Energy Transition

Nuclear fuel suffers from a geographical supply imbalance. Here's why that's a concern

Nuclear energy: A man stops his mining cart at the exit to the Pandora Mine in La Sal, Utah, June 1, 2007. Record uranium prices are driving a revival in mining for the radioactive metal's ore in the Colorado Plateau area of the U.S. southwest. To match feature USA-URANIUM/RUSH REUTERS/Tim Gaynor (UNITED STATES)

Debates over the benefits of uranium mining and nuclear energy are widespread. Image: REUTERS/Tim Gaynor (UNITED STATES)

John Letzing
Digital Editor, World Economic Forum

Uranium was discovered more than two centuries ago on the fringes of the Habsburg Empire, and proved useful for tinting photos and colouring vases. Now, many people think it can help solve the climate crisis.

After the radioactive metal is mined and processed, a controlled splitting of uranium atoms can power nuclear reactors – and produce an energy alternative to fossil fuels. One report found that the nuclear sector helped avert the emission of 74 billion tonnes of carbon dioxide between 1971 and 2018.

But the sector’s primary form of sustenance suffers from an imbalance.

Kazakhstan, the “Saudi Arabia of uranium,” has been providing about 40% of the global supply; in 2020, it delivered more than three times the output of the next-largest producer, Australia.

When Kazakhstan was convulsed by social unrest last month, uranium prices surged. That stirred speculation about a “global crunch.”

It also underlined the reliance of some nuclear-focused countries (France uses 8,200 tonnes per year to generate electricity, for example), and drew attention to emerging nuclear-power technologies that could enable more efficient use of uranium – or even make it possible to one day avoid using it at all.

Image: World Economic Forum

For now, one option for balancing supply might be to ramp up production in other locations. Australia is estimated to have the largest share of uranium deposits, followed by Kazakhstan and a few countries with relatively equal amounts including Canada, Russia, and Namibia.

A particularly massive repository that spans the globe remains largely untapped; scientists have been working on ways to absorb uranium from the ocean, including by using a material inspired by blood vessels.

Limiting uranium’s role in nuclear power

Uranium extraction has had serious health and environmental consequences – though efforts have been made to make it more sustainable.

In the same part of the world where it was discovered in 1789, uranium mining eventually became a form of punishment for political prisoners in communist Czechoslovakia. In 2017, what is now the Czech Republic closed its last uranium mine.

Yet, the Czech Republic is one of a number of European Union member states in favour of classifying nuclear power as a green investment that will help the bloc transition to an emissions-free future. Other members, like Germany and Spain, are less enthusiastic.

Plans for a new uranium mine in western Spain were met with well-attended protests, and the project was blocked last year.

The US has also been home to heated debate over uranium mining and nuclear energy. The largest undeveloped uranium deposit in the country, in southern Virginia, has been the subject of a longstanding fight over the right to extract it.

Image: World Economic Forum

China has ambitious plans to expand its nuclear-power capacity, and its intention disclosed late last year to build at least 150 new reactors in the next decade-and-a-half helped send uranium prices higher.

China is also making closely-watched efforts to develop nuclear reactors that run on thorium instead of uranium – which could be cleaner and safer.

“It is much more democratic than uranium,” the co-founder of a Swiss startup developing a thorium reactor told a reporter last month, because the metal named after the god of thunder is relatively evenly distributed.

Limiting the role of uranium might also help address a chief concern of nuclear-energy opponents: the long-lasting radioactive waste generated by uranium-powered reactors.

More reading on uranium and nuclear energy

For more context, here are links to further reading from the World Economic Forum's Strategic Intelligence platform:

  • Uranium prices have long reflected an undervaluing of nuclear energy’s potential to tackle the climate emergency, according to this analysis. (The Conversation)
  • “Their humiliation couldn’t be greater.” The European Commission’s plan to classify nuclear as green energy has displeased one constituency in particular, according to this piece. (Project Syndicate)
  • A European focus on nuclear as a green energy option may boost similar ambitions in Asia, according to this report, though progress there is likely to be impeded by technical hurdles and a gas glut. (Eco-Business)
  • Despite lobbyists’ efforts to portray nuclear and gas as a “low-impact” transitional solution, both raise serious environmental concerns and will delay Europe’s shift to a clean-energy system, according to this piece. (Social Europe)
  • The experts surveyed in this piece hold out hope that small modular nuclear reactor technology can help solve climate-change challenges renewable energy cannot, but they also cite significant timing, economic, and communication obstacles. (Yale Climate Connections)
  • “Uranium reveals its true nature” – scientists at a Swiss university have made a discovery they say could help inform the way radioactive waste is managed. (EPFL)
  • The protestors who took to the streets in Kazakhstan last month had many motivations, according to this analysis: fuel prices, inflation, inequality of opportunity, low wages, and corruption. (International Crisis Group)

On the Strategic Intelligence platform, you can find feeds of expert analysis related to Energy, Nuclear Security and hundreds of additional topics. You’ll need to register to view.

Image: World Economic Forum
Don't miss any update on this topic

Create a free account and access your personalized content collection with our latest publications and analyses.

Sign up for free

License and Republishing

World Economic Forum articles may be republished in accordance with the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International Public License, and in accordance with our Terms of Use.

The views expressed in this article are those of the author alone and not the World Economic Forum.

Stay up to date:

Energy Transition

Share:
The Big Picture
Explore and monitor how Energy Transition is affecting economies, industries and global issues
A hand holding a looking glass by a lake
Crowdsource Innovation
Get involved with our crowdsourced digital platform to deliver impact at scale
World Economic Forum logo
Global Agenda

The Agenda Weekly

A weekly update of the most important issues driving the global agenda

Subscribe today

You can unsubscribe at any time using the link in our emails. For more details, review our privacy policy.

Clean Power for Industry in China: Policy Enablers for the Industrial Sector

COP29: Why new climate pledges need ambition, finance and action to succeed

About us

Engage with us

  • Sign in
  • Partner with us
  • Become a member
  • Sign up for our press releases
  • Subscribe to our newsletters
  • Contact us

Quick links

Language editions

Privacy Policy & Terms of Service

Sitemap

© 2024 World Economic Forum