Water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis
Reverse osmosis (RO)-based desalination and advanced water purification facilities have inherent challenges associated with concentrate management and disposal. Although enhanced permeate recovery and concentrate minimization are desired, membrane scaling due to inorganic constituents, such as silic...
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sg-ntu-dr.10356-1380602020-09-26T22:01:06Z Water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis Ikehata, Keisuke Zhao, Yuanyuan Kulkarni, Harshad V. Li, Yuan Snyder, Shane Allen Ishida, Kenneth P. Anderson, Michael A. Nanyang Environment and Water Research Institute Social sciences::Geography::Water Social sciences::Geography::Environmental sciences Reverse Osmosis Brine Treatment Reverse osmosis (RO)-based desalination and advanced water purification facilities have inherent challenges associated with concentrate management and disposal. Although enhanced permeate recovery and concentrate minimization are desired, membrane scaling due to inorganic constituents, such as silica, calcium, phosphate, and iron, hinders the process. To solve this problem, a new diatom-based photobiological process has been developed to remove these scaling constituents by biological uptake and precipitation. In this study, RO concentrate samples were collected from a full-scale advanced water reclamation facility in California and were treated in 3.8 and 57 L photobioreactors inoculated with a brackish water diatom Pseudostaurosira trainorii PEWL001 using light-emitting diode bulbs or natural sunlight as a light source. The photobiological treatment removed 95% of reactive silica and 64% of calcium and enabled additional water recovery using a secondary RO at a recovery rate up to 66%. This represents 95% overall recovery, including 85% recovery in the primary RO unit. In addition to the scaling constituents, the photobiological treatment removed 12 pharmaceuticals and personal care products, as well as N-nitrosodimethylamine, from RO concentrate samples primarily via photolysis. This novel approach has a strong potential for application to brackish water desalination and advanced water purification in arid and semiarid areas. Accepted version 2020-04-23T02:29:23Z 2020-04-23T02:29:23Z 2018 Journal Article Ikehata, K., Zhao, Y., Kulkarni,H. V., Li, Y., Snyder, S. A., Ishida, K. P., & Anderson, M. A. (2018). Water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis. Environmental Science & Technology, 52(15), 8588-8595. doi:10.1021/acs.est.8b00951 0013-936X https://hdl.handle.net/10356/138060 10.1021/acs.est.8b00951 29916696 2-s2.0-85048872546 15 52 8588 8595 en Environmental Science & Technology This document is the Accepted Manuscript version of a Published Work that appeared in final form in Environmental Science & Technology, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acs.est.8b00951 application/pdf |
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NTU Library |
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Social sciences::Geography::Water Social sciences::Geography::Environmental sciences Reverse Osmosis Brine Treatment |
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Social sciences::Geography::Water Social sciences::Geography::Environmental sciences Reverse Osmosis Brine Treatment Ikehata, Keisuke Zhao, Yuanyuan Kulkarni, Harshad V. Li, Yuan Snyder, Shane Allen Ishida, Kenneth P. Anderson, Michael A. Water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis |
| description |
Reverse osmosis (RO)-based desalination and advanced water purification facilities have inherent challenges associated with concentrate management and disposal. Although enhanced permeate recovery and concentrate minimization are desired, membrane scaling due to inorganic constituents, such as silica, calcium, phosphate, and iron, hinders the process. To solve this problem, a new diatom-based photobiological process has been developed to remove these scaling constituents by biological uptake and precipitation. In this study, RO concentrate samples were collected from a full-scale advanced water reclamation facility in California and were treated in 3.8 and 57 L photobioreactors inoculated with a brackish water diatom Pseudostaurosira trainorii PEWL001 using light-emitting diode bulbs or natural sunlight as a light source. The photobiological treatment removed 95% of reactive silica and 64% of calcium and enabled additional water recovery using a secondary RO at a recovery rate up to 66%. This represents 95% overall recovery, including 85% recovery in the primary RO unit. In addition to the scaling constituents, the photobiological treatment removed 12 pharmaceuticals and personal care products, as well as N-nitrosodimethylamine, from RO concentrate samples primarily via photolysis. This novel approach has a strong potential for application to brackish water desalination and advanced water purification in arid and semiarid areas. |
| author2 |
Nanyang Environment and Water Research Institute |
| author_facet |
Nanyang Environment and Water Research Institute Ikehata, Keisuke Zhao, Yuanyuan Kulkarni, Harshad V. Li, Yuan Snyder, Shane Allen Ishida, Kenneth P. Anderson, Michael A. |
| format |
Article |
| author |
Ikehata, Keisuke Zhao, Yuanyuan Kulkarni, Harshad V. Li, Yuan Snyder, Shane Allen Ishida, Kenneth P. Anderson, Michael A. |
| author_sort |
Ikehata, Keisuke |
| title |
Water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis |
| title_short |
Water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis |
| title_full |
Water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis |
| title_fullStr |
Water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis |
| title_full_unstemmed |
Water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis |
| title_sort |
water recovery from advanced water purification facility reverse osmosis concentrate by photobiological treatment followed by secondary reverse osmosis |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/138060 |
| _version_ |
1681058400145768448 |