Shock-tube measurements of specific reaction rates in the branched-chain H2-CO-O2 system

Emissions at 450 nm and 4.27 ~sm have been measured when a vaxiety of mixtures containing H 2, CO. either 02 or NaO, and Ar were heated behind reflected shock waves to temperatures of 2000-2850 K and total concentrations near 5 x 101| molecule/era 3. These emissions were used to obtain absolute con

Reflected shock waves were used to heat N20/C2H6/CO/Ar and N20/CH4/CO/Ar mixtures to temperatures of 1875-2855 K at total concentrations of 5 × 1018 cm -a. Oxygen atom production was monitored via the flame band emission at 450 nm, and CO 2 production was observed at 4.27 tzm. These data were then c

Atomic resonance absorption spectroscopy (ARAS) was applied to measure S atoms, behind shock waves in COS/Hz pyrolysis or CSz/Hz photolysis systems. Both the pyrolysis of COS and the photolysis CSz was used to generate the S atoms, which subsequently reacts with H2 via the reaction: The photolysis

The rate consorts of several H=O+ reactions have been measured as a function of relative kinetic energy in a ffow&ift tube The reactions were found to proceed in a variety of ways -charge transfer, proton transfer. and H-aom &strxtton and to have onl) moderate kinetic-energy dependences.