Improving both energetic and kinetic performances of osmotic battery for grid energy storage
Osmotic battery (OB), alternating the operation of reverse osmosis (RO) for charging and pressure-retarded osmosis (PRO) for discharging, is an emerging grid-scale energy storage system (ESS) that offers complementary advantages over other existing grid ESSs. OB utilizes osmotic pressure difference...
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sg-ntu-dr.10356-1819912025-01-10T15:35:19Z Improving both energetic and kinetic performances of osmotic battery for grid energy storage Li, Dan Mo, Zijing Fane, Anthony G. She, Qianhong School of Civil and Environmental Engineering Interdisciplinary Graduate School (IGS) Singapore Membrane Technology Centre Nanyang Environment and Water Research Institute Engineering Osmotic battery Energy storage system Osmotic battery (OB), alternating the operation of reverse osmosis (RO) for charging and pressure-retarded osmosis (PRO) for discharging, is an emerging grid-scale energy storage system (ESS) that offers complementary advantages over other existing grid ESSs. OB utilizes osmotic pressure difference of two solutions as a media for energy storage. However, OB faces the issue of energetic-kinetic trade-off generally applicable in all the ESSs. This study aims to quantitatively analyze this trade-off in OB and to develop effective strategies to address this issue. Our analyses suggest that this trade-off can be addressed by (1) raising the initial high-salinity solution concentration (cHS,0), and (2) using more water permeable osmotic membranes with a suitable high-salinity solution. For example, increasing the cHS,0 from 1.2 M to 2.4 M increases energy density from 0.5 to >1.0 kWh·m−3 along with an enhanced power density and a stable high roundtrip efficiency (RTE) above 66 %, albeit requiring membranes with substantially improved mechanical strength. Furthermore, using high-permeance nanofiltration-type osmotic membranes with divalent high-salinity solution could improve the peak power density to above 50 W·m−2 while maintaining energetic performance. This study not only offers effective strategies to ease the energetic-kinetic trade-off but also recommends important directions for developing future osmotic membranes for OB. Ministry of Education (MOE) Submitted/Accepted version This research was supported by the Ministry of Education - Singapore under the Academic Research Fund Tier 1 (RG123/21) and the Singapore Energy Centre (SgEC-Core2021-44). 2025-01-05T06:36:10Z 2025-01-05T06:36:10Z 2025 Journal Article Li, D., Mo, Z., Fane, A. G. & She, Q. (2025). Improving both energetic and kinetic performances of osmotic battery for grid energy storage. Desalination, 597, 118389-. https://dx.doi.org/10.1016/j.desal.2024.118389 0011-9164 https://hdl.handle.net/10356/181991 10.1016/j.desal.2024.118389 2-s2.0-85211046718 597 118389 en RG123/21 SgEC-Core2021-44 Desalination © 2024 Elsevier B.V. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1016/j.desal.2024.118389. application/pdf |
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Engineering Osmotic battery Energy storage system |
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Engineering Osmotic battery Energy storage system Li, Dan Mo, Zijing Fane, Anthony G. She, Qianhong Improving both energetic and kinetic performances of osmotic battery for grid energy storage |
| description |
Osmotic battery (OB), alternating the operation of reverse osmosis (RO) for charging and pressure-retarded osmosis (PRO) for discharging, is an emerging grid-scale energy storage system (ESS) that offers complementary advantages over other existing grid ESSs. OB utilizes osmotic pressure difference of two solutions as a media for energy storage. However, OB faces the issue of energetic-kinetic trade-off generally applicable in all the ESSs. This study aims to quantitatively analyze this trade-off in OB and to develop effective strategies to address this issue. Our analyses suggest that this trade-off can be addressed by (1) raising the initial high-salinity solution concentration (cHS,0), and (2) using more water permeable osmotic membranes with a suitable high-salinity solution. For example, increasing the cHS,0 from 1.2 M to 2.4 M increases energy density from 0.5 to >1.0 kWh·m−3 along with an enhanced power density and a stable high roundtrip efficiency (RTE) above 66 %, albeit requiring membranes with substantially improved mechanical strength. Furthermore, using high-permeance nanofiltration-type osmotic membranes with divalent high-salinity solution could improve the peak power density to above 50 W·m−2 while maintaining energetic performance. This study not only offers effective strategies to ease the energetic-kinetic trade-off but also recommends important directions for developing future osmotic membranes for OB. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Li, Dan Mo, Zijing Fane, Anthony G. She, Qianhong |
| format |
Article |
| author |
Li, Dan Mo, Zijing Fane, Anthony G. She, Qianhong |
| author_sort |
Li, Dan |
| title |
Improving both energetic and kinetic performances of osmotic battery for grid energy storage |
| title_short |
Improving both energetic and kinetic performances of osmotic battery for grid energy storage |
| title_full |
Improving both energetic and kinetic performances of osmotic battery for grid energy storage |
| title_fullStr |
Improving both energetic and kinetic performances of osmotic battery for grid energy storage |
| title_full_unstemmed |
Improving both energetic and kinetic performances of osmotic battery for grid energy storage |
| title_sort |
improving both energetic and kinetic performances of osmotic battery for grid energy storage |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/181991 |
| _version_ |
1821237145974603776 |