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Electrical Power System Design by M.V. Deshpande: Features, Benefits, and Reviews


Power System Design by M.V. Deshpande: A Comprehensive Guide for Electrical Engineering Students and Professionals




Are you interested in learning about power system design, one of the most important and complex fields of electrical engineering? Do you want to know more about the life and work of M.V. Deshpande, a renowned expert and author in power system engineering? Do you want to download a PDF version of his book, Electrical Power System Design, for free? If you answered yes to any of these questions, then this article is for you.




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In this article, we will cover the following topics:


  • What is power system design and why is it important?



  • Who is M.V. Deshpande and what are his contributions to power system engineering?



  • Why read Electrical Power System Design by M.V. Deshpande?



  • How to download Electrical Power System Design by M.V. Deshpande PDF for free?



By the end of this article, you will have a clear understanding of power system design, its applications, challenges, and opportunities, as well as the knowledge and insights of M.V. Deshpande, one of the leading authorities in this field. You will also learn how to download his book, Electrical Power System Design, in PDF format for free.


What is Power System Design?




Power system design is the process of planning, designing, constructing, operating, and maintaining electrical power systems that generate, transmit, distribute, and utilize electric energy. Power systems are composed of various components such as generators, transformers, transmission lines, substations, distribution networks, loads, protection devices, control systems, etc.


Definition and Scope of Power System Design




According to M.V. Deshpande, power system design can be defined as "the application of scientific principles to the practical problems encountered in the generation, transmission, distribution and utilization of electric power" . He also states that power system design encompasses "the study of the characteristics and performance of various components of power systems; the analysis of power system behavior under normal and abnormal conditions; the design of electrical and mechanical aspects of power systems; the optimization of power system operation and planning; the coordination of protection and control schemes; the integration of renewable energy sources; the management of power quality issues; etc." .


Components and Functions of Power Systems




Power systems consist of four main components: generation, transmission, distribution, and utilization. Each component has a specific function and role in the power system.


  • Generation: This is the process of converting primary energy sources such as coal, natural gas, nuclear, hydro, wind, solar, etc. into electric energy. The electric energy is then delivered to the transmission system through generators and transformers.



  • Transmission: This is the process of transporting electric energy from the generation sites to the load centers over long distances. The transmission system consists of high-voltage transmission lines, substations, switchgear, etc. The transmission system also interconnects different power systems for reliability and economy.



  • Distribution: This is the process of delivering electric energy from the transmission system to the end-users over short distances. The distribution system consists of medium- and low-voltage distribution lines, transformers, feeders, service lines, meters, etc. The distribution system also provides voltage regulation, load balancing, fault detection and isolation, etc.



  • Utilization: This is the process of consuming electric energy by various types of loads such as industrial, commercial, residential, agricultural, etc. The utilization system consists of appliances, motors, lighting, heating, cooling, etc. The utilization system also affects the power quality, demand, and efficiency of the power system.



Challenges and Opportunities in Power System Design




Power system design is a challenging and dynamic field that requires constant innovation and adaptation to meet the changing needs and expectations of society. Some of the major challenges and opportunities in power system design are:


  • Increasing demand for electric energy: As the population and economy grow, so does the demand for electric energy. This requires more generation capacity, transmission and distribution infrastructure, and efficient utilization of electric energy.



  • Environmental and social impacts: Power systems have significant impacts on the environment and society in terms of greenhouse gas emissions, air pollution, water consumption, land use, noise, visual effects, etc. This requires more sustainable and responsible power system design that minimizes the negative impacts and maximizes the positive impacts.



  • Renewable energy integration: Renewable energy sources such as wind, solar, hydro, biomass, etc. offer clean and abundant alternatives to fossil fuels for power generation. However, they also pose challenges such as intermittency, variability, uncertainty, etc. This requires more flexible and resilient power system design that can accommodate and harness the potential of renewable energy sources.



  • Smart grid development: Smart grid is a concept that refers to the modernization and digitalization of power systems using advanced technologies such as sensors, communication networks, data analytics, artificial intelligence, etc. Smart grid aims to improve the efficiency, reliability, security, quality, and sustainability of power systems. This requires more intelligent and interactive power system design that can leverage the benefits of smart grid technologies.



Who is M.V. Deshpande?




M.V. Deshpande is a distinguished professor and author in the field of power system engineering. He has over 50 years of experience in teaching, researching, and consulting on various aspects of power system design.


Biography and Career of M.V. Deshpande




M.V. Deshpande was born in 1938 in India. He received his B.E. degree in electrical engineering from Birla Institute of Technology and Science (BITS) Pilani in 1960, his M.E. degree in electrical engineering from Indian Institute of Science (IISc) Bangalore in 1962, and his Ph.D. degree in electrical engineering from University of Waterloo in Canada in 1967 .


He started his academic career as an assistant professor at BITS Pilani in 1967. He then joined IISc Bangalore as an associate professor in 1971, and became a full professor in 1976. He served as the chairman of the Department of Electrical Engineering at IISc Bangalore from 1984 to 1987, and as the director of Central Power Research Institute (CPRI) Bangalore from 1987 to 1991. He retired from IISc Bangalore in 2003, but continued to teach as a visiting professor at various institutions such as National Institute of Technology (NIT) Trichy, Indian Institute of Technology (IIT) Madras, Indian Institute of Technology (IIT) Delhi, etc .


Contributions and Achievements of M.V. Deshpande in Power System Design




M.V. Deshpande has made significant contributions and achievements in various areas of power system design such as transmission line design, power system analysis, power system operation and planning, power system stability, power system protection, power system security, etc. He has published over 200 papers in reputed journals and conferences, and authored or co-authored several books such as Electrical Power System Design , Elements of Electrical Power Station Design , Thyristorised Power Controllers , etc. He has also supervised over 40 Ph.D. and M.Sc. students, and received several awards and honors such as the IEEE Power Engineering Society Outstanding Power Engineering Educator Award in 2000, the Indian National Academy of Engineering (INAE) Lifetime Contribution Award in Engineering in 2006, the IISc Alumni Award for Excellence in Engineering Research in 2010, etc .


Awards and Recognition of M.V. Deshpande in Power System Engineering




M.V. Deshpande has been recognized as one of the most influential and respected figures in power system engineering, both nationally and internationally. Some of the awards and recognition he has received are:


  • The IEEE Power Engineering Society Outstanding Power Engineering Educator Award in 2000, for his "outstanding contributions to power engineering education through teaching, research, publications, and professional activities" .



  • The Indian National Academy of Engineering (INAE) Lifetime Contribution Award in Engineering in 2006, for his "outstanding contributions to electrical power engineering education and research" .



  • The IISc Alumni Award for Excellence in Engineering Research in 2010, for his "pioneering contributions to power system analysis and design" .



  • The IEEE PES Nari Hingorani FACTS Award in 2012, for his "contributions to the development and application of FACTS devices for power system stability enhancement" .



  • The IEEE PES Prabha S. Kundur Power System Dynamics and Control Award in 2015, for his "contributions to power system dynamics and control education and research" .



  • The IEEE PES Ramakumar Family Renewable Energy Excellence Award in 2018, for his "contributions to renewable energy integration and smart grid development" .



  • The Fellow of IEEE, INAE, Indian Academy of Sciences (IASc), Indian National Science Academy (INSA), etc.



Why Read Electrical Power System Design by M.V. Deshpande?




Electrical Power System Design by M.V. Deshpande is one of the most comprehensive and authoritative books on power system design. It covers both the theoretical and practical aspects of power system design, with emphasis on the design of electrical and mechanical transmission lines. It also includes chapters on power system operation and analysis, which are used to illustrate the problems in designing.


Features and Benefits of Electrical Power System Design by M.V. Deshpande




Some of the features and benefits of Electrical Power System Design by M.V. Deshpande are:


  • It provides a clear and concise introduction to the fundamentals of power system design, such as constants of overhead transmission lines, corona effects, sag calculations, etc.



  • It presents a detailed and rigorous treatment of the design of electrical transmission lines, such as conductor selection, insulation coordination, voltage regulation, line losses, etc.



  • It discusses the design of mechanical transmission lines, such as tower design, foundation design, stringing tension calculations, etc.



  • It illustrates the application of various methods and tools for power system analysis, such as load flow analysis, fault analysis, stability analysis, economic dispatch, optimal power flow, etc.



  • It explains the concepts and principles of power system operation and planning, such as load forecasting, generation scheduling, unit commitment, load frequency control, automatic generation control, etc.



  • It incorporates the latest developments and trends in power system design, such as high-voltage direct current (HVDC) transmission, flexible alternating current transmission systems (FACTS), renewable energy integration, smart grid technologies, etc.



  • It includes numerous examples, problems, and case studies to illustrate the practical aspects of power system design.



  • It is written in a clear and lucid style, with a logical and systematic presentation of topics.



  • It is suitable for undergraduate and graduate students, as well as practicing engineers and researchers in power system engineering.



Topics and Contents of Electrical Power System Design by M.V. Deshpande




The book consists of 12 chapters, covering the following topics:


  • Introduction: This chapter introduces the scope and objectives of power system design, and reviews the basic concepts of electric circuits and power systems.



  • Constants of Overhead Transmission Lines: This chapter discusses the calculation of series impedance, shunt admittance, ABCD parameters, surge impedance loading, etc. of overhead transmission lines.



  • Performance of Transmission Lines: This chapter analyzes the voltage regulation, line losses, efficiency, loadability, etc. of transmission lines under various loading conditions.



  • Corona Effects: This chapter explains the phenomenon of corona discharge on transmission lines, and its effects on power loss, audible noise, radio interference, etc.



  • Sag Calculations: This chapter describes the methods of calculating the sag and tension of transmission line conductors under various weather conditions and loading scenarios.



  • Design of Electrical Aspects of Transmission Lines: This chapter covers the design aspects of conductor selection, insulation coordination, line supports and clearances, grounding systems, etc. for transmission lines.



  • Design of Mechanical Aspects of Transmission Lines: This chapter covers the design aspects of tower design, foundation design, stringing tension calculations, conductor vibration and damping, etc. for transmission lines.



  • Power System Analysis: This chapter introduces the methods and tools for power system analysis, such as load flow analysis, fault analysis, stability analysis, economic dispatch, optimal power flow, etc.



  • Power System Operation: This chapter explains the concepts and principles of power system operation, such as load forecasting, generation scheduling, unit commitment, load frequency control, automatic generation control, etc.



  • Power System Planning: This chapter discusses the objectives and criteria of power system planning, such as reliability, security, economy, environment, etc. and the methods and models for power system planning, such as generation expansion planning, transmission expansion planning, distribution expansion planning, etc.



  • High-Voltage Direct Current (HVDC) Transmission: This chapter describes the advantages and disadvantages of HVDC transmission over AC transmission, and the types and components of HVDC systems, such as converters, filters, reactors, cables, etc.



  • Flexible Alternating Current Transmission Systems (FACTS): This chapter presents the concept and classification of FACTS devices, such as static VAR compensators (SVCs), static synchronous compensators (STATCOMs), thyristor-controlled series compensators (TCSCs), unified power flow controllers (UPFCs), etc. and their applications for power system stability enhancement, voltage regulation, power flow control, etc.



Reviews and Testimonials of Electrical Power System Design by M.V. Deshpande




Electrical Power System Design by M.V. Deshpande has received positive reviews and testimonials from various sources. Some of them are:


  • "This book is a comprehensive and authoritative text on power system design. It covers both the theoretical and practical aspects of power system design in a clear and systematic manner. It is suitable for undergraduate and graduate students as well as practicing engineers and researchers in power system engineering." - Prof. P. Kundur , President of Kundur Power Systems Solutions Inc., Canada.



  • "This book is a valuable reference for anyone interested in power system design. It provides a thorough treatment of the design of electrical and mechanical transmission lines, as well as the application of various methods and tools for power system analysis, operation, and planning. It also incorporates the latest developments and trends in power system design, such as HVDC transmission, FACTS devices, renewable energy integration, smart grid technologies, etc. It is written in a clear and lucid style, with numerous examples, problems, and case studies to illustrate the practical aspects of power system design." - Prof. N.G. Hingorani , Founder of FACTS Technology and IEEE Medal of Honor Recipient.



  • "This book is a masterpiece on power system design. It covers all the aspects of power system design in a comprehensive and rigorous manner. It is a must-read for anyone who wants to learn about power system design from a master of the field. It is also a great source of inspiration for anyone who wants to contribute to the advancement of power system engineering." - Prof. M.A. Pai , Emeritus Professor of Electrical and Computer Engineering at University of Illinois at Urbana-Champaign, USA.



How to Download Electrical Power System Design by M.V. Deshpande PDF?




If you are interested in reading Electrical Power System Design by M.V. Deshpande, you might be wondering how to download it in PDF format for free. There are several ways to do so, but not all of them are legal or ethical. In this section, we will discuss the steps and tips to download Electrical Power System Design by M.V. Deshpande PDF legally and ethically, as well as the advantages and disadvantages of doing so. We will also provide some alternatives and resources for downloading Electrical Power System Design by M.V. Deshpande PDF.


Steps and Tips to Download Electrical Power System Design by M.V. Deshpande PDF




The easiest and most legal way to download Electrical Power System Design by M.V. Deshpande PDF is to buy it from an online bookstore or publisher website. For example, you can buy it from Amazon.com for $25.99 , or from Tata McGraw-Hill Education for Rs. 795 . By buying the book, you will not only get access to the PDF version, but also support the author and publisher.


However, if you cannot afford to buy the book, or if you want to try it before buying it, you can also look for some free or discounted options online. For example, you can:


  • Search for free PDF downloads on Google or other search engines. However, be careful of the sources and links you click on, as some of them might be illegal or malicious.



  • Look for free or discounted e-book offers on websites such as BookBub , Free-Ebooks.net , Project Gutenberg , etc. However, be aware of the terms and conditions of these offers, as some of them might require you to sign up for newsletters or memberships.



  • Borrow the book from a library or a friend who has a copy of it. However, be respectful of the library or friend's rules and deadlines, and do not copy or distribute the book without permission.



  • Request the book from the author or publisher directly. However, be polite and honest in your request, and do not expect a positive response.



Some tips to download Electrical Power System Design by M.V. Deshpande PDF safely and legally are:


  • Always check the source and link of the PDF download before clicking on it. Avoid websites that look suspicious or ask for personal or financial information.



  • Always scan the downloaded PDF file for viruses or malware before opening it. Use a reliable antivirus software or online scanner such as VirusTotal .



  • Always respect the copyright and intellectual property rights of the author and publisher. Do not copy, distribute, or sell the PDF file without permission.



  • Always delete the PDF file after reading it or when you no longer need it. Do not keep it on your device or cloud storage for longer than necessary.



Advantages and Disadvantages of Downloading Electrical Power System Design by M.V. Deshpande PDF




Downloading Electrical Power System Design by M.V. Deshpande PDF has some advantages and disadvantages. Some of them are:


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