Flow-through electrochemically assisted reverse-osmosis: a new process towards low-chemical desalination
Two-pass reverse osmosis (RO) process is prevailing in seawater desalination, but each process must consume considerable amounts of chemicals to secure product water quality. Caustic soda is used to raise the pH of the first-pass RO permeate (also the second-pass RO feed) to ensure adequate removal...
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sg-ntu-dr.10356-1732092024-01-17T07:52:08Z Flow-through electrochemically assisted reverse-osmosis: a new process towards low-chemical desalination Long, Wei Koo, Jing Wee Yuan, Ziwen She, Qianhong School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Singapore Membrane Technology Centre Engineering::Environmental engineering Seawater Desalination Flow-Through Electrochemically Assisted Reverse-Osmosis Two-pass reverse osmosis (RO) process is prevailing in seawater desalination, but each process must consume considerable amounts of chemicals to secure product water quality. Caustic soda is used to raise the pH of the first-pass RO permeate (also the second-pass RO feed) to ensure adequate removal of boron in the subsequent second-pass RO, while antiscalants and disinfectants such as hypochlorite are added in the feed seawater for scaling and biofouling control of the first-pass RO membranes. Here, we report for the first time a flow-through electrochemically assisted reverse osmosis (FT-EARO) module system used in the first-pass RO, aiming to dramatically reduce or even eliminate chemical usage for the current RO desalination. This novel system integrated an electroconductive permeate carrier as cathode and an electroconductive feed spacer as anode on each side of the first-pass RO membrane. Upon applying an extremely low-energy (< 0.005 kWh/m3) electrical field, the FT-EARO module could (1) produce a permeate with pH >10 with no alkali dosage, ensuring sufficient boron removal in the second-pass RO, and (2) generate protons and low-concentration free chlorine near the membrane surface, potentially discouraging membrane scaling and biofouling while maintaining satisfactory desalination performance. The current study further elucidated the high scalability of this novel electrified high-pressure RO module design. The low-chemical manner of FT-EARO presents an attractive practical option towards green and sustainable seawater desalination. Ministry of Education (MOE) Nanyang Technological University This research was supported by the Ministry of Education, Singapore, under the Academic Research Fund (AcRF) Tier 1 (RG84/19) and the NTUitive Gap Fund NGF-2022-12-018. 2024-01-17T07:52:07Z 2024-01-17T07:52:07Z 2024 Journal Article Long, W., Koo, J. W., Yuan, Z. & She, Q. (2024). Flow-through electrochemically assisted reverse-osmosis: a new process towards low-chemical desalination. Water Research, 249, 120982-. https://dx.doi.org/10.1016/j.watres.2023.120982 0043-1354 https://hdl.handle.net/10356/173209 10.1016/j.watres.2023.120982 38101048 2-s2.0-85179880606 249 120982 en RG84/19 NGF-2022-12-018 Water Research © 2023 Elsevier Ltd. All rights reserved. |
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Engineering::Environmental engineering Seawater Desalination Flow-Through Electrochemically Assisted Reverse-Osmosis |
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Engineering::Environmental engineering Seawater Desalination Flow-Through Electrochemically Assisted Reverse-Osmosis Long, Wei Koo, Jing Wee Yuan, Ziwen She, Qianhong Flow-through electrochemically assisted reverse-osmosis: a new process towards low-chemical desalination |
| description |
Two-pass reverse osmosis (RO) process is prevailing in seawater desalination, but each process must consume considerable amounts of chemicals to secure product water quality. Caustic soda is used to raise the pH of the first-pass RO permeate (also the second-pass RO feed) to ensure adequate removal of boron in the subsequent second-pass RO, while antiscalants and disinfectants such as hypochlorite are added in the feed seawater for scaling and biofouling control of the first-pass RO membranes. Here, we report for the first time a flow-through electrochemically assisted reverse osmosis (FT-EARO) module system used in the first-pass RO, aiming to dramatically reduce or even eliminate chemical usage for the current RO desalination. This novel system integrated an electroconductive permeate carrier as cathode and an electroconductive feed spacer as anode on each side of the first-pass RO membrane. Upon applying an extremely low-energy (< 0.005 kWh/m3) electrical field, the FT-EARO module could (1) produce a permeate with pH >10 with no alkali dosage, ensuring sufficient boron removal in the second-pass RO, and (2) generate protons and low-concentration free chlorine near the membrane surface, potentially discouraging membrane scaling and biofouling while maintaining satisfactory desalination performance. The current study further elucidated the high scalability of this novel electrified high-pressure RO module design. The low-chemical manner of FT-EARO presents an attractive practical option towards green and sustainable seawater desalination. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Long, Wei Koo, Jing Wee Yuan, Ziwen She, Qianhong |
| format |
Article |
| author |
Long, Wei Koo, Jing Wee Yuan, Ziwen She, Qianhong |
| author_sort |
Long, Wei |
| title |
Flow-through electrochemically assisted reverse-osmosis: a new process towards low-chemical desalination |
| title_short |
Flow-through electrochemically assisted reverse-osmosis: a new process towards low-chemical desalination |
| title_full |
Flow-through electrochemically assisted reverse-osmosis: a new process towards low-chemical desalination |
| title_fullStr |
Flow-through electrochemically assisted reverse-osmosis: a new process towards low-chemical desalination |
| title_full_unstemmed |
Flow-through electrochemically assisted reverse-osmosis: a new process towards low-chemical desalination |
| title_sort |
flow-through electrochemically assisted reverse-osmosis: a new process towards low-chemical desalination |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173209 |
| _version_ |
1789483223975198720 |