Course Description
Renewable energy is a key driver for a sustainable global future, and this course will provide you with the background needed to create a sustainable future for our planet.
This course offers advanced training in the area of renewable and sustainable energy systems, sustainable energy policy and development, energy efficiency and carbon management.
You’ll learn the advanced interdisciplinary skills required to design, optimise and evaluate the technical, social and economic viability of renewable energy schemes.
Gain practical experience and learn from experts from the Murdoch University Energy Research and Innovation Group (MUERI), with the opportunity to undertake a dissertation in an area you’re passionate about.
You’ll graduate with a globally recognised multi-disciplinary degree taught by researchers at the forefront of their fields.
8 reasons to study a Master of Renewable Energy Engineering at Murdoch
Murdoch University has been at the forefront of energy teaching and research since 1975 and offers the most comprehensive program in renewable energy within Australia.
Study on your own terms with flexible full or part-time study. All units are offered completely online, allowing you to upskill while you are working.
Specialise your degree depending on your area of specialisation and career goals.
This course has been developed in conjunction with industry consultants in the energy and carbon industry, with additional units added to the program in response to industry demands and developments.
Learn from industry and academia experts who have research expertise in renewable energy system design and performance, energy efficient buildings and transport, sustainable energy development, Smart Cities, climate change risk assessments, carbon neutral strategies, energy storage, and biomass technology.
Take advantage of our teaching and research facilities, including our renewable energy outdoor test area for research and development on solar photovoltaic technology, solar thermal power, wind turbines, hybrid systems and micro-grid technology.
Utilise our engineering and energy laboratory with battery room, environmental chamber, PV array simulator, power converter testing room, diesel generator room and electric vehicle charging station.
Develop your skills
Build essential skills and knowledge to meet your career or study goals. Topics you’ll cover include:
renewable energy systems design
planning sustainable energy projects in developing countries
assessing the energy efficiency of buildings
developing sustainable energy policy
conducting climate change risks assessment and developing management strategies
executing a substantial research project in the areas of renewable energy, energy efficiency and climate change management.
Your career
Graduating with a Master of Renewable and Sustainable Energy will give you skills that are in high demand for a range of careers in areas ranging from renewable energy systems design and project management, through to energy and carbon policy, greenhouse gas accounting and energy management.
You could expect to gain employment in the following industries and organisations:
power generation
renewable energy manufacturing and installation
international aid
government departments
economic regulatory authorities
energy efficiency and environmental consultancies
carbon accounting
energy and environmental consultancies
university and private industry research organisations
local councils.
Professional recognition
Successful completion of the unit PEN590 Energy Systems gives you provisional accreditation by the Clean Energy Council for design of stand-alone photovoltaic systems.
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24 年二月 2020
Murdoch University
Perth Campus,
90 South Street,
MURDOCH,
Western Australia,
6150, PERTH, Australia
Recognised Bachelor's degree (AQF Level 7) or higher, or equivalent training, or professional experience in a related area.
Students may be eligible for advanced standing in the Masters if they have achieved AQF Level 8 in a recognised, cognate discipline. Some of the units taken assume some prior knowledge, details of which are given in the description of each unit in the Handbook. The most common of these is the high school Physics prerequisite for units such as Energy in Society, Energy Management and Energy System Some students may therefore need to complete additional prerequisite units.
English Language requirements: IELTS overall 6.0 with no band below 6.0; CAE - 169 overall with no band below 169; PTE - 50 with no band below 50; TOEFL IBT - 73 with no band less than 18; OET - OET with a minimum of C in the four components.
不同学校与专业对雅思成绩的要求也可能不同