La carbonatation minérale est une technique alternative de capture et stockage du CO2 anthropique. L'abondance des matériaux carbonatables sur terre en fait une solution à fort potentiel. En particulier, la carbonatation directe en voie aqueuse a été présentée dans la littérature comme la voie la plus intéressante d'un point de vue énergétique pour la carbonatation minérale ex-situ, à la condition que les cinétiques naturellement lentes de dissolution des silicates magnésiens en phase aqueuse puissent être accélérées de plusieurs ordres de grandeur. Cette thèse étudie en détail les verrous et mécanismes de cette réaction en présence d'additifs organiques tels que l'oxalate, connus pour leur capacité à accélérer la dissolution des silicates ...
AbstractThe most promising route for mineral carbonation is the aqueous process using naturally occu...
Paris agreement is binding its parties to limit global warming. To achieve the goal, carbon dioxide ...
The formation of passivation layers is the major obstacle to the development of direct aqueous miner...
Mineral carbonation is an interesting option for mitigation of anthropogenic CO2 emissions. Direct a...
L’objectif de ce travail de thèse porte sur le stockage chimique du CO2 émis par l’industrie sidérur...
Direct mineral carbonation by an ex-situ process in an aqueous system has been investigated over the...
This work deals with the study of direct carbonation of olivine in solution, for the chemical transf...
AbstractStudies of olivine carbonation are relevant for ex-situ CO2 storage, and the main results ca...
Direct mineral carbonation has been investigated as a process to convert gaseous CO2 into a geologic...
AbstractMineral carbonation is based on the reaction of CO2 with metal oxide bearing materials to fo...
The overall results of this experimental study for such different systems and process parameters (t...
The process developed for carbon dioxide sequestration utilizes a slurry of water mixed with olivine...
Direct aqueous mineral carbonation has been investigated as a process to convert gaseous CO2 into a ...
AbstractStudies of olivine carbonation are relevant for ex-situ CO2 storage, and the main results ca...
Mineral carbon dioxide sequestration binds CO2 by reacting it with calcium or magnesium silicate min...
AbstractThe most promising route for mineral carbonation is the aqueous process using naturally occu...
Paris agreement is binding its parties to limit global warming. To achieve the goal, carbon dioxide ...
The formation of passivation layers is the major obstacle to the development of direct aqueous miner...
Mineral carbonation is an interesting option for mitigation of anthropogenic CO2 emissions. Direct a...
L’objectif de ce travail de thèse porte sur le stockage chimique du CO2 émis par l’industrie sidérur...
Direct mineral carbonation by an ex-situ process in an aqueous system has been investigated over the...
This work deals with the study of direct carbonation of olivine in solution, for the chemical transf...
AbstractStudies of olivine carbonation are relevant for ex-situ CO2 storage, and the main results ca...
Direct mineral carbonation has been investigated as a process to convert gaseous CO2 into a geologic...
AbstractMineral carbonation is based on the reaction of CO2 with metal oxide bearing materials to fo...
The overall results of this experimental study for such different systems and process parameters (t...
The process developed for carbon dioxide sequestration utilizes a slurry of water mixed with olivine...
Direct aqueous mineral carbonation has been investigated as a process to convert gaseous CO2 into a ...
AbstractStudies of olivine carbonation are relevant for ex-situ CO2 storage, and the main results ca...
Mineral carbon dioxide sequestration binds CO2 by reacting it with calcium or magnesium silicate min...
AbstractThe most promising route for mineral carbonation is the aqueous process using naturally occu...
Paris agreement is binding its parties to limit global warming. To achieve the goal, carbon dioxide ...
The formation of passivation layers is the major obstacle to the development of direct aqueous miner...