Rate constants for: OH + NO2 (+ N2) → HNO3 (+ N2) between 220 and 358 K

Flash photolysis of NO coupled with time resolved detection of 0 via resonance fluorescence has been used to obtain rate constants for the reaction 0 + NO f N2 --, NO2 + Na ar temperatures from 217 to 500 K. The measured rate constxrts obey the Arrhenius equation k = (is.5 + 2.0) X 1O-33 -2 exp[(ll6

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

Constants of the rawions of Cl with HIOz. IX&, 03, CH4, and HNC)J wertt mezxured at 295 K using a flaw discharge-mass spectrometric method. The rate consmts are, WpectiveIy, (6.2 ?c I.51 X 10qzS, (32&) x 10"tl, (1.3 -+. 0.3) X lo-'t, (1.2 ?t 0.3) X 10-13, and (6.8 t 3.4) X lO-is cm3/s.

The rdt, cocii~c~cnts and product eon dlsrrlbutlons for rhc reactions ot OH\* and tlzO+ u ith N2\_ 02 h'0 X20 Xc, CO, CO? H2S Jnd 112 hd\c been dctermlned it 194 + 2 K usmg a selcctcd ton ilo\. rubc (SIFT) dppclrnrus These reactIons urre generally found to proLccd b\~ athcr proton or charge trsnsfcr

Rate constants for the reactions of OH radicals and Cl atoms with CH,CH,NO>, CH,CH,CH,NO,, CH3CH2CH2CHzN02, and CH,CH2CH2CH,CH2N02 have been determined at 295+3 K and a total pressure of approximately 1 atm. The OH rate data were obtained using both the absolute rate technique of pulse radiolysis co

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