You can get information and offers about our products from the fields below.
The biomass hot air furnace is a modern product developed in line with environmental protection trends. The fuel is rice husk. The particle diameter generally ranges between 6–8 mm.
This system delivers significant benefits both economically and environmentally. So, how does it work? As you know, rice husk is extremely rich in silica, which makes it an excellent alternative fuel. Thanks to its high silica content, it becomes possible to generate energy without harming the environment, while also supporting renewable energy solutions through this biomass resource.
Our system has been optimized through thermodynamic calculations, and all inlet and outlet units are fully controlled by PLC. This ensures maximum efficiency and performance. The husks ignite in the combustion zone and pass through the tubes, providing maximum heat transfer. As a result, we achieve performance equivalent to a coal-fired boiler — but with much lower carbon emissions.
With this innovative solution, we both save energy in agricultural operations and take an important step toward protecting the environment.
Product Features
This product is designed with advanced engineering and a unique structural configuration. It features an aesthetically appealing appearance and high heat exchange efficiency. The human–machine interface is user-friendly, and the system is built to maintain a very low failure rate. The materials used in the product are high-quality steel, ensuring a durable and long-lasting structure. Components designed for high-temperature operation enhance corrosion resistance and overall durability. The product’s performance significantly reduces common issues found in market alternatives, such as coking, black smoke formation, and high fuel consumption.
Advantages of the Biomass Hot Air Furnace
Advanced Technology: Rotary semi-gasification and multi-point oxygen supply technology enable high-efficiency fluidized suspension combustion and effective heat recovery.
Energy Saving & Environmentally Friendly: High combustion efficiency provides energy savings while supporting environmental protection.
Smart Control: The PLC control system enables automatic feeding, and motor speed control via frequency converters reduces labor requirements.
Easy Maintenance: Maintenance processes are simplified through an easy-disassembly design and high spare parts compatibility.
Modern Design: Its compact, aesthetic, and durable structure allows for quick installation.
Durability: Lean manufacturing techniques, strict material selection, and controlled production processes ensure long service life and reliable operation.
| SUPER 120 (Gas or Diesel) | LARGE 240 (Multi-Fuel) | XLM380 (Multi-Fuel) | |
|---|---|---|---|
| Capacity mt | 17 m³ | 34 m³ | 56 m³ |
| Corn Capacity mt | 12 | 24 | 38 |
| Rice Capacity mt | 9.5 mt | 19 mt | 31 mt |
| Average Daily (Corn %20-%14) | 81 mt / 24 hours | 145 mt / 24 hours | 225 mt / 24 hours |
| Average Daily (Rice %20-%14) | 45 mt / 24 hours | 91 mt / 24 hours | 150 mt / 24 hours |
| Size in Transport Mode (LxWxH) | 5.05 x 2.5 x 4.1 | 9.16 x 3.34 x 4.83 (Bio-Fuel) | 10.46 x 4.04 x 5.4 (Bio-Fuel) |
| Size in Operation Mode (LxWxH) | 7.7 x 2.5 x 6.5 | 9.61 x 3.34 x 7.93 (Bio-Fuel) | 11.28 x 4.04 x 9.2 (Bio-Fuel) |
| Total Motor Power | 34.95 kW (Gas or Diesel) | 40.69 (Bio-Fuel) | 54.69 kW (Bio-Fuel) |
| Weight | 3800 kg | 6700 kg | 9500 kg |
| Avg. Coal Consumption | 15 - 25 kg / hour | 35 - 45 kg / hour | 15 - 25 kg / hour |
| Avg. Diesel Consumption | 10 - 12 lt / hour | 18 - 22 lt / hour | 28 - 31 lt / hour |
| Avg. Husk Consumption | 100 - 120 kg / hour | 130 - 150 kg / hour | 150 - 170 kg / hour |
| Avg. LPG Consumption | 12 - 14 kg / hour | 20 - 25 kg / hour | 33 - 38 kg / hour |
| Perforated Sieves | 2.5 mm 430 inox | 2.5 mm 430 inox | 2.5 mm 430 inox |