Characterization of PVDF hollow fiber membrane

Characterization of PVDF hollow fiber membrane

Physical properties of the membranes are the keys to the greater performance of the membrane. Fabrication parameters and conditions were factors to affecting the characteristic of the membrane. In this report, post treatment annealing temperature, variation of fabricating conditions together with ad...

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Main Author: Lau, Xiang Ling.
Other Authors: Guo Ningqun
Format: Final Year Project
Language:English
Published: 2009
Subjects:
DRNTU::Engineering::Materials::Material testing and characterization
Online Access:http://hdl.handle.net/10356/16245
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-162452023-03-04T18:22:10Z Characterization of PVDF hollow fiber membrane Lau, Xiang Ling. Guo Ningqun School of Mechanical and Aerospace Engineering Memstar DRNTU::Engineering::Materials::Material testing and characterization Physical properties of the membranes are the keys to the greater performance of the membrane. Fabrication parameters and conditions were factors to affecting the characteristic of the membrane. In this report, post treatment annealing temperature, variation of fabricating conditions together with additional additives to the membranes were investigated. Two fabrication techniques - Non-Solvent Induced Phase Separation (NIPS) and Thermal Induced Phase Separation (TIPS) were exploited for membranes fabrications. Five tests were carried out on NIPS and TIPS membranes to better understand selectivity, permeability and crystallization morphology of the PVDF membranes. With annealing process on NIPS membranes, the membranes showed to have increased in selectivity and decreased of flux rate as membrane’s substrate nucleated under heat treatment. Dominating crystallographic of α phase was also observed which leaded to thermal stability of the membranes. The extruding temperature different for TIPS membranes had been observed to have same level of selectivity but permeability level increased as the extruding temperature increased. The increase of extruding at a higher temperature leaded to a growth of γ phase. Experimental results had also shown that with addictive of zinc to TIPS membranes; it would decrease the selectivity but increase the flux rate. Addition of α and γ phase crystals were formed and in dominant. Therefore from the experiments conducted, increase of the selectivity would lead to decrease of permeability or vice versa. Annealing treatment had increased the selectivity for NIPS membrane and different extruding temperature and zinc additives leads to higher permeability of membranes. Crystallization morphology of PVDF only allowed a better understanding of the membrane’s material but did not have a direct physical relation to the membrane properties. Bachelor of Engineering (Mechanical Engineering) 2009-05-22T08:14:10Z 2009-05-22T08:14:10Z 2009 2009 Final Year Project (FYP) http://hdl.handle.net/10356/16245 en Nanyang Technological University 143 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Materials::Material testing and characterization
spellingShingle DRNTU::Engineering::Materials::Material testing and characterization
Lau, Xiang Ling.
Characterization of PVDF hollow fiber membrane
description Physical properties of the membranes are the keys to the greater performance of the membrane. Fabrication parameters and conditions were factors to affecting the characteristic of the membrane. In this report, post treatment annealing temperature, variation of fabricating conditions together with additional additives to the membranes were investigated. Two fabrication techniques - Non-Solvent Induced Phase Separation (NIPS) and Thermal Induced Phase Separation (TIPS) were exploited for membranes fabrications. Five tests were carried out on NIPS and TIPS membranes to better understand selectivity, permeability and crystallization morphology of the PVDF membranes. With annealing process on NIPS membranes, the membranes showed to have increased in selectivity and decreased of flux rate as membrane’s substrate nucleated under heat treatment. Dominating crystallographic of α phase was also observed which leaded to thermal stability of the membranes. The extruding temperature different for TIPS membranes had been observed to have same level of selectivity but permeability level increased as the extruding temperature increased. The increase of extruding at a higher temperature leaded to a growth of γ phase. Experimental results had also shown that with addictive of zinc to TIPS membranes; it would decrease the selectivity but increase the flux rate. Addition of α and γ phase crystals were formed and in dominant. Therefore from the experiments conducted, increase of the selectivity would lead to decrease of permeability or vice versa. Annealing treatment had increased the selectivity for NIPS membrane and different extruding temperature and zinc additives leads to higher permeability of membranes. Crystallization morphology of PVDF only allowed a better understanding of the membrane’s material but did not have a direct physical relation to the membrane properties.
author2 Guo Ningqun
author_facet Guo Ningqun
Lau, Xiang Ling.
format Final Year Project
author Lau, Xiang Ling.
author_sort Lau, Xiang Ling.
title Characterization of PVDF hollow fiber membrane
title_short Characterization of PVDF hollow fiber membrane
title_full Characterization of PVDF hollow fiber membrane
title_fullStr Characterization of PVDF hollow fiber membrane
title_full_unstemmed Characterization of PVDF hollow fiber membrane
title_sort characterization of pvdf hollow fiber membrane
publishDate 2009
url http://hdl.handle.net/10356/16245
_version_ 1759854366900092928

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