M.Tech. in Nuclear Engineering is a 2- year full- time postgraduate course divided into 4 semesters. The course offers to eligible candidates advanced learning in concepts such as uses of nuclear fission, fusion, construction, requirements design, design processing, management of nuclear reactors, and invention of nuclear materials.
The discipline includes a study of fissile material and fission systems, fusion interaction and maintenance of nuclear fission systems, nuclear power plants, nuclear reactors, and nuclear war weapons, nuclear fusion, medical applications, nuclear safety, radiation, nuclear proliferation, management of heat & thermodynamics transport, nuclear waste disposal, nuclear proliferation, collection of nuclear fuel, and the effects of radioactivity on the environment.
|Master of Technology in Rajasthan||Master of Technology in Tamil Nadu||Master of Technology in Uttar Pradesh||Master of Technology in Delhi|
Professionals of the discipline are called Nuclear Engineers. They specialize in the design, planning and operation of nuclear reactors. They also determine how radiation and radioactive materials can be used for industrial, scientific, and medical purposes.
Nuclear Engineers design and create the processes, equipment, instrumentation, and systems which contain nuclear materials used in multiple industries. The course also involves the application of physics to other fields, such as the use of radiation in diagnosis and treatment, nuclear fuel, heat and thermodynamics transport, radioactive waste disposal, nuclear fusion and nuclear proliferation.
The discipline also covers the study of radioactive materials and radiation for use in a variety of fields, such as power, nuclear fission, medicine, designing, and manufacturing. The discipline is based on fundamental principles of physics and mathematics that describe nuclear interactions and the transport of neutrons and gamma rays.
The average annual course fee ranges in India ranges between INR 18,000 and 3 lakhs, depending upon the institute offering the course. The average salary offered in India to successful postgraduates of the course ranges between INR 3 and 11 lakhs, depending upon the candidate’s expertise in the field.
Top Colleges for Master of Technology [M.Tech] (Nuclear Engineering)
M.Tech. in Nuclear Engineering: Course Highlights
Given below are some of the major highlights of the course.
|Course Level||Post Graduate|
|Examination Type||Semester System|
|Eligibility||Bachelor’s degree or an equivalent qualification|
|Admission Process||Counselling after taking entrance examination(GATE)|
|Course Fee||INR 18,000 to 3 lakhs|
|Average Starting Salary||INR 3 to 11 lakhs|
M.Tech. in Nuclear Engineering: What is it About?
M.Tech. in Nuclear Science and Technology is designed to offer enrolled students an in-depth understanding of the varied aspects of atomic energy with focus on Nuclear Engineering, Reactor Operations, Nuclear Plant Design, Nuclear Waste Management and the radiological applications of Nuclear Science.
The curriculum focuses on the development of practical knowledge to train students for working in laboratories under the Department of Atomic Energy. The course covers relevant theoretical fundamentals to prepare students for research programs.
Top Institutes Offering M.Tech. in Nuclear Engineering
Some of the institutes offering the course in the country with the corresponding locations and fees charged by the respective colleges are listed below.
|COLLEGE NAME||CITY||AVERAGE ANNUAL FEE IN INR|
|SASTRA university||Thanjavur||INR 2,97,000|
|Sathyabama university||Chennai||INR 2,40,000|
|Gujarat university||Gujarat||INR 18,000|
|Jadavpur university||Kolkata||INR 60,000|
|Jawaharlal Nehru technological university||Kakinada||INR 35,000|
|NIMS institute of advanced engineering||Jaipur||INR 99,000|
Eligibility for M.Tech. in Nuclear Engineering
The minimum eligibility for admission to the course is B. Tech /BE in Mechanical/ Chemical/ Electrical/ Electronics/ EEE/EIE/ECE, Mechatronics, or B.Sc. (Physics), completed from a recognized institute, and with a minimum aggregate score of 60%.
|Master of Technology in Gujarat||Master of Technology in West Bengal||Master of Technology in Uttarakhand|
M.Tech. in Nuclear Engineering: Admission Process
The admission process for the course is varied, as various institutes have their very own criteria and processes of admission. Admission to the course is essentially based on the candidate’s performance in the Graduate Aptitude Test in Engineering (GATE).
All candidate seeking admission to the course are supposed to qualify the GATE, followed by a round of counselling, based on performance in which, students are admitted.
M.Tech. in Nuclear Engineering: Syllabus and Course Description
A semester - wise breakup of the course’s syllabus is tabulated below.
|Nuclear radiation measurements|
|Computer programming simulations|
|Computer programming simulation lab|
|Nuclear reactor theory I|
|Nuclear engineering materials|
|Interaction of radiation|
|Nuclear measurement lab I|
|Nuclear reactor theory II|
|Fast breeder reactor|
|Nuclear waste management|
|Neutron transport theory|
|Nuclear power engineering I|
|Nuclear measurement lab II|
|Nuclear power engineering II|
|Nuclear fusion II|
M.Tech. in Nuclear Engineering: Career Prospects
The country’s Atomic Energy and Defence Sectors, Nuclear Medicine and Research and more particularly the popular recruiters of postgraduates in the discipline of civil nuclear energy.
Nuclear Engineers work in laboratories, nuclear fusions, nuclear plants, universities, colleges and government agencies, for purposes of military research, nuclear research, and development of proper waste disposal methods and study of the effects of radiation on the environment and living things.
In the medical sector, nuclear engineers are engaged in scientific research for medical diagnoses and treatment techniques using radiation. Nuclear Engineers also find employment as lectures and professors and actively contribute to nuclear researches. Others prefer to work in on-site engineering or construction projects.
They also work as scientists involved in developing equipment that generate nuclear power, or as Consultants in projects that involve nuclear energy, or may even settle on management or administration as career options.
Some of the professional avenues open to such postgraduates are listed below with the corresponding salaries offered for the respective positions.
|JOB POSITION||JOB DESCRIPTION||AVERAGE ANNUAL SALARY|
|Project Engineer||They develop project objectives by reviewing project proposals and plans and conferring with management. They also determine project responsibilities by identifying project phases and elements. They assign personnel in phases and elements, for reviewing bids from contractors. A Project Engineer's responsibilities include schedule preparation, planning and resource executing for engineering and other technical activities relating to the project. They also are in charge of performance management of vendors.||INR 4,21,000|
|Chemical Engineer||They apply principles of Chemistry, Physics, Maths and Biology, to solve major problems that involve the production or use of chemicals, food, medical drugs, fuel, nuclear and many other products. They design processes and equipment for large-scale manufacturing, planning, testing, and executing production methods and for products treatment, and direct facility operations.||INR 4,24,000|
|Physical Scientist||These professionals specialize in sciences that do not deal with living organisms such as Physics, Maths, Chemistry, Astronomy, Astrology and Geology. They focus only on physical properties and energy. A Physical Scientist typically carries out research tasks within a chosen field of study. They work for sample job titles including Chemist, Astronomer, Physiologist, Biochemist, Environmental Scientist, Geologist, and Physicist.||INR 5,40,000|
|Materials Engineer||They typically specialize in metals, ceramics or plastics. They also develop composite materials, and study the atomic structure of materials in order to discover new applications for their mechanical, electrical or chemical properties.||INR 3,74,000|
|Scientific Engineer Associate||They are responsible for interacting in a collaborative manner with other team members to accomplish organizational goals. They provide ideas to improve efficiency at group level. They participate in procurement of additional/new funding through contributions to technical proposal preparation and/or presentations. They also contribute to positive co-worker or customer or investigator relationships through efficient interaction on current grants or projects.||INR 11,00,000|