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DSE, DSS and DHD Series Heat-Les Desiccant Dryers |
Please choose from the following:
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Industry-leading Desiccant Beads
- Industrial grade activated alumina desiccant beads offer enhanced surface area and high crush strength which prolongs bed life
- Large desiccant beads ensure 4.8 seconds of contact time.. allows wet, saturated air at the dryer inlet to be dried to the required dew point.
- Industrial grade desiccant ensures top performance over expected 3 to 5 years of desiccant bed life.
- Large flow diffusers ensure even flow distribution through the bed and eliminate channeling.
- Towers are sized so that the air velocity through the bed won't fluidize the desiccant which prevent bed movement and desiccant dusting.
- Up-flow drying allows water and heavy contaminants to drop out of the air stream as they enter a tower which protects the bed from contamination.
- Cleanable stainless steel flow diffusers ./ support screens and separate fill and drain ports for ease of desiccant replacement.
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Automatic Energy with EMS- Energy Management Systems
DSE Series with the EMS -Energy Management Systems automatically computes purge air requirements to deliver maximum energy savings in proportion to the demand on the system. The energy savings go right to your bottom line. The EMS Controller features vacuum fluorescent test display that communicate from one of four ISO 8573, pressure dew point settings for seasonal efficiencies.
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Load Selectable Savings
DSS Series provides load selectable energy savings with Purge Economizer. Tailor then drying cycles, to match reduced peak air demands. This advance controller offer 8 capacity settings, in 10 percent increments and 4 pressure dew point settings to further tune your savings and, adapt climatic changes in your environment. |
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-40 degree fahrenheit Dew Point Performance- Pure and Simple
DHD Series presents traditional heatless drying technology. A simple timer based controller delivers precise operation to deliver maximum value to application that operate at or near full capacity. Automatic time controlled bed regeneration cycles offer consistent performance and economy of purchase. |
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Moist filtered compressed air enters the pressurized on-line desiccant-filled drying Tower 1 through AccuShift valve (A). Up-flow drying enables the desiccant to strip the air stream of moisture. Clean, dry compressed air exits through AccuShift valve (B) to feed the air system. Tower 2 (when in regeneration mode) depressurizes to atmosphere through muffler (C) when valve (D) opens. A portion of dry compressed(purge air) is diverted before exiting (B) and passes through off-line Tower 2 and exits at valve (D) to desorb the moisture from the desiccant. Once desorbed, valve (D) closes and Tower 2 is repressurized. At Tower shift-over, valve (E) will open, causing AccuShift Valves (A & B) to shift. Tower 2 will be placed on line to dry the bed. Operations will shift and Tower 1 will be regenerated. |
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