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1. High-pressure or low-pressure drying systems can be provided according to customer requirements. The specially designed drying duct minimizes the equipment height on the premise of achieving high drying efficiency, facilitating installation and maintenance.
2. Equipped with a heat energy recovery unit to improve thermal efficiency.
3. Equipped with an automatic finished product moisture adjustment device to ensure stable and accurate moisture content of dried materials.
4. Equipped with a material cooling system to guarantee product quality and reduce energy consumption by up to 50%.
During the drying process, fresh and clean air is heated by a heat exchanger and then mixed with material particles conveyed by a lifter (a specially designed sealed screw conveyor can also be used for particle feeding). Using hot air as the medium, heat is transferred to the material particles, converting the moisture attached to the particle surface and part of the internal moisture into vapor, which mixes with the air flow in the drying duct.
Finally, a cyclone separator and a rotary airlock valve separate the materials from the air and water vapor, thus reducing the moisture content of the materials.
The dried materials enter the next process through the discharge outlet, while the exhaust gas is discharged through the main pipe of the induced draft fan and the exhaust emission pipe.
Pneumatic Dryer | |||||
Model | Processing Capacity(ton) | Installed Power(kw) | Heat Transfer Area(m) | Starch Moisture Content(%) | Net Weight(kg) |
FD1-2 | 1-2t | 50-60 | 580 | 13-18 | 8400 |
FD3-4 | 3-4t | 80-110 | 1584 | 13-18 | 10200 |
FD5-6 | 5-6t | 180-220 | 2640 | 13-18 | 12300 |
FD8-10 | 8-10t | 330-400 | 5000 | 13-18 | 15800 |
1. High-pressure or low-pressure drying systems can be provided according to customer requirements. The specially designed drying duct minimizes the equipment height on the premise of achieving high drying efficiency, facilitating installation and maintenance.
2. Equipped with a heat energy recovery unit to improve thermal efficiency.
3. Equipped with an automatic finished product moisture adjustment device to ensure stable and accurate moisture content of dried materials.
4. Equipped with a material cooling system to guarantee product quality and reduce energy consumption by up to 50%.
During the drying process, fresh and clean air is heated by a heat exchanger and then mixed with material particles conveyed by a lifter (a specially designed sealed screw conveyor can also be used for particle feeding). Using hot air as the medium, heat is transferred to the material particles, converting the moisture attached to the particle surface and part of the internal moisture into vapor, which mixes with the air flow in the drying duct.
Finally, a cyclone separator and a rotary airlock valve separate the materials from the air and water vapor, thus reducing the moisture content of the materials.
The dried materials enter the next process through the discharge outlet, while the exhaust gas is discharged through the main pipe of the induced draft fan and the exhaust emission pipe.
Pneumatic Dryer | |||||
Model | Processing Capacity(ton) | Installed Power(kw) | Heat Transfer Area(m) | Starch Moisture Content(%) | Net Weight(kg) |
FD1-2 | 1-2t | 50-60 | 580 | 13-18 | 8400 |
FD3-4 | 3-4t | 80-110 | 1584 | 13-18 | 10200 |
FD5-6 | 5-6t | 180-220 | 2640 | 13-18 | 12300 |
FD8-10 | 8-10t | 330-400 | 5000 | 13-18 | 15800 |
