Reaction rate constant for the BGK model

Recelvcd 28 Apnl 1980. m final form 2 June 1980 CH (>(' fl) was produced by multiple mfrared photon dlssoclatlon of CH30H kapour m the presence of excess atomic oxygen Tune-resolved measurements of relative CH concentrations were made at 298 K \\xth a tunable dye laser. From the dependence of CH dec

The total rate constant for the reaction of CI atoms with H 0 2 N 0 2 was found to be less than 1.0 x cm3 5-l a t 296 K by the discharge flowiresonance fluorescence technique. The reaction was also studied by the discharge flowimass spectrometric technique. k , , + klb was measured to be (3.4 f 1.4)

Using the recently detected intense UV absorption spectrum of SiCl,(% 'A,) the absolute rate constant has been measured for its reaction with oxygen. The value of the bimolecular rate constant, k(SiCl,+O,), is equal to (3.4k0.7) x lo9 M-' s-' at 25°C.

The rate constant for the reaction of CI with CHCI, was measured relative to the CI reaction with Cti, and CH,CI using long path FTIR. The measured rate constant at 298 K and 1 atm total pressure was ( I 21 ? 0 13) X 10-"cm3 molecule-'s-' ( 2 ~1 , about 60%larger than the currently recommended value

The rate constant for the reaction BrO + NO -+ Br f NO2 has been determine4 over the tempemture range 230 I( to 425 K in a discharge flow system using a mass spectrometer as a detector\_ Results, expressed in the Arrhenius form kr = (7.11 5 0.23) X 10-t\* eup[(296 f 10)/T] cm3 s-t, are compared with