Solar set to leave nuclear and everything else in the shade

Solar panel render with sunlight shining on the panels (rio tinto)
Image: Shutterstock

By Peter Martin, Visiting Fellow, Crawford School of Public Policy, Australian National University

Opposition leader Peter Dutton might have been hoping for an endorsement from economists for his plan to take Australian nuclear.

He shouldnโ€™t expect one from The Economist.

The Economist is a British weekly news magazine that has reported on economic thinking and served as a place for economists to exchange views since 1843.

By chance, just three days after Dutton announced plans for seven nuclear reactors he said would usher in a new era of economic prosperity for Australia, The Economist produced a special issue, titled Dawn of the Solar Age.

Whereas nuclear power is barely growing, and is shrinking as a proportion of global power output, The Economist reported solar power is growing so quickly it is set to become the biggest source of electricity on the planet by the mid-2030s.

By the 2040sโ€”within this next generationโ€”it could be the worldโ€™s largest source of energy of any kind, overtaking fossil fuels like coal and oil.

Related article: Examining the significant issues with LNPโ€™s nuclear plan

Solarโ€™s off-the-charts global growth

Installed solar capacity is doubling every three years, meaning it has grown tenfold in the past 10 years. The Economist says the next tenfold increase will be the equivalent of multiplying the worldโ€™s entire fleet of nuclear reactors by eight, in less time than it usually takes to build one of them.

To give an idea of the standing start the industry has grown from, The Economist reports that in 2004 it took the world an entire year to install one gigawatt of solar capacity (about enough to power a small city). This year, thatโ€™s expected to happen every day.

Energy experts didnโ€™t see it coming. The Economist includes a chart showing that every single forecast the International Energy Agency has made for the growth of the growth of solar since 2009 has been wrong. What the agency said would take 20 years happened in only six.

The forecasts closest to the mark were made by Greenpeaceโ€”โ€œenvironmentalists poo-pooed for zealotry and economic illiteracyโ€โ€”but even those forecasts turned out to be woefully short of what actually happened.

And the cost of solar cells has been plunging in the way that costs usually do when emerging technologies become mainstream.

The Economist describes the process this way:

As the cumulative production of a manufactured good increases, costs go down. As costs go down, demand goes up. As demand goes up, production increasesโ€”and costs go down further.

Normally, this canโ€™t continue. In earlier energy transitionsโ€”from wood to coal, coal to oil, and oil to gasโ€”it became increasingly expensive to find fuel.

But the main ingredient in solar cells (apart from energy) is sand, for the silicon and the glass. This is not only the case in China, which makes the bulk of the worldโ€™s solar cells, but also in India, which is short of power, blessed by sun and sand, and which is manufacturing and installing solar cells at a prodigious rate.

Solar panel array under blue sky (chinese solar)
Image: Shutterstock

Solar easy, batteries more difficult

Batteries are more difficult. They are needed to make solar useful after dark and they require so-called critical minerals such as lithium, nickel and cobalt (which Australia has in abundance).

But the efficiency of batteries is soaring and the price is plummeting, meaning that on one estimate the cost of a kilowatt-hour of battery storage has fallen by 99% over the past 30 years.

In the United States, plans are being drawn up to use batteries to transport solar energy as well as store it. Why build high-voltage transmission cables when you can use train carriages full of batteries to move power from the remote sunny places that collect it to the cities that need it?

Solarโ€™s step change

The International Energy Agency is suddenly optimistic. Its latest assessment released in January says last year saw a โ€œstep changeโ€ in renewable power, driven by Chinaโ€™s adoption of solar. In 2023, China installed as much solar capacity as the entire world did in 2022.

The world is on track to install more renewable capacity over the next five years than has ever been installed over the past 100 years, something the agency says still wonโ€™t be enough to get to net-zero emissions by 2050.

That would need renewables capacity to triple over the next five years, instead of more than doubling.

Oxford University energy specialist Rupert Way has modelled a โ€œfast transitionโ€ scenario, in which the costs of solar and other new technologies keep falling as they have been rather than as the International Energy Agency expects.

He finds that by 2060, solar will be by far the worldโ€™s biggest source of energy, exceeding wind and green hydrogen and leaving nuclear with an infinitesimally tiny role.

Related article: Coal-free in 14 years as renewables rush in: new blueprint shows how to green the gridโ€”without nuclear

In Australia, solar is pushing down prices

Australiaโ€™s energy market operator says record generation from grid-scale renewables and rooftop solar is pushing down wholesale electricity prices.

South Australia and Tasmania are the states that rely on renewables the most. They are the two states with the lowest wholesale electricity prices outside Victoria, whose prices are very low because of its reliance on brown coal.

It is priceโ€”rather than the environmentโ€”that most interests The Economist. It says when the price of something gets low people use much, much more of it.

As energy gets really copious and all but free, it will be used for things we canโ€™t even imagine today. The Economist said to bet against that is to bet against capitalism.

Disclosure statement: Peter Martin is Economics Editor of The Conversation.

Republished fromย The Conversationย under Creative Commons

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