Semi-closed reverse osmosis (SCRO): a concise, flexible, and energy-efficient desalination process
As a promising solution to intensified water scarcity, desalination via membrane-based reverse osmosis (RO) attracts unprecedented interest in recent decades. However, the prevailing process, single-stage RO (SSRO), still consumes much higher than thermodynamic minimum energy as its operation requir...
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sg-ntu-dr.10356-1637322022-12-15T05:17:07Z Semi-closed reverse osmosis (SCRO): a concise, flexible, and energy-efficient desalination process Mo, Zijing Li, Dan She, Qianhong School of Civil and Environmental Engineering Interdisciplinary Graduate School (IGS) Nanyang Environment and Water Research Institute Singapore Membrane Technology Centre Engineering::Environmental engineering Desalination Energy Consumption As a promising solution to intensified water scarcity, desalination via membrane-based reverse osmosis (RO) attracts unprecedented interest in recent decades. However, the prevailing process, single-stage RO (SSRO), still consumes much higher than thermodynamic minimum energy as its operation requires over-pressurization (OP) of the feed. Although alternative RO processes, such as batch RO (BRO), closed-circuit RO (CCRO), and multiple-stage RO (MSRO), ameliorate OP, the mixing of recirculated concentrate and feed in BRO and CCRO generates entropy and increases energy consumption, while MSRO requires additional boosting systems that incur additional capital expenditures. Herein, we propose a new RO process with concise design and flexible operation, namely semi-closed reverse osmosis (SCRO). In SCRO, multiple-cycle operation with varied applied pressures is performed to mitigate OP without additional staging, while the intermediate feed and corresponding concentrate in each cycle are stored in separate tanks to circumvent mixing. Analytic results reveal that SCRO integrating energy recovery devices consumes similar energy to MSRO and less energy than all the other RO processes that have been tested at the bench- or pilot- scale for desalination within typical water recovery regions. Such superiority of SCRO is more significant at higher recoveries. This study suggests that SCRO can be a promising alternative to state-of-the-art RO processes in low-energy desalination. Ministry of Education (MOE) This research was supported by the Ministry of Education, Singapore, under the Academic Research Fund Tier 1 (RG123/21). 2022-12-15T05:17:07Z 2022-12-15T05:17:07Z 2022 Journal Article Mo, Z., Li, D. & She, Q. (2022). Semi-closed reverse osmosis (SCRO): a concise, flexible, and energy-efficient desalination process. Desalination, 544, 116147-. https://dx.doi.org/10.1016/j.desal.2022.116147 0011-9164 https://hdl.handle.net/10356/163732 10.1016/j.desal.2022.116147 2-s2.0-85139411986 544 116147 en RG123/21 Desalination © 2022 Elsevier B.V. All rights reserved. |
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Engineering::Environmental engineering Desalination Energy Consumption Mo, Zijing Li, Dan She, Qianhong Semi-closed reverse osmosis (SCRO): a concise, flexible, and energy-efficient desalination process |
| description |
As a promising solution to intensified water scarcity, desalination via membrane-based reverse osmosis (RO) attracts unprecedented interest in recent decades. However, the prevailing process, single-stage RO (SSRO), still consumes much higher than thermodynamic minimum energy as its operation requires over-pressurization (OP) of the feed. Although alternative RO processes, such as batch RO (BRO), closed-circuit RO (CCRO), and multiple-stage RO (MSRO), ameliorate OP, the mixing of recirculated concentrate and feed in BRO and CCRO generates entropy and increases energy consumption, while MSRO requires additional boosting systems that incur additional capital expenditures. Herein, we propose a new RO process with concise design and flexible operation, namely semi-closed reverse osmosis (SCRO). In SCRO, multiple-cycle operation with varied applied pressures is performed to mitigate OP without additional staging, while the intermediate feed and corresponding concentrate in each cycle are stored in separate tanks to circumvent mixing. Analytic results reveal that SCRO integrating energy recovery devices consumes similar energy to MSRO and less energy than all the other RO processes that have been tested at the bench- or pilot- scale for desalination within typical water recovery regions. Such superiority of SCRO is more significant at higher recoveries. This study suggests that SCRO can be a promising alternative to state-of-the-art RO processes in low-energy desalination. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Mo, Zijing Li, Dan She, Qianhong |
| format |
Article |
| author |
Mo, Zijing Li, Dan She, Qianhong |
| author_sort |
Mo, Zijing |
| title |
Semi-closed reverse osmosis (SCRO): a concise, flexible, and energy-efficient desalination process |
| title_short |
Semi-closed reverse osmosis (SCRO): a concise, flexible, and energy-efficient desalination process |
| title_full |
Semi-closed reverse osmosis (SCRO): a concise, flexible, and energy-efficient desalination process |
| title_fullStr |
Semi-closed reverse osmosis (SCRO): a concise, flexible, and energy-efficient desalination process |
| title_full_unstemmed |
Semi-closed reverse osmosis (SCRO): a concise, flexible, and energy-efficient desalination process |
| title_sort |
semi-closed reverse osmosis (scro): a concise, flexible, and energy-efficient desalination process |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163732 |
| _version_ |
1753801084765208576 |