Green technology of liquid biphasic flotation for enzyme recovery utilizing recycling surfactant and sorbitol
Liquid biphasic flotation (LBF) system has been recognized as an efficient, green, economically sustainable and biocompatible technique for biomolecules separation and purification. The main drawbacks of the conventional process of biomolecules separation are expensive production cost, utilization o...
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my.um.eprints.207772019-03-22T01:53:09Z http://eprints.um.edu.my/20777/ Green technology of liquid biphasic flotation for enzyme recovery utilizing recycling surfactant and sorbitol Sankaran, Revathy Show, Pau Loke Yap, Yee Jiun Tao, Yang Ling, Tau Chuan Tomohisa, Katsuda Q Science (General) QH Natural history Liquid biphasic flotation (LBF) system has been recognized as an efficient, green, economically sustainable and biocompatible technique for biomolecules separation and purification. The main drawbacks of the conventional process of biomolecules separation are expensive production cost, utilization of phase components that are inefficiently recycled and global pollution due to high chemical consumption and wastage. In this paper, a novel approach of LBF system for lipase recovery utilizing recycling phase components comprising surfactant and xylitol was investigated. The scope of this study focuses on pollution prevention as well as clean and environmentally friendly process for enzyme extraction via LBF. The green process proposed in this study uses phase-forming components that have recovery and recycling abilities for minimal use of chemicals for enzyme extraction. This novel method utilized Triton X-100 and xylitol for lipase extraction from Burkholderia cepacia. A few parameters were optimized to obtain high lipase separation efficiency and yield. Based on the ideal conditions of LBF, the average lipase separation efficiency and yield are 86.46 and 87.49%, correspondingly. Phase components recycling were proposed in order to reduce the chemicals consumption in LBF system. Upscaling of the recycling study exhibited consistent result with the laboratory scale. It was found that 97.20 and 98.67% of Triton X-100 and xylitol were recovered after five times of recycling and that a total of 75.87% of lipase separation efficiency was obtained. Recovery and recycling of phase components in the extraction process are established as the principal green chemistry method, which yields high separation efficiency and is economically feasible on an industrial scale. Springer 2018 Article PeerReviewed Sankaran, Revathy and Show, Pau Loke and Yap, Yee Jiun and Tao, Yang and Ling, Tau Chuan and Tomohisa, Katsuda (2018) Green technology of liquid biphasic flotation for enzyme recovery utilizing recycling surfactant and sorbitol. Clean Technologies and Environmental Policy, 20 (9). pp. 2001-2012. ISSN 1618-954X https://doi.org/10.1007/s10098-018-1523-5 doi:10.1007/s10098-018-1523-5 |
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Q Science (General) QH Natural history Sankaran, Revathy Show, Pau Loke Yap, Yee Jiun Tao, Yang Ling, Tau Chuan Tomohisa, Katsuda Green technology of liquid biphasic flotation for enzyme recovery utilizing recycling surfactant and sorbitol |
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Liquid biphasic flotation (LBF) system has been recognized as an efficient, green, economically sustainable and biocompatible technique for biomolecules separation and purification. The main drawbacks of the conventional process of biomolecules separation are expensive production cost, utilization of phase components that are inefficiently recycled and global pollution due to high chemical consumption and wastage. In this paper, a novel approach of LBF system for lipase recovery utilizing recycling phase components comprising surfactant and xylitol was investigated. The scope of this study focuses on pollution prevention as well as clean and environmentally friendly process for enzyme extraction via LBF. The green process proposed in this study uses phase-forming components that have recovery and recycling abilities for minimal use of chemicals for enzyme extraction. This novel method utilized Triton X-100 and xylitol for lipase extraction from Burkholderia cepacia. A few parameters were optimized to obtain high lipase separation efficiency and yield. Based on the ideal conditions of LBF, the average lipase separation efficiency and yield are 86.46 and 87.49%, correspondingly. Phase components recycling were proposed in order to reduce the chemicals consumption in LBF system. Upscaling of the recycling study exhibited consistent result with the laboratory scale. It was found that 97.20 and 98.67% of Triton X-100 and xylitol were recovered after five times of recycling and that a total of 75.87% of lipase separation efficiency was obtained. Recovery and recycling of phase components in the extraction process are established as the principal green chemistry method, which yields high separation efficiency and is economically feasible on an industrial scale. |
| format |
Article |
| author |
Sankaran, Revathy Show, Pau Loke Yap, Yee Jiun Tao, Yang Ling, Tau Chuan Tomohisa, Katsuda |
| author_facet |
Sankaran, Revathy Show, Pau Loke Yap, Yee Jiun Tao, Yang Ling, Tau Chuan Tomohisa, Katsuda |
| author_sort |
Sankaran, Revathy |
| title |
Green technology of liquid biphasic flotation for enzyme recovery utilizing recycling surfactant and sorbitol |
| title_short |
Green technology of liquid biphasic flotation for enzyme recovery utilizing recycling surfactant and sorbitol |
| title_full |
Green technology of liquid biphasic flotation for enzyme recovery utilizing recycling surfactant and sorbitol |
| title_fullStr |
Green technology of liquid biphasic flotation for enzyme recovery utilizing recycling surfactant and sorbitol |
| title_full_unstemmed |
Green technology of liquid biphasic flotation for enzyme recovery utilizing recycling surfactant and sorbitol |
| title_sort |
green technology of liquid biphasic flotation for enzyme recovery utilizing recycling surfactant and sorbitol |
| publisher |
Springer |
| publishDate |
2018 |
| url |
http://eprints.um.edu.my/20777/ https://doi.org/10.1007/s10098-018-1523-5 |
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