The performances of the optimized tree-type cylindrical-shaped nanoporous fltering membranes with six or seven branch pores in each pore tree are analytically studied. The radius Rb,1 of the branch pore for fltration is normally on the 1 or 10 nm scales. The larger trunk pore is for improving the flux of the membrane. For liquid-particle separations, the radius Rb,1 of the branch pore is determined by the particle size, and the radius Rb,2 of the trunk pore is optimized for yielding the lowest flow resistance of the membranes; The optimum ratios of Rb,2 to Rb,1 are typically calculated respectively for weak, medium-level and strong liquid-pore wall interactions when the operational parameter values are widely varied. The capability of the liquid-liquid separation of these membranes is also analytically shown.
Zhang, Y. (2019). Optimized Tree-Type Cylindrical-Shaped Nanoporous Filtering Membranes with 6 or 7 Branch Pores in each Pore Tree. Journal of Membrane Science and Research, 5(1), 44-48. doi: 10.22079/jmsr.2018.89954.1203
MLA
Yongbin Zhang. "Optimized Tree-Type Cylindrical-Shaped Nanoporous Filtering Membranes with 6 or 7 Branch Pores in each Pore Tree". Journal of Membrane Science and Research, 5, 1, 2019, 44-48. doi: 10.22079/jmsr.2018.89954.1203
HARVARD
Zhang, Y. (2019). 'Optimized Tree-Type Cylindrical-Shaped Nanoporous Filtering Membranes with 6 or 7 Branch Pores in each Pore Tree', Journal of Membrane Science and Research, 5(1), pp. 44-48. doi: 10.22079/jmsr.2018.89954.1203
VANCOUVER
Zhang, Y. Optimized Tree-Type Cylindrical-Shaped Nanoporous Filtering Membranes with 6 or 7 Branch Pores in each Pore Tree. Journal of Membrane Science and Research, 2019; 5(1): 44-48. doi: 10.22079/jmsr.2018.89954.1203