Abstract
After a review of the various processes used to separate isotopes or at least to obtain mixes with a composition different from the natural proportion, this research addresses the use of thermal diffusion. The author reports a theoretical study of gas thermal diffusion and of the Clusius-Dickel method. In the second part, he reports the enrichment of methane with carbon-13, and of ammoniac with nitrogen-15. The next part reports the experimental study of thermal diffusion of liquids and solutions, and the enrichment of carbon tetra-chloride with chlorine-37. The author then proposes an overview of theories of thermal diffusion in liquid phase (hydrodynamic theory, kinetic theory, theory of caged molecules)
Citation Formats
Fournier, Andre.
Thermal diffusion and separation of isotopes; Diffusion thermique et separation d'isotopes.
France: N. p.,
1944.
Web.
Fournier, Andre.
Thermal diffusion and separation of isotopes; Diffusion thermique et separation d'isotopes.
France.
Fournier, Andre.
1944.
"Thermal diffusion and separation of isotopes; Diffusion thermique et separation d'isotopes."
France.
@misc{etde_22535398,
title = {Thermal diffusion and separation of isotopes; Diffusion thermique et separation d'isotopes}
author = {Fournier, Andre}
abstractNote = {After a review of the various processes used to separate isotopes or at least to obtain mixes with a composition different from the natural proportion, this research addresses the use of thermal diffusion. The author reports a theoretical study of gas thermal diffusion and of the Clusius-Dickel method. In the second part, he reports the enrichment of methane with carbon-13, and of ammoniac with nitrogen-15. The next part reports the experimental study of thermal diffusion of liquids and solutions, and the enrichment of carbon tetra-chloride with chlorine-37. The author then proposes an overview of theories of thermal diffusion in liquid phase (hydrodynamic theory, kinetic theory, theory of caged molecules)}
place = {France}
year = {1944}
month = {Mar}
}
title = {Thermal diffusion and separation of isotopes; Diffusion thermique et separation d'isotopes}
author = {Fournier, Andre}
abstractNote = {After a review of the various processes used to separate isotopes or at least to obtain mixes with a composition different from the natural proportion, this research addresses the use of thermal diffusion. The author reports a theoretical study of gas thermal diffusion and of the Clusius-Dickel method. In the second part, he reports the enrichment of methane with carbon-13, and of ammoniac with nitrogen-15. The next part reports the experimental study of thermal diffusion of liquids and solutions, and the enrichment of carbon tetra-chloride with chlorine-37. The author then proposes an overview of theories of thermal diffusion in liquid phase (hydrodynamic theory, kinetic theory, theory of caged molecules)}
place = {France}
year = {1944}
month = {Mar}
}