Solar Photocatalysis of A Pesticide in A Tubular Reactor on Titaniferous Sand as A New Semi-Conductor - Advances in Chemical Engineering and Science

ACES > Vol.13 No.2, April 2023

Advances in Chemical Engineering and Science

Volume 13, Issue 2 (April 2023)

ISSN Print: 2160-0392 ISSN Online: 2160-0406

Google-based Impact Factor: 1.41 Citations h5-index & Ranking

Solar Photocatalysis of A Pesticide in A Tubular Reactor on Titaniferous Sand as A New Semi-Conductor ()

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DOI: 10.4236/aces.2023.132010 99 Downloads 457 Views

Author(s)

El Hadji Moussa Diop^1,2*, Kalidou Ba¹, Mamadou Faye¹, Alpha Ousmane Toure¹, Falilou Mbacké Sambe¹

Affiliation(s)

¹Water, Energy, Environment and Industrial Processes Laboratory (LE3PI), Higher Polytechnic/Cheikh Anta Diop University, Dakar, Senegal.
²School of Industrial and Biological Engineering, Dakar, Senegal.

ABSTRACT

This present study comes in addition to overcome the problems of separation of fine particles of TiO₂ in heterogeneous photocatalysis after treatment. It aims to show the potential for using titaniferous sand as a new semiconductor under solar irradiation. The photocatalytic efficiency of this titaniferous sand was tested on a pesticide (Azadirachtin). A tubular photocatalytic reactor with recirculation of the polluting solution was designed for the elimination of the pesticide in an aqueous solution. Before its use as a photocatalyst, the titaniferous sand has undergone a specific treatment that consists of calcination at 600℃ followed by extraction of the calcined natural organic materials, which can interfere with the measurement of analytical parameters such as COD. The titaniferous sand was also characterized by X-ray fluorescence spectroscopy (XRF). XRF analyses have shown that TiO₂ is predominant in the titaniferous sand with a percentage that has been estimated at 46.34%. The influence of various experimental parameters such as the flow rate of the polluting solution, the concentration of titaniferous sand, the presence of oxygen and the intensity of the overall rate of sunshine, was studied to optimize the photocatalytic degradation of the pesticide. The results showed that the highest removal rate (70%) was observed under the following conditions: a pH of 6, a titaniferous sand concentration of 150 g/L, a flow rate of 0.3 mL/min, and a sunshine rate of 354 W/m² and in the presence of atmospheric oxygen. Under these experimental conditions, the rate of photodegradation of the pesticide follows the pseudo first order kinetic model of Langmuir Hinshelwood with a coefficient of determination R² of 0.9869 and an apparent rate constant of 0.0029 min^-1. The results clearly demonstrated the potential of titaniferous sand as a photocatalyst sensitive to sunlight for the effective removal of pesticides in the aquatic environment.

KEYWORDS

Solar Energy, Heterogeneous Photocatalysis, Sand Titaniferous, Titanium Dioxide, Pesticide

Share and Cite:

Diop, E. , Ba, K. , Faye, M. , Toure, A. and Sambe, F. (2023) Solar Photocatalysis of A Pesticide in A Tubular Reactor on Titaniferous Sand as A New Semi-Conductor. Advances in Chemical Engineering and Science, 13, 119-131. doi: 10.4236/aces.2023.132010.

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