Oxidation of ATJ graphite by low concentrations of water vapor and carbon dioxide in helium

The 0' \* isotope has been used in conjunction with a low pressure-low temperature reactor in order to more fully illustrate the mechanism of the carbon-oxygen reaction. The results of this investigation have shown: both carbon monoxide and carbon dioxide are primary products of the reaction, both o

The rates of reaction of a spherical specimen of Speer Moderator-2 graphite with lot< partial pressures of carbon dioxide and water vapor were determined in flowing helium at a totat pressure of 1 atm. The rates were obtained from weight changes of the specimen and from analyses of the effluent gase

The catalytic effects of a series of alkali metal salts in promoting the gasification of a graphite powder by carbon dioxide and water vapor have been studied by thermogravimetry between 700 and 1100°C. Lithium salts, specifically the carbonate and hydroxide, were the most active catalysts for both

The oxidation of CH 4 with CO2, H20(v ) and 0 2 has been studied under radiofrequency plasmas at a pressure of 20 Torr, by feeding the reactor with mixtures of methane and oxidizing agents, at variable gas flow rates (6-30 liters (STP) rain -1) and power densities (2-8 cal cm -3 sec--1). The oxidati

Idso, S.B. 1982 . Temperature hn~tation by evaporahon in hot climates and the greenhouse effects of water vapor and carbon dioxide. Agric. Meteorol., 27: 105--109. Simple energy balance considerations and historic temperature data mdlcate that there are rather sharply defined upper limits to which

## Abstract The kinetics and mechanism of the oxidation of carbon by NO~2~ in absence and presence of water vapor were studied in a fixed bed reactor. The rate of carbon oxidation by NO~2~ is enhanced in the presence of water vapor in the range of temperature 300–400°C. The benefit effect of water