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Autoignition temperature

From Wikipedia, the free encyclopedia

The autoignition temperature or self-ignition temperature, often called spontaneous ignition temperature or minimum ignition temperature (or shortly ignition temperature) and formerly also known as kindling point, of a substance is the lowest temperature in which it spontaneously ignites in a normal atmosphere without an external source of ignition, such as a flame or spark.^[1] This temperature is required to supply the activation energy needed for combustion. The temperature at which a chemical ignites decreases as the pressure is increased.

Substances which spontaneously ignite in a normal atmosphere at naturally ambient temperatures are termed pyrophoric.

Autoignition temperatures of liquid chemicals are typically measured using a 500-millilitre (18 imp fl oz; 17 US fl oz) flask placed in a temperature-controlled oven in accordance with the procedure described in ASTM E659.^[2]

When measured for plastics, autoignition temperature can be also measured under elevated pressure and at 100% oxygen concentration. The resulting value is used as a predictor of viability for high-oxygen service. The main testing standard for this is ASTM G72.^[3]

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Autoignition time equation

The time $t_{\text{ig}}$ it takes for a material to reach its autoignition temperature $T_{\text{ig}}$ when exposed to a heat flux $q''$ is given by the following equation:^[4]

t_{\text{ig}}={\frac {\pi }{4}}k\rho c\left[{\frac {T_{\text{ig}}-T_{0}}{q''}}\right]^{2},

where k = thermal conductivity, ρ = density, and c = specific heat capacity of the material of interest, $T_{0}$ is the initial temperature of the material (or the temperature of the bulk material).

Autoignition temperature of selected substances

Temperatures vary widely in the literature and should only be used as estimates. Factors that may cause variation include partial pressure of oxygen, altitude, humidity, and amount of time required for ignition. Generally the autoignition temperature for hydrocarbon/air mixtures decreases with increasing molecular mass and increasing chain length. The autoignition temperature is also higher for branched-chain hydrocarbons than for straight-chain hydrocarbons.^[5]

Substance	Autoignition^[D]	Note
Barium	550 °C (1,022 °F)	550±90^[1]^[C]
Bismuth	735 °C (1,355 °F)	735±20^[1]^[C]
Butane	405 °C (761 °F)	^[6]
Calcium	790 °C (1,450 °F)	790±10^[1]^[C]
Carbon disulfide	90 °C (194 °F)	^[7]
Diesel or Jet A-1	210 °C (410 °F)	^[8]
Diethyl ether	160 °C (320 °F)	^[9]
Ethanol	365 °C (689 °F)	^[7]
Gasoline (Petrol)	247–280 °C (477–536 °F)	^[7]
Hydrogen	535 °C (995 °F)	^[10]
Iron	1,315 °C (2,399 °F)	1315±20^[1]^[C]
Lead	850 °C (1,560 °F)	850±5^[1]^[C]
Leather / parchment	200–212 °C (392–414 °F)	^[8]^[11]
Magnesium	635 °C (1,175 °F)	635±5^[1]^[B]^[C]
Magnesium	473 °C (883 °F)	^[7]^[B]
Molybdenum	780 °C (1,440 °F)	780±5^[1]^[C]
Paper	218–246 °C (424–475 °F)	^[8]^[12]
Phosphorus (white)	34 °C (93 °F)	^[7]^[A]^[B]
Silane	21 °C (70 °F)	^[7] or below
Strontium	1,075 °C (1,967 °F)	1075±120^[1]^[C]
Tin	940 °C (1,720 °F)	940±25^[1]^[C]
Triethylborane	−20 °C (−4 °F)	^[7]

^A On contact with an organic substance, melts otherwise.

^B There are two distinct results in the published literature. Both are separately listed in this table.

^C At 1 atm. The ignition temperature depends on the air pressure.

^D Under standard conditions for pressure.

See also

Fire point
Flash point
Gas burner (for flame temperatures, combustion heat energy values and ignition temperatures)
Spontaneous combustion

References

^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j Laurendeau, N. M.; Glassman, I. (1971-04-01). "Ignition Temperatures of Metals in Oxygen Atmospheres". Combustion Science and Technology. 3 (2): 77–82. doi:10.1080/00102207108952274.
^ E659 – 78 (Reapproved 2000), "Standard Test Method for Autoignition Temperature of Liquid Chemicals", ASTM, 100 Barr Harbor Drive, West Conshohocken, PA 19428-2959.
^ S. Grynko, "Material Properties Explained" (2012), ISBN 1-4700-7991-7, p. 46.
^ Principles of Fire Behavior. ISBN 0-8273-7732-0. 1998.
^ Zabetakis, M. G. (1965), Flammability characteristics of combustible gases and vapours, U.S. Department of Mines, Bulletin 627.
^ "Butane - Safety Properties". Wolfram|Alpha.
^ ^a ^b ^c ^d ^e ^f ^g Fuels and Chemicals - Autoignition Temperatures, engineeringtoolbox.com
^ ^a ^b ^c Cafe, Tony. "PHYSICAL CONSTANTS FOR INVESTIGATORS". tcforensic.com.au. TC Forensic P/L. Retrieved 11 February 2015.
^ "Diethyl Ether - Safety Properties". Wolfram|Alpha.
^ "Hydrogen – Autoignition Point". Wolfram|Alpha.
^ "Flammability and flame retardancy of leather". leathermag.com. Leather International / Global Trade Media. Retrieved 11 February 2015.
^ Tony Cafe. "Physical Constants for Investigators". Journal of Australian Fire Investigators. (Reproduced from "Firepoint" magazine)

External links

Analysis of Effective Thermal Properties of Thermally Thick Materials.

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This page was last edited on 18 March 2023, at 18:52

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