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Combustion Science and Technology Volume 182, 2010 - Issue 11-12: The 22nd International Colloquium on the Dynamics of Explosions and Reactive Systems
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Original Articles

The Dynamics of Combustion Products' Flow in a Ring Nozzle with a Half-Closed Cavity

Vladimir A. Levin Institute for Automatics and Control Processes, Vladivostok, Russia
,
Natalia E. Afonina Institute of Mechanics of the Moscow State University, Moscow, Russia
,
Valeriy G. Gromov Institute of Mechanics of the Moscow State University, Moscow, RussiaCorrespondence[email protected]
,
Gennadiy D. Smekhov Institute of Mechanics of the Moscow State University, Moscow, Russia
,
Aleksander N. Khmelevsky Institute of Mechanics of the Moscow State University, Moscow, Russia
&
Vladimir V. Markov V.A. Steklov Mathematical Institute, Moscow, Russia
Pages 1564-1579 | Received 07 Oct 2009, Accepted 19 Apr 2010, Published online: 27 Oct 2010
 
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Abstract

Complex results are presented in numerical and experimental flow dynamic research and thrust characteristics of jet engine model thrust device with ring nozzle working on equilibrium combustion products of acetylene-air mixtures. Experiments with thrust device models were performed in a pulse aerodynamic laboratory facility. Calculations of viscous flow were based on a program complex including the programs of Navier-Stokes equations and numerical integration for various models of gas environment added by the equations of chemical kinetics. As a result, the main details of flow dynamic, stationary flow structure, and thrust characteristics of the ring nozzle have been established. The comparison of experimental and calculated data has been made to verify the mathematical models and computation method.

ACKNOWLEDGMENT

This work is supported by the Russian Foundation for Basic Research (Projects No. 08-08-00297a, No. 08-01-00032a) and RosNauka (Project SS 319.2008.1).

Notes

Note. [M] = [H2] + 6.5[H2O] + 0.75[CO] + 1.5[CO2] + 0.4 [All other components]; [A] = molar concentration of a component A.

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