The extraordinary financial costs of ‘small’ nuclear power stations
By Alan Finkel, Cosmos, 21 Mar 24
Partial extract from an article to be posted in 360info.org
They’re being touted as the solution to kickstarting a nuclear power industry in Australia.
According to the Opposition’s Minister for Climate Change and Energy, Ted O’Brien, small modular reactors (SMR) could be built within ten-year period if it wins the next election.
However, it would likely take 20 years to commence commercial operation of any nuclear reactors in Australia from the time in-principle approval was reached. To reach that starting point and enable detailed consideration of the challenges and costs of nuclear power, the existing legislative ban on nuclear power in Australia will need to be removed.
There are other obstacles.
While there’s plenty of excitement about SMRs, the problem is there just isn’t enough data about them, mainly because there are none operating in any OECD country.
And it’s unknown when any might be. As Allison Macfarlane, former chair of the US Nuclear Regulatory commission, argues in her article,The end of Oppenheimer’s energy dream, the proposal for small modular reactors to help us in the clean energy transition is fanciful.
The SMR furthest along the US Nuclear Regulatory Commission (NRC) approval process, from the US company NuScale, cancelled its first planned installation in Utah last November when the initial cost blew out to USD$9 billion, corresponding to USD$20 billion per GW.
The only countries with working SMRs are China and Russia.
Micro and large reactors
Micro reactors are intended to generate electrical power up to 10 MW per unit. Although companies such as Rolls Royce are developing these, there do not appear to be any commercial micro modular reactors that have completed their design.
That leaves full-scale reactors, which have also been mentioned as part of a possible Australian nuclear power play.
Korean company KEPCO builds most of the nuclear reactors in Korea and has now built one at Barakah in the United Arab Emirates. This 5.6 GW plant, scheduled to open this year, has taken 16 years to complete and cost USD$24 billion (AUD$36 billion). At 5.6 GW, that is AUD$6.4 billion per GW. Given salaries and skills shortages in Australia, inflation, interest rates and our regulatory requirements, it would cost more and take longer in Australia.
The Hinkley C plant in the UK was supposed to be finished in 2017 but has been delayed again until 2031 – 23 years after approval. The estimated construction cost ballooned to AUD$89 billion. At 3.2 GW electrical power, that is AUD$28 billion per GW.
In the US, the most recent nuclear reactors to be built are the Vogtle 3 and 4built at the existing facility that is home to the Vogtle 1 and 2 reactors. Both were anticipated to be in service in 2016. Vogtle 3 began commercial operation in July 2023. Vogtle 4 is projected to commence operation in the second quarter of 2024 – 15 years after the construction contract was awarded.
Construction cost USD$34 billion (AUD$52 billion) for the combined 2.2 GW output of the two reactors, or AUD$24 billion per GW.
Construction of nuclear plants in the United States has declined dramatically over the years. Approximately 130 were built from the mid 1950s to the mid 1990s. Only four commenced operation in the 30 years from the mid 1990s to now, and at the time of writing there are no nuclear reactors under construction in the United States.
In France, only one nuclear power plant is under construction. The 1.65 GW Flamanville EPR reactor is hoped to be completed and begin to supply electricity later this year, 17 years after construction began. The most recent cost estimate was AUD$22 billion or AUD$13 billion per GW. No other nuclear power plants are planned in France.
These high costs and long delivery durations for full-scale reactors are the reasons SMRs are proposed as a way forward in Australia. However, SMRs are a new technology. There are none in operation or construction in any OECD countries, thus it is not possible to estimate the costs or delivery schedules. NuScale’s investment to date suggests that the capital cost for the first units to be delivered will be very high. ………… https://cosmosmagazine.com/technology/energy/the-extraordinary-financial-costs-of-nuclear-power/
1 Comment »
Leave a comment
1 This Month
Website of the Week
New book – https://www.amazon.com/dp/1923372157?utm_source=substack&utm_medium=email
Now until to February 10, 2026 Radioactive waste storage in France: the debate is finally open! How to participate?
-
Archives
- January 2026 (82)
- December 2025 (358)
- November 2025 (359)
- October 2025 (377)
- September 2025 (258)
- August 2025 (319)
- July 2025 (230)
- June 2025 (348)
- May 2025 (261)
- April 2025 (305)
- March 2025 (319)
- February 2025 (234)
-
Categories
- 1
- 1 NUCLEAR ISSUES
- business and costs
- climate change
- culture and arts
- ENERGY
- environment
- health
- history
- indigenous issues
- Legal
- marketing of nuclear
- media
- opposition to nuclear
- PERSONAL STORIES
- politics
- politics international
- Religion and ethics
- safety
- secrets,lies and civil liberties
- spinbuster
- technology
- Uranium
- wastes
- weapons and war
- Women
- 2 WORLD
- ACTION
- AFRICA
- Atrocities
- AUSTRALIA
- Christina's notes
- Christina's themes
- culture and arts
- Events
- Fuk 2022
- Fuk 2023
- Fukushima 2017
- Fukushima 2018
- fukushima 2019
- Fukushima 2020
- Fukushima 2021
- general
- global warming
- Humour (God we need it)
- Nuclear
- RARE EARTHS
- Reference
- resources – print
- Resources -audiovicual
- Weekly Newsletter
- World
- World Nuclear
- YouTube
-
RSS
Entries RSS
Comments RSS
nuclear-news 
We don’t need SMR or the old boiling water or pressurized water nuclear reactors. What we need is a “Apollo Lunar Landing Type Mission,” to transition off of both fossil fuel and nuclear power. We need to mitigate for the impact from climate change, moving people away from rising sea levels, putting up levees, dikes, gates, pumps, storm water catchment basins for storm surges and transitioning to a renewable energy economy with just solar, wind, geothermal and hydroelectric power. We need to reduce our consumption of energy in all forms by insulating our buildings, switching to LED lighting, using public transit, switching to electric vehicles, hybrids, electric bicycles and scooters, bicycles, recycling as much of our wastes as possible, striving for zero population growth. We need to improve our manufacturing, industrial processes, to reduce our energy consumption using more recycled materials, especially with the making of steel, aluminum and cement. Agriculture has to be used not just for feeding or making crops for biomass fuels, but for carbon capture and sequestration that will renew and maintain the soils fertility. Tractors, farm equipment need to be switched to renewable energy, biofuels and the transport of agricultural products must use rails and electric vehicles or bio-diesel power. Fossil fuel and nuclear power both must be phased out “with all deliberate speed,” so our planet, its ecosystems and lifeforms might survive for generations to come.