Ruthenium is a fission product that can be released from the fuel in case of a severe nuclear accident. In this work the impact of the atmosphere composition, including air radiolysis products, on the transport of ruthenium through a primary circuit was examined. Experiments were performed at temperatures 1300, 1500 and 1700 K in a slightly humid air. In the experiments significant effect of nitrogen oxides (N2O, NO2) and nitric acid on the ruthenium chemistry in the model primary circuit was observed. The obtained results indicate a strong effect of air radiolysis products on the quantity partitioning of transported ruthenium to gaseous and aerosol compounds
Summary In a hypothetical severe accident in a Pressurized Water Reactor (PWR), Fission Products (FP...
When ruthenium is released from the fuel as ruthenium oxides to the environment in a severe NPP acci...
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...
During a nuclear accident the most important chemical elements are those forming volatile compounds ...
Ruthenium is one of the most radiotoxic fission products which can be released from fuel as rutheniu...
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 ...
During the operation of a nuclear power plant (NPP), a significant amount of ruthenium is built up i...
During the operation of a nuclear power plant (NPP), a significant amount of ruthenium is built up i...
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...
The chemistry of radiotoxic ruthenium in a severe nuclear power accident has actively been investiga...
Summary In a hypothetical severe accident in a Pressurized Water Reactor (PWR), Fission Products (FP...
When ruthenium is released from the fuel as ruthenium oxides to the environment in a severe NPP acci...
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...
During a nuclear accident the most important chemical elements are those forming volatile compounds ...
Ruthenium is one of the most radiotoxic fission products which can be released from fuel as rutheniu...
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 ...
During the operation of a nuclear power plant (NPP), a significant amount of ruthenium is built up i...
During the operation of a nuclear power plant (NPP), a significant amount of ruthenium is built up i...
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...
The chemistry of radiotoxic ruthenium in a severe nuclear power accident has actively been investiga...
Summary In a hypothetical severe accident in a Pressurized Water Reactor (PWR), Fission Products (FP...
When ruthenium is released from the fuel as ruthenium oxides to the environment in a severe NPP acci...
In a hypothetical severe accident in a Pressurised Water Reactor (PWR), Fission Products (FPs) can b...