Protection Of Water Contaminated By Chemical And Microbial Contaminants For Agriculture: Application Of The Advanced Oxidation Process

H. Bouchaaba, R. Maachi, N. Nasrallah, B. Bellal, M. Trari, A. Amrane

Abstract


Abstract: This paper reports the synthesis, characterization and photocatalytic degradation of alizarin red S (ARS) on the novel new hetero-system ZnO-SnO2, The hetero-system, prepared by chemical route, was characterized by spectroscopy, energy dispersive spectroscopy (EDS) analysis, microscopy, diffuse reflectance and powder X-ray diffraction. Photo-degradation of ARSwas investigated on ZnO, SnO2 and ZnO– SnO2 hetero-system. The effect of catalysis dose, initial pH, initial concentration were investigated, the photocatalytic degradation was performed under sunlight irradiation, 84% of (20 mg/L) was degraded within 120 min for concentration. Batch kinetic experiments showed that the degradation follows a pseudo- first-order kinetic with a high correlation coefficient (0.994) according to the Langmuir- Hinshelwood model.


Full Text:

PDF

References


E. Brillas, C-A. Martínez-Huitle: Decontamination of

wastewaters containing synthetic organic dyes by electrochemical methods. Applied Catalysis B: Environmental, 604, 166–167 (2015).

C-A. Martínez-Huitle, E. Brillas: Decontamination of wastewaters containing synthetic organic dyes by electrochemical methods: A general review, Applied Catalysis B: Environmental, 106, 3–4 (2009).

M- A. Rauf, M- A. Meetani, S. Hisaindee: An overview on the photocatalytic degradation of azo dyes in the presence of TiO2 doped with selective transition metals, Desalination, 14, 1–3 (2011).

J- L. Domingo, M. Nadal: Carcinogenicity of consumption of red and processed meat: What about environmental contaminants, Environmental Research, 110, 145 (2016).

S- Kumar. Kansal, R. Lamba, S- K. Mehta, A. Umar: Photocatalytic degradation of Alizarin Red S using simply synthesized ZnO nanoparticles, Materials Letters, 386 106 ( 2013).

R. Satheesh, K. Vignesh, A. Suganthi, M. Rajaraja: Visible light responsive photocatalytic applications of transition metal (M = Cu, Ni and Co) doped α-Fe2O3 nanoparticles, J Environmental Chemical Engineering, 1957, 2(2014).

D-A.Vallero : Contaminant Hazards Environmental Contaminants, 435-497, Chapter 9 (2004).

B- W. David, M- S. Christie: Routes of Exposure to Nanoparticles: Hazard Tests Related to Portal Entries, Nanoengineering, Chapter1.2, 42-54 (2015).

A. Tsaboula, E- N. Papadakis, Z. Vryzas, A. Kotopoulou, K. Kintzikoglou, E. Papadopoulou-Mourkidou: Environmental and human risk hierarchy of pesticides: A prioritization method, based on monitoring, hazard assessment and environmental fate, Environment International, 78-93, 91( 2016).

J. Haider, M- S- J. Hashm: 8.02 - Health and Environmental Impacts in Metal Machining Processes, Reference Module in Materials Science and Materials Engineering, from Comprehensive Materials Processing, 7-33, 8, (2014).

H- F. Hemond, E- J. Fechner: Surface Waters Chemical Fate and Transport in the Environment (Third Edition), 75-218, Chapter 2(2015).

Liqun. Ye, Kejian. Deng, Xu. Feng, Lihong Tian, Tianyou. Peng, Ling. Zan, Increasing visible-light absorption for photocatalysis with black, Phys. Chem. 14 (2012) 82–85.

W.F. Jardim, S.G. Moraes, M.M.K. Takiyama, Photocatalytic degradation of aromatic chlorinated compounds using TiO2: toxicity of intermediates, Water Res. 31 (1997) 1728–1732.

K. Vinodgopal, I. Bedja, S. Hotchandani, P.V. Kamat, A photocatalytic approach for the reductive decolorization of textile azo dyes in colloidal semiconductor suspensions, Langmuir 10 (1994) 1767–1771.

H. Bouchaaba, B. Bellal, R. Maachi, M. Trari, N. Nasrallah, A. Mellah : Optimization of physico-chemical parameters for the photo-oxidation of neutral red on the spinel Co2SnO4, J of the Taiwan Institute of Chemical Engineers, 1–8, 000 (2015).

B. Sørensen: The Energy Conversion Processes, Renewable Energy (Fourth Edition), 337-531, Chapter 4(2011).

H. Mekatel, S. Amokrane, B. Bellal, M. Trari, D. Nibou: Photocatalytic reduction of Cr(VI) on nanosized Fe2O3 supported on natural Algerian clay: Characteristics, kinetic and thermodynamic study, Chemical Engineering Journal, 611–618, 200–202 (2012).Journal of Hazardous Materials 153 (2008) 1222-1234.

S. Giannakis, M. Voumard, D. Grandjean, A. Magnet, L- F- D. Alencastro, C. Pulgarin : Micropollutant degradation, bacterial inactivation and regrowth risk in wastewater effluents: Influence of the secondary (pre)treatment on the efficiency of Advanced Oxidation Processes, Water Research, 505-515, 102( 2016).

S. Cataldo, A. Iannì, V. Loddo, E. Mirenda, L. Palmisano, F. Parrino, D. Piazzese: Combination of advanced oxidation processes and active carbons adsorption for the treatment of simulated saline wastewater, Separation and Purification Technology, 101-111, 171( 2016).

M. Brienza, M- M. Ahmed, A. Escande, G. Plantard, L. Scrano, S. Chiron, S- A. Bufo, V. Goetz: Use of solar advanced oxidation processes for wastewater treatment: Follow-up on degradation products, acute toxicity, genotoxicity and estrogenicity, Chemosphere, 473-480, 148( 2016).

S- O. Ganiyu, E- D. Van Hullebusch, M. Cretin, G. Esposito, M- A. Oturan: Coupling of membranefiltrationand advanced oxidation processes for removal of pharmaceutical residues: A critical review Original Research Article Separation and Purification Technology, 891-914, 156 (2015).

J- R. Alvarez-Corena, J- A. Bergendahl, F- L. Hart: Advanced oxidation of five contaminants in water by UV/TiO2: Reaction kinetics and byproducts identification, J Environmental Management, 544-551, 181( 2016).

H. Sudrajat, S. Babel: A new, cost-effective solar photoactive system N-ZnO-polyester fabric for degradation of recalcitrant compound in a continuous flow reactor, Materials Research Bulletin, 369-378, 83(2016).


Refbacks

  • There are currently no refbacks.


Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License. Copyright UMMB © 2020 University M'hamed Bougara - Boumerdes. Independance AV., Boumerdes, 35000 Algeria, Tel/Fax: +213 24 91 14 98/ +213 2491-29-51