Charcoal making machine converts biomass waste into charcoal in a high-temperature, oxygen-free environment. This technology promotes resource recycling and drives the development of the circular economy. In today’s context of increasing emphasis on sustainable development, it offers significant potential and prospects for reducing environmental burden and achieving green production.
| Model | BST-50 Standard | BST-50S LM | BST-50S HM | BST-50S MAX | BST-06 Standard | BST-06MAX |
|---|---|---|---|---|---|---|
| Time to Market | 2015 | 2022 | 2022 | 2022 | 2025 | 2025 |
| Operating Mode | Continuous | Continuous | Continuous | Continuous | Continuous | Continuous |
| Application | Commercial Scale | Commercial Scale | Commercial Scale | Commercial Scale | Testing | Testing |
| Dust Removal System | Standard | Advanced | Advanced | Advanced | Standard | Advanced |
| Feeding Capacity | 10-15m³/h | 10-15m³/h | 10-15m³/h | 10-15m³/h | 100-300KG/H | 100-300KG/H |
| Biochar Discharge Temperature | 45℃ | 45℃ | 45℃ | 45℃ | 45℃ | 45℃ |
| Puro.earth Authentication Model | × | √ | √ | √ | × | |
| Maximum Pyrolysis temperature | 650℃ | 650℃ | 650℃ | 850℃ | 650℃ | |
| Service Life | 5-8 years | 5-8 years | 5-8 years | 8-10 years | 5-8 years | |
| Annual Operating Time | 7200 hours | 7200 hours | 7200 hours | 7200 hours | 8000 hours | |
| Land Space Required (L*W*H*m) | 35m×15m×8m | 65m×15m×8m | 65m×15m×8m | 65m×15m×8m | 25m*18m*6m | |
| Total Power (KW) | 201.25kW | 453.35kW | 505.35kW | 505.35kW | 129.79 | 162.79 |
| Cooling Method | Recycling cooling Water | Industrial chiller | Industrial chiller | Industrial chiller | Recycling cooling Water | Industrial chiller |
| Installation Period (Calendar Days) | 50 | 70 | 70 | 70 | 45 | 50 |
The system in charcoal manufacturing machine prevents blockages caused by tar, wood vinegar, and other substances. Benefits:
The reactor has a dual-cylinder + rotary design. Biomass undergoes uniform heating, is sequentially dried, semi-carbonized, and full carbonized within different temperature zones. Benefits:
By optimizing the combustion structure and precisely controlling the air supply, the BST-50S charcoal making machine minimizes pollutant formation.
The maximizes the conversion of biomass organics into stable fixed carbon. The biochar meets key EBC (European Biochar Certificate) standards, including limits for hydrogen-to-carbon molar ratio, heavy metal content, and PAHs.
Key Features: High surface area, Strong adsorption capacity, Stable structure and resistant to decomposition
Key Applications: Focus on Environmental & Agricultural
Key Features: Uniform shape and density, Stable and clean combustion, High energy density
Key Applications: Focus on Energy & Fuel
Before carbonization, the biomass must meet specific feeding requirements:
If the biomass exceeds these limits, a dryer or crusher is required to adjust the moisture and particle size.
Using traditional fuels (such as coal, wood, and natural gas) to heat the reactor for 60-90 minutes.
The generated syngas is purified and reused to heat the reactor. This self-sustaining recycling system reduces external fuel consumption and significantly improves energy efficiency.
The dedusting system (cyclone dust remover, spray dust collector, etc.) removes harmful components such as sulfur from the flue gas. After treatment, the emission meets EU environmental standards.
Earthen kilns are mostly open or semi-enclosed, leading to incomplete combustion and heavy smoke emissions. As a result, they are facing increasing government restrictions.
Modern charcoal making machines meet clean production standards and green industry policies. Its efficient and sustainable operating mode increases the chances of obtaining environmental approvals, emission permits, and market access.
Earthen kilns are inefficient, energy-intensive, and highly polluting. Such projects struggle to secure government subsidies and may face phase-out policies, rectification measures, or carbon emission penalties.
Modern charcoal making equipment follows the principles of circular economy, energy conservation, and carbon reduction. Such projects are more likely to receive financial support, such as grants, tax incentives, and green loans. This helps reduce investment costs, improve cash flow, and ensure long-term returns.
Traditional charcoal kilns generate dense smoke during carbonization. Workers exposed over long periods are prone to respiratory and other health problems, while the emitted fumes and odors also degrade the living quality of nearby residents.
Modern charcoal production machines operate in enclosed conditions with flue-gas purification, significantly improving occupational safety and community air quality, and fostering a cleaner, more responsible industrial ecosystem.
Seize the opportunity in charcoal making machine projects! It will drive economic growth and make a positive impact on the future of our planet. Contact Beston Group for customized solutions today. Follow us on LinkedIn to stay updated on the latest developments in our technologies and products.