Add to ORKGMolten salt reactors, in the configuration presented here and called Thorium Molten Salt Reactor (TMSR), are particularly well suited to fulfil the criteria defined by the Generation IV forum, and may be operated in simplified and safe conditions in the Th/233U fuel cycle with fluoride salts. The characteristics of TMSRs based on a fast neutron spectrum are detailed in this paper, focusing on their excellent level of deterministic safety. We aimed at designing a critical TMSR able to burn the Plutonium and the Minor Actinides produced in the currently operating reactors, and consequently to convert this Plutonium into 233U. This leads to closing the current fuel cycle thanks to TMSRs started with transuranic elements on a Thorium base, i.e....
International audienceMolten salt reactors in the configurations presented here, called Molten Salt ...
The use of thorium in combination with plutonium in nuclear power generation offers a solution to th...
An important fraction of the future energy demand may be satisfied by nuclear power. In this context...
International audienceMolten salt reactors, in the configuration presented here and called Thorium M...
Molten salt reactors, in the configuration presented here and called Thorium Molten Salt Reactor (TM...
Abstract – One of the pending questions concerning Molten Salt Reactors based on the 232Th/233U fuel...
One of the pending questions concerning Molten Salt Reactors based on the 232Th/233U fuel cycle is t...
Molten Salt Reactors based on the thorium cycle were studied in the 1950 to 1960s to lead to the Mol...
The molten salt reactor is one of the six concepts retained by the Generation IV forum in 2001. Base...
Use of thorium in Fast Reactors (FR) is gaining consideration in the scientific community thanks to ...
paper 9149International audienceMolten salt reactors in the present configuration, called Molten Sal...
International audienceRecent conceptual developments on fast neutron spectrum molten salt reactors (...
International audienceMolten salt reactors (MSRs) are one of the six systems retained by Generation ...
Abstract For global survival, we need to launch a rapid regeneration of the nuclear power industry. ...
In the last few years, use of thorium in fast reactors has been gaining increasing attention due to ...
International audienceMolten salt reactors in the configurations presented here, called Molten Salt ...
The use of thorium in combination with plutonium in nuclear power generation offers a solution to th...
An important fraction of the future energy demand may be satisfied by nuclear power. In this context...
International audienceMolten salt reactors, in the configuration presented here and called Thorium M...
Molten salt reactors, in the configuration presented here and called Thorium Molten Salt Reactor (TM...
Abstract – One of the pending questions concerning Molten Salt Reactors based on the 232Th/233U fuel...
One of the pending questions concerning Molten Salt Reactors based on the 232Th/233U fuel cycle is t...
Molten Salt Reactors based on the thorium cycle were studied in the 1950 to 1960s to lead to the Mol...
The molten salt reactor is one of the six concepts retained by the Generation IV forum in 2001. Base...
Use of thorium in Fast Reactors (FR) is gaining consideration in the scientific community thanks to ...
paper 9149International audienceMolten salt reactors in the present configuration, called Molten Sal...
International audienceRecent conceptual developments on fast neutron spectrum molten salt reactors (...
International audienceMolten salt reactors (MSRs) are one of the six systems retained by Generation ...
Abstract For global survival, we need to launch a rapid regeneration of the nuclear power industry. ...
In the last few years, use of thorium in fast reactors has been gaining increasing attention due to ...
International audienceMolten salt reactors in the configurations presented here, called Molten Salt ...
The use of thorium in combination with plutonium in nuclear power generation offers a solution to th...
An important fraction of the future energy demand may be satisfied by nuclear power. In this context...
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