화학공학소재연구정보센터
Journal of Industrial and Engineering Chemistry, Vol.19, No.4, 1310-1314, July, 2013
Correlations between interfacial tension and cumulative tertiary oil recovery in a triglyceride microemulsion flooding
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This paper presents measurements of interfacial tension (IFT) and tertiary oil recovery (TOR) of triglyceride microemulsion flooding over a wide range of aqueous phase compositions. Based on 160 experimental data sets, two empirical correlations were established. Both the power-law and logarithmic models were validated statistically. Power-law and logarithmic models are predicted to perform best at ultralow IFT range (<0.001 mN/m) and high IFT range (>2 mN/m), respectively. The valid models indicate that IFT is the sole parameter affecting the cumulative TOR in a triglyceride microemulsion flooding. This phenomenon, however, does not apply in hydrocarbon-based microemulsions.
  1. Paul BK, Moulik SP, Current Science., 80, 990 (2001)
  2. Putz A, Chevalier JP, Stock G, Philippot J, Journal of Petroleum Technology., 33, 710 (1981)
  3. Purwono S, Murachman B, Development of Non Petroleum Base Chemicals for Improving Oil Recovery in Indonesia, SPE 68768, the SPE Asia Pacific Oil and Gas Conference and Exhibition, Jakarta, Indonesia (2001)
  4. Bouabboune M, Hammouch N, Benhadid S, Comparison between Microemulsion and Surfactant Solution Flooding Efficiency for Enhanced Oil Recovery in TinFouye Oil Field, Paper 2006-058, the Petroleum Society’s 7th Canadian International Petroleum Conference and 57th Annual Technical Meeting, Calgary, Alberta, Canada (2006)
  5. Santanna VC, Curbelo FDS, Castro Dantas TN, Dantas Neto AA, Albuquerque HS, Garnica AIC, Journal of Petroleum Science and Engineering., 66, 117 (2009)
  6. Lee S, Chien MCH, SPE 12643, SPE/DOE Symposium on Enhanced Oil Recovery, Tulsa, OK (1984)
  7. Jeirani Z, Jan BM. Ali BS, Noor IM, See CH, Saphanuchart W, Industrial Crops and Products., 43, 6 (2013)
  8. Sottmann T, Strey R, J. Chem. Phys., 106(20), 8606 (1997)
  9. Wagner OR, Leach RO, SPE Journal., 6, 335 (1966)
  10. Kahlweit M, Busse G, Faulhaber B, Langmuir, 11(9), 3382 (1995)
  11. Sottmann T, Stubenrauch C, in: Stubenrauch C (Ed.), Phase Behaviour, Interfacial Tension and Microstructure of Microemulsions, Microemulsions: Background, New Concepts, Applications, Perspectives, John Wiley & Sons, Ltd., Chichester, UK (2009)
  12. Iglauer S, Wu Y, Shuler P, Tang Y, Goddard W, SPE 130404, SPE EUROPEC/EAGE Annual Conference and Exhibition, Barcelona, Spain (2010)
  13. Wang D, Liu C, Wu W, Wang G, SPE 127452, SPE EOR Conference at Oil & Gas West Asia, Muscat, Oman (2010)
  14. Kennedy HT, Guerrero ET, Journal of Petroleum Technology., 6, 41 (1954)
  15. Hill HJ, Reisberg J, Stegemeier GL, Journal of Petroleum Technology., 25, 186 (1973)
  16. Chiang MY, Chan KS, Shah DO, Journal of Canadian Petroleum Technology., 17, 61 (1978)
  17. Chiang M, Shah DO, SPE 8724, National Meeting of AICHE, Houston, Texas (1979)
  18. Badakhshan A, Bakes P, SPE 20295, University of Calgary, Calgary, Alberta, Canada (1990)
  19. Mulyadi H, Amin R, SPE 68733, SPE Asia Pacific Oil and Gas Conference and Exhibition, Jakarta, Indonesia (2001)
  20. Gupta SP, Trushenski SP, SPE Journal., 19, 116 (1979)
  21. Chatzis I, Morrow NR, SPE Journal., 24, 555 (1984)
  22. Johannesen EB, Graue A, SPE 108724, International Oil Conference and Exhibition in Mexico, Veracruz, Mexico (2007)
  23. Ding M, Kantzas A, J. Can. Pet. Technol., 46(2), 27 (2007)
  24. Kunieda H, Asaoka H, Shinoda K, Journal of Physical Chemistry., 92, 185 (1988)
  25. Joubran RF, Cornell DG, Parris N, Colloids and Surfaces A: Physicochemical and Engineering Aspects., 80, 153 (1993)
  26. Kahlweit M, Busse G, Faulhaber B, Eibl H, Langmuir, 11(11), 4185 (1995)
  27. Hecke EV, Catte´ M, Poprawski J, Aubry JM, Salager JL, Polymer International., 52, 559 (2003)
  28. Komesvarakul N, Sanders MD, Szekeres E, Acosta EJ, Faller JF, Mentlik T, Fisher LB, Nicoll G, Sabatini DA, Scamehorn JF, Journal of Cosmetic Science., 55, 309 (2006)
  29. Engelskirchen S, Elsner N, Sottmann T, Strey R, J. Colloid Interface Sci., 312(1), 114 (2007)
  30. Do LD, Withayyapayanon A, Harwell JH, Sabatini DA, Surfactant Detergents., 12, 91 (2009)
  31. Fanun M, J. Colloid Interface Sci., 343(2), 496 (2010)
  32. Phan TT, Attaphong C, Sabatini DA, Journal of the American Oil Chemists Society., 88, 1223 (2011)
  33. Jeirani Z, Jan BM, Ali BS, Noor IM, See CH, Saphanuchart W, Industrial Crops and Products., 43, 15 (2013)
  34. Jurado E, Bravo V, Luzo´ n G, Ferna´ndez-Serrano M, Garcı´a-Roma´ n M, Altmajer-Vaz D, Vicaria JM, Journal of Surfactants and Detergents., 10, 61 (2007)
  35. Green DW, Willhite GP, Enhanced Oil Recovery, 6th ed., Society of Petroleum Engineers, Texas, USA (1998)
  36. Jeirani Z, Jan BM, Ali BS, Noor IM, See CH, Saphanuchart W, Chemometrics and Intelligent Laboratory Systems., 112, 1 (2012)