Advanced nuclear reactors and closed nuclear fuel cycles are developed worldwide as a key component to ensure sustainable energy supplies to satisfy future demands1-4, while minimizing the long-term radiotoxicity of the resulting high level waste. Separation from spent fuel and subsequent recycling of Pu, U as fuel, and transmutation of Minor Actinides (MA) Np, Am, Cm) in fast reactors and/or MA burners are necessary steps to achieve this goal5-7. In addition to oxides, metal alloys, nitrides and carbides are considered as possible fuels for the new generations of nuclear reactors8-9. This paper presents an update of the results from the METAPHIX programme, a collaboration between the Central Research Institute of Electric Power Industry (C...
Minor actinide (MA)-bearing metal fuels were irradiated in the fast reactor Phénix to understand the...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and rare earths (REs) are be...
Closing the nuclear fuel cycle, as studied in the frame of international programmes will be a major ...
Advanced nuclear reactors and closed nuclear fuel cycles are important option to achieve sustainable...
A worldwide objective in nuclear energy industry is the reduction of long-lived radio toxicity and h...
Fully sustainable nuclear energy and the reduction of the long-term radiotoxicity of high level wast...
AbstractThe METAPHIX programme is a collaboration between the Central Research Institute of Electric...
The METAPHIX programme is a collaboration between the Central Research Institute of Electric Power I...
Closed nuclear fuel cycles, based on separation from spent fuel and subsequent recycling of Pu, U as...
Advanced nuclear reactors and closed nuclear fuel cycles are being considered worldwide as an import...
The METAPHIX project is a collaboration between CRIEPI and JRC-ITU investigating safety and performa...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and/or rare earths (REs) Y, ...
Fuels for future fast reactors will not only produce energy, but they must also actively contribute ...
Transmutation of long-lived radio-nuclides is an option for reducing the hazards linked to the back-...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and rare earths (REs) are be...
Minor actinide (MA)-bearing metal fuels were irradiated in the fast reactor Phénix to understand the...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and rare earths (REs) are be...
Closing the nuclear fuel cycle, as studied in the frame of international programmes will be a major ...
Advanced nuclear reactors and closed nuclear fuel cycles are important option to achieve sustainable...
A worldwide objective in nuclear energy industry is the reduction of long-lived radio toxicity and h...
Fully sustainable nuclear energy and the reduction of the long-term radiotoxicity of high level wast...
AbstractThe METAPHIX programme is a collaboration between the Central Research Institute of Electric...
The METAPHIX programme is a collaboration between the Central Research Institute of Electric Power I...
Closed nuclear fuel cycles, based on separation from spent fuel and subsequent recycling of Pu, U as...
Advanced nuclear reactors and closed nuclear fuel cycles are being considered worldwide as an import...
The METAPHIX project is a collaboration between CRIEPI and JRC-ITU investigating safety and performa...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and/or rare earths (REs) Y, ...
Fuels for future fast reactors will not only produce energy, but they must also actively contribute ...
Transmutation of long-lived radio-nuclides is an option for reducing the hazards linked to the back-...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and rare earths (REs) are be...
Minor actinide (MA)-bearing metal fuels were irradiated in the fast reactor Phénix to understand the...
Fast reactor metal fuels containing minor actinides (MAs) Np, Am and Cm and rare earths (REs) are be...
Closing the nuclear fuel cycle, as studied in the frame of international programmes will be a major ...