Welcome article on New Techniques in Filtration Technology - March 2017 issue Dear Patron, Greetings from Water Today! I am working on the March 2017 issue and would like to invite you to contribute technical articles, case studies, research papers on “ New Techniques in Filtration Technology” and facilitate a comprehensive perspective on the same. Please find below the theme note and do let us know if you could send us your article. Theme Note: New Techniques in Filtration Technology Through the years, we have seen water filtration technology evolve from the simple cloth sieving to today’s acoustics and nanotube technology. Filtration is the most effective type of water treatment and purification currently available. The process of filtration involves the flow of water through a granular bed, of sand or another suitable media, at a low speed. This type of slow filtration over a granular bed is generally known as slow sand filtration. It is the oldest method of filtration but still widely used in municipal water treatment plants today. More modern filtration systems use carbon as the main constituent material of the filter. This carbon is compressed into a solid block form, as opposed to the more loosely structured, granular, sand filters. Such filters often include other media substances, in addition to the compressed, solid carbon. This type of water filter is known as a multimedia filter. These filters clean water through both physical and chemical processes. Water is generally directed through several stages carbon and multimedia filters to ensure the removal of all unwanted materials. The first filtration stage will remove the most concentrated chemicals, like chlorine, while subsequent stages will remove smaller and more evasive chemicals, like pesticides. With these filter technologies, we have different options to choose from. Nevertheless the most obvious evolutionary trend in filtration technology today is the rise of nanotechnology that has created a need for removing particles of 100 nanometers or even smaller, and the filtration industry has responded with solutions capable of capture down to the ionic and atomic levels. Support for such small particle sizes does not come without its drawbacks though, as such membranes are extremely susceptible to damage and fouling from larger particles and debris. Thus, with all new and high-powered filtration technology coming to market to choose, a complete understanding of the filtration needs is required to ensure the proper specification of a solution for a given application. Our March issue will be focusing on identifying the filtration needs and analyzing its application environment. We would like to invite you to share your experiences in the form of articles, technical papers and case studies with our readers. Please inform us of your intent to contribute at the earliest to editor@watertoday.org">editor@watertoday.org, so that we can evaluate the articles for the publication. Topic New Techniques in Filtration Technology Length 2000-4000 words Inclusions Related graphs, tables and images (high-resolution) along with captions + short bio of the author/s (including author’s present designation, educational qualification/s and years of experience in the field) Article Deadline February 25, 2017 You can also send in details about new product launches and press releases for inclusion in the magazine to editor@watertoday.org">editor@watertoday.org.