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Enhancing selenium removal using pre-treated natural clay: experimental investigation and predictive modelingopen access

Authors
Ramesh, GudeRuj, BiswajitBishayee, BhaskarChatterjee, Rishya PravaKumar, RameshKhan, Moonis AliJeon, Byong-HunNayak, JayatoChakrabortty, Sankha
Issue Date
Nov-2024
Publisher
IOP Publishing
Keywords
Clay material; optimization; natural available waste material; pre-treatment; selenium adsorption
Citation
Environmental Research Communications, v.6, no.11, pp 1 - 20
Pages
20
Indexed
SCIE
SCOPUS
Journal Title
Environmental Research Communications
Volume
6
Number
11
Start Page
1
End Page
20
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/202073
DOI
10.1088/2515-7620/ad8a23
ISSN
2515-7620
2515-7620
Abstract
A heat treatment methodology was adopted as a pretreatment strategy, altering the porous structure of the clay to minimize leaching for selenium adsorption in an aqueous system. Rigorous experiments were carried out in batch mode to determine optimal parameters across various variables, including contact time, adsorbent dosages, selenium concentrations, pH, temperature, and stirring speed during selenium removal using natural clay. Investigating several kinetic and isotherm models revealed the best fitting for the pseudo-second-order and the Langmuir isotherm. Endothermic and spontaneous characteristics of the adsorption process were shown during thermodynamic analysis. In this study, a predictive model for the efficiency of selenium separation was established using Response Surface Methodology (RSM). Additionally, an Artificial Neural Network (ANN), a data-driven model, was employed for comparative analysis. The predictive model exhibited a high degree of agreement with experimental data, demonstrated by a low relative error of <0.10, a high regression coefficient of >0.97), and a substantial Willmott-d index of >0.95. Moreover, the efficacy of pre-activated clay in selenium removal was assessed, revealing the superior performance of ANN models over RSM models in forecasting the efficiency of the adsorption process. This research significantly advances an effective and sustainable material for selenium removal, providing valuable insights into predictive modeling techniques applicable to similar contexts to boost scale-up confidence during industrial implementation in affected regions.
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