The first year of the BE is a broad education in engineering fundamentals. At the end of the first year, you can choose to enter Energy Engineering. Your chosen area of specialization in the second year will also offer routes to further branches of engineering at the Masters level. At the end of a successful 3rd year, students enter the 4th year, which is a pathway to either the 5th Year Integrated ME for eligible students or exiting with a BE(Hons). The ME pathway finishes with a Professional Work Placement that takes place during the 2nd semester and the summer break (8 months).
In an era of unprecedented pressure on resources, energy engineering is crucial to address some of the world's greatest challenges, namely how to meet the electricity, heating and transport energy needs of the world's growing population while reducing human impact on the climate with innovative, sustainable engineering solutions.
Through a combination of solid engineering fundamentals covered in the first two years of the course (e.g. thermodynamics, fluids, and electrical systems) and advanced energy engineering topics covered in the final two years (including power electronics, control systems, wind, solar photovoltaic and ocean energy, energy demand management and energy policy), graduates of the Energy Engineering course will be well-equipped to source, design, convert, transmit and supply useful energy to meet the world's present and long-term needs.
