The chemisorption of hydrogen on porous chromium oxide was studied at temperatures up to 723 K under the conditions of controlled oxygen, hydrogen, and water contents in the samples. The molar heats of chemisorption were measured at temperatures up to 473 K. Hydrogen was found to be chemisorbed (310 kJ/mol) in the form of water and absorbed into oxide volume (165 kJ/mol) in the form of coordination bound atoms. Changes in the molar heat of the processes during chemisorption were caused by changes in the ratio between chemisorption and sorption. The phenomena observed and quantitative results could be explained by simple Langmuir concepts without assumptions of surface heterogeneity.

• 出版日期2008-10