Australia’s largest concentrated photovoltaic (CPV) solar power plant was officially opened, with the Victorian energy minister joining executives from the plant’s developer, Solar Systems, to cut the ribbon on the 1.5MW demonstration facility in Mildura.
The demonstration of the “dense array” solar technology of parent company Silex Systems is a fore-runner for what is expected to be a 100MW power plant, with construction slated to begin in 2014. Another 1MW demonstration plant is being built in Saudi Arabia, with hopes of further development as that country pushes into the start of a $100 billion solar spending program
The array – whose 40 CPV dishes have been feeding power into the national grid for almost a month, after their successful commissioning began in April – collects sunlight in more than 100 curved mirrors and focuses it onto ultra-high efficiency “mulit-junction” PV cells; technology originally developed by Boeing to power satellites.
Silex CEO Michael Goldsworthy says the cells currently boast efficiency rates of around 43 per cent – about double that of today’s best silicon-based cells and up to four times the efficiency of thin film solar cells – but he hopes this can be lifted to more than 50 per cent, or even 60 per cent, with further research.
The technology also uses ‘active cooling’ technology to maximise power output while minimising water consumption and prolonging the technology’s lifespan.
Last June Silex predicted that the levelised cost of energy (LCOE) for its technology could fall below 10c/kWh ($100/MWh) within a few years – making it cost competitive with a range of technologies such as wind and large-scale solar PV, and below the cost of new gas- and coal-fired generation.
The Australian Energy Technology Assessment (AETA) has since said that this rate, if achieved by Solar Systems’ concentrating solar PV plants, would be one of the most cost-effective forms of future energy production.
In its latest publication, Silex cites cost estimates of 6.9c/kWh in a 20MW plant in Arizona by 2020, as the graph below illustrates.