Journal
JOURNAL OF HAZARDOUS MATERIALS
Volume 458, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jhazmat.2023.131977
Keywords
Nanofluid; Deep eutectic solvent; Carbon nanotube; Amino functionalization; H2S
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By constructing a nanofluid system, trace functionalized nanoparticles can greatly enhance the absorption performance of basic liquid. In this study, amino functionalized carbon nanotubes (ACNTs) and carbon nanotubes (CNTs) were introduced into alkaline deep eutectic solvents to form nanofluid systems and used for dynamic H2S absorption. The results showed that the introduction of nanoparticles significantly improved the H2S removal efficiency of the original liquid. The highest total mass transfer coefficient of the ACNTs nanofluid system increased to over 400% of the value before the addition of nanoparticles. The amino functionalization greatly enhanced the shuttle effect of nanoparticles.
By constructing nanofluid system, trace functionalized nanoparticles can significantly enhance the absorption performance of basic liquid. In this work, amino functionalized carbon nanotubes (ACNTs) and carbon nanotubes (CNTs) were introduced into alkaline deep eutectic solvents to build nanofluid systems and used for the dynamic absorption of H2S. The experiment results showed that the introduction of nanoparticles can significantly enhance the H2S removal performance of original liquid. When performing H2S removal experiments, the optimal mass concentrations of ACNTs versus CNTs were 0.05 % and 0.01 %, respectively. The characterization showed that the surface morphology and structure of the nanoparticles unchanged significantly during the absorption-regeneration process. A double mixed gradientless gas-liquid reactor was used to explore the gasliquid absorption kinetics characteristics of the nanofluid system. It was found that the gas-liquid mass transfer rate increased significantly after the addition of nanoparticles. The highest total mass transfer coefficient of the nanofluid system of ACNTs was increased to more than 400 % of the value before the addition of nanoparticles. The analysis showed that the shuttle effect and hydrodynamic effect of nanoparticles play important role in the process of enhancing gas-liquid absorption, and the amino functionalization enhanced the shuttle effect of nanoparticles significantly.
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