The application of the space-charge model to the permeability properties of charged microporous membranes

Separation of ions from aqueous solutions by the use of hydrophilic membranes can be described by the charge regulation (CR) model. This is an approach in which the Poisson-Boltzmann equation is combined with a boundary condition at the surface that relates the local ion concentrations in the soluti

The surface charge densities acquired by intrinsically neutral and charged microporous membranes when bathed by diluted electrolytic solutions are studied. Concretely we deal here with \(\mathrm{LiCl}\) solutions and two nylon neutral microporous membranes and two very similar but charged membranes

## Abstract The “coarse‐grained” bead modeling methodology, BMM, is generalized to treat electrostatics at the level of the nonlinear Poisson–Boltzmann equation. This improvement makes it more applicable to the important class of highly charged macroions and highly charged peptides in particular. I

Electrical double-layer effects are unimportant in flows through porous media except when the Debye length ) ~-l is comparable in magnitude with the pore radius a. Under these conditions the equations governing the flow of electrolyte are those of Stokes, Nemst-Planck and Poisson. These equations ar