Name: Industrial Desiccant Dehumidifier Dehumidifying Capacity: 12kg/h Process air flow: 2000m3/h Reactivation air flow: 740m3/h Voltage: 380V Current: 36 A Power rating: 16KW  Max power: 18KW Applied Temperature: -20°C-70°C Body: Stainless Steel Dimension: 780*1000*1490mm Applications: Used for drying basement, garage, cellar,  crawl space, small space Energy Efficient Desiccant Rotor Dehumidifier For Cold Storage 18KW 380V

RY-2000M series dehumidifiers conform to both harmonised European Standards and to CE marking specifications.

The RY-2000M desiccant dehumidifier is designed to efficiently dehumidify in low moisture applications. Its airtight construction delivers accurate conditions and optional features provide versatility to adapt the system for specific applications.
The electrical control system conforms to EN 60204 (IEC204) standards. The electrical components are mounted on busbars and are constructed of halogen-free plastic. The electrical system is designed for up to 400V and 70º C. MX Series dehumidifiers conform to both harmonised European Standards
and to CE marking specifications.

Besides, RY-M rotor technology is the precision seals which divide the air distribution chamber. These provide a precise airflow balance for dehumidification and reactivation while allowing for alternative fan placement and rotor sectioning.

How Desiccant Dehumidification Works:

Desiccant dehumidifiers perform exceptionally well when used in cooler climates, or when a low dewpoint, deep drying or low humidity levels are required because they dehumidify through adsorption. Since desiccant dehumidifiers do not produce water, they will work effectively down to sub zero temperatures. Their operation is simplistic yet extremely effective and reliable.

In a typical dry desiccant system, the desiccant is mounted on a rotating wheel.   As the wheel turns, the desiccant passes alternately through the incoming process air where the moisture is adsorbed and through a “regenerating” zone where the desiccant is dried and the moisture expelled.  The wheel continues to rotate and the adsorbent process is repeated. 

Typically, about three-fourths of the desiccant wheel is exposed to the incoming air throughout the process.  During regeneration, the desiccant is heated by a direct-fired gas burner or indirect-fired water or steam coil.

Process Inlet—Air to be dried.  May be outside air, inside air or, more commonly, a mixture of air with high humidity content.

Process Outlet—Air is dried by desiccant wheel.  May be cooled, filtered or otherwise handled.  Relative humidity is substantially lower and temperature slightly raised.

Reactivation Inlet—Air flow, usually outside air, that drives moisture off wheel.   Reactivation air is heated by direct-fired gas burner or indirect-fired water or steam coils.

Reactivation Outlet—Hot, wet air from wheel is exhausted outside or passed through an air-to-air heat exchanger. Using a heat exchanger to preheat incoming process air offers substantial savings in northern climates.

Applications:

This’s designed for cold storage, warehouses, production facilities etc. Regeneration by electricity, steam or gas. 

Heat recovery system available for even higher efficiency.

Specifications:

Model	RY-2000M
Dehumidifying capacity(20°C,60%)	12kg/h
Process air flow	2000m3/h
Reactivation air flow	740m3/h
Applied Temperature	-20°C-70°C
Max power	18KW
Power rating	16KW
Voltage	380V
Current	36A
Dimension	780*1000*1490mm
Weight	195kg
Certification