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Post-treatment of matured landfill leachate: Synthesis and evaluation of chitosan biomaterial based derivatives as adsorbents

Matured landfill leachate is complex in nature, hence, a single conventional treatment unit is insufficient to remove the contaminants of the leachate to achieve the discharge standards. Furthermore, high levels of organic matter, colour compounds, and iron-based materials form a dark black/brown co...

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Bibliographic Details
Published in:Environmental research 2023-02, Vol.218, p.115018-115018, Article 115018
Main Authors: Wijerathna, W.S.M.S.K., Lindamulla, L.M.L.K.B., Nanayakkara, K.G.N., Rathnayake, R.M.L.D., Jegatheesan, V., Jinadasa, K.B.S.N.
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Language:English
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Summary:Matured landfill leachate is complex in nature, hence, a single conventional treatment unit is insufficient to remove the contaminants of the leachate to achieve the discharge standards. Furthermore, high levels of organic matter, colour compounds, and iron-based materials form a dark black/brown colour in leachate which is not removed by the biological treatment units. Hence, an Anoxic-Oxic Membrane Bioreactor coupled with a tertiary adsorption unit composed of crosslinked-protonated chitosan was tested for effective removal of the colour of the permeate. Several operational parameters such a pH, contact time, and adsorbent dosage on the adsorptive removal of colour were quantified using sorption-desorption experiments. Furthermore, the biosorbent was characterized using FTIR, SEM, XRD, BET-specific surface area, and pHZPC. Response Surface analysis confirmed the optimization of operational parameters conducted through traditional batch experiments. Langmuir isotherm model fitted with equilibrium data (R2 = 0.979) indicating a monolayer homogeneous adsorption. Kinetic data followed the Pseudo-Second-Order model (R2 = 0.9861), showing that the adsorbent material has abundant active sites. The percentage removal values show that the colour removal increases with time of contact and dosage of adsorbent, but removal is mainly influenced by the solution pH levels. The experimental results manifested a colour removal efficiency of 96 ± 3.8% obtained at optimum conditions (pH = 2, adsorbent dosage = 20 g/L, contact time = 48 h) along with an adsorption capacity of 123.8 Pt–Co/g suggesting that the studied adsorbent can be used as an environmentally friendly biosorbent in a tertiary unit for colour removal in a treatment system which is used to treat matured landfill leachate. [Display omitted] •A chitosan based, low-cost biosorbent was developed and modified for colour removal.•Highest adsorption capacity of the crosslinked-protonated chitosan reached 123.8 Pt–Co/g at pH = 2.•Maximum colour removal (96 ± 3.8%) was observed at pH = 2 with 20 g/L dosage.•Response Surface Methodology was used to predict colour removal under different operational parameters.
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2022.115018