Cross circulation efficient dryers are an advanced drying system that utilizes a conveyor belt to transport the material to a drying chamber where hot air penetrates the material from top to bottom to remove moisture. Suitable for drying large capacity of aqua feed, pet food and soya protein products, etc. This design promotes efficient heat transfer and moisture removal, avoid problems such as agglomeration and deterioration of materials during the drying process, and improve production efficiency.
Model | Three-layer six-meter Conveyor oven (dryer) (500kg) | Three-layer six-meter conveyor oven (dryer) (1T) | Four-layer eight-meter conveyor oven (dryer) (1.5-2T) | Four-layer combined conveyor oven |
Function | Remove moisture | Remove moisture | Remove moisture | Remove moisture |
Products | Protein, feed | Protein, feed | Protein, feed | Protein, feed |
Total power | 9kW | 15.74kW | 31.85kW | 42kW |
Dimension (L×W×H) | 6580x1640x3100mm | 6580x1980x3270mm | 8500x3000×4100mm | 8800x2980×4100mm |
Drying time | 15min-45min | 15min-45min | 19-60min | 11-40min |
Belt width | 900mm | 1200mm | 1200mm | 2000mm |
Heating temperature | 110--130℃ | 110--130℃ | 110--130℃ | 110--130℃ |
Material thickness | 1.6-5cm (at the bulk density of 400kg/m³) | 3-6cm | 4cm-6cm (at the bulk density of 400kg/m³) | 4cm--8cm |
Capacity | 400kg protein 500kg feed | 1T feed 600kg protein | 1.5-2T feed 800kg protein | 3t or more (more modules can be added) |
Key Features:
1. Enhanced Drying Efficiency:
The cross-flow design allows hot air to flow across the material being dried, promoting better heat transfer and moisture removal.
2. Uniform Drying:
The configuration minimizes temperature gradients, ensuring consistent drying across the entire product surface.
3. Flexible Airflow Control:
Operators can adjust airflow rates and temperature settings, tailoring the drying process to different materials and moisture levels.
4. Energy Efficiency:
Cross-flow systems often utilize recirculation of exhaust air, reducing energy consumption by maximizing the use of heated air.
5. Compact Design:
The design often requires less floor space compared to traditional drying systems, making it suitable for facilities with limited space.
6. Low Product Damage:
Gentle airflow minimizes mechanical stress on delicate materials, reducing the risk of damage during the drying process.
7. Easy Maintenance:
Designed for easy access to components, facilitating routine maintenance and cleaning.
Product Description:
The cross circulation dryer comprising a material distribution unit, a hot air circulation mechanism, a dehumidification system, and a transmission assembly. It is designed with advanced heat retention features and an efficient heat circulation setup to ensure rapid drying of materials.
Fabric System
The material distribution unit is completely sealed and includes a swing distributor, which facilitates even transfer of materials onto the conveyor chain plate. This unit is engineered with venting and buffering designs that slow down material flow, effectively minimizing breakage rates. The fabric system enhances production efficiency, reduces labor costs, and guarantees consistent quality and reliability of the final products.
Hot Air Circulation System
The hot air circulation system's primary role is to deliver heated air throughout the equipment or processing area. By circulating hot air, it achieves precise temperature control and facilitates the heating and drying of materials. Our cross circulation dryer features multiple heat exchangers and circulating fans, employing a dual cross-flow method that swiftly eliminates moisture from the materials.
Dehumidification System
Utilizing negative pressure dehumidification technology, the dehumidification system reduces air humidity, inhibits mold growth, and effectively diminishes odors. This system not only enhances productivity but also protects both the products and equipment from moisture-related issues.
Transmission System
The transmission system employs frequency conversion control to convey materials via chain plates. Baffles on either side of the chain plate create a double-layer barrier with frame baffles to prevent material spillage. Materials transition from the upper layer to the lower layer through a receiving transition plate, allowing users to control the direction of flow. Additionally, the drying time can be adjusted based on specific drying requirements, offering flexibility and precision in the drying process.