Three-dimensional model study of the working process in the combustion chamber for utilization of petroleum gas

Authors: O.A. Betinskaya, N.L. Bachev, R.V. Bulbovich (Perm National Research Polytechnic University, RF, Perm)

Key words: petroleum gas, three-dimensional numerical model, the workflow, the combustion chamber.

The authors show a need to develop a special multi-zone combustion chamber, intended for the disposal of petroleum gas and other man-made gases. For parameter optimization of steady-state combustion wet, heterogeneous in composition and tabulation petroleum gas developed three-dimensional numerical model which allows to predict the distribution of parameters in terms of combustion chamber at various circuits of the supply of air and fuel gas in the preliminary design phase. To verify the model, we performed a series of experimental studies of the working process in the combustion zone multi-zone camera. The maximum difference between the calculated and experimental data on the temperature amounted to 0,9 %, which indicates the functionality of the proposed model.
References
1. Lebedinskiy E.V., Kalmykov G.P., Mosolov S.V., Rabochie protsessy v zhidkostnom raketnom dvigatele i ikh modelirovanie (Working processes in liquid rocket engines and their modeling): edited by Koroteev A.S., Moscow:
Mashinostroenie Publ., 2008, 512 p.
2. Bachev N.L., Matyunin O.O., Kozlov A.A., Bacheva N.Yu., Numerical simulation of the working process of liquid rocket engines in the combustion
chamber with staged combustion at supercritical conditions (In Russ.), Vestnik Moskovskogo aviatsionnogo instituta, 2011, V. 18, no. 2, pp. 108-116.
3. Yurokina Yu.V., The method of large-scale turbulence on Smagorinsky
model (In Russ.), Matematicheskoe modelirovanie, 1999, V. 11, no. 4,
pp. 83-99.
4. Zueva O.A., Bachev N.L., Bul'bovich R.V., Kleshchevnikov A.M., Choice of geometrical and regime parameters of the combustion chamber for utilization of associated petroleum gas (In Russ.), Vestnik PNIPU. Aerokosmicheskaya tekhnika, 2013, no. 34, pp. 40-51.
5. Zueva O.A., Bachev N.L., Bul'bovich R.V., Kleshchevnikov A.M., The geometrical, regime and thermal parameters of high-resource combustion
chamber for APG utilization (In Russ.), Gazovaya promyshlennost' = Gas Industry of Russia, 2013, no. 11, pp. 94-97.
6. Zueva O.A., Bachev N.L., Bul'bovich R.V., Kleshchevnikov A.M., Development of a gas turbine plant for associated petroleum gas utilization gathering electrical and thermal energy at marginal fields (In Russ.), Neftyanoe khozyaystvo = Oil Industry, 2014, no. 1, pp. 98-101.
7. Pomerantsev V.V. et al., Osnovy prakticheskoy teorii goreniya (Fundamentals of practical combustion theory), Leningrad: Energoatomizdat Publ., 1986, 309 p.


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