Suresh Aluvihara

University of Peradeniya, Sri Lanka

Title: Developments of Earth Materials on behalf of Water Treatment Applications

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Biography

Mr. Suresh Aluvihara is a postgraduate research scholar at the Department of Chemical and Process Engineering, University of Peradeniya, Sri Lanka since the year 2018 under the disciplines of Environmental Engineering, Chemical and Water Engineering. He received his B.Sc. (Hon’s) degree in Mineral Science in the year 2017 from a recognized state government university in Sri Lanka. When considering his academic background, he is having a large number of research publications under the modes of abstracts, full papers and conference papers while incorporating with some reputed research symposiums, international research conferences and journals. In addition that he has taken a part of the roles of keynote speaker, invited speaker, featured speaker and organizing committee member of some world recognized conference and webinars. 

Abstract

Water pollution has been identified as an impact on the environmental equilibriums including the ecosystems. According to the nature of the pollutants, the treatment method is selected such as the chemical treatment, physical treatment or biological treatment.   The investigation and development of some cost effective earth materials for the water treatment applications is becoming a huge chapter in the modern research world. Clay is a dominant earth material that having multi-purpose characteristics as the solutions for most of science and technological issues and currently different clays are being experimented for different water treatment uses. In the existing research, there were expected to chemically characterize three selected clay types based upon the disclosing of their important behaviors. The clay samples were collected from three different regions in Sri Lanka and those clays were named as anthill clay, brick clay and roof tile clay based upon their uses. The clay samples were chemically characterized using X-ray fluorescence (XRF) spectrometer, Fourier transform infrared (FT-IR) spectrometer and X-ray diffraction (XRD) spectrometer. As the outcomes of the research, there were found the presence of at least 75% of Fe contents in each clay, at most 6% of Ti in each clay, at most 5.30% of Ba in each clay, at most 13% of K only in both anthill and roof tile clays and only 7.5% of Ca in brick clay with respect to the X-ray fluorescence (XRF) spectroscopic results, presence of kaolinite, muscovite and quartz as the minerals in each of clay according to the available bonds with respect to the Fourier transform infrared (FT-IR) spectroscopic results and also that mineralogy was confirmed through the X-ray diffraction (XRD) spectroscopic results. According to the recent researches there were found kaolinite and muscovite as the strong adsorbing agents for some other metals such as heavy metals and also there were investigated the K+ and Ca2+ are strong exchangeable ions. Therefore, it is possible to recommend these clays for the experimentations and applications for the waste water treatments based upon the tasks of the removal of heavy metals, removal of some pathogens and removal of some unnecessary dissolved cations.