Application of Ultrasound Waves to Increase the Efficiency of Oxidative Desulfurization Process
Abstract
Key words: Ultrasonic waves; Desulfurization; Catalyst; Oxidant
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[1] Anabtawi, J.A., Ali, S.A., Bari Siddiqui, M.A, & Zaidi, S.M.J. (1996). Factors Influencing the Performance of Naphtha Hydro-Desulfurization Catalysts. Studies in Surface Science & Catalyst, 100, 225-234.
[2] Zongxuan, J., Hongying, L., Yongna, ZH., & Can, L. (2011). Oxidative Desulfurization of Fuel Oils. Chinese Journal of Catalysis, 32, 707-715.
[3] Monticello, D.J. (2000). Biodesulfurization and the Upgrading of Petroleum Distillates. Current Opinion in Biotechnology, 11(6), 540-546.
[4] Chu, X., Hu, Y., Li, J., Liang, Q., Liu, Y., Zhang, X., Peng, X., & Yue, W. (2008). Desulfurization of Diesel Fuel by Extraction with [BF4]−-Based Ionic Liquids. Chinese Journal of Chemical Engineering, 8(16), 881-884.
[5] Hernandez-Maldonado, A.J., & Yang, R.T. (2004). Desulfurization of Transportation Fuels by Adsorption. Catalysis Reviews, 46(2), 111–150.
[6] Sano, Y., Choi, K., Korai, Y., & Mochida, I. (2004). Selection and Further Activation of Activated Carbons for Removal of Nitrogen Species in Gas Oil as a Pretreatment for Its Deep Hydrodesulfurization. Energy Fuels, 18(2), 644–651.
[7] Sano, Y., Choi, K., Korai, Y., & Mochida, I. (2004). Adsorptive Removal of Sulfur and Nitrogen Species from a Straight Run Gas Oil over Activated Carbons for Its Deep Hydrodesulfurization. Applied Catalysis B: Environmental, 49, 219–225.
[8] Vasudevan, P.T., & Fierro, J.L.G. (1996). A Review of Deep Hydrodesulfurization Catalysis. Catalysis Reviews: Science & Engineering, 38, 161–188.
[9] Whitehurst, D.D., Isoda, T., & Mochida, I. (1998). Present State of the Art and Future Challenges in the Hydrodesulfurization of Polyaromatic Sulfur Compounds. Advances in Catalysis, 42, 345-471.
[10] Ma, X., Zhou, A., & Song, Ch. (2007). A Novel Method for Oxidative Desulfurization of Liquid Hydrocarbon Fuels Based on Catalytic Oxidation Using Molecular Oxygen Coupled with Selective Adsorption. Catalysis Today, 123, 276–284.
[11] Breysse, M., Diega-Mariadassou, G., Pessayre, S. Geantet, G., Vrinet, M., & Lemaire, M. (2003). Deep Desulfurization: Reactions, Catalysts and Technological Challenges. Catalysis Today, 84, 129–138.
[12] Babich, IV., & Moulijn, JA. (2003). Science and Technology of Novel Processes for Deep Desulfurization of Oil Refinery Streams: A Review. Fuel, 82, 607–631.
[13] Yu, G.X., Lu, S.X., Chen, H., & Zhu, Z.N. (2005). Oxidative Desulfurization of Diesel Fuels with Hydrogen Peroxide in the Presence of Activated Carbon and Formic Acid. Energy Fuels, 19, 447–452.
[14] Shiraishi, Y., & Hirai, T. (2004). Desulfurization of Vacuum Gas Oil Based on Chemical Oxidation Followed by Liquid−Liquid Extraction. Energy & Fuels, 18, 37-40.
[15] Zannikos, F., Lois, E., & Stournas, S. (1995). Desulfurization of Petroleum Fractions by Oxidation and Solvent Extraction. Fuel Processing Technology, 42, 35–45.
[16] Ramírez-Verduzco, L.F., Murrieta-Guevara, F., Garcia-Gutierrez, J. L., Martin-Castanon, R.S., Martinez-Guerrero, M. C., Montiel-Pacheco, M. C., & Manta-Diaz, R. (2004). Desulfurization of Middle Distillates by Oxidation and Extraction Process. Petroleum Science & Technology, 22, 129–139.
[17] Filippis, P.D., & Scarsella, M. (2003). Oxidative Desulfurization: Oxidation Reactivity of Sulfur Compounds in Different Organic Matrixes. Energy Fuels, 17, 1452–1455.
[18] Otsuki, S., Nonaka, T., Takashima, N., Qian, W., Ishihara, A., Imai, T., & Kabe, T. (2000). Oxidative Desulfurization of Light Gas Oil and Vacuum Gas Oil by Oxidation and Solvent Extraction. Energy Fuels, 14, 1232–1239.
[19] Te, M., Fairbridge, C., & Ring, Z. (2001). Oxidation Reactivities of Dibenzothiophenes in Polyoxometalate/H2O2 and Formic Acid/H2O2 Systems. Applied Catalysis A: General, 219, 267–280.
[20] Li, H., He, L., Lu, J., Zhu, W., Jiang, X., Wang, Y., & Yan, Y. (2009). Deep Oxidative Desulfurization of Fuels Catalyzed by Phosphotungstic Acid in Ionic Liquids at Room Temperature. Energy & Fuels, 23, 1354–1357.
[21] Kong, L.Y., Li, G., & Wang, X.S. (2004). Mild Oxidation of Thiophene over TS-1/H2O2. Catalysis Today, 93-95, 341–345.
[22] Shiraishi, Y. , Hirai, T., & Komasawa, I. (2002). TiO2-Mediated Photocatalytic Desulfurization Process for Light Oils Using an Organic Two-Phase System. Journal of Chemical Engineering of Japan, 35, 489-492.
[23] Torres-Garcia, E., Canizal, G., Velumani, S., Ramirez-Verduzco, L.F., Murrieta-Guevara, F., & Ascencio, J.A. (2004). Influence of Surface Phenomena in Oxidative Desulfurization with WOx/ZrO2 Catalysts. Applied Physics A, 79, 2037-2040.
[24] Shiraishi, Y., Naito, T., & Hirai, T. (2003). Vanadosilicate Molecular Sieve as a Catalyst for Oxidative Desulfurization of Light Oil. Industrial & Engineering Chemistry Research, 42, 6034-6039.[25] Dai, Y., Qi, Y., Zhao, D., & Zhang, H. (2008). An Oxidative Desulfurization Method Using Ultrasound/Fenton's Reagent for Obtaining Low and/or Ultra-Low Sulfur Diesel Fuel. Fuel Processing Technology, 89, 927–932.
[26] Dai, Y., Zhao, D., & Qi, Y. (2011). Sono-Desulfurization Oxidation Reactivities of FCC Diesel Fuel in Metal Ion/H2O2 Systems. UltrasonicsSonochemistry, 18, 264–268.
[27] Duarte, F.A., Mello, P.A., Bizzi, C.A., Nunes, M.A.G., Moreira, E.M., Alencar, M.S., Motta, H.N., Dressler, V.L., & Flores, É.M.M. (2011). Sulfur Removal from Hydrotreated Petroleum Fractions Using Ultrasound-Assisted Oxidative Desulfurization Process. Fuel, 90, 2158–2164.
[28] Chen, T., Shen, Y., Lee, W., Lin, Ch., & Wan, M-W. (2010). The Study of Ultrasound-Assisted Oxidative Desulfurization Process Applied to the Utilization of Pyrolysis Oil from Waste Tires. Journal of Cleaner Production, 18, 1850-1858.
[29] Wu, Zh., & Ondruschka, B. (2010). Ultrasound-Assisted Oxidative Desulfurization of Liquid Fuels and Its Industrial Application. Ultrasonics Sonochemistry, 17, 1027–1032.
[30] Kikuchi, T. & Uchida, T. (2011). Calorimetric Method for Measuring High Ultrasonic Power Using Water as a Heating Material.Journal of Physics: Conference Series, 279, 1-5. doi:10.1088/1742-6596/279/1/012012.
[31] Dai, Y., Zhao, D., & Qi, Y. (2011). Sono-Desulfurization Oxidation Reactivities of FCC Diesel Fuel in Metal Ion/H2O2 Systems. Ultrasonics Sonochemistry, 18, 264–268.
[32] Dai, Y.C., Qi, Y.T., Zhao, D.Z., & Zhang, H.C. (2008). An Oxidative Desulfurization Method Using Ultrasound/Fenton's Reagent for Obtaining Low and/or Ultra-Low Sulfur Diesel Fuel. Fuel Processing Technology, 89, 927–932.
DOI: http://dx.doi.org/10.3968/j.aped.1925543820110202.116
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