Transport of non-electrolyte solutions through membrane with concentration polarization

Rok, strany: 2008, 315 - 321

Mathematical model of the volume fluxes through neutral membrane with concentration boundary layers on both sides of this membrane is presented. This model, based on the Kedem-Katchalsky equations, describes the volume flux generated by osmotic and hydrostatic forces for non-homogeneous and non-electrolyte solutions. Nonlinear equation for volume flux was used for numerical calculation in linear regime of hydrodynamic stability. In the steady state of non-homogeneous solutions the dependence of volume flux on pressure difference is shifted with regard to this dependence for homogeneous solution, while the volume flux as a function of osmotic pressure between chambers is characterized by different angle of inclination for homogeneous and non-homogeneous solutions.

ISO 690:

Grzegorczyn, S., Jasik-Ślezak, J., Michalska-Ma&lslash;ecka, K., Ślęzak, A. 2008. Transport of non-electrolyte solutions through membrane with concentration polarization. In General Physiology and Biophysics, vol. 27, no.4, pp. 315-321. 0231-5882.

APA:

Grzegorczyn, S., Jasik-Ślezak, J., Michalska-Ma&lslash;ecka, K., Ślęzak, A. (2008). Transport of non-electrolyte solutions through membrane with concentration polarization. General Physiology and Biophysics, 27(4), 315-321. 0231-5882.