Columnar activated carbon (also called cylindrical or pellet activated carbon) is a high-quality carbon material shaped into uniform cylindrical pellets. Compared to granular or powdered activated carbon, columnar activated carbon has:

• Higher mechanical strength
• Low pressure drop in filtration systems
• Longer service life

Columnar activated carbon is widely used in industrial gas purification, air filtration, water treatment, and chemical processing.

그리고 Columnar Activated Carbon Making Machine is designed to process raw materials like coconut shells, coal, bamboo, and wood into high-strength columnar activated carbon. This machine integrates crushing, carbonization, activation, granulation, and cooling into an efficient production line.

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What is a Columnar Activated Carbon Making Machine?

A Columnar Activated Carbon Making Machine is industrial equipment used to convert raw materials into cylindrical activated carbon. Unlike granular or powdered carbon, the columnar shape ensures:

• Even air or water flow during filtration
• High adsorption efficiency
• Reduced dust and loss during handling

The machine is suitable for producing cylindrical activated carbon with diameters ranging from 2mm to 8mm, meeting industrial and municipal filtration requirements.

주요 기능:

• Continuous operation for large-scale production
• Integrated carbonization and activation system
• High mechanical strength and uniform size pellets
• Energy-efficient and environmentally friendly

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Raw Materials for Columnar Activated Carbon Production

Common raw materials include:

• Coconut shells – hard and microporous, excellent for water purification
• Coal – bituminous and anthracite coal for granular and pellet carbon
• Bamboo – renewable and eco-friendly
• Wood – provides mesopores and high adsorption capacity

Pre-treatment involves crushing, drying, and screening to achieve uniform particle size for carbonization and pelletizing.

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Working Principle of Columnar Activated Carbon Making Machine

Step 1: Crushing and Drying

Raw materials are crushed and dried to reduce moisture content to below 10%, ensuring efficient carbonization.

Step 2: Carbonization

Crushed material is heated in a carbonization furnace under low-oxygen conditions. Volatile matter is removed, forming carbon-rich char. Rotary or fixed carbonization kilns are used depending on production scale.

Step 3: Pelletizing and Extrusion

Char is mixed with a binding agent and extruded into columnar shapes using a pellet mill or extrusion machine. The size and diameter are adjustable according to requirements.

Step 4: Activation

• Steam Activation – high-temperature steam forms a microporous structure
• Chemical Activation – KOH, ZnCl₂, or H₃PO₄ creates high surface area and strong adsorption properties

Step 5: Cooling, Screening, and Packaging

Activated carbon pellets are cooled, screened for size uniformity, and packaged for storage or shipment.

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Structure of a Columnar Activated Carbon Making Machine

A standard columnar activated carbon production line includes:

• Crusher & Grinder – reduces raw material particle size
• Drying System – removes moisture efficiently
• 탄화로 – performs pyrolysis at high temperature
• Pellet Extrusion Machine – shapes char into columnar form
• 활성화 용광로 – steam or chemical activation system
• Cooling System – prevents oxidation of activated carbon
• Screening & Packaging Unit – ensures uniform pellets and prepares for shipment
• Dust Collection System – meets environmental regulations

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Applications of Columnar Activated Carbon

1. Industrial Gas Purification

• Removal of VOCs, H₂S, and other toxic gases
• Air purification in chemical plants and factories

2. 수처리

• Drinking water purification
• Industrial wastewater treatment
• Removal of chlorine, organics, and heavy metals

3. Food and Beverage Industry

• Sugar decolorization
• Alcohol and beverage purification

4. Pharmaceutical and Medical Use

• Detoxification products
• Filtration of pharmaceutical liquids

5. Other Industrial Applications

• Precious metal recovery
• Catalyst support
• Gas adsorption in chemical processes

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Advantages of Columnar Activated Carbon Making Machine

• High Mechanical Strength – columnar shape reduces breakage
• Efficient Adsorption – well-developed pore structure
• Continuous and Large-Scale Production – suitable for industrial plants
• Energy Saving – heat recovery and optimized design reduce fuel consumption
• Environmental Compliance – advanced dust and exhaust gas treatment
• Customizable Product Size – adjustable pellet diameter and length

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How to Choose the Right Columnar Activated Carbon Making Machine

1. Production Capacity – select based on plant size and market demand
2. Raw Material – compatibility with coconut shell, coal, bamboo, or wood
3. Energy Efficiency – choose machines with heat recovery and low fuel consumption
4. Automation Level – fully automatic lines improve efficiency and reduce labor
5. Manufacturer Reputation – ensure reliable after-sales service and technical support
6. Environmental Compliance – machine must meet emission and dust regulations

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Market Outlook for Columnar Activated Carbon

• Global demand for columnar activated carbon is increasing due to stricter water and air purification standards
• Industrial applications in chemical plants, pharmaceuticals, and water treatment drive growth
• Asia-Pacific, especially China and India, is the largest producer and consumer due to raw material availability and industrial demand
• Columnar activated carbon is preferred in fixed-bed filtration systems for its durability and low pressure drop

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