Scope and limitations of the irreversible thermodynamics and the solution diffusion models for the separation of binary and multi-component systems in reverse osmosis process

Abstract: Reverse osmosis process is used in many industrial applications ranging from solute-solvent to solvent-solvent and gaseous separation. A number of theoretical models have been developed to describe the separation and fluxes of solvent and solute in such processes. This paper looks into the scope and limitations of two main models (the irreversible thermodynamics and the solution diffusion models) used in the past by several researchers for solute-solvent feed separation. Despite the investigation of other comp… Show more

“…The performance of these three membranes wound with different feed spacer geometries was simulated. Solution-diffusion [26,27], which assumes that the membrane is nonporous (without imperfections), was the method of transport used. The theory is that transport through the membrane occurs as the molecule of interest dissolves in the membrane and then diffuses through the membrane.…”

Feed Spacer Geometries and Permeability Coefficients. Effect on the Performance in BWRO Spriral-Wound Membrane Modules

“…The performance of these three membranes wound with different feed spacer geometries was simulated. Solution-diffusion [26,27], which assumes that the membrane is nonporous (without imperfections), was the method of transport used. The theory is that transport through the membrane occurs as the molecule of interest dissolves in the membrane and then diffuses through the membrane.…”

Feed Spacer Geometries and Permeability Coefficients. Effect on the Performance in BWRO Spriral-Wound Membrane Modules

“…A thorough review of the open literature confirms several attempts of spiral wound RO modelling based on the principles of solution diffusion model and irreversible thermodynamic model [13][14][15][16][17]. The models developed are used to quantify the transport phenomenon of water and solute through the membrane.…”

Performance analysis of a medium-sized industrial reverse osmosis brackish water desalination plant

“…Solution-diffusion [31,32] was the method of transport used, since it is the most widely accepted and provides results close to the real behavior of these systems. Transport equations have used mean values of membrane elements, and pressure drop in the permeate as well as temperature changes along the RO systems have been disregarded.…”

A computational tool for designing BWRO systems with spiral wound modules