Master of Engineering in Mechanical Engineering, University of Ontario Institute of Technology

Oshawa, Ontario

48 Months

Check Eligibility

About this course

This course offers a comprehensive exploration of engineering principles focused on energy systems, advanced materials, and control technologies. Students dive into areas such as active noise and vibration control, advanced composites, refrigeration, aerodynamics, and renewable energy sources like wind, solar, and geothermal. The curriculum emphasizes practical applications in controlling vibrations, optimizing energy conversion, and integrating sustainable energy solutions. Students will also study fluid mechanics, heat transfer, and multiphase flows, equipping them with the skills to tackle real-world engineering challenges related to energy production, storage, and management.

Why this course is highly recommended

This course is ideal for students passionate about energy innovation and sustainable engineering. Its broad focus on cutting-edge research areas like hydrogen technologies and multi-generation energy systems make it highly relevant in today’s push for clean and efficient energy solutions. The research opportunities and the diverse faculty expertise provide a rich learning environment for students aiming to make a significant impact in the field of energy engineering.

Specialisation

The program covers diverse specialisations including control systems, energy conversion and management, renewable energy, nanomaterials, and advanced manufacturing. It integrates interdisciplinary approaches such as robotics, automation, and smart energy systems, preparing students for innovative roles in a wide array of engineering fields related to energy and materials science.

Course fees

Application fees

18.77L

1st year tuition fees

18.77L

Living cost

Degree requirements

The input data does not specify the exact degree requirements for this course. Interested students should refer to the university’s official guidelines for detailed admission prerequisites.

English language test

DUOLINGO

IELTS

6.5

TOEFL

PTE

Career prospects

Graduates can pursue careers in renewable energy, energy management, manufacturing, materials development, robotics, and control systems. Opportunities exist in research institutions, renewable energy companies, automotive industries, and government agencies focused on sustainable development.

FAQs

What are some key research areas within this program?

Students can explore research areas including active noise and vibration control, advanced composites, hydrogen technologies, renewable energy systems, and fluid-structure interactions. Visit the faculty’s website or the university’s Expert Centre for more details.

How can I learn more about the faculty involved in this course?

You can learn more about the research experts by visiting the faculty’s website and the university's Expert Centre.