Simulation of Boron Rejection by Seawater Reverse Osmosis Desalination
Patroklou, G.
Sassi, K.M.
Mujtaba, I.
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How to Cite

Patroklou G., Sassi K., Mujtaba I., 2013, Simulation of Boron Rejection by Seawater Reverse Osmosis Desalination, Chemical Engineering Transactions, 32, 1873-1878.
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Abstract

Boron is a vital element for growth of creations, but excessive exposure can cause detrimental effects to plants, animals, and possibly humans. Reverse Osmosis (RO) technique is widely used for seawater desalination as well as for waste water treatment. The aim of this study is to identify how different operating parameters such as pH, temperature and pressure can affect boron concentrations at the end of RO processes. For this purpose, a mathematical model for boron rejection is developed based on solution-diffusion model which can describe solvent and solute transport mechanism through the membranes. After a wide and thorough research, empirical correlations developed in the past are filtered, adopted and calibrated in order to faction with reliability as part of the solution-diffusion model of this work. The model is validated against a number of experimental results from the literature and is used in further simulations to get a deeper insight of the RO process. The general findings of the boron rejection model are supporting the case that with increasing pH and operating pressure of the feed water, the boron rejection increases and with increasing feed water temperature the boron rejection decreases.
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