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Desalination and Water Treatment Volume 15, 2010 - Issue 1-3
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Original Articles

Modeling of solute transport in multi-component solution for reverse osmosis membranes

Do Yeon Kim Department of Chemical & Biological Engineering, Korea University, Seoul, 136-713, Korea
,
Myoung Ho Lee Department of Chemical & Biological Engineering, Korea University, Seoul, 136-713, Korea
,
Boram Gu Department of Chemical & Biological Engineering, Korea University, Seoul, 136-713, Korea
,
Joon Ha Kim Department of Environmental Science and Engineering, Gwangju Institute of Science and Technology (GIST), Gwangju, 500-712, Korea
,
Sangho Lee Korea Institute of Construction Technology, Gyeonggi-Do, 411-712, Republic of Korea
&
Dae Ryook Yang Department of Chemical & Biological Engineering, Korea University, Seoul, 136-713, Korea
Pages 20-28 | Received 12 Nov 2009, Accepted 24 Dec 2009, Published online: 03 Aug 2012
 
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Abstract

The model of salt transport through the membrane in multi-component system was developed with the irreversible thermodynamics theory considering the effect of the interaction between the salt ions. With the proposed transport model, the model for spiral-wound module was built based on the mass conservation law and concentration polarization derived by film theory. Through the parameter estimation, the frictional coefficients related to permeability of water and each ion was determined and then phenomenological analysis was conducted. The simulation results show that the salt rejection is increasing as the applied pressure and feed flow rate increasing. Also, the predictions by present model are in good agreement with the experimental data in the literature.

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Related Research Data

Kinetics simulation of transmembrane transport of ions and molecules through a semipermeable membrane
Source: Springer Science and Business Media LLC
A Mathematical Modeling of the Reverse Osmosis Concentration Process of a Glucose Solution
Source: Multidisciplinary Digital Publishing Institute

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