Wave rider configurations behind parabolic shock waves

The rate constant of the NF3 dissociation reaction in a helium mixture in the low-pressure limit was directly measured in a shock tube by a UV absorption method. The rate constant may be expressed as K= 10'4~3s~0~07 exp{-[36600+2100 (cal/mol)]/ RT) cm3/mol s in the temperature range 1050-1600 K. Lev

## 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

The thermal decomposition of acetylene has been studied in the temperature and pressure regimes of 1900-2500 K and 0.3-0.55 atm using a shock tube coupled to a time-of-flight mass spectrometer. A series of mixtures varying from 1.0-6.2% CzHz diluted in a Ne-Ar mixture yielded a carbon atom density r

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