Synthesis of activated carbons from coffee ground residues and their application as catalysts for ethanol dehydrogenation

Abstract

In this present study, characteristics and catalytic properties of activated carbon derived from coffee ground residue, cobalt metal (Co) supported-activated carbon and various metals (Ce, Co, Cu and Ni) supported-commercial activated carbon were determined and characterized. This study was divided into three parts. Regarding to the first part, the synthesis of activated carbon catalysts derived from coffee ground residues with different methods of physical activation was investigated. The results showed that the catalyst with physically activated by CO2 for 4 hours, exhibited the best catalytic activity of ethanol dehydrogenation to acetaldehyde. In the second part, the best catalyst from the first part, was improved by various cobalt metal loading. It was found that 4 wt% of cobalt loading enhanced the activity of catalyst. In the third part, four metals such as Ce, Co, Cu and Ni with 10 wt% loading to improve the commercial activated carbons were investigated. The results showed that Cu was the most suitable metal for commercial activated carbon support in ethanol dehydrogenation to acetaldehyde.