What is Calcium Carbide?

Information about Calcium Carbide

Calcium carbide

IUPAC name	Calcium Carbide
Identifiers
CAS number	75-20-7
Properties
Molecular formula	CaC₂
Molar mass	64.1 g/mol
Appearance	gray-black Crystals
Density	2.22 g/cm³, solid (industrial grade)
Melting point	2300 °C
Except where noted otherwise, data are given for materials in their standard state (at 25 C, 100 kPa)

Calcium carbide is a chemical compound with the chemical formula Ca C₂. Its appearance depends on the grade and ranges from black through to grayish white lumps. Its main use now is as a source of acetylene. In China, acetylene is a feedstock for the chemical industry, in particular for the production of polyvinyl chloride, PVC. Locally produced acetylene is more economic than using imported oil.^[1] Production of calcium carbide in China has been increasing. In 2005 output was 8.94 million tons with capacity to produce 17 million tons.^[2] In the USA, Europe and Japan consumption is generally reducing.^[3] Production levels in the USA in 1990 were 236,000 tons pa.^[4]

Production

Calcium carbide is produced industrially in an electric arc furnace loaded with a mixture of lime and coke at about 2000 °C, this method has not changed since its invention in 1888. Calcium carbide is formed:

CaO + 3C→CaC₂ + CO

Calcium carbide synthesis requires an extremely high temperature, ~2000 °C, which is not practically achievable by traditional combustion, so the reaction is performed in an electric arc furnace with graphite electrodes. The carbide product produced generally contains around 80% calcium carbide by weight. The carbide is crushed to produce small lumps that can range a few mm up to 50mm. The impurities are concentrated in the finer fractions. The CaC₂ content of the product is assayed by measuring the amount of acetylene produced on hydrolysis. As an example the British and German standards for the content of the coarser fractions are 295 L/kg and 300 L/kg respectively. Impurities present in the carbide include phosphide, which produces phosphine when hydrolysed.^[5]

This reaction was an important part of the industrial revolution in chemistry. In the USA this occurred as a product of massive amounts of cheap hydro-electric power liberated from Niagara Falls before the turn of the 20th century.

The method for the production in an electric arc furnace was discovered independently by T. L Willson and H. Moissan in 1888 and 1892.^[6]^[7]

Crystal structure

When extremely pure, calcium carbide is a near colourless solid. The common crystalline form at room temperature is a distorted rock salt structure with the C₂²⁻ units lying parallel.^[4]

Applications

Production of acetylene

The reaction of calcium carbide with water was discovered by Friedrich Wohler in 1862.

CaC₂ + 2 H₂O → C₂H₂ + Ca(OH)₂

This reaction is the basis of the industrial manufacture of acetylene, and is the major industrial use of calcium carbide.

Production of calcium cyanamide

Calcium carbide reacts with nitrogen at high temperature to form calcium cyanamide:

CaC₂ + N₂ → CaCN₂ + C

Calcium cyanamide is used as fertilizer. It is hydrolysed to cyanamide, H₂NCN.^[4]

Steelmaking

Calcium carbide is used:

in the desulfurisation of iron (pig iron, cast iron and steel)^[5]
as a fuel in steelmaking to extend the scrap ratio to liquid iron depending on economics.
as a powerful deoxidizer at ladle treatment facilities.

Carbide lamps

Main article: Carbide lamp

Calcium carbide was used in carbide lamps, in which water drips on carbide and the formed acetylene is ignited. These lamps were of no use in coal mines where the presence of the explosive gas methane made them a serious hazard. The presence of explosive gases in coal mines led to the miner safety lamp. However carbide lamps were used extensively in slate, copper and tin mines, but most have now been replaced by electric lamps. Carbide lamps are still used by some cavers exploring caves and other underground areas,^[8] though they are increasingly being replaced in this use by LED lights. They were also used extensively as head lights in early automobiles, though in this application they are also obsolete, having been replaced entirely by electric lamps.

Other uses

In the ripening of fruit, it is used as source of acetylene gas, which is a ripening agent (similar to ethylene).^[9]

It is still used in the Netherlands and Belgium for a traditional custom called Carbidschieten (Shooting Carbide). To create an explosion, carbide and water are put in a milk churn with a lid. Ignition is usually done with a torch. Some villages in the Netherlands fire multiple milk churns in a row as an oldyear tradition. The old tradition comes from the old pagan religion to chase off spirits.

It is used in toy cannons (see Big-Bang Cannon), as well as in bamboo cannons.

Together with calcium phosphide, calcium carbide is used in floating, self-igniting naval signal flares (see Holmes' Marine Life Protection Association).

Calcium carbide is also used in small carbide lamps called carbide candles, which are used for blackening rifle sights to reduce glare. These "candles" are used due to the sooty flame produced by acetylene.

External links

References

1. ^ Ya Dun (23 January 2006). Troubles in the PVC industry. Hong Kong Trade Development Council.
2. ^ "Govt takes measures to curb development of calcium carbide sector", BusyTrade.com, 16 May 2007.
3. ^ Jamie Lacson, Stefan Schlag and Goro Toki (December 2004). Calcium Carbide. SRI Consulting.
4. ^ Greenwood, N. N.; Earnshaw, A. (1997). Chemistry of the Elements, 2nd Edition, Oxford:Butterworth-Heinemann. ISBN 0-7506-3365-4.
5. ^ Calcium Carbide, Bernhard Langhammer, Ullmann's Encyclopedia of Industrial Chemistry, Wiley Interscience. (Subscription required)
6. ^ J. T. Morehead, G. de Chalmot (1896). "The Manufacture OF Calcium carbide". Journal of The American Chemical Society 18 (4): 311 - 331. DOI:10.1021/ja02090a001.
7. ^ H. Moissan (1892). "Chimie Mindérale.- Description d'un nouveau four électrique". Comptes rendus hebdomadaires des séances de l'Académie des sciences 115: 1031.
8. ^ Caving equipment and culture (from Te Ara Encyclopedia of New Zealand)
9. ^ F. B. Abeles and H. E. Gahagan, III (1968). "Abscission: The Role of Ethylene, Ethylene Analogues, Carbon Dioxide, and Oxygen". Plant Physiol. 43 (8): 1255-1258.

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