A CSIRO test plant in Australia has broken a world record and proved concentrated solar power could efficiently replace fossil fuels.
A concentrated solar thermal test plant in Newcastle, Australia, has generated “supercritical” steam at a pressure of 23.5 mpa (3400 psi) and 570°C (1,058°F).
CSIRO is claiming it as a world record, and it’s a HUGE step for concentrated solar thermal energy.
"It's like breaking the sound barrier; this step change proves solar has the potential to compete with the peak performance capabilities of fossil fuel sources," Dr Alex Wonhas, CSIRO’s Energy Director told.
The Energy Centre uses a field of more than 600 mirrors (known as heliostats) which are all directed at two towers housing solar receivers and turbines.
The Energy Centre uses a field of more than 600 mirrors (known as heliostats) which are all directed at two towers housing solar receivers and turbines.
This supercritical steam is used to drive the world’s most advanced power plant turbines, but previously it’s only been possible to produce it by burning fossil fuels such as coal or gas.
"Instead of relying on burning fossil fuels to produce supercritical steam, this breakthrough demonstrates that the power plants of the future could instead be using the free, zero emission energy of the sun to achieve the same result,” Dr Wonhas explained.
Currently, commercial solar thermal or concentrating solar power power plants only operate a “subcritical” levels, using less pressurised steam. This means that they’ve never been able to match the output or efficiency of the world’s best fossil fuel power plants - until now.
The commercial development of this technology is still a fair way off, but this is an important first step towards a more sustainable future.
Concentrated Solar Power, Concentrating Solar Power, CSP, Concentrated Solar Thermal Power, solar power, solar energy, Australia, Commonwealth Scientific and Industrial Research Organization, CSIRO,