Storage of renewable energy will be essential to Australia’s net zero transition but will require significant investment, according to the latest roadmap released today by Australia’s national science agency, CSIRO.
The Renewable Energy Storage Roadmap shows that storage capacity must grow significantly over coming decades to keep pace with rapidly rising electricity demand, which is projected to increase as building and transport industries electrify.
The report indicates that the national electricity market (NEM) could require a 10 to 14-fold increase in its electricity storage capacity between 2025-2050.
It also found that while traditional storage technologies (such as batteries and pumped hydro) will continue to play a key role, all forms of energy storage must be considered to meet Australia’s growing demand across multiple sectors.
In response to common challenges around decarbonisation and technology readiness, the roadmap examines the role of storage for seven sectors, highlights specific challenges and technology options, and finds that individual sectors favour different storage technologies.
CSIRO Chief Executive Larry Marshall noted new technologies would be needed to increase penetration of renewables and stabilise the grid while we start to build utility scale storage capacity.
Over the long-term storage will accelerate the integration of renewables, enhancing grid stability and reliability, and supporting decarbonisation of industries,” Dr Marshall said.
“There is no silver bullet for reaching net zero so we need multiple shots on goal, like from renewables, batteries, hydrogen, thermal storage, pumped hydro, sustainable aviation fuels and a host of new science-driven technologies.
“Reaching net zero is a wicked challenge, we need a robust pipeline of projects that use diverse technologies supported by industry, government, research and community stakeholders to ensure that no industry and no Australian is left behind,” he said.
CSIRO Energy Director Dietmar Tourbier said the roadmap is a major step towards pinpointing fit-for-purpose solutions for energy storage.
“For example, batteries may be the best option for local and short duration storage of electricity while thermal or heat energy (like steam) might be technology better suited for heat intensive industries,” Dr Tourbier said.
“Government and industry have recognised energy storage as a priority. However, significant knowledge gaps remain, requiring further investigation to support informed action.
“Co-investment is required across the system to accelerate technology commercialisation and scale up across a diverse portfolio of energy storage technologies,” he said.
The roadmap builds on prior publications and scenarios to estimate storage demand across multiple use cases and Australian jurisdictions. It also extends the discussion to new technology areas (for example hydrogen and thermal energy storage), pointing out sector-specific requirements, technology summaries and recommendations for scale-up.
To inform the role of energy storage, report authors brought together government and industry stakeholders, alongside CSIRO modelling and analysis.
This report is a valuable distillation of the challenges with energy storage and is released ahead of the launch of our Renewable Energy Powerhouse Mission and the Revolutionary Energy Storage Systems Future Science Platform. It is an important catalyst for discussions and actions in pursuing a robust, sustainable renewable energy economy, built on Australia’s critical minerals endowment.
Additional quotes
Malcolm Rushin, Australian Future Energy Leader, GHD:
“GHD has long recognised the pivotal role that energy storage will play in accelerating the energy transition and the scale of investment required to meet Australia’s net zero ambition, so is pleased to support the CSIRO’s roadmap.
“Short-term storage deployment using batteries is accelerating and scaling at an encouraging pace, however, the same is not yet true for medium and long-term storage. There’s a clear need to accelerate the deployment of pumped hydro technology and a focus is needed on de-risking the investment in these projects to stimulate deployment to the levels needed.
“The roadmap also outlines some emerging technologies which offer the potential for lower cost deeper storage which is the missing piece in the reliable power supply puzzle.”
Dominic Zaal, Director, Australian Solar Thermal Research Institute:
“The roadmap indicates that there is no one dominant energy storage technology and that an integrated mix of storage technologies will be required across and within different sectors of the Australian economy.
“The roadmap identifies renewable based Thermal Energy Storage (TES) as a relatively low cost solution with multiple end-use applications, including utility scale power generation, renewable fuel production, and industrial process heat.”
Ingrid Oyarzun, Head of Sustainability Innovation, BHP:
“We recognise our role in collaborating with researchers and governments to achieve progress in managing the challenges of climate change.
“We are proud to support CSIRO’s Renewable Energy Storage roadmap.”
Note to editors
Supporters of the Renewable Energy Storage Roadmap included: Australian Energy Market Operator (AEMO); Australian Renewable Energy Agency (ARENA), APA, Australian Government Department of Industry, Science & Resources; BHP; Australian Solar Thermal Research Institute (ASTRI); Australian Government Trade and Investment Commission (Austrade); GHD; The Government of New South Wales; The Government of Western Australia; and Woodside.