A finite element model for concentration polarization and osmotic effects in a membrane channel

Author:

Carro Nicolás1,Mora David23,Vellojin Jesus2ORCID

Affiliation:

1. Department of Chemical and Biochemical Engineering Technical University of Denmark Denmark

2. GIMNAP‐Departamento de Matemática Universidad del Bío‐Bío Concepción Chile

3. CI2MA Universidad de Concepción Chile

Abstract

AbstractIn this article, we study a mathematical model that represents the concentration polarization and osmosis effects in a reverse osmosis cross‐flow channel with dense membranes at some of its boundaries. The fluid is modeled using the Navier–Stokes equations and the solution‐diffusion is used to impose the momentum balance on the membrane. The scheme consist of a conforming finite element method with the velocity–pressure formulation for the Navier–Stokes equations, together with a primal scheme for the convection–diffusion equations. The Nitsche's method is used to impose the permeability condition across the membrane. Several numerical experiments are performed to show the robustness of the method. The resulting model accurately replicates the analytical models and predicts similar results to previous works. It is found that the submerged configuration has the highest permeate production, but also has the greatest pressure loss of all three configurations studied.

Publisher

Wiley

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