Difference between revisions of "Evaporative cooler"

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An evaporative cooler draws hot, dry air through water or a saturated material and blows the cooled air out into an area.  These are also known as “swamp coolers” but also called evaporative air conditioners, desert coolers, wet air coolers and even swamp boxes.  An evaporative cooler may also take hot air in and use ice to cool air down and then push it back out to circulate through a room.
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An evaporative cooler draws hot, dry air through water or a saturated material and blows the cooled air out into an area.  These are also known as “swamp coolers” but also called evaporative air conditioners, desert coolers, wet air coolers and even swamp boxes.  An evaporative cooler may also take hot air in and use ice to cool air down and then push it back out to circulate through a room. In climates where the humidity is low and the temperatures are hot, an evaporator cooler, such as a "swamp cooler" can lower the air temperature by 20 degrees F., while it increases humidity.
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Evaporative cooling differs from other air conditioning systems, which use vapor-compression or absorption refrigeration cycles. Evaporative cooling exploits the fact that water will absorb a relatively large amount of heat in order to evaporate.  The temperature of dry air can be dropped significantly through the phase transition of liquid water to water vapor.
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An earlier form of evaporative cooling, the windcatcher, was first used in ancient Egypt thousands of years ago in the form of wind shafts on the roof. They caught the wind, passed it over subterranean water in a qanat and discharged the cooled air into the building. Modern Iranians have widely adopted powered evaporative coolers. Passive evaporative cooling techniques in buildings have been a feature of desert architecture for centuries, but Western acceptance, study, innovation, and commercial application are all relatively recent.
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Evaporative cooling is the conversion of liquid water into vapor using the thermal energy in the air, resulting in a lower air temperature. The energy needed to evaporate the water is taken from the air in the form of sensible heat, which affects the temperature of the air, and converted into latent heat, the energy present in the water vapor component of the air, whilst the air remains at a constant enthalpy value. This conversion of sensible heat to latent heat is known as an isenthalpic process.
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A simple example of natural evaporative cooling is perspiration, or sweat, secreted by the body, evaporation of which cools the body. The amount of heat transfer depends on the evaporation rate, however for each kilogram of water vaporized 2,257 kJ of energy or 890 BTU per pound of pure water, at 95 °F are transferred. The evaporation rate depends on the temperature and humidity of the air, which is why sweat accumulates more on humid days, as it does not evaporate fast enough.
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== refrence ==
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* [https://www.usgs.gov/media/images/evaporative-coolers-work-best-dry-areas-us-area-a USGS.gov - Evaporative coolers work best in the dry areas of the U.S.]
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[[Category:Science]]

Latest revision as of 16:58, 5 August 2023

An evaporative cooler draws hot, dry air through water or a saturated material and blows the cooled air out into an area. These are also known as “swamp coolers” but also called evaporative air conditioners, desert coolers, wet air coolers and even swamp boxes. An evaporative cooler may also take hot air in and use ice to cool air down and then push it back out to circulate through a room. In climates where the humidity is low and the temperatures are hot, an evaporator cooler, such as a "swamp cooler" can lower the air temperature by 20 degrees F., while it increases humidity.

Evaporative cooling differs from other air conditioning systems, which use vapor-compression or absorption refrigeration cycles. Evaporative cooling exploits the fact that water will absorb a relatively large amount of heat in order to evaporate. The temperature of dry air can be dropped significantly through the phase transition of liquid water to water vapor.

An earlier form of evaporative cooling, the windcatcher, was first used in ancient Egypt thousands of years ago in the form of wind shafts on the roof. They caught the wind, passed it over subterranean water in a qanat and discharged the cooled air into the building. Modern Iranians have widely adopted powered evaporative coolers. Passive evaporative cooling techniques in buildings have been a feature of desert architecture for centuries, but Western acceptance, study, innovation, and commercial application are all relatively recent.

Evaporative cooling is the conversion of liquid water into vapor using the thermal energy in the air, resulting in a lower air temperature. The energy needed to evaporate the water is taken from the air in the form of sensible heat, which affects the temperature of the air, and converted into latent heat, the energy present in the water vapor component of the air, whilst the air remains at a constant enthalpy value. This conversion of sensible heat to latent heat is known as an isenthalpic process.

A simple example of natural evaporative cooling is perspiration, or sweat, secreted by the body, evaporation of which cools the body. The amount of heat transfer depends on the evaporation rate, however for each kilogram of water vaporized 2,257 kJ of energy or 890 BTU per pound of pure water, at 95 °F are transferred. The evaporation rate depends on the temperature and humidity of the air, which is why sweat accumulates more on humid days, as it does not evaporate fast enough.

refrence