Superheating
From Open Encyclopedia
- See superheater for the device used in steam engines.
In physics, superheating (sometimes referred to as boiling retardation, boiling delay, or defervescence) is the phenomenon in which a liquid is heated to a temperature higher than its standard boiling point, without actually boiling. This can be caused by rapidly heating a homogeneous substance while leaving it undisturbed (so as to avoid the introduction of air bubbles at nucleation sites).
Because a superheated fluid is the result of artificial circumstances, it is metastable, and is disrupted as soon as the circumstances abate, leading to the liquid boiling very suddenly and violently—a very dangerous situation. Superheating is sometimes a concern with microwave ovens, some of which can quickly heat water without physical disturbance. A person agitating a container full of superheated water by attempting to remove it from a microwave will likely be scalded.
More on Microwaving
Superheating is common when a person puts an undisturbed cup of water into the microwave and heats it. Once finished the water appears to have not come to a boil. Once the water is disturbed, it suddenly comes to a boil. This can be simply from contact with the cup, which could result in hot scalding water shooting out. To prevent this, adding something to the water prior to heating it is suggested.
See also
External links
- The physics of superheating water
- Video of superheated water in a microwave explosively flash boiling.
- A series of superheated water with oil film experiments done in the microwave by Louis A. Bloomfield, physics professor at the University of Virginia. Experiment #13 proceeds with surprising violence.
- Superheating and microwave ovens (video) Why it happens and why it's dangerous.de:Siedeverzug
