HMW Series Desiccant Air Dryers
Desiccant compressed air dryers
Air flow rates 254m³/h to 4,280 m³/h
Pressure:
Standard: 10 bar
Option: 16 bar
Benefits and Features:
- Internal-heat regeneration system
- Economical regeneration process
- Long life of the heater elements and desiccant
- Energy saving with dew point control
- Mechanically stable, low-dusting desiccant
- Inlet and outlet filters included
Share
HMW series desiccant dryers use electrical heaters inside of the desiccant bed for regeneration of the saturated desiccant. The direct contact of the finned heater tubes with the desiccant bed makes most efficient use of the regeneration energy.
A small part of the compressed air flow removes the moisture and cools down the desiccant. No ambient pollution or moisture affects the regeneration process. A parallel drying phase during cycle change-over eliminates any temperature or dew point fluctuation. With the optional Energy Management System device EMS, the standard drying time per receiver of 4 hours can be prolonged to a maximum of 20 hours, resulting in energy savings of up to 80%.
Energy management system (EMS) for heatless desiccant dryers
Desiccant air dryers have to cope with different operating conditions and are therefore selected for the most adverse conditions. According to ISO 7183, the standard operating conditions are: working temperature 35°C and operating pressure 7 bar gauge.
A higher temperature or a lower operating pressure requires a higher adsorption and regeneration capacity.
On the other side, during phases of reduced operation (at night, during weekends or under winter conditions), where the maximum adsorption performance is not required, the regeneration performance should continually adapt to the changing conditions.
|
Model |
Flow Rate |
Connection |
|
|
m³/h |
|
|
HMW 74 |
245 |
R 1" |
|
HMW 120 |
400 |
R 1/2" |
|
HMW 196 |
653 |
R 1 1/2" |
|
HMW 236 |
785 |
DN 80 |
|
HMW 308 |
1.026 |
DN 80 |
|
HMW 385 |
1.282 |
DN 80 |
|
HMW 575 |
1.916 |
DN 80 |
|
HMW 675 |
2,250 |
DN 80 |
|
HMW 801 |
2.670 |
DN100 |
|
HMW 1077 |
3,590 |
DN100 |
|
HMW 1284 |
4.280 |
DN100 |
1 Inlet flows are established in accordance with ISO 7183(based on 1 bar (abs) 0% of at 7 bar (g) working pressure and inlet temperature 35°C (PDP -40°)
Contact us to receive more information about correction factors and other data.
|
Model |
Dimensions (in mm) | ||
|
|
A |
B |
C |
|
HMW 74 |
704 |
596 |
2147 |
|
HMW 120 |
873 |
652 |
2,230 |
|
HMW 196 |
909 |
702 |
2570 |
|
HMW 236 |
1054 |
721 |
2789 |
|
HMW 308 |
1089 |
767 |
2760 |
|
HMW 385 |
1404 |
877 |
3021 |
|
HMW 575 |
1554 |
916 |
3021 |
|
HMW 675 |
1554 |
1021 |
3031 |
|
HMW 801 |
1759 |
1011 |
3165 |
|
HMW 1077 |
1834 |
1171 |
3174 |
|
HMW 1284 |
1933 |
1217 |
3174 |
Features
HMW series desiccant dryers use electrical heaters inside of the desiccant bed for regeneration of the saturated desiccant. The direct contact of the finned heater tubes with the desiccant bed makes most efficient use of the regeneration energy.
A small part of the compressed air flow removes the moisture and cools down the desiccant. No ambient pollution or moisture affects the regeneration process. A parallel drying phase during cycle change-over eliminates any temperature or dew point fluctuation. With the optional Energy Management System device EMS, the standard drying time per receiver of 4 hours can be prolonged to a maximum of 20 hours, resulting in energy savings of up to 80%.
Energy management system (EMS) for heatless desiccant dryers
Desiccant air dryers have to cope with different operating conditions and are therefore selected for the most adverse conditions. According to ISO 7183, the standard operating conditions are: working temperature 35°C and operating pressure 7 bar gauge.
A higher temperature or a lower operating pressure requires a higher adsorption and regeneration capacity.
On the other side, during phases of reduced operation (at night, during weekends or under winter conditions), where the maximum adsorption performance is not required, the regeneration performance should continually adapt to the changing conditions.
Specifications
|
Model |
Flow Rate |
Connection |
|
|
m³/h |
|
|
HMW 74 |
245 |
R 1" |
|
HMW 120 |
400 |
R 1/2" |
|
HMW 196 |
653 |
R 1 1/2" |
|
HMW 236 |
785 |
DN 80 |
|
HMW 308 |
1.026 |
DN 80 |
|
HMW 385 |
1.282 |
DN 80 |
|
HMW 575 |
1.916 |
DN 80 |
|
HMW 675 |
2,250 |
DN 80 |
|
HMW 801 |
2.670 |
DN100 |
|
HMW 1077 |
3,590 |
DN100 |
|
HMW 1284 |
4.280 |
DN100 |
1 Inlet flows are established in accordance with ISO 7183(based on 1 bar (abs) 0% of at 7 bar (g) working pressure and inlet temperature 35°C (PDP -40°)
Contact us to receive more information about correction factors and other data.
Dimensions
|
Model |
Dimensions (in mm) | ||
|
|
A |
B |
C |
|
HMW 74 |
704 |
596 |
2147 |
|
HMW 120 |
873 |
652 |
2,230 |
|
HMW 196 |
909 |
702 |
2570 |
|
HMW 236 |
1054 |
721 |
2789 |
|
HMW 308 |
1089 |
767 |
2760 |
|
HMW 385 |
1404 |
877 |
3021 |
|
HMW 575 |
1554 |
916 |
3021 |
|
HMW 675 |
1554 |
1021 |
3031 |
|
HMW 801 |
1759 |
1011 |
3165 |
|
HMW 1077 |
1834 |
1171 |
3174 |
|
HMW 1284 |
1933 |
1217 |
3174 |