Overview
This specialisation in Renewable Energy Engineering encompasses a range of renewable energy technologies and their use. These include heat and electricity generation from solar thermal systems, photovoltaics, wind turbines, biomass and the important areas of solar architecture and the design of energy efficient buildings and appliances.
The cross-disciplinary nature of … For more content click the Read More button below.
Learning Outcomes
1.
Show proficiency in the enabling sciences that underpin Renewable Energy (physics, mathematics and computer science), sustainability and climate change, quantify the impact of human activities on environmental systems and propose engineering solutions.
2.
Demonstrate proficiency of Renewable Energy specialist technical knowledge including quantifying the magnitude, variability and uncertainty of the resources underpinning renewable energy and energy systems, analysing the impact on system design, operation, performance and integration within the broader energy system.
3.
Critically evaluate and apply current research to the solution of problems faced in a real world context, in Renewable Energy engineering, by considering technical, economic, social and environmental implications.
4.
Use appropriate analytical and computational tools to analyse complex problems in renewable energy and solve by applying critical thinking and engaging with real world context.
5.
Design renewable energy systems using knowledge of the functionality and operating principles of systems components, enabling technologies and relevant standards.
6.
Use plant and electricity industry data to analyse the operation and impacts of renewable and distributed energy systems and design and implement solutions to improve their performance and integration into electricity systems.
7.
Lead and manage renewable energy projects, individually or as part of a team, in a systematic and professional manner.
8.
Demonstrate a high level of personal autonomy, perseverance, ethical conduct and professional accountability when working as an individual and within diverse multi-cultural and multi-disciplinary team environments.
9.
Communicate professionally and effectively within and outside of renewable energy engineering and effectively incorporate feedback.
Available in Program(s) Single degree program(s) in which this specialisation is available:
Bachelor of Engineering (Honours) - BE (Hons)3707 - Engineering (Honours)
Specialisation Structure
Students must complete 168 UOC.
Level 1 Core Courses48 Units of Credit:
Level 2 Core Courses36 Units of Credit:
Level 3 Core Courses24 Units of Credit:
Level 4 Core Courses24 Units of Credit:
Strand Electives18 Units of Credit:
Discipline (Depth) Electives18 Units of Credit:
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You are responsible for ensuring that you enrol in courses according to your program requirements and by following the advice of your Program Authority. myUNSW enrolment checks that you have met enrolment requirements such as pre-requisites for individual courses but not that you are enrolling in courses that will count towards your program requirements.
You are responsible for ensuring that you enrol in courses according to your program requirements and by following the advice of your Program Authority. myUNSW enrolment checks that you have met enrolment requirements such as pre-requisites for individual courses but not that you are enrolling in courses that will count towards your program requirements.
Pre-2019 Handbook Editions
Access past handbook editions (2018 and prior)