M-TECH in Energy Science Technology at Manipal University Jaipur
Jaipur, Rajasthan
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About the Specialization
What is Energy Science & Technology at Manipal University Jaipur Jaipur?
This Energy Science & Technology program at Manipal University Jaipur focuses on equipping professionals with advanced knowledge for India''''s evolving energy sector. It meticulously covers diverse energy sources, conversion technologies, and management strategies essential for sustainable growth. The program''''s interdisciplinary approach prepares graduates to tackle complex energy challenges and contribute to national energy security and environmental goals.
Who Should Apply?
This program is ideal for engineering graduates (e.g., Chemical, Mechanical, Electrical, Civil) and M.Sc. holders in related sciences, aiming for specialized roles in the energy domain. It attracts fresh graduates aspiring to enter India''''s rapidly expanding renewable and conventional energy industries, as well as working professionals seeking to upskill or transition into energy research, development, or policy-making roles to address India''''s unique energy demands.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding careers in energy generation, transmission, distribution, and management across India. Potential roles include Energy Auditor, Renewable Energy Consultant, Power Plant Engineer, or Research Scientist, with entry-level salaries typically ranging from INR 4-7 LPA, growing significantly with experience. The specialization also aligns with national initiatives for sustainable energy, fostering careers in a crucial and growing sector.
Student Success Practices
Foundation Stage
Build Strong Analytical & Simulation Skills- (Semester 1-2)
Focus intently on courses like Applied Thermodynamics, Advanced Heat Transfer, and Computational Methods. Master problem-solving techniques and gain proficiency in simulation tools. Form study groups to discuss complex energy system models and theoretical concepts.
Tools & Resources
MATLAB, Python (for data analysis/modeling), Ansys Fluent (for CFD basics), Textbooks on thermodynamics and heat transfer
Career Connection
Essential for roles in R&D, design, and simulation of energy components in Indian manufacturing or research firms.
Actively Participate in Energy Labs & Projects- (Semester 1-2)
Make the most of Energy Systems Lab and Renewable Energy Lab sessions. Proactively engage in experiments, understand the underlying principles, and analyze results critically. Initiate small-scale projects based on lab findings or current energy news.
Tools & Resources
Lab equipment (solar PV kits, wind turbine models), Sensor data loggers, Project reports from previous batches
Career Connection
Develops practical skills highly valued by Indian power generation, renewable energy, and energy auditing companies.
Research and Present Emerging Energy Trends- (Semester 1-2)
Utilize the Research Methodology and Seminar courses to delve into global and Indian energy trends, policies, and technological advancements. Regularly read industry journals, government reports (e.g., NITI Aayog, MNRE), and present findings in departmental seminars or conferences.
Tools & Resources
Scopus, Web of Science, IEEE Xplore, Google Scholar, MNRE website, NITI Aayog energy reports
Career Connection
Cultivates critical thinking and communication skills, preparing students for research roles, energy policy analysis, and technical consulting.
Intermediate Stage
Strategically Choose Electives for Specialization- (Semester 3)
Carefully select Elective-II and Elective-III based on career aspirations and market demand within India''''s energy sector. Attend guest lectures, speak with faculty, and research companies working in chosen areas (e.g., Bio-Energy, Smart Grid, Hydrogen Energy) to make informed decisions.
Tools & Resources
Course catalogs, Industry reports on emerging energy technologies, Faculty advisors, LinkedIn for industry professional insights
Career Connection
Builds a niche expertise, making graduates more competitive for specialized roles in specific energy sub-sectors in India.
Initiate and Excel in Dissertation Research- (Semester 3)
Begin the Dissertation with a clear research problem, thorough literature review, and well-defined methodology. Regularly meet with your supervisor, seek feedback, and aim for publishable quality research, even if preliminary.
Tools & Resources
Research journals, University library databases, Research software (e.g., Zotero for references), Supervisor guidance
Career Connection
Essential for careers in R&D, academia, and for demonstrating problem-solving capabilities to potential employers in the Indian energy industry.
Network with Industry Professionals- (Semester 3)
Attend webinars, workshops, and conferences focused on energy science and technology within India. Actively engage with guest speakers, faculty, and alumni. Leverage professional platforms like LinkedIn to connect with experts in your chosen specialization area.
Tools & Resources
LinkedIn, Industry event calendars (e.g., CII, FICCI energy events), Alumni network portal
Career Connection
Opens doors to internship opportunities, mentorship, and enhances job prospects in the Indian energy market.
Advanced Stage
Finalize and Defend High-Quality Dissertation- (Semester 4)
Dedicate significant effort to completing the experimental work, data analysis, and writing of your dissertation in Semester 4. Ensure academic rigor, clear presentation of findings, and meticulous preparation for the final defense.
Tools & Resources
Thesis writing guides, Statistical software, Presentation tools (PowerPoint, LaTeX Beamer), Mock defense sessions
Career Connection
A strong dissertation is a powerful credential for securing R&D positions, academic roles, or demonstrating advanced technical skills to industry employers.
Engage in Intensive Placement Preparation- (Semester 4)
Actively participate in campus placement drives, workshop on resume building, interview skills, and group discussions tailored for the energy sector. Prepare for technical interviews by revisiting core energy engineering concepts and elective specialization topics.
Tools & Resources
Placement cell resources, Mock interview platforms, Company-specific interview guides, Technical textbooks
Career Connection
Directly aims at securing desirable placements in leading Indian energy companies or relevant organizations upon graduation.
Explore Entrepreneurial & Higher Study Avenues- (Semester 4)
Consider opportunities to develop innovative energy solutions or products that address Indian market needs. Explore options for further higher studies (PhD) in India or abroad, if aligned with long-term career goals. Network with startup founders in the clean energy space.
Tools & Resources
Entrepreneurship cells, Incubators (e.g., Manipal Incubation Centre), PhD program guides, Research opportunities portals
Career Connection
Fosters a mindset for innovation, leadership, or advanced research, contributing to India''''s burgeoning energy innovation ecosystem.
Program Structure and Curriculum
Eligibility:
- B.E./B.Tech. or equivalent degree in Chemical, Mechanical, Electrical, Electrical & Electronics, Electronics & Communication, Electronics & Instrumentation, Bio-Technology, Civil, Environmental, Metallurgy, Mining, Materials, Ceramic, Energy, Petrochemical, Petroleum, Automobile, Aeronautical, Aerospace, Industrial & Production, Agricultural Engineering with a minimum of 55% marks in aggregate. Or M.Sc. in Physics, Chemistry, Material Science, Renewable Energy, Environmental Science, Electronics, Nanoscience & Nanotechnology, from a recognized university/institution with minimum of 55% marks in aggregate. Admission will be based on valid GATE score / Written Test and Personal Interview conducted by the University.
Duration: 2 years (4 semesters)
Credits: 66 Credits
Assessment: Internal: 50% (for Theory courses), 70% (for Lab courses), External: 50% (for Theory courses), 30% (for Lab courses)
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MES 6101 | Energy Systems and Technologies | Core | 3 | Energy sources and resources, Conventional energy technologies, Renewable energy technologies, Energy conversion principles, Energy policy and environmental impacts |
| MES 6102 | Applied Thermodynamics | Core | 3 | Laws of thermodynamics, Power generation cycles (Rankine, Brayton), Refrigeration and heat pump cycles, Combustion thermodynamics, Exergy analysis |
| MES 6103 | Advanced Heat Transfer | Core | 3 | Conduction heat transfer, Convection heat transfer (forced and natural), Radiation heat transfer, Heat exchangers design and analysis, Phase change heat transfer |
| MES 6104 | Energy Storage Systems | Core | 3 | Types of energy storage (thermal, electrical), Battery technologies and applications, Supercapacitors, Fuel cells and hydrogen storage, Mechanical energy storage (flywheels, pumped hydro) |
| MES 6105 | Energy Systems Lab | Lab | 1 | Solar PV system performance analysis, Wind energy system characteristics, Fuel cell experimental studies, Energy audit instrumentation, Battery testing and characterization |
| MES 6106 | Research Methodology | Core | 3 | Research problem identification, Literature review techniques, Experimental design and data collection, Statistical analysis and interpretation, Report writing and ethical considerations |
| MES 6107 | Seminar | Core | 1 | Technical presentation skills, Review of research papers, Oral communication techniques, Topic selection and outlining, Audience engagement strategies |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MES 6201 | Renewable Energy Sources | Core | 3 | Solar thermal and photovoltaic systems, Wind energy resource assessment and turbines, Hydropower generation principles, Biomass conversion technologies, Geothermal and ocean energy systems |
| MES 6202 | Energy Management and Audit | Core | 3 | Energy conservation principles, Energy auditing methodology and instruments, Energy management systems (ISO 50001), Demand-side management strategies, Energy efficiency in industrial and commercial sectors |
| MES 6203 | Power Plant Engineering | Core | 3 | Thermal power plants (coal, gas, diesel), Nuclear power generation, Hydroelectric power plants, Combined cycle power generation, Environmental impacts and control technologies |
| MES 6204 | Computational Methods in Energy Engineering | Core | 3 | Numerical methods for energy problems, Simulation of energy systems, Computational Fluid Dynamics (CFD) basics, Optimization techniques in energy, Programming for energy applications |
| MES 6205 | Renewable Energy Lab | Lab | 1 | Solar thermal collector efficiency, Wind turbine performance characteristics, Biomass gasification experiments, Micro-hydro power system analysis, Hybrid renewable energy system integration |
| MES 6206-A | Bio-Energy and Bio-Fuels | Elective - I | 3 | Biomass resources and characterization, Bioconversion technologies (anaerobic digestion), Biofuel production (bioethanol, biodiesel), Thermochemical conversion (gasification, pyrolysis), Waste to energy concepts |
| MES 6206-B | Waste to Energy | Elective - I | 3 | Municipal solid waste management, Incineration and gasification of waste, Anaerobic digestion of organic waste, Landfill gas recovery, Energy generation from industrial waste |
| MES 6206-C | Fuel Cell Technology | Elective - I | 3 | Principles of fuel cells, Types of fuel cells (PEMFC, SOFC, MCFC), Fuel cell components and materials, Hydrogen production and storage, Fuel cell applications in power generation |
| MES 6206-D | Smart Grid Technology | Elective - I | 3 | Introduction to smart grid concepts, Smart metering and demand response, Distributed generation and microgrids, Cyber security in smart grids, Integration of renewable energy in smart grids |
| MES 6206-E | Sustainable Development | Elective - I | 3 | Concepts of sustainable development, Environmental sustainability indicators, Economic and social aspects of sustainability, Green technologies and eco-design, Policies for sustainable energy and environment |
| MES 6206-F | Hydrogen Energy | Elective - I | 3 | Hydrogen production methods, Hydrogen storage technologies, Transportation and distribution of hydrogen, Safety aspects of hydrogen energy, Applications of hydrogen as fuel |
| MES 6206-G | Electric Vehicles | Elective - I | 3 | Electric vehicle architectures, Electric motors and powertrains, Battery systems for EVs, Charging infrastructure, Hybrid electric vehicles |
| MES 6206-H | Climate Change and Energy | Elective - I | 3 | Causes and impacts of climate change, Greenhouse gas emissions from energy sector, Climate change mitigation strategies, Carbon capture and storage, International climate agreements |
| MES 6207 | Project - I | Core | 3 | Problem identification and definition, Extensive literature review, Methodology development, Preliminary design and analysis, Project report preparation |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MES 7101-A | Bio-Energy and Bio-Fuels | Elective - II | 3 | Biomass resources and characterization, Bioconversion technologies (anaerobic digestion), Biofuel production (bioethanol, biodiesel), Thermochemical conversion (gasification, pyrolysis), Waste to energy concepts |
| MES 7101-B | Waste to Energy | Elective - II | 3 | Municipal solid waste management, Incineration and gasification of waste, Anaerobic digestion of organic waste, Landfill gas recovery, Energy generation from industrial waste |
| MES 7101-C | Fuel Cell Technology | Elective - II | 3 | Principles of fuel cells, Types of fuel cells (PEMFC, SOFC, MCFC), Fuel cell components and materials, Hydrogen production and storage, Fuel cell applications in power generation |
| MES 7101-D | Smart Grid Technology | Elective - II | 3 | Introduction to smart grid concepts, Smart metering and demand response, Distributed generation and microgrids, Cyber security in smart grids, Integration of renewable energy in smart grids |
| MES 7101-E | Sustainable Development | Elective - II | 3 | Concepts of sustainable development, Environmental sustainability indicators, Economic and social aspects of sustainability, Green technologies and eco-design, Policies for sustainable energy and environment |
| MES 7101-F | Hydrogen Energy | Elective - II | 3 | Hydrogen production methods, Hydrogen storage technologies, Transportation and distribution of hydrogen, Safety aspects of hydrogen energy, Applications of hydrogen as fuel |
| MES 7101-G | Electric Vehicles | Elective - II | 3 | Electric vehicle architectures, Electric motors and powertrains, Battery systems for EVs, Charging infrastructure, Hybrid electric vehicles |
| MES 7101-H | Climate Change and Energy | Elective - II | 3 | Causes and impacts of climate change, Greenhouse gas emissions from energy sector, Climate change mitigation strategies, Carbon capture and storage, International climate agreements |
| MES 7102-A | Bio-Energy and Bio-Fuels | Elective - III | 3 | Biomass resources and characterization, Bioconversion technologies (anaerobic digestion), Biofuel production (bioethanol, biodiesel), Thermochemical conversion (gasification, pyrolysis), Waste to energy concepts |
| MES 7102-B | Waste to Energy | Elective - III | 3 | Municipal solid waste management, Incineration and gasification of waste, Anaerobic digestion of organic waste, Landfill gas recovery, Energy generation from industrial waste |
| MES 7102-C | Fuel Cell Technology | Elective - III | 3 | Principles of fuel cells, Types of fuel cells (PEMFC, SOFC, MCFC), Fuel cell components and materials, Hydrogen production and storage, Fuel cell applications in power generation |
| MES 7102-D | Smart Grid Technology | Elective - III | 3 | Introduction to smart grid concepts, Smart metering and demand response, Distributed generation and microgrids, Cyber security in smart grids, Integration of renewable energy in smart grids |
| MES 7102-E | Sustainable Development | Elective - III | 3 | Concepts of sustainable development, Environmental sustainability indicators, Economic and social aspects of sustainability, Green technologies and eco-design, Policies for sustainable energy and environment |
| MES 7102-F | Hydrogen Energy | Elective - III | 3 | Hydrogen production methods, Hydrogen storage technologies, Transportation and distribution of hydrogen, Safety aspects of hydrogen energy, Applications of hydrogen as fuel |
| MES 7102-G | Electric Vehicles | Elective - III | 3 | Electric vehicle architectures, Electric motors and powertrains, Battery systems for EVs, Charging infrastructure, Hybrid electric vehicles |
| MES 7102-H | Climate Change and Energy | Elective - III | 3 | Causes and impacts of climate change, Greenhouse gas emissions from energy sector, Climate change mitigation strategies, Carbon capture and storage, International climate agreements |
| MES 7103 | Dissertation | Core | 12 | Advanced research problem definition, Experimental design and execution, Data analysis and interpretation, Thesis writing and documentation, Mid-term defense and progress review |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MES 7201 | Dissertation | Core | 12 | Finalization of research work, Comprehensive data analysis, Thesis refinement and editing, Presentation of research findings, Final thesis defense |