1. Improve the heat insulation system of the high-temperature rotary kiln furnace. Apply high-temperature resistant heat-insulating coatings, achieving an insulation rate of over 90%, reducing heat loss from the furnace wall, maximizing energy utilization, and minimizing energy consumption.
2. Improve fuel combustion efficiency. Generally, the combustion rate of fuel in high-temperature kilns is only between 85-90%. Applying far-infrared radiation coatings to the furnace wall improves heat exchange within the furnace, increases the contact area between fuel and oxygen, ensuring complete fuel combustion, increasing energy combustion efficiency, releasing more heat, and reducing exhaust gas temperature.
3. Extend the service life of the high-temperature rotary kiln's supporting facilities. Apply high-temperature resistant transparent anti-oxidation coatings to reduce oxidation of boiler and kiln equipment parts in the air, reducing the frequency of repair and replacement of parts, and ensuring proper equipment maintenance and lubrication.
4. Reduce the corrosion rate of materials. Under high temperatures, such as in boilers and kilns, materials are prone to oxidation, corrosion, and brittleness when corrosive media are present. Applying a high-temperature resistant sealing coating can prevent the refractory materials from oxidizing and brittle, thereby improving the service life and performance of high-temperature kiln materials.
