Solar everywhere! How renewable energy will meet 100 per cent electricity needs by 2050
Photovoltaic printed film, solar windows and more efficient tandem cells will drive greener energy production in next quarter of a century says UNSW expert.
Photovoltaic printed film, solar windows and more efficient tandem cells will drive greener energy production in next quarter of a century says UNSW expert.
“The last 20 years in solar have been really exciting, and I think the next 20 years are going to surprise everybody.”
That’s the view of UNSW Professor Renate Egan, Executive Director at the Australian Centre for Advanced Photovoltaics, with regards to developments in the world of solar power.
Prof. Egan is confident that by 2050 electricity generation in Australia will be 100 per cent supplied via renewables, and that half of that will be thanks to photovoltaics.
And she says, while the solar technology of today works and should be deployed as fast as we can, there is more work to be done to get us to 100% renewables. She is predicting that with time, energy won’t just come from traditional solar panels and batteries, but also from exciting new photovoltaic technologies that take the form of thin flexible films and windows that serve a purpose as well as providing power.
And she believes that continued and sustained growth in the PV industry can help the Australian government meet its goals to transform the nation’s energy system to achieve Net Zero by 2050.
“We just had the 2023 numbers come in for Australia, and we’re close to 20 per cent of our electricity being met by solar,” Prof. Egan said as part of UNSW’s ‘Engineering the Future’ podcast series.
“By 2030, the targets are to be at over 80 per cent renewables and we would expect 40 per cent to come from solar. By 2050 we will be looking at 100 per cent renewables and we would expect over 50 per cent of that to come from solar.
“50 to 60 per cent of our electricity needs will be met by solar, and at the same time, our electricity needs are going to grow because we need to electrify everything. So all of our thermal processes, where we rely on gas, and all our transport processes, where we rely on fuel, will be switching to electric.
“The industry keeps surprising me because it's growing at a phenomenal rate. It’s important to communicate how quickly it's growing because we are going to see so much change in the next 20 years.”
Prof. Egan has flagged work being done in Australia on photovoltaic film that can be printed and attached to suitable surfaces.
“We are actually producing now, in Australia, at the CSIRO in Melbourne and a group in the University of Newcastle, a thin film roll-to-roll printing process,” she said.
“It’s a bit like the way bank notes are printed. On a flexible polymer backing, you can print materials that you can turn into solar cells. And you can imagine hanging solar canopies, flexible solar arrays on various surfaces.
Prof. Egan also expects more traditional solar panels to become ever more efficient, as researchers and industry work hard to ensure each solar cell is able to convert as much of the sun’s energy as possible into power.
“The way to think of it is that the solar cell is like a single battery and the way it works is - it absorbs some of the sun's light and miraculously, with just the silicon material, it can turn that sunlight into electricity,” she explained.
“There are gaps in that sunlight that silicon can't access. So we want to add another cell on top, that will absorb the light that the silicon is missing. We call that a tandem structure, two cells, one on top of the other and we're working on the materials that make up the new top cell.
“There's innovation and discovery going on in the materials that are ideal for that tandem structure. The material has to take the rest of the light that silicon is missing but not take too much of the light that silicon is really good at absorbing. And then we are looking at how to stack that material on top of silicon in a working device.”
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