Dynamics of carbon dioxide adsorption by carbon nanotubes

Abstract

This article is devoted to the study of the carbon dioxide adsorption process. The relevance of using carbon nanotubes for adsorbing carbon dioxide from industrial emissions is that carbon nanotubes have a high surface area and can effectively interact with carbon dioxide molecules. In addition, they have high mechanical strength and chemical resistance, which makes them attractive for industrial use. Carbon nanotubes have the potential to reduce carbon dioxide emissions and reduce the negative impact on the environment. Using carbon nanotubes in the industry can help reduce greenhouse gas emissions and the environmental impact of burning fossil fuels. Purpose. The work aimed to study the prospects of using carbon nanomaterials to purify industrial emissions from carbon dioxide in a fluidized state. The scientific novelty of the topic "Dynamics of carbon dioxide adsorption by carbon nanotubes" is the study of the influence of temperature and gas velocity on the initial curves of CO2 adsorption dynamics in the fluidized state.

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Keywords

adsorption, greenhouse gases, adsorbent, carbon nanotubes

Citation

Dynamics of carbon dioxide adsorption by carbon nanotubes / Vira Sabadash, Jaroslaw Gumnitsky, Oleksiy Lopushansky, Oksana Matsuska, Anna Nowik-Zając // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2023. — Vol 8. — No 2. — P. 101–107.

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