KINETICS OF THE STEAM-CARBON REACTION (SECTION I). A KINETIC THEORY FOR THE OXIDATION OF GRAPHITE (SECTION II)

Abstract

A description is given of a more satisfactory type apparatus for the study of high temperature (1500 C), low pressure (1 to 100 microns) heterogeneous processes in which one or more products is a gas. The water-gas reaction has been studied in the 900 C to 1300 C temperature range. This is the first kinetic study of this reaction at high temperatures in which the oxidizing gases have been carefully preheated to the reaction temperature. A zero-order reaction with an activation energy of 60.3 kcal/mole is found in the 900 C to 1100 C range, changing to a first order process by 1300 C with a considerably lower value for the activation energy. Several possible mechanisms are discussed, including a surface rearrangement of adsorption sites and pre-dissociation of water vapor. A considerable amount of data on the carbon-oxygen reaction has been collected from the literature, evaluated, and expressed in such a manner that comparison can be made. A theory is proposed which applies to the complete temperature range in which data has been obtained, 350 C to 2000 C. In particular, the unusual maximum in the Arrhenius plot is explained on a theoretical basis although the model proposed is not readily adapted to the known structural features of graphite. (Author)

Document Details

Document Type

Technical Report

Publication Date

Aug 01, 1955

Accession Number

AD0294334

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