The power down under. Image: REUTERS/Action Images
Governments around the world are looking to boost renewable energy capacity as they race to cut their reliance on fossil fuels. But one of the big questions they face is how to keep the lights on when the sun isn’t shining or the wind isn’t blowing.
Australia’s answer is to build a giant underground hydropower plant beneath a national park.
Water will stream through 27 kilometres of tunnels from the Tantangara Dam to the Talbingo Reservoir 700 metres below, while passing through a power plant 1 kilometre beneath the surface. The turbines will be reversible so they can pump the water back uphill when demand is low, using wind energy.
Known as a pumped hydro scheme, the project is designed to work like a giant battery – storing water energy that can be released as electricity to the grid with a notice of just 90 seconds. It’s hoped the plant will provide energy storage of 175 hours, enough to power 3 million homes for a week.
“Snowy 2.0 will provide the storage and on-demand generation needed to balance the growth of wind and solar power and the retirement of Australia’s ageing fleet of thermal power stations,”says Snowy Hydro Chief Executive Paul Broad.“In short, it will keep our energy system secure and keep the lights on.”
The first power produced from Snowy 2.0 is expected to flow into the national grid in late 2024.
Snowy Hydro, the company behind the project,refutes these claimsand says it will deliver on time and to budget. It says any environmental impact will be limited to just 100 hectares ofthe 674,000 hectare park– and the project is expected to create 5,000 new jobs.
Snowy Hydro 2.0 builds on the original Snowy Hydro project, which marks its 70th anniversary this year. It grew out of a scheme to alleviate the effects of droughts in the continent’s interior by storing water from the Murray, Murrumbidgee, Snowy and Tumut rivers.
Work began on the first Snowy Mountains hydroelectric scheme in 1949. The $564 million project was completed in 1974 and includes seven power stations, 16 major dams, 145 kilometres of interconnected tunnels and 80 kilometres of aqueducts.
The latestFostering Effective Energy Transitionreport from the World Economic Forum ranks Australia 43rd out of 115 countries in terms of the performance of its energy system and its readiness for transition to clean energy.