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DOI:
https://doi.org/10.33936/rev_bas_de_la_ciencia.v1i1.93Resumo
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Referências
Al-Haj-Ibraim, H., Morsi, B. I. (1992). Desulphurization of petroleum coke: a review. Ind. Eng. Chem. Res. 31 (8) 1835-1840.
Aslanov, L.A., Anisimov, A.V. (2004). Selective removal of sulfur compounds from petroleum products using ionic liquids. Petroleum Chem. 44 (2) 65-69.
Babich, I.V., Moulijn, J.A. (2003). Science and technology of novel processes for deep desulphurization of oil refinery streams: a review. Fuel. 82, 607-631.
Birghila, S., Carazeanu Popovici, I. (2013). Evaluation of the Physical-Chemical Properties in Petroleum Coke. Advances in Petroleum Exploration and Development. 6 (2) 28-31.
Borah, D., Baruah, M. K., Haque, I. (2001). Oxidation of high sulphur coal. Part 1. Desulphurisation and evidence of the formation of oxidized organic sulphur species. Fuel.
80, 501-507.
Campos, G., Rivas, E., Sánchez, L., Cáceres, A., Bravo, B., Chávez, G., Ysambertt, F., Márquez. N., Acevedo, S. (2012). Estudio de recuperación de vanadio y níquel en un crudo pesado y en su fracción de asfaltenos y maltenos por ICP-OES. Ciencia. 20 (1) 52-59.
Elsamak, G.G., Öztaş, N.A., Yürüm, Y. (2003). Chemical desulfurization of Turkish Cayirhan lignite with HI using microwave and thermal energy. Fuel. 82, 531-537.
Fernández, A.J., Ternero M., Fernández, F., Gutiérrez A., Trigo, D. (2006). Chemical speciation of trace metals in fine airborne particles: advances in operational performance of a new sequential extraction scheme. International Journal of Environmental Analytical Chemistry. 86, 9-10, 641-651.
Hassan Al-Haj Ibrahim (2014). Characterization and Thermal Treatment of Syrian Petcoke Fines. Current Advances in Energy Research. 1 (2) 62-66.
Jin, X., Qian, W., Chuan, H., Songyun, D. (2013) Comparison of removal of sulfur from high- sulfur petroleum coke. Journal of Central South University Science and Technology. 3, 880-884.
Jin-Sheng, Z., Li-Hua, L., Xiu-Ping, L. (2006). Determination of vanadium in petroleum coke by microwave digestion-spectrophotometry. Fenxi Shiyanshi. 25 (1) 83-86.
Jochová, M., Punčochár, M., Horáček, J., Štamberg, K., Vopálka, D. (2004). Removal of heavy metals from water by lignite-based sorbents. Fuel. 83, 1197-1203.
Katz, R. (2001). Petrocoque (II) Efectos ambientales de la sustitución de carbón por petrocoque en la generación eléctrica y procesos industriales. Ambiente y Desarrollo XVII.
1, 22-29.
Kraüter, M. C., Pérez, M. M. (2003). Estudio preliminar del reciclaje de ácido en la desmetalización y desulfuración simultánea de coques de petróleo venezolanos vía microondas. Revista de la Facultad de Ingeniería de la UCV, 18 (1) 73-81.
Liu, G., Xu, X., Gao, L. (2004). Study on the deferrization and desalting for crude oils. Energ.& Fuel. 18, 918-923.
Meffe, S., Perkson, A., Trass, O. (1996). Coal beneficiation and organic sulfur removal. Fuel.75 (1) 25-30.
Mohebali, G., Ball, A.S. (2008). Biocatalytic desulfurization (BDS) of petrodiesel fuels, Review. Microbiology. 154, 2169-2183.
Muherjee, S., Borthakur, P. C. (2001). Chemical demineralization/ desulphurization of high sulfur coal using sodium hydroxide and acid solutions. Fuel. 80, 2037-2040.
PDVSA (2008) Investigación y Desarrollo para Alcanzar la Soberanía Tecnológica en Petróleo y Gas. 1er Congreso Internacional de Crudos Pesados, Maturín, Venezuela.
Pysh’yev, S. V., Gayvanovych, V. I., Pattek-Janczyk, A., Stanek, J. (2004). Oxidative desulfurization of sulphur-rich coal. Fuel. 83, 1117-1122.
Ramos Santos, A., Da Silva, R.J., Grillo Renó, M.L. (2015) Analysis of Petroleum Coke Consumption in Some Industrial Sectors. Journal of Petroleum Science Research. 4 (1) 1-
7.
Ratanakandilok, S., Ngamprasertsith, S., Prasassarakich, P. (2001). Coal desulfurization with methanol/water and methanol/KOH. Fuel. 80, 1937-1942.
Requena, A., Pérez, M.M., Delgado, L.A. (2008) Formación de la textura del coque de petróleo en coquizadores retardados. Revista de la Facultad de Ingeniería de la UCV, 23 (3) 103-112.
Salazar, S., Pérez, N., Urbina, R., Meza, A.. (2015) Evaluación de posibles mejoras en la calidad del coque retardado venezolano por medio del manejo de las condiciones de diseño y operación del tambor de coquización. Rev. LatinAm. Metal. Mater. 35 (2) 326-333.
Samit, M., Borthakur, P. C. (2003). Effects of alkali treatment on ash and sulphur removal from Assam coal. Fuel Process. Technol. 85, 93-101.
Santos, A. R., Silva, R. J. (2008). Análisis del Consumo de Coque de Petróleo en Algunos Sectores Industriales. Información Tecnológica. 19 (2) 93-102.
Shimizu, K., Iwami, Y., Suganuma, A., Saito, I. (1997). Behaviour of sulfur in high-sulfur coal in a superacidic medium without gaseous hydrogen. Fuel. 76 (10) 939-943.
Speight, J. G. (1999). The desulfurization of heavy oils and residua. Second Edition. New York, USA. Marcel Dekker, Inc. 1-36, 127-205.
Standard Test Method for Gross Calorific Value of Coal and Coke. ASTM, D5865-04. Standard Test Methods for Sulfur in the Analysis Sample of Coal and Coke Using High
Temperature Tube Furnace Combustion Methods. ASTM, D4239-04.
Uzun, D., Ozdogan, S. (2004). The behavior of sulphur forms of three lignites exposed to pyrolysis temperaturas between 350 and 950ºC. Fuel. 83, 1063-1070.
Wang, S., Xu, X., Yang, J., Gao, J. (2011). Effect of the carboxymethyl chitosan on removal of nickel and vanadium from crude oil in the presence of microwave irradiation. Fuel Processing Technology. 92, 486-492.
Zhagn, L., Sato, A., Ninomiya, Y., Sasaoka, E. (2003). In situ desulfurization during combustion of high-sulfur coals added with sulfur capture sorbents. Fuel. 82, 255-266.
Aslanov, L.A., Anisimov, A.V. (2004). Selective removal of sulfur compounds from petroleum products using ionic liquids. Petroleum Chem. 44 (2) 65-69.
Babich, I.V., Moulijn, J.A. (2003). Science and technology of novel processes for deep desulphurization of oil refinery streams: a review. Fuel. 82, 607-631.
Birghila, S., Carazeanu Popovici, I. (2013). Evaluation of the Physical-Chemical Properties in Petroleum Coke. Advances in Petroleum Exploration and Development. 6 (2) 28-31.
Borah, D., Baruah, M. K., Haque, I. (2001). Oxidation of high sulphur coal. Part 1. Desulphurisation and evidence of the formation of oxidized organic sulphur species. Fuel.
80, 501-507.
Campos, G., Rivas, E., Sánchez, L., Cáceres, A., Bravo, B., Chávez, G., Ysambertt, F., Márquez. N., Acevedo, S. (2012). Estudio de recuperación de vanadio y níquel en un crudo pesado y en su fracción de asfaltenos y maltenos por ICP-OES. Ciencia. 20 (1) 52-59.
Elsamak, G.G., Öztaş, N.A., Yürüm, Y. (2003). Chemical desulfurization of Turkish Cayirhan lignite with HI using microwave and thermal energy. Fuel. 82, 531-537.
Fernández, A.J., Ternero M., Fernández, F., Gutiérrez A., Trigo, D. (2006). Chemical speciation of trace metals in fine airborne particles: advances in operational performance of a new sequential extraction scheme. International Journal of Environmental Analytical Chemistry. 86, 9-10, 641-651.
Hassan Al-Haj Ibrahim (2014). Characterization and Thermal Treatment of Syrian Petcoke Fines. Current Advances in Energy Research. 1 (2) 62-66.
Jin, X., Qian, W., Chuan, H., Songyun, D. (2013) Comparison of removal of sulfur from high- sulfur petroleum coke. Journal of Central South University Science and Technology. 3, 880-884.
Jin-Sheng, Z., Li-Hua, L., Xiu-Ping, L. (2006). Determination of vanadium in petroleum coke by microwave digestion-spectrophotometry. Fenxi Shiyanshi. 25 (1) 83-86.
Jochová, M., Punčochár, M., Horáček, J., Štamberg, K., Vopálka, D. (2004). Removal of heavy metals from water by lignite-based sorbents. Fuel. 83, 1197-1203.
Katz, R. (2001). Petrocoque (II) Efectos ambientales de la sustitución de carbón por petrocoque en la generación eléctrica y procesos industriales. Ambiente y Desarrollo XVII.
1, 22-29.
Kraüter, M. C., Pérez, M. M. (2003). Estudio preliminar del reciclaje de ácido en la desmetalización y desulfuración simultánea de coques de petróleo venezolanos vía microondas. Revista de la Facultad de Ingeniería de la UCV, 18 (1) 73-81.
Liu, G., Xu, X., Gao, L. (2004). Study on the deferrization and desalting for crude oils. Energ.& Fuel. 18, 918-923.
Meffe, S., Perkson, A., Trass, O. (1996). Coal beneficiation and organic sulfur removal. Fuel.75 (1) 25-30.
Mohebali, G., Ball, A.S. (2008). Biocatalytic desulfurization (BDS) of petrodiesel fuels, Review. Microbiology. 154, 2169-2183.
Muherjee, S., Borthakur, P. C. (2001). Chemical demineralization/ desulphurization of high sulfur coal using sodium hydroxide and acid solutions. Fuel. 80, 2037-2040.
PDVSA (2008) Investigación y Desarrollo para Alcanzar la Soberanía Tecnológica en Petróleo y Gas. 1er Congreso Internacional de Crudos Pesados, Maturín, Venezuela.
Pysh’yev, S. V., Gayvanovych, V. I., Pattek-Janczyk, A., Stanek, J. (2004). Oxidative desulfurization of sulphur-rich coal. Fuel. 83, 1117-1122.
Ramos Santos, A., Da Silva, R.J., Grillo Renó, M.L. (2015) Analysis of Petroleum Coke Consumption in Some Industrial Sectors. Journal of Petroleum Science Research. 4 (1) 1-
7.
Ratanakandilok, S., Ngamprasertsith, S., Prasassarakich, P. (2001). Coal desulfurization with methanol/water and methanol/KOH. Fuel. 80, 1937-1942.
Requena, A., Pérez, M.M., Delgado, L.A. (2008) Formación de la textura del coque de petróleo en coquizadores retardados. Revista de la Facultad de Ingeniería de la UCV, 23 (3) 103-112.
Salazar, S., Pérez, N., Urbina, R., Meza, A.. (2015) Evaluación de posibles mejoras en la calidad del coque retardado venezolano por medio del manejo de las condiciones de diseño y operación del tambor de coquización. Rev. LatinAm. Metal. Mater. 35 (2) 326-333.
Samit, M., Borthakur, P. C. (2003). Effects of alkali treatment on ash and sulphur removal from Assam coal. Fuel Process. Technol. 85, 93-101.
Santos, A. R., Silva, R. J. (2008). Análisis del Consumo de Coque de Petróleo en Algunos Sectores Industriales. Información Tecnológica. 19 (2) 93-102.
Shimizu, K., Iwami, Y., Suganuma, A., Saito, I. (1997). Behaviour of sulfur in high-sulfur coal in a superacidic medium without gaseous hydrogen. Fuel. 76 (10) 939-943.
Speight, J. G. (1999). The desulfurization of heavy oils and residua. Second Edition. New York, USA. Marcel Dekker, Inc. 1-36, 127-205.
Standard Test Method for Gross Calorific Value of Coal and Coke. ASTM, D5865-04. Standard Test Methods for Sulfur in the Analysis Sample of Coal and Coke Using High
Temperature Tube Furnace Combustion Methods. ASTM, D4239-04.
Uzun, D., Ozdogan, S. (2004). The behavior of sulphur forms of three lignites exposed to pyrolysis temperaturas between 350 and 950ºC. Fuel. 83, 1063-1070.
Wang, S., Xu, X., Yang, J., Gao, J. (2011). Effect of the carboxymethyl chitosan on removal of nickel and vanadium from crude oil in the presence of microwave irradiation. Fuel Processing Technology. 92, 486-492.
Zhagn, L., Sato, A., Ninomiya, Y., Sasaoka, E. (2003). In situ desulfurization during combustion of high-sulfur coals added with sulfur capture sorbents. Fuel. 82, 255-266.
Publicado
2016-12-01
Edição
Seção
Ciencias Químicas
