Membrane processes have been widely applied in water treatment. However, membrane fouling is the main issue in practical application. Likewise, the rate of filtration will also be affected by the membrane characteristics, pore distribution, operational condition, as well as the water properties. This study is aimed in investigating those parameters effect on membrane microfiltration efficiency. In this study, the HPO PTFE and HPI PTFE membrane with different pore size were applied in cross-flow filtration module to treat four kinds of water from different sources, i.e.; from Baoshan reservoir surface water and Baoshan water treatment plant (WTP) taken at different sampling point, namely raw water, sediment tank effluent, and filtration tank effluent. Other than examining the effect of membrane fouling on treated water qualities; the flux decline, the composition of foulants and membrane fouling cause were also investigated. UV spectrometer at 254 nm absorbance was applied to determine the NOM concentration. TOC analyzer and ICP-MS were utilized for organic and inorganic content analysis respectively. Membrane surface composition was observed by using FTIR whilst the influent or permeate solution composition was determined by EEM. Comparing both kinds of membrane performance, the results indicate that the HPI membrane had higher recovery after back flush, however HPO membrane have advantage in improved NOM removal. In term of water characteristic effect; treated water from Baoshan reservoir surface water and sediment tank effluent showed higher DOC content. The reservoir surface water originally has larger amount of algae than other water while effluent of sediment tank have loose structure particle content. Hence, when these water underwent cross-flow filtration, the shear forces would induce the cell breakage and particle rupture that cause organic matter release and eventually further increase the DOC concentration in water. Overall, the raw water of Baoshan WTP can achieve higher flux recovery and enhanced water quality than others. After cross-flow filtration operation, chemical cleaning by NaOH and HCl was applied to each membrane. It was found out that HCl can only desorbed limited amount of organic but effectively removed iron ion off the membrane surface. Contrary, NaOH can successfully wash off either inorganic ions or organic matters including humic acid, fulvic acid, protein-like compound and soluble by product like compound. From FTIR analysis result, it was definite that the foulants are mainly composed of some hydrophilic compounds, such as polysacharine and protein like materials. It is conclusive that in membrane treatment; membrane fouling, effluent quality and flux recovery will be affected by the properties of water being treated. The study shows that overall, using 0.1 μm HPI PTFE give better water quality and flux recovery. Moreover, proper pretreatment process can be applied to improve the operational performance.