Abstract
Over-enrichment of phosphorus in water bodies can have a serious impact on aquatic life. In this study, the removal of phosphorus from aqueous solution was investigated with a cross-flow filtration process system using nanofiltration membranes (NF and NF90). The effect of different operating parameters, such as pressure, temperature and pH of the model solution, was studied. The result obtained from this study showed a near complete removal of phosphorus, from the feed solution, i.e. 99.9% rejection for NF90 membrane and 99.2% for NF membrane. It was found that the rejection of phosphorus decreased as the pressure and temperature increased resulted from the concentration polarisation and diffusivity of phosphorus, respectively. An increase in pH of the feed solution gave a higher phosphorus rejection. The permeate flux increased with pressure, temperature and pH for both membranes tested. Amongst the parameters investigated, pH had the most significant effect on the rejection of phosphorus.
Acknowledgement
This study was supported by Monash University Sunway Campus through Monash Major Grant EM2-10.