Investigation of formation of burning harmful emissions at methane

Authors

  • A. Askarova
  • S. Bolegenova
  • V. Maximov
  • A. Bekmuhamet
  • Sh Ospanova
  • M. Beketayeva

Keywords:

methane, turbulent, flux, numerical investigation, influence degree

Abstract

The present paper is devoted to the study of the influence of the speed of cocurrent oxidizer flow on the concentration of carbonic gas at methane burning in the flat channel. We working out of new ways of reduction of emissions of harmful substances by means of physical models is on the one hand connected with large expenses on physical experiments, on the other hand, such working out can give only suggestions for the solution of partial problems as it is impossible to carry out physical modeling of all processes proceeding in the combustion chamber and in flues in the installations reduced on scale. This is problem can be solved only on the basis of system analysis, mathematical and imitating modeling. It is a logical result as after burning is completed, carbon dioxide is not formed. With the removal of the entrance channel of CO2 concentration on the walls (y / H = 1) of the channel increases, as they are impenetrable.

References

1 Marsal et al. 2009.
2 Zhang L., Cho H.S., Li F., Metzger R.M.,
and Doyle W.D.. Cellular Growth of Highly
Ordered Porous Anodic Films on Aluminium.
Journal of Materials Science Letters, 17(4):291-
294, 1998.
3 Yoo B.Y., Hendricks R.K., Ozkan M., and
Myung N.V. Three-Dimensional Alumina
Nanotemplate. Electrochimica Acta, 51(17):3543-
3550, 2006.
4 Eaton P., West P. Atomic_Force_Microscopy.
Published in the United States by Oxford
University Press Inc., New York, 2010,
p. 248.

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How to Cite

Askarova, A., Bolegenova, S., Maximov, V., Bekmuhamet, A., Ospanova, S., & Beketayeva, M. (2012). Investigation of formation of burning harmful emissions at methane. International Journal of Mathematics and Physics, 3(2), 181–184. Retrieved from https://ijmph.kaznu.kz/index.php/kaznu/article/view/61

Issue

Vol. 3 No. 2 (2012): International Journal of Mathematics and Physics

Section

Thermophysics

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