Open Access
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 70, Numéro 6, November–December 2015
Page(s) 1075 - 1086
Publié en ligne 19 novembre 2014
  • ASTM D6560–00, (2000) Standard Test Method for Determination of Asphaltenes (Heptane Insolubles) in Crude Petroleum and Petroleum Products, London, UK. [Google Scholar]
  • Akbarzadeh K., Hammami A., Kharrat A., Zhang A. (2007) Asphaltenes—Problematic but Rich in Potential, Oilfield Review 19, 2, 22–43. [Google Scholar]
  • Andersen S.I. (1994) Effect of Precipitation Temperature on the Composition of n-Heptane Asphaltenes, Petroleum Science and Technology 12, 1, 51–74. [CrossRef] [Google Scholar]
  • Chung T.H. (1992) Thermodynamic Modeling for Organic Solid Precipitation, SPE Annual Technical Conference and Exhibition, 4-7 Oct, Washington, DC. [Google Scholar]
  • Creek J.L. (2005) Freedom of Action in the State of Asphaltenes: Escape from Conventional Wisdom, Energy & Fuels 19, 4, 1212–1224. [CrossRef] [Google Scholar]
  • de Boer R.B., Leerlooyer K., Eigner M.R.P., van Bergen A.R.D. (1995) Screening of Crude Oils for Asphalt Precipitation: Theory Practice, and the Selection of Inhibitors, SPE Production & Facilities 10, 1, 55–61. [Google Scholar]
  • Edmonds B., Moorwood R.A.S., Szczepanski R., Zhang X., Heyward M., Hurle R. (1999a) A New Method to Give Quantitative Prediction of Asphaltene Deposition from Petroleum Fluids, Third International Symposium on Colloid Chemistry in Oil Production. Asphaltene & Wax Deposition, ISCOP’99, Huatelco, Mexico, 14-17 Nov. [Google Scholar]
  • Edmonds B., Moorwood R.A.S., Szczepanski R., Zhang X. (1999b) Latest Developments in Integrated Prediction Modelling Hydrates, Waxes and Asphaltenes, Presented at IBC Forum Controlling Hydrates, Waxes and Asphaltenes, Aberdeen, UK, 28-29 Oct. [Google Scholar]
  • Escobedo J., Mansoori G.A. (1997) Viscometric Principles of Onsets of Colloidal Asphaltene Flocculation in Paraffinic Oils and Asphaltene Micellization in Aromatics, SPE Production & Facilities 12, 2, 116–122. [CrossRef] [Google Scholar]
  • Gonzalez D.L., Ting P.D., Hirasaki G.J., Chapman W.G. (2005) Prediction of Asphaltene Instability under Gas Injection with the PC-SAFT Equation of State, Energy & Fuels 19, 4, 1230–1234. [CrossRef] [Google Scholar]
  • Gonzalez D.L., Vargas F.M., Hirasaki G.J., Chapman W.G. (2007) Modeling Study of CO2-Induced Asphaltene Precipitation, Energy & Fuels 22, 2, 757–762. [CrossRef] [Google Scholar]
  • Gonzalez D.L., Garcia M.E., Diaz O. (2012) Unusual Asphaltene Phase Behavior of Fluids From Lake Maracaibo, Venezuela, SPE Latin America and Caribbean Petroleum Engineering Conference, Mexico City, Mexico, 16-18 April. [Google Scholar]
  • Hassanvand M., Shahsavani B., Anooshe A. (2012) Study of Temperature Effect on Asphaltene Precipitation by Visual and Quantitative Methods, Journal of Petroleum Technology and Alternative Fuels 3, 2, 8–18. [Google Scholar]
  • Hirschberg A., de Jong L.N.J., Schipper B.A., Meijer J.G. (1984) Influence of Temperature and Pressure on Asphaltene Flocculation, SPE Journal 24, 3, 283–293. [Google Scholar]
  • Jamaluddin A.K.M., Creek J., Kabir C.S., McFadden J.D., Cruz D., Joseph M.T., Joshi N., Ross B. (2001) A Comparison of Various Laboratory Techniques to Measure Thermodynamic Asphaltene Instability, SPE Asia Pacific Improved Oil Recovery Conference, Kuala Lumpur, Malaysia, 6-9 Oct. [Google Scholar]
  • Jamaluddin A.K.M., Jushi N., Iwere F., Gurpinar O. (2002) An Investigation of Asphaltene Instability Under Nitrogen Injection, SPE International Petroleum Conference and Exhibition, Villahermosa, Mexico, 10-12 Feb. [Google Scholar]
  • Kesler M.G., Lee B.I. (1976) Improve Prediction of Enthalpy of Fractions, Hydrocarbon Processing 53, 153–158. [Google Scholar]
  • Leontaritis K.J., Mansoori G.A. (1987) Asphaltene Flocculation During Oil Production and Processing: A Thermodynamic Collodial Model, SPE International Symposium on Oilfield Chemistry, San Antonio, Texas, 4-6 Feb. [Google Scholar]
  • Mansoori G.A., Vazquez D., Shariaty-Niassar M. (2007) Polydispersity of Heavy Organics in Crude Oils and Their Role in Oil Well Fouling, Journal of Petroleum Science and Engineering 58, 3-4, 375–390. [CrossRef] [Google Scholar]
  • Nakhli H., Alizedeh A., Moqadam M.S., Afshari S., Kharrat R., Ghazanfari M.H. (2011) Monitoring of Asphaltene Precipitation: Experimental and Modeling Study, Journal of Petroleum Science and Engineering 78, 2, 384–395. [CrossRef] [Google Scholar]
  • Nghiem L.X., Coombe D.A. (1997) Modeling Asphaltene Precipitation during Primary Depletion, SPE Journal 2, 2, 170–176. [Google Scholar]
  • Nghiem L.X., Hassam M.S., Nutakki R., George A.E.D. (1993) Efficient Modelling of Asphaltene Precipitation, SPE Annual Technical Conference and Exhibition, Houston, Texas, 3-6 Oct. [Google Scholar]
  • Novosad Z., Costain T.G. (1990) Experimental and Modeling Studies of Asphaltene Equilibria for a Reservoir Under CO2 Injection, SPE Annual Technical Conference and Exhibition, New Orleans, Louisiana, 23-26 Sept. [Google Scholar]
  • Pan H., Firoozabadi A. (1998) A Thermodynamic Micellization Model for Asphaltene Precipitation: Part I: Micellar Size and Growth, SPE Production & Facilities 13, 2, 118–127. [Google Scholar]
  • Panuganti S.R., Vargas F.M., Gonzalez D.L., Kurup A.S., Chapman W.G. (2012) PC-SAFT Characterization of Crude Oils and Modeling of Asphaltene Phase Behavior, Fuel 93, 1, 658–669. [CrossRef] [Google Scholar]
  • Pedrosa N., Szczepanski R., Zhang X. (2013) Integrated Equation of State Modelling for Flow Assurance, Fluid Phase Equilibria 359, 24–37. [Google Scholar]
  • Peneloux A., Rauzy E., Freze R. (1982) A Consistent Correction for Redlich-Kwong-Soave Volumes, Fluid Phase Equilibria 8, 1, 7–23. [CrossRef] [Google Scholar]
  • Riazi M.R., Al-Sahhaf T.A. (1996) Physical Properties of Heavy Petroleum Fractions and Crude Oils, Fluid Phase Equilibria 117, 1-2, 217–224. [Google Scholar]
  • Soave G. (1972) Equilibrium Constants from a Modified Redlich-Kwong Equation of State, Chemical Engineering Science 27, 6, 1197–1203. [Google Scholar]
  • Srivastava R.K., Huang S.S. (1997) Asphaltene Deposition during CO2 Flooding: A Laboratory Assessment, SPE Production Operations Symposium, Oklahoma City, Oklahoma, 9-11 March. [Google Scholar]
  • Stankiewicz A.B., Flannery M.D., Fuex N.A., Bronze G., Couch J.L., Dubey S.T., Iyer S.D., Ratulowski J., Westerich J.T. (2002) Prediction of Asphaltene Deposition Risk in E&P Operations, 3rd International Conference on Petroleum Phase Behavior and Fouling/AIChE Spring National Meeting, New Orleans, Louisiana, 10-14 March. [Google Scholar]
  • Takahashi S., Hayashi Y., Takahashi S., Yazawa N. (2003) Characteristics and Impact of Asphaltene Precipitation during CO2 Injection in Sandstone and Carbonate Cores: An Investigative Analysis Through Laboratory Tests and Compositional Simulation, SPE International Improved Oil Recovery Conference in Asia Pacific, Kuala Lumpur, Malaysia, 20-21 Oct. [Google Scholar]
  • Ting P.D. (2003) Thermodynamic Stability and Phase Behavior of Asphaltenes in Oil and of Other Highly Asymmetric Mixtures, PhD Thesis, Rice University. [Google Scholar]
  • Vafaie-Sefti M., Mousavi-Dehghani S.A., Mohammad-Zadeh M. (2003) A simple Model for Asphaltene Deposition in Petroleum Mixtures, Fluid Phase Equilibria 206, 1-2, 1–11. [Google Scholar]
  • Vazquez D., Mansoori G.A. (2000) Identification and Measurement of Petroleum Precipitates, Journal of Petroleum Science and Engineering 26, 1-4, 49–55. [Google Scholar]
  • Verdier S. (2006) Experimental Study and Modelling of Asphaltene Precipitation Caused by Gas Injection, PhD Thesis, Technical University of Denmark. [Google Scholar]
  • Verdier S., Carrier H., Andersen S.I., Daridon J.L. (2006) Study of Pressure and Temperature Effects on Asphaltene Stability in Presence of CO2, Energy & Fuels 20, 4, 1584–1590. [Google Scholar]
  • Victorov A.I., Firoozabadi A. (1996) Thermodynamic Micellizatin Model of Asphaltene Precipitation from Petroleum Fluids, AIChE Journal 42, 6, 1753–1764. [Google Scholar]
  • Wang J.X., Creek J.L., Buckley J.S. (2006) Screening for Potential Asphaltene Problems, SPE Annual Technical Conference and Exhibition, 24-27 Sept. [Google Scholar]
  • Whitson C.H. (1983) Characterizing Hydrocarbon Plus Fractions, Society of Petroleum Engineering Journal 23, 4, 683–694. [Google Scholar]
  • Wu J., Prausnitz J.M., Firoozabadi A. (2000) Molecular Thermodynamics of Asphaltene Precipitation in Reservoir Fluids, AIChE Journal 46, 1, 197–209. [Google Scholar]
  • Zhang X., Pedrosa N., Moorwood T. (2012) Modeling Asphaltene Phase Behavior: Comparison of Methods for Flow Assurance Studies, Energy & Fuels 26, 2611–2620. [CrossRef] [Google Scholar]
  • Zekri A.Y., Shedid S.A., Alkashef H. (2007) A New Technique for Treatment of Permeability Damage due to Asphaltene Deposition using Laser Technology, Journal of Petroleum Science and Engineering 59, 3-4, 300–308. [CrossRef] [Google Scholar]

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