Effect of ultrasound on the viscosity-temperature properties of crude oils of various compositions

Roh, N.-S., Shin, D.-H., Kim, D.-C., and Kim, J.-D., Rheological behavior of coal-water mixtures. Effect of surfactants and temperature, Fuel, 1995, vol. 74, no. 9, p. 1313.

Wallace, D., Henry, D., Miadonye, L., and Puttagunta, V.R., Viscosity and solubility of bitumen and solvent, Fuel, 1996, vol. 74, no. 3, p. 465.

Young, F.R., Cavitation, London: Imperial College Press, 1999.

Leighton, T.G., The Acoustic Bubble, London: Academic, 1994.

Ye, G., Lu, X., Peng, F., Han, P., and Shen, X., Pretreatment of crude oil by ultrasonic-electric united desalting and dewatering, Chinese J. Chem. Eng., 2008, vol. 16, no. 4, p. 564.

Minchenya, V.T., Purets, M.Ya., Lipkin, N.A., and Solomakho, V.L., Ultrasound-induced decrease in the viscosity of frozen diesel fuel, Chem. Technol. Fuels Oils, 2003, vol. 39, no. 6, p. 334.

Hamidi, H., Mohammadian, E., Junin, R., Rafati, R., Manan, M., Azdarpour, A., and Junid, M., A technique for evaluating the oil/heavy-oil viscosity changes under ultrasound in a simulated porous medium, Ultrasonics, 2014, vol. 54, no. 2, p. 655.

Mousavi, S.M., Ramazani, A., Najafi, I., and Davachi, S., Effect of ultrasonic irradiation on rheological properties of asphaltenic crude oils, Pet. Sci., 2012, vol. 9, no. 1, p. 82.

Volkova, G.I., Prozorova, I.V., Anufriev, R.V., Yudina, N.V, Mullakaev, M.S., and Abramov, V.O., Ultrasonic treatment of oils for the improvement of viscosity-temperature characteristics, Neftepererab. Neftekhim., 2012, no. 2, p. 3.

Prachkin, V.G., Mullakaev, Ì.S., and Asylbaev, D.F., Improving the productivity of wells by means of acoustic impact on high-viscosity oil in the channels of the face zone of a well, Chem. Pet. Eng., 2015, vol. 50, nos. 9–10, p. 571.

Mullakaev, M.S., Abramov, V.O., Volkova, G.I., Prozorova, I.V., and Yudina, N.V., Study of the effect of ultrasonic irradiation and chemical reagents on the rheological properties of viscous oils, Oborud. i Tekhnol. dlya Neftegaz. Kompl., 2010, no. 5, p. 31.

Ershov, M.A., Mullakaev, M.S., and Baranov, D.A., Decreasing the viscosity of oil using ultrasonic treatment and chemical reagents, Oborud. i Tekhnol. dlya Neftegaz. Kompl., 2011, no. 4, p. 22.

Mullakaev, M.S., Abramov, V.O., Gradov, O.M., Novotortsev, V.M., and Eremenko, I.L., Study of the effect of ultrasonic treatment and chemical reagents on the rheological properties of oil in the Luzanovskoe oil field, Neftepererab. Neftekhim., 2011, no. 11, p. 23.

Mullakaev, M.S., Abramov, V.O., Asylbaev, D.F., and Prachkin, V.G., Study of the combined effect of ultrasound and chemical reagents on the rheological properties of oil in the Borovskoe oil field, Oborud. i Tekhnol. dlya Neftegaz. Kompl., 2013, no. 5, p. 34.

Mullakaev, M.S., Abramov, V.O., Saltykov, Yu.A., Anufriev, R.V., and Volkova, G.I., Effect of the conditions of ultrasonic treatment on the properties of paraffinic oil, Oborud. i Tekhnol. dlya Neftegaz. Kompl., 2012, no. 12, p. 18.

Mullakaev, M., Asylbaev, D., Prachkin, V., and Volkova, G., Influence of ultrasound and heat treatment on the rheological properties of Ust-Tegusskoe oil, Chem. Pet. Eng., 2014, vol. 47, nos. 9–10, p. 584.

Mullakaev, M.S., Prachkin, V.G., Asylbaev, D.F., and Volkova, G.I., Study of the effect of ultrasonic and thermal treatment on rheological properties of oil in the Ust’-Tegusskoe field, Khim. i Neftegaz. Mashinostr., 2013, no. 8, p. 11.

Mullakaev, M.S., Ershov, M.A., and Baranov, D.A., Development of a hydrodynamic cavitational module for decreasing the viscosity of oil, Oborud. i Tekhnol. dlya Neftegaz. Kompl., 2012, no. 1, p. 17.

Ershov, M.A., Baranov, D.A., Mullakaev, M.S., and Abramov, V.O., Reducing viscosity of paraffinic oils in ultrasonic field, Chem. Pet. Eng., 2011, vol. 47, nos. 7–8, p. 457.

Mullakaev, M.S., Abramov, V.O., Bayazitov, V.M, Baranov, D.A., Novotortsev, V.M., and Eremenko, I.L., Study of the effect of cavitation on the rheological properties of heavy oil, Oborud. i Tekhnol. dlya Neftegaz. Kompl., 2011, no. 5, p. 24.

Pfiffer, J.Ph. and Saal, R.N.J., Asphaltic bitumen as colloid system, J. Phys. Chem., 1940, vol. 44, p. 139.

Ten, F.Y., Erdman, J.G., and Pollack, S.S., Investigation of the structure of petroleum asphaltenes by X-ray diffraction, J. Anal. Chem, 1961, vol. 33, no. 11, p. 345.

Zhurkov, S.N., Kinetic concept of the strength of solids, Vestn. Akad. Nauk SSSR, 1968, no. 3, p. 46.

Zuev, V.V., Uspenskaya, M.V., and Olekhnovich, A.O., Fizika i khimiya polimerov. Uchebnoe posobie (Physics and Chemistry of Polymers), St. Petersburg: SPbGU ITMO, 2010.

Zommerfel’d, A., Termodinamika i statisticheskaya fizika (Thermodynamics and Statistical Physics), Moscow: Izd-vo inostr. lit., 1955.

Mullakaev, M.S., Ultrasonic intensification of oil production, oil refining, and purification of oil-contaminated water and soil, Doctoral (Eng.) Dissertation, Moscow: Moscow State Univ. of Environmental Engineering, 2011.