Please use this identifier to cite or link to this item: http://ir.lib.seu.ac.lk/handle/123456789/6752
Title: Thermal activated Casuarina equisetifolia wood bark for heavy metal adsorption
Authors: Athuraliya, A. S. S.
Arasaretnam, S.
Premkumar, S.
Keywords: Thermal activation
Adsorbate
Freundlich model
Adsorption capacity
Issue Date: 3-May-2023
Publisher: South Eastern University of Sri Lanka Oluvil, Sri Lanka
Citation: 11th International Symposium (IntSym 2023) Managing Contemporary Issues for Sustainable Future through Multidisciplinary Research Proceedings 03rd May 2023 South Eastern University of Sri Lanka p. 94-102.
Abstract: The thermal activation has been used with better results for increase the adsorption capacity of some materials and the thermally modified wood might be a better adsorbent than untreated wood. Wooden materials or wastes are cheap sorbent materials. The useful of application of wooden by-products or wastes for wastewater treatment are determined by their high removal selectivity, good adsorption capacity and possibility of regeneration. In order to, present studies suggest this hypothesis for several criteria. The powdered Casuarina equisetifolia wood bark heat treated at 2, 6 and 8 hours were obtained and the maximum adsorption was evaluated in pH 5 and pH 8 for the unheated and heated series respectively. In spite of that, all heat treated wood samples showed a significant higher adsorption capacity than compared to unheated wood for cadmium and chromium adsorptions. Although this reported that the Langmuir model gave a better fit than the Freundlich model, whereas adsorption capacity is optimum in Cr (III) ion in pH 5 and the maximum monolayer adsorption capacity reported for Cd (II) ion in pH 5. This can be a better benefit of heat treated wood in the end of its life.
URI: http://ir.lib.seu.ac.lk/handle/123456789/6752
ISBN: 978-955-627-013-6
Appears in Collections:11th International Symposium - 2023

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