Students will be able to learn to different technique of conversion of biomass. biofuels, geothermal energy and MHD power generation and also describes the electrical power generation, transmission, distribution

The objective of this course is to train students on characteristics of various drives, Heating, Welding methodologies, Illumination methods and traction system. The subject gives insight knowledge about energy utilization along with applications of electrical energy such as lighting, heating, welding, fans and pumps, Refrigeration & Air conditioning, compressors etc.

The course helps the student to understand the correct methodology and safe operation when working on electrical equipment, switchgear on electrical distribution systems and all of the associated electrical plant and to be aware of all the associated hazards. Besides, giving insight about the diagnostic testing and inspection, advanced fault detection techniques, critical components, and common failure modes. It also explains the study selection criteria, commissioning requirements, predictive and preventive maintenance, reliability, testing and cost.

The aim of the course is to provide knowledge regarding advanced control applications, the ability to optimize industrial models using adaptive control methods, the ability to implement informative control in an industrial environment, the ability to implement supervisory control and data acquisition systems

This subject introduces the idea of using non conventional energy sources to be utilized as main source of energy in rural farmland and the concept of integrating the renewable energy with the grid

Basic concepts of electric machine design, general concepts in machine design, cooling &general cooling circuits in rotating electrical machines electrical machines, Design of transformer core, overall design of transformers, Induction motors & alternators, choice of specific loading, modern trends in machine design, computers approaches in designing of electrical machines

This subject gives idea about digital control system and non linear control such as sub harmonics, limit cycles, stability analysis using Lypanov stability

Power quality management is typically concerned with the following issues: Harmonics and distortion, Transients,Power factor, Voltage sags and dips.,Current and voltage instability.

This course enables the students to define and explain embedded systems and the different embedded system design technologies and explain the various metrics or challenges in designing an embedded system.

Reliability engineering is a sub-discipline of systems engineering that emphasizes dependability in the lifecycle management of a product. Dependability, or reliability, describes the ability of a system or component to function under stated conditions for a specified period of time.

Provides an overview of Materials Science and Engineering as a basis for understandinghow structure/property/processing relationships are developed and used for different types of materials. To review physics and chemistry in the context of materials science & engineering and different types of bonding in solids, and the physical ramifications of these differences

This course provides an overall exposure to the technology of Industrial Automation and Control as widely seen in factories of all types both for discrete and continuous manufacturing

FACTS is one aspect of the power electronics revolution that is taking place in all areas of electric energy. A variety of powerful semiconductor devices not only offer the advantage of high speed and reliability of switching but, more importantly, the opportunity offered by a variety of innovative circuit concepts based on these power devices enhance the value of electric energy. This introduction is partly devoted to briefly conveying this perspective before discussing various specifics of Flexible AC Transmission

Basic concepts of electric drive systems. Emphasis on system analysis and applications. Topics include: dc machine control, variable frequency operation of induction and DC machines, adjustable speed drives, adjustable torque drives.

This subject gives idea about digital control system and non linear control such as sub harmonics, limit cycles, stability analysis using Lypanov stability.

The objective is to give idea about high voltage (HV) and to introduce HV problems and HV applications, secondly to teach analytical, numerical and experimental electrostatic field computation methods and to evaluate discharge phenomena at high electric fields.

This course introdues about the study of various networks of the neural networks and fuzzy logic. To familiarize the students with fundamentals of Fuzzy systems, Fuzzy sets and Fuzzy Relations.

Develop the knowledge of HVDC transmission and HVDC converters and formulate, solve mathematical problems related to rectifier and inverter control methods. Also learn about different control schemes as well as starting and  stopping of DC links.