Proc. (1913), 29, 51) observe that carbon, at all temperatures up to 900° C. and probably above that temperature, has the power of pertinaciously retaining oxygen. This oxygen cannot be removed by exhaustion alone, but may be expelled by increasing the... Journal of the Chemical Society - Page 466de Chemical Society (Great Britain) - 1913Affichage du livre entier - À propos de ce livre
| Chemical Society (Great Britain) - 1919 - 846 pages
...when attempting to explain the results of their experiments on the combustion of carbon. They found that carbon at all temperatures up to 900°, and probably...this manner, it appears, not as oxygen, but as carbon monoxide and carbon dioxide. Rhead and Wheeler concluded, after discussion of their experimental data... | |
| Carleton Ellis - 1914 - 376 pages
...pertinaciously retaining oxygen. This oxygen cannot be removed by exhaustion alone, but may be expelled by increasing the temperature of the carbon during...oxygen, but as carbon dioxide and carbon monoxide. The presence of kaolin favors the combination of hydrogen and oxygen at temperatures from 230 degrees and... | |
| Institution of Mining and Metallurgy (Great Britain) - 1915 - 652 pages
...oxygen, which cannot be removed by exhaustion alone, but only by exhaustion at increased temperature. 'When quickly released in this manner it appears, not as oxygen, but as CO and CO2 in proportions which depend on the temperature applied.' The authors assume a physico-chemical... | |
| Carleton Ellis - 1919 - 828 pages
...pertinaciously retaining oxygen. This oxygen cannot be removed by exhaustion alone, but may be expelled by increasing the temperature of the carbon during...oxygen, but as carbon dioxide and carbon monoxide. t Z. physik. Chem. (1914), 294; JSCI 1914, 130. The presence of kaolin favors the combination of hydrogen... | |
| Franklin Institute (Philadelphia, Pa.) - 1913 - 806 pages
...all temperatures up to 900° C. and probably above that temperature, has the power of pertinaciously retaining oxygen. This oxygen cannot be removed by...exhaustion. When quickly released in this manner, it does not appear as oxygen, but as carbon dioxide and monoxide. The proportions of these two oxides... | |
| |