Pressure-retarded membrane distillation for low-grade heat recovery : the critical roles of pressure-induced membrane deformation
Pressure-retarded membrane distillation (PRMD) is an emerging membrane process to recover energy from low-grade heat sources. The applied hydraulic pressure on the cold-water side in PRMD may strongly affect both energy conversion efficiency and membrane performance. Here, we report the first system...
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sg-ntu-dr.10356-1511532021-08-31T05:22:05Z Pressure-retarded membrane distillation for low-grade heat recovery : the critical roles of pressure-induced membrane deformation Yuan, Ziwen Wei, Li Afroze, Jannatul Dil Goh, Kunli Chen, Yumao Yu, Yanxi She, Qianhong Chen, Yuan School of Chemical and Biomedical Engineering Engineering::Chemical engineering Pressure-retarded Membrane Distillation Low-grade Heat Recovery Membrane Deformation Pressure-retarded membrane distillation (PRMD) is an emerging membrane process to recover energy from low-grade heat sources. The applied hydraulic pressure on the cold-water side in PRMD may strongly affect both energy conversion efficiency and membrane performance. Here, we report the first systematic study on this critical issue. A commercial nanoporous polytetrafluoroethylene membrane was evaluated as a general membrane sample over a range of applied pressures from 0 to 10 bar at a temperature difference of 40 °C. Our results show that the theoretically projected constant water vapor flux decreases significantly with the increase of the applied pressures, which can be attributed to the severe membrane deformation induced by pressures. The membrane in the active-layer-facing-hot-solution orientation is mechanically unstable with the complete loss of water vapor flux under 2 bar. In contrast, the membrane in the active-layer-facing-cold-solution orientation can still work under 10 bar. Combining theoretical analysis and detailed characterization of membrane physical structures, we show that the properties of membrane active layers (i.e., pore size, porosity, and thickness) deteriorate under elevated pressures. Deformed membranes have lower permeability and higher temperature polarization in PRMD, resulting in the observed lower water vapor fluxes. Our results suggest that improving the mechanical stability of membranes would be the first critical step in realizing practical applications of PRMD for low-grade heat recovery. Potential research directions for developing novel PRMD membranes are also proposed. The authors thank funding support from Australian Research Council under the Future Fellowships scheme (FT160100107), Discovery Programme (DP180102210). 2021-08-31T05:22:05Z 2021-08-31T05:22:05Z 2019 Journal Article Yuan, Z., Wei, L., Afroze, J. D., Goh, K., Chen, Y., Yu, Y., She, Q. & Chen, Y. (2019). Pressure-retarded membrane distillation for low-grade heat recovery : the critical roles of pressure-induced membrane deformation. Journal of Membrane Science, 579, 90-101. https://dx.doi.org/10.1016/j.memsci.2019.02.045 0376-7388 https://hdl.handle.net/10356/151153 10.1016/j.memsci.2019.02.045 2-s2.0-85062072213 579 90 101 en Journal of Membrane Science © 2019 Elsevier B.V. All rights reserved. |
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Engineering::Chemical engineering Pressure-retarded Membrane Distillation Low-grade Heat Recovery Membrane Deformation |
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Engineering::Chemical engineering Pressure-retarded Membrane Distillation Low-grade Heat Recovery Membrane Deformation Yuan, Ziwen Wei, Li Afroze, Jannatul Dil Goh, Kunli Chen, Yumao Yu, Yanxi She, Qianhong Chen, Yuan Pressure-retarded membrane distillation for low-grade heat recovery : the critical roles of pressure-induced membrane deformation |
| description |
Pressure-retarded membrane distillation (PRMD) is an emerging membrane process to recover energy from low-grade heat sources. The applied hydraulic pressure on the cold-water side in PRMD may strongly affect both energy conversion efficiency and membrane performance. Here, we report the first systematic study on this critical issue. A commercial nanoporous polytetrafluoroethylene membrane was evaluated as a general membrane sample over a range of applied pressures from 0 to 10 bar at a temperature difference of 40 °C. Our results show that the theoretically projected constant water vapor flux decreases significantly with the increase of the applied pressures, which can be attributed to the severe membrane deformation induced by pressures. The membrane in the active-layer-facing-hot-solution orientation is mechanically unstable with the complete loss of water vapor flux under 2 bar. In contrast, the membrane in the active-layer-facing-cold-solution orientation can still work under 10 bar. Combining theoretical analysis and detailed characterization of membrane physical structures, we show that the properties of membrane active layers (i.e., pore size, porosity, and thickness) deteriorate under elevated pressures. Deformed membranes have lower permeability and higher temperature polarization in PRMD, resulting in the observed lower water vapor fluxes. Our results suggest that improving the mechanical stability of membranes would be the first critical step in realizing practical applications of PRMD for low-grade heat recovery. Potential research directions for developing novel PRMD membranes are also proposed. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Yuan, Ziwen Wei, Li Afroze, Jannatul Dil Goh, Kunli Chen, Yumao Yu, Yanxi She, Qianhong Chen, Yuan |
| format |
Article |
| author |
Yuan, Ziwen Wei, Li Afroze, Jannatul Dil Goh, Kunli Chen, Yumao Yu, Yanxi She, Qianhong Chen, Yuan |
| author_sort |
Yuan, Ziwen |
| title |
Pressure-retarded membrane distillation for low-grade heat recovery : the critical roles of pressure-induced membrane deformation |
| title_short |
Pressure-retarded membrane distillation for low-grade heat recovery : the critical roles of pressure-induced membrane deformation |
| title_full |
Pressure-retarded membrane distillation for low-grade heat recovery : the critical roles of pressure-induced membrane deformation |
| title_fullStr |
Pressure-retarded membrane distillation for low-grade heat recovery : the critical roles of pressure-induced membrane deformation |
| title_full_unstemmed |
Pressure-retarded membrane distillation for low-grade heat recovery : the critical roles of pressure-induced membrane deformation |
| title_sort |
pressure-retarded membrane distillation for low-grade heat recovery : the critical roles of pressure-induced membrane deformation |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151153 |
| _version_ |
1709685325788348416 |