Features of Gaseous Mixtures Combustion Initiated by High-Current Slipping Surface Discharge

Experimental investigation of decomposition of chlorofluorocarbons (CFCs) contained in H 2 + O 2 or CH 4 + O 2 gaseous mixtures, combustion of which is initiated by high-current pulse slipping surface discharge, has been carried out. It was found that a ternary gaseous mixture of H 2 + O 2 + CFC or CH 4 + O 2 + CFC, even with a large amount of the third component, maintains the explosion combustion property inherent in a binary H 2 + O 2 or CH 4 + O 2 mixture, based on the branched chain processes. High-efficient (near-complete) destruction of chlorine- fluorine containing substances has been demonstrated. Production rate of the investigated reactor with respect to the CFC decomposition is of the order of 200 kg/h. Combustion dynamics was investigated. It was shown that initiation by slipping surface discharge combustion propagation behavior has some peculiarities that are beyond the ordinary combustion wave or detonation wave mechanisms. Peculiarities of the observed phenomena may be attributed to the strong UV irradiated by a high-current slipping surface discharge.