Pressure dependence of the CO + OH rate constant in O2 + N2 mixtures

The rate constants of the reaction between OH and H2S in He, N,, and O2 over the temperature range 245-450 K have been determined using the discharge flow-resonance fluorescence technique. At 299 K, kl = (4.4 ? 0.7) x lo-'' cm3 molecule-' S K I . T h e t e m p e r a t u r e dependence of t h e r a

The rake cons~~m for lhe bimolecular rexlion CO + N20 -+ CO1 +N2 vzas determined by comparison of calculaled infrared emission profiles of CO? \rirh Ihose observed in shock-Iubc experiments in the lempersture range 1350-2100 K for CO-N?O-He-Ar mixrures. The rate consran~ was found IO be X-, = 3.2 X

Relative rate measurements of the reactions of the HO-radical with CO [HO + CO -+ H + COa (1) ] and with isobutane [HO f iso-C4H10 -t Hz0 f f-(or iso-)CaHg ( 3)J have been made through the photolysis of dilute mixtures of HONO with CO, ixo-Cd H ro, N0a, and NO in simulated air at 700 and 100 torr pr

The effect of pressure on the rate constant of the OH + CO reaction has been measured for Ar, N,, and SF, over the pressure range 200-730 torr. All experiments were at room temperature. The method involved laser-induced fluorescence to measure steady-state OH concentrations in the 184.9 nm photolysi

## Therateconstantexpression, k&.0x 1014exp( -95 kJ/RT) cm3 mol-' s-t, for H+O ,+O + OH was determined from cw laser absorption spectroscopic measurements of OH radical concentration growth rates in rich Hz-OZ-Ar mixtures heated to temperatures between 1900 and 2650 K in reflected shock waves.