Mass Transfer Driven Evaporation From Capillary Porous Media
portes grátis
Mass Transfer Driven Evaporation From Capillary Porous Media
Prat, Marc; Wu, Rui
Taylor & Francis Ltd
11/2022
196
Dura
Inglês
9780367416850
15 a 20 dias
Descrição não disponível.
1. Slow evaporation in capillary porous media: State of the Art. 2. Evaporation from a straight tube. 3. Pore scale experiments. 4. A mesoscopic approach for evaporation from capillary porous media: Shan Chen Lattice Boltzmann method. 5. Pore network models. 6. Continuum models. 7. A continuum approach to the drying of small pore networks.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Thermal Processes;transport phenomena in porous media;pore transport;pore structure;porous material;drying technology;drying science;Capillary Porous Media;Corner Films;Porous Medium;Pore Network Simulation;Pore Throat;Pore Body;LBM Simulation;Pore Network;Outlet Pore;Contact Angle;LBM;Moisture Transport Coefficient;Saturation Profiles;Pore Network Model;LE Model;Vapor Mass Concentration;Apparent Contact Angle;Gas Invasion;Stefan Flow;Liquid Cluster;Liquid Flow Direction;Network Saturation;Liquid Saturation;Local Saturation;Gas Liquid Interface
1. Slow evaporation in capillary porous media: State of the Art. 2. Evaporation from a straight tube. 3. Pore scale experiments. 4. A mesoscopic approach for evaporation from capillary porous media: Shan Chen Lattice Boltzmann method. 5. Pore network models. 6. Continuum models. 7. A continuum approach to the drying of small pore networks.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Thermal Processes;transport phenomena in porous media;pore transport;pore structure;porous material;drying technology;drying science;Capillary Porous Media;Corner Films;Porous Medium;Pore Network Simulation;Pore Throat;Pore Body;LBM Simulation;Pore Network;Outlet Pore;Contact Angle;LBM;Moisture Transport Coefficient;Saturation Profiles;Pore Network Model;LE Model;Vapor Mass Concentration;Apparent Contact Angle;Gas Invasion;Stefan Flow;Liquid Cluster;Liquid Flow Direction;Network Saturation;Liquid Saturation;Local Saturation;Gas Liquid Interface
