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Exergy analysis for enhanced performance of integrated batch reverse osmosis – Forward osmosis system for brackish water treatmentExergy analysis for enhanced performance of integrated batch reverse osmosis - Forward osmosis system for brackish water treatment

Other Titles
Exergy analysis for enhanced performance of integrated batch reverse osmosis - Forward osmosis system for brackish water treatment
Authors
Patel, DhavalMudgal, AnuragPatel, VivekPatel, JatinPark, KihoDavies, PhilpDhakal, Nirajan
Issue Date
Jul-2024
Publisher
Elsevier BV
Keywords
Batch reverse osmosis; Economic; Forward osmosis; Fresh water cost; Specific energy consumption; Specific solution cost
Citation
Desalination, v.580, pp 1 - 21
Pages
21
Indexed
SCIE
SCOPUS
Journal Title
Desalination
Volume
580
Start Page
1
End Page
21
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/198547
DOI
10.1016/j.desal.2024.117548
ISSN
0011-9164
1873-4464
Abstract
Concept of integrated brackish water batch reverse osmosis – forward osmosis (BRO – FO) is relatively new in the field of desalination. Recovery of the reverse osmosis (RO) system can be elevated using the free piston BRO concept, and the specific energy consumption (SEC) can be reduced. This study focuses on exergy, advanced exergy, and parametric analysis of the integrated BRO - FO system. The conventional exergy analysis suggests that the largest rate of exergy destruction is associated with the system's RO membrane module and pump, with values of 6.51 and 87.06 %, respectively. However, advanced exergy analysis shows that this rate can be reduced by 3.53 % and 62.89 %, respectively. Endogenous exergy destruction of pumps and membranes is higher compared to exogenous exergy destruction. These results are utilised to determine the system's optimal performance using parametric analysis. Sensitivity analysis was utilised to obtain an optimum recovery for system design, fresh water cost (FWC), and specific solution cost (SSC). The BRO can achieve >80 % recovery with 0.43 kWh/m3 SEC, and FO technology helps to attain minimal/zero waste discharge. Thus, a FWC of 0.50 $/m3 and a SWC of 0.44 $/m3 can be achieved.
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