The Pure Biomass CFB Boiler is the premium product in Taiyuan Boiler Group's biomass energy series, purpose-designed to achieve 100% biomass combustion for genuine zero-carbon power generation. Unlike co-firing or mixed-fuel designs, the pure biomass CFB boiler is comprehensively engineered from furnace structure through fuel feeding system, heating surface layout, and backend flue gas cleaning with every aspect deeply customized and optimized around the specific characteristics of pure biomass firing. This pure biomass CFB boiler represents the ultimate zero-carbon boiler solution for organizations committed to eliminating fossil carbon from their energy portfolio entirely. The pure biomass CFB boiler delivers authentic carbon neutrality with net CO2 emissions approximately zero, not counting fossil carbon, making it the definitive choice for 100% biomass renewable energy projects. Every pure biomass CFB boiler project is supported by a complete feasibility study and fuel assessment to confirm that the 100% biomass zero-carbon boiler can achieve its guaranteed performance.
The Pure Biomass CFB Boiler is the premium product in Taiyuan Boiler Group's biomass energy series, purpose-designed to achieve 100% biomass combustion for genuine zero-carbon power generation. Unlike co-firing or mixed-fuel designs, the pure biomass CFB boiler is comprehensively engineered from furnace structure through fuel feeding system, heating surface layout, and backend flue gas cleaning with every aspect deeply customized and optimized around the specific characteristics of pure biomass firing. This pure biomass CFB boiler represents the ultimate zero-carbon boiler solution for organizations committed to eliminating fossil carbon from their energy portfolio entirely. The pure biomass CFB boiler delivers authentic carbon neutrality with net CO2 emissions approximately zero, not counting fossil carbon, making it the definitive choice for 100% biomass renewable energy projects. Every pure biomass CFB boiler project is supported by a complete feasibility study and fuel assessment to confirm that the 100% biomass zero-carbon boiler can achieve its guaranteed performance.
The design philosophy of the pure biomass CFB boiler is uncompromising dedication to 100% biomass firing and true zero-carbon performance. Every component of the zero-carbon boiler is selected to avoid fossil fuel dependence, from the biomass-only fuel system to the renewable energy control logic. The pure biomass CFB boiler furnace is designed with larger cross-sectional area and lower heat release rates than coal-adapted designs, accommodating the lower density and higher volatiles of 100% biomass fuels. The zero-carbon boiler also incorporates specialized materials and ash handling systems that handle the unique chemistry of pure biomass combustion. This design philosophy ensures the pure biomass CFB boiler operates reliably on 100% biomass without any fossil fuel backup, achieving genuine zero-carbon operation throughout its lifecycle.
The pure biomass CFB boiler is equipped with a dedicated biomass fuel pretreatment system that handles crushing, drying, and uniform feeding of biomass fuels. This pretreatment system is essential for maintaining consistent fuel quality entering the circulating fluidized bed furnace, as biomass fuels exhibit far greater moisture and size variability than coal. The zero-carbon boiler pretreatment system ensures that biomass particles are reduced to the optimal size distribution for fluidized bed combustion and that moisture content is controlled within the design range, guaranteeing stable and efficient pure biomass CFB boiler operation regardless of raw fuel conditions. The pure biomass CFB boiler pretreatment line includes rotary dryers, hammer mills, and sophisticated weigh-belt feeders that deliver precisely controlled fuel flow to the 100% biomass furnace. This fuel preparation precision is fundamental to the zero-carbon boiler performance.
The pure biomass CFB boiler features an expanded furnace cross-sectional area that reduces furnace cross-sectional heat release rate, preventing the localized slagging and agglomeration that can occur when firing high-volatile biomass fuels. The lower volumetric heat load of the pure biomass CFB boiler furnace provides longer residence time for biomass particle combustion and devolatilization, ensuring complete burnout and maximizing the zero-carbon boiler combustion efficiency. The pure biomass CFB boiler incorporates a specially designed air distributor plate and nozzle configuration optimized for the fluidization of lightweight biomass fuels. The zero-carbon boiler air distribution system maintains stable fluidization at lower primary air velocities appropriate for low-density biomass particles, while the nozzle design of the pure biomass CFB boiler resists plugging by biomass ash and oversize particles. The expanded furnace of the pure biomass CFB boiler also creates more uniform temperature distribution, further supporting the 100% biomass zero-carbon boiler emission control objectives.
The pure biomass CFB boiler features an optimized cyclone separator and return leg design that achieves carbon capture rates of 99.9%, ensuring virtually complete burnout of biomass fuel particles. The high-efficiency separation system of the zero-carbon boiler captures even the finest unburned carbon particles and returns them to the furnace for re-combustion, maximizing the pure biomass CFB boiler fuel utilization and minimizing carbon loss in the ash. This exceptional carbon capture performance of the pure biomass CFB boiler translates directly into higher boiler efficiency and lower operating costs for the 100% biomass power plant. The renewable energy boiler separator design also minimizes particle emissions, supporting the zero-carbon boiler environmental performance alongside its 100% biomass fuel conversion efficiency.
Operating the pure biomass CFB boiler delivers both environmental leadership and economic value for the 100% biomass power plant. The zero-carbon boiler qualifies for renewable energy subsidies, carbon credits, and green power certification programs in many jurisdictions, improving project returns. The pure biomass CFB boiler also provides a stable disposal route for agricultural and forestry residues, creating additional revenue streams from waste materials that would otherwise require costly landfill or open burning. The 100% biomass fuel strategy eliminates exposure to fossil fuel price volatility, giving the zero-carbon boiler operator long-term cost predictability. Maintenance of the pure biomass CFB boiler is supported by Taiyuan Boiler Group's specialized renewable energy boiler service team, which understands the unique requirements of 100% biomass combustion systems.

The backend of the pure biomass CFB boiler is equipped with advanced dry and semi-dry acid gas removal systems that control emissions to well below regulatory limits. The zero-carbon boiler achieves dust emission below 10 mg/Nm3, SO2 emission below 35 mg/Nm3 because biomass contains inherently low sulfur, NOx emission below 100 mg/Nm3 because low-temperature combustion naturally suppresses NOx formation, and net CO2 emission approximately zero. These environmental credentials make the pure biomass CFB boiler the definitive zero-carbon boiler choice for organizations pursuing authentic carbon neutrality through 100% biomass renewable energy generation. The pure biomass CFB boiler complies with national renewable energy boiler standards and international emission directives, providing clients with certified 100% biomass power generation equipment that meets the highest sustainability expectations. Continuous emission monitoring on the pure biomass CFB boiler provides transparent verification of the zero-carbon boiler environmental performance for regulators and stakeholders.
Taiyuan Boiler Group Co., Ltd., established in 1958 and headquartered in Taiyuan, Shanxi Province, China, is a nationally designated Class A boiler and environmental protection equipment manufacturing enterprise. The company holds the National Class A Boiler Manufacturing License, D1/D2 Pressure Vessel Design License, A1/A2 Pressure Vessel Manufacturing License, ASME "S" and "U" Code Stamp Authorizations, and has been certified under the ISO 9001 International Quality Management System. In strategic partnership with Tsinghua University, the company co-founded the Low-Carbon Energy Technology Research Institute, and has led the research and development of Circulating Fluidized Bed (CFB) boiler technology for decades, establishing a complete product spectrum ranging from 35 t/h to 1,000 t/h.

Taiyuan Boiler Group, with over 30 years of deep industry engagement and technological accumulation, has obtained the most comprehensive qualification certifications in the boiler manufacturing industry:
√ National Class A Boiler Manufacturing License (Highest Grade)
√ A1, A2 Class Pressure Vessel Manufacturing License
√ D1, D2 Class Pressure Vessel Design License
√ ASME "S" (Power Boiler) and "U" (Pressure Vessel) Code Stamp Authorization
√ ISO 9001 International Quality Management System Certification
Tsinghua University — Taiyuan Boiler Group Low-Carbon Energy Technology Research Institute (Jointly Established)