B.Tech Renewable Energy
Programme Overview
The B.Tech in Renewable Energy at MIT World Peace University (MIT-WPU), Pune is a futuristic engineering degree that equips students to lead in the global transition to clean and sustainable energy systems. With India’s commitment to achieving net- zero emissions by 2070 and 50% non-fossil fuel-based power capacity by 2030, this programme empowers students with the technical, analytical, and managerial skills needed in the fast-growing renewable energy sector.
The curriculum blends both technological expertise and environmental stewardship by having the courses that include core engineering concepts with renewable energy domains such as solar, wind, hydrogen, e-mobility, and smart grids along with data science, AIML, Cyber security in present context towards developing intelligent systems.
The programme emphasizes hands-on learning through state-of-the-art laboratories, and experiential learning through rural, national, and international academic immersions, industry-driven minor, and capstone projects along with mandatory internships, providing real-world exposure to the students.
Major Tracks
- Renewable Energy Systems
- Energy Management
- eMobility
- Intelligent Systems
- Smart and Micro grids
Duration & Fees
Terms & Conditions Apply:
- All Scholarships are awarded on a First Come First Serve basis. All Scholarships are awarded as fee adjustments.
- To continue the scholarship for the entire duration of the programme, a minimum level of the academic score has to be maintained at an 8 CGPA across all semesters, attendance is to be maintained at a minimum of 80 percent, with no live backlogs in any subject/programme and no semester break, and there should be no disciplinary action against the student.
For more detailed information visit our website: https://mitwpu.edu.in/scholarships
Eligibility
A minimum of 50% aggregate marks in Class 10+2/ HSC, with English as a compulsory subject and A minimum of 50% aggregate marks in any one of the following subject groups:
- PCM (Physics, Chemistry, Mathematics),
- Physics & Mathematics with any Technical Vocational Subject
- PCB* (Physics, Chemistry, Biology*),
[*Biology/Biotechnology is applicable only for the Bioengineering Programme.] (Minimum 45% aggregate marks for candidates belonging to the Reserved Category from Maharashtra State).
OR
A minimum 60% aggregate marks in a Diploma in Engineering & Technology in a relevant branch from a government-approved technical board.
Selection Process
Admissions are based on the scores of JEE 2026/ MHT-CET 2026/ PERA-CET 2026, or MHT-CET-B* 2026/ NEET 2026* (*applicable only for the Bioengineering programme), along with a 500-word Statement of Purpose (SOP) written by the candidate
Programme Highlights
- Holistic engineering foundation : Get practical experience with advanced tools like AutoCAD, Revit, Primavera, STADD PRO, BIM, and IoT, which are essential for modern civil engineering projects.
- Specialized electives with applied focus : Engage with industry experts through guest lectures, seminars, workshops, and visits to leading organisations in civil engineering.
- Experiential Learning : Hands-on labs, project work, and field visits ensure that theoretical concepts are constantly complemented by practical experience and real-world exposure.
- Modern Infrastructure : Access to world-class labs such as centre of excellence eMobility, SIEMENS Automation Lab, simulation tools such as MATLAB, ANSYS, etc. and research facilities enabling students to engage in experimentation, research, and innovation.
- Industry and International University Academic Linkages : Collaborations with eminent industry leaders and research institutes offering real-world exposure through internships and live projects.
- Global Alumni Network : Strong alumni interface worldwide for mentorship and career guidance.
- Value based education encouraging social innovation : Embedded values of sustainability, peace and social impact align with MIT-WPU’s ethos, preparing graduates not just as engineers but as change-agents in society.
Career Prospects
Renewable Energy Design Engineer
O and M Engineer
Micro Grid Design Engineer
Technical Consultant
Field Engineer
Starup and entrepreneurship
Sustainability Analyst
Carbon Consultant
Energy Auditor
Energy Manager
Electric Vehicle (EV) System Engineer
Power Electronics Engineer
BMS Engineer
Power Quality Consultant
SCADA/Automation Engineer
Protection and control Engineer
Data Analyst
AIML Engineer
Protection and control Engineer
Data Analyst
AIML Engineer
Cyber Security Expert
IoT Systems Engineer
Research and Development
Consulting and finance
Programme Outcomes
- Apply engineering fundamentals, scientific principles, and analytical reasoning to design, model, and evaluate complex renewable energy systems addressing real-world challenges.
- Employ mathematical, computational, and simulation-based techniques to design, analyse, and optimize renewable and hybrid energy systems for improved performance and reliability.
- Utilize intelligent techniques that use digital platforms, AIML, and data analytics tools for monitoring, control, and performance optimization of renewable energy systems in practical environments.
- Understand and address the environmental, regulatory, economic, and societal dimensions of energy systems, demonstrating commitment to ethics, sustainability, and national/global development goals.
- Work effectively as an individual and as a member or leader in multidisciplinary teams, collaborating with industry, research, policy, and community stakeholders to achieve common objectives.
- Recognize the need for continuous learning and adapt to emerging technologies, business models, and global transitions in the renewable energy sector through innovation and self-development.
Placements & Recruiters
100% Placement Assistance
Top Recruiters
FAQs
It is a multidisciplinary engineering programme focused on clean energy technologies such as solar, wind, smart grids, energy storage, and e-mobility, preparing students for the global energy transition.
Renewable Energy is one of the fastest-growing sectors worldwide, offering strong career prospects, global relevance, and the opportunity to contribute to sustainable development.
The programme uniquely integrates core engineering with emerging domains like AI, smart grids, e-mobility, and sustainability, supported by strong industry and international linkages.
The average starting salary ranges from ₹4 to ₹8 LPA, depending on skills, domain specialization, and recruiter profile, with higher packages for niche and international roles.
Students gain hands-on experience through advanced laboratories, industry- sponsored projects, internships, field visits, and national and international academic immersions.
Yes, students receive mentoring, incubation support, project funding opportunities, and startup guidance through MIT-WPU’s innovation and entrepreneurship ecosystem.
Yes, MIT-WPU offers international collaborations, student exchange programs, joint research projects, and global internships with partner universities and institutions.
Students have access to advanced facilities including e-Mobility Centre of Excellence, Siemens Automation Lab, simulation labs (MATLAB, ANSYS), and modern research labs.
Yes, internships and live industry projects are mandatory components of the curriculum to ensure real-world exposure and practical skill development.
Graduates can pursue M.Tech, MS, MBA (Energy/Operations), PhD, or specialized international programmes in renewable energy, power systems, and sustainability.
Unlike conventional Electrical Engineering, this programme is specifically focused on renewable technologies, clean energy systems, smart grids, and sustainable power solutions.
Students receive structured training in communication, leadership, teamwork, ethics, and career readiness through workshops, mentoring, and co-curricular activities.
admissions@mitwpu.edu.in
