Program Structure:
The Master of Energy Change requires the completion of 96 units, of which:
A minimum of 24 units must come from 8000- level courses
The 96 units must consist of:
12 units from completion of the following compulsory courses:
- ENGN6516 Energy Resources and Renewable Technologies (6 units)
- PHYS8013 Principles of Energy Generation and Transformation (6 units)
A minimum of 6 units from completion of Energy Change and Climate Law courses from the following list:
- LAWS8037 Sustainable Energy Law (6 units)
- LAWS8146 Planning & Environmental Impact Assessment (6 units)
- LAWS8180 International Climate Law (6 units)
- LAWS8181 Australian Climate Law (6 units)
- LAWS8189 Fundamentals of Environmental & Sustainability Law (6 units)
- LAWS8264 International Law of The Environment (6 units)
- LAWS8278 Environmental Dispute Resolution (6 units)
- POGO8212 Governing the Energy Transition (6 units)
A minimum of 6 units from completion of Energy Change Economics courses from the following list:
- EMDV8080 International Climate Change Policy and Economics (6 units)
- EMDV8081 Domestic Climate Change Policy and Economics (6 units)
- IDEC8089 Energy Economics (6 units)
A minimum of 6 units from completion of Climate Change courses from the following list:
- ENVS6307 Climate Change: Science, Society & Policy (6 units)
- ENVS8003 Climate Change Vulnerability and Adaptation (6 units)
A minimum of 6 units from completion of courses from the following list:
- PHYS6010 Hydrogen Economy (6 units)
- ENVS6025 Complex Environmental Problems in Action (6 units)
- A maximum of 60 units may come from completion of courses from the following list:
- BUSN7017 Sustainability and Corporate Social Responsibility, Accountability and Reporting (6 units)
- COMP7310 ICT Sustainability (6 units)
- ECON8040 Resource & Environmental Economics (6 units)
- EMDV8013 Issues in Development and Environment (6 units)
- EMDV8078 Introduction to Environmental and Resource Economics (6 units)
- EMDV8101 State, Society and Natural Resources (6 units)
- EMSC6021 Fundamentals of Climate Science (6 units)
- ENGN6224 Fluid Mechanics and Heat Transfer (6 units)
- ENGN6334 Semiconductors (6 units)
- ENGN6524 Photovoltaic Technologies (6 units)
- ENGN6525 Solar Thermal Technologies (6 units)
- ENGN6548 Wind Energy (6 units)
- ENGN8527 Advanced Topics in Solar Energy Technologies (6 units)
- ENGN8602 Research Project (6 units)
- ENGN8831 Integration of Renewable Energy into Power Systems and Microgrids (6 units)
- ENGN8832 Urban Energy and Energy Efficiency (6 units)
- ENGN8833 Industrial Energy Efficiency and Decarbonisation (6 units)
- ENGN8830 Photovoltaic Power Plants (6 units)
- ENVS6005 Sustainable Urban Systems (6 units)
- ENVS6013 Society and Environmental Change (6 units)
- ENVS6015 GIS and Spatial Analysis (6 units)
- ENVS6021 Participatory Resource Management: Working with Communities and Stakeholders (6 units)
- ENVS6033 International Environmental Policy (6 units)
- ENVS6319 Advanced Remote Sensing and GIS (6 units)
- ENVS8015 Contemporary Perspectives in Environmental Science (6 units)
- ENVS8016 Contemporary Perspectives in Environment-Society Interaction (6 units)
- MGMT7007 Managing for Sustainability (6 units)
- PHYS8202 Reactor Science (6 units)
- PHYS8205 Nuclear Fuel Cycle (6 units)
- SCOM6027 Science Politics (6 units)
- SCOM6501 Strategies in Science Communication (6 units)
Capstone Courses
[PHYS8013, ENVS6025, PHYS6010]