Is nuclear power gaining new energy?

By BBC (Business) | Created at 2024-11-21 00:11:08 | Updated at 2024-11-27 04:51:19 6 days ago
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Getty Images A workman at Hinkley Point C nuclear power station, which is being constructed in the southwest of EnglandGetty Images

A number of countries including the UK are building new nuclear power stations

A decade ago, it seemed as though the global nuclear industry was in an irreversible decline.

Concerns over safety, cost, and what to do with radioactive waste had sapped enthusiasm for a technology once seen as a revolutionary source of abundant cheap energy.

Yet now there is widespread talk of a revival, fuelled by tech giants Microsoft, Google and Amazon all announcing investments in the sector, as well as the growing pressures on wealthy nations to curb their carbon emissions.

But how real is the comeback?

When commercial nuclear power was first developed in the 1950s and 1960s, governments were seduced by its seemingly unlimited potential.

Nuclear reactors could harness and control the same awesome forces released by atomic bombs - to provide electricity for millions of homes. With a single kilogram of uranium yielding some 20,000 times as much energy as a kilogram of coal, it seemed like the future.

But the technology also inspired public fear. And that fear seemed to be justified by the Chernobyl disaster, which spread radioactive contamination across Europe in early 1986.

It fuelled widespread public and political opposition – and slowed the growth of the industry.

Another accident, at the Fukushima Daichi plant in Japan in 2011, re-energised concerns about nuclear safety. Japan itself shut down all of its reactors in the immediate aftermath, and only 12 have since restarted.

Germany decided to phase out nuclear power altogether. Other countries scaled back plans to invest in new power plants, or extend the lives of ageing facilities.

According to the International Atomic Energy Agency, this led to the loss of 48GW of electric power generation globally between 2011 and 2020.

Getty Images A worker measuring radiation levels at the Fukushima Daichi nuclear power station in 2014Getty Images

The Fukushima nuclear accident in 2011 raised new fears about the safety of the global industry

But nuclear development did not stop. In China, for example, there were 13 nuclear reactors in 2011. There are now 55, with another 23 under construction.

For Beijing, scrambling to meet rapidly growing electricity demand, nuclear had, and still has, a vital role to play.

Now interest in the sector seems to be growing elsewhere once again. This is partly because developed countries are hunting for ways to meet energy demand, while striving to meet emissions reduction targets under the Paris Agreement.

With 2024 projected to be the warmest year on record, the pressure to cut carbon emissions is mounting. A renewed focus on energy security, in the wake of Russia’s invasion of Ukraine, has also been a factor.

South Korea, for example, recently scrapped plans to phase out its large fleet of nuclear power stations over the next four decades – and will build more instead.

And France has reversed plans to reduce its own reliance on nuclear energy, which provides 70% of its electricity. Instead, it wants to build up to eight new reactors.

In addition, last week the US government reaffirmed at the United Nations Climate Change Conference, or Cop29, held in Azerbaijan, that it intends to triple nuclear power generation by 2050.

The White House had originally pledged to do this on the side lines of last year's conference, Cop28. A total of 31 countries have now agreed to try to triple their use of nuclear power by 2050, including the UK, France and Japan.

Also at Cop29, which ends on Friday, 22 November, the US and UK announced that they would collaborate to speed up the development of new nuclear power technology.

This follows after it was agreed in the final statement or “stocktake” of last year's Cop28 that nuclear should be one of the zero or low emission technologies to be “accelerated” to help combat climate change.

But hunger for clean power is not just coming from governments. Technology giants are striving to develop more and more applications that use artificial intelligence.

Yet AI relies on data – and data centres need constant, reliable electricity. According to Barclays Research, data centres account for 3.5% of electricity consumption in the US today, but that figure could rise to more than 9% by the end of the decade.

In September, Microsoft signed a 20-year deal to buy power from Constellation Energy, which will lead to the reopening of the infamous Three Mile Island power station in Pennsylvania – the site of the worst nuclear accident in US history, where a reactor suffered a partial meltdown in 1979.

Despite its tainted public image, another reactor at the plant continued to generate electricity until 2019. Constellation’s chief executive Joe Dominguez described the deal to reopen it as a "powerful symbol of the rebirth of nuclear power as a clean and reliable energy resource".

Other tech giants have taken a different approach. Google plans to buy energy produced from a handful of so-called Small Modular Reactors or SMRs – a nascent technology intended to make nuclear energy easier and cheaper to deploy. Amazon is also supporting SMR development and construction.

SMRs themselves are being promoted, in part, as a solution to one of the biggest drawbacks facing nuclear power today. In western nations, new power stations have to be built to exacting modern safety standards. This makes them prohibitively expensive and complicated to build.

Hinkley Point C is a good example. Britain’s first new nuclear power station since the mid-1990s is being built on a stretch of remote coastline in southwest England.

It is meant to be the first of a batch of new plants to replace the country’s ageing reactor fleet. But the project is running some five years behind schedule and will cost up to £9bn ($11.5bn) more than planned.

It is not an isolated case. The US’s newest reactors at Plant Vogtle in Georgia opened seven years late, and cost more than $35bn – well over double their original budget.

SMRs are designed to solve this problem. They will be smaller than traditional reactors, using standardised parts that can be assembled quickly, at sites close to where the power is needed.

But while there are some 80 different designs under development globally, according to the International Atomic Energy Agency, the concept has yet to be proven commercially.

Getty Images The Three Mile Island nuclear power stationGetty Images

Microsoft's need for electricity will see the Three Mile Island nuclear power station, pictured, restart

Opinions about nuclear power remain highly polarised. Supporters claim the technology is indispensable if climate targets are to be reached. Among them is Rod Adams, whose Nucleation Capital fund promotes investment in nuclear technology.

“Nuclear fission has a seven-decade history showing it is one of the safest power sources available," he explains.

“It is a durable, reliable source of power with low ongoing costs already, but capital costs have been too high in Western countries."

Opponents though, insist nuclear power is not the answer.

According to Professor M.V. Ramana of the University of British Columbia, it is “a folly to consider nuclear energy as clean”. It is, he says, "one of the most expensive ways to generate electricity. Investing in cheaper low-carbon sources of energy will provide more emissions reductions per dollar."

If current trends do herald a new nuclear age, one old problem remains. After 70 years of atomic power, there is still disagreement over what to do with the accumulated radioactive waste - some of which will remain hazardous for hundreds of thousands of years.

The answer being pursued by many governments is geological disposal - burying the waste in sealed tunnels deep underground. But only one country, Finland, has actually built such a facility, while environmentalists and anti-nuclear campaigners argue that dumping waste out of sight and out of mind is simply too risky.

Solving that conundrum may be a key factor in dictating whether there really will be a new age of nuclear power.

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