Electrical and Renewable Energy Engineering

At Murdoch University, our Electrical and Renewable Energy Engineering program puts practical, hands-on learning at the heart of everything you'll do, so you're building real-world skills from day one that employers can't ignore. You'll dive into designing and testing renewable systems like solar and wind setups right here on campus, using state-of-the-art facilities with 24/7 access to get that career-ready edge. Whether it's running experiments on photovoltaic systems, analyzing hybrid energy setups outdoors, or wiring up circuits in dedicated labs, you'll gain the confidence to tackle Industry 4.0 challenges like smart grids and sustainable power.

This means you'll work with cutting-edge tools and setups tailored for electrical and renewable energy engineering:
- Renewable Energy Engineering Facility: Design and analyze solar thermal, wind, and photovoltaic systems; perform experiments on solar-water pumping and resource measurement; access the rooftop solar-power facility with four 2kW grid-connected PV systems for performance studies.
- Renewable Energy Outdoor Testing Area: Hands-on testing with solar/wind/diesel/battery hybrids, low-temperature solar thermal systems, standalone inverter setups, mobile weather stations, a 10kW PV trough concentrator, and grid-connected PV systems—perfect for group projects on real-world efficiency and data logging.
- Electrical Power Engineering Laboratory: Build and test circuits using three-phase systems, transformers, transmission lines, rotating machines, fault protection, power electronics, and SELS smart protection relays (the future of electrical systems); includes power analyzers and AC sources for inverter testing.
- Software and Digital Tools: Computer suites for modeling renewable systems, data logging from sensors, and Industry 4.0 tools like machine learning for smart autonomous systems; plus design software for grid-connected solar PV with batteries (SAA-accredited).
- Instrumentation and Control Lab: Work with industrial sensors, actuators, and digital/analogue controls for air, water, and power systems—design upgrades for professional contexts, including your own wiring and programming.
- Research Labs and Institutes: School of Engineering and Energy's smart renewable/electrical power systems research facilities for microgrids, power electronics, and distributed energy planning; ties into real projects like wind farms and sustainable energy tech.

Imagine jumping straight into internships through our industry partnerships or even study tours overseas—these experiences set Murdoch grads apart in the booming renewable sector. Ready to power up your future? Apply now and let's get you started. For the full facilities list: https://www.murdoch.edu.au/study/why-choose-murdoch/learning-facilities/engineering-facilities

At Murdoch University, our Electrical and Renewable Energy Engineering program dives right into hands-on learning, giving you the practical skills to design, test, and analyze real-world renewable energy systems from day one. You'll get 24/7 access to dedicated facilities like the renewable energy engineering lab and outdoor testing area, where you can experiment with solar thermal, wind resources, photovoltaic systems, and hybrid setups using professional-grade tools and equipment. This means you'll build career-ready expertise in sustainable power systems, backed by our School of Engineering and Energy's prestigious Solar Accreditation Australia recognition for top-tier renewable energy education.

Here are some standout ways you'll gain experiential learning tailored to this program:
- Renewable Energy Engineering Facility: Design and analyze solar thermal, wind, and photovoltaic systems in a computer suite; perform experiments on solar-water pumping, resource measurement, and system performance; access the rooftop solar-power facility with four 2kW grid-connected PV systems for hands-on studies.
- Renewable Energy Outdoor Testing Area: Test theories with solar/wind/diesel/battery hybrids, low-temperature solar thermal systems, a 10kW PV trough concentrator, mobile weather stations with sensors and data loggers, standalone inverter setups, and grid-connected PV systems plus power analyzers.
- Electrical Power Engineering Laboratory: Build and test circuits using three-phase systems, transformers, transmission lines, rotating machines, fault protection, power electronics, machine drives, and cutting-edge SELS smart protection relay systems—the future of electrical protection.
- Group Projects and Experiments: Design experiments with instrumentation, complete your own wiring and programming for industrial systems, assess solar-water pumping performance, and dive into Industry 4.0 projects on smart, data-driven autonomous systems.
- Software and Digital Tools: Use modeling, analysis tools, and data logging devices in computer suites for renewable system design, plus sophisticated simulation for power electronics control, microgrids, and distributed energy planning in research facilities.
- Research Labs and Institutes: Work in smart renewable and electrical power systems research areas, including indoor/outdoor testing for electrification, microgrids, and future grids, supported by the School of Engineering and Energy's industry-partnered innovations.

Imagine stepping into these facilities and coming out ready to lead Australia's renewable energy boom—our graduates are in high demand because they've already worked with the exact tech powering the future. Applying is straightforward and could be your best move for a thriving career. Check out the full facilities list here: https://www.murdoch.edu.au/study/why-choose-murdoch/learning-facilities/engineering-facilities