Computer simulation of the influence of turbulence on the combustion process of liquid hydrocarbon fuels

  • A. Askarova Al Farabi Kazakh National University, Kazakstan, Almaty
  • S. Bolegenova Al Farabi Kazakh National University, Kazakstan, Almaty
  • S. Bolegenova Al Farabi Kazakh National University, Kazakstan, Almaty
  • V. Maximov Al Farabi Kazakh National University, Kazakstan, Almaty
  • Sh. Ospanova Al Farabi Kazakh National University, Kazakstan, Almaty
  • A. Nugymanova Al Farabi Kazakh National University, Kazakstan, Almaty
  • S. Utelov Al Farabi Kazakh National University, Kazakstan, Almaty

Abstract

Numerical research of burning of liquid fuels is a complex challenge of thermo physics as demands the accounting of a large number of the difficult interconnected processes and the phenomena. Therefore computing experiment becomes more and more important element of research of processes of burning and design of various devices using burning process. In work the mathematical model and the main equations describing process of burning of liquid fuels at high turbulence is stated. Research of processes of disintegration and dispersion depending on pressure and an initial lot of injection in the combustion chamber of liquid fuel is conducted: tetradecane. As a result of the made computer experiments dependences of the maximum temperature on pressure were received, distributions of carbon dioxide from a lot of injection, distribution of drops on radiuses and temperature fields at the optimum mode of burning.

References

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References
1. A. Askarova, S. Bolegenova, A. Bekmukhamet, Sh. Ospanova, Z. Gabitova, Journal of Engineering and Applied Sciences, 1(9), 24-28, (2014).
2. A.S. Askarova, E.I. Karpenko, V.E. Messerle, A.B. Ustimenko, 7th International Fall Seminar on Propellants, Explosives and Pyrotechnics. Xian, 2007, 7, 672-683, (2007).
3. A.S. Askarova, A.B. Ustimenko, S.A. Bolegenova, V.Yu. Maksimov, Thermophysics and aeromechanics, 21(6), 747-754, (2014).
4. S.A. Bolegenova, V.Y. Maximov, A. Bekmukhamet , M.T. Beketayeva, Z.K. Gabitova, et al., High temperature, 5(5), 751-757, (2015).
5. A.S. Askarova, V.E. Messerle, S.A. Bolegenova, V.Y. Maximov, Z.K. Gabitova, et al., High temperature, 53(3), 445-452, (2015).
6. V.Y. Maximov, S.A. Bolegenova, M.T. Beketayeva, P. Safarik, et al., Journal of thermal science. 24(3), 275-282, (2015).
7. E.I. Karpenko, V.E. Messerle, et al., Journal of High Energy Chemistry, 40(2), 111-118, (2006).
8. M. Richardson, A. Danford, P. Stewart, V. Pulignano, European Journal of Industrial Relations, 16(1), 21-37, (2006).
9. M. Sako, Human Resource Management Journal, 8(2), 5-13, (1998).
10. J. Olivier, G. Janssens-Maenhout, J. Peters, Trends in global CO2 emissions, (Netherlands: PBL Netherlands Environmental Assessment Agency, 2012, 40 p.)
11. Z.E. Dadach, Journal of Industrial Engineering and Management, 2(4), 1-9, (2013).
12. A.A. Amsden, P.J. O'Rourke, T.D. Butler, KIVA-II: A computer program for chemically reactive flows with sprays, (Los Alamos, 1989, 160 p.)
13. D.C. Amsden, A.A. Amsden, IEEE Transactions on Professional Communication Journal, 36(4), 190-195, (1993).
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15. S.Bolegenova, M. Beketayeva, Sh. Ospanova, V. Maximov, et al., Journal of Applied Fluid Mechanics, 9(2), 699-709, (2016).
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Published
2017-10-10
How to Cite
ASKAROVA, A. et al. Computer simulation of the influence of turbulence on the combustion process of liquid hydrocarbon fuels. Recent Contributions to Physics (Rec.Contr.Phys.), [S.l.], v. 61, n. 2, p. 58-65, oct. 2017. ISSN 2663-2276. Available at: <https://bph.kaznu.kz/index.php/zhuzhu/article/view/538>. Date accessed: 27 oct. 2020.
Section
Thermal Physics and Theoretical Thermal Engineering

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