The Detailed Modeling of Premixed, Laminar Steady-State Flames to Obtain Validated Reaction Networks. I. Ozone

Abstract

We have employed species dependent input coefficients for the test case ozone in a one-dimensional model of a premixed, laminar steady-state flame. Convenient expressions for the input coefficients are developed. These coefficients are based on independent measurements, i.e., no arbitrary parameters are used in this model. The governing equations are solved using a relaxation technique and the partial differential equation package, PDECOL, developed by Madsen and Sincovec. Species and temperature profiles and the burning velocities are found over the range of initial ozone mole fraction of 0. 25 to 1.00. The computed burning velocities are no more than 30% greater than the measurements of Streng and Grosse. Comparison with the computed results of Warnatz shows agreement within plus or minus 12%, even though he used quite different expressions for some of the kinetic coefficients. These differences are manifest in the atomic oxygen and temperature profiles at an initial ozone mole fraction of unity. A comparison of the model profiles indicates a need for measurements of ab initio calculations for the rate coefficient for the reaction 03 + 0 yields 2 O2 at temperatures in the range 1500-2000K.

Document Details

Document Type

Technical Report

Publication Date

Apr 01, 1980

Accession Number

ADA085722

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