Experiments and Calculations on Rate Coefficients for Pyrolysis of SO 2 and the Reaction O + SO at High Temperatures

The decay of SO generated in the reaction 0 r0CS-r CO+ SO in the absence of O1 has been studied at 298 K from 2 to 8 Torr, using a tubular Row reactor coupled to a mass spectrometer. The products of the decay of SO are S. SO:. S20. and (SO),. The kinetics of tile decay of SO could be accounted for o

The bimolecular reactions in the title were measured behind shock waves by monitoring the 0-atom production in COS-02-Ar and CS2-02-Ar mixtures over the temperature range between 1400 and 2200 K. A value of the rate constant for S + O2 -+ SO f 0 was evaluated to be (3.8 2 0.7) x 10" cm3 mol-' s-' be

Rcccivcd 30 Apnl 1982 SO:, photodissociation at 193 nm (AIF cxclmer lmr) ha been used to create SO radicals; the chcmdumincsccncc from the SO + 03 reaction has been used to follow the SO ndical decay. Rate coefticicnls at 298 K of (1 07 t 0.16) x 10-r6, (1 06 f 0 16) x 10-r3, and (1 48 k 0 20) x IO-

## Abstract The reaction of S atoms with O~2~ was studied behind reflected shock waves applying atomic resonance absorption spectroscopy (ARAS) for concentration measurements of S and O atoms. S atoms were generated either by laser‐flash photolysis (LFP) of CS~2~ or by the high‐temperature pyrolysi

The reacttonsof CH30z nitIt SO2 and NO haw been studied bv steady state photo&s of azomethane in the presence of Ot-SOz-SO mixtures at 196 M and I ;Ltm total pressure. Thr quantum yield of NO otidntion by CHxO= m.dicxG is increased substanthlIy when SO? is added ro the system indicating an SOa induc