Steam

In water vapor and humidity).

In common speech, steam most often refers to the white mist that condenses above boiling water as the hot vapor ("steam" in the first sense) mixes with the cooler air. This mist is made of tiny droplets of liquid water, not gaseous water, so it is no longer technically steam. In the spout of a steaming kettle, the spot where there is no condensed water vapor, where there appears to be nothing there, is steam.

Uses

A steam engine uses the expansion of steam in order to drive a piston or turbine to perform mechanical work. In other industrial applications steam is used as a repository of energy, which is introduced and extracted by heat transfer, usually through pipes. Steam is a capacious reservoir for energy because of water's high Rankine cycle, to model the behaviour of steam engines.

In the U.S., more than 86% of electric power is produced using steam as the working fluid, nearly all by steam turbines. Condensation of steam to water often occurs at the low-pressure end of a steam turbine, since this maximises the energy efficiency, but such wet-steam conditions have to be limited to avoid excessive turbine blade erosion.

When liquid water comes in contact with a very hot substance (such as lava, or molten metal) it can flash into steam very quickly; this is called a steam explosion. Such an explosion was probably responsible for much of the damage in the Chernobyl accident and for many so-called 'foundry accidents'.

Steam's capacity to transfer heat is also used in the home: for cooking vegetables, steam cleaning of fabric and carpets, and heating buildings. In each case, water is heated in a boiler, and the steam carries the energy to a target object. "Steam showers" are actually low-temperature mist-generators, and do not actually use steam.

In electric generation, steam is typically condensed at the end of its expansion cycle, and returned to the boiler for re-use. However in cogeneration, steam is piped into buildings to provide heat energy after its use in the electric generation cycle. The world's biggest steam generation system is Con Edison in New York City which pumps steam into 100,000 buildings in Manhattan from seven cogeneration plants.^[1]

References

See also

• Electrification
• Geyser – geothermally-generated steam
• IAPWS – an association that maintains international-standard correlations for the thermodynamic properties of steam, including IAPWS-IF97 (for use in industrial simulation and modelling) and IAPWS-95 (a general purpose and scientific correlation).
• Live steam
• Mass production
• Nuclear power – and power plants use steam to generate electricity
• Psychrometrics – moist air/vapour mixtures, humidity and air conditioning
• Steam engine and Industrial Revolution
• Steam locomotive
• Steam shower