Propene pyrolysis and oxidation kinetics in a flow reactor and laminar flames

The pyrolysis and oxidation of propene were studied experimentally in an at mospheric flow reactor. Species profiles were obtained in the intermediate to high temperature range (similar to 1200 K) for lean, stoichiometric, ric h, and pyrolytic conditions. Laminar flame speeds of propene/air mixtures w ere also determined over an extensive range of equivalence ratios, at room temperature and atmospheric pressure, using the counterflow twin flame conf iguration. A detailed chemical kinetic model consisting of 469 reactions an d 71 species was used to describe the high-temperature kinetics of propene, propyne, allene, and propane. It was shown that the kinetic model could ac curately predict a wide range of combustion data for these fuels, including laminar premixed flame speeds, speciation in how reactors, and ignition in shock tubes. Notable uncertainties in the reaction kinetics of these fuels are identified and discussed. (C) 1999 by The Combustion Institute.