Tiny single-cell organisms discovered living underground could help with the problem of nuclear waste disposal, say researchers involved in a study at The University of Manchester. Although bacteria with waste-eating properties ...
(Phys.org) —Here's the question faced by a team of Sandia National Laboratories researchers: How fast will iodine-129 released from spent nuclear fuel move through a deep, clay-based geological repository?
Leonardo da Vinci once remarked "we know more about celestial bodies than the Earth underfoot", and in 500 years not a lot has changed - especially where most of our fresh water is concerned.
By interacting with the radioactive waste and the materials used to contain it, underground microorganisms may affect the safety of nuclear waste repositories, for better or for worse.
Developing a nuclear-powered submarine may present no greater challenge for Australia than developing its own uniquely modified conventional submarine, according to a green paper published today by University College London.
The withdrawal of Nevada's Yucca Mountain as a potential nuclear waste repository has reopened the debate over how and where to dispose of spent nuclear fuel and high-level nuclear waste.