International audienceThe membrane potential technique was applied to a nanofiltration polyamide membrane to determine its mean pore radius and the dielectric constant of electrolyte solutions inside pores. To our knowledge, this is the first attempt to assess these features from membrane potential measurements. Membrane potential data were analyzed by means of the SEDE (steric electric and dielectric exclusion) transport model. Experiments were conducted with single-salt solutions of NaCl and CaCl2 and mixed-salt solutions of NaCl and CaCl2 at various concentrations. It was shown that the pore-size values deduced from the high-concentration limit of the membrane potential measured with the two single-salt solutions are in good agreement. W...
The role of pH and concentration is studied on the ion rejection of Desal5-DK polyamide NF membranes...
The pressure–driven electrolyte transport through nanofiltration membrane pores with specified wall ...
Retention measurements with single salt solutions of CaCl2, NaCl and Na2SO4 revealed that the reject...
International audienceThe membrane potential technique was applied to a nanofiltration polyamide mem...
The complexity of transport mechanisms in nanofiltration (NF) requires the developmentof reliable mo...
The structuring of water at soft solid surfaces remains an area of great interest to colloid science...
Membrane nanofiltration is extremely complex and is dependent on the micro-hydrodynamics and interfa...
Up to now, the SEDE (Steric Electric and Dielectric Exclusion) model was used to describe solute rej...
International audienceThe assessment of physicochemical parameters governing the transport of ions t...
Two commercial nanofiltration (NF) membranes, viz., Desal-HL and NF 700 MWCO were investigated exper...
The charge characteristics (i.e., surface charge and zeta potential) of two different nanofiltration...
La complexité des mécanismes de transport en nanofiltration (NF) nécessite ledéveloppement d’outils ...
Producción CientíficaIn this work amethod is proposed to predict salt rejection by nanofiltration. T...
The major ion partitioning effect may be due to steric, Donnan and dielectric exclusion which are co...
The role of pH and concentration is studied on the ion rejection of Desal5-DK polyamide NF membranes...
The pressure–driven electrolyte transport through nanofiltration membrane pores with specified wall ...
Retention measurements with single salt solutions of CaCl2, NaCl and Na2SO4 revealed that the reject...
International audienceThe membrane potential technique was applied to a nanofiltration polyamide mem...
The complexity of transport mechanisms in nanofiltration (NF) requires the developmentof reliable mo...
The structuring of water at soft solid surfaces remains an area of great interest to colloid science...
Membrane nanofiltration is extremely complex and is dependent on the micro-hydrodynamics and interfa...
Up to now, the SEDE (Steric Electric and Dielectric Exclusion) model was used to describe solute rej...
International audienceThe assessment of physicochemical parameters governing the transport of ions t...
Two commercial nanofiltration (NF) membranes, viz., Desal-HL and NF 700 MWCO were investigated exper...
The charge characteristics (i.e., surface charge and zeta potential) of two different nanofiltration...
La complexité des mécanismes de transport en nanofiltration (NF) nécessite ledéveloppement d’outils ...
Producción CientíficaIn this work amethod is proposed to predict salt rejection by nanofiltration. T...
The major ion partitioning effect may be due to steric, Donnan and dielectric exclusion which are co...
The role of pH and concentration is studied on the ion rejection of Desal5-DK polyamide NF membranes...
The pressure–driven electrolyte transport through nanofiltration membrane pores with specified wall ...
Retention measurements with single salt solutions of CaCl2, NaCl and Na2SO4 revealed that the reject...