LARHYSS JOURNAL 1112-3680 / 2521-9782

The degradation of simazine in the process of photolysis has been studied in aqueous solution. The study of the photolysis concerned three aspects namely the direct photolysis, photolysis catalyzed first using TiO₂ and the coupling TiO₂/H₂O₂ as catalysts. Photolysis experiments were carried out under different lamps ʎ = 253.7 nm and ʎ ≥ 285nm. Experiences catalyzed photolysis were performed ʎ ≥ 285 nm.

The study showed that the degradation of simazine by direct photolysis is possible both with monochromatic light (254 nm) with a polychromatic light (λ≥ 285 nm).

Photolysis is higher under monochromatic light (λ= 254 nm).The experiments also showed that simazine degrades by photolysis catalyzed. The addition of hydrogen peroxide (H₂O₂) greatly accelerated the degradation of simazine in the catalyzed compared photolysis.

In all these studies, it appears that the reaction rate of degradation in the presence of TiO₂ and couple (TiO₂/H₂O₂) is much higher than the direct photolysis of simazine.

ANBAR M., NETA, P., (1967). Int. J. Appl. Radiat. Isotop. (18).pp. 493-523

ANDREOZZI R., CAPRIO V., INSOLA A. and MAROTTA R., (1999). Advanced oxidation process (AOP) for water purification and recovery. Catal Today, 53, 51-59.

ANDREOZZI R.., CAPRIO V., INSOLA A. and MAROTTA R., (1999) Advanced Oxidation Process (AOP) for Water Purification and Recovery Catalysis Today, Vol. 53, pp. 51 – 59.

ARRETE N° 159/ Minigri., (2004). Interdiction de l’emploi en agriculture de substances actives entrant dans la fabrication des produits phytopharmaceutiques. 33p.

CHIRON S., FERNANDEZ-ALBA A., RODRIGUEZ A. and GARCIA-CALVO E., (2000). Pesticide chemical oxidation: State of the art. Wat Res, , 34, 366-377.

DEAN J.R., WADE G., BARNABAS I.J., (1996). Determination of triazine herbicides in environmental samples. J. Chromatogr. A 733, 295–335.

DIRECTIVE EEC 91/414. (Août 2010). An herbicide used to control annual grasses and broad-leaved weeds in a variety of crops. Circa N°1965

DORE T., LE BAIL M., et al. (2002). Pratiques agricoles et sécurité alimentaire des aliments en production végétale. Cahiers Agricultures 11: 177-185.

GALZE H., BELTRAN F., TUHKANEN T. and KANG J.W., (1992) Chemical models of advanced oxidation processes. Water Poll Res J Canada, 27, 23-42.

HERRMANN J.M., GUILLARD C., ARGUELLO M., AGUERA A., TEJEDOR A., PIEDRA L. and FERNANDEZ- ALBA A., (1999). Photocatalytic degradation of pesticide pirimiphos-methyl determination of the reaction pathway and identification of intermediate products by various analytical methods. Catal today, (54), 353-367

JAMET P., (1999). Les polluants agricoles de l’eau. Les produits phytosanitaires. L'eau (Tome II). Usages et polluants. Paris, France G.Grosclaude, INRA Ed.127-142 pp.

KINKENNON A.E., GREEN D.B. and HUTCHINSON B., (1995). The use of simulated or concentrated natural solar radiation for the TiO2-mediated photodecomposition of basagran, diquat and diuron. Chemosphere, 31, 3663-3671.

LEGRINI O., OLIVEROS E. and BRAUN A.M., (1993). Photochemical processes for water treatment. Chem. Rev. (93): pp. 671-698.

LES EDITIONS INSERM, (2013) Pesticides - Effets sur la santé,

LITTER M. I., (1999). Heterogeneous photocatalysis, transition metal ions in photocatalytic systems, Applied Catalysis B: Environmental, 23, 89-11

MATHEW R. S.U. KHAN J., (1996). Agric. Food Chem. (44), 3996-4000.

MACOUNOVA K. H., KRYSOVA J., LUDVIK J., JIRKOVSKY J., (2003). Photoc Photochem. Photobiol. A: Chem. (156) 273-282.

NEYENS E., BAEYENS J., WEEMAES M. and DE HEYDER B., (2003). Pilote-scale peroxidation (H2O2) of sewage sludge. J Hazard mater, (98), 91-106.

PELIZZETTI, E., CARLIN V., MINERO C., GRAETZEL M., (1991). Enhancement of the rate of photocatalytic degradation on TiO2 of 2-chlorophenol, 2, 7-dichlorodibenodioxin and atrazine by inorganic oxidizing species. New J. Chem. (15): pp. 351-59.

PELIZZETTI E., MINERO C., CARLIN V., VINCENTI M., PRAMAURO E., DOLCI M., (1992). Identification of photocatalytic degradation pathways of 2-Cl-s-triazine herbicides anddetection of their decomposition intermediates. Chemosphere 24(7): pp. 891–910.

PRAMURO E. and VICENTI M., (1993). Photocatalytic degradation of monuron in aqueous TiO2 dispersions. Environ Sci. Technol. (27), 1790-1795.

REAL B., (2001). Gestion et prévention de la contamination des eaux par les produits phytosanitaires : diagnostic CORPEN, des solutions adaptées aux différents types de pollution diffuse. Perspectives agricoles 268 : 24-27.

ROCHARD J. et al, (1999). Gestion des effluents de pulvérisation, comment préserver l’environnement. Phytoma N° 514

ROCHARD J. et al, (1999). Rinçage des pulvérisateurs, la propreté suisse, La vigne N°44.

RODRIGUEZ M., TIMOKHIN V., MICHEL F., CONTRERAS S., GIMENEZ J. and ESPLUGAS S., (2002). The influence of different irradiation sources on the treatment of nitrobenzene. Catal Today.

SIMON J. C., DAUBY B. et NONET S., (2008). Evaluation de l’efficacité de l’oxydation avancée par photocatalyse hétérogène UV/TiO2 sur un effluent industriel contaminé par des composés organiques non biodégradables (colorants). Revue Scientifique des ISILF (22): 25p. [Visité le 09/08/09].

BNETD.C.I, (2009). Cadre National des priorités à moyen terme de la FAO en Côte d'Ivoire. 30p.

TORIMOTO T., ITO S., KUWABATA S. and YONEYAMA H., (1996). Effects of adsorbents used as supports for titanium dioxide loading on photocatalytic degradation of propyzamide. Environ Sci Technol, 30, 1275-1281.

TRAORE K. S., MAMADOU K., DEMBELE A., YAO K. V., BEKRO Y-A., MAZELLIER P., LEGUBE B. et HOUENOU P., (2007). Etude cinétique de la dégradation de l’Endosulfane en solution aqueuse par oxydation photocatalytique et par photolyse. Afrique Science 3 (3): pp. 362- 377.

WEEKS J. L., MATHESON M. S., (1956). The primary quantum yield of hydrogen peroxide decomposition. J. Amer. Chem. Soc. 78(1): pp.1273-1279.

ZAMY C. (2004). Contribution à l’étude de l’hydrolyse et de la photolyse de quelques pesticides organophosphorés et de type carbamate en milieu aqueux. Thèse de doctorat, Université de Poitiers, 156 pp.

ZAWLOTZKI G. E., (2004). Traitement des polluants organiques en milieux aqueux par procédé électrochimique d'oxydation avancée "Electro Fenton". Application à la minéralisation des colorants synthétiques. Thèse de Doctorat. Université de Marne-La-Vallée. Paris, France. 234 p.