Master of Engineering (Renewable Engineering)
Program Overview
The Master of Engineering (Renewable Energy) is a two-year program designed for individuals with a non-accredited engineering background or a Bachelor of Engineering Science degree. The program provides specialized knowledge and skills in renewable energy technologies, systems engineering, energy efficiency, and assessment frameworks. Students can tailor their studies to their interests and career goals through advanced disciplinary knowledge courses and a design course. The program culminates in a research project that requires students to apply their acquired knowledge and skills to solve complex problems in renewable energy.
Program Outline
Degree Overview:
The Master of Engineering (Renewable Energy) is a two-year, full-time degree designed to equip students with specialized knowledge and skills in renewable energy engineering. The program is suitable for individuals with a non-accredited engineering background or a Bachelor of Engineering Science degree. The curriculum focuses on renewable energy technologies, systems engineering, energy efficiency, and assessment frameworks, providing students with the expertise necessary to pursue a career in the rapidly growing field of renewable energy.
Outline:
The Master of Engineering (Renewable Energy) coursework includes a combination of disciplinary and advanced disciplinary knowledge courses, engineering and technical knowledge courses, a design course, and a research project.
Disciplinary Knowledge Courses
- Introductory courses that provide a foundational understanding of the fundamentals of renewable energy.
Advanced Disciplinary Knowledge Courses
- Allow students to tailor their studies to their interests and career goals by selecting courses that align with specific areas of renewable energy.
Engineering and Technical Knowledge Courses
- Help students develop skills in project and staff management, leadership, strategy, and other essential technical and professional competencies.
Design Course
- Assigns students a design task relevant to their area of specialization, fostering their ability to apply engineering principles to solve real-world problems.
Research Project
- Culminates the program, requiring students to bring together the knowledge and skills they have acquired throughout the degree to solve complex, open-ended problems related to renewable energy.
Assessment:
The assessment methods used in the Master of Engineering (Renewable Energy) program vary depending on the individual courses. Common assessment techniques include:
- Assignments
- Projects
- Presentations
- Exams
- Research reports
Teaching:
The Master of Engineering (Renewable Energy) program is taught by a team of experienced faculty members with expertise in various areas of renewable energy. The teaching methods employed include lectures, tutorials, practical sessions, and project work. The program also incorporates a strong emphasis on industry engagement, providing students with opportunities to apply their knowledge in real-world settings through internships, industry projects, and guest lectures from industry professionals.
Careers:
Upon graduating from the Master of Engineering (Renewable Energy) program, students can pursue a wide range of career opportunities in the renewable energy sector, including:
- PE & RE system design, analysis, and construction
- Policy, financing, marketing, and energy markets
- Engineering consulting and project management
- Solar architecture, energy-efficient building design
- Energy efficiency
- Manufacturing, quality control, and reliability
- Research and development
University of New South Wales, Sydney
Overview:
The University of New South Wales (UNSW) Sydney is a leading public research university located in Sydney, Australia. It is renowned for its academic excellence and is consistently ranked among the top universities in Australia and globally.
Services Offered:
UNSW Sydney offers a wide range of services to its students, including:
Study Options:
Undergraduate and postgraduate degrees, short courses, online programs, professional development opportunities, and Higher Degree Research.Campus Experience:
A vibrant campus environment with various facilities, including accommodation, student support services, and a comprehensive library.Support Services:
Academic advising, career counseling, financial aid, and mental health resources.International Student Support:
Dedicated services for international students, including visa assistance, cultural orientation, and English language programs.Student Life and Campus Experience:
UNSW Sydney provides a dynamic and engaging campus experience for its students. The university boasts a diverse student body, a wide range of clubs and societies, and numerous social and cultural events throughout the year. Students can enjoy a vibrant campus life with opportunities to connect with peers, explore their interests, and develop their skills.
Key Reasons to Study There:
Academic Excellence:
UNSW Sydney is recognized for its high-quality academic programs and world-class research.Global Reputation:
The university consistently ranks among the top universities in Australia and internationally.Research Opportunities:
Students have access to cutting-edge research facilities and opportunities to work alongside leading researchers.Career Development:
UNSW Sydney provides strong career support services and connections with industry partners.Vibrant Campus Life:
The university offers a diverse and engaging campus environment with numerous opportunities for student involvement.Academic Programs:
UNSW Sydney offers a wide range of academic programs across its eight faculties:
- Arts, Design & Architecture
- Business School
- Engineering
- Law & Justice
- Medicine & Health
- Science
- UNSW Canberra
The university is particularly known for its strengths in engineering, business, medicine, and science.
Entry Requirements:
Admission to this program requires one of the following:
- 4-year non-accredited (under the Washington Accord) Bachelor of Engineering degree (or equivalent) in a cognate discipline with a minimum 65% average; or
- 3-year Bachelor of Engineering Science degree in a cognate discipline, at least equivalent to the first three years of an Engineering degree accredited under the Washington Accord with a minimum 75% average.
