The influence of simplified peroxy radical chemistry on the interpretation of NO2–NO–O3 surface exchange

It is shown that K-theory has to be modified for chemical systems that react with time scales similar to the turbulence time scale. In such systems, the value of the exchange coefficient depends not only on the turbulence parameters, but also on the chemical reaction rates. As an example, the NO-01-

The rate constant for the reaction CH302 + NO2 -(products) has been measured directly by flash photolysis and kinetic spectroscopy. At room temperature and a t total pressures between 53 and 580 Torr, k:, = (9.2 f 0.4) X lo8 liter/mole sec so that the rate of formation of the probable primary produc

A pulse radiolysis technique has been used to measure a rate constant of (6.6f 1.3) x lo-r2 cm3 molecule-' s-i for the association reaction between CF3C(0)02 radicals and NO2 at 295 K and one atmosphere total pressure of SF, diluent. A FAIR/ smog chamber system was used to study the thermal decompos

The hinetics of the reactions of the (CI13)2K rrtduxl wthX0.N02,and O2 rrere studied usins FTIR spectroscopy. The tutwe of the products and the ratio ofr.~tc constants for these reactions acre dctermmed\_ The results were used to evalu.rte the potenti.n for nitros.unine .md nitramine formation in X0