Temperature and concentration profiles in hydrogennitrous oxide flames

## H + N20 ~ N 2 + OH, (r.1) havc been determined and k I amounts to 6 X 1013 exp(-13100/RT) cm3mole--ls -1. The two stages of the flame front are discussed in connection with the elementary processes.

Simultaneous point measurements of ~qO, the major species, mixture fraction, temperature, and OH are obtained in nonpremixed turbulent hydrogen jet flames, using the combination of spontaneous Raman scattering, Rayleigh scattering, and laser-induced fluorescence. Results are presented for an undilut

A technique has been developed for obtaining spatially resolved measurements of temperature and density under combustion conditions. The spectral structure of Rayleigh scattered laser light is determined using a Fabry-Perot interferometer. Spectra in the post-combustion zone exhibit simple Doppler b

method of computation for stationary concentration and temperature profiles m porous catalysts was developed These calculations can be used with highly complex reactions and with any type of rate equation or transport model The dtfferentlal equations are transformed by the collocatton method to non-

A vertical, adiabatic, steady-state, flow reactor in which a homogeneous chemical reaction takes place has been studied. Release of heat by the reaction sets up density gradients, which cause free convective flow to be superimposed on the laminar upflow. The coupled differential equations of momentu