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Determination of pore sizes and surface porosity and the effect of shear stress within a spinneret on asymmetric hollow fiber membranes
Rong Wang, Tai-Shung Chung
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Corresponding author for this work
Water Desalination & Reuse Center
Research output
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Contribution to journal
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Article
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peer-review
27
Scopus citations
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Dive into the research topics of 'Determination of pore sizes and surface porosity and the effect of shear stress within a spinneret on asymmetric hollow fiber membranes'. Together they form a unique fingerprint.
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Engineering
Hollow-Fiber Membrane
55%
Porosity
44%
Surfaces
44%
Chains
33%
Spinneret
22%
Poiseuille Flow
22%
Diffusion
22%
Packing
22%
Hollow Fibre
11%
Deformation
11%
Simple Approach
11%
Transport Mechanism
11%
Shear Rate
11%
Surface Layer
11%
High Shear Rate
11%
Models
11%
Thickness
11%
Calculates
11%
Mechanisms
11%
Determines
11%
Transforms
11%
Large Portion
11%
Material Science
Pore Size
66%
Void Fraction
44%
Surface
44%
Solution
22%
Skin
22%
Membrane Structure
11%
Gas
11%
Agricultural and Biological Sciences
Shears
100%
Surfaces
55%
Solutions
22%
Skin
22%
Thickness
11%