During the operation of a nuclear power plant (NPP), a significant amount of ruthenium is built up in the fuel as a product of the nuclear fission. The importance of ruthenium from the radiological point of view is mainly due to the isotopes 103Ru and 106Ru with half-lives of 39.35 days and 373.5 days, respectively. When ruthenium is released from the fuel to the environment in a severe NPP accident, these ruthenium isotopes cause a radiotoxic risk to the population both in a short and long term by building-up to the human body and external exposure to the radiation, thus possibly leading to a development of cancer. The transport of ruthenium through a reactor coolant system (RCS), after being released from the fuel, has been investigated i...
Ruthenium is a fission product that can be released from the fuel in case of a severe nuclear accide...
Ruthenium is a semi-volatile element originating as a fission product in nuclear reactors that can b...
A particular concern in the event of a hypothetical severe accident is the potential release of high...
When ruthenium is released from the fuel as ruthenium oxides to the environment in a severe NPP acci...
During the operation of a nuclear power plant (NPP), a significant amount of ruthenium is built up i...
Ruthenium is a semi-volatile element existing as a fission product in nuclear reactor fuel that can ...
Ruthenium is a semi-volatile element existing as a fission product in nuclear reactor fuel that can ...
The chemistry of radiotoxic ruthenium in a severe nuclear power accident has actively been investiga...
International audienceRuthenium species, volatilized from damaged fuel during a severe accident in a...
The chemistry of radiotoxic ruthenium in a severe nuclear power accident has actively been investiga...
During a nuclear accident the most important chemical elements are those forming volatile compounds ...
In a hypothetical severe accident in a Pressurised Water Reactor (PWR), Fission Products (FPs) can b...
Ruthenium is a fission product that can be released from the fuel in case of a severe nuclear accide...
Ruthenium is a semi-volatile element originating as a fission product in nuclear reactors that can b...
A particular concern in the event of a hypothetical severe accident is the potential release of high...
When ruthenium is released from the fuel as ruthenium oxides to the environment in a severe NPP acci...
During the operation of a nuclear power plant (NPP), a significant amount of ruthenium is built up i...
Ruthenium is a semi-volatile element existing as a fission product in nuclear reactor fuel that can ...
Ruthenium is a semi-volatile element existing as a fission product in nuclear reactor fuel that can ...
The chemistry of radiotoxic ruthenium in a severe nuclear power accident has actively been investiga...
International audienceRuthenium species, volatilized from damaged fuel during a severe accident in a...
The chemistry of radiotoxic ruthenium in a severe nuclear power accident has actively been investiga...
During a nuclear accident the most important chemical elements are those forming volatile compounds ...
In a hypothetical severe accident in a Pressurised Water Reactor (PWR), Fission Products (FPs) can b...
Ruthenium is a fission product that can be released from the fuel in case of a severe nuclear accide...
Ruthenium is a semi-volatile element originating as a fission product in nuclear reactors that can b...
A particular concern in the event of a hypothetical severe accident is the potential release of high...