Difference between revisions of "Aftercoolers"

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An aftercooler is any mechanical device used to cool a fluid, including liquids or gasses, between stages of a
[[Category:Cooling]]{{Knoppen}}
multi-stage heating process, typically a heat exchanger that removes waste heat in a gas compressor.[1] They are  
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used in many applications, including air compressors, air conditioners, refrigerators, and gas turbines, and are widely known in automotive use as an air-to-air or air-to-liquid cooler for forced induction (turbocharged or supercharged)  
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internal combustion engines to improve their volumetric efficiency by increasing intake air charge density through nearly  
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[[File:Aftercooler.jpg|thumb|right|Aftercoolers]]
[[File:Water cooled after cooler.jpg|thumb|right|Water cooled after cooler
]]
An '''Aftercooler''' is any mechanical device used to cool a fluid, including liquids or gasses, between stages of a multi-stage heating process, typically a [[Heat Exchangers]] that removes waste heat in a gas compressor.They are used in many applications, including air compressors, air conditioners, [[Refrigerators]], and gas turbines, and are widely known in automotive use as an [[Air to Air Coolers]] or air-to-liquid cooler for forced induction (turbocharged or supercharged) internal combustion engines to improve their volumetric efficiency by increasing intake air charge density through nearly  
isobaric (constant pressure) cooling.
isobaric (constant pressure) cooling.
[[File:Aftercooler.jpg]]


 
Aftercoolers increase the efficiency of the induction system by reducing induction air heat created by the turbo charger and promoting more thorough combustion. This removes the heat of compression that occurs in any gas when its pressure is raised or its unit mass per unit volume (density) is increased. A decrease in intake air charge temperature sustains use of a more dense intake charge into the engine, as a result of supercharging.The lowering of the intake charge air temperature also eliminates the danger of pre-detonation of the fuel air charge prior to timed spark ignition. Thus preserving the benefits of more fuel/air burn per engine cycle, increasing the output of the engine. They also eliminate the need for using the wasteful method of lowering intake charge temperature
 
by the injection of excess fuel into the cylinders' air induction chambers, to cool the intake air charge, prior to its flowing into the cylinders. This wasteful practice nearly eliminated the gain in engine efficiency from supercharging, but was necessitated by the greater need to prevent at all costs the engine damage that pre-detonation engine knocking causes.
 
 
 
 
 
 
 
Aftercoolers increase the efficiency of the induction system by reducing induction air heat created by the turbo
charger and promoting more thorough combustion. This removes the heat of compression (i.e., the temperature rise) that  
occurs in any gas when its pressure is raised or its unit mass per unit volume (density) is increased. A decrease in  
intake air charge temperature sustains use of a more dense intake charge into the engine, as a result of supercharging.
The lowering of the intake charge air temperature also eliminates the danger of pre-detonation (knock) of the fuel air  
charge prior to timed spark ignition. Thus preserving the benefits of more fuel/air burn per engine cycle, increasing  
the output of the engine. They also eliminate the need for using the wasteful method of lowering intake charge temperature
by the injection of excess fuel into the cylinders' air induction chambers, to cool the intake air charge, prior to its  
flowing into the cylinders. This wasteful practice (when intercoolers are not used) nearly eliminated the gain in engine
efficiency from supercharging, but was necessitated by the greater need to prevent at all costs the engine damage that  
pre-detonation engine knocking causes.

Latest revision as of 07:45, 3 August 2012


Aftercoolers
Water cooled after cooler

An Aftercooler is any mechanical device used to cool a fluid, including liquids or gasses, between stages of a multi-stage heating process, typically a Heat Exchangers that removes waste heat in a gas compressor.They are used in many applications, including air compressors, air conditioners, Refrigerators, and gas turbines, and are widely known in automotive use as an Air to Air Coolers or air-to-liquid cooler for forced induction (turbocharged or supercharged) internal combustion engines to improve their volumetric efficiency by increasing intake air charge density through nearly isobaric (constant pressure) cooling.

Aftercoolers increase the efficiency of the induction system by reducing induction air heat created by the turbo charger and promoting more thorough combustion. This removes the heat of compression that occurs in any gas when its pressure is raised or its unit mass per unit volume (density) is increased. A decrease in intake air charge temperature sustains use of a more dense intake charge into the engine, as a result of supercharging.The lowering of the intake charge air temperature also eliminates the danger of pre-detonation of the fuel air charge prior to timed spark ignition. Thus preserving the benefits of more fuel/air burn per engine cycle, increasing the output of the engine. They also eliminate the need for using the wasteful method of lowering intake charge temperature by the injection of excess fuel into the cylinders' air induction chambers, to cool the intake air charge, prior to its flowing into the cylinders. This wasteful practice nearly eliminated the gain in engine efficiency from supercharging, but was necessitated by the greater need to prevent at all costs the engine damage that pre-detonation engine knocking causes.