JEPTER, Volume 77, Number 4, 2004 HIGH-TEMPERATURE IGNITION OF HYDROGEN AND AIR AT HIGH PRESSURES DOWNSTREAM OF THE REFLECTED SHOCK WAVE V. V. Martynenko, O. G. Penyaz'kov, K. A. Ragotner, and S. I. Shabunya

HIGH-TEMPERATURE IGNITION OF HYDROGEN AND AIR AT 
HIGH PRESSURES DOWNSTREAM OF THE REFLECTED SHOCK WAVE

V. V. Martynenko, O. G. Penyaz'kov,
K. A. Ragotner, and S. I. Shabunya

UDC 534.272.2

@ABSTRACT = The delay and features of the ignition of a stoichiometric 
hydrogen-air mixture at temperatures of 830-1450 K and pressures 
of 2-21 atm downstream of the reflected shock wave have been investigated. 
The experimental data obtained were compared with the results of calculations 
done in accordance with the known kinetic schemes of hydrogen combustion. 
The influence of the interaction of the reflected shock wave with 
the dynamic boundary layer on the ignition and the time of induction 
in a shock tube has been examined.

A. V. Luikov Heat and Mass Transfer Institute, National 
Academy of Sciences of Belarus, 15 P. Brovka Str., Minsk, 220072, 
Belarus. Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 77, 
No. 4, pp. 100-107, July-August, 2004. Original article submitted 
April 1, 2004.