Составители:
90
Söderbergh B. (2006). Canada’s Oil Sands Resources and Its
Future Impact on Global Oil Supply. Master of Science Thesis,
Uppsala University, Sweden. 105p.
Speight J.G. (1999). The chemical and physical structure of
petroleum: effects on recovery operations // Journal of
Petroleum Science and Engineering, 22:3–15.
Speight J.G. (2002). Petroleum Refining Processes. Marcel
Dekker, Inc., New York.
Stark J.L., Nguyen J., Kremer L.N. (2002). New method
prevents desalter upsets from blending incompatible crudes //
Oil&Gas Journal, 100(11), March 18.
Tanaka R., Hunt J.E., Winans R.E., Thiyagaran P., Sato S.,
Takanohashi T. (2003). Aggregates Structure Analysis of
Petroleum Asphaltenes with Small-Angle Neutron Scattering. //
Energy Fuels, 17(1):127-134.
Ting P.D., Hirasaki G.J., Chapman W.G. (2003). Modeling
of Asphaltene Phase Behavior with the SAFT Equation of State.
// Petroleum Science and Technology, 21(3-4):647–661.
US Patent 4762797. (1988). “METHOD FOR
DETERMINING THE FOULING TENDENCY OF
HYDROCARBONS”. Inventor: G. B. Dickakian.
US Patent 4853337. (1989). “BLENDING OF
HYDROCARBON LIQUIDS”. Inventor: G. B. Dickakian.
US Patent 5871634. (1999). «PROCESS FOR BLENDING
POTENTIALLY INCOMPATIBLE PETROLEUM OILS».
Inventors: I. A. Wiehe; R. J. Kennedy.
US Patent 5997723. (1999). «PROCESS FOR BLENDING
PETROLEUM OILS TO AVOID BEING NEARLY
INCOMPATIBLE». Inventors: I. A. Wiehe; R. J. Kennedy.
US Patent Application 2004/0121472. (2004).
“PREDICTIVE CRUDE OIL COMPATIBILITY MODEL”.
Inventors: S. Nemana, M.R. Kimbrell, E. Zaluzec.
US Patent 6839137 B2. (2005). “ASPHALTENE
AGGREGATION IN PETROLEUM OIL MIXTURE
DETERMINED BY SMALL ANGLE LIGHT SCATTERING”.
Inventors: T. G. Mason, J. C. Sung, Z. Cheng, E. B. Sirota, M.
Siskin.
