International Journal For Multidisciplinary Research

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Adsorptive Removal Of Cu(II) From Aqueous Solution By Using Newly Prepared Adsorbent from Agricultural Waste Material

Author(s) Shewate V.T, Hunge S.S
Country India
Abstract The main causes of different types of metal contamination in natural water are massive amounts of industrial waste. Many metals are indestructible and cannot be broken down. Cu(II) and several other toxic metals are significant. Various physiochemical approaches have been created for the elimination of metals from wastewater, as well as multiple ways have been implemented to recover and remove the metals from our environment. Adsorption is one of the option in these situations which is a very successful purification as well as separation method widely implemented in industry, particularly for treating water moreover wastewater. Raw form of graphite, which is utilized in lead pencils, is called activated carbon, often called as activated charcoal. Elimination of heavy metals along with dyes, among other contaminants, is a typical implementation of activated carbon. Adsorption rates of activated carbon from gas alongside liquid phases are high, as is its surface area moreover adsorptive capacity. From agricultural waste, activated charcoal has been created. The chitosan coating has altered the activated carbon's surface area. The results indicate that, in comparison to activated carbon, surface-modified activated carbon is the most effective in eliminating Cu(II). The investigation outcomes showed that, under ideal conditions, chitosan-coated activated carbon made from agricultural waste can remove up to 94% of copper. XRD (“X-ray diffraction”), thermogravimetric analysis, SEM (“scanning electron microscopy”), along with Fourier transform infrared (FTIR), had been employed for analyzing produced chitosan-coated activated carbon (CCACGM).
Keywords Heavy Metals, Activated Carbon, Chitosan, Agricultural Waste, Adsorption.
Field Engineering
Published In Volume 7, Issue 2, March-April 2025
Published On 2025-03-05
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E-ISSN 2582-2160
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