Basic features of the self-ignition of atomized liquid nitro/nitrate/nitrite compounds in a gaseous medium

Basic features of the self-ignition of atomized liquid nitro/nitrate/nitrite compounds in a gaseous medium

Existing and new data of the self-ignition time delays of several atomized liquid nitro/nitratelnitrite hydrocarbons in air or oxygen in the submillisecond range were analyzed. Alkyl-NO, alkyl-NO 2, and alkyl-ONO 2 compounds were used as representative liquid fuels. Alkyl radicals were mostly C nH 2...

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Bibliographic Details
Published in:Proceedings of the Combustion Institute Vol. 28; no. 1; pp. 879 - 883
Main Authors: Gelfand, B.E., Khomik, S.V., Eremenko, L.T., Tsiganov, S.A.
Format: Journal Article
Language:English
Published: Elsevier Inc 2000
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Summary:Existing and new data of the self-ignition time delays of several atomized liquid nitro/nitratelnitrite hydrocarbons in air or oxygen in the submillisecond range were analyzed. Alkyl-NO, alkyl-NO 2, and alkyl-ONO 2 compounds were used as representative liquid fuels. Alkyl radicals were mostly C nH 2n+1 with n=3 to 12. Shock-compressed air or oxygen was the gaseous oxidizer used. Experiments were performed using the reflected shock wave technique. Recordings of pressure and light emission were obtained. The heterogeneous mixtures of atomized nitro-ethers with air exhibited only mild self-ignition modes. The same type of atomized nitro-ethers + oxygen mixtures exhibited strong self-ignition modes. It was demonstrated that atomized alkyl nitrates had much shorter self-ignition time delays than atomized nitro-alkyls at temperature T<1500 K and pressure P=1 to 5 MPa. The dependence of self-ignition time delays on temperature was notably different for alkyl nitrates and nitro-alkyls. Additional experimental data on the phenomenon of self-ignition cessation at a certain limiting temperature were obtained for the ignition of atomized nitro-ethers. It was shown that in some studies the results observed may have been distorted owing to preliminary hydrolysis of alkyl nitrates (nitrites) during preparation and storage.
ISSN:1540-7489
1873-2704
DOI:10.1016/S0082-0784(00)80293-3