Modern Power System Analysis Kothari

Posted on  by 



  1. Modern Power System Analysis Kothari Pdf
  2. Modern Power System Analysis Nagrath Kothari
  3. Modern Power System Analysis By Nagrath And Kothari Book Pdf
  4. Modern Power System Analysis By Nagrath And Kothari 4th Edition
  5. Modern Power System Analysis D P Kothari Pdf
(Redirected from D.P. Kothari)
  • Brief Information about Power System Engineering Power System Engineering is among the most well-known works of the two famous authors, d kothari and i nagrath, and is a popular book among the target audience. This volume is a revised version with a few added topics.
  • Modern Power System Analysis-D. Kothari 2003 Modern Power System Analysis-D. Kothari 1989 Modern Power System Analysis-I. Nagrath 1982 Power System Engineering, 3e-D P Kothari 2019-04-26 This hallmark text on Power System Engineering provides the readers a comprehensive account of all key concepts in the field.
  • Modern Power System Analysis Kothari Pdf Download - DOWNLOAD (Mirror #1).
Honorary Adjunct professor VNIT, Nagpur
Vice-Chancellor VIT University
In office
2007–2010
Director i/c IIT Delhi
In office
2006–2006
Deputy Director IIT Delhi
In office
2003–2006
Principal, Visvesvaraya National Institute of Technology
In office
1997–1998
Personal details
Born7 October 1944 (age 76)
Bikaner, Rajasthan, British India
Spouse(s)Shobha Kothari
Alma materBITS, Pilani
ProfessionProfessor
author
consultant

Dwarkadas Prahladadas Kothari (born 7 October 1944)[1] is an educationist and professor who has held leadership positions at engineering institutions in India including IIT Delhi, Visvesvaraya National Institute of Technology, Nagpur and VIT University, Vellore. Currently, He is with Electrical Engineering Department as Hon. Adjunct Professor. As a recognition of his contributions to engineering education, he was honoured as an IEEE Fellow.[2] Previously he was Vice-Chancellor at VIT University.[citation needed]. On his 75th Birthday (07.10.2019), he was given the title of 'Electrical Professor' by all his research scholars, faculty and well-wishers and a personal website of him was launched titled www.electricalprofessor.com. The 75th birthday also marks his 50 years of professional experience.

Early life[edit]

D. P. Kothari was born in Bikaner, Rajasthan, India. He completed his schooling at G. B. M. M. Higher Secondary School in Hinganghat, Maharashtra. He attended BITS, Pilani, from where he earned his Bachelor in Engineering degree in Electrical Engineering (Class of 1967). He studied for his master's degree in Power Systems at BITS, Pilani (Class of 1969) where he continued to pursue his Ph.D. (Class of 1975).[3]

Read PDF Modern Power System Analysis Nagrath Kothari Recognizing the artifice ways to get this books modern power system analysis nagrath kothari is additionally useful. You have remained in right site to begin getting this info. Get the modern power system analysis nagrath kothari colleague that we manage to pay for here and check out the link. Modern Power System Analysis by Kothari D. From Flipkart.com. Only Genuine Products. 30 Day Replacement Guarantee. Cash On Delivery!

Academic career[edit]

D. P. Kothari has served as Advisor to the Chancellor at VIT University, Vellore, and prior to that he was Head, Centre for Energy Studies[4] at IIT Delhi (1995–97) and Principal, Visvesvaraya Regional Engineering College, Nagpur (1997–98).[5] He has also been Director i/c, IIT Delhi (2005) and Deputy Director (Administration), IIT Delhi (2003–06). D. P. Kothari is most popularly known for his contributions to the advancement of engineering education in India. He has published and presented over 842 papers in national and international journals and conferences[citation needed]. He has authored and co-authored 60 books[6] including Power System Optimization, Modern Power System Analysis, Electric Machines, Power System Transients, Theory and Problems of Electric Machines, Renewable Energy Sources and Emerging Technologies, and Power System Engineering. His research interests include: Optimal Hydro-thermal Scheduling, Unit Commitment, Maintenance Scheduling, Energy Conservation (loss minimisation and voltage control), and Power Quality and Energy Systems Planning and Modelling.[7]He is currently an Honorary Adjunct Professor in VNIT, Nagpur.

Awards and Honors[8][edit]

The University Grants Commission presented him the UGC National Swami Pranavananda Saraswati Award for 2005 on Education for his scholarly contributions.[9] He is the recipient of the National Khosla Lifetime Achievement Award 2005 from the Indian Institute of Technology, Roorkee, National Award for Science and Technology from the Uttar Pradesh government in 2001 and the Eminent Engineering Personality award from the Institution of Engineers (India) for the year 2001.[10] The World Management Congress, New Delhi, gave D. P. Kothari the Lifetime Achievement Award for 'Educational Planning and Administration' in December 2009.[11] Dr. D. P. Kothari was selected to receive the Best Professor of the Year 2013 by Association of Scientists, Developers and Faculties.[citation needed]

Modern Power System Analysis Kothari Pdf

He received Excellent Academic Award at IIT Guwahati by NPSC-2014. In 2016, he has received 9 Life Time Achievement awards by various agencies on 19 February, 4 March, 11 March, 18 March, 20TH March and 25 March 2016, 20 April, 14 May 2016, 20 June 2018 respectively.

Fellowships[edit]

Fellow – IEEE[11]

Life Fellow – The Institution of Engineers (India)[11]

Life Membership and Honorary Fellow – Indian Society for Technical Education

Fellow – Indian National Academy of Sciences, Allahabad[11]

Fellow – Indian National Academy of Engineering[11]

Senior Member – CSI

Agfa ephoto cl30. Fellow – IETE

Books and Research Papers[edit]

  • D.P. Kothari and I.J. Nagrath, 'Modern Power System Analysis,' Tata McGraw Hill, New Delhi, 1980(7 reprints), Second Edition, 1989(25 reprints), Third Edition, 2003(16th reprint 2009); International Edition, McGraw-Hill, Singapore, 2004, McGraw-Hill, New York, 2006, Second Edition, 2007, Third Edition, 2008, Fourth Edition, 2011.[12]
  • S.S. Murthy, B.P. Singh, D.P. Kothari and C.S. Jha (Eds)'Electro mechanics Laboratory Manual,' Wiley Eastern, New Delhi, 1982.
  • D.P. Kothari and I.J. Nagrath, 'Electric Machines,' Approved by the UGC and published by Tata McGraw Hill, New Delhi with NBT subsidy, First Edition, 1985, (16 Reprints): Second Edition, 1997, (16 Reprints); Third Edition, 2004 (13th reprint 2009). FOURTH EDITION 2010.
  • A.K. Mahalanabis, D.P. Kothari and S.I. Ashon, 'Computer Aided Power System Analysis and Control,' Tata McGraw Hill, New Delhi, 1988, (First Reprint, 1991).
  • J. Nanda and D.P. Kothari (Eds.),'Recent Trends in Electric Energy Systems,' Prentice Hall of India, New Delhi, 1988.
  • C.M. Bhatia and D.P. Kothari (Eds.), 'Power Electronics Laboratory Manual,' Galgotia Book source, New Delhi, 1988.
  • D.P. Kothari and I.J. Nagrath, 'Theory and Problems of Electric Machines TMH Outline Series'. Tata McGraw Hill, New Delhi, 1991. (Six Reprints) 2nd Edition, 2001(Fifth Reprint, 2003), International Edition, McGraw-Hill, Singapore, 2001, Sigma Series, 2006(4th reprint 2009).
  • D.P. Kothari and I.J. Nagrath and, 'Power Systems Engineering,' Tata McGraw Hill, New Delhi, 1994. (20 Reprints);2nd edition,2007 (5th Reprint 2009).
  • A. Chakrabarti, D.P. Kothari and A.K. Mukhopadhyay, 'Performance, Operation and Control of EHV Transmission Systems,' Wheeler Publishing, New Delhi, 1995
  • C.S. Indulkar and D.P. Kothari,K. Ramalingam 'Power System Transients: A Statistical Approach,' Prentice Hall of India, New Delhi, 1996. SECOND EDITION 2010.
  • D.P. Kothari and I.J. Nagrath, 'Theory and Problems of Basic Electrical Engineering,' Prentice Hall of India, New Delhi, 1998.(11th Reprint 2009)
  • D.P. Kothari and D.K. Sharma (Eds.), 'Energy Engineering : Theory and Practice', S. Chand and Co. Ltd., New Delhi, 2000
  • D.P Kothari and I.J. Nagrath, 'Basic Electrical Engineering', TMH, New Delhi, 2nd Edn, 2002 (Twentieth Reprint 2009), 3rd Edn,2010.
  • D.P. Kothari and J. S. Dhillon, 'Power System Optimization', Prentice-Hall of India, 2004.(2nd Edition in Press).
  • D.P. Kothari and Anshu Saxena, 'Understanding Hypermedia: From Multimedia to Virtual Reality', Prentice-Hall of India, 2004.
  • D.P. Kothari, Rakesh Ranjan and K.C. Singhal, 'Renewable Energy Sources and Technology', Prentice-Hall of India, 2007. SECOND EDN 2011.
  • Akhtar Kalam & D.P. Kothari, 'Power System Protection and Communication ', New Age International (P) Limited, Publishers, New Delhi 2010.
  • D.P. Kothari and P.M.V. Subba Rao, 'Power Generation' in 'Springer Handbook of Mechanical Engineering' ed. by Grote, Antonsson, 2009.
  • D.P. Kothari, Shailesh Upadhyay and Ujala Shanker, 'Renewable Energy Technologies for Cooking: Transforming Rural Lives' IEEE Technology and Society. Fall 2013
  • For remaining books & papers his C.V. may be consulted in Google.

Modern Power System Analysis Nagrath Kothari

References[edit]

Kothari

Modern Power System Analysis By Nagrath And Kothari Book Pdf

  1. ^BeAnInspirer, Team (6 October 2017). 'Dwarkadas Pralhaddas Kothari – The Visionary, Educationist and Author | BeAnInspirer'. Be An Inspirer. Retrieved 25 September 2019.
  2. ^'Tamil Nadu / Vellore News : D.P. Kothari named IEEE Fellow'. The Hindu. 27 December 2010. Retrieved 28 October 2011.
  3. ^http://www.openpr.com/print/59752/VIT-Vice-Chancellor-Dr-DP-Kothari-visits-BITS-Pilani.
  4. ^'Wind Energy in India: Shifting Paradigms and Challenges Ahead'. Cedb.asce.org. 13 January 2011. Retrieved 28 October 2011.
  5. ^'Archived copy'. Archived from the original on 13 April 2014. Retrieved 9 April 2014.CS1 maint: archived copy as title (link)
  6. ^'D. P. Kothari: Books'. Amazon.com. Retrieved 28 October 2011.
  7. ^'Dr. D P Kothari, NAMED 2011 IEEE FELLOW – BITSAA International'. Bitsaa.org. Archived from the original on 1 August 2012. Retrieved 28 October 2011.
  8. ^https://sites.google.com/site/drdpkothari/home/achievements-awards
  9. ^http://www.ugc.ac.in/page/honours-and-awards.aspx
  10. ^'Tamil Nadu / Vellore News : Award for VIT University V–C'. The Hindu. 19 August 2009. Retrieved 28 October 2011.
  11. ^ abcde'Electric Machines Information Center: About the Authors'. highered.mheducation.com. Retrieved 6 August 2015.
  12. ^Kothari, D. P.; Nagrath, I. J. (2003). Modern power system analysis – D. P. Kothari, I. J. Nagrath – Google Books. ISBN9780070494893. Retrieved 28 October 2011.

Modern Power System Analysis By Nagrath And Kothari 4th Edition

External links[edit]

Modern Power System Analysis D P Kothari Pdf

  • Interview on YouTube
Retrieved from 'https://en.wikipedia.org/w/index.php?title=D._P._Kothari&oldid=985101120'
2003. , third edition, 694 pages. A lot of worked-out examples, including MATLAB codes.Note: Book obtained as a kind gift of Raj (user Raj).Preface to the Third EditionSince the appearance of the second edition in 1989, the overall energy situation has changed considerably and this has generated great interest in non-conventional and renewable energy sources, energy conservation and management, power reforms and restructuring and distributed and dispersed generation. Chapter 1 has been therefore, enlarged and completely rewritten. In addition, the influences of environmental constraints are also discussed.The present edition, like the earlier two, is designed for a two-semester course at the undergraduate level or for first-semester post-graduate study.Modern power systems have grown larger and spread over larger geographical area with many interconnections between neighbouring systems. Optimal planning, operation and control of such large-scale systems require advanced computer-based techniques many of which are explained in the student-oriented and reader-friendly manner by means of numerical examples throughout this book. Electric utility engineers will also be benefitted by the book as it will prepare them more adequately to face the new challenges. The style of writing is amenable to self-study. The wide range of topics facilitates versatile selection of chapters and sections for completion in the semester time frame.Highlights of this edition are the five new chapters. Chapter 13 deals with power system security. Contingency analysis and sensitivity factors are described. An analytical framework is developed to control bulk power systems in such a way that security is enhanced. Everything seems to have a propensity to fail. Power systems are no exception. Power system security practices try to control and operate power systems in a defensive posture so that the effects of these inevitable failures are minimized.Chapter 14 is an introduction to the use of state estimation in electric power systems. We have selected Least Squares Estimation to give basic solution. External system equivalencing and treatment of bad data are also discussed.The economics of power transmission has always lured the planners to transmit as much power as possible through existing transmission lines. Difficulty of acquiring the right of way for new lines (the corridor crisis) has always motivated the power engineers to develop compensatory systems. Therefore, Chapter 15 addresses compensation in power systems. Both series and shunt compensation of lines have been thoroughly discussed. Concepts of SVS, STATCOM and FACTS have-been briefly introduced.Chapter 16 covers the important topic of load forecasting technique. Knowing load is absolutely essential for solving any power system problem.Chapter 17 deals with the important problem of voltage stability. Mathematical formulation, analysis, state-of-art, future trends and challenges are discussed.MATLAB and SIMULINK, ideal programs for power system analysis are included in this book as an appendix along with 18 solved examples illustrating their use in solving representative power system problems. The help rendered by Shri Sunil Bhat of VNIT, Nagpur in writing this appendix is thankfully acknowledged.Tata McGraw-Hill and the authors would like to thank the following reviewers of this edition: Prof. J.D. Sharma, ИТ Roorkee; Prof. S.N. Tiwari, MNNIT Allahabad; Dr. M.R. Mohan, Anna University, Chennai; Prof. M.K. Deshmukh, BITS, Pilani; Dr. H.R. Seedhar, PEC, Chandigarh; Prof. P.R. Bijwe and Dr. Sanjay Roy, ИТ Delhi.While revising the text, we have had the benefit of valuable advice and suggestions from many professors, students and practising engineers who used the earlier editions of this book. All these individuals have influenced this edition. We express our thanks and appreciation to them. We hope this support/ response would continue in the future also.Contents:
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




Coments are closed
Download Program Pclp Gratis Itunes Wma