| Heating Mode: | Convective |
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| Material Status: | Powder |
| Atomization: | Pressure Atomization |
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Shipping Cost:
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| Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Suppliers with verified business licenses
Audited Supplier 
| Model | LSP-8000S |
| Max capacity | 1500-2000ml/h |
| Temperature range of Inlet air | 80ºC -250ºC |
| Temperature range of outlet air | 30ºC -180ºC |
| Precision of temperature | ± 1 ºC |
| Dryer time | 1.0-1.5 S |
| Min. feeding | 50ml |
| Air compressor power | 0.58 kW |
| Drying air volume | 2787L/min |
| Drying chamber diameter | ¢220 mm |
| Spray system | Two-fluid spray atomization structure with standard 0.7mm nozzle options of 0.5/1.0/1.5/2.0mm |
| Power | 4.5KW 220V |
| Voltage | 220V |
| Dimensions | 800×600×1300 ( mm ) L x W x H |
| Weight | 100kg |
FAQ
Q1: Can you explain how the temperature control works in this lab-scale spray dryer?
A1: Certainly! Our lab-scale spray dryer utilizes PID constant temperature control technology, ensuring precise regulation of the drying temperature with an accuracy of ±1°C. This technology maintains a consistent temperature throughout the drying process, allowing researchers to achieve reproducible results across experiments.
Q2: What safety features are integrated into the spray dryer to ensure user protection?
A2: Safety is paramount in our lab-scale spray dryer. It includes automatic nozzle unblocking and shutdown protection features. In the event of nozzle blockage, the system automatically clears the blockage to ensure continuous operation. Moreover, the shutdown protection prevents the fan from turning off when the heater temperature exceeds 60°C, minimizing safety risks during operation.
Q3: How does the atomization structure contribute to the quality of the dried powder?
A3: The spray dryer features a high-precision stainless steel atomization structure for two-fluid spray. This design ensures that the diameter of the powder spray is normally distributed, resulting in finely distributed particles with excellent fluidity. This uniform atomization contributes to the production of high-quality dried powder suitable for various applications.
Q4: Can you explain the functionality of the transparent borosilicate glass used in the dryer?
A4: Absolutely! The spray, drying, and collecting device is constructed with transparent borosilicate glass, providing full visibility of the experimental process. This transparency allows researchers to closely monitor the spray drying process, facilitating timely adjustments and ensuring optimal outcomes.
Q5: How user-friendly is the control interface of the spray dryer?
A5: The control interface of our lab-scale spray dryer is designed to be highly user-friendly. It features a color touch screen interface with parameter LCD, offering intuitive control over the drying process. Users can easily monitor and adjust parameters, enhancing operational efficiency and experimental control.
Our Advantages
1. Advanced Touch Screen Interface: The lab-scale spray dryer features a state-of-the-art color touch screen interface with a parameter LCD, offering users intuitive and precise control over the drying process. This user-friendly interface enhances operational efficiency and simplifies experimentation setup and monitoring.
2. Precision Temperature Control: With real-time regulation of PID constant temperature control technology, this spray dryer ensures accurate temperature control with a heating temperature accuracy of ±1°C. This level of precision enables researchers to achieve consistent and reproducible results across experiments, critical for scientific reliability and data integrity.
3. Transparent Design for Enhanced Visibility: The spray, drying, and collecting device is constructed of transparent, high-quality borosilicate glass, providing full visibility of the experimental process. This transparency allows researchers to closely monitor the spray drying process, facilitating timely adjustments and ensuring optimal experimental outcomes.
4. Efficient Atomization Structure: Utilizing a high-precision stainless steel atomization structure for two-fluid spray, this spray dryer produces a finely distributed powder spray with excellent fluidity. This ensures uniform drying and particle formation, crucial for obtaining high-quality dried products suitable for various applications.
5. Built-in Safety Features and Convenience: The spray dryer is equipped with built-in safety features such as automatic nozzle unblocking and shutdown protection. Additionally, it includes a feed peristaltic pump for flexible feed volume adjustment, catering to diverse experimental requirements while ensuring safety and convenience during operation.
Company Profile
Suppliers with verified business licenses
Audited Supplier 
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