M.tech. Energy Engineering,Highlights, Entrance Exam, admission, Eligibility, Duration, Selection Criteria, How to Apply, Application Form, Application Process, fee, Syllabus,Salary and Jobs,career opportunities
M.Tech. Energy Engineering is a postgraduate engineering program that focuses on the study of energy generation, conversion, storage, and distribution. This program is designed to provide students with a strong foundation in the field of energy engineering, and equip them with the knowledge and skills required to pursue a successful career in this field.
Here are the highlights of the M.Tech. Energy Engineering program:
M.tech. Energy Engineering Entrance Exam: The most common entrance exams for admission to M.Tech. Energy Engineering programs in India are GATE, BITS HD, and some universities conduct their own entrance exams.
M.tech. Energy Engineering Admission: Admission to the M.Tech. Energy Engineering program is usually based on the performance in the entrance exam, followed by counseling and seat allotment.
M.tech. Energy Engineering Eligibility: To be eligible for the M.Tech. Energy Engineering program, candidates must have completed their Bachelor's degree in Engineering/Technology or a Master's degree in Physics/Chemistry with a minimum aggregate score of 55% from a recognized university. The eligibility criteria may vary depending on the institute.
M.tech. Energy Engineering Duration: The duration of the M.Tech. Energy Engineering program is two years, consisting of four semesters.
M.tech. Energy Engineering Selection Criteria: The selection criteria for admission to the M.Tech. Energy Engineering program usually involve a combination of entrance exam scores, academic performance, and sometimes even a personal interview.
M.tech. Energy Engineering How to Apply: Candidates can apply for the M.Tech. Energy Engineering program online or offline, depending on the institute. The application process usually involves filling out an application form, submitting required documents, and paying the application fee.
M.tech. Energy Engineering Application Form: The application form for the M.Tech. Energy Engineering program can be obtained from the official website of the institute or by visiting the institute in person.
M.tech. Energy Engineering Application Process: The application process usually involves filling out an online or offline application form, uploading required documents, and paying the application fee.
M.tech. Energy Engineering Fee: The fee for the M.Tech. Energy Engineering program varies depending on the institute. The average annual fee for this program ranges from INR 50,000 to INR 2,00,000.
M.tech. Energy Engineering Syllabus: The M.Tech. Energy Engineering program covers a wide range of topics, including Energy Resources, Energy Conversion Technologies, Renewable Energy Sources, Energy Storage and Distribution, Energy Management and Policy, and Energy Economics. Some of the key subjects covered in this program include Energy Auditing and Management, Solar Energy Systems, Wind Energy Systems, Biomass Energy Systems, and Energy Conservation Techniques.
M.tech. Energy Engineering Salary and Jobs: Graduates of the M.Tech. Energy Engineering program can expect to find a wide range of job opportunities in both the public and private sectors. Some of the popular job roles for energy engineering graduates include Energy Manager, Energy Consultant, Energy Auditor, Project Manager, and Research Analyst. The average salary for an energy engineering graduate in India ranges from INR 4,00,000 to INR 12,00,000 per annum, depending on the job role and the company.
M.tech. Energy Engineering Career Opportunities: The field of energy engineering is rapidly growing, and there is a growing demand for professionals with a strong background in this field. Some of the popular career opportunities for energy engineering graduates include working in the fields of renewable energy, energy efficiency, power generation and distribution, and energy policy and regulation. Graduates can also pursue higher education in this field, including pursuing a PhD in Energy Engineering.
M.Tech. Energy Engineering is a two-year postgraduate Energy Engineering course. Energy designing is a wide field of building worried with energy proficiency, energy administrations, office the executives, plant designing, ecological consistence and elective energy advances. This course manages the energy assets, energy transformation, energy preservation, and ecological effects. Subjects to be secured incorporate various sorts of energy assets and their uses, various kinds of energy change innovation, for example, power devices, thermoelectric, and sun powered energy transformation, and energy preservation advances, for example, squeeze innovation and cogeneration. The course is two years term, however it relies upon the principles and guidelines of deferent organizations. The M.E. (Energy Engineering) course is a significant one which opens my activity scopes for the candidates in the wake of having passed it.
Eligibility
Job Types
NOTE:- Students who are admitted must bring all the original documents to with them to the Institute Campus. Students failing to present all relevant original documents upon request may be denied admission or later told to leave the university.
Given below are few of the important highlights of the program.
Program Full Name | Master of Technology in Energy Engineering |
Program Level | Master Degree Courses |
Duration of the Program | 2 Years |
Examination Type | Year |
Eligibility | B.Tech In Related Subject with 50% Marks from a recognized university |
Admission Process | Entrance Exam and Merit Based |
Average Program Fee | Rs. 1 Lakh - Rs. 2 Lakh |
Syllabus of Management as prescribed by various Universities and Colleges.
Paper Code | Subjects of Study |
1 | Applied Mathematics |
2 | Advanced Heat Transfer |
3 | Advanced Thermodynamics |
4 | Advanced Fluid Mechanics |
5 | Fuels and Combustion |
6 | Elective |
7 | Practical |
8 | Energy Laboratory |
9 | Energy Conservation and Management |
10 | Environmental Pollution Control |
11 | Instrumentation for Thermal Systems |
12 | Renewable Energy Systems |
13 | Energy Systems Modelling and Analysis |
14 | Elective II |
15 | Simulation Laboratory |
16 | Elective III |
17 | Elective IV |
18 | Elective V |
19 | Project Work-Phase II |
20 | Cogeneration and Waste Heat Recovery Systems |
21 | Boiler Technology |
22 | Fluidized Bed Systems |
23 | Design of Heat Exchanger |
24 | Thermal Storage Systems |
25 | Computational Fluid Dynamics |
26 | Energy Conversion Techniques |
27 | Power Generation, Transmission and Utilization |
28 | Waste Management and Energy Recovery |
29 | Clean Development Mechanism |
30 | Solar Energy Systems |
31 | Bio-energy Conversion Techniques |
32 | Nuclear Engineering |
33 | Wind Energy and Other Systems |
34 | Finite Element Analysis |
Mentioned below are some states in India that offer the program.