It has two drying towers filled with the Activated alumina or molecular sieve desiccant and they alternate in process every 4-hour automatically. Compressed air directly from air compressor discharge is taken to air dryer inlet through pipelines at 130 degree celsius (Min) temperature. This hot air is passed one drying vessel where saturated desiccant is regenerated by this high temperature air. After picking up moisture from bed, this air is cooled in an intermediate cooler. Here moisture is condensed and removed by an auto drain trap. At 40 degree celsius temperature this air passes through second drying vessel where moisture gets adsorbed and dry air comes out. Cycle time is 4-hours regeneration and 4-hours drying. After 4-hours changeover of vessels takes place. In the regeneration cycle heating of the bed is only for 2-hours and thereafter the bed is cooled by dry air. Dry air is cooled to 40 degree celsius temperature before going out of the air dryer. Due to NIL operating cost, this design is becoming more popular. To utilize full heat energy of compressor discharge, HOC type dryer should be located very close to compressor discharge. These dryers are recommended only for Dew-Point (-) 40 degree celsius and the capacities above 300 Nm3 /hr. In smaller capacity the hot air discharge does not reach 140 degree celsius and hence this design can't be used.
Incepted in the year 2003, it is one of the prominent organizations engaged in manufacturing, supplying and exporting of industrial plants and equipment like industrial filters, industrial heat exchangers, ammonia cracking units, exo gas generators, gas exchangers, gas generators, compressed air / gas drying system, pressure vessels and others.
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