Membrane-based indirect power generation technologies for harvesting salinity gradient energy - a review
The giant and sustainable salinity gradient energy broadly occurs when mixing solution sources with different concentrations can be potentially harvested through the intensively studied membrane-based indirect power generation technologies. This kind of technology commonly has two functional submodu...
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sg-ntu-dr.10356-1636402022-12-13T04:18:02Z Membrane-based indirect power generation technologies for harvesting salinity gradient energy - a review Jiao, Yanmei Song, Linhui Zhao, Cunlu An, Yi Lu, Weiyu He, Bin Yang, Chun School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Osmosis Salinity Gradient Energy The giant and sustainable salinity gradient energy broadly occurs when mixing solution sources with different concentrations can be potentially harvested through the intensively studied membrane-based indirect power generation technologies. This kind of technology commonly has two functional submodules, namely the osmosis submodule to induce driven forces and the electric submodule to produce electricity. However, almost all relevant reviews only concentrate on the traditional pressure retarded osmosis (PRO) technology without involving newly emerged ones such as the forward osmosis-electrokinetic (FO-EK) technology, leading to outdated and incomplete knowledge in this field. Therefore, this study is going to provide a comprehensive and up-to-date review of the membrane-based indirect power generation technologies through adequately outlining most related research. The authors not only provide a systematic overview of the theoretical background and the development of the state-of-the-art membrane-based indirect power generation technologies but also highlight their essential characterizations. Meanwhile, the challenges and the optimizing strategies in aspects of efficient semipermeable membranes, available fluid materials, and operation conditions, as well as future promising applications in different scenarios are also elaborated in detail. This work was supported by the National Natural Science Foundation of China [grant numbers 52106246, 52106046, 51976157]; the National Defense Pre-Research Foundation of China [grant number 50910020100]; and the Natural Science Foundation of Jiangsu Province [grant numbers BK20200687, BK20200680]. 2022-12-13T04:18:01Z 2022-12-13T04:18:01Z 2022 Journal Article Jiao, Y., Song, L., Zhao, C., An, Y., Lu, W., He, B. & Yang, C. (2022). Membrane-based indirect power generation technologies for harvesting salinity gradient energy - a review. Desalination, 525, 115485-. https://dx.doi.org/10.1016/j.desal.2021.115485 0011-9164 https://hdl.handle.net/10356/163640 10.1016/j.desal.2021.115485 2-s2.0-85120643331 525 115485 en Desalination © 2021 Elsevier B.V. All rights reserved. |
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Engineering::Mechanical engineering Osmosis Salinity Gradient Energy Jiao, Yanmei Song, Linhui Zhao, Cunlu An, Yi Lu, Weiyu He, Bin Yang, Chun Membrane-based indirect power generation technologies for harvesting salinity gradient energy - a review |
| description |
The giant and sustainable salinity gradient energy broadly occurs when mixing solution sources with different concentrations can be potentially harvested through the intensively studied membrane-based indirect power generation technologies. This kind of technology commonly has two functional submodules, namely the osmosis submodule to induce driven forces and the electric submodule to produce electricity. However, almost all relevant reviews only concentrate on the traditional pressure retarded osmosis (PRO) technology without involving newly emerged ones such as the forward osmosis-electrokinetic (FO-EK) technology, leading to outdated and incomplete knowledge in this field. Therefore, this study is going to provide a comprehensive and up-to-date review of the membrane-based indirect power generation technologies through adequately outlining most related research. The authors not only provide a systematic overview of the theoretical background and the development of the state-of-the-art membrane-based indirect power generation technologies but also highlight their essential characterizations. Meanwhile, the challenges and the optimizing strategies in aspects of efficient semipermeable membranes, available fluid materials, and operation conditions, as well as future promising applications in different scenarios are also elaborated in detail. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Jiao, Yanmei Song, Linhui Zhao, Cunlu An, Yi Lu, Weiyu He, Bin Yang, Chun |
| format |
Article |
| author |
Jiao, Yanmei Song, Linhui Zhao, Cunlu An, Yi Lu, Weiyu He, Bin Yang, Chun |
| author_sort |
Jiao, Yanmei |
| title |
Membrane-based indirect power generation technologies for harvesting salinity gradient energy - a review |
| title_short |
Membrane-based indirect power generation technologies for harvesting salinity gradient energy - a review |
| title_full |
Membrane-based indirect power generation technologies for harvesting salinity gradient energy - a review |
| title_fullStr |
Membrane-based indirect power generation technologies for harvesting salinity gradient energy - a review |
| title_full_unstemmed |
Membrane-based indirect power generation technologies for harvesting salinity gradient energy - a review |
| title_sort |
membrane-based indirect power generation technologies for harvesting salinity gradient energy - a review |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163640 |
| _version_ |
1753801122072494080 |