This system allows continuous recycling through the ceramic membrane to keep the wash solution clean and free of oil, fine particles, metals, and other contaminants. Features and benefits include a compact design, broad pH range of 2-13, and a high temperature operation of up to 300° F. Large-capacity skid systems are also available.
The ceramic membrane safely removes suspended solids in wine and juice filtration applications and serves as a healthy alternative to bulk DE filtration. It has a broad pH operating range of 2-13 and uses durable, reusable membrane filters. Systems can be custom-designed for maximum operating efficiency based on generating volume requirements.
The Ceramic Membrane Filtration System utilizes high-velocity fluid 'crossflow' across the face of the membrane. The oil-free water passes through the ceramic membrane while the oily waste is concentrated in a process reservoir.
The robust filter design of this system is well-suited for multiple microfiltration and ultrafiltration applications. Available membrane pore sizes are 0.5 µm, 0.2 µm, 0.01 µm, and 0.005 µm. Other features and benefits include a compact design, high and sustainable flux rates, and high surface area to unit volume.
CeraQ ceramic filter membranes offer superior performance in challenging oil removal applications and are ideal for wastewater recycle / reuse applications in a wide range of industries such as upstream oil & gas, petrochemicals, refinery, food & beverage, and textiles. Each CeraQ module is available in four different pore sizes: 0.4, 0.05, 0.01 ...
Spec. and Data: Material: Dichroite with ceramic fiberPore Size(micron): 1,5,10,15,20,30 Porosity: 38%Buckling Strength: 21-23MPaTemp.: 950℃Standard Diameter: 60、 70、 114、 120、 150mmStandard Length: 1000、1500、2000mmOther sepc. are available, We can also make acc. to customer spec. Dichroite with ceramic fiber Spec. and Data: Material: Dichroite ...
The Aqua Solution membranes are our dead-end filter solution for liquids with lower amount of suspended solids. The membrane substrate has a dead-end design, which yields a more cost efficient filtration performance compared to other filtration principles.