Products Thermal Equipment Electric Rotary Kiln Continuous working electric heating pyrolysis furnace plant
Continuous working electric heating pyrolysis furnace plant

Electric Rotary Kiln

Continuous working electric heating pyrolysis furnace plant

Item Number : KT-RFTF

Price varies based on specs and customizations


Temperature
950 ℃
Heat zones
3-9
ISO & CE icon

Shipping:

Contact us to get shipping details Enjoy On-time Dispatch Guarantee.

Introduction

The electric rotary furnace is an industrial furnace that uses electricity as its heat source. It is commonly used for the calcination and drying of various materials, including iron phosphate, lithium iron phosphate, lithium manganate, graphite cathode, cobalt trioxide, silicon carbon cathode, lithium hydroxide, carbon removal by powder, zinc oxide, iron oxide, manganese oxide, rare earth materials, and nonferrous metals. The furnace is characterized by its high heating speed, energy efficiency, and durability. It features a nickel-based alloy furnace tube that can withstand continuous working temperatures of up to 1100℃, ensuring longevity and reliability. Additionally, the furnace utilizes high-quality Silicon Carbide (SiC) heating elements, providing extended service life and simplified maintenance.

Applications

Electric rotary furnaces are versatile industrial furnaces widely used in various applications, including:

  • Calcination and drying of various materials, such as iron phosphate, lithium iron phosphate, lithium manganate, graphite cathode, cobalt trioxide, silicon carbon cathode, lithium hydroxide, carbon removal by powder, zinc oxide, iron oxide, manganese oxide, rare earth materials, and nonferrous metals
  • Pyrolysis of biomass, waste plastics, and other organic materials for the production of biochar, syngas, and other valuable products

Detail&Parts

Electric rotary furnace for pilot production
Electric rotary furnace for pilot production
Continuous electric rotary furnace for battery materials
Continuous electric rotary furnace for battery materials
Continuous electric rotary furnace for Lithium iron phosphate
Continuous electric rotary furnace for Lithium iron phosphate
Lithium iron phosphate calcination rotary furnace
Lithium iron phosphate calcination rotary furnace
Lithium manganese iron phosphate calcination rotary furnace
Lithium manganese iron phosphate calcination rotary furnace
Pilot Rotary Furnace
Pilot Rotary Furnace

Principle

Continuous working electric heating pyrolysis furnace plant utilizes high-temperature electric heating elements to generate heat, which is then transferred to the materials being processed through radiation, conduction, and convection. This allows for precise temperature control and uniform heating throughout the materials, ensuring efficient and consistent processing. The continuous operation feature enables uninterrupted processing, maximizing productivity and energy efficiency.

Electric rotary furnace by Kindle Tech

The rotary tube of electric rotary furnace is fabricated by the nickel based alloys, which working temperature is up to 1100℃; different drum diameter and length can be fabricated according to the target materials handling capacity, multi independent heating zones will be designed according to the production requirement; the speed of rotary drum applies variable speed electric motor, easy to control the rotating speed;The horizontal drum can be tilted by hydraulic for materials movement control and easy discharging; Temperature controller applies high accurate PID intelligent thermal controller, electric heaters are superior quality Silicon Carbide(SiC) heating element, features durable service life and easy maintenance.

Features

  • Electric rotary furnaces offer numerous advantages that benefit customers in various industries:
  • Wide Working Temperature Range: These furnaces can operate at temperatures from 200℃ to 1100℃, allowing for a wide range of applications.
  • High Temperature Control Accuracy: PID thermal controllers ensure precise temperature control, crucial for achieving desired material properties.
  • Excellent Vacuum Sealed System: The vacuum sealed system enables precise control of the atmosphere within the furnace, preventing material oxidation and ensuring consistent results.
  • Compact Full System Setup: The compact design makes these furnaces ideal for research labs, small batch production, or pilot projects.
  • Automatic Continuous Feeding Device: Even material feeding and distribution are achieved through an automatic batch type continuous feeding device.
  • Indirect Heating Tube Chamber with Rotating and Tilting Function: This feature provides premium heating uniformity and allows for easy material handling.
  • Dynamic Rotary Vacuum Sealing: The dynamic rotary vacuum sealing system facilitates the discharge and collection of target pyrolysis solids.
  • Pre-heating and Assisting Heating: Accurate collection of target decomposing gases is ensured through pre-heating and assisting heating mechanisms.
  • Optional Cold Trap and Condenser Device Setup: This optional setup enables precise control of target liquids produced during pyrolysis.

Advantages

  • High speed electric heating: Reduces furnace downtime and energy consumption.
  • Light weight insulation: Minimizes heat loss and energy usage.
  • Touch screen controller: Intuitive user interface with intelligent thermal control, alarms, and data analysis capabilities.
  • Nickel-based alloy furnace tube: High temperature and corrosion resistance for continuous operation at 1100°C.
  • Superior quality Silicon Carbide (SiC) heating element: Durable and easy to maintain.
  • Excellent dynamic sealing technology: Enables operation in controlled inert gas environments to prevent material oxidation.
  • Modular design: Facilitates transportation, installation, and replacement.
  • Continuous operation: Simultaneous feeding, pyrolysis, and discharging for improved efficiency and safety.
  • Precise temperature control technology: Ensures consistent and optimal pyrolysis conditions.
  • Water circulation system: Cools oil gas and recycles excess pyrolysis gas for energy savings.

Electric heating rotary furnace specifications

Model Furnace size Temperature Heat zones Power
KT-RFTF2020 Φ200×2000mm 950℃ 3 30kw
KT-RFTF3030 Φ300×3000mm 950℃ 6 54kw
KT-RFTF4050 Φ400×5000mm 950℃ 6 96kw
KT-RFTF5060 Φ500×6000mm 950℃ 6 168kw
KT-RFTF6080 Φ600×8000mm 950℃ 9 234kw
KT-RFTF8090 Φ800×9000mm 950℃ 9 342kw
KT-RFTF1211 Φ1200×11000 950℃ 9 648kw

Note: Other size and working temperature furnace can be customized

Warnings

Operator safety is the top important issue! Please operate the equipment with cautions. Working with inflammable& explosive or toxic gases is very dangerous, operators must take all necessary precautions before starting the equipment. Working with positive pressure inside the reactors or chambers is dangerous, operator must fellow the safety procedures strictly. Extra caution must also be taken when operating with air-reactive materials, especially under vacuum. A leak can draw air into the apparatus and cause a violent reaction to occur.

Designed for You

KinTek provide deep custom made service and equipment to worldwide customers, our specialized teamwork and rich experienced engineers are capable to undertake the custom tailoring hardware and software equipment requirements, and help our customer to build up the exclusive and personalized equipment and solution!

Would you please drop your ideas to us, our engineers are ready for you now!

FAQ

What Is A Pyrolysis Plant?

A pyrolysis plant is a facility that uses the process of pyrolysis to break down organic materials, such as plastic, rubber, biomass, or waste, into valuable products like fuel oil, carbon black, and combustible gas. It is a specialized plant designed to carry out the thermal decomposition process in a controlled and efficient manner.

What Types Of Materials Can Be Processed In A Rotary Furnace?

Rotary furnaces can process a wide range of materials, including ores, minerals, metals, chemicals, and waste materials. They are commonly used for processes such as calcination, drying, roasting, and thermal decomposition. For example, rotary furnaces are utilized in the cement industry for clinker production, in the metallurgical industry for smelting and refining operations, and in the chemical industry for the production of catalysts or chemical reactions requiring heat treatment. The versatility of rotary furnaces allows them to handle different material forms, such as powders, granules, and bulk solids, making them suitable for various applications across multiple industries.

What Is Electric Rotary Kiln?

Electric rotary kiln is a type of rotary kiln that uses electricity as its heating source to indirectly heat materials in the kiln body. It is commonly used for high-temperature oxidation and reduction reactions, calcination of granular or powder materials, and other industrial applications. The temperature of the kiln can reach up to 1100℃, and it is widely used for the calcination and drying of various materials, including positive and negative electrode materials, rare earth materials, magnetic materials, and non-metallic mineral materials. Its advantages include high-speed electric heating, energy efficiency, and environmental friendliness.

What Is A Pyrolysis Furnace?

A pyrolysis furnace is a high-temperature furnace used to carry out the process of pyrolysis. Pyrolysis is a thermal decomposition process in which organic materials are heated to high temperatures in the absence of oxygen, resulting in the breakdown of complex molecules into simpler compounds or elemental constituents.

How Does A Pyrolysis Plant Work?

A pyrolysis plant works by feeding organic materials into a reactor chamber, where they are subjected to high temperatures in the absence of oxygen. This thermal decomposition process, known as pyrolysis, breaks down the complex organic molecules into simpler compounds and gases. The resulting products are then collected and further processed. For example, the liquid fraction can be condensed into fuel oil, the solid residue can be converted into carbon black, and the gas fraction can be used as a source of energy or refined into other valuable gases.

What Is A Rotary Tube Furnace?

A rotary tube furnace is a circular furnace that rotates during heat-treatment. It is designed to heat loose materials for physiochemical processing and is used for continuous materials processing. These furnaces feature a metal drum lined with refractory, which is mounted at an angle and can burn pulverized, solid, gaseous or liquid fuel into its working section. Rotary tube furnaces have a wide range of applications, including the manufacturing of materials such as alumina, vermiculite, iron ore pellets and cement clinker, as well as for oxidation and calcination processes.

What Are The Rotary Furnace Types?

The rotary furnace types include rotary and tilting furnaces which have the ability to rotate and tilt, allowing for uniformity in drying and coating applications. KINTEK furnaces increase efficiency by offering multi-zone heating options, utilizing alumina fiber for refractory linings, and using temperature controllers. These furnaces are suitable for continuous processing and batch operations. Additionally, they can be opened up to use different tubes or reactors. The galvanized coating covered epoxy painted structure provides a longer lifetime and aesthetics. Overall, the rotary and tilting furnaces are popular for materials production, drying, aging, and oxidation processes.

How Does A Electric Rotary Kiln Work?

An electric rotary kiln works by gradually heating materials, such as minerals and ores, to very high temperatures using electricity as its power source. The kiln consists of a body, discharging device, electric heating device, and control unit. The electric heating device heats the surrounding environment of the materials in the kiln, and the temperature is monitored by a thermocouple. The kiln body has a certain inclination angle, with the feed end at a higher position than the discharge end. As the material rotates with the furnace tube, it passes through various temperature zones before being discharged.

How Does A Pyrolysis Furnace Work?

Pyrolysis furnaces work by subjecting organic materials to high temperatures, typically in the range of 400-1000 degrees Celsius, in an oxygen-free environment. The absence of oxygen prevents combustion and allows for the thermal decomposition of the organic material. The furnace is designed to provide a controlled temperature environment and may incorporate heating elements, insulation, and gas flow control mechanisms. The organic material is loaded into the furnace chamber, heated to the desired temperature, and held at that temperature for a specific duration to facilitate the pyrolysis process. The resulting products, such as gases, liquids, and solids, can be collected and further processed or analyzed.

What Are The Main Applications Of Pyrolysis Plants?

Pyrolysis plants have diverse applications in waste management and resource recovery. They are commonly used to process various waste streams, such as plastic waste, tires, and biomass, into valuable products. The fuel oil produced can be used as a substitute for conventional fossil fuels, either directly or after refining. Carbon black, a byproduct of pyrolysis, is widely used as a reinforcing filler in rubber and plastic products. The combustible gas fraction can be utilized as a source of energy to power the pyrolysis process or provide heat for other applications. Additionally, pyrolysis plants contribute to waste reduction, environmental sustainability, and the circular economy by converting waste materials into valuable resources.

How Does A Rotary Tube Furnace Work?

A rotary tube furnace is a circular furnace that rotates during heat-treatment. It burns fuel and the heating gases created flow towards the sample. The furnace features a metal drum lined with refractory, mounted at an angle. Loose materials are heated for physiochemical processing and the heat is transferred from a heat source to a rotating tube which holds the sample. Rotary tube furnaces are designed for continuous materials processing and have multiple thermal control zones. They have a wide range of applications, including the manufacture of alumina, vermiculite, iron ore pellets, and cement clinker.

Why Pyrolysis Of Biomass?

Pyrolysis of biomass is done to convert waste biomass into valuable products like biofuels, chemicals, and other substances. It offers environmental and economic benefits like the reduction of greenhouse gas emissions compared to fossil fuels, the production of renewable energy, and the potential for carbon sequestration through the production of biochar. Although there are cons to the process like high capital and operating costs, technical challenges in scaling up the process, and potential for emissions of pollutants, the potential benefits make it a sustainable and carbon-neutral source of energy and materials.

What Are The Advantages Of Rotor Furnace?

Rotary tube furnaces offer several advantages over static processes. The continuous movement of the sample ensures that the entire surface area is exposed to the atmosphere during processing which improves gas diffusion, reduces gas consumption and increases heat treatment efficiency. Additionally, the material is continuously passed through a hot furnace that is maintaining a consistent temperature profile, improving product homogeneity. Rotary furnaces also offer significant advantages of throughput and energy efficiency over other forms of continuous, high temperature equipment, making them the latest technology for high-temperature processing of powdered materials.

What Are The Advantages Of Electric Rotary Kiln?

The advantages of electric rotary kiln include high thermal efficiency, no smoke, ash, or slag, easy automatic control of conditions, high kiln temperature control accuracy, and avoidance of corrosion and environmental pollution problems. Electric rotary kilns use clean electricity and do not require fuel storage or transportation stations. They are suitable for narrow pre-firing temperature processes and can be used for various materials, including positive and negative electrode materials, rare earth materials, chemical catalytic materials, and non-metallic mineral materials. The electric rotary kilns by KinTek feature high-speed electric heating, intelligent PID thermal control technology, and excellent dynamic sealing technology for inert gas protection.

What Are The Applications Of Pyrolysis Furnaces?

Pyrolysis furnaces have various applications across different industries. They are commonly used in the fields of waste management and recycling to convert organic waste materials, such as plastics, rubber, or biomass, into valuable products like biochar, biofuels, or syngas. Pyrolysis furnaces are also utilized in the production of carbon fibers, activated carbon, and other carbon-based materials. Additionally, they are employed in research and development for studying the pyrolysis behavior of different materials, investigating reaction kinetics, and exploring novel applications for pyrolysis-derived products.

What Are The Advantages Of A Rotary Tube Furnace?

The advantages of a rotary tube furnace include improved gas diffusion, reduced gas consumption, increased heat treatment efficiency, and improved product homogeneity. These furnaces provide an efficient way to transfer heat over a short time and continuously run batches of materials. Rotary tube furnaces can be custom designed for specific requirements, including temperature control, workspace size, residence time, tube rotation rate, and atmosphere flow rate. When choosing a tube for a rotary tube furnace, key points to consider include rotational speed, amount of material, tube diameter, suspended length, and tube thickness.

What Is The Function Of Rotary Tube Furnace?

The function of a rotary tube furnace is to heat loose materials for physiochemical processing. The furnace features a rotating tube that holds the sample and applies heat in multiple thermal control zones. Heating gases created by burning fuel flow towards the sample through the furnace. Rotary tube furnaces are used for manufacturing materials such as alumina, vermiculite, iron ore pellets, and cement clinker, as well as for oxidation and calcination processes. These furnaces can be made of ceramic, quartz, or high-temperature alloy and can be built with a wide temperature range for various applications.

What Are The Advantages Of Biomass Pyrolysis?

The advantages of biomass pyrolysis include high energy efficiency, production of valuable by-products such as bio-oil and biochar, low emissions, carbon neutrality, flexibility, and reduced dependence on fossil fuels. However, there are also disadvantages such as high capital costs, complexity, feedstock variability, and pollution. Suitable biomass feedstocks include wood waste, agricultural waste, municipal solid waste, algae, and biomass from invasive species. Overall, biomass pyrolysis offers a number of environmental and economic benefits, but it is important to carefully consider the potential impacts of the process and to ensure responsible implementation.

What Is The Efficiency Of A Rotary Furnace?

Rotary tube furnaces are highly efficient in transferring heat over a short period of time while continuously running batches of materials. They also minimize material handling, making them ideal for powder processing. KINTEK offers custom-designed rotary tube furnaces that can be built to specific requirements for maximum temperature control, workspace size, residence time, tube rotation rate, tube inclination angle, temperature profile, atmosphere flow rate, powder bed depth, and feed rate. When choosing a tube for the furnace, key considerations include rotational speed, amount of material, tube diameter, suspended length, and tube thickness. The choice of tube material should also be based on potential applications.

What Can Electric Rotary Kiln Be Used For?

Electric rotary kiln, also known as rotary kiln electric furnace, is used for high-temperature oxidation and reduction reactions, and for calcining granular or powder materials. It is widely used in industries such as rare earth materials, nonferrous metal materials, chemical catalytic materials, powder metallurgy materials, and kaolin non-metallic mineral materials.

What Are The Advantages Of Using Pyrolysis Furnaces?

Pyrolysis furnaces offer several advantages for thermal decomposition processes. They allow for the controlled and precise heating of organic materials, ensuring consistent and reproducible results. The absence of oxygen prevents combustion and allows for the production of valuable pyrolysis products. Pyrolysis furnaces can handle a wide range of feedstock materials, including various waste streams, biomass, and plastics. They enable the conversion of these materials into useful products like biochar, biofuels, or syngas, contributing to waste reduction and resource recovery. The process is typically energy-efficient, and the resulting products can have various applications in energy, agriculture, and manufacturing industries.

What Are The Advantages Of Rotary Tube Furnace?

Rotary tube furnaces offer efficient heat transfer over a short period, continuously processing batches of material while minimizing material handling. The furnace's continuous movement exposes the entire sample surface to the atmosphere, improving gas diffusion and reducing gas consumption to increase heat treatment efficiency.

What Are The Steps Of Biomass Pyrolysis?

The steps of biomass pyrolysis include drying, pyrolysis, and cooling. In the drying stage, moisture is removed from the biomass. The pyrolysis stage involves heating the dried biomass in the absence of oxygen to temperatures between 300-900°C, causing it to decompose into bio-oil, biochar, and syngas. In the final stage, the pyrolysis products are cooled and separated into their desired forms. The bio-oil can be used as a fuel, biochar as a soil amendment, and syngas as a fuel or for electricity generation. The pyrolysis process may vary depending on the feedstock used and the desired end product.

Can A Rotary Furnace Be Used For Continuous Production?

Yes, rotary furnaces can be used for continuous production depending on the specific application and process requirements. Continuous operation is achieved by feeding materials into the furnace at a controlled rate while maintaining a steady rotation speed. This allows for a continuous flow of processed materials out of the furnace. Rotary furnaces are often utilized in industries requiring continuous thermal treatment, such as cement production or metallurgical processes. However, it is important to ensure proper design, sizing, and integration of auxiliary equipment, such as feed systems and discharge mechanisms, to enable continuous operation effectively. Additionally, proper monitoring and control systems should be in place to maintain consistent process parameters and product quality throughout the continuous production cycle.

What Factors Should Be Considered When Selecting A Pyrolysis Furnace?

Several factors should be considered when selecting a pyrolysis furnace. The desired temperature range and heating rate capability of the furnace should match the requirements of the pyrolysis process under consideration. The furnace size and capacity should be suitable for the volume of material to be processed. The control and monitoring features, such as temperature control accuracy and data logging capabilities, should be evaluated to ensure precise and reliable operation. Safety features, such as gas flow control, exhaust systems, and over-temperature protection, should be present to ensure safe operation. Finally, cost, maintenance requirements, and compatibility with other equipment or downstream processes should be taken into account when selecting a pyrolysis furnace.

Which Biomass Is Suitable For Pyrolysis?

Various types of biomass are suitable for pyrolysis, including wood, agricultural residues, and even municipal waste. Wood sources such as forest trees and branches are still the main source of biomass for various applications. Agricultural residues such as sugarcane bagasse, rice straw, cotton stalks, and wheat straw can also be used for pyrolysis. Municipal waste is also considered biomass. The amount of biomass available annually is approximately 105 billion metric tons of carbon per year.

How Can The Performance Of A Rotary Furnace Be Optimized?

The performance of a rotary furnace can be optimized through various means. Proper selection and control of process parameters, such as temperature, rotation speed, and residence time, are critical for achieving the desired results. Optimization can be achieved by adjusting these parameters based on the specific materials and process requirements. Regular maintenance, including cleaning, lubrication, and inspection of the furnace components, is essential to ensure optimal performance and prevent unexpected failures. Implementing advanced control systems and automation can enhance process efficiency, accuracy, and repeatability. Additionally, monitoring and analyzing process data, such as temperature profiles and energy consumption, can help identify opportunities for improvement and optimize energy efficiency. Collaboration with furnace manufacturers or process experts can provide valuable insights and recommendations for optimizing the performance of a rotary furnace.

What Safety Precautions Should Be Followed When Using A Pyrolysis Furnace?

When using a pyrolysis furnace, several safety precautions should be followed to ensure safe operation. The furnace should be placed in a well-ventilated area or equipped with proper exhaust systems to prevent the buildup of hazardous gases or fumes. It is important to carefully handle and load the organic materials to avoid potential hazards or accidents. The furnace should be operated within the recommended temperature range and not exceeded to prevent safety risks or damage to the equipment. Proper personal protective equipment, such as heat-resistant gloves, safety goggles, and fire-resistant clothing, should be worn when handling hot materials or operating the furnace. Regular maintenance and inspections should be carried out to ensure the integrity and functionality of the furnace. Lastly, it is crucial to follow the manufacturer's guidelines and instructions for safe operation and emergency shutdown procedures.
View more faqs for this product

4.6

out of

5

I'm very happy with the speed of delivery. The product arrived in just a few days!

Martin O'Malley

4.7

out of

5

This product is definitely worth the money. It's very well-made and durable.

Sophia Martin

4.8

out of

5

The quality of this product is excellent. It's made from high-quality materials and construction.

Christopher Harris

4.9

out of

5

I am very impressed with the durability of this product. It has been in use for months and shows no signs of wear and tear.

Elizabeth Carter

5.0

out of

5

The technological advancement of this product is amazing. It's the most advanced product of its kind on the market.

William Jones

4.8

out of

5

This product is easy to use and operate. It's also very efficient and productive.

Jennifer Brown

4.7

out of

5

I am very happy with the after-sales service of this product. The customer service is excellent.

Michael Smith

4.9

out of

5

This product is a great value for the money. It's affordable and offers a lot of features.

Lisa Garcia

5.0

out of

5

I would definitely recommend this product to others. It's a great product that is worth the investment.

Matthew Johnson

4.6

out of

5

I am very satisfied with this product. It meets all of my needs and expectations.

Sarah Miller

4.7

out of

5

This product is very user-friendly. It's easy to set up and operate.

Daniel Green

4.8

out of

5

I am very impressed with the quality of this product. It's made from high-quality materials and construction.

Rebecca White

4.9

out of

5

I am very happy with the performance of this product. It's very efficient and productive.

Joseph King

5.0

out of

5

I would definitely recommend this product to others. It's a great product that is worth the investment.

Kelly Jackson

4.6

out of

5

I am very satisfied with this product. It meets all of my needs and expectations.

David Rodriguez

4.7

out of

5

This product is very user-friendly. It's easy to set up and operate.

Jessica Wright

4.8

out of

5

I am very impressed with the quality of this product. It's made from high-quality materials and construction.

Joshua Hall

4.9

out of

5

I am very happy with the performance of this product. It's very efficient and productive.

Abigail Walker

5.0

out of

5

I would definitely recommend this product to others. It's a great product that is worth the investment.

Benjamin Anderson

PDF - Continuous working electric heating pyrolysis furnace plant

Download

Catalog of Electric Rotary Kiln

Download

Catalog of Rotary Furnace

Download

Catalog of Electric Rotary Kiln

Download

Catalog of Pyrolysis Furnace

Download

Catalog of Pyrolysis Plant

Download

Catalog of Rotary Tube Furnace

Download

Catalog of Biomass Pyrolysis

Download

REQUEST A QUOTE

Our professional team will reply to you within one business day. Please feel free to contact us!

Related Products

rotary biomass pyrolysis furnace plant

rotary biomass pyrolysis furnace plant

Learn about Rotary Biomass Pyrolysis Furnaces & how they decompose organic material at high temps without oxygen. Use for biofuels, waste processing, chemicals & more.

Electric rotary kiln pyrolysis furnace plant pyrolysis machine electric rotary calciner

Electric rotary kiln pyrolysis furnace plant pyrolysis machine electric rotary calciner

Electric rotary kiln - precisely controlled, it's ideal for calcination and drying of materials like lithium cobalate, rare earths, and non-ferrous metals.

Continuous graphitization furnace

Continuous graphitization furnace

High-temperature graphitization furnace is a professional equipment for graphitization treatment of carbon materials. It is a key equipment for the production of high-quality graphite products. It has high temperature, high efficiency and uniform heating. It is suitable for various high-temperature treatments and graphitization treatments. It is widely used in metallurgy, electronics, aerospace, etc. industry.

High Thermal Conductivity Film Graphitization Furnace

High Thermal Conductivity Film Graphitization Furnace

The high thermal conductivity film graphitization furnace has uniform temperature, low energy consumption and can operate continuously.

Vacuum sealed continuous working rotary tube furnace

Vacuum sealed continuous working rotary tube furnace

Experience efficient material processing with our vacuum-sealed rotary tube furnace. Perfect for experiments or industrial production, equipped with optional features for controlled feeding and optimized results. Order now.

laboratory vacuum tilt rotary tube furnace

laboratory vacuum tilt rotary tube furnace

Discover the versatility of Laboratory Rotary Furnace: Ideal for calcination, drying, sintering, and high-temperature reactions. Adjustable rotating and tilting functions for optimal heating. Suitable for vacuum and controlled atmosphere environments. Learn more now!

Waste tire pyrolysis plant

Waste tire pyrolysis plant

The waste tire refining pyrolysis plant produced by our company adopts a new type of pyrolysis technology, which makes tires heated under the condition of complete anoxic or limited oxygen supply so that high molecular polymers and organic additives are degraded into low molecular or small molecules compounds, thereby recovering tire oil.

Electric activated carbon regeneration furnace

Electric activated carbon regeneration furnace

Revitalize your activated carbon with KinTek's Electric Regeneration Furnace. Achieve efficient and cost-effective regeneration with our highly automated rotary kiln and intelligent thermal controller.

1400℃ Controlled atmosphere furnace

1400℃ Controlled atmosphere furnace

Achieve precise heat treatment with KT-14A controlled atmosphere furnace. Vacuum sealed with a smart controller, it's ideal for lab and industrial use up to 1400℃.

Horizontal high temperature graphitization furnace

Horizontal high temperature graphitization furnace

Horizontal Graphitization Furnace: This type of furnace is designed with the heating elements placed horizontally, allowing for uniform heating of the sample. It's well-suited for graphitizing large or bulky samples that require precise temperature control and uniformity.

Vertical high temperature graphitization furnace

Vertical high temperature graphitization furnace

Vertical high temperature graphitization furnace for carbonization and graphitization of carbon materials up to 3100℃.Suitable for shaped graphitization of carbon fiber filaments and other materials sintered in a carbon environment.Applications in metallurgy, electronics, and aerospace for producing high-quality graphite products like electrodes and crucibles.

Vacuum furnace with ceramic fiber liner

Vacuum furnace with ceramic fiber liner

Vacuum furnace with polycrystalline ceramic fiber insulation liner for excellent heat insulation and uniform temperature field. Choose from 1200℃ or 1700℃ max. working temperature with high vacuum performance and precise temperature control.

Large Vertical Graphitization Furnace

Large Vertical Graphitization Furnace

A large vertical high-temperature graphitization furnace is a type of industrial furnace used for the graphitization of carbon materials, such as carbon fiber and carbon black. It is a high-temperature furnace that can reach temperatures of up to 3100°C.

1700℃ Controlled atmosphere furnace

1700℃ Controlled atmosphere furnace

KT-17A Controlled atmosphere furnace: 1700℃ heating, vacuum sealing technology, PID temperature control, and versatile TFT smart touch screen controller for laboratory and industrial use.

Negative Material Graphitization Furnace

Negative Material Graphitization Furnace

Graphitization furnace for battery production has uniform temperature and low energy consumption. Graphitization furnace for negative electrode materials: an efficient graphitization solution for battery production and advanced functions to enhance battery performance.

Split multi heating zone rotary tube furnace

Split multi heating zone rotary tube furnace

Multi zone rotary furnace for high-precision temperature control with 2-8 independent heating zones. Ideal for lithium ion battery electrode materials and high-temperature reactions. Can work under vacuum and controlled atmosphere.

High pressure tube furnace

High pressure tube furnace

KT-PTF High Pressure Tube Furnace: Compact split tube furnace with strong positive pressure resistance. Working temp up to 1100°C and pressure up to 15Mpa. Also works under controller atmosphere or high vacuum.

1200℃ Controlled atmosphere furnace

1200℃ Controlled atmosphere furnace

Discover our KT-12A Pro Controlled atmosphere furnace - high precision, heavy duty vacuum chamber, versatile smart touch screen controller, and excellent temperature uniformity up to 1200C. Ideal for both laboratory and industrial application.

1400℃ Tube furnace with Alumina tube

1400℃ Tube furnace with Alumina tube

Looking for a tube furnace for high-temperature applications? Our 1400℃ Tube Furnace with Alumina Tube is perfect for research and industrial use.

2200 ℃ Tungsten vacuum furnace

2200 ℃ Tungsten vacuum furnace

Experience the ultimate refractory metal furnace with our Tungsten vacuum furnace. Capable of reaching 2200℃, perfect for sintering advanced ceramics and refractory metals. Order now for high-quality results.

1800℃ Muffle furnace

1800℃ Muffle furnace

KT-18 muffle furnace with Japan Al2O3 polycrystalline fibe and Silicon Molybdenum heating element, up to 1900℃, PID temperature control and 7" smart touch screen. Compact design, low heat loss, and high energy efficiency. Safety interlock system and versatile functions.

1700℃ Tube furnace with Alumina tube

1700℃ Tube furnace with Alumina tube

Looking for a high-temperature tube furnace? Check out our 1700℃ Tube Furnace with Alumina Tube. Perfect for research and industrial applications up to 1700C.

Ultra-high temperature graphitization furnace

Ultra-high temperature graphitization furnace

The ultra-high temperature graphitization furnace utilizes medium frequency induction heating in a vacuum or inert gas environment. The induction coil generates an alternating magnetic field, inducing eddy currents in the graphite crucible, which heats up and radiates heat to the workpiece, bringing it to the desired temperature. This furnace is primarily used for graphitization and sintering of carbon materials, carbon fiber materials, and other composite materials.

1700℃ Muffle furnace

1700℃ Muffle furnace

Get superior heat control with our 1700℃ Muffle Furnace. Equipped with intelligent temperature microprocessor, TFT touch screen controller & advanced insulation materials for precise heating up to 1700C. Order now!

2200 ℃ Graphite Vacuum furnace

2200 ℃ Graphite Vacuum furnace

Discover the power of the KT-VG Graphite Vacuum Furnace - with a maximum working temperature of 2200℃, it's perfect for vacuum sintering of various materials. Learn more now.

Related Articles

Electric Rotary Kiln Pyrolysis Furnace: A Comprehensive Guide to Pyrolysis Technology

Electric Rotary Kiln Pyrolysis Furnace: A Comprehensive Guide to Pyrolysis Technology

Discover the principles, applications, and advantages of electric rotary kiln pyrolysis furnaces. Explore various heating methods, factors affecting efficiency, and the environmental benefits of this technology.

Find out more
Electric Rotary Kiln Pyrolysis Furnace: Design, Operation, and Applications

Electric Rotary Kiln Pyrolysis Furnace: Design, Operation, and Applications

Explore the comprehensive guide on electric rotary kiln pyrolysis furnaces, including their design, operation, efficiency factors, and diverse applications in industries like waste processing and biofuel production.

Find out more
Exploring the Functions and Advantages of Rotary Tube Furnaces

Exploring the Functions and Advantages of Rotary Tube Furnaces

Discover how rotary tube furnaces work and why they are used in advanced materials processing. Learn about the basic technique of rotary furnaces and their customizable features. Explore the advantages of rotary tube furnaces over other furnace types.

Find out more
Rotary Furnaces: Advanced Materials Processing and Applications

Rotary Furnaces: Advanced Materials Processing and Applications

Rotary furnaces are versatile and efficient thermal processing systems used in various industries. This comprehensive guide explores the basics of rotary furnaces, their applications, advantages, and key components. Discover how rotary furnaces contribute to advanced materials processing and enhance productivity.

Find out more
Optimizing Industrial Processes: Rotary Kiln and Laboratory Furnace Solutions

Optimizing Industrial Processes: Rotary Kiln and Laboratory Furnace Solutions

Discover how rotary kilns and laboratory furnaces revolutionize industrial processes. Learn about rotary kiln sizing and design, laboratory furnace features, and industries served. Explore the production of carbon products like biochar and activated carbon.

Find out more
Exploring Rotary Tube Furnaces: A Comprehensive Guide

Exploring Rotary Tube Furnaces: A Comprehensive Guide

Discover the workings of rotary tube furnaces, their diverse applications, and key advantages. Explore how these furnaces operate, their suitability for different processes, and factors to consider when selecting one. Find out why rotary tube furnaces are favored in advanced materials processing.

Find out more
Rotary Furnaces: A Comprehensive Guide to Advanced Materials Processing

Rotary Furnaces: A Comprehensive Guide to Advanced Materials Processing

Rotary furnaces are widely used for advanced materials processing due to their versatility, temperature uniformity, and energy efficiency. This guide provides an overview of rotary furnace technology, including its working principle, applications, design improvements, and control systems.

Find out more
Exploring the Benefits and Applications of Rotary Furnaces: A Comprehensive Guide

Exploring the Benefits and Applications of Rotary Furnaces: A Comprehensive Guide

Rotary tube furnaces are highly versatile tools that can be used for a wide range of physicochemical processing applications in the laboratory.

Find out more
Maximize Rotary Furnace Performance: Design Advancements for Efficient Material Processing

Maximize Rotary Furnace Performance: Design Advancements for Efficient Material Processing

Discover the intricacies of rotary furnaces, exploring their design improvements and applications in advanced materials processing. Learn how these furnaces optimize throughput, energy efficiency, and product quality.

Find out more
What is activated carbon regeneration Rotary Furnace

What is activated carbon regeneration Rotary Furnace

Electric activated carbon regeneration furnace is one typical electric external heating rotary furnace

Find out more
A Comprehensive Guide to Rotary Kilns: Applications, Types, and Working Principles

A Comprehensive Guide to Rotary Kilns: Applications, Types, and Working Principles

Discover the diverse applications of rotary kilns across industries such as carbon products manufacturing and industrial sintering. Learn about different types of rotary kilns and their working principles, along with insights into laboratory furnaces and pyrolysis furnaces.

Find out more
Unlocking Efficiency: The Ultimate Guide to Rotary Tube Furnaces

Unlocking Efficiency: The Ultimate Guide to Rotary Tube Furnaces

Discover the transformative power of rotary tube furnaces for your heat treatment processes. Learn about the advantages, considerations, and key elements for selecting the perfect furnace for your needs. Whether it's maximizing temperature control or optimizing material handling, find out why rotary tube furnaces are the go-to solution for diverse applications.

Find out more