Are you seeking a versatile and fully customisable solution to harness the potential of biogas for sustainable energy generation?
The HTBA Type is a high-temperature biogas suction and combustion unit, meticulously designed to cater to the unique needs of each end user. With no limitations on dimensions, instrumentation, capacities, and powers, this system offers exceptional flexibility and adaptability to meet diverse requirements.
Premium Material Construction for Durability
Built to withstand the test of time, the HTBA Type boasts filters and pipes made of AISI 304 stainless steel, ensuring corrosion resistance and exceptional durability. The galvanized steel frame provides robust support, giving you the peace of mind that your system is reliable and long-lasting.
Enhanced Safety with Enclosed Flame Flare Chamber
Safety is of paramount importance in any system. The HTBA Type comes with an enclosed chamber to safely contain the flame flare, ensuring there are no hazards in the process.
Efficient Combustion Chambers for Optimal Performance
The combustion chambers, constructed with AISI 304 stainless steel and coated with ceramic fiber (100-150 mm thick), contribute to optimal thermal insulation and highly efficient combustion. This design ensures maximum energy extraction from biogas, making the system highly energy-efficient.
High-Temperature Chimney for Effective Exhaust
The combustion chimney, also made of AISI 304 stainless steel and coated with ceramic fiber (100-150 mm thick), efficiently expels combustion by-products at elevated temperatures, ensuring clean emissions and environmental compliance.
Advanced Burner Technology for Precision Control
The HTBA Type is equipped with a stainless steel burner featuring multiple nozzles, enabling precise and controlled biogas combustion. This technology ensures optimal utilization of biogas resources, minimizing waste and enhancing energy generation efficiency.
Wide Combustion Range for Versatile Biogas Utilisation
The system can handle biogas with a methane content ranging from 20% to 50%, offering remarkable versatility and adaptability to various biogas compositions.
Optimal Combustion Temperature for Efficient Energy Generation
Operating within the temperature range of 850 to 1100 degrees Celsius, the HTBA Type ensures efficient energy extraction from biogas, providing a stable and consistent source of energy for your operations.
Flame Retention and Residual Oxygen Control for Minimal Emissions
With flame retention of more than 0.3 seconds and a residual oxygen level of over 6% of the design capacity in combustion fumes, the HTBA Type ensures complete combustion and minimal emissions, aligning with environmental standards
Automatic Comburent Air Adjustment for Precise Control
Featuring automatic carburant air adjustment, the HTBA Type optimises the combustion process, achieving energy-efficient performance without the need for constant manual intervention.
Wide Operating Range for Flexible Energy Demands
With a minimum operating range of 1/5 of its rated capacity, the system delivers consistent performance across various loads, making it ideal for both high and low energy demands.
PLC Operation and Compliance with Stringent Standards
The HTBA Type is designed with PLC operation, streamlining control and monitoring operations. Additionally, it complies with ATEX standards and the main sector directive, guaranteeing safe and reliable functionality.
Customisable Solutions for Your Unique Needs
At BESA, we believe that every project is distinct, and one size does not fit all. With the HTBA Type High-Temperature Biogas Suction and Combustion System, we offer fully customisable solutions tailored to your specific energy requirements and application demands.
Our team of experts will work closely with you to create a solution that seamlessly integrates with your existing infrastructure and optimises your biogas utilisation process.
Contact our expert team to discuss your project’s needs, explore customisation options and learn how this advanced solution can transform your biogas utilisation process.