"[585921D32AA7]" . "Gas-Liquid Two-Phase Flow in Microfiltration Mineral Tubular Membranes: Relationship between Flux Enhancement and Hydrodynamic Parameters." . . "10 Septemb" . "Dole\u010Dek, Petr" . . "Gas-Liquid Two-Phase Flow in Microfiltration Mineral Tubular Membranes: Relationship between Flux Enhancement and Hydrodynamic Parameters."@en . . . . . "646823" . . . "NL - Nizozemsko" . . "Mikul\u00E1\u0161ek, Petr" . . "Desalination" . "0011-9164" . . "An application of the gas-liquid two-phase flow for the flux enhancement during microfiltration of aqueous titanium dioxide dispersions on aluminium oxide tubular membrane has been studied. The results of experiments showed a positive effect of the constant gas-liquid two-phase flow on the flux. It might be concluded from the analysis of experimental results based on dead-end filtration model that two-phase flow seemed to expand the particle cake as it increased both the cake porosity and thickness, thus allowing higher fluxes. A mathematical model for the flux prediction during the two-phase gas-liquid microfiltration has been developed. The results showed a good agreement between experimental data and model prediction." . . "3"^^ . "Z(MSM 253100001)" . "microfiltration; two-phase flow; tubular membrane; titanium dioxide dispersions"@en . "Gas-Liquid Two-Phase Flow in Microfiltration Mineral Tubular Membranes: Relationship between Flux Enhancement and Hydrodynamic Parameters."@en . "Cakl, Ji\u0159\u00ED" . . "RIV/00216275:25310/02:00000075" . "Gas-Liquid Two-Phase Flow in Microfiltration Mineral Tubular Membranes: Relationship between Flux Enhancement and Hydrodynamic Parameters." . "RIV/00216275:25310/02:00000075!RIV/2003/MSM/253103/N" . "7"^^ . "An application of the gas-liquid two-phase flow for the flux enhancement during microfiltration of aqueous titanium dioxide dispersions on aluminium oxide tubular membrane has been studied. The results of experiments showed a positive effect of the constant gas-liquid two-phase flow on the flux. It might be concluded from the analysis of experimental results based on dead-end filtration model that two-phase flow seemed to expand the particle cake as it increased both the cake porosity and thickness, thus allowing higher fluxes. A mathematical model for the flux prediction during the two-phase gas-liquid microfiltration has been developed. The results showed a good agreement between experimental data and model prediction."@en . "0"^^ . . "4"^^ . . "0"^^ . "146" . . . . "25310" . "103;109" .