Functionalized Bentonite for Removal of Pb(Ii) and As(V) From Surface Water: Predicting Capability and Mechanism Using Artificial Neural Network

Functionalized Bentonite for Removal of Pb(Ii) and As(V) From Surface Water: Predicting Capability and Mechanism Using Artificial Neural Network Publisher

Lingamdinne LP¹ ; Amelirad O² ; Koduru JR¹ ; Karri RR³ ; Chang YY¹ ; Dehghani MH^{4, 5} ; Mubarak NM³

Show Affiliations

1. Department of Environmental Engineering, Kwangwoon University, Seoul, 01897, South Korea
2. Department of Mechanical Engineering, Sharif University of Technology, Tehran, Iran
3. Petroleum and Chemical Engineering, Faculty of Engineering, Universiti Teknologi Brunei, BE1410, Brunei Darussalam
4. Department of Environmental Health Engineering, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran
5. Institute for Environmental research, Center for Solid Waste Research, Tehran University of Medical Sciences, Tehran, Iran

Source: Journal of Water Process Engineering Published:2023

Abstract

An efficient material is required to develop effective removal systems with high flexibility and low cost for capturing toxic ions. In this study, a synthesized lanthanum oxide-modified bentonite (B-La) adsorbent was used for the adsorption of As(V) and Pb(II). The prepared material, B-La, shows a feather shape surface with a 25 nm average particle size and was also confirmed by SEM and TEM. Texture and chemical composition confirmed by XRD and FTIR. From the XPS investigation, the underlying mechanism for Pb(II) and As(V) removal was investigated, and the production of B-La-As(V) and B-La-Pb(II) inner-sphere complexation was shown to be the dominating pathway. As per the pH effect studies, it was observed that B-La efficiently adsorbed Pb(II) and As(V) over a pH range of 6.0. Pb(II) adsorption was not substantially impacted by ionic strength or coexisting ions; however, As(V) adsorption was influenced by phosphate and fluoride, showing that B-La has a strong affinity towards Pb(II) and As(V). A pseudo-second-order model could well fit Pb(II) and As(V) adsorption, and Langmuir equilibrium adsorption describes Pb(II) and As(V) adsorption. The adsorption capacity was 147.05 mg of Pb(II)/g and 156.26 mg of As(V)/g, reflected at the dosage of 0.2 g/L at 25 °C, pH 6.0. Using the response surface methodology, the optimum values for process parameters, such as initial concentration, temperature, pH, and time, for both Pb(II) and As(V) removal are identified. Desorption studies were also performed to confirm the presented B-La adsorbents' environmental suitability. The Pb(II) and As(V) were completely desorbed with 0.2 M HNO3 and 0.2 M NaOH; after washing with water, it is ready to reuse in the next cycle and can be reused in several cycles of Pb(II) and As(V) adsorption operations. The identified data-driven quadratic model strongly correlated with the experimental values. Machine-learning techniques like artificial neural networks (ANN) and adaptive neuro-fuzzy inference systems (ANFIS), based on results ANN predicted model shows high correlation R2 value for both metal ions. All the findings indicated that porous B-La was a promising material for Pb(II) and As(V) removal. © 2022 Elsevier Ltd

Style	Citing Format
MLA	Lingamdinne LP, et al.. "Functionalized Bentonite for Removal of Pb(Ii) and As(V) From Surface Water: Predicting Capability and Mechanism Using Artificial Neural Network." Journal of Water Process Engineering, vol. 51, no. , 2023, pp. -.
APA	Lingamdinne LP, Amelirad O, Koduru JR, Karri RR, Chang YY, Dehghani MH, Mubarak NM (2023). Functionalized Bentonite for Removal of Pb(Ii) and As(V) From Surface Water: Predicting Capability and Mechanism Using Artificial Neural Network. Journal of Water Process Engineering, 51(), -.
Chicago	Lingamdinne LP, Amelirad O, Koduru JR, Karri RR, Chang YY, Dehghani MH, Mubarak NM. "Functionalized Bentonite for Removal of Pb(Ii) and As(V) From Surface Water: Predicting Capability and Mechanism Using Artificial Neural Network." Journal of Water Process Engineering 51, no. (2023): -.
Harvard	Lingamdinne LP et al. (2023) 'Functionalized Bentonite for Removal of Pb(Ii) and As(V) From Surface Water: Predicting Capability and Mechanism Using Artificial Neural Network', Journal of Water Process Engineering, 51(), pp. -.
Vancouver	Lingamdinne LP, Amelirad O, Koduru JR, Karri RR, Chang YY, Dehghani MH, et al.. Functionalized Bentonite for Removal of Pb(Ii) and As(V) From Surface Water: Predicting Capability and Mechanism Using Artificial Neural Network. Journal of Water Process Engineering. 2023;51():-.
BibTex	@article{ author = {Lingamdinne LP and Amelirad O and Koduru JR and Karri RR and Chang YY and Dehghani MH and Mubarak NM}, title = {Functionalized Bentonite for Removal of Pb(Ii) and As(V) From Surface Water: Predicting Capability and Mechanism Using Artificial Neural Network}, journal = {Journal of Water Process Engineering}, volume = {51}, number = {}, pages = {-}, year = {2023} }
RIS	TY - JOUR AU - Lingamdinne LP AU - Amelirad O AU - Koduru JR AU - Karri RR AU - Chang YY AU - Dehghani MH AU - Mubarak NM TI - Functionalized Bentonite for Removal of Pb(Ii) and As(V) From Surface Water: Predicting Capability and Mechanism Using Artificial Neural Network JO - Journal of Water Process Engineering VL - 51 IS - SP - EP - PY - 2023 ER -

Science Communicator Platform

Authors

Authors Affiliations

Abstract