Ion-Exchange membrane processes for clean industrial chemistry

## Abstract Clean production can be considered as a strategic element in manufacturing technology for present and future products in the chemical industry. Demand is focussed on the development of cost‐effective technologies, the optimization of processes including separation steps, alternative pro

## Abstract The application of cellulosic ion‐exchange membranes to hemodialysis was studied __in vitro__. The membranes were prepared by radiation‐grafting methacrylic acid and vinylpyridine to films of DuPont cellophane PD‐215 to produce cation‐exchange and anion‐exchange membranes, respectively.

Polyethylenimine membranes consisting of linear polyethylenimine (PEI) and polyepichlorohydrin (PECH) were prepared by casting and heating an N,N-dimethylformamide solution of the two polymers under nitrogen at 100°C for 60 min. The membrane was also prepared by a heat-press method in a conventional

## Abstract Raman spectra of poly‐4‐vinylpyridinium anion‐exchange membranes, immersed in aqueous solutions, were recorded. Assignments of some specific vibrational bands are proposed, allowing intensity measurements of appropriate signals versus pH or time. Membranes with low intrinsic p__K__ valu

A multicomponent space-charge transport model for ion-exchange membranes was de®eloped, where the membrane structure was modeled as an array of cylindrical pores with a uniform distribution of fixed-charge sites on the pore walls. Ionrfixed-charge site electrostatic interactions, electric-field-indu