OXIDATION OF CO WITH THE PARTICIPATION OF ALUMINUM-COPPER-CHROME OXIDE CATALYSTS IN A BED REACTOR

Abstract

Bed reactors are critical components widely used in industrial processes. Because these reactors often operate under heavy workloads, they face high power and durability requirements.re However, heavy workloads and continuous use can lead to deterioration of the material properties of the reactor. The most important of these problems is the accumulation of carbon monoxide (CO) in the structural components of the reducer. CO is a toxic gas released into the atmosphere as a byproduct of industrial processes. Controlling this gas is important for both environmental and occupational health and safety. In this context, ensuring CO oxidation in fluidized bed reactors is an important area of research to both increase energy efficiency and reduce environmental impacts. This work aims to investigate the catalytic effects of aluminum, copper and chromium to enhance CO oxidation in hot bed reactors. Understanding the effect of incorporating catalytic materials on CO oxidation kinetics will be an important step towards improving reactor stability and performance. The research aims to contribute to a more sustainable and efficient use of fluidized bed reactors in industrial processes. A unique aspect of the study is to systematically investigate the effect of aluminum, copper and chromium on the CO oxidation process in reactors. It should be noted that the results obtained for this purpose are important in terms of their use and potential effects in industrial applications. This research aims to help make industrial processes more sustainable and environmentally friendly by filling the knowledge gaps related to CO control and oxidation in fluidized bed reactors. Keywords: hot-bed reactor, carbon monoxide, oxidation, copper, chromium, aluminum, catalytic effects.