HEAT GENERATED
Heat of Compression Air Dryers
In Heat of compression air dryers, we use hot compressed (120 deg C to 180 deg) air as regeneration medium for regenerating the saturated desiccant without any additional heater. Hence running cost for HOC Dryers are virtually Nil. The hot air which is used for regeneration is cooled by after cooler to bring down the temperature to 45 deg C and less, is fed into another tower for Adsorption. These Dryers are working on 8 + 8 Hrs cycle. In 8 Hrs. Cycle the hot air is fed for regeneration of desiccant bed for 4.30 Hrs and remaining 2.30 Hrs. a changeover takes place where the air is first cooled in an after cooler to bring down the temperature to less than 45 deg C, then it is dried. Before going to the outlet, It cools the regenerated desiccant bed, thus bringing it down to ambient temperature. This cycle is reversed for the next 8 Hrs.
Principle of Operation In Heat of compression air dryers, we use hot compressed (120 deg C to 180 deg) air as regeneration medium for regenerating the saturated desiccant without any additional heater. Hence running cost for HOC Dryers are virtually Nil. The hot air which is used for regeneration is cooled by after cooler to bring down the temperature to 45 deg C and less, is fed into another tower for Adsorption. These Dryers are working on 8 + 8 Hrs cycle. In 8 Hrs. Cycle the hot air is fed for regeneration of desiccant bed for 4.30 Hrs and remaining 2.30 Hrs. a changeover takes place where the air is first cooled in an after cooler to bring down the temperature to less than 45 deg C, then it is dried. Before going to the outlet, It cools the regenerated desiccant bed, thus bringing it down to ambient temperature. This cycle is reversed for the next 8 Hrs.
Specifications:
Specifications are subjected to change as per customer requirement.
Designed for Air Inlet Pressure 7 Kg/cm2 Designed for Air Inlet temperature 45oC Designed for Ambient temperature 40oC Desiccant : Activated alumina / Silica gel based on temperature.
In Heat of compression air dryers, we use hot compressed (120 deg C to 180 deg) air as regeneration medium for regenerating the saturated desiccant without any additional heater. Hence running cost for HOC Dryers are virtually Nil. The hot air which is used for regeneration is cooled by after cooler to bring down the temperature to 45 deg C and less, is fed into another tower for Adsorption. These Dryers are working on 8 + 8 Hrs cycle. In 8 Hrs. Cycle the hot air is fed for regeneration of desiccant bed for 4.30 Hrs and remaining 2.30 Hrs. a changeover takes place where the air is first cooled in an after cooler to bring down the temperature to less than 45 deg C, then it is dried. Before going to the outlet, It cools the regenerated desiccant bed, thus bringing it down to ambient temperature. This cycle is reversed for the next 8 Hrs.
Principle of Operation In Heat of compression air dryers, we use hot compressed (120 deg C to 180 deg) air as regeneration medium for regenerating the saturated desiccant without any additional heater. Hence running cost for HOC Dryers are virtually Nil. The hot air which is used for regeneration is cooled by after cooler to bring down the temperature to 45 deg C and less, is fed into another tower for Adsorption. These Dryers are working on 8 + 8 Hrs cycle. In 8 Hrs. Cycle the hot air is fed for regeneration of desiccant bed for 4.30 Hrs and remaining 2.30 Hrs. a changeover takes place where the air is first cooled in an after cooler to bring down the temperature to less than 45 deg C, then it is dried. Before going to the outlet, It cools the regenerated desiccant bed, thus bringing it down to ambient temperature. This cycle is reversed for the next 8 Hrs.
Specifications:
Specifications are subjected to change as per customer requirement.
Designed for Air Inlet Pressure 7 Kg/cm2 Designed for Air Inlet temperature 45oC Designed for Ambient temperature 40oC Desiccant : Activated alumina / Silica gel based on temperature.
| MODLE | FLOW Nm3/min | FLOW CFM |
| SPAHDC 500 | 500 | 11 |
| SPAHDC 1000 | 1000 | 22 |
| SPAHDC 1500 | 1500 | 33 |
| SPAHDC 2000 | 2000 | 44 |
| SPAHDC 2500 | 2500 | 55 |
| SPAHDC 3000 | 3000 | 66 |
| SPAHDC 3500 | 3500 | 77 |
| SPAHDC 4000 | 4000 | 88 |
| SPAHDC 4500 | 4500 | 99 |
| SPAHDC 5000 | 5000 | 110 |
