Acetylene

The chemical compound acetylene, also called ethyne, was discovered in 1836 by Edmund Davy, in England; its chemical formula is C2H2 and its structure is:

Related Topics:
Chemical compound - 1836 - Edmund Davy - England - Chemical formula - C - H

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Acetylene is a colorless and extremely flammable gas at standard temperature and pressure. It sublimes at its boiling point of −84 °C, and has a melting point of −80.8 °C. It normally has a pleasantly sweet ethereal odor; however, when prepared using calcium carbide, it has a sharp, noxious garlic-like odor due to impurities in the carbide forming various other compounds such as phosphine, arsine and small amounts of hydrogen sulfide and possibly very small amounts of the following potentially harmful gasses: divinyl sulfide, ammonia, methane, carbon monoxide, vinyl acetylene, divinyl acetylene, diacetylene, propadiene, hexadiene, butadienyl acetylene, and methyl acetylene.

Related Topics:
Colorless - Gas - Standard temperature and pressure - C - C - Phosphine - Arsine - Hydrogen sulfide - Divinyl sulfide - Ammonia - Methane - Carbon monoxide - Vinyl acetylene - Divinyl acetylene - Diacetylene - Propadiene - Hexadiene - Butadienyl acetylene - Methyl acetylene

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The Compressed Gas Association Commodity Specification for Acetylene has established a grading system for identifying and quantifying phosphine, arsine, and hydrogen sulfide content in commercial grades of acetylene in order to limit exposure to these impuritieshttp://www.cganet.com/publication_detail.asp?id=G-1.1. Acetylene can explode with extreme violence if the pressure of the gas exceeds about 100 kPa as a gas or when in liquid or solid form, so it is shipped and stored dissolved in acetone. The majority of acetylene's chemical energy is contained in the carbon-carbon triple bond.

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Above 400 °C (which is quite low for a hydrocarbon), the pyrolysis of acetylene will start. The main products are the dimer vinylacetylene (C4H4) and benzene. At temperatures above 900 °C, the main product will be soot.

Related Topics:
Pyrolysis - Dimer - Vinylacetylene - Benzene - Soot

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The principal raw materials for acetylene manufacture are calcium carbonate (limestone) and coal. The calcium carbonate is first converted into calcium oxide and the coal into coke, then the two are reacted with each other to form calcium carbide and carbon monoxide:

Related Topics:
Calcium carbonate - Limestone - Coal - Coke - Calcium carbide - Carbon monoxide

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:CaO + 3C → CaC2 + CO

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Calcium carbide (or calcium acetylide) and water are then reacted by any of several methods to produce acetylene and calcium hydroxide.

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:CaC2 + 2H2O → Ca(OH)2 + C2H2

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Acetylene can also be manufactured by the partial combustion of methane with oxygen, or by the cracking of hydrocarbons.

Related Topics:
Combustion - Methane - Oxygen - Cracking - Hydrocarbons

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