The rate constant for the HO2+HO2 reaction at elevated temperatures

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)

The high-temperature oxidation of formaldehyde in the presence of carbon monoxide was investigated to determine the rate constant of the reaction HOZ + CO = CO:! + OH (10). In the temperature range of 878-952°K from the initial parts of the kinetic curves of the HOz radicals and CO, accumulation at

The tcmpcraturc dcpcndcncc of the rate constant for the rcactron HO? + HO2 -HzOz + O2 (Zk I ) 1135 been dctcrmmcd usmg flash photolysls tcchniqucs. over 1hc rcmpcrarurc rsngc 298-51OK, III 3 mlrogcn dducnt at a IOLII prcs~rc of 700 TOIL The overall second order state constant ~sg~ven by kl = (4.14 i

HO2 profiles in the thermal decomposition of H,02 in shock waves over the range 1000-1250 K were analyzed with respect to the reactions HO+HZOz+HOz+H20 (3) and HO+H0r~Hz0+02 (4). Reaction (3) shows a strong up-turn ofthe rate constant at temperatures near 800 K. Over the range 250-1250 K, k, can be