage Rotor
9.12 Classes of Squirrel-Cage Motors
9.13 Induction Generator
9.14 Induction Machine Dynamics: Acceleration Time
9.15 Inverted Induction Machine
9.16 High-Efficiency Induction Motors
9.17 Linear Induction Motor (LIM)
Summary
Practice Problems
Review Questions
Multiple-Choice Questions
Power System Nagrath Kothari Pdf Software
10. Fractional Kilowatt Motors
10.1 Introduction
10.2 Single-Phase Induction Motors
10.3 Single-Phase Synchronous Motors
10.4 Circuit Model of Single-Phase Induction Motor
10.5 Balanced 2-Phase Motor Fed from Unbalanced Supply
10.6 Stepper Motors
10.7 Series Motor—Universal Motor
Summary
Practice Problems
Review Questions
11. Generalized Theory of Electrical Machines
11.1 Introduction
11.2 Convention
11.3 Basic Two-Pole Machine
11.4 Transformer with a Movable Secondary Winding
11.5 Kron’s Primitive Machine
11.6 Linear Transformations in Machine
11.7 Three-Phase to Two-Phase (a, b, c To a, b. 0) Transformation
11.8 Rotating Axis (a, b. 0) to Stationary Axis (d, q, 0) Transformation
11.9 Physical Concepts of Park’s Transformation
Review Questions
12. Motor Control by Static Power Converters
Toyota vitz 2002 model. 12.1 Introduction
12.2 Solid State Devices
12.3 Electrical Drives
12.4 Power Converters
12.5 Thyristor Motor Control
12.6 DC Motor Control Through Converters
12.7 DC Motor Control Through Choppers
12.8 Converter Topologies for dc Motor Drives
12.9 AC Motor Control
12.10 Inverters
12.11 Forced Commutation
12.12 Vector Control of an Induction Motor
Summary
Practice Problems
Review Questions
Multiple-Choice Questions
Power System Nagrath Kothari Pdf Converter
Appendix I: AC Steady-State Circuit Analysis
Appendix II: Three-Phase Systems
Appendix III: Special Topics in Transformers
Appendix IV: Cross-Field Machines
Appendix V: AC Commutator Machines
Appendix VI: Resistance
Appendix VII: Sample Examples Solved Using Matlab
Appendix VIII: Table of Constants and Unit Conversion
References
Answers to Problems
Index