Список литературы
1. Ratner, M. A., and Ratner, D.: Nanotechnology: A Gentle Introduction to the Next Big Idea, Prentice Hall, New Jersey, 2002.
2. Crane, C., Wilson, M., Kannangara, K., Smith, G., and Wilson, W.: Nanotechnology: Basic Science and Emerging Technologies, CRC Press, 2002.
3. Jackson, S. A.: Innovation and Human Capital: Energy Security and the Quiet Crisis. Am. Petrol. Inst., 2005.
4. Mokhatab, S., Fresky, M. A., and Islam, M.R.: “Applications of Nanotechnology in Oil and Gas E&P,” Journal of Petroleum Technology (JPT online), April 2006.
5. Zitha, P. L. J.: “Smart Fluids in the Oilfield,” Exploration & Production: The Oil & Gas Review – 2005, p.66-68
6. Chaudhury, M.K.: “Complex Fluids: Spread the Word about Nanofluids,” Nature 423(10), 131–132, 2003.
7. Wasan, D.T., and Nikolov, A.D.: “Spreading of Nanofluids on Solids,” Nature 423, 156–159, 2003.
8. Kostic, M. and Choi, S.U.S.: “Critical Issues and Application Potentials in Nanofluids Research,” Proceedings of MN2006 Multifunctional Nanocomposites 2006, Honolulu, Hawaii, 2006.
9. Drexler, K. E.: Engines of Creation: The Coming Era of Nanotechnology, Anchor Press/Doubleday, New York, 1986.
10. Bhat, S., and Singh, P.: “Use of Nanorobots in Oil Industry”, 2nd prize at Student Paper Presentation Contest, SPE Mumbai Section, Maharashtra Institute of Technology, 2006.
11. Sakhawat, S.: “Surfactants-Nanorobots in Enhanced Oil Recovery”, Proceedings of Regional Symposium on Chemical Engineering (RSCE 2004), Bangkok, Thailand, 2004.
12. Nanoscience and nanotechnologies: opportunities and uncertainties. The Royal Society & The Royal Academy of Engineering, UK, 2004.
13. Davis, H. T., Bodet, J. F., Scriven, L. E., and Miller, W. G.: Physics of Amphiphilic Layers, Springer-Verlag, New York, 1987.
14. Evdokimov, I. N., and Eliseev , N. Yu.: “Thermally Responsive Properties of Asphaltene Dispersions,” Energy & Fuels, 20(2), 682 -687, 2006.
15. Freed, D.: “Self-assembly of Asphaltenes: Enthalpy, entropy of depletion and dynamics at the Crossover,” Invited Paper at The 8th International Bologna Conference on Magnetic Resonance in Porous Media, 2006 - Bologna, Italy, 2006.
16. Gawrys, K. L., Verruto, V., and Kilpatrick, P. K.: “On the Self Assembly of Asphaltenes to Form Nanoscale Aggregates” Proceedings of 79th ACS Colloid and Surface Science Symposium, Potsdam, NY, 2005.
17. Mullins, O. C.: “Relations Between the Molecular and Nanocolloidal Structure of Asphaltenes,” Proceedings of 79th ACS Colloid and Surface Science Symposium, Potsdam, NY, 2005
18. Nellensteyn, F.J.: ”The Colloidal Structure of Bitumens,” In: Dunstan, A.E.,(Ed.), The Science of Petroleum, Vol. 4, Oxford Univ. Press, London, 1938. p.2760-2763.
19. Pfeiffer, J. P., and Saal, R. N. J.: “Asphaltic Bitumen as a Colloid System”, Journal of Physical Chemistry, 44, 139-149, 1940.
20. Sheu, EY and Mullins, OC (Eds.),: Asphaltenes Fundamentals and Applications, Plenum Press, New York. 1995.
21. Сюняев З.И., Сюняев Р.З., Сафиева Р.З. Нефтяные дисперсные системы. – М.: Химия, 1990.
22. Buenrostro-Gonzalez, E., Lira-Galeana, C., Gil-Villegas, A., and Wu, J.: “Asphaltene Precipitation in Crude Oils: Theory and Experiments,” AIChE Journal, 50(10), 2552-2570, 2004.
23. Mullins, O. C., and Sheu, E. Y., (Eds.,): Structures and Dynamics of Asphaltenes, Plenum Press, New York, 1998.
24. Merino-Garcia, D., and Andersen, S. I.: “Calorimetric Evidence about the Application of the Concept of CMC to Asphaltene Self-Association,” Journal of Dispersion Science and Technology, 26(2), 217-225, 2005.
25. Everett, D. H., and Koopal L. K.: IUPAC’s Manual on Definitions, Terminology and Symbols in Colloid and Surface Chemistry, Web Edition, 2001: http: // sunsite.wits.ac.za /iupac / reports / 2001 / colloid_2001 /manual_of_s_and_t /
26. Mittal, K. L., and B. Lindman, B., (Eds.): Surfactants in Solution, Plenum Press, New York, 1984.
27. Strey, R., Schomäcker, R., Roux, D., Nallet, F., and Olsson, U.: “Dilute lamellar and L3 phases in the binary water–C12E5 system,” Journal of the Chemical Society, Faraday Transactions, 86, 2253-2261, 1990.
28. Narayanan, T and Kumar, A.: “Reentrant phase transitions in multicomponent liquid mixtures,” Physics Reports, 249(3), 135-218, 1994.
29. Roberts, C. J., Panagiotopoulos, A. Z., and Debenedetti, P. G.: “Liquid-Liquid Immiscibility in Pure Fluids: Polyamorphism in Simulations of a Network-Forming Fluid,” Physical Review Letters, 77(21), 4386-4389, 1996.
30. Jackson, G.: “Theory of closed-loop liquid-liquid immiscibility in mixtures of molecules with directional attractive forces,” Molecular Physics, 72, 365-1385, 1991.
31. Evdokimov, I. N., Eliseev, N. Yu., and Eliseev, D. Yu.: “Rheological evidence of structural phase transitions in asphaltene-containing petroleum fluids,” Journal of Petroleum Science and Engineering, 30(3-4), 199-211, 2001.
32. Evdokimov, I. N., Eliseev, N. Yu., and Akhmetov, B. R.: “Assembly of asphaltene molecular aggregates as studied by near-UV/visible spectroscopy. II. Concentration dependencies of absorptivities,” Journal of Petroleum Science and Engineering, 37(3-4), 145-152, 2003.
33. Evdokimov, I. N., Eliseev, N. Yu., and Akhmetov, B.R.” “Initial stages of asphaltene aggregation in dilute crude oil solutions: studies of viscosity and NMR relaxation,” Fuel, 82(7), 817-823, 2003.
34. Evdokimov I.N., Eliseev N.Yu., and Akhmetov B.R.:”Asphaltene dispersions in dilute oil solutions,” Fuel, 85(10-11), 1465-1472, 2006.
35. Maham, Y., Chodakowski, M. G., Zhang, X., and Shaw, J. M.: “Asphaltene phase behavior: prediction at a crossroads,” Fluid Phase Equilibria, 227, 177-182, 2005.
36. Masson, J. - F., Collins, P., and Polomark, G.: “Steric Hardening and the Ordering of Asphaltenes in Bitumen,” Energy and Fuels, 19(1), 120-122, 2005.
37. Zhang, Y., Takanohashi, T., Sato, S., Saito, I., and Tanaka, R.: “Observation of Glass Transition in Asphaltenes,” Energy and Fuels, 18, 283-284, 2004.
38. Roux, J. - N., Broseta, D., and Deme, B.: “SANS Study of Asphaltene Aggregation: Concentration and Solvent Quality Effects,” Langmuir, 17(16), 5085-5092, 2001.
39. Arteaga-Larios, F., Cosultchi, A., and Perez, E.: “Dispersant Adsorption during Asphaltene Aggregation Studied by Fluorescence Resonance Energy Transfer (FRET),” Energy and Fuels, 19(2), 477-484, 2005.
40. Priyanto, S., Mansoori, G.A., and Suwono, A.: “Measurement of property relationships of nano-structure micelles and coacervates of asphaltene in a pure solvent,” Chemical Engineering Science, 56, 6933-6939, 2001.
41. Andreatta, G., Bostrom, N., and Mullins, O.C.: “High-Q Ultrasonic Determination of the Critical Nanoaggregate Concentration of Asphaltenes and the Critical Micelle Concentration of Standard Surfactants,” Langmuir, 21, 2728-2736, 2005.
42. Sheu, E. Y.: “Physics of Asphaltene Micelles and Microemulsions - Theory and Experiment,” Journal of Physics: Condensed Matter, 8(25A), A125-A141, 1996.
43. Badre S., Goncalves C. C., Norinaga, K., Gustavson, G., and Mullins, O. C.: “Molecular size and weight of asphaltene and asphaltene solubility fractions from coals, crude oils and bitumen,” Fuel, 85(1), 1–11, 2006.
44. Ramos, A. C. S, Haraguchi, L., Notrispe, F. R., Loh, W., and Mohamed, R. S.: “Interfacial and colloidal behavior of asphaltenes obtained from Brazilian crude oils,” Journal of Petroleum Science and Engineering, 32, 201-216, 2001.
45. Masson, J. - F., Collins, P., and Polomark, G.: “Steric Hardening and the Ordering of Asphaltenes in Bitumen,” Energy and Fuels, 19(1), 120-122, 2005.
46. Puig, C. C., Meijer, H. E. H., Michels, M. A. J., Segeren, L. H., and Vancso, G. J.: “Characterization of Glass Transition Temperature and Surface Energy of Bituminous Binders by Inverse Gas Chromatography,” Energy and Fuels, 18, 63-67, 2004.
47. Zhang, Y., Takanohashi, T., Sato, S., Saito, I., and Tanaka, R.: “Observation of Glass Transition in Asphaltenes,” Energy and Fuels, 18, 283-284, 2004.
48. Neves, G. B. M., dos Anjos de Sousa, M., Travalloni-Louvisse, A. M., Lucas, E. F., and Gonzalez, G.: “Characterization of Asphaltene Particles by Light Scattering and Electrophoresis,” Petroleum Science and Technology, 19(1-2), 35-43, 2001.
49. Wong, G.K., and Yen, T.F.: “An electron spin resonance probe method for the understanding of petroleum asphaltene macrostructure,” Journal of Petroleum Science and Engineering, 28, 55-64, 2000.
50. Andreatta, G., Goncalves, C. C., Buffin, G., Bostrom, N., Quintella, C. M., Arteaga-Larios, F., Perez, E., and Mullins, O. C.: “Nanoaggregates and Structure-Function Relations in Asphaltenes,” Energy and Fuels, 19(4), 1282-1289, 2005.
51. Yarranton, H. W.: “Asphaltene Self-Association,” Journal of Dispersion Science and Technology, 26, 5-8, 2005.
52. Sirota, E. B.: “Physical Structure of Asphaltenes,” Energy and Fuels, 19(4), 1290-1296, 2005.
53. Evdokimov, I. N.: “Bifurcated correlations of the properties of crude oils with their asphaltene content,” Fuel 84(1), 13-28, 2005.
54. “Asphaltene Deposition and Its Control”: http: // tigger.uic.edu / ~mansoori / Asphaltene.Deposition.and.Its.Control_html
55. Evdokimov, I. N., Eliseev, N. Yu., and Eliseev D. Yu.: “Thermophysical properties and phase-behaviour of asphaltene-containing petroleum fluids,” Fluid Phase Eqilibria, 212(1-2), 269-278, 2003.
56. Schramm, L. L., (Ed.): Emulsions—Fundamentals and Applications in the Petroleum Industry, American Chemical Society, Washington, DC, 1992.
57. Sjoblom, J., Aske, N., Auflem, I. H., Brandal, O., Havre, T. E., Saether, O., Westvik, A., Johnsen, E. E., and Kallevik, H.: “Our current understanding of water-in-crude oil emulsions. Recent characterisation techniques and high pressure performance,” Advances in Colloid and Interface Science, 100-102, 399-473, 2003.
58. Kumar, P., and Mittal, K. L., Eds.: Handbook of Microemulsion Science and Technology, Marcel Dekker, New York, 1999.
59. Evdokimov, I. N., Eliseev, N. Yu., and Iktisanov, V.A.: “Excess density in oilfield water - crude oil dispersions,” Journal of Colloid and Interface Science, 285(2), 795-803, 2005