The Experts below are selected from a list of 15468 Experts worldwide ranked by ideXlab platform
Jose Sanchezmarcano - One of the best experts on this subject based on the ideXlab platform.
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co2 capture with room temperature ionic liquids coupled absorption desorption and single module absorption in membrane contactor
Chemical Engineering Science, 2020Co-Authors: Qazi Sohaib, Angel Irabien, Jose Manuel Vadillo, Jonathan Albo, Lucia Gomezcoma, Stephanie Druonbocquet, Jose SanchezmarcanoAbstract:A membrane gas CO2 capture setup, based on the concept of single module absorption and single cycle coupled absorption/desorption, was developed in this work. Ionic liquids (ILs) 1-ethyl-3-methylimidazolium methylsulfate ([emim][MS]) and 1-ethyl-3-methylimidazolium dicyanamide ([emim][DCA]) were used as absorbents. The CO2 absorption rate decreased initially and reached to a nearly constant value achieving pseudo steady state. Coupled absorption/desorption revealed very high performance by retaining 82% and 66% absorption efficiency, for [emim][MS] and [emim][DCA], respectively, even after 70 minutes of operation. Mass transfer coefficients of the coupled absorption/desorption at pseudo steady state were 9 and 5 folds higher than single module absorption, for [emim][MS] and [emim][DCA], respectively. Parametric analysis for the membrane absorber Outlet Concentration and optimization of the parameters to achieve zero Concentration at the membrane stripper Outlet were studied in simulations. As a conclusion, coupled absorption/desorption in combination with ILs, can be considered very suitable for continuous post-combustion carbon capture.
Qazi Sohaib - One of the best experts on this subject based on the ideXlab platform.
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CO2 capture with room temperature ionic liquids; coupled absorption/desorption and single module absorption in membrane contactor
'Elsevier BV', 2022Co-Authors: Qazi Sohaib, Vadillo Abascal, José Manuel, Gómez Coma Lucía, Albo Sánchez Jonathan, Druon-bocquet Stéphanie, Irabien Gulías, José Ángel, Sánchez Marcano JoséAbstract:A membrane gas CO2 capture setup, based on the concept of single module absorption and single cycle coupled absorption/desorption, was developed in this work. Ionic liquids (ILs) 1-ethyl-3-methylimidazolium methylsulfate ([emim][MS]) and 1-ethyl-3-methylimidazolium dicyanamide ([emim][DCA]) were used as absorbents. The CO2 absorption rate decreased initially and reached to a nearly constant value achieving pseudo steady state. Coupled absorption/desorption revealed very high performance by retaining 82% and 66% absorption efficiency, for [emim][MS] and [emim][DCA], respectively, even after 70 min of operation. Mass transfer coefficients of the coupled absorption/desorption at pseudo steady state were 9 and 5 folds higher than single module absorption, for [emim][MS] and [emim][DCA], respectively. Parametric analysis for the membrane absorber Outlet Concentration and optimization of the parameters to achieve zero Concentration at the membrane stripper Outlet were studied in simulations. As a conclusion, coupled absorption/desorption in combination with ILs, can be considered very suitable for continuous post-combustion carbon capture
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co2 capture with room temperature ionic liquids coupled absorption desorption and single module absorption in membrane contactor
Chemical Engineering Science, 2020Co-Authors: Qazi Sohaib, Angel Irabien, Jose Manuel Vadillo, Jonathan Albo, Lucia Gomezcoma, Stephanie Druonbocquet, Jose SanchezmarcanoAbstract:A membrane gas CO2 capture setup, based on the concept of single module absorption and single cycle coupled absorption/desorption, was developed in this work. Ionic liquids (ILs) 1-ethyl-3-methylimidazolium methylsulfate ([emim][MS]) and 1-ethyl-3-methylimidazolium dicyanamide ([emim][DCA]) were used as absorbents. The CO2 absorption rate decreased initially and reached to a nearly constant value achieving pseudo steady state. Coupled absorption/desorption revealed very high performance by retaining 82% and 66% absorption efficiency, for [emim][MS] and [emim][DCA], respectively, even after 70 minutes of operation. Mass transfer coefficients of the coupled absorption/desorption at pseudo steady state were 9 and 5 folds higher than single module absorption, for [emim][MS] and [emim][DCA], respectively. Parametric analysis for the membrane absorber Outlet Concentration and optimization of the parameters to achieve zero Concentration at the membrane stripper Outlet were studied in simulations. As a conclusion, coupled absorption/desorption in combination with ILs, can be considered very suitable for continuous post-combustion carbon capture.
Jose Manuel Vadillo - One of the best experts on this subject based on the ideXlab platform.
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co2 capture with room temperature ionic liquids coupled absorption desorption and single module absorption in membrane contactor
Chemical Engineering Science, 2020Co-Authors: Qazi Sohaib, Angel Irabien, Jose Manuel Vadillo, Jonathan Albo, Lucia Gomezcoma, Stephanie Druonbocquet, Jose SanchezmarcanoAbstract:A membrane gas CO2 capture setup, based on the concept of single module absorption and single cycle coupled absorption/desorption, was developed in this work. Ionic liquids (ILs) 1-ethyl-3-methylimidazolium methylsulfate ([emim][MS]) and 1-ethyl-3-methylimidazolium dicyanamide ([emim][DCA]) were used as absorbents. The CO2 absorption rate decreased initially and reached to a nearly constant value achieving pseudo steady state. Coupled absorption/desorption revealed very high performance by retaining 82% and 66% absorption efficiency, for [emim][MS] and [emim][DCA], respectively, even after 70 minutes of operation. Mass transfer coefficients of the coupled absorption/desorption at pseudo steady state were 9 and 5 folds higher than single module absorption, for [emim][MS] and [emim][DCA], respectively. Parametric analysis for the membrane absorber Outlet Concentration and optimization of the parameters to achieve zero Concentration at the membrane stripper Outlet were studied in simulations. As a conclusion, coupled absorption/desorption in combination with ILs, can be considered very suitable for continuous post-combustion carbon capture.
Stephanie Druonbocquet - One of the best experts on this subject based on the ideXlab platform.
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co2 capture with room temperature ionic liquids coupled absorption desorption and single module absorption in membrane contactor
Chemical Engineering Science, 2020Co-Authors: Qazi Sohaib, Angel Irabien, Jose Manuel Vadillo, Jonathan Albo, Lucia Gomezcoma, Stephanie Druonbocquet, Jose SanchezmarcanoAbstract:A membrane gas CO2 capture setup, based on the concept of single module absorption and single cycle coupled absorption/desorption, was developed in this work. Ionic liquids (ILs) 1-ethyl-3-methylimidazolium methylsulfate ([emim][MS]) and 1-ethyl-3-methylimidazolium dicyanamide ([emim][DCA]) were used as absorbents. The CO2 absorption rate decreased initially and reached to a nearly constant value achieving pseudo steady state. Coupled absorption/desorption revealed very high performance by retaining 82% and 66% absorption efficiency, for [emim][MS] and [emim][DCA], respectively, even after 70 minutes of operation. Mass transfer coefficients of the coupled absorption/desorption at pseudo steady state were 9 and 5 folds higher than single module absorption, for [emim][MS] and [emim][DCA], respectively. Parametric analysis for the membrane absorber Outlet Concentration and optimization of the parameters to achieve zero Concentration at the membrane stripper Outlet were studied in simulations. As a conclusion, coupled absorption/desorption in combination with ILs, can be considered very suitable for continuous post-combustion carbon capture.
Angel Irabien - One of the best experts on this subject based on the ideXlab platform.
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co2 capture with room temperature ionic liquids coupled absorption desorption and single module absorption in membrane contactor
Chemical Engineering Science, 2020Co-Authors: Qazi Sohaib, Angel Irabien, Jose Manuel Vadillo, Jonathan Albo, Lucia Gomezcoma, Stephanie Druonbocquet, Jose SanchezmarcanoAbstract:A membrane gas CO2 capture setup, based on the concept of single module absorption and single cycle coupled absorption/desorption, was developed in this work. Ionic liquids (ILs) 1-ethyl-3-methylimidazolium methylsulfate ([emim][MS]) and 1-ethyl-3-methylimidazolium dicyanamide ([emim][DCA]) were used as absorbents. The CO2 absorption rate decreased initially and reached to a nearly constant value achieving pseudo steady state. Coupled absorption/desorption revealed very high performance by retaining 82% and 66% absorption efficiency, for [emim][MS] and [emim][DCA], respectively, even after 70 minutes of operation. Mass transfer coefficients of the coupled absorption/desorption at pseudo steady state were 9 and 5 folds higher than single module absorption, for [emim][MS] and [emim][DCA], respectively. Parametric analysis for the membrane absorber Outlet Concentration and optimization of the parameters to achieve zero Concentration at the membrane stripper Outlet were studied in simulations. As a conclusion, coupled absorption/desorption in combination with ILs, can be considered very suitable for continuous post-combustion carbon capture.