B.R. Gupta’s textbook is highly regarded because it breaks down complex power generation physics and economics into structured, digestible modules. If you are preparing for university exams or competitive engineering tests, the book serves as an excellent blueprint for the following core areas:
For students planning a long-term career in power systems, owning a physical copy is a valuable investment. Authorized student editions are widely available at major e-commerce platforms and local academic bookstores at subsidized regional prices.
– Use with caution
Engineering is heavily bound by economic viability. The text dedicates significant focus to the financial metrics of running a utility:
Covers load curves, diversity factors, and various tariff methods like block-rate and two-part tariffs. Authorized student editions are widely available at major
"Generation of Electrical Energy" by J.B. Gupta is a cornerstone textbook in the field of Electrical Engineering. It is widely prescribed in Indian universities and technical institutes for undergraduate students (B.E./B.Tech) and is a standard reference for competitive examinations such as GATE, IES, and various Public Sector Undertaking (PSU) recruitment tests. The book provides a comprehensive overview of how electrical energy is produced, the physics behind it, and the economic factors involved in power plant operation.
Load curves, power factor improvement, tariff rates, and cost analysis. Key Highlights of the Content "Generation of Electrical Energy" by J
is highly valued for several reasons:
To understand the authority of this text, it's helpful to know its creator. Dr. B.R. Gupta is a retired Professor of Electrical Engineering at Punjab Engineering College, Chandigarh. He holds a B.Sc. in Engineering (Hons), an M.Sc. in Engineering (Distinction), and a Ph.D. He is also a MIE (India) and a Senior Member of IEEE (USA). and Plant Capacity Factor.
Designing electricity pricing models, including flat-rate, two-part, and block-rate tariffs to optimize utility revenue and consumer fairness. 3. Renewable and Non-Conventional Energy
Definitions and mathematical derivations of Connected Load, Maximum Demand, Demand Factor, Load Factor, Diversity Factor, and Plant Capacity Factor.