China Rotary Kiln Manufacturers Factory - Good Price Rotary Kiln for Sale

Your Professional Rotary Kiln Supplier

AGICO Cement International Engineering Co., Ltd. is a leading company in China's building materials machinery industry. Founded in 1997, the company is based in a 66,000-square-meter industrial park, with 30,000 square meters of modern workshop space. It has a registered capital of 81.34 million yuan and employs 230 staff, including 42 experienced technical professionals with mid to senior-level qualifications.

Professional Cement Rotary Kiln
Our professional cement rotary kiln is a crucial equipment in the cement production process to heat raw materials such as limestone, clay at high temperatures and fianlly output clinker. we offer advanced rotary kilns ,which feature high
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Medical Waste Rotary Kiln
AGICO's medical waste rotary kiln incinerator delivers 100-1000 kg/h capacity. It ensures >99.99% destruction efficiency at 850-1100°C, achieving EU-standard emission compliance with full automation.
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Electromagnetic Heating Rotary Kiln
AGICO's electromagnetic heating rotary kiln adopts advanced induction heating technology, which can provide over 90% thermal efficiency, precise temperature control and zero emissions, achieving sustainable industrial processing.
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Activated Carbon Rotary Kiln
An Activated Carbon Rotary Kiln is a specialized furnace used to produce activated carbon through high temperatures. It enables controlled heating, efficient carbonization, and activation of raw materials like coconut shell or coal,
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Lithium Battery Recycling Rotary Kiln
AGICO's lithium battery recycling rotary kiln is characterized by superior quality, high automation, low energy consumption, and environmentally sustainable operation.
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Single Shaft Kiln
Our company's single shaft kiln meets international certification standards, has a low investment cost, is easy to maintain and operate, and is suitable for small and medium-sized lime production.
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Double Beam Lime Kiln
Our company's double beam lime kiln holds a national patent certificate, with a daily output of 100 to 600 tons. It can operate stably and produce flexibly, and has been widely applied in major steel industries across the country.
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Vertical Kiln
Our company supplies various styles of vertical kilns, with a wide output range (50-1200 TPD), stable product quality, convenient operation, easy installation and maintenance, and is widely used in cement, chemical and other fields.
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Shaft Lime Kiln
AGICO CEMNET is a professional supplier of cement manufacturing machine. We supply excellent shaft lime kiln equipment to global customers with complete models, full package service and superior quality.
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PFR Kiln
Our PFR kiln is a double-cylinder kiln with a co-current heat storage structure design. It is very effective and energy-efficient, and it produces high-quality products with significant economic benefits.
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Horizontal Lime Kiln
AGICO CEMENT focuses on designing efficient and advanced horizontal lime kiln equipment with adjustable output and stable operation.
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Fercalx Kiln
AGICO's Fercalx Kiln features a dual-beam design for efficient and uniform lime calcination. It ensures high activity, low energy use, and supports multiple fuels. Ideal for steel and chemical industries.
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Why choose us

Our Certificate
The company has passed ISO, CE, picture: ISO1, ISO2, AAA, ce, CQC, PT quality management system certification and has independent import and export rights.

Production Market
Our products are sold across 27 provinces in China and exported to countries such as Brazil, Angola, Vietnam, and Mongolia, thanks to our independent import and export rights.

Quality Assurance
In terms of quality assurance, the company strictly follows the standards and norms of the industry quality system. Adopt industry-leading testing equipment to ensure product quality and good reputation.

Service Advantages
We provide market analysis, demand assessment, equipment selection guidance, and project design to ensure the equipment meets your specific needs.including installation guidance, maintenance, spare parts supply, training, and troubleshooting services to ensure long-term operational success.

Rotary Kiln

Rotary kilns are versatile industrial equipment used across various industries for high-temperature processing of materials. They are primarily employed for roasting, calcining, sintering, reducing, and incinerating a wide range of materials, including ores, minerals, and waste products. Rotary kilns play a critical role in industries such as cement production, steel manufacturing, chemical processing, and waste management. Their ability to achieve uniform temperature distribution and very high temperatures (up to 2273 K) makes them indispensable for processes like sponge iron production, catalyst activation, and resource recovery. Additionally, they are increasingly used in circular economy initiatives to recycle waste materials and recover valuable byproducts.

Specificttions (M)	Kiln demensions			Output(t/h)	Rotation speed(r/min)	Moto power(kw)	Weight	Note
Specificttions (M)	Diameter (M)	Length (M)	Obliquity (%)	Output(t/h)	Rotation speed(r/min)	Moto power(kw)	(T)	Note
ø 1.4*33	1.4	33	3	0.9-1.3	0.39-3.96	18.5	47.5	----
ø 1.6*36	1.6	36	4	1.2-1.9	0.26-2.63	22	52	----
ø 1.8*45	1.8	45	4	1.9-2.4	0.16-1.62	30	78.2	----
ø 1.9*39	1.9	39	4	1.65-3	0.29-2.93	30	77.59	----
ø 2.0*40	2	40	3	2.5-4	0.23-2.26	37	119.1	----
ø 2.2*45	2.2	45	3.5	3.4-5.4	0.21-2.44	45	128.3	----
ø 2.5*40	2.5	40	3.5	9.0-10.5	0.44-2.44	55	149.61	----
ø 2.5*50	2.5	50	3	6.25-7.4	0.62-1.86	55	187.37	----
ø 2.5*54	2.5	54	3.5	6.9-8.5	0.48-1.45	55	196.29	----
ø 2.7*42	2.7	42	3.5	10.0-11.0	0.10-1.52	55	198.5	----
ø 2.8*44	2.8	44	3.5	12.5-13.5	0.437-2.18	55	201.58	Suspension preheating kiln
ø 3.0*45	3	45	3.5	12.8-14.5	0.5-2.47	75	210.94	----
ø 3.0*48	3	48	3.5	25.6-29.3	0.6-3.48	100	237	Outside disassemble kiln
ø 3.0*60	3	60	3.5	12.3-14.1	0.3-2	100	310	----
ø 3.2*50	3.2	50	4	40.5-42	0.6-3	125	278	Outside disassemble kiln

Advantages of a rotary kiln

Continuous heat treatment

Facilitates constant material flow and uninterrupted production.

Final product homogeneity

The rotary action promotes uniform mixing.

Design flexibility

Can be adapted to different types of processes and materials.

Thermal efficiency

Modern designs minimize heat loss and reduce energy consumption.

Emission control

Equipped with filtration and gas control systems.

Type of Rotary Kiln

Wet Kilns: Designed for processing materials with high moisture content. They are often used in industries like cement production where raw materials are slurry-based.

Long Dry Kilns: These are typically used for processes requiring extended residence times, such as calcination or thermal decomposition of materials.

Short Dry Kilns: Suitable for processes that require shorter residence times, often used in applications like lime production or waste incineration.

Coolers and Dryers: These are specialized rotary kilns used to cool or dry materials after high-temperature processing. They are often integrated into larger kiln systems.

Indirect-Fired Kilns: These kilns use external heating sources, making them ideal for processes requiring controlled atmospheres or where direct contact with combustion gases is undesirable.

Applications of a rotary kiln

Cement industry

For calcining the raw material (a mixture of limestone, clay and other additives) and obtaining clinker. The raw material is subjected to temperatures exceeding 1400 °C, causing sintering and the formation of clinker, the main component of Portland cement.

Mining and metallurgy

In pyrometallurgy for the reduction of ores and transformation of metallic minerals such as iron, nickel, copper and lithium. They are also essential for smelting and agglomeration of metal concentrates.

Chemical industry

For dehydration, chlorination, sulfation and pyroprocessing. Rotary kilns enable chemical reactions to be carried out at high temperature, such as the production of metal oxides, the manufacture of fertilizers (e.g. ammonium nitrate or ammonium sulfate), and the heat treatment of intermediates in industrial synthesis.

Waste management

Incineration, gasification or carbonization of urban, industrial or hospital waste. It is used to destroy hazardous waste under controlled conditions of temperature and time. Thanks to its closed design and constant rotation, it ensures a homogeneous and complete combustion.

Ceramics and refractory industry

Heat treatment to harden, stabilize or modify physicochemical properties for sintering ceramic materials, firing of refractory bricks, thermal activation of clays and formation of stable mineral phases. Operating temperatures vary between 900 and 1600 °C, depending on the final product.

Shell Designs of Rotary Kilns

Straight Cylinder Type

The most common design, featuring a uniform diameter throughout the length of the kiln. It is versatile and widely used in various industries.

Hot End Expansion Type

This design features a larger diameter at the hot end (discharge side) to accommodate thermal expansion and improve heat transfer efficiency.

Cold End Expansion Type

The kiln has a larger diameter at the cold end (feed side) to optimize material flow and heat distribution.

Both End Expansion Type

Combines the features of hot and cold end expansion designs, offering enhanced performance for specific applications.

Key Components of a Rotary Kiln

Shell

The shell of a rotary kiln is a protracted, cylindrical shape crafted from steel plate and coated with refractory material to protect towards high temperatures. It’s far supported by way of two or extra tyre and roller assemblies and is inclined barely from the horizontal to facilitate fabric go with the flow.

Tyres and Rollers

The tyres are strong steel rings positioned along the shell that offer a floor for the rollers to guide the kiln. The rollers are essential as they need to bear the full weight of the kiln, permitting it to rotate smoothly. Proper alignment and balance of the tyres and rollers are critical to prevent excessive put on and mechanical troubles.

power equipment

The drive gear is attached to 1 cease of the kiln and engages with the pressure motor. This thing is answerable for the rotational motion of the kiln, that is critical for the even distribution and processing of materials.

Burner

Placed on the decrease end of the kiln, the burner introduces fuels that are combusted to generate the desired temperatures. This issue is crucial for achieving the important thermal situations for processing materials like cement, lime, or minerals.

Refractory Lining

The indoors of the kiln is coated with refractory bricks or castable refractory concretes, which guard the shell from the excessive temperatures and corrosive environments inside the kiln. The first-rate and situation of the refractory lining are key to the efficiency and longevity of the kiln.

Discharge and Feeding Mechanisms

At both stop of the kiln, mechanisms are in place for the feeding of uncooked substances and the discharge of completed products. The performance of those mechanisms plays a sizable position in the usual productivity of the kiln.

Operating principle of a rotary kiln

Rotation system

The cylindrical body of the kiln is mounted on bearings or support wheels (tyres) resting on support wheels (rollers). An electric motor, coupled through a speed reducer, drives a pinion that meshes with a ring gear mounted on the kiln cylinder. This mechanism converts the movement of the motor into a slow but constant rotation of the drum.

Rotation speed

Generally varies between 0.2 and 5 revolutions per minute (rpm), depending on the process and type of material being treated. Slow rotation allows adequate residence time and ensures that all material is uniformly exposed to heat.

Slope effect

The kiln is inclined with a slope of 1% to 4%, which facilitates that, as it rotates, the material advances by gravity from the charging end (cold) to the discharging end (hot).

Heat flow

In most cases, the kiln operates with counterflow, i.e. the hot gases from the burner move in the opposite direction to the load. This improves thermal efficiency and allows a gradual heat utilization.

Burner and combustion zone

At the discharge end is the main burner, which can operate with liquid, solid or gaseous fuels, generating high temperatures necessary for calcination, melting, sintering or incineration processes.

Kiln zoning

The kiln can be thermally divided into several zones (drying, preheating, calcining, cooling) depending on the industrial process, each of which is designed to achieve specific reactions.

Process of Rotary Kiln

Calcination
The calcination process requires heating a material to a high temperature with the intent of chemical dissociation (chemical separation). Calcination is commonly used in the creation of inorganic materials. One of the most common examples would be the dissociation of calcium carbonate to create calcium oxide and carbon dioxide.

The calcination process could also include the removal of bound moisture. An example of this process is the removal of moisture from a viscous sludge. Because a percentage of the moisture in the sludge is bound to the solids, a drying or pressing process would not effectively remove all of the moisture required to create a dry (ash) granule.

Thermal desorption
Thermal desorption uses heat to drive off an organic chemical, such as a pesticide, that has mixed with an inorganic mineral like sand. It is important to remember that this is not incineration, which may produce harmful pollutants and would require a more extreme exhaust treatment system; instead it is a separation process that uses the different reaction temperatures of absorbent minerals and chemicals. The organic chemical (e.g. pesticide) becomes volatile at the increased temperature, causing a separation without combustion. In some cases, an indirect rotary kiln would be best for this application, because the volatile chemicals may be combustible. The indirect kiln will generate enough heat for desorption, without the material coming into direct contact with the flame.

Organic combustion
Organic combustion is the thermal treatment process of organic waste. This combustion process leaves behind ash that has considerably less mass and volume. The most common use for this rotary kiln process would be in waste treatment plants with the intent of reducing the volume of waste for depositing in landfills. Direct-fired rotary kilns are the most common style for this application, because direct contact between the burner flame and the material is acceptable.

Sintering/induration
Sintering is the process of heating the raw materials to a point just before melting. The objective of this process is to use the high internal temperature of the rotary kiln to increase the strength of the material. The most common use of this process is in the creation of manufactured proppants, where the sand or ceramic material needs to be structurally secure without increasing the mass.

Heat setting
This is a process of bonding a heat resistant core mineral with another, less heat resistant coating material. Much like other coating processes, there is a core material and a coating material (usually mixed with a binding agent). The difference between this process and a non-heated coating process is that a rotary kiln heats the coating material to just below its liquefaction point. At this heated state, the material can coat the heat resistant core evenly and, since this is a chemical phase change, more securely than a traditional coating process. A common application of this process would be in the manufacturing of roofing granules, where a mineral such as granite is coated with a colored pigment, producing a durable and aesthetically pleasing granule.

Reduction roasting
Reduction roasting is the removal of oxygen from a component of an ore usually by using Carbon Monoxide (CO). The CO is typically supplied by mixing a carbonaceous material such as coal or coke with the ore or by feeding it separately. Examples are the reduction roasting of a hematite containing material to produce magnetite that can be magnetically separated.

FAQ

Q: What should I take care when using the machine?

A: Keep the machine away from thinner and other chemical liquid.

Q: How to maintain the machine?

A: Check the connection part and clean the screen frame regularly.

Q: Delivery time？

A: Parts lead time 1-2months, machines 2-3months.

Q: Payment terms？

A: Accept payment type: T/T, L/C, Western union,Cash.
30% deposit when signed contract. Full payment paid before shipping

Q: Quality warranty?

A: Guarantee time: one year for main machinery. If something wrong we will provide the technical advice and find solution immediately. For those wearing parts we guarantee high quality parts for long-term supply.

As one of the most professional rotary kiln manufacturers in China, we're featured by quality products and good price. Please feel free to buy high-grade rotary kiln for sale here from our factory.