On the resistances of membrane, diffusion boundary layer and double layer in ion exchange membrane transport

Membrane resistances are often measured under direct current conditions using a standard 0.5 M NaCl characterization solution, although several electro-membrane processes (e.g. reverse electrodialysis, electrodialysis, fuel cells, microbial fuel cells and membrane capacitive deionization) operate in a much lower concentration range (<0.1 M NaCl). Our work reveals that at lower concentrations, the membrane resistance as measured under direct current conditions becomes strongly concentration dependent and strongly increases with decreasing concentration. The overall resistance measured under direct current conditions however, does not only include the pure membrane resistance but also takes the interfacial ionic charge transfer through the double layer and diffusion boundary layer effects into account. Because direct current methods do not allow discriminating between these individual resistances, we applied electrochemical impedance spectroscopy (EIS), which uses an alternating current, to analyze resistance phenomena in ion exchange membranes under different hydrodynamic conditions and at different temperatures.