Cost of turnkey calcination rotary kiln project for cement clinker
1.Product Introduction Calcination Rotary Kiln
The Turnkey Cement Clinker Calcination Rotary Kiln Project provides
a comprehensive one-stop solution from initial design to final
commissioning. The scope includes the rotary kiln shell, preheater,
cooler, combustion system, electrical control units, and
environmental protection equipment. Systems are customized based on
capacity requirements, with typical specifications covering 180 to
10,000 tons per day (tpd), supporting various process routes such
as New Suspension Preheater (NSP) dry process or wet process. The
project is implemented by a professional engineering team to ensure
technical realization and high-efficiency operation.
2.Application Calcination Rotary Kiln
• Cement Manufacturing: Serving as the core "calcination" stage in the "two-grinding and
one-firing" process, responsible for the conversion of raw meal
into clinker.
• Co-processing: Utilizing high-temperature environments to dispose of hazardous
waste and sludge, achieving detoxification and resource recovery.
• Metallurgy & Chemicals: Used for magnetizing roasting of lean iron ores, oxidative
roasting of ferrochrome/nickel ores, and calcination of aluminum
hydroxide.
• Environmental Engineering: Utilizing the alkaline atmosphere to fix heavy metals and minimize
dioxin formation, supporting green production initiatives.
3.Working Principle Calcination Rotary Kiln
Material Flow: Homogenized raw meal enters the cyclone preheater, where it exchanges heat with high-temperature flue gas from the
kiln tail. After partial decomposition, it enters the rotary kiln.
The kiln body is inclined (3.5%–6%) and rotates slowly; material moves from the tail to the head,
passing through drying, preheating, decomposition, sintering, and
cooling stages.
High-Temperature Calcination: Pulverized coal or gas is injected from the kiln head, creating a
flame temperature of 1,700°C–1,800°C. The material partially melts at approximately 1,450°C, forming clinker minerals primarily composed of calcium silicates.
Heat Recovery: High-temperature clinker enters the grate cooler. Cold air cools the clinker and is then recirculated as "secondary
air" back into the kiln to support combustion, significantly
boosting thermal efficiency.
Gas Dynamics: Flue gas exits from the kiln tail and is directed to a Waste Heat Recovery (WHR) boiler for power generation or used for raw material drying,
achieving cascaded energy utilization.
4.Advantages Calcination Rotary Kiln
High Thermal Efficiency: Equipped with five-stage cyclone preheaters or shaft preheaters,
the system boasts high heat recovery rates; the dry process energy
consumption is significantly lower than the wet process.
Operational Stability: The kiln body is supported by rollers and guided by thrust
rollers to control axial movement. The primary and auxiliary drive
systems ensure the kiln continues to rotate slowly during power
outages to prevent thermal deformation.
Environmental Synergy: The alkaline environment fixes acidic gases like $SO_2$ and $Cl$. The long residence time at high temperatures (>35 minutes) ensures thorough decomposition of organic matter, with a Destruction and Removal Efficiency (DRE) of 99.99%.
Fuel Versatility: Capable of using pulverized coal, natural gas, biomass, or even
waste-derived fuels (RDF) to lower operational costs.
Advanced Automation: Integrated PLC control systems enable precise regulation of temperature, rotational speed, and
feed rates, enhancing product quality consistency.
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
