Combustion of solid carbon rods in zero and normal gravity
Abstract
In order to investigate the mechanism of carbon combustion and to assess the importance of gravitational induced convection on the process, zero and normal gravity experiments were conducted in which spectroscopic carbon rods were resistance ignitied and burned in dry oxygen environments. In the zero-gravity drop tower tests, a blue flame surrounded the rod, showing that a gas phase reaction in which carbon monoxide was oxidized to carbon dioxide was taking place. The ratio of flame diameter to rod diameter was obtained as a function of time. It was found that this ratio was inversely proportional to both the oxygen pressure and the rod diameter. In the normal gravity tests, direct mass spectrometric sampling was used to measure gas phase concentrations. The gas sampling probe was positioned near the circumference of a horizontally mounted 0.615 cm diameter carbon rod, either at the top or at angles of 45 deg to 90 deg from the top, and yielded concentration profiles of CO2, CO, and O2 as a function of distance from the surface. The mechanism controlling the combustion process was found to change from chemical process control at the 90 deg and 45 deg probe positions to mass transfer control at the 0 deg probe position at the top of the rod. Under the experimental conditions used, carbon combustion was characterized by two surface reactions, 2C + O2 yields 2CO and CO2 + C yields 2CO, and a gas phase reaction, 2CO + O2 yields 2CO2.
- Publication:
-
Ph.D. Thesis
- Pub Date:
- May 1981
- Bibcode:
- 1981PhDT........80S
- Keywords:
-
- Carbon;
- Combustion Physics;
- Gravitational Effects;
- Chemical Reaction Control;
- Concentration (Composition);
- Convection;
- Mass Spectroscopy;
- Microgravity Applications;
- Reaction Kinetics;
- Space Commercialization;
- Vapor Phases;
- Fluid Mechanics and Heat Transfer