Master of Engineering (Renewable Energy)
- Commencing Terms
- Term 1, 2 & 3
- Duration
- 2 Year(s)
- Delivery Mode
- Face-to-face (includes blended)
- Campus
-
Kensington
- Codes
- Program code 8621
- CRICOS code 067604G
-
2024 Indicative first year full fee
- $41,000*
-
2024 Indicative full fee to complete degree
- $84,000*
-
2024 Indicative first year full fee
- $54,000*
-
2024 Indicative full fee to complete degree
- $113,000*
Fees
Fees
-
In-demand skills
-
Industry training
-
Accredited program
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Thursday, 10 October 6:00 PM – 6: 30 PM (AEDT)
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- Overview
- Entry requirements
- What will I study?
- Future careers
- How to apply
- Fees & Scholarships
Overview
The Master of Engineering (Renewable Energy) is a two-year full-time degree thatÌýwill help you develop specialised skills and knowledgeÌýfor a successful careerÌýin Renewable Energy withÌýrecognised accreditation+. Designed for students who don't have a formal engineering accreditationÌýbut have completed undergraduate study, this degree will help you develop job prospects throughÌýspecialisation, retraining or cross-training.ÌýDuring your study you’ll study targeted courses in renewable energy and energy efficiency.Ìý
The Master of Engineering in Renewable Energy enables students to specialise and gain depth of knowledge in areas related to renewable energy technologies, systems engineering, energy efficiency, and assessment frameworks.Ìý
Taught at Australia’s top engineering faculty,Ìýyou’ll have the flexibility to specialise in one area or broaden your knowledge in other areas ofÌýengineering. Exciting and practical, this degree features complex, open-ended enquiry-based projects as well asÌýa range ofÌýopportunities to help you become a leader in your field.Ìý
Graduates of this postgraduate degreeÌýsignificantly extendÌýtheirÌýknowledge and skills inÌýthis highly sought-after area ofÌýengineering.ÌýIf you’re anÌýengineer interested in the expanding renewable energy and photovoltaics industriesÌýyouÌýcan developÌýyour existing skills or refocus in the direction of renewable energy technologies, systems and integration with existing energy systems.Ìý
+The Master of Engineering (Renewable Energy) is provisionally accredited by Engineers Australia.
Why study this degree at ¹ú²ú¾«Æ·?
If youÌýwant toÌýleadÌýtheÌýchange in the way we produce energy, ¹ú²ú¾«Æ· is a great place toÌýdevelop specialised expertise.ÌýThe School of Photovoltaic and Renewable Energy Engineering (SPREE) is a leading provider of world class education and research, specialising in education for both undergraduate and postgraduate students.  We produce internationally acclaimed research and work closely with industry to provide innovative solutions to the growingÌýrenewableÌýenergy sector.Ìý
We offer innovative teaching techniques to enhance your learning including the 'Virtual Production Line' and 'Virtual World Solar Car Challenge'. Our school is well equipped for world-leading research with the Tyree Energy Technology Building and the Solar Industrial Research Facility. The laboratories at the Tyree Energy TechnologyÌýBuildingÌýofferÌýcapabilities inÌýdeposition, etching, structuring, simulation, and metrology tools for a range of photovoltaic and renewable energy researchÌýand hands-on learning.ÌýÌý
OurÌýresearch and education programs are helping transition energy systems across the world towards clean renewable and efficient use of energy.ÌýBenefits of studying with us include:Ìý
- Our research has produced world record solar cells for a range of materials and technologiesÌý
- Our academics are world experts in their fields and internationally respected and recognisedÌý
- We focus on translating research intoÌýpracticeÌýsoÌýyourÌýlearning is hands-on and up to the minuteÌý
- Since 1974 ¹ú²ú¾«Æ· is the world leader in photovoltaic research, holding the world record for the highest efficiency silicon solar cell for more than three decades
- Industry partners includeÌýSuntech, ChinaÌýSunergy, LG Electronics, Schmid, BlueScope, Ergon Energy and Solar Citizens
Want to see more from ¹ú²ú¾«Æ· Engineering?
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 minimumÌý75% average.
A pathway for entry into the program for graduates from both 4-year Bachelor of Engineering degrees in non-cognate disciplines, and 3-year Bachelor of Science degrees, exists via enrolment first into the Bachelor of Engineering (BE) program, where advanced standing (to a maximum of 2 years) may be granted.
Cognate disciplines
Cognate disciplines include:
- Computer Engineering
- Computer Systems Engineering
- Electrical and Renewable Energy
- Electrical and Renewable Power
- Electrical and Telecommunication Engineering
- Electrical Engineering
- Electrical Engineering (Renewable Energy)
- Electronics Engineering
- New Energy Science and Engineering
- Photovoltaic and Solar Energy Engineering
- Photovoltaic Engineering
- Power Electronics
- Power Engineering
- Power Generation and Renewables
- Renewable and Sustainable Energy
- Renewable Energy
- Renewable Energy Systems
- Solar and Renewable Energy
- Solar Energy
- Solar Engineering
- Telecommunication Engineering
Admission pathways
¹ú²ú¾«Æ· Global has university pathway programs that provide seamless transition to ¹ú²ú¾«Æ· Sydney so you can achieve your academic and career goals. .
English language requirements
Ìý
You may be asked to provide evidence of your English proficiency to study at ¹ú²ú¾«Æ· depending on your educational background and citizenship. English language skills are vitally important for coping with lectures, tutorials, assignments and examinations - this is why ¹ú²ú¾«Æ· requires a minimum English language competency for enrolment.
If you’re completing an Australian Year 12 qualification (e.g. NSW HSC or equivalent), you do not need to provide anything extra to prove your proficiency. Your qualification will be used as evidence of your English proficiency.
If you do need to provide evidence of your English proficiency, this will be indicated in your application. You can prove this by providing evidence that you meet one or more of the following criteria:
- English language tests and university English courses
- Prior study in the medium of English
- Other qualifications
If you need to improve your English skills before you start your degree, are for you. The programs are suitable for various English levels and help you prepare for university studies and life in Australia.
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 minimumÌý75% average.
A pathway for entry into the program for graduates from both 4-year Bachelor of Engineering degrees in non-cognate disciplines, and 3-year Bachelor of Science degrees, exists via enrolment first into the Bachelor of Engineering (BE) program, where advanced standing (to a maximum of 2 years) may be granted.
Cognate disciplines
Cognate disciplines include:
- Computer Engineering
- Computer Systems Engineering
- Electrical and Renewable Energy
- Electrical and Renewable Power
- Electrical and Telecommunication Engineering
- Electrical Engineering
- Electrical Engineering (Renewable Energy)
- Electronics Engineering
- New Energy Science and Engineering
- Photovoltaic and Solar Energy Engineering
- Photovoltaic Engineering
- Power Electronics
- Power Engineering
- Power Generation and Renewables
- Renewable and Sustainable Energy
- Renewable Energy
- Renewable Energy Systems
- Solar and Renewable Energy
- Solar Energy
- Solar Engineering
- Telecommunication Engineering
English language requirements
You may be asked to provide evidence of your English proficiency to study at ¹ú²ú¾«Æ· depending on whether you are from an English-speaking background or non-English speaking background. English language skills are vitally important for coping with lectures, tutorials, assignments and examinations - this is why ¹ú²ú¾«Æ· requires a minimum English language competency for enrolment.
If English is not your first language, you’ll need to provide proof of your English proficiency before you can be given an offer to study at ¹ú²ú¾«Æ·. You can do this by providing evidence that you meet one or more of the following criteria:
- English language tests and university English courses
- Prior study in the medium of English
- Other qualifications
If you need to improve your English skills before you start your degree, are for you. The programs are suitable for various English levels and help you prepare for university studies and life in Australia.
Check the specific English language requirements for this program
Program structure
The Master of Engineering is aÌýtwo-yearÌýdegree, which can be studied part time or full time. In thisÌýdegree you’ll gain a solidÌýbackground in an area of your choice.Ìý
The structure of this degree provides the opportunity for students toÌýspecialiseÌýin an area of interest while gaining a depth of knowledge across a broad range of topics.ÌýThis degreeÌýserves as an entry point to move intoÌýtheÌýEngineering Profession.
With a strong component of industrial, on-the-job training, our program structure includes:
60 days of industrial trainingÌý
Six disciplinary knowledge coursesÌý
Five advanced disciplinary knowledge courses
Two engineering and technical knowledge courses
One design course
A research project
Full program structure
Degree structures can vary depending on your specialisation of choice, the number of courses you choose and timetabling, to give you an indication you can consider the below.
In your first yearÌýyou'll studyÌý:
Disciplinary Knowledge courses,Ìýthese are introductory courses whereÌýyou’ll learn the fundamentals of your chosen specialisationÌý
You may also start studying some of your Advanced Disciplinary Knowledge coursesÌýwhere you’ll be able toÌýtailor your degree to your interest by selecting courses which align with your career goals.Ìý
In the second year, you’ll complete the remainingÌýDisciplinary andÌýAdvanced Disciplinary KnowledgeÌýcourses, and study:Ìý
Engineering and Technical Management coursesÌýwhichÌýhelp you build skills in project and or staff management, leadership and strategy. 
A design course which is specific to your chosen specialisationÌý– in this course you will be assigned aÌýdesign task relevant on an area of your studies.Ìý
At the end of your degree you’ll bring together all the Engineering principles you’ve learnt to solveÌýcomplex, open ended problemsÌýsuch as the development of a specific design, process and/or the investigation of a hypothesis.Ìý
This degree requires you to complete 60 days of Industrial Training, which gives you some on the job experience before graduating,Ìýenabling you to develop the essential technical and professional skills, so you thrive in your future career. 
Future careers
Career opportunities in theÌýrenewableÌýenergy sector are almost limitless. Across the world there’s rapid growth in the sector especially photovoltaics and wind, the most low-cost technologies to generate electricity. With a shift towards more efficient use of energy, energy storage and electrification of the transport sector, renewableÌýenergy engineers are now more in demand than ever.ÌýÌý
Upon graduation with specialisedÌýrenewableÌýenergies expertise under your belt there are a range of roles graduates can pursue. Potential roles include:Ìý
- PE & RE system design, analysis and construction Ìý
- Policy, financing, marketing and energy markets Ìý
- Engineering consulting and project management  Ìý
- Solar architecture, energy-efficient building design Ìý
- Energy efficiency Ìý
- Manufacturing, quality control and reliability Ìý
- Research and development Ìý
Accreditation
The Master of Engineering (Renewable Energy) is provisionally accredited by Engineers Australia, this means the program meets the accreditation criteria to the extent possible at the time of the evaluation and will likely receive full accreditation when a representative group of graduates have emerged.Ìý
This degree includes a practical component where you’ll apply your knowledge in practical settings through 60 days of approved industrial training in Australia or overseas.
How to apply
Applications must be submitted through ourÌýÌýportal. We encourage you to submit your completed application as early as possible to ensure it will be processed in time for your preferred term. Some high-demand programs and Faculties with limited places may have an earlier application deadline or commencement date.Ìý.
Ready to start your application?
For most international students, applications are submitted viaÌýour  service. We encourage you to submit your completed application as early as possible to ensure it will be processed in time for your preferred term.
Some high-demand programs with limited places, may have an earlier application deadline or may have an earlier commencementÌýdate. ForÌýmore information visitÌýour .
Ready to start your application?
Fees & Scholarships
*Fees are subject to annual review (or when required) by the University and may vary accordingly.
Indicative fees are a guide only and have been calculated based on the typical enrolment patterns of students undertaking the program. The indicative fees listed here is an estimate for tuition only and excludes non-tuition fees and charges. The amount you pay will vary depending on the calendar year of enrolment, the courses you select and whether your study load is more or less than 1 Equivalent Full Time Student Load (48 units of credit (UOC) per year).
You should not rely on indicative fees as fee increases are assessed when required and may exceed the indicative figures listed here. Actual fees are calculated on enrolment. More information on fees can be found at the .
*Fees are subject to annual review by the University and may increase annually, with the new fees effective from the start of each calendar year. The indicative fees listed here are based on an estimated average and are for tuition only, other fees and charges are not included. The amount you pay will vary depending on the calendar year to enrol, the courses you select and whether your study load is more or less than 1 Equivalent Full Time Student Load (8 courses per year).
Indicative fees are a guide for comparison only based on current conditions and available data. You should not rely on indicative fees. More information on fees can be found at theÌý.
Indicative fees to complete the program have been calculated based on a percentage increase for every year of the program. Fee increases are assessed annually and may exceed the indicative figures listed here.
Indicative fees to complete the program include tuition plus an estimate of study-related costs of approximately $1,000 per year. To find out more about other costs, visitÌý.
Scholarships
At ¹ú²ú¾«Æ·, we award over $83 million in scholarships each year. We pride ourselves on rewarding excellence and making university accessible to students from all walks of life. Whether you’re a domestic or international student, our range of scholarships, prizes and awards can support your journey.
Featured scholarship
The ¹ú²ú¾«Æ· Women in Engineering Research Scholarship was established to assist women of high academic achievement with an interest in a research and/or an academic career in engineering. ¹ú²ú¾«Æ· Engineering offers two Women in Engineering Top-up Scholarships every semester.
Ìýand search forÌý‘Engineering’ in the keywords.Ìý
QS World University Rankings, 2025.
AFR Top 100 Future leaders Award.
#1 Australian uni attended by start-up founders.
I love that everything in the world is being engineered by somebody.
