In the course of a nine-day release by the Chernobyl reactor in April-May 1986, ruthenium was considered to have been emitted at the same rate as other refractory elements. In fact, there are indications that the release was more important than previously estimated and lasted for tens of days because of oxidation of Ru into volatile forms. This paper demonstrates that, when put in contact with air, small uranium oxide particles can release 100% of radioruthenium at temperatures of the order of 1000 degrees C
International audienceIn October 2017, most European countries reported unique atmospheric detection...
Ruthenium is a semi-volatile element existing as a fission product in nuclear reactor fuel that can ...
During a hypothetical severe accident on a nuclear Pressurized Water Reactor (PWR), the formation of...
During routine nuclear reactor operations, ruthenium will accumulate in the fuel in relatively high ...
The emission of uranium and ruthenium oxides from overheated nuclear fuel is a complex phenomenon wh...
In this study the release, transport and speciation of ruthenium in conditions simulating an air ing...
International audienceRuthenium species, volatilized from damaged fuel during a severe accident in a...
In a hypothetical severe accident in a Pressurised Water Reactor (PWR), Fission Products (FPs) can b...
In this project the release, transport and speciation of ruthenium in conditions simulating an air i...
Ruthenium is a semi-volatile element existing as a fission product in nuclear reactor fuel that can ...
Summary In a hypothetical severe accident in a Pressurized Water Reactor (PWR), Fission Products (FP...
In October 2017, most European countries reported unique atmospheric detections of aerosol-bound rad...
International audienceIn October 2017, most European countries reported unique atmospheric detection...
Ruthenium is a semi-volatile element existing as a fission product in nuclear reactor fuel that can ...
During a hypothetical severe accident on a nuclear Pressurized Water Reactor (PWR), the formation of...
During routine nuclear reactor operations, ruthenium will accumulate in the fuel in relatively high ...
The emission of uranium and ruthenium oxides from overheated nuclear fuel is a complex phenomenon wh...
In this study the release, transport and speciation of ruthenium in conditions simulating an air ing...
International audienceRuthenium species, volatilized from damaged fuel during a severe accident in a...
In a hypothetical severe accident in a Pressurised Water Reactor (PWR), Fission Products (FPs) can b...
In this project the release, transport and speciation of ruthenium in conditions simulating an air i...
Ruthenium is a semi-volatile element existing as a fission product in nuclear reactor fuel that can ...
Summary In a hypothetical severe accident in a Pressurized Water Reactor (PWR), Fission Products (FP...
In October 2017, most European countries reported unique atmospheric detections of aerosol-bound rad...
International audienceIn October 2017, most European countries reported unique atmospheric detection...
Ruthenium is a semi-volatile element existing as a fission product in nuclear reactor fuel that can ...
During a hypothetical severe accident on a nuclear Pressurized Water Reactor (PWR), the formation of...