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EspañolAUTOIGNITION TEMPERATURE
The 'autoignition temperature' or 'kindling point' of a substance is the lowest temperature at which it will spontaneously ignite in a normal atmosphere without an external source of ignition, such as a flame or spark. This temperature is required to supply the activation energy needed for combustion. The temperature at which a chemical will detonate decreases as the pressure increases or oxygen concentration increases. It is usually applied to a combustible fuel mixture.
Autoignition temperatures of liquid chemicals are typically measured using a 500 mL flask placed in a temperature controlled oven in accordance with the procedure described in ASTM E659 [1]. The commonly accepted autoignition temperature of paper, 451 °F (233 °C), is well known because of the popular novel ''Fahrenheit 451'' by author Ray Bradbury (although the actual autoignition temperature depends on the type of pulp used in the paper's manufacture, chemical content, paper thickness, and a variety of other characteristics).
The time it takes for a material to reach its autoignition temperature when exposed to a heat flux is given by the following equation
[2]
where ''k'' = thermal conductivity (W/(m·K)), ''ρ'' = density (kg/m³), and ''c'' = specific heat capacity (J/(kg·K)) of the material of interest. is the temperature, in Kelvin, the material starts at (or the temperature of the bulk material), and ''q''″ is the heat flux (W/m²) incident to the material.
★ Triethylborane: -20 °C (-4 °F)
★ Silane: <21 °C (70 °F)
★ White phosphorus: 34 °C (93 °F)
★ Carbon disulfide: 100 °C (212 °F)
★ Diethyl ether: 170 °C (338 °F)
★ Paper: 233 °C (451 °F)
★ Gasoline (Petrol): 257 °C (495 °F)
★ Magnesium: 473 °C (883 °F)
★ Butane: 500 °C (900 °F)
★ Hydrogen: 571 °C (1060 °F)
1. E659 – 78 (Reapproved 2000), "Standard Test Method for Autoignition Temperature of Liquid Chemicals", ASTM, 100 Barr Harbor Drive, West Conshohocken, PA 19428-2959
2. Principles of Fire Behavior. ISBN 0-8273-7732-0. 1998.
★ Pyrolysis
★ Flash Point
★ Gas burner (For Flame Temperatures, Combustion heat energy values and ignition temperatures)
★ Analysis of Effective Thermal Properties of Thermally Thick Materials.
Autoignition temperatures of liquid chemicals are typically measured using a 500 mL flask placed in a temperature controlled oven in accordance with the procedure described in ASTM E659 [1]. The commonly accepted autoignition temperature of paper, 451 °F (233 °C), is well known because of the popular novel ''Fahrenheit 451'' by author Ray Bradbury (although the actual autoignition temperature depends on the type of pulp used in the paper's manufacture, chemical content, paper thickness, and a variety of other characteristics).
| Contents |
| Autoignition equation |
| Autoignition point of selected substances |
| References |
| See also |
| External links |
Autoignition equation
The time it takes for a material to reach its autoignition temperature when exposed to a heat flux is given by the following equation
[2]
where ''k'' = thermal conductivity (W/(m·K)), ''ρ'' = density (kg/m³), and ''c'' = specific heat capacity (J/(kg·K)) of the material of interest. is the temperature, in Kelvin, the material starts at (or the temperature of the bulk material), and ''q''″ is the heat flux (W/m²) incident to the material.
Autoignition point of selected substances
★ Triethylborane: -20 °C (-4 °F)
★ Silane: <21 °C (70 °F)
★ White phosphorus: 34 °C (93 °F)
★ Carbon disulfide: 100 °C (212 °F)
★ Diethyl ether: 170 °C (338 °F)
★ Paper: 233 °C (451 °F)
★ Gasoline (Petrol): 257 °C (495 °F)
★ Magnesium: 473 °C (883 °F)
★ Butane: 500 °C (900 °F)
★ Hydrogen: 571 °C (1060 °F)
References
1. E659 – 78 (Reapproved 2000), "Standard Test Method for Autoignition Temperature of Liquid Chemicals", ASTM, 100 Barr Harbor Drive, West Conshohocken, PA 19428-2959
2. Principles of Fire Behavior. ISBN 0-8273-7732-0. 1998.
See also
★ Pyrolysis
★ Flash Point
★ Gas burner (For Flame Temperatures, Combustion heat energy values and ignition temperatures)
External links
★ Analysis of Effective Thermal Properties of Thermally Thick Materials.
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