High efficient water cooled after cooled for air compressor
We adopt high efficient copper tubes and fins as the heat-exchanger material.
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We adopt high efficient copper tubes and fins as the heat-exchanger material.
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accomplished in the cooling coil, refrigerant absorbs heat from air surrounding the coil, to change itself from liquid to gas.
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High pressure liquid is expanded in a expansion device which results in liquid which thirsts to get converted to gaseous state.
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A simple air-conditioner consists of a compressor compressing refrigerant gas to high pressure
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This is generally possible through a vapour compression device.
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Cold medium inside the coil is either a refrigerant( say R22 , R410A etc) or a chilled medium
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When temperature comes down humidity goes up. Air cooler is not comfortable in highly humid area, say places close to sea.
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Maximum cooling possible with this method is limited to the saturation point(100% humidity)
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Air cooler working on above principle consists of a fan which drives area through a wet medium
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Hence dry air(low humidity) has more ability to absorb water than humid air which is available near coastal area.
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This ability of air to reduce temperature by absorbing water is changing with the existing level of water vapour inside it.
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How much temperature can be reduced is depending on how much water can be transformed and settled inside.
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if air can host this water to steam transformation, its temperature can be brought down.
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Energy is required when water evaporates from liquid state to vapour state, which is termed as latent heat of vaporization.
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