The scarcity of drinking water is worsening due to the increasing demand for water and the decreasing availability of pure water sources. One possible source is the extraction of groundwater, which must be treated before it can be used as drinking or irrigation water. In this context, technologies based on filter membranes are mainly used. However, a major limitation of these processes is the deposition of the substances or particles to be separated on the membrane surface. In continuous operation, these impurities cause a continuous reduction of the water flow through the membrane.

Filter plate as used in the project (A). Details of the screen printed electrodes, with 75 microns electrode width and 300 microns edge to edge distance (B) and contact using metal clips (C) to connect the power supply.

The aim of the REMEMBER project is therefore to develop a new type of dielectrophoresis (DEP) membrane to reduce deposition effects during the filtration process. For this purpose polymeric membrane surfaces are to be provided with thin conductive strips and electrodes by means of printing processes, and subsequently provided with a titanium oxide coating as a protective layer and dielectric by means of an innovative process. In order to improve membrane lifetime of the functionalized membrane, a local treatment of the functionalized membrane surface is to be carried out by means of a laser. All processes are to be applicable inline under atmospheric pressure in order to be able to produce cost-efficient filters with increased efficiency and service life.



Dr.-Ing. Georg Pesch
Raum UFT 2060
Tel. 0421- 218 - 63386

email: gpeschprotect me ?!uni-bremenprotect me ?!.de

Further Infos

Joint research project in the BMBF funding measure WavE.