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Membrane Water Treatment Volume 14, Number 3, May 2023 , pages 115-120 DOI: https://doi.org/10.12989/mwt.2023.14.3.115 |
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Fundamental parameters of nanoporous filtration membranes |
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Wei Li, Xiaoxu Huang and Yongbin Zhang
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| Abstract | ||
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The design theory for nanoporous filtration membranes needs to be established. The present study shows that the performance and technical advancement of nanoporous filtration membranes are determined by the fundamental parameter I (in the unit Watt1/2) which is formulated as a function of the shear strength of the liquid-pore wall interface, the radius of the filtration pore, the membrane thickness, and the bulk dynamic viscosity of the flowing liquid. This parameter determines the critical power loss on a single filtration pore for initiating the wall slippage, which is important for the flux of the membrane. It also relates the membrane permeability to the power cost by the filtration pore. It is shown that for biological cellular membranes its values are on the scale 1.0E-8Watt1/2, for mono-layer graphene membranes its values are on the scale 1.0E-9Watt1/2, and for nanoporous membranes made of silica, silicon nitride or silicon carbonized its values are on the scale 1.0E-5Watt1/2. The scale of the value of this parameter directly measures the level of the performance of a nanoporous filtration membrane. The carbon nanotube membrane has the similar performance with biological cellular membranes, as it also has the value of I on the scale 1.0E-8Watt1/2. | ||
| Key Words | ||
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filtration; membrane; nanopore; permeability; power loss; water | ||
| Address | ||
| Wei Li and Xiaoxu Huang: School of Mechanical Technology, Wuxi Institute of Technology, Wuxi, Jiangsu Province, China Yongbin Zhang: College of Mechanical Engineering, Changzhou University, Changzhou, Jiangsu Province, China | ||
