Photolytic Degradation of Herbicide Atrazine by Radiation Ultraviolet (UVC): An Application of  Green Chemistry

Valmir Felix de Lima; Francisco Sávio Gomes Pereira; Alexandre Ricardo Pereira Schuler; Maria de Los Angeles P. F. Palha; Antonio Demóstenes de Sobral; Iranildo José da Cruz Filho; Agrinaldo Jacinto do Nascimento Junior

doi:10.9734/CSJI/2016/29619

Photolytic Degradation of Herbicide Atrazine by Radiation Ultraviolet (UVC): An Application of Green Chemistry

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Published: 2016-11-15

DOI: 10.9734/CSJI/2016/29619

Page: 1-10

Issue: 2016 - Volume 17 [Issue 3]

Valmir Felix de Lima *

Department of Chemical Engineering, Federal University of Pernambuco – UFPE, Center of Technology and Geosciences, Recife, PE, Brazil

Francisco Sávio Gomes Pereira *

Federal Institute of Education, Science and Technology of Pernambuco – IFPE, Campi Recife and Ipojuca, PE, Brazil

Alexandre Ricardo Pereira Schuler

Department of Chemical Engineering, Federal University of Pernambuco – UFPE, Center of Technology and Geosciences, Recife, PE, Brazil

Maria de Los Angeles P. F. Palha

Department of Chemical Engineering, Federal University of Pernambuco – UFPE, Center of Technology and Geosciences, Recife, PE, Brazil

Antonio Demóstenes de Sobral

Department of Chemical Engineering, Federal University of Pernambuco – UFPE, Center of Technology and Geosciences, Recife, PE, Brazil

Iranildo José da Cruz Filho

Department of Chemical Engineering, Federal University of Pernambuco – UFPE, Center of Technology and Geosciences, Recife, PE, Brazil

Agrinaldo Jacinto do Nascimento Junior

Federal Institute of Education, Science and Technology of Paraná – IFPR, Campus Paranavaí, Paranavaí, PR, Brazil

*Author to whom correspondence should be addressed.

Abstract

Atrazine (ATZ) is an herbicide of the s-triazines classes used on crops as corn, cotton, soybean, and sugar cane. This work shows the ATZ degradation by ultraviolet radiation (UVC, 254 nm) in a bench-scale annular photoreactor. The initial concentration of the irradiated samples ranged from 2.0x10^-5 to 1.2x10^-4mol∙L^-1. Actinometry was used to determine the radiant energy incident on the photoreactor (1.36x10^-9einstein∙cm^-2∙s^-1) and the radiation source was a low-pressure mercury vapor discharge lamp with tubular glass (Phillips TUV 36 W). The conversion in 240s (27.5% - 48.7%) is related inversely with the concentration of the samples. Some results found: photochemistry reaction rate (0.9x10^-9 to 2.2x10^-9 mol∙cm^-3∙s^-1), volumetric rate of photon absorption (VRPA) (2.0x10^-8 to 8.0x10^-8einstein∙cm^-3∙s^-1), and global initial quantum yield (0.03 to 0.05 mol∙einstein^-1). For the reaction rate was proposed a phenomenological model and the process was modeled of form deterministically. The estimated values for the kinetic parameters , m, and n were, respectively: 0.03 mol∙einstein^-1, 0.02 and 0.5. The kinetic model fitted the data with accuracy of 91.8%. As conclusion of the work, the photolytic degradation with UVC is an efficient process, low cost and can be used to set up pilot plants, in various scales, to reduce or eliminate compounds of the atrazine class or similar emerging contaminants, in effluents.

Keywords: Atrazine, agricultural pesticides, emerging contaminants, environmental pollution, green chemistry, irradiation treatment

How to Cite

Felix de Lima, Valmir, Francisco Sávio Gomes Pereira, Alexandre Ricardo Pereira Schuler, Maria de Los Angeles P. F. Palha, Antonio Demóstenes de Sobral, Iranildo José da Cruz Filho, and Agrinaldo Jacinto do Nascimento Junior. 2016. “Photolytic Degradation of Herbicide Atrazine by Radiation Ultraviolet (UVC): An Application of Green Chemistry”. Chemical Science International Journal 17 (3):1-10. https://doi.org/10.9734/CSJI/2016/29619.

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