The push for nuclear energy in Australia is driven by delay and denial, not evidence.

Adam Morton 21 Sept 23  https://www.theguardian.com/commentisfree/2023/sep/21/nuclear-energy-australia-smokescreen-climate-denialism-coalition

Unsubstantiated claims of nuclear energy’s worth distracts from the urgency to act now on climate crisis

he vague, ideological push for nuclear energy backed by the Coalition and News Corp and given legitimacy this week on the ABC’s Q+A should be treated as what it is: the latest step in a decades-long campaign of delay and denial on the climate crisis.

Nuclear energy likely has a role to play in the global shift to zero-emissions energy in places that already use it or that have few other options. As with other technology, its role may grow or recede over time as the world moves. This stuff is going to change.

But no case has been made to support claims it has a place in the rapid transition under way in Australia. The reason for this is pretty straightforward: the technology that is being spruiked – small modular reactors (SMRs) – doesn’t exist. Not meaningfully.

That alone tells you that, with few exceptions, the current wave of nuclear boosterism is at its heart an anti-renewable energy campaign.

It is based on an arrogant and – despite the reams of column inches given over to it – unsubstantiated rejection of the detailed evidence from the Australian Energy Market Operator (and plenty of others) that solar, wind, hydro, batteries and other “firming” support can provide a reliable, affordable, low-emissions electricity supply.

Coincidentally or otherwise, many prominent members of the pro-nuclear and anti-renewable energy campaign dismiss climate science. Some do it directly. Others do it indirectly by arguing there is no urgency to act.

The primary sources of this climate rejection are the federal Coalition, the Australian newspaper and the misinformation sewer of Sky News After Dark. The Australian is happy to run unquestioning news stories claiming multibillion-dollar “black holes” in renewable energy plans based on flawed analyses by former mining executives, but then devote pages to tut-tutting over an estimate by Chris Bowen’s energy department that says nuclear energy would be – shock horror – really expensive.

This is, of course, a newspaper that gives more space to contrarian campaigns by individual scientists who claim that the Great Barrier Reef is not under threat and the Bureau of Meteorology’s temperature records cannot be trusted than it does to the overwhelming weight of thousands of peer-reviewed science papers. Considered and balanced scepticism is healthy. The Australian’s coverage of these issues has the rigour of an old bloke shouting in the corner of a pub as last drinks are served.

The Coalition’s position on nuclear energy is a little more slippery. In its limited defence, we’re only 16 months on from the last election and it’s reasonable that it doesn’t yet have a developed energy policy. But the language it uses is not that of a party gently exploring an idea. Peter Dutton has asserted that Australia could build nuclear plants, which are banned here, on existing coal-fired plants.

The Coalition considered, and rejected, abolishing the nuclear ban while it was in power for nearly nine years. Then, the party stuck with its status quo on climate, including hyping a subsidised “gas-fired recovery” that never happened. Now, Dutton and Ted O’Brien, the energy and climate spokesperson, speak of nuclear as the obvious solution and mock those who back the rollout of renewable energy and transmission lines.

Bowen’s back-of-envelope claim is that it could cost $387bn to replace every Australian coal plant with nuclear SMRs – a step that, at this stage, the Coalition has not proposed. O’Brien’s response was to cite the nuclear-heavy Canadian province of Ontario as an example of a power grid that is much cleaner and cheaper than here.

This was a red herring. The Ontario system runs on old, large-scale nuclear technology that nobody is proposing for Australia. It has a different cost profile, has been heavily subsidised and a new plant has not been completed for 30 years.

A true comparison would involve looking at the cost of SMRs today and considering what it would cost to start an industry in Australia.

The CSIRO, which has looked at the evidence, concluded this is near impossible due to a lack of robust data. It says there are only two known SMRs in operation – one in Russia (on a barge) and one in China. Both suffered the cost blowouts and delays that have become common with nuclear projects.

According to the International Atomic Energy Agency, there are more than 80 other SMR designs in development, only some of which would be used for electricity generation if successful. But it says their economic competitiveness is “still to be proven in practice”.

The CSIRO, which has looked at the evidence, concluded this is near impossible due to a lack of robust data. It says there are only two known SMRs in operation – one in Russia (on a barge) and one in China. Both suffered the cost blowouts and delays that have become common with nuclear projects.

According to the International Atomic Energy Agency, there are more than 80 other SMR designs in development, only some of which would be used for electricity generation if successful. But it says their economic competitiveness is “still to be proven in practice”.

But the idea Australia should wait for an unproven technology to possibly arrive when it already has extraordinary clean energy resources at its disposal defies all logic.

There is a genuine opportunity cost here. Time focused on the nuclear sideshow is playing into the delay game. I’m giving it succour just by writing this column.

Meanwhile, the world is in the grip of the hottest year on record. The fire season is under way in mid-September. Antarctic sea ice is at a record low level. Credible bodies such as the Australian Academy of Technological Sciences and Engineering now argue the country should be aiming to be net zero by 2035 – a date by which, if things go really well, just a small handful of SMRs may be in operation.

The transition away from fossil fuels is genuinely challenging. There are huge policy and social licence issues that need to be navigated so the rollout of renewable energy can accelerate. Emissions from transport, major industry and agriculture are not coming down. We barely talk about what adapting to the changes under way will mean.

But solutions are available. Imagine what might be possible if the political energy dedicated to the nuclear energy furphy went into developing those.

September 21, 2023 Posted by Christina Macpherson | AUSTRALIA - NATIONAL, technology | Leave a comment

Nuclear fusion ambitions in Australia from a coalition of technology companies – a dodgy dream?

Tech coalition aiming to create Australian high-powered laser industry with nuclear fusion ambitions.

Proponents say lasers can be used to generate energy but others say fusion power unlikely to ‘save us from climate change’

Donna Lu, 15 Dec 22,

A coalition of technology companies intend to create a high-intensity laser industry in Australia, with potential applications including nuclear fusion.

It follows reports of an expected announcement from the National Ignition Facility at Lawrence Livermore National Laboratory in California that researchers have managed to get more energy out of a nuclear fusion reaction than they put in.

The coalition, led by the Australian laser fusion company HB11 Energy, also includes the University of Adelaide, the Institute of Laser Engineering at Osaka University, the Japanese laser fusion firm EX-Fusion, and the French engineering multinational Thales Group………..

“The same lasers can be used, for instance, for the transmutation of fission radioactive waste – essentially reducing the half-life of radioactive waste from hundreds or thousands of years to tens of years,” – Dr Warren McKenzie, founder and managing director of HB11 Energy………………….

Prof Ken Baldwin of the Australian National University described the NIF’s apparent advancement as “a truly groundbreaking achievement”, but said it was unlikely fusion power would “save us from climate change”.

All the heavy lifting for the energy transition will be done by renewable energy and nuclear fission (existing nuclear power) – with nuclear fusion at commercial scale unlikely to be available until later this century, well after the 2050 deadline needed to keep global warming below two degrees. But beyond that, fusion might provide limitless energy for centuries to come,” Baldwin said in a statement.

Mark Diesendorf, an associate professor and deputy director of the Institute of Environmental Studies at the University of New South Wales, agreed that fusion was “decades away from any possibility of commercial electricity generation”.

“There’s a huge gap between this experiment – which I really would hesitate to call a breakthrough – and what has to be done to get commercial electricity out,” he said.

“There’s an intense pulse of laser radiation for a tiny fraction of a second. Then the question is: during that tiny fraction of second, did they get more fusion energy out than they put in?” Diesendorf said. “To generate electricity, what you’ve got to do is to have thousands and thousands … perhaps millions of these pulses a day successfully getting more energy out. And then you’ve got to capture that energy.”

Diesendorf also warned of the risk of nuclear proliferation, pointing out that the Lawrence Livermore National Laboratory, where the fusion breakthrough was made, is a nuclear weapons research facility.

“Fusion produces neutrons and neutrons can be used to transmute elements – so you can get nuclear explosives such as plutonium-239 and uranium-233 and uranium-235,” Diesendorf said. “You can also produce lots of tritium … an essential component of nuclear bombs in missiles.”…………………….. https://www.theguardian.com/australia-news/2022/dec/14/tech-coalition-aiming-to-create-australian-high-powered-laser-industry-with-nuclear-fusion-ambitions

December 15, 2022 Posted by Christina Macpherson | AUSTRALIA - NATIONAL, technology | Leave a comment

‘Unproven’ small nuclear reactors would raise Australia’s energy costs and delay renewable uptake, report says

Australian Conservation Foundation report finds modular reactors are expensive and introduce unnecessary challenges in managing radioactive waste

Guardian, Graham Readfearn 5 Oct 22,

The next generation of small nuclear reactors being advocated by the Coalition would raise electricity prices, slow the uptake of renewables and introduce new risks from nuclear waste, according to a report from the Australian Conservation Foundation.

But the report from the conservation group has found only two small modular reactors (SMRs) are known to be operating around the world, in Russia and China, and both have seen large cost blowouts.

Promoters of nuclear energy, the report claims, were pinning their hopes on technology that was “uncertain and unproven”.

“The good news about the renewed nuclear discussion is that it highlights that business as usual with fossil fuels is not an option,” the report found.

“The bad news is the very real risk of delay, distraction and a failure to advance a just energy transition”.

Last week during question time, the energy minister, Chris Bowen, mocked the Coalition for supporting nuclear and asked which MP would be willing to have a reactor in their electorate.

Nuclear energy has been effectively banned in Australia since the late 1990s, but some Coalition senators are pushing for those restrictions to be lifted.

The opposition leader, Peter Dutton, has tasked the shadow climate minister, Ted O’Brien, to review the status of nuclear energy.

In the report Dave Sweeney, ACF’s Nuclear Free campaigner, wrote SMRs would push up electricity costs and introduce unnecessary challenges in managing nuclear waste.

“In short, Australia’s energy future is renewable, not radioactive,” he wrote.

According to the report, Russia’s floating nuclear plant, the Akademik Lomonosov, has two small SMR units on board. Construction costs had ballooned sixfold.

Work started in 2012 on a demonstration plant in China with two gas-cooled reactors that was completed nine years later, costing $8.8bn.

“The global SMR reality simply does not come close to matching the Australian SMR rhetoric,” the report says.

Three further SMR plants were under construction in Argentina, China and Russia but had been plagued by cost rises and delays, the report said.

In June, a study in the Proceedings of the National Academy of Sciences suggested future deployment of SMRs could increase the amount of nuclear waste by factors of two to 30, depending on the design.

……………………………………….. In June the International Energy Agency said SMRs were not yet commercially viable, but “lower cost, smaller size and reduced project risks” could improve social acceptance.

There was increased support and interest in Canada, France, UK and the US for the technology, the report said, adding: “But the successful long-term deployment of SMRs hinges on strong support from policymakers starting now, not just to mobilise investment but also to streamline and harmonise regulatory frameworks.”    https://www.theguardian.com/australia-news/2022/oct/05/unproven-small-nuclear-reactors-would-raise-energy-costs-and-delay-renewable-uptake-report-says

October 6, 2022 Posted by Christina Macpherson | AUSTRALIA - NATIONAL, technology | Leave a comment

What future for Small Nuclear Reactors (SMRs) in Australia ?

Small nuclear reactor? It’s a lemon!

Large taxpayer subsidies might get some projects, such as the NuScale project in the US or the Rolls-Royce mid-sized reactor project in the UK, to the construction stage. Or they may join the growing list of abandoned SMR projects

In 2022, nuclear power’s future looks grimmer than ever, Jim Green, 11 Jan 2022, RenewEconomy

”……………………………………….. Small modular reactors

Small modular reactors (SMRs) are heavily promoted but construction projects are few and far between and have exhibited disastrous cost overruns and multi-year delays.

It should be noted that none of the projects discussed below meet the ‘modular’ definition of serial factory production of reactor components, which could potentially drive down costs. Using that definition, no SMRs have ever been built and no country, company or utility is building the infrastructure for SMR construction.

In 2004, when the CAREM SMR in Argentina was in the planning stage, Argentina’s Bariloche Atomic Center estimated an overnight cost of A$1.4 billion / GW for an integrated 300 megawatt (MW) plant, while acknowledging that to achieve such a cost would be a “very difficult task”. Now, the cost estimate is more than 20 times greater at A$32.6 billion / GW. A little over A$1 billion for a reactor with a capacity of just 32 MW. The project is seven years behind schedule and costs will likely increase further.

Russia’s 70 MW floating nuclear power plant is said to be the only operating SMR anywhere in the world (although it doesn’t fit the ‘modular’ definition of serial factory production). The construction cost increased six-fold from 6 billion rubles to 37 billion rubles (A$688 million), equivalent to A$9.8 billion / GW. The construction project was nine years behind schedule.

According to the OECD’s Nuclear Energy Agency, electricity produced by the Russian floating plant costs an estimated A$279 / MWh, with the high cost due to large staffing requirements, high fuel costs, and resources required to maintain the barge and coastal infrastructure. The cost of electricity produced by the Russian plant exceeds costs from large reactors (A$182-284) even though SMRs are being promoted as the solution to the exorbitant costs of large nuclear plants.

SMRs are being promoted as important potential contributors to climate change abatement but the primary purpose of the Russian plant is to power fossil fuel mining operations in the Arctic.

A 2016 report said that the estimated construction cost of China’s demonstration 210 MW high-temperature gas-cooled reactor (HTGR) is about A$7.0 billion / GW and that cost increases have arisen from higher material and component costs, increases in labour costs, and project delays. The World Nuclear Association states that the cost is A$8.4 billion / GW. Those figures are 2-3 times higher than the A$2.8 billion / GW estimate in a 2009 paper by Tsinghua University researchers.

China’s HTGR was partially grid-connected in late-2021 and full connection will take place in early 2022.

China reportedly plans to upscale the HTGR design to 655 MW (three reactor modules feeding one turbine). China’s Institute of Nuclear and New Energy Technology at Tsinghua University expects the cost of a 655 MW HTGR will be 15-20 percent higher than the cost of a conventional 600 MW pressurised water reactor.

NucNet reported in 2020 that China’s State Nuclear Power Technology Corp dropped plans to manufacture 20 additional HTGR units after levelised cost of electricity estimates rose to levels higher than a conventional pressurised water reactor such as China’s indigenous Hualong One. Likewise, the World Nuclear Association states that plans for 18 additional HTGRs at the same site as the demonstration plant have been “dropped”.

The World Nuclear Association lists just two other SMR construction projects other than those listed above. In July 2021, China National Nuclear Corporation (CNNC) New Energy Corporation began construction of the 125 MW pressurised water reactor ACP100. According to CNNC, construction costs per kilowatt will be twice the cost of large reactors, and the levelised cost of electricity will be 50 percent higher than large reactors.

In June 2021, construction of the 300 MW demonstration lead-cooled BREST fast reactor began in Russia. In 2012, the estimated cost for the reactor and associated facilities was A$780 million, but the cost estimate has more than doubled and now stands at A$1.9 billion.

SMR hype

Much more could be said about the proliferation of SMRs in the ‘planning’ stage, and the accompanying hype. For example a recent review asserts that more than 30 demonstrations of ‘advanced’ reactor designs are in progress across the globe. In fact, few have progressed beyond the planning stage, and few will. Private-sector funding has been scant and taxpayer funding has generally been well short of that required for SMR construction projects to proceed.

Large taxpayer subsidies might get some projects, such as the NuScale project in the US or the Rolls-Royce mid-sized reactor project in the UK, to the construction stage. Or they may join the growing list of abandoned SMR projects.

A failed history of small reactor projects. A handful of recent construction projects, most subject to major cost overruns and multi-year delays. And the possibility of a small number of SMR construction projects over the next decade. Clearly the hype surrounding SMRs lacks justification.

Everything that is promising about SMRs belongs in the never-never; everything in the real-world is expensive and over-budget, slow and behind schedule. Moreover, there are disturbing, multifaceted connections between SMR projects and nuclear weapons proliferation, and between SMRs and fossil fuel mining.

SMRs for Australia

There is ongoing promotion of SMRs in Australia but a study by WSP / Parsons Brinckerhoff, commissioned by the South Australian Nuclear Fuel Cycle Royal Commission, estimated costs of A$225 / MWh for SMRs. The Minerals Council of Australia states that SMRs won’t find a market unless they can produce power at about one-third of that cost.

In its 2021 GenCost report, CSIRO provides these 2030 cost estimates:

* Nuclear (SMR): A$128-322 / MWh

* 90 percent wind and solar PV with integration costs (transmission, storage and synchronous condensers): A$55-80 / MWh

Enthusiasts hope that nuclear power’s cost competitiveness will improve, but in all likelihood it will continue to worsen. Alone among energy sources, nuclear power becomes more expensive over time, or in other words it has a negative learning curve.

Dr Jim Green is the national nuclear campaigner with Friends of the Earth Australia and the author of a recent report on nuclear power’s economic crisis. , https://reneweconomy.com.au/in-2022-nuclear-powers-future-is-grimmer-than-ever/

January 11, 2022 Posted by Christina Macpherson | AUSTRALIA - NATIONAL, technology | Leave a comment

UK Astute class nuclear submarine visits Perth

British nuclear-powered sub visits Perth
1 November 2021 

A Royal Navy nuclear-powered submarine has conducted a port visit to Perth, one of the first since the announcement of AUKUS in September.

The Astute class submarine went alongside HMAS Stirling in Rockingham, WA on Friday.

The submarine has been part of the UK Carrier Strike Group deployment to the Indo-Pacific which had recently exercised with a range of RAN units alongside numerous engagements with regional partners……………. https://www.australiandefence.com.au/news/british-nuclear-powered-sub-visits-perth

November 2, 2021 Posted by Christina Macpherson | AUSTRALIA - NATIONAL, technology | Leave a comment