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Steel Tube Seat
Blender
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Laminate Flooring Line
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Biomass Pellet Burner
Plywood Gluing Machine
Louvered dryer
Three-tube Dryer
Asphalt Mixing Plant
Lifting Equipment
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Purification Engineering
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Arsenic Recovery Equipment from Smelting Waste
Battery Drying Machine
Insulating Material Drying Equipment
Airflow Dryer
Incinerator
Vacuum Wood Carbonization Equipment
Vacuum Series
Vacuum Insulation Panel Heat Shrink Machine
Combustion System
Insulation Decorative Panel Drying Machine
Painting Equipment
Corrugated Paper Dryer
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Vacuum Wax Injection Machine
Wood Heat Treatment Pest Control Equipment
Hot Water Heating Wood Drying Equipment
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Dust Removal Equipment
Gas/Oil Hot Air Furnace
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Gypsum Board Dryer, Plywood Drying Machine
Tunnel Dryer
Drying Oven
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Wood veneer drying machine
Single-Board Drying Machine
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详情描述
As environmental quality standards rise, switching from coal to gas combustion is one of the directions for pollution control. In recent years, our company has undertaken numerous projects for converting coal-fired hot air furnaces to gas, accumulating mature experience in furnace modification. We can provide reasonable coal-to-gas hot air furnace solutions according to customer needs, and offer a one-stop service including manufacturing and installation.
Direct-fired gas hot air furnace
Primarily composed of valve components, burners, combustion chambers, secondary air distribution, and control systems.
Through the valve component, the combustion flame is fully mixed with air at the burner nozzle and directly sprayed into the combustion chamber for complete combustion, producing clean high-temperature flue gas. The flue gas, at approximately 1000°C, undergoes secondary air distribution to adjust to the required temperature for the production heat. The heated air then enters the drying equipment (such as ovens, drying cabinets, drum dryers, belt dryers, and fluidized bed dryers) to dry the material.
Hot air cleaning, high thermal efficiency; few auxiliary devices, low investment cost; good operating environment; easy to operate, manual/automatic control available; features automatic ignition, load adjustment, flame detection, and alarm function.
2. Indirect Heat Exchange Gas Hot Air Furnace
Primarily composed of the combustion system, heat exchange system, control system, and exhaust system.
By burning through the burner, high-temperature flue gas is produced to heat the heat exchanger system. The heated air is then sent into the drying system by a blower. The thermal efficiency can reach 92%. When the temperature of the hot air in the drying system reaches the maximum rated temperature, the burner will automatically stop burning or switch to a low flame. Once the hot air temperature drops to the minimum rated temperature, the burner will reignite and operate or switch to a high flame. The rate of temperature increase can also be controlled by adjusting the inlet valve.
High heat exchange temperature, high thermal utilization, compact size, stable hot air temperature, long lifespan, and low maintenance costs.
