Ceramic Membrane Filtration
Mrs.A.G.Kharde1, Mr. A.P.Nil2, Mr.V.A.Ghune3, Mr.J.S.Ubhedal4, Mr.S.B.Lokhande5
1Lect Chemical Engineering Department Pad.Dr.V.V.Patil Polytechnic Loni
2345Students of Chemical Engineering Department Pad.Dr.V.V.Patil Polytechnic Loni
Abstract – Ceramic membrane filtration is an advanced separation technology widely used for the purification and treatment of liquids in water, wastewater, and industrial processes. This project focuses on the study, design, and performance evaluation of ceramic membrane filtration systems, emphasizing their efficiency in removing suspended solids, bacteria, and dissolved impurities. Ceramic membranes are manufactured from inorganic materials such as alumina, zirconia, or titania, which provide high mechanical strength, thermal stability, and chemical resistance compared to polymeric membranes.
The experimental setup involves passing contaminated water through a ceramic membrane under controlled pressure conditions and analyzing parameters such as flux rate, permeability, rejection efficiency, and fouling behaviour results demonstrate that ceramic membrane filtration offers high filtration efficiency, longer operational life, and ease of cleaning through backwashing and chemical treatment. The study concludes that ceramic membrane filtration is a sustainable and cost-effective solution for water purification and industrial wastewater treatment, with significant potential for large-scale applications.
Ceramic membrane filtration (CMF) uses robust, porous ceramic materials (like alumina, silica, or composites from waste) for physical separation, offering high thermal/chemical stability, long life, and high flux for water/wastewater treatment, effectively removing contaminants like suspended solids, colloids, and dyes, though fouling can occur, requiring pre-treatment or surface modification (e.g., with nanoparticles) to enhance hydrophilicity and reduce fouling, making them a promising, sustainable technology for diverse water purification needs.
Keywords: Ceramic membrane, Membrane filtration, Porous ceramic filter, Advanced filtration technology, Materials & Structure:-, Alumina ceramic, Porosity, Pore size distribution, Sintering process, Microstructure analysis, Filtration Processes
