High-Efficiency Thermal Processing System with Precise Temperature Control
Introduction
The ZYLAB Fluidized Bed Calcination Furnace is an advanced thermal processing system designed for the calcination, decomposition, oxidation, and heat treatment of powder and fine particle materials. Based on fluidization technology, the furnace uses high-speed hot airflow to suspend materials in a fluidized “boiling” state, achieving extremely efficient gas-solid heat transfer and uniform thermal processing.
The system is widely used in laboratories, research institutes, pilot-scale production, and advanced material development applications.
Working Principle
The fluidized bed calcination furnace introduces powder or fine granular materials into a high-temperature airflow environment. The particles are suspended and fully dispersed by the gas stream, greatly increasing the contact area between gas and solids for rapid heat transfer and reaction efficiency.
The system mainly consists of:
- Multi-stage suspension preheater
- Fluidized calcination chamber
- Cyclone separator
- Cooling system
- Air supply and combustion system
Process Flow
Material Preheating
Materials pass through multi-stage cyclone preheaters and exchange heat counter-currently with high-temperature exhaust gas for rapid heating.
Fluidized Calcination
Preheated materials enter the calcination chamber and remain suspended in high-temperature airflow (600–1280°C), where decomposition, oxidation, and thermal reactions are completed efficiently.
Separation and Cooling
The reacted material is separated from exhaust gas through a cyclone separator and cooled to obtain the final product.
Heat Recovery
High-temperature exhaust gas is recycled back into the preheating system to maximize thermal efficiency and reduce energy consumption.
Features of Fluidized Bed Calcination Furnace
High Heat Transfer Efficiency
- Extremely large gas-solid contact area
- Thermal efficiency above 80%
- Fast heat transfer and reaction speed
- 30–50% lower energy consumption compared with traditional rotary kilns
Uniform and Stable Product Quality
- Uniform heating without dead zones
- No local overheating or underheating
- Precise control of temperature, atmosphere, and processing time
- Stable chemical composition and material activity
Excellent Environmental Performance
- Fully enclosed system with minimal dust leakage
- Low NOₓ generation
- Supports coordinated desulfurization processes
Strong Material Adaptability
- Ideal for powders and fine particles below 1 mm
- Suitable for fine ores, tailings, waste slag, and catalyst materials
- Effective for materials difficult to process in rotary kilns or shaft kilns
Compact Structure and High Automation
- Vertical compact structure saves installation space
- Continuous automatic operation
- Stable performance and simplified maintenance
Typical Applications
- Catalyst calcination
- Battery material processing
- Powder metallurgy
- Ceramic powder heat treatment
- Rare earth material processing
- Fine chemical materials
- Mineral roasting and decomposition
- Waste residue recycling
- New material research laboratories
Technical Specifications
| Model | LTO1200 |
| Power Supply | AC380V 50Hz |
| Rated Power | 10.5KW |
| Temperature Zones | Single Chamber with 3 Independent Controls |
| Temperature Control Accuracy | ±1°C |
| Heating Element | Alloy Resistance Wire |
| Thermocouple | K-Type φ2×420mm |
| Maximum Temperature | 1200°C |
| Continuous Working Temperature | ≤1150°C |
| Recommended Heating Rate | ≤10°C/min |
| Heating Zone Size | Φ150 × (300+300+300) mm |
| Furnace Tube | Quartz Tube φ50×380×3mm + φ80×920×3 mm |
| Feeding Tube | Quartz Tube φ20×950×2 mm |
| Flow Meter | Rotameter 10–100L/min |
| Mass Flow Controller | S48 100SLM, Nitrogen Calibrated |
| Feeding Tank Volume | 2L |
| Dust Separation Efficiency | ≥95% |
| Gas Inlet | Φ10mm Double Ferrule Connector |
| Exhaust Outlet | 8.4mm Barb Connector / KF25 Interface |
| Water Chiller Capacity | 5L |
| Gas Preheating Power | 1.5KW |
| Maximum Preheating Temperature | 400°C |
| Furnace Dimensions | 1105 × 2430 × 800 mm |
| Furnace Weight | Approx. 255KG |
Intelligent Control System
Multiple Programmable Process Recipes
- Multiple heating curves can be preset and stored
- Supports process optimization and repeatability
- Suitable for laboratory and research applications
Scheduled Operation
- Supports unattended scheduled calcination
- Improves equipment utilization efficiency
- Reduces sample preparation waiting time
Real-Time Data Recording
- Real-time display of temperature, voltage, and power
- Automatic process data recording
- Exportable digital records for paperless management
Remote Monitoring and Control
Users can remotely monitor and control the furnace through computers or mobile devices, including:
- Temperature monitoring
- Pressure monitoring
- Heating rate adjustment
- Remote start/pause control
Nonlinear Temperature Correction
Advanced algorithms automatically compensate for temperature deviation between the control point and actual sample position, improving temperature consistency and experimental accuracy.
Pressure Measurement System
Mechanical pressure gauges with airtight housing provide:
- High-temperature resistance
- Corrosion resistance
- Stable long-term monitoring performance
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The Differences Between Calcination and Sintering Processes
For More Options on Calcination Furnaces
Please visit our website [Calcination Furnaces]
For More Options on High Temperature Furnaces
Click here [High Temperature Furnaces Collection]
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