Rotary kiln calcination temperature range for kaolin and clay minerals
1.Product Introduction Calcination Rotary Kiln
The Rotary Kiln is the core equipment utilized for the calcination
of kaolin and various clay minerals. It facilitates critical
physicochemical changes—including mineral dehydration,
decarbonization, and phase transformation—through high-temperature
thermal treatment. The equipment features an inclined installation
and rotates slowly to ensure uniform heating and continuous
movement of the material, enabling the conversion of raw minerals
into high-performance calcined products. It is widely applicable
for the industrial processing of coal-series kaolin, low-grade
clay, and other raw materials.
2.Application Calcination Rotary Kiln
Paper Industry: Calcined kaolin serves as a high-quality filler and coating
material, partially replacing titanium dioxide to enhance paper
whiteness, smoothness, and printability.
Ceramic Manufacturing: Products calcined at medium-to-high temperatures are rich in mullite, used to produce high-strength, heat-resistant domestic porcelain,
sanitary ware, and technical ceramics.
Refractory Materials: Kaolin calcined above 1300°C exhibits excellent thermal stability and mechanical strength,
making it ideal for refractory bricks and kiln furniture used in
metallurgy and glass industries.
Coatings & Rubber: Acts as a functional filler to improve opacity, rheology, and
wear resistance.
Environmental & Resource Recovery: Supports the synergistic calcination of solid wastes like sludge
and fly ash, facilitating resource regeneration.
3.Working Principle Calcination Rotary Kiln
1.Preheating Stage (Ambient – 550°C): Upon entering the kiln tail, the material undergoes physical
dehydration. Free water and interlayer water are removed to prevent
fragmenting or bursting in later stages.
2. Dehydroxylation Stage (550 – 800°C): A dehydroxylation reaction occurs in the kaolinite, which loses
structural hydroxyl groups and transforms into amorphous
metakaolin. This stage yields high-activity products with excellent
pozzolanic properties.
3. Phase Transformation Stage (>900°C):
• Around 925°C, the silicon-aluminum spinel phase begins to form.
• Above 1100°C, the material gradually generates mullite and
cristobalite, significantly enhancing refractoriness and mechanical
properties.
4. Cooling & Collection: Calcined material is discharged from the kiln head and rapidly
cooled to fix the crystalline phase and maintain activity before
being collected as the final product.
4.Advantages Calcination Rotary Kiln
High Process Controllability: Precise regulation of temperature zones and residence time allows
for the exact tuning of crystalline composition and functional
characteristics to meet diverse application needs.
Large Capacity & Continuous Operation: Supports large-scale continuous production, ideal for
medium-to-large enterprises requiring stable operations with daily
yields ranging from hundreds to tens of thousands of tons.
High Energy Efficiency: Employs a counter-current heat exchange design where high-temperature flue gases contact cold feed,
maximizing thermal efficiency. It also allows for the use of
industrial waste gases as fuel.
Environmental Compliance: Equipped with advanced sealing and dust collection systems to
minimize emissions. It supports the use of low-grade raw materials
and solid waste, promoting green manufacturing.
aHigh Value-Add: Calcination significantly increases whiteness and activity,
making the product highly sought after in premium paper and coating
sectors, resulting in substantial economic benefits.
5.Technical Specifications
| Model | Speed (r/min) | Inclination (%) | Capacity (t/h) | Gearbox Model | Ratio | Motor Model | Motor Power (kW) | Motor Speed (r/min) | Thrust Roller Type | Support Count | Weight (t) |
| Φ1.9/1.6x36 | 0.53-1.59 | 4 | 2.5-3 | JZQ750-1 | 48.58 | JZT-72-4 | 30 | 1200/400 | Mechanical | 3 | 53 |
| Φ2.1/1.8x36 | 0.5-1.51 | 4 | 4 | UT2-110 | 163.38 | JZS-81 | 30/10 | 1410/470 | .. | 3 | 75 |
| Φ1.2x25 | 0.5-1.6 | 3 |
| PM650 | 40.17 | JZTY71-4 | 22 | 1200/120 | .. | 3 | 34 |
| Φ1.6x32 | 0.158-0.258 | 3 |
| PM750 | 48.57 | JZJY61-4 | 15 | 1200/120 | .. | 3 | 46.82 |
| Φ1.8x45 | 0.66-1.98 | 4 | 3.5 | UT2-110 | 163.38 | JZS-81 | 30/10 | 1410/470 | .. | 3 | 80 |
| Φ2.2x50 | 0.125-1.25 | 3.5 | 4 | ZS145-11 | 157 | YCT280-4A | 30 | 1320/132 | .. | 3 | 130.71 |
| Φ2.5x50 | 0.516-1.549 | 3.5 | 5.5 | ZS165-7 | 99.96 | YCT355-4A | 55 | 1320/440 | .. | 3 | 167.5 |
| Φ3x48 | 0.3309-3.309 | 3.5 | 35 | ZL130-14 | 32.11 | ZSN4-250-21B | 90 | 1000/100 | .. | 3 | 237 |
| Φ3.2x50 | 0.398-3.975 | 3.5 | 50 | ZL130-16 | 40.85 | ZSN4-280-11B | 190 | 1500/150 | .. | 3 | 263 |
| Φ3.3x52 | 0.391-3.91 | 3.5 | 50 | ZSY500-28 | 27.707 | ZSN4-315-082 | 190 | 1000/100 | .. | 3 | 280.8 |
| Φ4x60 | 0.396-3.96 | 3.5 | 104 | ZSY630-35.5 | 34.601 | ZSN4-355-092 | 315 | 1000/100 | Hydraulic | 3 | 487.5 |
| Φ4.2x60 | 0.4165-4.165 | 3.5 | 116 | ZSY710-35.5 | 35.526 | ZSN4-355-12 | 420 | 1000/100 | .. | 3 | 576.1 |
| Φ4.3x62 | 0.398-3.98 | 3.5 | 125 | ZSY710-35.5 | 35.714 | ZSN4-355-12 | 420 | 1000/100 | .. | 3 | 598.5 |
| Φ4.8x74 | 0.35-4 | 4 | 208 | JH710C-SW305-40 | 42.226 | ZSN4-400-092 | 630 | 1500/130 | .. | 3 | 841 |
6.Our Solutions
