INVESTIGADORES
BAVA Yanina Belen
congresos y reuniones científicas
Título:
Effect of oxidation process of asphaltenes present in oil refining wastes followed by XANES spectroscopies
Autor/es:
BAVA YANINA BELÉN; GERONÉS MARIANA; PELUFFO M.; DI CLEMENT M. A. ; DEL PANNO T.; ANDRINI LEANDRO; GIOVANETTI LISANDRO; ERBEN MAURICIO F.
Lugar:
Campinas, San Pablo
Reunión:
Congreso; 28th Annual Users Meeting of the LNLS; 2018
Institución organizadora:
Laboratorio Nacional de Luz Sincrotrón
Resumen:
Asphaltenes are complex mixture of heteroatom rich aromatic hydrocarbons that are present in crude oils. Sulphur is the most abundant heteroatom in the oil, present in the heavier fractions as asphaltenes. Besides sulfur is a good marker of the alteration of oils because it is very sensitive to oxidation.[1] The XANES spectroscopy is an appropriated technique for the speciation of chemical species and provide qualitative and quantitative information about the sulphur content in asphaltenes. [2] A large fraction of oil refining wastes contains high molecular weight and heteroatom rich hydrocarbons. The general aim of this project is the remediation of oil bottom tank sludge combining chemical oxidation followed by biological treatment. The knowledge of the sulphur chemistry in asphaltenes extracted from oils bottom tank sludge before and after different oxidation treatments constitutes an important information for understanding such a complex system. Three samples of asphaltenes were extracted from different oils bottom tank sludge by precipitation with n- heptane. The asphaltenes were further treated with different oxidizing agents (persulfate, hydrogen peroxide and permanganate) followed by biological treatment with previously studied fungal species. The Sulphur speciation at different stays of the sample treatment were studied with XANES spectroscopy in the SXS beamline at LNLS. The spectra of asphaltenes can be describe in terms of the contribution of four principal sulfur structures: sulfide, thiophene, sulfoxide and sulfonate. After oxidation treatments an increase in the contribution of more oxidated Sulphur form was observed, attributed to sulfate or sulfonate group. The completed oxidation of Sulphur observed with persulfate and the evaluation of total petroleum hydrocarbons in the petrochemical sludge samples after biological treatments allow select the oxidation agents to optimize the remediation treatments.REFERENCES:[1] Mullins, O. C.; Sheu, E. Y.; Hammami, A.; Marshall, A. G. Asphaltenes, Heavy Oils, and Petroleomics; 2007.[2] Pomerantz, A. E.; Bake, K. D.; Craddock, P. R.; Kurzenhauser, K. W.; Kodalen, B. G.; Mitra-kirtley, S.; Bolin, T. B. Org. Geochem. 2014, 68, 5?12.