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Petroleum Science and Technology Volume 34, 2016 - Issue 7
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Original Articles

Deasphalting of crude oils using supercritical fluids

Ayhan DemirbasFaculty of Engineering, Department of Industrial Engineering, King Abdulaziz University, Jeddah, Saudi ArabiaCorrespondence[email protected]
Pages 665-670 | Published online: 25 May 2016

References

  • Behrens, E. J. (2013). Investigation of loss of surfactants during enhanced oil recovery applications –adsorption of surfactants onto clay materials. MSc Thesis, Trondheim, Norway: Department of Chemical Engineering, Norwegian University of Science and Technology.
  • Branco, V. A. M., Mansoori, G. A., De Almeida, X., Park, S. J., and Manafi, H. (2001). Asphaltene flocculation and collapse from petroleum fluids. J. Pet. Sci. Eng. 32:217–230.
  • Cárdenas Concha, V. O. (2010). Experimental and mathematical modeling study of the separation of asphaltens and lube oil from the residuum of petroleum for supercritical desasphalting. PhD Thesis, Campinas, Brazil: Separation Processes Development Laboratory (LDPS) and Optimization, Project and Advanced Control Laboratory (LOPCA), School of Chemical Engineering, University of Campinas (in Portuguese).
  • Cheng, J., Xiang, L., and Li, Z. (2014). Road asphalt prepared by high softening point de-oiled asphalt from residuum solvent deasphalting. Pet. Sci. Technol. 32:2575–2583.
  • Cole, R. J., and Jessen, F. W. (1960). Paraffin deposition. Oil Gas J. 58:87–99.
  • Collins, S. H., and Melrose, J.G. (1983). Adsorption of asphaltenes and water on reservoir rock minerals. SPE 11800, SPE Oilfield and Geothermal Chemistry International Symposium, Denver, Colorado.
  • Demirbas, A. (1991). Fatty and resin acids recovered from spruce wood by supercritical acetone extraction. Holzforschung 45:337–339.
  • Demirbas, A. (2000). Recovery of asphaltenes from tar sands by supercritical fluid extraction, Pet. Sci. Technol. 18:771–781.
  • Demirbas, A. (2002). Asphaltene yields from five types of fuels via different methods. Energy Convers. Manage. 43:1091–1097.
  • Demirbas, A. (2004). Conversion of agricultural residues to fuel products via supercritical fluid extraction. Energy Sources 26:1095–1103.
  • Demirbas, A. (2005). Hydrogen production from biomass via supercritical water extraction. Energy Sources 27:1409–1417.
  • Demirbas, A. (2009). Diesel-like fuel from tallow by pyrolysis and supercritical water liquefaction. Energy Sources Part A 31:824–830.
  • Demirbas, A. (2011). Methylation of wood fatty and resin acids for production of biodiesel. Fuel 90:2273–2279.
  • Demirbas, A. (2015). Deposition and flocculation of asphaltenes from crude oils. Pet. Sci. Technol. 34:6–11.
  • Dey, S., and Bhattacharya, P. (2016). Performance analysis of bio-gas plant for cooking applications and cost analysis. Energy Educ. Sci. Technol. B 8:1–12.
  • Dikie, J. P., and Yen, T. F. (1967). Macrostructures of the asphaltic fractions by various instrumental methods. Anal. Chem. 39:1847–1852.
  • Ely, J. F. and Baker, L. K. (1983). A review of supercritical fluid extraction. US NBS Report TN-I070, December.
  • Filho, R. M., and Maciel, M. R. W. (2015). An experimental study of a pilot plant deasphalting process in CO2 supercritical. Pet. Sci. Technol. 33:481–486.
  • Garcia-Hernandez, F. (1989). Estudio sobre el control de la depositacion organica en pozos del area Cretacica Chiapas-Tabasco [Study on control wells organic depositional area in Chiapas-Tabasco Cretacica]. Ing. Pet. 15:61–66.
  • Hirschberg, A., de Jong, L. N. J., Schipper, B. A., and Meijer, J. G. (1984). Influence of temperature and pressure on asphaltene flocculation. Soc. Pet. Eng. J. 24:283–293.
  • Hunt, E. B. Jr. (1962). Laboratory study of paraffin deposition. J. Pet. Technol. 225:1259–1267.
  • Kim, M. S., Yang, K. S., and Hwang, J. S. (1997). Supercrıtıcal propane separatıon of deasphalted oil and carbon-precursor pıtch from heavy petroleum resıduum. Pet. Sci. Technol. 15:921–942.
  • Kishita, A., Takahashi, S., Yamasaki, Y., Jin, F., Moriya, T., and Enomoto, H. (2006). Desulfurization of bitumen by hydrothermal upgrading process in supercritical water with alkali. J. Japan Pet. Inst. 49:177–185.
  • Kootts, J. A., and Speight, J. G. (1975). Relation of petroleum resins to asphaltenes. Fuel 54:179–184.
  • Leontaritis, K. J., and Mansoori, G. A. (1988). Asphaltene deposition: a survey of field experiences and reservoir approached. J. Pet. Sci. Eng. 1:229–239.
  • Lhioreau, C., Briant, J., and Tindy, R. (1967). Influence de la pression sur la flocculation des asphaltenes. Rev. Inst. Fr. Pet. 22:797–808.
  • Lichaa, P. M. (1977). Asphaltene deposition problem in Venezuela crudes - usage of asphaltenes in emulsion stability. Can. Pet. Tech. J. Oil Sands June:609–624.
  • Lodi, L., Cárdenas Concha, V. O., Souza, R. A., Medina, L. C., Filho, R. M., and Maciel, M. R. W. (2014). An Experimental study of a pilot plant deasphalting process in subcritical and supercritical conditions. Pet. Sci. Technol. 32:2659–2665.
  • Lodi, L., Cárdenas Concha, V. O., Medina, L. C., Filho, R. M., and Maciel, M. R. W. (2015a) An experimental study of a pilot plant deasphalting process in CO2 supercritical. Pet Sci. Technol. 33:481–486.
  • Lodi, L., Cárdenas Concha, V. O., Medina, L. C., Filho, R. M., and Maciel, M. R. W. (2015b). Experimental study of a pilot plant deasphalting process in ethanol sub and supercritical phase. Pet Sci. Technol. 33:550–555.
  • Mansoori, G. A. (1997). Modeling of asphaltene and other heavy organic depositions. J. Pet Sci. Eng. 17:101–111.
  • Mansoori, G. A., and Jiang, T. S. (1985). Asphaltene deposition and its role in EOR gas flooding processes. 3rd European Mtg. Improved Oil Recovery, Rome, Italy, April.
  • Molina, D., Parra, M., and Murgich, J. (2011). MRL and PLS correlations between the 1H NMR spectra of vacuum residues and the deasphalting conditions with the DMO yields. Pet Sci. Technol. 29:640–648.
  • Mousavi-Dehghani, S. A., Riazi, M. R., Vafaie-Sefti, M., and Mansooiri, G. A. (2004). An analysis of methods for determanition on onsets of asphaltene phase separations. J. Pet Sci. Eng. 42:105–156.
  • Nellensteyn, F. J. (1924). The constitution of asphalt. J. Inst. Pet Technol. 10:311–325.
  • Nemli, S. (2015). Reserves and classification of heavy oils. Energy Educ. Sci. Tech-C 7:197–200.
  • Park, J. H., Joung, Y. O., and Do Park, S. (2007). Sulfur removal from coal with supercritical fluid treatment. Korean J. Chem. Eng. 24:314–318.
  • Park, J. H., and Son, S. H. (2011). Extraction of bitumen with sub- and supercritical water. Korean J. Chem. Eng. 28:455–460.
  • Paul, P. F. M., and Wise, W. S. (1971). The principle of Gas Extraction. Mills and Boon, London.
  • Pfeiffer, J. P. (1950). The properties of asphaltic bitumen. Amsterdam, the Netherlands: Elsevier.
  • Saka, A. H., and Demirbas, A. (2015) The petroleum exploration and production: An overview. Energy Educ. Sci. Technol. C 7:171–180.
  • Shock, D. A., Sadbury, J. D., and Crockett, J. S. (1955). Studies of the mechanism of paraffin deposition and its control. J. Pet. Technol. 7:23–30.
  • Speight, J. G. (1981). Solvent effects in the molecular weights of petroleum asphaltenes. Am. Chem. Soc., Div. Pet. Chem., Prepr. 26:825–832.
  • Speight, J. G. (1999). The Desulfurization of Heavy Oils and Residua (2nd ed.). New York, NY: Marcel Dekker.
  • Speight, J. G. (2001). Handbook of petroleum analysis. New York, NY: Wiley.
  • Speight, J. G. (2007). The Chemistry and Technology of Petroleum (4th ed.). Boca Raton, FL: CRC Press/Taylor & Francis.
  • Spiecker, P. M., Gawrys, K. L., Trail, C. B., and Kilpatrick, P. K. (2003). Effects of petroleum resins on asphaltene aggregation and water-in-oil emulsion formation. Col. Surf. Physicochem. Eng. Aspects 220;9–27.
  • Speight, J. G., and Ozum, B. (2002). Petroleum refining processes. New York, NY: Marcel Dekker.
  • Suzuki, T., Ito, Y., Takegami, Y., and Watanabe, Y. (1982). Chemical structure of tar-sand bitumens by 13C and 1H NMR spectroscopy method. Fuel 61:402–410.
  • Timko, M. T., Ghoniem, A. F., and Green, W. H. (2015). Upgrading and desulfurization of heavy oils by supercritical water. J. Supercrit. Fluids 96:114–123.
  • Wiehe, I. A. (1996). Two-dimensional solubility parameter mapping of heavy oils. Fuel Sci. Technol. Int.14:289–312.
  • Yen, T. F. (1974). Structure of petroleum asphaltene and it significance. Energy Sources 1:447–463.

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