@article{article_1226659, title={Effect of Additive on the Structure and Performance of PVDF Hollow Fibre Membrane on Phosphorus Removal}, journal={The Eurasia Proceedings of Science Technology Engineering and Mathematics}, volume={21}, pages={363–370}, year={2022}, DOI={10.55549/epstem.1226659}, author={Mansor, Hazmin and Mohd Sobran, Nur Hidayah}, keywords={Hollow fiber membrane, Hydrophilic, Nanofiltration, Phosphorus}, abstract={Similar to plants, algae are tiny creatures that inhabit watery settings and use photosynthesis to
harness the energy of the sun. Depending on the kind of algae, the excessive growth, or algal bloom, can be
green, blue-green, red, or brown and becomes apparent to the human eye. The phenomena are caused by
excessive phosphorus in the water body. There are many methods including chemical removal, advanced
biological treatment, or a combination of the two methods can remove phosphorus from wastewater. Calcium,
iron, and aluminum salts are added as part of the chemical removal of phosphorus in order to achieve
phosphorus precipitation by a variety of methods that are explained. However, despite the efficient chemical
phosphorus removal systems, it is important to note that they may increase sludge production rates and need
additional storage requirements. Using hollow fibre ultrafiltration membrane has great potential to be the
alternative in treating. This study observes the effect of TiO2 as additive on the structure and performance of
PVDF hollow fiber membrane for phosphorus removal. A comparative study between 0 wt% and 0.5 wt% of
TiO2 with a 16 wt% and 84 wt% of polymer and solvent respectively are used in designing and fabricating the
hollow fibre membrane. The morphology, water contact angle and pure water flux were being observed. The
presence of nanoparticles as additive in membrane enhance the structure and performance of the hollow fiber
membrane by forming more porous structure, nano pore size for nanofiltration, increase the permeability and
hydrophilicity nature, increase pure water flux and increase fouling resistance that capable to remove
phosphorus in wastewater treatment.}, publisher={ISRES Publishing}