Australia’s national science agency, CSIRO today released a Roadmap highlighting the research required to continue Australia’s transition to a more secure and affordable electricity system, showing that innovation can drive the integration of renewables.
The Roadmap was developed in collaboration with the Australian Energy Market Operator (AEMO), and is based on input from leading Australian and international system operators and research agencies from the Global Power System Transformation (G-PST) Consortium.
The Consortium adapted key research questions to the Australian context, with the goal of supporting Australia’s energy transition in the long-term interests of consumers. The research areas they identified address the challenge of rapid change faced by Australia’s National Electricity Market and Wholesale Electricity Market.
Australia’s electricity systems face several key challenges, including ageing infrastructure, increasing complexity, and the need for investment in transmission and distribution.
The Roadmap summarises the outcomes of nine individual research plans, including their criticality to Australia’s energy transition, which research should be prioritised and how the research could form individual programs.
The key research topics are:
- Inverter design
- Stability tools and methods
- Control room of the future
- Planning
- Restoration and Black Start
- Services
- Architecture (Australian-specific)
- Distributed Energy Resources (DERs) (Australian-specific)
- DERs and Stability (Australian-specific)
CSIRO’s Energy Systems Research Director, Dr John Ward said the Roadmap could help forge a clear pathway to the integration of low emissions electricity.
“Across the energy system we are seeing a significant increase in renewable-generated electricity, combined with an increase in electricity requirements such as in transport, buildings, manufacturing and mining,” Dr Ward said
“The cost of renewable energy is no longer the challenge – integrating renewable energy securely and efficiently into our electricity systems, and ensuring we have the right operational tools and capabilities in place, is what we need to solve.
“Australia has some of the world’s highest levels of rooftop solar, which means this integration challenge extends throughout our electricity system – from the largest generators through to efficiently integrating ‘distributed energy resources’ (such as solar and electric vehicles) into our homes and businesses.”
The Roadmap targets areas that will ensure ongoing energy security and reliability for Australian consumers, and an efficient and effective investment in infrastructure.
“The role of research throughout this transition is vitally important and Australia has the opportunity to lead the charge,” Dr Ward said.
Following industry consultation, CSIRO will use Roadmap priority areas to create technological steppingstones for further innovation while remaining adaptable to inevitable further change.
AEMO Executive General Manager Operations, Michael Gatt, said the research program targeted the increasing complexity facing power system operators with the rapid transition to inverter-based variable renewable generation.
“Australia is investing in renewable energy at a faster rate per capita than any other country. As Australia’s energy market operator, we’ve seen average renewable energy contribution increase to approximately 40 per cent of total or underlying demand, along with five-minute interval peaks above 60 per cent. In addition, consumer rooftop solar PV is pushing grid-scale generation out of the market under certain day-time conditions, setting minimum operational demand records across the country,” Mr Gatt said.
“The pace and scale of this transition is extraordinary. It demands new approaches to power system operations including tools, technologies, process and platforms, which complement network planning, and market and regulatory reforms.
“AEMO’s role is to design and operate a sustainable energy system that provides safe, reliable and affordable energy today, and to enable the energy transition for the benefit of all Australians. The CSIRO G-PST Research Roadmap, together with the AEMO Engineering Framework and upcoming Operations Technology Roadmap, is where the rubber hits the road in terms of providing a guide for government, industry and academia to work together to deliver a major step in achieving a net-zero emissions economy by 2050 – engineering net-zero energy systems.
“We need timely, multidisciplinary expertise and collaboration to identify and resolve the engineering and system issues involved in decarbonising Australia’s power systems. This is how we will keep the lights on for consumers while enabling an orderly transition to a safe, reliable and affordable net-zero energy future.”
The G-PST consortium intends the Roadmap to create a meaningful and holistic solution to the Australia’s energy transition.
CSIRO will soon be seeking input for phase 2 of this work.
View the report Australia's Global Power System Transformation (G-PST) Research Roadmap
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Background information
Supporting information
CSIRO and AEMO are Australian representatives of the G-PST Consortium, a consortium of some of the world’s foremost research institutes and system operators who are collaborating to create sustainable, reliable, affordable and decarbonised energy systems for the future: https://globalpst.org/
Collaborators
CSIRO would like to acknowledge the following partners in developing Australia’s Global Power System Transformation (G-PST) roadmap: Australian Energy Market Operator (AEMO), GHD Pty Ltd, Monash University, Electric Power Research Institute (EPRI), The University of Melbourne, Aurecon, RMIT University, Strategen and The University of New South Wales (UNSW).