For product information and pricing, Chat with sales agent:
or email us : sales@clirik.com
Click links below to see related products.
Quicklime (calcium oxide, CaO), also known as burnt lime, is produced through the thermal decomposition of limestone (CaCO₃) in a process called calcination. As one of the most versatile chemical compounds, quicklime finds applications across multiple industries including:
Construction (cement production, soil stabilization)
Metallurgy (steel manufacturing, ore processing)
Environmental Protection (flue gas desulfurization, water treatment)
Chemical Industry (PVC stabilizers, paper production)
The performance of quicklime in these applications heavily depends on its particle size distribution, making efficient grinding systems crucial for quicklime processing.
Processing quicklime presents several unique challenges:
Material Characteristics:
High abrasiveness (Mohs hardness 3-4)
Heat sensitivity (risk of premature hydration)
Variable moisture content
Process Requirements:
Need for precise particle size control
Requirement for dust containment
Energy efficiency considerations
Quality Demands:
Consistency in particle size distribution
Minimization of contamination
Maintenance of chemical purity
Technical Specifications:
Capacity: 1-40 t/h (model dependent)
Power Consumption: 15-150 kW
Feed Size: <35mm
Moisture Content: <6%
Key Features:
Multi-layer grinding ring design
Overpressure trapezoidal grinding structure
Pulse dust collector with >99.9% efficiency
Centralized lubrication system
Advantages in Quicklime Processing:
Optimized grinding curve reduces energy consumption by 20-30%
Special alloy grinding rolls withstand abrasive materials
Intelligent control system maintains consistent output quality
Technical Specifications:
Capacity: 0.5-4 t/h
Power Consumption: 55-315 kW
Fineness Adjustment: 150-2500 mesh
Noise Level: <75 dB
Innovative Technologies:
Multi-stage grinding chamber design
High-precision turbo air classifier
Fully enclosed negative pressure operation
PLC-based automatic control system
Performance Benefits:
40% higher energy efficiency compared to traditional ball mills
Narrow particle size distribution (D97 control)
Zero pollution operation meets strict environmental standards
| Parameter | Raymond Mill | HGM Ultrafine Mill | Ball Mill (Traditional) Optimal |
| Fineness | 50-450 mesh | 150-2500 mesh | 50-300 mesh |
| Energy Efficiency | ★★★★☆ | ★★★★★ | ★★☆☆☆ |
| Maintenance Cost | Low | Medium | High |
| Footprint | Compact | Moderate | Large |
| Automation Level | High | Very High | Low |
Requirement: 325 mesh quicklime for steelmaking
Solution: CLIRIK CLRM Raymond Mill
Results:
Output: 8.5 t/h
Energy savings: 28% reduction
Product quality: 98% passing 325 mesh
Requirement: 800 mesh high-purity quicklime
Solution: HGM100 Ultrafine Mill
Results:
Capacity: 3.2 t/h
Particle uniformity: ±2% variation
System uptime: 98.7%
CLIRIK provides comprehensive support for quicklime processing systems:
Material Testing Services:
Free sample testing
Process optimization recommendations
Custom Engineering Solutions:
Special wear-resistant materials
Explosion-proof designs
Customized capacity requirements
After-Sales Support:
Remote monitoring systems
Spare parts inventory management
Technician training programs
For quicklime processing operations requiring reliability, efficiency, and precision, CLIRIK's grinding solutions offer unmatched performance. From coarse grinding with Raymond Mills to ultrafine powder production with HGM series mills, our technologies deliver:
Superior product quality
Reduced operational costs
Enhanced environmental compliance
Long-term operational reliability
Contact CLIRIK Today for Your Quicklime Processing Needs:
Email: sales@clirik.com
WhatsApp: +86 135 1215 5195
