Microfiltration of algae (Chlorella sorokiniana) : critical flux, fouling and transmission
Fouling and transmission studies of algae broth (Chlorella sorokiniana) during cross-flow microfiltration were performed using direct microscopic observation technique. The flux stepping test was conducted for approximately 15 min interval and images were captured at the beginning and at the end of...
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sg-ntu-dr.10356-1005252020-03-07T11:43:40Z Microfiltration of algae (Chlorella sorokiniana) : critical flux, fouling and transmission Wicaksana, Filicia Fane, Anthony Gordon Pongpairoj, Pharima Field, Robert School of Civil and Environmental Engineering Singapore Membrane Technology Centre DRNTU::Engineering::Environmental engineering DRNTU::Engineering::Civil engineering Fouling and transmission studies of algae broth (Chlorella sorokiniana) during cross-flow microfiltration were performed using direct microscopic observation technique. The flux stepping test was conducted for approximately 15 min interval and images were captured at the beginning and at the end of each flux step for further analysis of membrane surface coverage. The rate of membrane surface coverage was correlated to the rate of transmembrane pressure (TMP) rise. Results suggested that Direct Observation Through the Membrane (DOTM) technique was more sensitive to indicate the membrane fouling than TMP monitoring method. Deposition of microalgal cells started to occur even at a very low permeate flux. The layer of algal cells would eventually build up and might result in severe fouling. Despite this early deposition, TMP values remained low and would only increase when the fouling had become more pronounce. Lower fouling rate was achieved at higher cross-flow velocity. However, higher cross-flow velocity (CFV) also generated greater shear force which enhanced the transmission of extracellular polymeric substances (EPS). The particle removal due to bubble-induced shear was visualised with DOTM to provide better understanding. A significant reduction in fouling rate and near complete removal of microalgae could be achieved by applying continuous air bubbling. Based on TMP measurement, an intermittent aeration mode could achieve approximately identical performance as continuous bubbling mode. However, the recorded DOTM images indicated that intermittent bubbling mode could not completely maintain a cell-free surface. 2013-09-24T04:01:53Z 2019-12-06T20:24:02Z 2013-09-24T04:01:53Z 2019-12-06T20:24:02Z 2011 2011 Journal Article Wicaksana, F., Fane, A. G., Pongpairoj, P., & Field, R. (2011). Microfiltration of algae (Chlorella sorokiniana) : critical flux, fouling and transmission. Journal of membrane science, 387-388, 83-92. https://hdl.handle.net/10356/100525 http://hdl.handle.net/10220/13622 10.1016/j.memsci.2011.10.013 en Journal of membrane science |
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DRNTU::Engineering::Environmental engineering DRNTU::Engineering::Civil engineering Wicaksana, Filicia Fane, Anthony Gordon Pongpairoj, Pharima Field, Robert Microfiltration of algae (Chlorella sorokiniana) : critical flux, fouling and transmission |
| description |
Fouling and transmission studies of algae broth (Chlorella sorokiniana) during cross-flow microfiltration were performed using direct microscopic observation technique. The flux stepping test was conducted for approximately 15 min interval and images were captured at the beginning and at the end of each flux step for further analysis of membrane surface coverage. The rate of membrane surface coverage was correlated to the rate of transmembrane pressure (TMP) rise. Results suggested that Direct Observation Through the Membrane (DOTM) technique was more sensitive to indicate the membrane fouling than TMP monitoring method. Deposition of microalgal cells started to occur even at a very low permeate flux. The layer of algal cells would eventually build up and might result in severe fouling. Despite this early deposition, TMP values remained low and would only increase when the fouling had become more pronounce.
Lower fouling rate was achieved at higher cross-flow velocity. However, higher cross-flow velocity (CFV) also generated greater shear force which enhanced the transmission of extracellular polymeric substances (EPS). The particle removal due to bubble-induced shear was visualised with DOTM to provide better understanding. A significant reduction in fouling rate and near complete removal of microalgae could be achieved by applying continuous air bubbling. Based on TMP measurement, an intermittent aeration mode could achieve approximately identical performance as continuous bubbling mode. However, the recorded DOTM images indicated that intermittent bubbling mode could not completely maintain a cell-free surface. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Wicaksana, Filicia Fane, Anthony Gordon Pongpairoj, Pharima Field, Robert |
| format |
Article |
| author |
Wicaksana, Filicia Fane, Anthony Gordon Pongpairoj, Pharima Field, Robert |
| author_sort |
Wicaksana, Filicia |
| title |
Microfiltration of algae (Chlorella sorokiniana) : critical flux, fouling and transmission |
| title_short |
Microfiltration of algae (Chlorella sorokiniana) : critical flux, fouling and transmission |
| title_full |
Microfiltration of algae (Chlorella sorokiniana) : critical flux, fouling and transmission |
| title_fullStr |
Microfiltration of algae (Chlorella sorokiniana) : critical flux, fouling and transmission |
| title_full_unstemmed |
Microfiltration of algae (Chlorella sorokiniana) : critical flux, fouling and transmission |
| title_sort |
microfiltration of algae (chlorella sorokiniana) : critical flux, fouling and transmission |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/100525 http://hdl.handle.net/10220/13622 |
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1681046022344671232 |