Pyrolysis of acetylene behind reflected shock waves

The pyrolysis of benzene was studied in the temperature and pressure range of 1400-2200K and 0.25-0.81 arm using a shock tube coupled to a time-of-flight mass spectrometer. The mixtures employed were 2.1 and 5% benzene diluted with neon, which yielded a carbon atom density range of (1.6-7.9) x 1017

Time histories of OH, H 2 O, and 306.8 nm absorbance were measured behind reflected shock waves in mixtures of 1% n-butanol in Ar. Reflected shock conditions covered temperatures (T 5 ) from 1274 to 1439 K and pressures (P 5 ) near 1.5 atm. OH was measured using laser absorption of the R 1 (5) line

The dissociation of NzO/Ar mixtures, with and without added CO, has been studied by monitoring both infrared and ultraviolet emissions behind reflected shock waves. Initial temperatures ranged from 1850 to 2535"K, and the total concentrations were 1.94-2.40 X 10'8 molecule/cm3. The infrared emission

## Abstract Chemical kinetic simulations that more accurately consider reaction conditions behind reflected shock waves in a high pressure shock tube have been conducted by accounting for (1) time‐dependent temperature and pressure variations in contrast to assuming constant temperature and pressur

## Abstract The homogeneous thermal isomerization of cyclopropane to propene was studied in the presence of large excesses (99.6%–99.8%) of argon or helium diluent. Reaction temperatures ranged from 1038°−1208°K, and total gas pressures were varied from 533 to 5097 torr. The comparative‐rate single

Self-ignition of stoichiometric airlike argon mixtures of monocyclic and bicyclic small-ring hydrocarbons was investigated behind reflected shock waves at 1200-1600 K and 0.6 + 0.1 MPa. The reactivity of small-ring hydrocarbons has been found to be determined by the properties of their thermal decom