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[[File:Desiccant_Dryers.jpg|thumb|right|Desiccant Dryer]] | [[File:Desiccant_Dryers.jpg|thumb|right|Desiccant Dryer]] | ||
[[File:Desiccant_Dryer_Principle.jpg|thumb|right|Desiccant Dryer Principle]] | [[File:Desiccant_Dryer_Principle.jpg|thumb|right|Desiccant Dryer Principle]] | ||
The '''Desiccant Dryers''' are used for drying air in [[Storage Tanks]] or pneumatic systems and are beneficial in the drying of hygroscopic (water-absorbing) resins. These [[Dryers]] remove water from the air by passing it through a desiccant that absorbs moisture. The term "desiccant dryer" refers to a broad class of dryers. Other terms commonly used are | The '''Desiccant Dryers''' are used for drying air in [[Storage Tanks]] or pneumatic systems and are beneficial in the drying of hygroscopic (water-absorbing) resins. These [[Dryers]] remove water from the air by passing it through a desiccant that absorbs moisture. The term "desiccant dryer" refers to a broad class of [[dryers]]. Other terms commonly used are [[Regenerative Desiccant Dryers]] and [[Twin Tower Dryers]], and to a lesser extent [[Absorption Dryers]]. | ||
The compressed air is passed through a pressure vessel filled with an absorbent media such as activated alumina, silica gel, molecular sieve or other desiccant material. The desiccant can bring the dew point of the water vapor in the air down to −40 °C (−40 °F) or below. This means that the air will not condense (deposition) water until it is cooled to −40 °C (−40 °F). In practice, two cylinders with desiccant are used; one is drying the air, while the other vessel is being regenerated. The switching of the vessels and the regeneration sequence is typically done automatically via solenoid operated [[valves]]. | The compressed air is passed through a [[Pressure Vessels|pressure vessel]] filled with an absorbent media such as activated alumina, silica gel, molecular sieve or other desiccant material. The desiccant can bring the dew point of the water vapor in the air down to −40 °C (−40 °F) or below. This means that the air will not condense (deposition) water until it is cooled to −40 °C (−40 °F). In practice, two cylinders with desiccant are used; one is drying the air, while the other vessel is being regenerated. The switching of the vessels and the regeneration sequence is typically done automatically via solenoid operated [[valves]]. | ||
The regeneration of the desiccant vessel can be during three different methods: | The regeneration of the desiccant vessel can be during three different methods: | ||
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