Dehumidifying Dryers with molecular sieve are designed to eliminate moisture in the plastic material before processing. Air is forced through a desiccant bed to make it extremely dry. This air is then heated to a specified temperature and fed into a Drying Hopper containing the material to be dried.View more
Air Systems will be introducing the extended range of the 2011 introduced RD series; a complete modular built highly flexible dryer system to condition plastic resin with dry process air. New details have also been added to improve the operation and control of the entire process. With drying capacities ranging now from 0,05 to 300 kg/hView more
The cost of replacement parts, labor, standby inventory, and downtime can have a devastating effect on a plant’s bottom line. Eliminating even one of them by drying a system’s compressed air will offset the cost of installing and operating the equipment.View more
Location can affect how well an air dryer with molecular sieve performs. The site for an air-cooled dryer should be well ventilated, so heat can be carried away, and readily accessible to aid maintenance. The maximum ambient temperature for a refrigerated dryer is about 100° to 120° F. Higher temperatures prevent the dryer from exchanging heatView more
Membrane-Type Dryers with molecular sieve are gas-separation devices. They consist of miniature membrane tubes made of plastic materials compounded to allow water vapor to pass through when there is a vapor pressure differential. They work as your lungs do, venting water vapor each time you exhale.View more
Tube-in-tube refrigeration dryers with molecular sieve operate by cooling a mass of aluminum granules or bronze ribbon that in turn cools the compressed air. As the tube-to-tube refrigeration dryer cycles, a thermometer in the granule mass senses its temperature. As the temperature rises, a switch turns on the refrigeration unit.View more
dryers with molecular sieve with molecular sieve remove water vapor from the air, which lowers its dew point – the temperature to which air can be cooled before water vapor begins to condense. In broadest terms, there are four basic types of industrial compressed air dryers with molecular sieve with molecular sieve: deliquescent, regenerative desView more
The cost of replacement parts, labor, standby inventory, and downtime can have a devastating effect on a plant’s bottom line. Eliminating even one of them by drying a system’s Compressed Air Molecular Sieve Molecular Sieve will offset the cost of installing and operating the equipment.View more
Having a hot Molecular sieve BENEFITS OF A HOT AIR DRYER can be extremely beneficial for your plastics business, making your manufacturing easier and more efficient. This machine does its best work with non-hygroscopic resins and can be attached to the processing machinery for your plastic parts or to be set next to a molding machine. WhenView more
molecular sieve, also known as a desiccant, catalyst carrier, de-fluorination, adsorbent, and aluminum oxide, has a highly porous structure that allows it to showcase its pole-molecular absorbent nature, in addition to several outstanding features like high absorbent rate and high selectivity. It is important for industriesView more
Cracked gas dehydration?Cracked gas exiting a caustic wash tower is saturated with water vapor. Water must be removed before the gas undergoes cryogenic fractionation to avoid formation of hydrates and ice. Gas from the caustic wash tower is compressed and then cooled to remove as much entrained water as possible before it is sent to molecular sieView more
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