Brands |
N/A Kaeser Compressors |
Model |
N/A KADW 30A |
Outlet Dew Point |
N/A -100 ºF-40 ºF |
Inlet Air Flow at -40 ºF Outlet Dew Point |
N/A 30 scfm |
Inlet Air Flow at -100 ºF Outlet Dew Point |
N/A 24 scfm |
Average Purge Flow |
N/A 6.2 scfm |
Maximum Purge Flow |
N/A 8.2 scfm |
Average Downstream Air Available at -40 ºF Outlet Dew Point |
N/A 23.8 scfm |
Maximum Downstream Air Available at -40 ºF Outlet Dew Point |
N/A 21.8 scfm |
Average Downstream Air Available at -100 ºF Outlet Dew Point |
N/A 17.8 scfm |
Maximum Downstream Air Available at -100 ºF Outlet Dew Point |
N/A 15.8 scfm |
Maximum Working Pressure |
N/A 150 psig |
Minimum Working Pressure |
N/A 50 psig |
Enclosure Standard |
N/A NEMA 1 NEMA 4 (optional) |
Pressure Drop |
N/A < 5 psi |
Ambient Temperature Range |
N/A 40 to 120 ºF |
Capacity at 100 Pounds Per Square Inch Gauge (psig) Pressure |
N/A 7 to 50 scfm |
Features |
N/A
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Recommended Accessories |
N/A
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Additional Information |
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The right dryer for you Most compressed air applications can achieve the required air quality by using a refrigerated dryer in combination with proper filtration. However, in cases where compressed air is exposed to freez-ing temperatures or where the product, process, or equipment is highly sensitive to moisture, Kaeser offers a complete line of desiccant dryers specifically designed to meet low dew points and deliver energy savings. Innovation you can trust With a cutting edge research and development team committed to building industry-leading products, Kaeser continues to deliver better solutions to meet our customers' compressed air needs. Kaeser's expertise and world-wide reputation for superior reliability and efficiency offer great performance and peace of mind. Quality in every detail Desiccant dryer performance and reliability are driven by component quality. Kaeser's valves and actuators are designed for consistent dew point performance and low pressure drop. Additionally, desiccant bed symmetry is selected to ensure uniform flow distribution and maximize contact time, while the spherical activated alumina desiccant allows for long service life and minimizes dusting. It also has a high surface-to-volume ratio and great affinity for water vapor for superior adsorption. Savings with proper application Proper planning with the help of Kaeser's system design engineers can save you money on capital and energy costs. Desiccant dryers have a higher purchase price and overall operating costs than refrigerated dryers and should be applied to the portions of a system requiring dew points below that of a refrigerated dryer. Kaeser can design a system that will efficiently deliver air quality suitable for your application. Desiccant dryer basic operation Kaeser desiccant dryers use the principles of adsorption and desorption and alternately cycle the compressed air through twin desiccant towers. As the vapor-laden air flows through one tower, the moisture is adsorbed onto the desiccant. Meanwhile, in the other tower, "purge air" flows through, evaporates the water on the desiccant, and carries it out of the tower as vapor. |
Note |
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Inlet flows are established in accordance with CAGI (Compressed Air and Gas Institute) standard ADF-200, Dual Stage Regenerative Desiccant Compressed Air Dryers - Methods for Testing and Rating. Conditions for rating dryers are: Inlet pressure - 100 psig; Inlet temperature - saturated at 100 ºF. Average Purge Flow is the total amount of air used to purge and repressurize off-stream towers averaged over the cycle time. Maximum purge flow is the flow rate through the off-stream tower during that portion of the cycle the purge/repressurization valve is open. |
