The Vibrating Fluid Bed Dryer is an advanced drying solution designed to effectively remove moisture from pre-dried rice and bread crumbs. Utilizing a combination of vibration and fluidization, this dryer promotes uniform drying and optimal heat transfer, resulting in high-quality end products.
Model | Vibrating Fluid Bed Dryer |
Capacity | 150Kg/Hr (Final Products) |
Dimension | 5000*1100*1800 |
Fluid Bed Size | 4500*280*150mm |
Power | 6.7Kw |
Gas Consumption | 5-6Kg/Hr |
Moisture Removal | 10% |
Application Range | Breadcrumb, Rice Power |
Key Features:
1. Efficient Heat Transfer: The vibrating motion helps to fluidize the material bed, ensuring even contact with the hot air, which enhances heat transfer and accelerates the drying process.
2. Uniform Drying: The design allows for consistent moisture removal throughout the material, reducing the risk of uneven drying and product degradation.
3. Energy Efficiency: The fluid bed system minimizes energy consumption while maintaining effective drying performance, save 30%-50% energy in comparison with traditional ones.
4. Easy Maintenance: The modular construction allows for straightforward cleaning and maintenance, ensuring consistent performance and longevity.
Product Description:
Vibrate fluid bed dryer is widely used in the drying, cooling, and humidification of powders in the chemical, light industry, food, plastic, grain and oil, slag, salt, sugar and other industries. Material is introduced through the feed port and, driven by vibration forces, is propelled forward in a continuous horizontal motion. As hot air passes through the fluidized bed, it exchanges heat with the moist material, allowing the wet air to exit through a cyclone separator before being discharged. Dry material is then expelled from the discharge port.
Powered by a reliable vibrating motor, this dryer operates smoothly, producing minimal noise while ensuring a long service life and easy maintenance. The temperature distribution within the bed is uniform, eliminating the risk of localized overheating. The fluidization process is consistent with no dead zones, and both the material layer thickness and the machine's speed and amplitude can be easily adjusted within the design parameters, offering excellent versatility for various applications. With minimal impact on fragile materials, it can effectively handle irregular particle sizes without compromising performance. The fully enclosed structure prevents cross-contamination, maintaining a clean environment, while enabling continuous operation. For high-moisture materials, multiple units can be connected in series to meet production demands efficiently.