Spacer vibration for fouling control of submerged flat sheet membranes
In this study, a novel turbulence promoter based on vibrating spacers was investigated to control fouling in a submerged flat sheet membrane filtration system. The impacts of spacer types (1-D, 2-D, and 3-D), parallel distance of spacers to the membrane, vibration frequency and amplitude, and interm...
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sg-ntu-dr.10356-1512652021-06-14T08:07:38Z Spacer vibration for fouling control of submerged flat sheet membranes Wu, Bing Zhang, Yanjun Mao, Ziming Tan, Wen See Tan, Yong Zen Chew, Jia Wei Chong, Tzyy Haur Fane, Anthony Gordon Interdisciplinary Graduate School (IGS) School of Mechanical and Aerospace Engineering School of Chemical and Biomedical Engineering School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Singapore Membrane Technology Centre Singapore Centre for 3D Printing Engineering::Environmental engineering 3-D Printing Fluid Dynamics Simulations In this study, a novel turbulence promoter based on vibrating spacers was investigated to control fouling in a submerged flat sheet membrane filtration system. The impacts of spacer types (1-D, 2-D, and 3-D), parallel distance of spacers to the membrane, vibration frequency and amplitude, and intermittent vibration interval on membrane fouling potential were examined. The results showed that vibration of 3-D spacers (sinusoidal geometry) could achieve up to 48% and 25% more fouling reduction than 1-D (flat plate) and 2-D (flat plate with grooves) spacers respectively when the spacers were located at a distance of 0.1 mm to the membrane. Increasing vibration frequency of the 3-D spacer from 1 to 2.5 Hz and increasing amplitude from 0.8 to 2 cm improved membrane fouling control efficiency by 33% and 34% respectively. The improved membrane performance was attributed to combined effects of the enhanced turbulence kinetic energy associated with back-transport of foulants and shear rate on the membrane surface as illustrated by the three-dimensional computational fluid dynamics (3-D CFD) simulations. An experimental and power consumption comparison of spacer vibration and gas sparging for fouling control was also performed. This study highlights the feasibility of vibration spacers in enhancing submerged flat sheet membrane performance. Economic Development Board (EDB) Nanyang Technological University Yanjun Zhang and Ziming Mao would like to appreciate the guidance of Mr. Kay Siang Low from Hwa Chong Institution. The Economic Development Board (EDB) of Singapore is acknowledged for funding the Singapore Membrane Technology Centre (SMTC), Nanyang Technological University. 2021-06-14T08:07:37Z 2021-06-14T08:07:37Z 2019 Journal Article Wu, B., Zhang, Y., Mao, Z., Tan, W. S., Tan, Y. Z., Chew, J. W., Chong, T. H. & Fane, A. G. (2019). Spacer vibration for fouling control of submerged flat sheet membranes. Separation and Purification Technology, 210, 719-728. https://dx.doi.org/10.1016/j.seppur.2018.08.062 1383-5866 0000-0002-6002-4501 0000-0001-7738-2498 0000-0002-6603-1649 https://hdl.handle.net/10356/151265 10.1016/j.seppur.2018.08.062 2-s2.0-85052885913 210 719 728 en Separation and Purification Technology © 2018 Elsevier B.V. All rights reserved. |
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Engineering::Environmental engineering 3-D Printing Fluid Dynamics Simulations Wu, Bing Zhang, Yanjun Mao, Ziming Tan, Wen See Tan, Yong Zen Chew, Jia Wei Chong, Tzyy Haur Fane, Anthony Gordon Spacer vibration for fouling control of submerged flat sheet membranes |
| description |
In this study, a novel turbulence promoter based on vibrating spacers was investigated to control fouling in a submerged flat sheet membrane filtration system. The impacts of spacer types (1-D, 2-D, and 3-D), parallel distance of spacers to the membrane, vibration frequency and amplitude, and intermittent vibration interval on membrane fouling potential were examined. The results showed that vibration of 3-D spacers (sinusoidal geometry) could achieve up to 48% and 25% more fouling reduction than 1-D (flat plate) and 2-D (flat plate with grooves) spacers respectively when the spacers were located at a distance of 0.1 mm to the membrane. Increasing vibration frequency of the 3-D spacer from 1 to 2.5 Hz and increasing amplitude from 0.8 to 2 cm improved membrane fouling control efficiency by 33% and 34% respectively. The improved membrane performance was attributed to combined effects of the enhanced turbulence kinetic energy associated with back-transport of foulants and shear rate on the membrane surface as illustrated by the three-dimensional computational fluid dynamics (3-D CFD) simulations. An experimental and power consumption comparison of spacer vibration and gas sparging for fouling control was also performed. This study highlights the feasibility of vibration spacers in enhancing submerged flat sheet membrane performance. |
| author2 |
Interdisciplinary Graduate School (IGS) |
| author_facet |
Interdisciplinary Graduate School (IGS) Wu, Bing Zhang, Yanjun Mao, Ziming Tan, Wen See Tan, Yong Zen Chew, Jia Wei Chong, Tzyy Haur Fane, Anthony Gordon |
| format |
Article |
| author |
Wu, Bing Zhang, Yanjun Mao, Ziming Tan, Wen See Tan, Yong Zen Chew, Jia Wei Chong, Tzyy Haur Fane, Anthony Gordon |
| author_sort |
Wu, Bing |
| title |
Spacer vibration for fouling control of submerged flat sheet membranes |
| title_short |
Spacer vibration for fouling control of submerged flat sheet membranes |
| title_full |
Spacer vibration for fouling control of submerged flat sheet membranes |
| title_fullStr |
Spacer vibration for fouling control of submerged flat sheet membranes |
| title_full_unstemmed |
Spacer vibration for fouling control of submerged flat sheet membranes |
| title_sort |
spacer vibration for fouling control of submerged flat sheet membranes |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151265 |
| _version_ |
1703971227050180608 |