Ceramic Membrane Technology Wastewater

Ceramic membrane is extensively used in water and wastewater treatment which include oil field injection water paper industry waste water landfill leachate palm oil wastewater textil and printing industry wastewater oily wastewater titanium dioxide wastewater fermentation chemical industry wastewater desalination seawater treatment and degreasing liquid treatment and other aspects.

Ceramic membrane technology wastewater. Membrane materials membranes are made from either organic polymers or ceramic materials. Due to their resistance to extreme operating conditions and cleaning protocols ceramic mf membranes are gradually becoming more employed in the drinking water and wastewater treatment industries when compared with organic and polymeric membranes. Oil field injection water. Microfiltration is able to remove protozoa bacteria and turbidity while uf has the added benefit of virus removal howell 2004.

The growth in the end user segment is primarily driven by the fast growing water wastewater treatment mainly in developing nations. On the basis of end user industry the ceramic membrane market is categorized into water wastewater treatment biotechnology pharmaceuticals food beverages chemical processing and others. The ceramic membrane bio reactor is a state of the art technology which employs ceramic membranes in aerobic or anaerobic bioreactors for industrial or municipal wastewater treatment. Most people familiar with membrane technology who haven t perhaps scrutinised the most recent developments might have assumed ceramic membranes to be too expensive to displace polymeric materials.

Water wastewater treatment ceramic membrane is extensively used in water and wastewater treatment which include oil field injection water paper industry waste water landfill leachate palm oil wastewater textil and printing. It was the same in the past about the likelihood of mbrs displacing sbrs as a viable small footprint wastewater technology. Arrangements for membranes ceramic membranes are more and more employed in the drinking water and wastewater treatment industries when compared with organic and polymeric counterparts due to their resistance to extreme operating conditions and numerous available and sustainable cleaning protocols.