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Sublimation of dry ice on water.small.ogv
Sublimation of dry ice when placed on the surface of water at room temperature

Dry ice, sometimes referred to as "Cardice" or as "card ice" is the solid form of carbon dioxide. It is commonly used as a versatile cooling agent.

Contents

[edit] Properties

Crystal structure of dry ice
For supplementry chemical data, see Carbon dioxide (data page).

Dry ice is the solid form of carbon dioxide (chemical formula: CO2), comprising two oxygen atoms bonded to a single carbon atom. It is colourless, odourless, non-flammable, and slightly acidic.[1]

Carbon dioxide phase diagram

CO2 changes from a solid to a gas at −78.5 °C (−109.3 °F) with no intervening liquid form, through a process called sublimation. The opposite process is called deposition, where dry ice changes from the gas to solid phase.

The density of dry ice varies, but usually ranges between about 1.4 and 1.6 g/cm3 (87–100 lb/ft3).[2] The low temperature and direct sublimation to a gas makes dry ice an effective coolant, since it is colder than water or ice and leaves no moisture as it changes state.[3] Its enthalpy of sublimation (Δ rH) is 393.5kJ/mol.[4]

Dry ice is non-polar, with a dipole moment of zero, so attractive intermolecular van der Waals forces operate.[5] The composition results in low thermal and electrical conductivity.[6]

[edit] History

It is generally accepted that dry ice was first observed in 1834 by French chemist Charles Thilorier, who published the first account of the substance.[7][8] In his experiments, he noted that when opening the lid of a large cylinder containing liquid carbon dioxide, most of the liquid CO2 quickly evaporated. This left only solid dry ice in the container.[7] In 1924, Thomas B. Slate applied for a U.S. patent to sell dry ice commercially. Subsequently, he became the first to make dry ice successfully as an industry.[9] In 1925, this solid form of CO2 was trademarked by the DryIce Corporation of America as "Dry ice", thus leading to its common name.[10] That same year the DryIce Co. sold the substance commercially for the first time; marketing it for refrigerating purposes.[9]

The alternative name "Cardice" is a registered trademark of Air Liquide UK Ltd.[11] It is sometimes written as "card ice".[12]

[edit] Manufacture

Small pellets of dry ice sublimating in air.

Dry ice is easily manufactured.[13][14] Generally there are common steps taken in producing dry ice. Firstly, gases containing a high concentration of carbon dioxide are produced. Such gases can be a byproduct of some other process, such as producing ammonia from nitrogen and natural gas, or large-scale fermentation.[14] Secondly, carbon dioxide-rich gas is pressurized and refrigerated until it changes into its liquid form. Furthermore, the pressure is reduced. When this occurs some liquid carbon dioxide vaporizes, and this causes a rapid lowering of temperature of the remaining liquid carbon dioxide. As a result the extreme cold causes the liquid to solidify into a snow-like consistency. Finally, the snow-like solid carbon dioxide is compressed into either small pellets or larger blocks of dry ice.[15]

Dry ice is typically produced in two standard forms: blocks and cylindrical pellets. A standard block weighing approximately 30 kg is most common. These are commonly used in shipping, because they sublimate slowly due to a relatively small surface area. Pellets are around 1 cm (0.4 in) in diameter and can be bagged easily. This form is suited to small scale use, for example at grocery stores and laboratories.[citation needed]

[edit] Applications

[edit] Commercial

Sublimation

The most common use of dry ice is to preserve food,[1] using non-cyclic refrigeration.

It is frequently used to package items that need to remain cold or frozen, such as ice cream or biological samples,[16] without the use of mechanical cooling.[citation needed]

Moreover, dry ice can be used to flash freeze food,[17] laboratory biological samples,[18] carbonate beverages,[17] and make ice cream.[19]

When dry ice is placed in water sublimation is accelerated, and low-sinking dense clouds of fog (smoke-like) are created. This is used in fog machines, at theaters, discothèques, haunted houses, and nightclubs for dramatic effects. Unlike most artificial fog machines, in which fog rises like smoke, fog from dry ice hovers above the ground.[15] Dry ice is useful in theater productions that require dense fog effects.[20]

It is occasionally used to freeze and remove warts.[21] Although, liquid nitrogen performs better in this role since it is colder so requires less time to act and less pressure.[22] However, dry ice has the advantage of having fewer problems with storage since it can be generated from compressed carbon dioxide gas as needed.[22]

Plumbers use equipment that forces pressurised liquid CO2 into a jacket around a pipe; the dry ice formed causes the water to freeze, forming an ice plug, allowing them to do repairs without turning off the water mains. This technique can be used on pipes up to 100 millimetres (3.9 in) in diameter.[12]

Dry ice can be used as bait to trap mosquitoes and other insects, due to their attraction to carbon dioxide.[23]

An alternative method to cooling computer parts is with the use of dry ice. This purpose is overshadowed by more conventional ways with fans, heat transfer fluids, liquid nitrogen, or phase change cooling.[24]

[edit] Industrial

Dry ice blasting used to clean a rubber mold

Dry ice can be used to loosen asphalt floor tiles making them easy to pry up.[25] As well as freezing water in valveless pipes to enable repair.[26]

One of the largest mechanical uses of dry ice is blast cleaning. Dry ice pellets are shot out of a nozzle with compressed air. This can remove residues from industrial equipment. Examples of materials being removed include ink, glue, oil, paint, mold and rubber. Dry ice blasting can replace sandblasting, steam blasting, water blasting or solvent blasting. The primary environmental residue of dry ice blasting is the sublimed CO2, thus making it a useful technique where residues from other blasting techniques are undesirable.[27][dead link]

[edit] Scientific

In laboratories, a slurry of dry ice in an organic solvent is a useful freezing mixture for cold chemical reactions and for condensing solvents in rotary evaporators.[4]

The process of altering cloud precipitation can be done with the use of dry ice.[28] It was widely used in experiments in the United States in the 1950s and early 60s before being replaced by silver iodide.[28] Nevertheless, dry ice has the advantage of being relatively cheap and completely non-toxic.[28] Yet its main drawback is that it has to be delivered directly into the supercooled region of any clouds being seeded.[28]

[edit] Dry ice bombs

Main article: Dry ice bomb
Dry ice bomb

Dry ice functions as an ingredient in dry ice bombs. A dry ice bomb is a bomb-like device constructed out of a dry ice and water-filled container, such as a plastic bottle. As the dry ice sublimates, pressure builds up, causing the bottle to explode.[citation needed] Because of its simplicity, the dry ice bomb has become a popular recreational activity. However, like any explosive, it is unpredictable and dangerous. In California the relevant law defines a dry ice bomb as: "any sealed device containing dry ice (CO2) or other chemically-reactive substances assembled for the purpose of causing an explosion by a chemical reaction."[29] The approximate volume of carbon dioxide gas produced by melting a known mass of dry ice can be calculated using the Ideal gas law.

The bomb was featured on MythBusters - episode 57 Mentos and Soda, which first aired on August 9, 2006.[30] It was also featured in an episode of Time Warp.[citation needed]

[edit] Safety

Dry ice pellet sublimating in water

Prolonged exposure to dry ice can cause severe skin damage through cold burns, and the fog produced may also hinder attempts to withdraw from contact in a safe manner. Because it sublimates into large quantities of carbon dioxide gas, which could displace oxygen-containing air and pose a danger of asphyxiation, dry ice should only be exposed to open air in a well-ventilated environment.[25] For this reason, dry ice is assigned the S-phrase S9 in the context of laboratory safety. Industrial dry ice may contain contaminants that make it unsafe for applications where it comes into direct contact with foodstuffs.[31]

Although dry ice is not classified as a dangerous substance by the European Union,[32] or as a hazardous material by the DOT for ground transportation, when shipped by air or water, it is regulated as a dangerous good and IATA packing instruction 904 (IATA PI 904) requires that it be labelled specially, including a diamond-shaped black-and white label, UN 1845. Also, arrangements must be in place to ensure adequate ventilation so that pressure build-up does not rupture the packaging.[33] The Federal Aviation Administration in the United States allows airline passengers to carry up to 2 kg of dry ice in carry-on baggage and 2.3 kg in checked baggage, when used to refrigerate perishables.[34]

[edit] Occurrence on Mars

Scientists following the Mariner 4 spacecraft in 1966 concluded that Mars' poles were made entirely of dry ice.[35] However, findings made in 2003 by researchers at the California Institute of Technology have shown that the Mars' poles are almost completely made of water, and dry ice only covers the top layer of the poles.[35][36] Scientists, such as Anthony Colaprete, have proposed the discovery of a phenomenon occurring on the polar regions of Mars known as dry ice storms. Colaprete compares Martian dry ice storms to Earth's thunderstorms, with crystalline CO2 taking the place of water in the clouds.[37]

[edit] References

  1. ^ a b Yaws 2001, p. 125
  2. ^ Häring 2008, p. 200
  3. ^ Yaws 2001, p. 124
  4. ^ a b Housecroft 2001, p. 410
  5. ^ Khanna & Kapila 2008, p. 161
  6. ^ Khanna & Kapila 2008, p. 163
  7. ^ a b Duane 1952
  8. ^ Charles Thilorier (1834). "Solidification de l'Acide carbonique" (in French). Comptes rendus 1: 194. doi:10.1086/349402. http://gallica.bnf.fr/ark:/12148/bpt6k29606/f194.table. 
  9. ^ a b Killeffer, D.H. (October 1930), The Growing Industry-Dry-Ice, Industrial & Engineering Chemistry, doi:10.1021/ie50250a022 
  10. ^ The Trade-mark Reporter, United States Trademark Association, 1930 
  11. ^ "Case details for Trade Mark 516211". UK Intellectual Property Office. http://www.ipo.gov.uk/domestic?domesticnum=516211. Retrieved 2009-07-25. 
  12. ^ a b Treloar 2003, p. 175
  13. ^ "What is Dry Ice?". Continental Carbonic Products, Inc.. http://www.continentalcarbonic.com/dryice/. Retrieved 2009-07-26. 
  14. ^ a b "Carbon Dioxide (CO2) Properties, Uses, Applications: CO2 Gas and Liquid Carbon Dioxide". Universal Industrial Gases, Inc.. http://www.uigi.com/carbondioxide.html. Retrieved 2009-07-26. 
  15. ^ a b "How does dry ice work?". HowStuffWorks. http://www.howstuffworks.com/question264.htm. Retrieved 2009-07-26. 
  16. ^ Bocco Diana. "What are Some Uses for Dry Ice?". WiseGeek. http://www.wisegeek.com/what-are-some-uses-for-dry-ice.htm. Retrieved 2009-07-26.. 
  17. ^ a b "Cool Uses for Dry Ice". Airgas.com. http://www.airgas.com/content/details.aspx?id=7000000000103. Retrieved 2009-07-25. 
  18. ^ "Preparing Competent E. coli with RF1/RF2 solutions". Personal.psu.edu. http://www.personal.psu.edu/dsg11/labmanual/DNA_manipulations/Comp_bact_by_RF1_RF2.htm. Retrieved 2009-07-25. 
  19. ^ Blumenthal, Heston (2006-10-29). "How to make the best treacle tart and ice cream in the world". The Sunday Times. http://www.timesonline.co.uk/tol/life_and_style/food_and_drink/heston_blumenthal/article607734.ece?print=yes. Retrieved 2007-06-12. 
  20. ^ McCarthy 1992
  21. ^ Lyell A. (1966). "Management of warts.". British medical journal 2 (5529): 1576–9. doi:10.1136/bmj.2.5529.1576. PMID 5926267. 
  22. ^ a b Goroll & Mulley 2009, p. 1317
  23. ^ Reisen WK, Boyce K, Cummings RC, Delgado O, Gutierrez A, Meyer RP, Scott TW. (1999). "Comparative effectiveness of three adult mosquito sampling methods in habitats representative of four different biomes of California.". J Am Mosq Control Assoc. 15 (1): 24–31. PMID 10342265. 
  24. ^ "Dry Ice Destruction: Supercool Your CPU On The Cheap, Mad-Modder Style". CPU Magazine 2004: 144-147. 2004. http://www.computerpoweruser.com/Editorial/article.asp?article=articles/archive/u0804/60r04/60r04.asp&guid. Retrieved 2009-07-28. 
  25. ^ a b "Dry ice pops off Asphalt Tile". Popular Mechanics 115 (2): 169. February 1961. 
  26. ^ "Dry Ice as a Plumbing Aid". Popular Science 177 (1): 159. July 1960. 
  27. ^ Wolcott, John (January, 2008). "Ice-blasting firm offers a cool way to clean up". The Daily Herald. http://www.heraldbusinessjournal.com/archive/jan08/iceblasting-jan08.htm. Retrieved 2008-01-20. 
  28. ^ a b c d Keyes 2006, p. 83
  29. ^ "CA Codes (pen:12301-12316)". http://www.leginfo.ca.gov/cgi-bin/displaycode?section=pen&group=12001-13000&file=12301-12316. 
  30. ^ "Mythbusters episode 57". http://mythbustersresults.com/episode57. 
  31. ^ Nelson, Lewis (2000). "Carbon Dioxide Poisoning". Emergency Medicine. http://www.emedmag.com/html/pre/tox/0500.asp. Retrieved 2009-07-28. 
  32. ^ "Regulation (EC) No 1272/2008 of the European Parliament". http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32008R1272:EN:NOT. Retrieved 2009-07-31. 
  33. ^ Requirements for Shipping Dry Ice [IATA PI 904], Environmental Resource Center, 24 May 2006, http://www.ercweb.com/resources/viewreg.aspx?id=6779, retrieved 2009-07-31 
  34. ^ "Hazardous Materials Information for Passengers". http://www.faa.gov/about/office_org/headquarters_offices/ash/ash_programs/hazmat/media/MaterialsCarriedByPassengersAndCrew.pdf. Retrieved 2009-07-26.  available on the FAA website: http://www.faa.gov/
  35. ^ a b Mars Poles Covered by Water Ice, Research Shows, National Geographic, 13 February 2003, http://news.nationalgeographic.com/news/2003/02/0213_030213_marspoles.html, retrieved 2009-07-26 
  36. ^ "A Sublimation Model for Martian South Polar Ice Features", Science (American Association for the Advancement of Science) 299 (5609), 2003-02-14, doi:10.1126/science.1080148, http://www.sciencemag.org/cgi/content/short/299/5609/1051, retrieved 2009-07-30 
  37. ^ Dry Ice Storms May Pelt Martian Poles, Experts Say, National Geographic, 19 December 2005, http://news.nationalgeographic.com/news/2005/12/1219_051219_mars_ice.html, retrieved 2009-07-26 

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