Performance Evaluation of the SrZrxSn1-xO3 Photocatalytic System for Remazol Yellow Dye Degradation Employing Box-Behnken Design

Authors

DOI:

https://doi.org/10.33448/rsd-v10i2.12328

Keywords:

Experimental design; Perovskite; Photocatalysis.

Abstract

Contamination of effluents often occurs due to improper disposal of textile dyes or their by-products. These can often be carcinogenic and/or mutagenic to the biome. Given the above, the need for effective methods for treating effluents is clear. This treatment occurs by biological, physical, and/or chemical processes. Regarding chemical processes, heterogeneous photocatalysis stands out, mainly because it guarantees an effective degradation of contaminants. In this sense, mixed metal oxides, act as photocatalysts and constitute structures capable of producing a large family of solids with physical properties suitable for the degradation of many pollutants. Modified ABO3 perovskites, as in the case of the SrZrxSn1-xO3 semiconductor system, are effective in the degradation of textile dyes in effluents. The present work aimed to use the Box-Behnken model to evaluate the performance of the oxides resulting from the structural modifications of the perovskite SrZrxSn1-xO3 system, concerning the discoloration of the golden yellow dye remazol. The synthesized oxides were characterized by instrumental techniques and a Box-Behnken 34 project was developed. From this, the influence of some factors such as structural modification, oxide mass, exposure time, and the number of UVC lamps was evaluated. The discoloration of the dye was monitored from the attenuation of the absorbance at the wavelength 411 nm. According to the results obtained, the highest percentage of discoloration was obtained using the modified oxide SrZr0,25Sn0,75O3 for an approximate time of 6 hours in contact with 1 UVC lamp.

Author Biographies

Yohanna Ribeiro Klafke, State University of Paraíba

Graduate Program in Environmental Science and Technology

Mayara Macedo da Mata, State University of Paraíba

Chemistry Graduate Program

Ieda Maria Garcia dos Santos, Federal University of Paraiba

Chemistry Graduate Program

Mary Cristina Ferreira Alves, State University of Paraíba

Chemistry Graduate Program

Simone da Silva Simões, Universidade Estadual da Paraiba

Chemistry Graduate Program

References

Ajmal, A., Majeed, I., Malika, R.N., Iqbala, M Nadeemb, M. A., Hussaina, I,… Nadeema, M. A. (2016). Photocatalytic degradation of textile dyes on Cu2O-CuO/TiO2 anatase powders. Journal of Environmental Chemical Engineering, 4, 2138–2146.

Alves, M.C F., Souza, S.C., Lima, H, H. S., Nascimento, M. R. M., Silva, R.S., Espinosa, J.W.M., … Santos, M. G. (2009). Synthesis of CaSnO3-SrSnO3 thin films by Chemical Solution Deposition, J. Alloys Compd ,476, 507-512.

Barros Neto, B., Scarminio, I. S., Bruns, R. E. (2010). Como fazer experimentos. Campinas Bookman, 4.

Can, M.Y., Kaya, Y., Algur, O.F. (2006). Response surface optimization of the removal of nickel from aqueous solution by cone biomass of Pinus sylvestris, Bioresour. Technol. 97 1761–1765.

Catanho, M., Malpass, G. R. P., Motheo, A. J. (2006). Avaliação dos tratamentos eletroquímico e fotoeletroquímico na degradação de corantes têxteis, Quim. Nova, 29, 983-989.

Cavalcante, L.S., Simões, A.Z, Sczancoski, J.C., Longo, V.M., Erlo, R.,…Varela, J.A. (2007). SrZrO3 powders obtained by chemical method: Synthesis, characterization and optical absorption behavior, Solid State Sciences, 9, 1020-1027.

Cervantes, T .N. M., Zaia, D. A. M., Santana, H. (2009). Estudo da fotocatálise heterogênea sobre ti/tio2 na descoloração de corantes sintéticos, Química Nova, 32, 2423-2428.

Correa, C. A. R., Aquino S. F., Caldas P. C. P., Silva S. Q. (2009). Uso de extrato de levedura como fonte de carbono e de mediadores redox, para a degradação anaeróbia de corante azo, Engenharia Sanitária Ambiental, 14, 559 – 568.

Costa, F. A. P., Reis, E. M., Azevedo, J. C. R., NozakI, J. (2004). Bleaching and photodegradation of textile dyes by H2O2 and solar or ultraviolet radiation, Solar Energy, 77, 29 – 35.

Dotto, G.L., Vieira, M., L.G., Gonçalves, O. J., L., Pinto, A. A. (2011). Remoção dos corantes azul brilhante, amarelo crepúsculo e amarelo tartrazina de soluções aquosas utilizando carvão ativado, terra ativada, terra diatomácea, quitina e quitosana: estudos de equilíbrio e termodinâmica. Quim. Nova, 34, 1193-1199.

Fabbricino, M., Pontoni L. (2016). Use of non-treated shrimp-shells for textile dye removal from wastewater, Journal of Environmental Chemical Engineering, 4 Part A, 4100–4106.

Kunz, A., Peralta-Zamora P., Gomes de Moraes S., Durán N. (2002). Novas tendências no tratamento de efluentes têxteis, Quim. Nova, 25, 78-82.

M. P. Pechini, U.S. Patent 3.330.697 (1967).

Maeda, K., Eguchi, M., Oshima, T. (2014). Perovskite Oxide Nanosheets with Tunable Band-Edge Potentials and High Photocatalytic Hydrogen-Evolution Activity, Ang Chem Internat, 53, 13164–13168.

Mahmouda, M. S., Mostafab M. K., Mohamedc S. A., Sobhya N. A., Nasrd M. (2017). Bioremediation of red azo dye from aqueous solutions by Aspergillus niger strain isolated from textile wastewater, Journal of Environmental Chemical Engineering, 5, 547–554.

Malato, S., Blanco, J., Fernandez-alba, A.R., Aguera, A. (2002). Solar photocatalytic meneralization of commercial pesticides: acrinathrin, Chemosphere, 235.

Meinratha, G. (1998). Chemometric analysis: Uranium(VI) hydrolysis by UV-Vis spectroscopy, Journal of Alloys and Compounds, 275, 777–781.

Meinratha, G., L. S., Elbanowskid, M. (2004). Spectroscopy, chemometrics and metrology—three aspects of lanthanide chemistry, Journal of Alloys and Compounds, 380, 413–417.

Mountstevens, E.H., Attfield, J.P.E, Redfern, S.A.T. (2003). Cation-size control of structural phase transitions in tin perovskitas, J. Phys, 15, 8315-8326.

Nakamoto, K. (1986). Infrared and raman spectra of inorganic and coordination compounds. John Wiley e Filhos.

Peralta-Zamora, P., K., Moraes, A. S.G., Pelegrini, R., Moleiro, P.C., Reyes, J., Mansilla, H., Duràn, N. (1999). Degradation of reactive dyes I, A comparative study of ozonation, enzymatic and photochemical processes. Chemosphere, 38, 835-852.

Pereira, A. S., Shitsuka, D. M., Parreira, F. J., Shitsuka, R. Metodologia da Pesquisa Científica. (pg 28-29) 1. ed. – Santa Maria, RS : UFSM, NTE, 2018. e-book.

Ramo, L. B., Silva, A. G., Pereira, C. X., Torres, C. S., Silva Júnior, E. P., Martins, G. C., Torres, M. C. M., Alves M. C. F., Simões, S. S (2020). Microcystin‑LR removal in water using the system SrZrXSn1‑XO3:influence of B cation on the structural organization of perovskite. Chemical Papers. https://doi.org/10.1007/s11696-020-01423-8.

Sainia, J., Gargb V.K., Guptaa R.K., Katariac N. (2017). Removal of Orange G and Rhodamine B dyes from aqueous system using hydrothermally synthesized zinc oxide loaded activated carbon (ZnO-AC), Journal of Environmental Chemical Engineering, 5, 884–892.

Sales, H. B., Bouquet, V., Députier, S., Ollivier, S., Gouttefangeas, F., Guilloux-viry M., … Santos. I. M.. G. (2014). Sr1_xBaxSnO3 system applied in the photocatalytic discoloration of an azo-dye, Solid State Sciences, 28, 67-73.

Sauer, T. P., Casaril, L., Humeres, E., Moreira, R. F. P. M. (2005). “Mass transfer and photocatalytic degradation of leather dye using TiO2/UV,” Journal of Applied Electrochemical, 35. 821–829.

Soutsas, K., Karayannis, V., Poulios, I. A., Ntampegliotis, K., Spiliotis, X., Papapolymerou, G. (2010). Decolorization and degradation of reactive azo dyes via heterogeneous photocatalytic processes, Desalination, 250, 345–350.

Tarrida, M., Larguem, H., Madon, M. (2009). Structural investigations of (Ca,Sr)ZrO3 and Ca(Sn,Zr)O3 perovskite compounds, Phys Chem Miner, 36, 403–413.

Toniolo, J. F. S., Toniolo, R. N. S. H., Magalhães, C.A.C., Perez, M. S. (2012). Structural investigation of LaCoO3 and LaCoCuO3 perovskite-type oxides and the effect of Cu on coke deposition in the partial oxidation of methane, Applied Catalysis. B Environmental, 117-118, 156-166.

Udawatte, C.P., Kakihana, M., Yoshimura, M. (2000). Low temperature synthesis of pure SrSnO3 and the (Bax Sr1-x)SnO3 solid solution by the polymerized complex method, Solid State Ionics, 128: 217.

Vasques, A. R., Souza, M. A. G. U., L. Weissenberg, L., Souza, A. A. U. (2011). Adsorção dos corantes RO16, RR2 e RR141 utilizando lodo residual da indústria têxtil, Eng Sanit Ambient, 16, 245 – 252.

Wang, W M O., Tadé, M. O., Shao, Z. (2015). Research progress of perovskite materials in photocatalysis- and photovoltaics-related energy conversion and environmental treatment, Chem. Soc. Ver., 44, 5371-5408.

Weng, C-H., Tao, H. (2015). Highly efficient persulfate oxidation process activated with Fe0 aggregate for decolorization of reactive azo dye Remazol Golden Yellow. Arabian Journal of Chemistry.

Wood, D.L, Tauc, J. Weak (1972).Absorption Tails in Amorphous Semiconductors. Phys. Rev 5.

Yetilmezsoy, K., Demirel, S., Vanderbei, R. J. (2009). Response surface modeling of Pb (II) removal from aqueous solution by Pistacia vera L.: Box–Behnken experimental design, Journal of Hazardous Materials, 171, 551–562.

Yücela, E., Y., Yücelb, M. D. (2016). Process optimization for window material CdS thin films grown by a successive ionic layer adsorption and reaction method using response surface methodology, Journal of Alloys and Compounds, 664, 530–537.

Zhang, W.F..J., Tang, J. Ye. (2006). Photoluminescence and photocatalytic properties of SrSnO3 perovskite. Chem. Phys. Lett., 418, 174–178.

ZIlle, A. Gornacka, B., Rehorek, A., Cavaco-paulo, A. (2005). Degradation of Azo Dyes by Trametes villosa Laccase over Long Periods of Oxidative Conditions, Applied and Environmental Microbiology, 71, 6711-6718.

Downloads

Published

25/02/2021

How to Cite

KLAFKE, Y. R. .; MATA, M. M. da .; SANTOS, I. M. G. dos .; ALVES, M. C. F. .; SIMÕES, S. da S. . Performance Evaluation of the SrZrxSn1-xO3 Photocatalytic System for Remazol Yellow Dye Degradation Employing Box-Behnken Design. Research, Society and Development, [S. l.], v. 10, n. 2, p. e48610212328, 2021. DOI: 10.33448/rsd-v10i2.12328. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/12328. Acesso em: 27 dec. 2024.

Issue

Section

Exact and Earth Sciences