Geological disposal, optimized materials and greater use of digital tools to enhance communication with stakeholders are among the innovations the nuclear industry is developing to address outstanding ...
The world’s nuclear power plants have produced an estimated 448,000 tonnes (494,000 U.S. tons) ...
This Collection brings together original research focused on the science and engineering of nuclear waste management and recycling. Topics include characterisation of radionuclide behaviour, modelling ...
The debate is between those who see a path to making nuclear waste clean again and those who advocate a more cautious approach. An ancient Greek saying warns us that "there is no such thing as a free ...
The Status and Trends in Spent Fuel and Radioactive Waste Management project is a collaborative effort between the IAEA, the OECD Nuclear Energy Agency, the European Commission, the World Nuclear ...
South Korea's National Assembly has passed an act that stipulates the construction of interim storage facilities for high-level radioactive waste by 2050 and permanent disposal facilities by 2060. The ...
One of the highest-risk components of nuclear waste is iodine-129 (I-129), which stays radioactive for millions of years and accumulates in human thyroids when ingested. In the U.S., nuclear waste ...
New designs mean new strategies for managing spent fuel. MIT Technology Review Explains: Let our writers untangle the complex, messy world of technology to help you understand what’s coming next. You ...
Effective nuclear waste management is a critical global challenge, particularly for countries like the UK looking to expand their nuclear power sectors. The UK has a substantial amount of existing ...
Few scientific fields display more breadth and depth than nuclear materials—a topic that deals with almost everything that touches on nuclear reactions. Scientists coming from many diverse disciplines ...