Difference between revisions of "Ebullition"
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*2 : the [[act]], [[process]], or [[state]] of boiling or bubbling up | *2 : the [[act]], [[process]], or [[state]] of boiling or bubbling up | ||
==Description== | ==Description== | ||
| − | Boiling, a type of [[phase]] [[transition]], is the rapid [ | + | Boiling, a type of [[phase]] [[transition]], is the rapid [https://en.wikipedia.org/wiki/Vaporization vaporization] of a liquid, which typically occurs when a liquid is heated to its [https://en.wikipedia.org/wiki/Boiling_point boiling point], the temperature at which the [https://en.wikipedia.org/wiki/Vapor_pressure vapor pressure] of the liquid is equal to the [[pressure]] exerted on the liquid by the surrounding [[environmental]] [[pressure]]. Thus, a liquid may also boil when the pressure of the surrounding [[atmosphere]] is sufficiently reduced, such as the use of a [https://en.wikipedia.org/wiki/Vacuum_pump vacuum pump] or at [https://en.wikipedia.org/wiki/High_altitude high altitudes]. Boiling occurs in three characteristic [[stages]], which are nucleate, transition and film boiling. These stages generally take place from low to high surface temperatures, respectively. |
*Nucleate boiling | *Nucleate boiling | ||
''Nucleate boiling'' is characterized by the [[growth]] of [[bubbles]] on a [[heated]] [[surface]], which rise from discrete points on a surface, whose temperature is only slightly above the liquid’s. In general, the number of nucleation sites are increased by an increasing surface temperature. | ''Nucleate boiling'' is characterized by the [[growth]] of [[bubbles]] on a [[heated]] [[surface]], which rise from discrete points on a surface, whose temperature is only slightly above the liquid’s. In general, the number of nucleation sites are increased by an increasing surface temperature. | ||
| − | An irregular [[surface]] of the boiling vessel (i.e. increased surface roughness) can create additional nucleation sites, while an exceptionally smooth surface, such as [[glass]], lends itself to [ | + | An irregular [[surface]] of the boiling vessel (i.e. increased surface roughness) can create additional nucleation sites, while an exceptionally smooth surface, such as [[glass]], lends itself to [https://en.wikipedia.org/wiki/Superheating superheating]. Under these conditions, a heated liquid may show [https://en.wikipedia.org/wiki/Boiling_delay boiling delay] and the temperature may go somewhat above the boiling point and never boil |
*Transition boiling | *Transition boiling | ||
''Transition boiling'' may be defined as the unstable boiling, which occurs at [[surface]] temperatures between the maximum [[attainable]] in nucleate and the minimum attainable in film boiling. | ''Transition boiling'' may be defined as the unstable boiling, which occurs at [[surface]] temperatures between the maximum [[attainable]] in nucleate and the minimum attainable in film boiling. | ||
| − | The formation of [[bubbles]] in a heated liquid is a [[complex]] [[physical]] [[process]] which often involves [ | + | The formation of [[bubbles]] in a heated liquid is a [[complex]] [[physical]] [[process]] which often involves [https://en.wikipedia.org/wiki/Cavitation cavitation] and [[acoustic]] [[effects]], such as the broad-[[spectrum]] hiss one hears in a kettle not yet heated to the point where bubbles boil to the surface. |
*Film boiling | *Film boiling | ||
| − | If a [[surface]] [[heating]] the liquid is significantly hotter than the liquid then film boiling will occur, where a thin layer of vapor, which has low [ | + | If a [[surface]] [[heating]] the liquid is significantly hotter than the liquid then film boiling will occur, where a thin layer of vapor, which has low [https://en.wikipedia.org/wiki/Thermal_conductivity thermal conductivity] insulates the [[surface]]. This condition of a vapor film insulating the surface from the liquid characterizes film boiling.[https://en.wikipedia.org/wiki/Ebulition] |
[[Category: Physics]] | [[Category: Physics]] | ||
Latest revision as of 23:56, 12 December 2020
- Date: [http;//www.wikipedia.org/wiki/16th_Century 1534]
Definitions
Description
Boiling, a type of phase transition, is the rapid vaporization of a liquid, which typically occurs when a liquid is heated to its boiling point, the temperature at which the vapor pressure of the liquid is equal to the pressure exerted on the liquid by the surrounding environmental pressure. Thus, a liquid may also boil when the pressure of the surrounding atmosphere is sufficiently reduced, such as the use of a vacuum pump or at high altitudes. Boiling occurs in three characteristic stages, which are nucleate, transition and film boiling. These stages generally take place from low to high surface temperatures, respectively.
- Nucleate boiling
Nucleate boiling is characterized by the growth of bubbles on a heated surface, which rise from discrete points on a surface, whose temperature is only slightly above the liquid’s. In general, the number of nucleation sites are increased by an increasing surface temperature.
An irregular surface of the boiling vessel (i.e. increased surface roughness) can create additional nucleation sites, while an exceptionally smooth surface, such as glass, lends itself to superheating. Under these conditions, a heated liquid may show boiling delay and the temperature may go somewhat above the boiling point and never boil
- Transition boiling
Transition boiling may be defined as the unstable boiling, which occurs at surface temperatures between the maximum attainable in nucleate and the minimum attainable in film boiling.
The formation of bubbles in a heated liquid is a complex physical process which often involves cavitation and acoustic effects, such as the broad-spectrum hiss one hears in a kettle not yet heated to the point where bubbles boil to the surface.
- Film boiling
If a surface heating the liquid is significantly hotter than the liquid then film boiling will occur, where a thin layer of vapor, which has low thermal conductivity insulates the surface. This condition of a vapor film insulating the surface from the liquid characterizes film boiling.[1]
