Sea salt bittern-driven forward osmosis for nutrient recovery from black water: A dual waste-to-resource innovation via the osmotic membrane process
© 2020, Higher Education Press and Springer-Verlag GmbH Germany, part of Springer Nature. A dual “waste-to-resource” innovation in nutrient enrichment and recovery from domestic black water using a sea salt bittern (SSB)-driven forward osmosis (FO) process is proposed and demonstrated. The performan...
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th-mahidol.496062020-01-27T10:33:14Z Sea salt bittern-driven forward osmosis for nutrient recovery from black water: A dual waste-to-resource innovation via the osmotic membrane process Wenchao Xue May Zaw Xiaochan An Yunxia Hu Allan Sriratana Tabucanon Faculty of Environment and Resource Studies, Mahidol University Tianjin Polytechnic University Asian Institute of Technology Thailand Environmental Science © 2020, Higher Education Press and Springer-Verlag GmbH Germany, part of Springer Nature. A dual “waste-to-resource” innovation in nutrient enrichment and recovery from domestic black water using a sea salt bittern (SSB)-driven forward osmosis (FO) process is proposed and demonstrated. The performance of SSB as a “waste-to-resource” draw solution for FO was first evaluated. A synthetic SSB-driven FO provided a water flux of 25.67±3.36 L/m2 · h, which was 1.5–1.7 times compared with synthetic seawater, 1 M NaCl, and 1 M MgCl2. Slightly compromised performance regarding reverse solute selectivity was observed. In compensation, the enhanced reverse diffusion of Mg2+ suggested superior potential in terms of recovering nutrients in the form of struvite precipitation. The nutrient enrichment was performed using both the pre-filtered influent and effluent of a domestic septic tank. Over 80% of phosphate-P recovery was achieved from both low- and high-strength black water at a feed volume reduction up to 80%–90%. With an elevated feed pH (∼9), approximately 60%–85% enriched phosphate-P was able to be recovered in the form of precipitated stuvite. Whereas the enrichment performance of total Kjeldahl nitrogen (TKN) largely differed depending on the strength of black water. Improved concentration factor (i.e., 3-folds) and retention (>60%) of TKN was obtained in the high-nutrient-strength black water at a feed volume reduction of 80%, in comparison with a weak TKN enrichment observed in low-strength black water. The results suggested a good potential for nutrient recovery based on this dual “waste-to-resource” FO system with proper management of membrane cleaning. [Figure not available: see fulltext.]. 2020-01-27T03:33:13Z 2020-01-27T03:33:13Z 2020-04-01 Article Frontiers of Environmental Science and Engineering. Vol.14, No.2 (2020) 10.1007/s11783-019-1211-7 2095221X 20952201 2-s2.0-85077881852 https://repository.li.mahidol.ac.th/handle/123456789/49606 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85077881852&origin=inward |
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Environmental Science Wenchao Xue May Zaw Xiaochan An Yunxia Hu Allan Sriratana Tabucanon Sea salt bittern-driven forward osmosis for nutrient recovery from black water: A dual waste-to-resource innovation via the osmotic membrane process |
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© 2020, Higher Education Press and Springer-Verlag GmbH Germany, part of Springer Nature. A dual “waste-to-resource” innovation in nutrient enrichment and recovery from domestic black water using a sea salt bittern (SSB)-driven forward osmosis (FO) process is proposed and demonstrated. The performance of SSB as a “waste-to-resource” draw solution for FO was first evaluated. A synthetic SSB-driven FO provided a water flux of 25.67±3.36 L/m2 · h, which was 1.5–1.7 times compared with synthetic seawater, 1 M NaCl, and 1 M MgCl2. Slightly compromised performance regarding reverse solute selectivity was observed. In compensation, the enhanced reverse diffusion of Mg2+ suggested superior potential in terms of recovering nutrients in the form of struvite precipitation. The nutrient enrichment was performed using both the pre-filtered influent and effluent of a domestic septic tank. Over 80% of phosphate-P recovery was achieved from both low- and high-strength black water at a feed volume reduction up to 80%–90%. With an elevated feed pH (∼9), approximately 60%–85% enriched phosphate-P was able to be recovered in the form of precipitated stuvite. Whereas the enrichment performance of total Kjeldahl nitrogen (TKN) largely differed depending on the strength of black water. Improved concentration factor (i.e., 3-folds) and retention (>60%) of TKN was obtained in the high-nutrient-strength black water at a feed volume reduction of 80%, in comparison with a weak TKN enrichment observed in low-strength black water. The results suggested a good potential for nutrient recovery based on this dual “waste-to-resource” FO system with proper management of membrane cleaning. [Figure not available: see fulltext.]. |
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Faculty of Environment and Resource Studies, Mahidol University |
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Faculty of Environment and Resource Studies, Mahidol University Wenchao Xue May Zaw Xiaochan An Yunxia Hu Allan Sriratana Tabucanon |
| format |
Article |
| author |
Wenchao Xue May Zaw Xiaochan An Yunxia Hu Allan Sriratana Tabucanon |
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Wenchao Xue |
| title |
Sea salt bittern-driven forward osmosis for nutrient recovery from black water: A dual waste-to-resource innovation via the osmotic membrane process |
| title_short |
Sea salt bittern-driven forward osmosis for nutrient recovery from black water: A dual waste-to-resource innovation via the osmotic membrane process |
| title_full |
Sea salt bittern-driven forward osmosis for nutrient recovery from black water: A dual waste-to-resource innovation via the osmotic membrane process |
| title_fullStr |
Sea salt bittern-driven forward osmosis for nutrient recovery from black water: A dual waste-to-resource innovation via the osmotic membrane process |
| title_full_unstemmed |
Sea salt bittern-driven forward osmosis for nutrient recovery from black water: A dual waste-to-resource innovation via the osmotic membrane process |
| title_sort |
sea salt bittern-driven forward osmosis for nutrient recovery from black water: a dual waste-to-resource innovation via the osmotic membrane process |
| publishDate |
2020 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/49606 |
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