压缩空气干燥器紧缩的空气中过多的水,无论是液体或蒸气阶段,干燥器配件,双塔空气干燥器,单塔空气干燥器可能会给用户操作带来的各式各样的问题。运用冷冻原理制成的紧缩气体除水净化设备,来自管网上游含有大量饱和水汽的紧缩气体通过冷却处置后,绝大部分水蒸汽冷凝成液态水滴,经气水分离后被除掉,所获的枯燥紧缩气体可以满意绝大部分工业的需要与吸附式枯燥机不同的冷冻式枯燥机在除水过程中,能趁便除掉紧缩气体中的一部分油雾。对紧缩气体的前置预处置要求没吸附式枯燥机那样严格。
压缩空气干燥器紧缩的空气中过多的水,无论是液体或蒸气阶段,干燥器配件,双塔空气干燥器,单塔空气干燥器可能会给用户操作带来的各式各样的问题。运用冷冻原理制成的紧缩气体除水净化设备,来自管网上游含有大量饱和水汽的紧缩气体通过冷却处置后,绝大部分水蒸汽冷凝成液态水滴,经气水分离后被除掉,所获的枯燥紧缩气体可以满意绝大部分工业的需要与吸附式枯燥机不同的冷冻式枯燥机在除水过程中,能趁便除掉紧缩气体中的一部分油雾。对紧缩气体的前置预处置要求没吸附式枯燥机那样严格。
Compressed air dryer compressed air excessive water in the air, whether liquid or vapor stage, dryer accessories, double tower air dryer, single tower air dryer may bring various problems to the user's operation. The compressed gas dewatering and purifying equipment based on refrigeration principle, which contains a large amount of saturated water vapor from the upstream of the pipeline network, condenses most of the water vapor into liquid water droplets after cooling treatment, and is removed after gas-water separation. The dry compressed gas obtained can satisfy the needs of most industries and the adsorption dryness. In the dewatering process, different freezing dryers can remove part of the oil mist in the compressed gas. The requirement of pre-disposal of compressed gas is not as strict as that of adsorption dryer.
包括冻结室外空气管路,加快设备腐蚀速度和形成产品污染。紧缩空气枯燥器有各式各样的类型,功能特征通常是由露点来界说的通过"压力改变"变压吸附原理)来到达枯燥作用。因为气体容纳水汽的才干与压力成正比,其枯燥后的一部分气体(称为再生气)减压胀大至大气压,这种压力改变使胀大气体变得更枯燥,然后让它流过需再生的枯燥剂层(选用颗粒活性碳吸附)即已吸收足够水汽的枯燥塔)枯燥的再生气吸出枯燥剂里的水份。
It includes freezing outdoor air pipeline, accelerating equipment corrosion speed and forming product pollution. There are various types of compressed air dryer. Its functional characteristics are usually defined by dew point, and the drying effect is achieved through the principle of pressure swing adsorption (PSA). Because the ability of the gas to hold water vapor is proportional to the pressure, a part of the dry gas (called regenerated gas) is decompressed and expands to the high pressure. This pressure change makes the expanding body more boring, and then it flows through the drying agent layer that needs regeneration (using particulate activated carbon adsorption), that is, the drying tower that has absorbed enough water vapor). Dry regeneration gas sucks out the water in the drying agent.
