Modeling and Investigation of Dispersed Working Fluids in Application to Catalytic Neutralization of Flue Gas

Authors: Ruslan Fedorov, Igor Shepelev, Mariia Maleshina, Daniil Karpov

DOI: https://doi.org/10.37082/IJIRMPS.ICTIMESH-24-Dubai.3

Short DOI: https://doi.org/g8znx7

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Abstract: Currently, energy is a key factor in the global economy, and the efficiency of the energy production and consumption processes has significant consequences for society and the environment. Harmful and hazardous substances negatively affect humans, animals, and plants, poison the soil and water bodies, cause diseases, and worsen health. The presence of flue gas-cleaning systems in enterprises is a prerequisite. One of the most effective ways to reduce harmful substances in flue gases is the catalytic cleaning of emissions. The principle of this method is to ensure the chemical conversion of pollutants into harmless or low-harm substances using special catalysts. Catalytic cleaning of gas emissions is applied to a wide range of pollutants, including not only numerous volatile organic compounds formed at metallurgical, chemical, and oil refining plants, but also to flue gases emitted by treatment facilities and installations in the energy sector. This study considered the Computational Fluid Dynamic (CFD) modeling of a device for the catalytic neutralization of flue gas in the Star CCM+ package.

Keywords: Dispersed flows, CFD modeling, Catalytic neutralization

Paper Id: 6.603

Published On: 2025-01-14

Published In: Special Issue - International Conference on Trends and Innovations in Management, Engineering, Sciences and Humanities (January 2025)

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