Hydro storage can secure 100% renewable electricity

Hydro storage can secure 100% renewable electricity

Monday, February 27, 2017 — Pumped hydro storage can be used to help build a secure and cheap Australian electricity grid with 100 per cent renewable energy, a new study from The Australian National University (ANU) has found.

Lead researcher Professor Andrew Blakers from ANU said the zero-emissions grid would mainly rely on wind and solar photovoltaic (PV) technology, with support from pumped hydro storage, and would eliminate Australia’s need for coal and gas-fired power.

“With Australia wrestling with how to secure its energy supply, we’ve found we can make the switch to affordable and reliable clean power,” said Professor Blakers from the ANU Research School of Engineering.

Professor Blakers said wind and solar PV electricity provided nearly all new generation capacity in Australia and half the world’s new generation capacity each year. At present, renewable energy accounts for around 15 per cent of Australia’s electricity generation while two thirds comes from coal-fired power stations.

“However, most existing coal and gas stations will retire over the next 15 years, and it will be cheaper to replace them with wind and solar PV,” he said.

The ANU research considers the potential benefits of using hydro power energy storage, where water is pumped uphill and stored to generate electricity on demand.

“Pumped hydro energy storage is 97 per cent of all storage worldwide, and can be used to support high levels of solar PV and wind,” Professor Blakers said.

Professor Blakers said the cost of a 100 per cent stabilised renewable electricity system would be around AU$75/MWh, which is cheaper than coal and gas-fuelled power.

ANU is leading a study to map potential short-term off-river pumped hydro energy storage (STORES) sites that could support a much greater share of renewable energy in the grid.

STORES sites are pairs of reservoirs, typically 10 hectares each, which are separated by an altitude difference of between 300 and 900 metres, in hilly terrain, and joined by a pipe with a pump and turbine. Water is circulated between the upper and lower reservoirs in a closed loop to store and generate power.

Dr Matthew Stocks from the ANU Research School of Engineering said STORES needed much less water than power generated by fossil fuels and had minimal impact on the environment because water was recycled between the small reservoirs.

“This hydro power doesn’t need a river and can go from zero to full power in minutes, providing an effective method to stabilise the grid,” he said.

“The water is pumped up from the low reservoir to the high reservoir when the sun shines and wind blows and electricity is abundant, and then the water can run down through the turbine at night and when electricity is expensive.”

Co-researcher Mr Bin Lu said Australia had hundreds of potential sites for STORES in the extensive hills and mountains close to population centres from North Queensland down the east coast to South Australia and Tasmania.

With $449,000 from the Australian Renewable Energy Agency (ARENA), ANU is partnering with ElectraNet and VTara Energy Group to conduct the Atlas of Pumped Hydro Energy Storage Study and develop a cost model for STORES.

The Summary and Full Report on the ANU team’s findings and related images are available via this AARNET link: https://cloudstor.aarnet.edu.au/plus/index.php/s/ZZ1x58deOuutLed

The Summary and Full Report will be published on the ANU Energy Change Institute’s website from 9am on Monday 27 February 2017: energy.anu.edu.au/publications

 

FOR INTERVIEW:

Professor Andrew Blakers
ANU Research School of Engineering
M: +61 417 390 139
E: Andrew.Blakers@anu.edu.au

Dr Matthew Stocks
ANU Research School of Engineering
M: +61 419 370 012
E: Matthew.Stocks@anu.edu.au

 

For media assistance, contact Will Wright from the ANU Media Team on +612 6125 7979, +61 478 337 740 or media@anu.edu.au

The hills east of Spencer Gulf in South Australia are a potential area for an off-river pumped hydro energy storage site.
Potential areas for pumped hydro energy storage between Brisbane and Melbourne (excluding national parks and other protected areas).
Professor Andrew Blakers. Image: Stuart Hay, ANU.
Map showing South Australia's extensive array of potential pumped hydro energy storage sites (excluding national parks and other protected areas). In general, larger heads (red areas) lead to lower cost.