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New Superconducting Material Brings Nuclear Fusion Closer

Written by , on March 14, 2018

Engineers at Commonwealth Fusion Systems, a spinoff from the Massachusetts Institute of Technology, have predicted that using a new superconducting material will allow nuclear fusion power to be supplied to the grid within 15 years.  Read more »

Renewed Interest in Thorium Nucler Reactors

Written by , on September 13, 2017

Thorium has long held promise for safer nuclear power. The Oak Ridge National Laboratory in the United States designed and built a demonstration molten salt reactor and operated it from 1965 to 1969. There is now renewed interest in thorium technology around the world.  Read more »

10 Years of Progress in Renewables

Written by , on June 19, 2015

In its 2015 “Global Status Report”, REN21, the global renewable energy policy network, has summarised the increase in renewable energy capacity in the 10 years from 2004 to 2014. In 2004, global renewable power capacity (excluding hydro) was 85 gigawatts. In 2014, it reached 657 gigawatts.  Read more »

China Aims to Lead in New Nuclear Power

Written by , on February 2, 2011

China has officially announced that it will launch a program to develop a thorium-fueled molten-salt nuclear reactor. If the reactor works as planned, China will lead the world in clean nuclear energy. Thorium has several advantages over uranium as a reactor fuel. Unlike a uranium reaction, a thorium fuel reaction does not produce weapons-usable plutonium. […]  Read more »

Solution to Major Problem in Nuclear Fusion

Written by , on November 15, 2010

A research team from the US Department of Energy’s Sandia National Laboratories has discovered a way to keep the fusion plasma from eroding divertor walls inside tokamak fusion machines. The researchers believe that this could enable them to achieve "scientific breakeven" (i.e. the amount of energy produced by the reactor is greater than the energy […]  Read more »

95% Renewable Energy by 2050 Blueprint

Written by , on June 16, 2010

Greenpeace International and the European Renewable Energy Council have produced a report titled: “Energy [R]evolution: A Sustainable World Energy Outlook” which provides a detailed blueprint for cutting carbon emissions while achieving economic growth by replacing fossil fuels with renewable energy and energy efficiency. Acopy of the full 212-page report is here; a 16-page summary is […]  Read more »

Toshiba in Talks about Developing Travelling Wave Reactors

Written by , on March 24, 2010

Toshiba is in talks Terrapower, a company backed by Bill Gates, to jointly develop traveling wave nuclear reactors which are designed to use depleted uranium as fuel and could run for 60 years or more without refueling. (See  Read more »

“New Nuclear” – Power from Nuclear Waste

Written by , on March 24, 2010

A traveling-wave reactor is a kind of nuclear reactor that can convert fertile material into nuclear fuel as it runs. Travelling wave reactors differ from other kinds of  reactors in their ability to use little or no enriched uranium; instead they burn fuel made from depleted uranium, spent fuel removed from light-water reactors, natural uranium, […]  Read more »

Power from Nuclear Fusion within Two Years?

Written by , on March 23, 2010

Scientists have been working on developing nuclear fusion power generation since the early 1950s. The main problem has always been that more energy has been required to produce the reaction than is produced. Scientists at the National Ignition Facility in California believe that their latest experiments will overcome the problem. Their technique uses lasers to […]  Read more »

New Material “Eats” Nuclear Waste

Written by , on February 11, 2010

Scientists at Northwestern University in Chicago have developed a new material which permanently traps only the radioactive ion cesium and not other harmless ions like sodium. The material is made from layers of a gallium, sulfur and antimony compound. It has been found to be extremely effective in removing radioactive cesium – which found in […]  Read more »