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Liquid carbon dioxide

From Wikipedia, the free encyclopedia
Jets of liquid carbon dioxide

Liquid carbon dioxide is the liquid state of carbon dioxide (CO
2
), which cannot occur under atmospheric pressure. It can only exist at a pressure above 5.1 atm (5.2 bar; 75 psi), under 31.1 °C (88.0 °F) (temperature of critical point) and above −56.6 °C (−69.9 °F) (temperature of triple point).[1] Low-temperature carbon dioxide is commercially used in its solid form, commonly known as "dry ice". Solid CO
2
sublimes at 194.65 K (−78.5 °C; −109.3 °F) at Earth atmospheric pressure — that is, it transitions directly from solid to gas without an intermediate liquid stage. The uses and applications of liquid carbon dioxide include decaffeinating coffee,[2] extracting virgin olive oil from olive paste, in fire extinguishers, and as a coolant.

Properties

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A container of liquid carbon dioxide behind a restaurant

Liquid carbon dioxide is a type of liquid which is formed from highly compressed and cooled gaseous carbon dioxide. It does not form under atmospheric conditions. It only exists when the pressure is above 5.1 atm and the temperature is under 31.1 °C (88.0 °F) (temperature of critical point) and above −56.6 °C (−69.9 °F) (temperature of triple point). The chemical symbol remains the same as gaseous carbon dioxide (CO
2
).[3] It is transparent and odorless and the density of it is 1101 kg/m3 when the liquid is at full saturation at −37 °C (−35 °F).[4]

The solubility of water in liquid carbon dioxide is measured in a range of temperatures, ranging from −29 °C (−20 °F) to 22.6 °C (72.7 °F). At this temperature, the pressure is measured in a range from 15 to 60 atmospheres. The solubility turned out to be very low: from 0.02 to 0.10 %.[5]

Carbon dioxide pressure-temperature phase diagram

Uses

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Fire extinguisher

Uses of liquid carbon dioxide include the preservation of food, in fire extinguishers, and in commercial food processes. For food preservation, liquid carbon dioxide is used to refrigerate, preserve, store and soften. In a fire extinguisher, the CO
2
is stored under pressure as a liquid to act as an anti-flammable.[3] The liquid carbon dioxide not only reduces combustion by displacing oxygen, but also cools the burning surface to avoid further damage. Solvent extraction using compressed liquid CO
2
can be used in industrial processes such as removing caffeine from coffee[3] or improving the yield of olive oil production.[6]

Liquid carbon dioxide is being considered as a means of CO2 transportation for underground or subsea storage purposes. Due to its high density as a liquid, it is much more feasible to ship than as a gas.[citation needed]

CO
2
is also used in large-scale air-to-water heat pumps for district heating, replacing less environmentally friendly refrigerants. The CO
2
changes phases between liquid and gaseous in the process.[7]

See also

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Other chemical compounds and elements are commonly used for commercial and research purposes in their liquid state:

References

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  1. ^ "How to Make Liquid CO2". Sciencing. Retrieved 2019-06-11.
  2. ^ Zabot, Giovani L. (January 2020). "Chapter 11 - Decaffeination using supercritical carbon dioxide". Green Sustainable Process for Chemical and Environmental Engineering and Science. Elsevier. pp. 255–278. doi:10.1016/B978-0-12-817388-6.00011-8. ISBN 9780128173886. S2CID 209725830. Retrieved 2022-01-01. {{cite book}}: |website= ignored (help)
  3. ^ a b c "What is Liquid CO2 and What Can It Be Useful For? | Co2 Gas Blog". Co2 Gas Company. 2017-10-08. Archived from the original on 2019-04-09. Retrieved 2019-04-30.
  4. ^ "Carbon Dioxide - Thermophysical Properties". www.engineeringtoolbox.com. 2017.
  5. ^ Stone, Hosmer W. (December 1943). "Solubility of Water in Liquid Carbon Dioxide". Industrial & Engineering Chemistry. 35 (12): 1284–1286. doi:10.1021/ie50408a015. ISSN 0019-7866.
  6. ^ Romano, Raffaele; Manzo, Nadia; Montefusco, Immacolata; Romano, Annalisa; Santini, Antonello (2014-03-12). "Liquid Carbon Dioxide Use in the Extraction of Extra Virgin Olive Oil From Olive Paste". Journal of Food Research. 3 (4): 119. doi:10.5539/jfr.v3n4p119. ISSN 1927-0895.
  7. ^ "MAN Energy Solutions to Supply World's Largest Air-to-Water Heat Pump for Helsinki's District Heating". 28 August 2024. Retrieved 28 August 2024.