Conceptual designs of integrated process for simultaneous production of potable water, electricity, and salt

The main aim of this study was to conduct preliminary analysis on the performance of two conceptual designs that integrate the production of potable water, electricity, and salt. We used reverse osmosis (RO), pressure-retarded osmosis (PRO), and electrodialysis (ED) to produce potable water, electri...

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Bibliographic Details
Published in:Desalination 2017-05, Vol.409, p.96-107
Main Authors: Husnil, Yuli Amalia, Harvianto, Gregorius Rionugroho, Andika, Riezqa, Chaniago, Yus Donald, Lee, Moonyong
Format: Article
Language:English
Subjects:
Conceptual design
Electricity
Integrated process
Pressure-retarded osmosis
Reverse osmosis
Salt
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Summary:The main aim of this study was to conduct preliminary analysis on the performance of two conceptual designs that integrate the production of potable water, electricity, and salt. We used reverse osmosis (RO), pressure-retarded osmosis (PRO), and electrodialysis (ED) to produce potable water, electricity, and salt, respectively. The objective of the analysis is to observe how the relative positions of RO and PRO in the integrated process affect the five key parameters, i.e. the total dissolved solids (TDS) of potable water, permeate rate, the total energy requirement of the RO and ED units, net delivered power, and salt potential. We simulated each integrated design using previously validated mathematical expressions of RO, PRO, and ED. We found that the net delivered power is higher when the RO unit is located before the PRO unit. The same sequence also results in lower energy requirement for producing potable water, although the permeate rate is smaller than that of the rival sequence. On the other hand, the salt potential is not affected by the relative positions of the RO and PRO units. •Integrated process for the production of potable water, electricity, and salt•Process simulation analysis for the integrated process system•The effects of different water sources and temperature in the process are studied.•The design proposed represents a feasible option for the production of water, electricity, and salt
ISSN:0011-9164
1873-4464
DOI:10.1016/j.desal.2017.01.024