Modelling the performance of membrane nanofiltration—application to an industrially relevant separation

The discharge of industrial effluents into the water environment is becoming increasingly difficult because of environmental pollution considerations and the need to preserve water quality. Many industrial effluents are not suitable for biological treatment because of the presence of intractable org

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 charge regulation concept is combined with the Navier-Stokes and Nernst-Planck equations to describe the ion retention of nanofiltration membranes consisting of narrow cylindrical pores. The charge regulation approach replaces the assumption of a constant charge or a constant potential at the me

A phase separator is described that is suitable for post-column HPLC applications. It operates with commonly used HPLC eluents and immiscible organic solvents as long as the two phases remain immiscible. It is compatible with gradient elution systems. Separation efficiency is routinely better than 0