Journal
CHEMENGINEERING
Volume 6, Issue 5, Pages -Publisher
MDPI
DOI: 10.3390/chemengineering6050074
Keywords
non-oxidative dehydrogenation; ethanol; rice husk; silicon oxide; copper oxide; catalyst
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Funding
- Ministry of Education and Science of the Republic of Kazakhstan [AP08855936]
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The article presents the results of comparative research on the physicochemical characteristics and catalytic activity of copper oxide supported on synthetic SiO2 and SiO2 (RH) from rice husk. SiO2 (RH) has a higher hydrophobicity, leading to the concentration of copper oxide on its surface in a crust form, which is crucial in the synthesis of low-percentage catalysts. Using SiO2 (RH) as a carrier increases the dispersion of copper oxide particles, which serve as the active center for ethanol dehydrogenation.
The article presents the results of comparative research on the physicochemical characteristics and catalytic activity of copper oxide supported on synthetic SiO2 and SiO2 (RH) from rice husk. SiO2 (RH) is more hydrophobic compared to SiO2, which leads to the concentration of copper oxide on its surface in the form of a crust, which is very important in the synthesis of low-percentage catalysts. According to SEM, XRD, and TPR-H-2, the use of SiO2 (RH) as a carrier leads to an increase in the dispersion of copper oxide particles, which is the active center of ethanol dehydrogenation.
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