It is a unique undergraduate course in nuclear science and engineering available to students. No other Institution offers such a course at undergraduate level. India has set a target to achieve more than 20000 MWe in Nuclear power by 2020. In this field India is self reliant. The recent interest of other nations to have nuclear agreements stems from the fact that today India is considered as a fully developed nuclear power. With nuclear renaissance taking place, other countries need skilled manpower to build and operate nuclear power plants. With so many nuclear plants and increased application of Nuclear science in medicine, agriculture, non destructive testing and host of other applications, this university has foreseen the need for Nuclear expertise not only in India, but other countries like USA, France etc. Nuclear Engineering is considered to be highly intellectually challenging, exciting and vigorous discipline having variety of applications and SRM university launched the B.Tech Course in Nuclear Science and Engg. in 2009.The course is broad based and provides a full exposure to the student.
Nuclear Engineering has emerged as an important discipline and world is looking towards it, as a promising candidate for the energy and other fields, such as medical applications. The research in fission and fusion is growing with new efforts towards the development of advance technologies.
The Course covers besides the Physics, Chemistry, Mathematics and Basic Engineering in all principal disciplines, engineering graphics, workshop, Neutron Physics, Nuclear Thermo Hydraulics, Materials for Neutron Applications, Reactor Theory, thermonuclear Fusion, Molecular and Cell biology, Biological effects of Radiation, Nuclear Fuel cycle and offers electives in Reactor Safety, Medical Informatics, Engineering of Nuclear Power systems, High Intensity Laser plasma Interactions and Operations research.
SRM University has signed MoUs with Bhabha Atomic Research Centre (BARC) and Indira Gandhi Centre for Atomic research (IGCAR) for mutual cooperation in joint research, teaching and real time projects in the field of nuclear reactor designs, radiation detection and measurement, radiation treatment and imaging for medical and industrial applications
Students studying in nuclear engineering become true multi-disciplinary specialists since the curriculum is a joint venture of mechanical, physics, chemical, biotechnology and electrical engineering departments. Those who graduate today enter an expanding job market in industry, national laboratories, government and academia, where one can work on problems that will have large impact on our future environment, security, health and safety.