Ionic Liquids for the Separation of Fluorocarbon Refrigerant Mixtures

This review discusses the research being performed on ionic liquids for the separation of fluorocarbon refrigerant mixtures. Fluorocarbon refrigerants, invented in 1928 by Thomas Midgley Jr., are a unique class of working fluids that are used in a variety of applications including refrigeration. Flu...

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Bibliographic Details
Published in:Chemical reviews 2024-05, Vol.124 (9), p.5167-5226
Main Authors: Baca, Kalin R., Al-Barghouti, Karim, Wang, Ning, Bennett, Madelyn G., Matamoros Valenciano, Lucia, May, Tessie L., Xu, Irene V., Cordry, Max, Haggard, Dorothy M., Haas, Abigail G., Heimann, Ashley, Harders, Abby N., Uhl, Hannah G., Melfi, Diego T., Yancey, Andrew D., Kore, Rajkumar, Maginn, Edward J., Scurto, Aaron M., Shiflett, Mark B.
Format: Article
Language:English
Subjects:
Azeotropes
Chlorofluorocarbons
Complexity
Distillation
End of life
Equations of state
Hydrochlorofluorocarbons
Hydrofluorocarbons
Ionic liquids
markets
Mixtures
Perfluorocarbons
Refrigerants
Refrigeration
Separation
Separation techniques
Working fluids
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Summary:This review discusses the research being performed on ionic liquids for the separation of fluorocarbon refrigerant mixtures. Fluorocarbon refrigerants, invented in 1928 by Thomas Midgley Jr., are a unique class of working fluids that are used in a variety of applications including refrigeration. Fluorocarbon refrigerants can be categorized into four generations: chlorofluorocarbons, hydrochlorofluorocarbons, hydrofluorocarbons, and hydrofluoroolefins. Each generation of refrigerants solved a key problem from the previous generation; however, each new generation has relied on more complex mixtures that are often zeotropic, near azeotropic, or azeotropic. The complexity of the refrigerants used and the fact that many refrigerants form azeotropes when mixed makes handling the refrigerants at end of life extremely difficult. Today, less than 3% of refrigerants that enter the market are recycled. This is due to a lack of technology in the refrigerant reclaim market that would allow for these complex, azeotropic refrigerant mixtures to be separated into their components in order to be effectively reused, recycled, and if needed repurposed. As the market for recovering and reclaiming refrigerants continues to grow, there is a strong need for separation technology. Ionic liquids show promise for separating azeotropic refrigerant mixtures as an entrainer in extractive distillation process. Ionic liquids have been investigated with refrigerants for this application since the early 2000s. This review will provide a comprehensive summary of the physical property measurements, equations of state modeling, molecular simulations, separation techniques, and unique materials unitizing ionic liquids for the development of an ionic-liquid-based separation process for azeotropic refrigerant mixtures.
ISSN:0009-2665
1520-6890
1520-6890
DOI:10.1021/acs.chemrev.3c00276