Monday, March 26, 2018

Evaporation - Evaporation Water Cycle

Evaporation is a type of vaporization, that occurs on the surface of a liquid as it changes into the gaseous phase. The surrounding gas must not be saturated with the evaporating substance. When the molecules of the liquid collide, they transfer energy to each other based on how they collide. When a molecule near the surface absorbs enough energy to overcome the vapor pressure, it will "escape" and enter the surrounding air as a gas. When evaporation occurs, the energy removed from the vaporized liquid will reduce the temperature of the liquid, resulting in evaporative cooling.

On average, only a fraction of the molecules in a liquid have enough heat energy to escape from the liquid. The evaporation will continue until an equilibrium is reached when the evaporation of the liquid is the equal to its condensation. In an enclosed environment, a liquid will evaporate until the surrounding air is saturated.

Evaporation is an essential part of the water cycle. The sun (solar energy) drives evaporation of water from oceans, lakes, moisture in the soil, and other sources of water. In hydrology, evaporation and transpiration (which involves evaporation within plant stomata) are collectively termed evapotranspiration. Evaporation of water occurs when the surface of the liquid is exposed, allowing molecules to escape and form water vapor; this vapor can then rise up and form clouds. With sufficient energy, the liquid will turn into vapor.

Theory




The Water Cycle: Collection, Condensation, Precipitation, Evaporation, Learning Videos For Children - Hop in the cockpit with Explorer Dan to explore the four parts of the water cycle. Enjoy the flight! Recommended for Grades: 1, 2. Kids Educ SUBSCRIBE TO US http://www.youtube.com/user/KidsEduc?s...

For molecules of a liquid to evaporate, they must be located near the surface, they have to be moving in the proper direction, and have sufficient kinetic energy to overcome liquid-phase intermolecular forces. When only a small proportion of the molecules meet these criteria, the rate of evaporation is low. Since the kinetic energy of a molecule is proportional to its temperature, evaporation proceeds more quickly at higher temperatures. As the faster-moving molecules escape, the remaining molecules have lower average kinetic energy, and the temperature of the liquid decreases. This phenomenon is also called evaporative cooling. This is why evaporating sweat cools the human body. Evaporation also tends to proceed more quickly with higher flow rates between the gaseous and liquid phase and in liquids with higher vapor pressure. For example, laundry on a clothes line will dry (by evaporation) more rapidly on a windy day than on a still day. Three key parts to evaporation are heat, atmospheric pressure (determines the percent humidity), and air movement.

On a molecular level, there is no strict boundary between the liquid state and the vapor state. Instead, there is a Knudsen layer, where the phase is undetermined. Because this layer is only a few molecules thick, at a macroscopic scale a clear phase transition interface cannot be seen.

Liquids that do not evaporate visibly at a given temperature in a given gas (e.g., cooking oil at room temperature) have molecules that do not tend to transfer energy to each other in a pattern sufficient to frequently give a molecule the heat energy necessary to turn into vapor. However, these liquids are evaporating. It is just that the process is much slower and thus significantly less visible.

Evaporative equilibrium

If evaporation takes place in an enclosed area, the escaping molecules accumulate as a vapor above the liquid. Many of the molecules return to the liquid, with returning molecules becoming more frequent as the density and pressure of the vapor increases. When the process of escape and return reaches an equilibrium, the vapor is said to be "saturated", and no further change in either vapor pressure and density or liquid temperature will occur. For a system consisting of vapor and liquid of a pure substance, this equilibrium state is directly related to the vapor pressure of the substance, as given by the Clausiusâ€"Clapeyron relation:

ln ⁡ ( P 2 P 1 ) = âˆ' Î" H v a p R ( 1 T 2 âˆ' 1 T 1 ) {\displaystyle \ln \left({\frac {P_{2}}{P_{1}}}\right)=-{\frac {\Delta H_{vap}}{R}}\left({\frac {1}{T_{2}}}-{\frac {1}{T_{1}}}\right)}


where P1, P2 are the vapor pressures at temperatures T1, T2 respectively, Î"Hvap is the enthalpy of vaporization, and R is the universal gas constant. The rate of evaporation in an open system is related to the vapor pressure found in a closed system. If a liquid is heated, when the vapor pressure reaches the ambient pressure the liquid will boil.

The ability for a molecule of a liquid to evaporate is based largely on the amount of kinetic energy an individual particle may possess. Even at lower temperatures, individual molecules of a liquid can evaporate if they have more than the minimum amount of kinetic energy required for vaporization.

Factors influencing the rate of evaporation


Royalty-free The water cycle showing evaporation,… #101261254 ...
Royalty-free The water cycle showing evaporation,… #101261254 .... Source : avopix.com

Note: Air used here is a common example; however, the vapor phase can be other gases.

Concentration of the substance evaporating in the air
If the air already has a high concentration of the substance evaporating, then the given substance will evaporate more slowly.
Concentration of other substances in the air
If the air is already saturated with other substances, it can have a lower capacity for the substance evaporating.
Flow rate of air
This is in part related to the concentration points above. If "fresh" air (i.e., air which is neither already saturated with the substance nor with other substances) is moving over the substance all the time, then the concentration of the substance in the air is less likely to go up with time, thus encouraging faster evaporation. This is the result of the boundary layer at the evaporation surface decreasing with flow velocity, decreasing the diffusion distance in the stagnant layer.
The amount of minerals dissolved in the liquid
Inter-molecular forces
The stronger the forces keeping the molecules together in the liquid state, the more energy one must get to escape. This is characterized by the enthalpy of vaporization.
Pressure
Evaporation happens faster if there is less exertion on the surface keeping the molecules from launching themselves.
Surface area
A substance that has a larger surface area will evaporate faster, as there are more surface molecules per unit of volume that are potentially able to escape.
Temperature of the substance
the higher the temperature of the substance the greater the kinetic energy of the molecules at its surface and therefore the faster the rate of their evaporation.

In the US, the National Weather Service measures the actual rate of evaporation from a standardized "pan" open water surface outdoors, at various locations nationwide. Others do likewise around the world. The US data is collected and compiled into an annual evaporation map. The measurements range from under 30 to over 120 inches (3,000 mm) per year.

Thermodynamics


The Water Cycle - www.watersaving.com
The Water Cycle - www.watersaving.com. Source : www.watersaving.com

Evaporation is an endothermic process, in that heat is absorbed during evaporation.

Applications


Water cycle illustration. The red arrows here show some of the ...
Water cycle illustration. The red arrows here show some of the .... Source : www.alamy.com

  • Industrial applications include many printing and coating processes; recovering salts from solutions; and drying a variety of materials such as lumber, paper, cloth and chemicals.
  • The use of evaporation to dry or concentrate samples is a common preparatory step for many laboratory analyses such as spectroscopy and chromatography. Systems used for this purpose include rotary evaporators and centrifugal evaporators.
  • When clothes are hung on a laundry line, even though the ambient temperature is below the boiling point of water, water evaporates. This is accelerated by factors such as low humidity, heat (from the sun), and wind. In a clothes dryer, hot air is blown through the clothes, allowing water to evaporate very rapidly.
  • The Matki/Matka, a traditional Indian porous clay container used for storing and cooling water and other liquids.
  • The botijo, a traditional Spanish porous clay container designed to cool the contained water by evaporation.
  • Evaporative coolers, which can significantly cool a building by simply blowing dry air over a filter saturated with water.

Combustion vaporization

Fuel droplets vaporize as they receive heat by mixing with the hot gases in the combustion chamber. Heat (energy) can also be received by radiation from any hot refractory wall of the combustion chamber.

Pre-combustion vaporization

Internal combustion engines rely upon the vaporization of the fuel in the cylinders to form a fuel/air mixture in order to burn well. The chemically correct air/fuel mixture for total burning of gasoline has been determined to be 15 parts air to one part gasoline or 15/1 by weight. Changing this to a volume ratio yields 8000 parts air to one part gasoline or 8,000/1 by volume.

Film deposition

Thin films may be deposited by evaporating a substance and condensing it onto a substrate, or by dissolving the substance in a solvent, spreading the resulting solution thinly over a substrate, and evaporating the solvent. The Hertzâ€"Knudsen equation is often used to estimate the rate of evaporation in these instances.

See also


Water Cycle | Technology @ Cottage
Water Cycle | Technology @ Cottage. Source : csstechnology.edublogs.org

  • Atmometer (evaporation)
  • Boiling point
  • Cryophorus
  • Crystallisation
  • Desalination
  • Distillation
  • Drying
  • Eddy covariance flux (a.k.a. eddy correlation, eddy flux)
  • Evaporator
  • Evapotranspiration
  • Flash evaporation
  • Heat of vaporization
  • Hertzâ€"Knudsen equation
  • Hydrology (agriculture)
  • Latent heat
  • Latent heat flux
  • Pan evaporation
  • Sublimation (phase transition) (phase transfer from solid directly to gas)
  • Transpiration

References


Aerial view of the water cycle evaporation phase after rain forest ...
Aerial view of the water cycle evaporation phase after rain forest .... Source : www.alamy.com

Further reading


energy from evaporating water (w/ Video)
energy from evaporating water (w/ Video). Source : phys.org

External links


The water cycle diagram showing precipitation, collection Stock ...
The water cycle diagram showing precipitation, collection Stock .... Source : www.alamy.com

Media related to Evaporation at Wikimedia Commons


The water cycle stock vector. Illustration of precipitation - 58248712
The water cycle stock vector. Illustration of precipitation - 58248712. Source : www.dreamstime.com

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