New Technology of Boiler Anti corrosion Bayer Energy saving
overview
The energy-saving technology of boiler Bayer coating is widely used in the construction of various industrial furnace walls such as coal-fired boilers, circulating fluidized bed boilers, chain furnaces, and three gas furnaces, including ash cleaning, pit filling, coating, anti-wear, radiation, and drying. It is more obvious that it can quickly increase the temperature inside the furnace to achieve energy saving and high efficiency.
Whether the technical quality meets the technical standard requirements largely depends on the technical performance of the Bayer coating products themselves.
Bayer coating energy-saving products are a new generation of high-efficiency energy-saving products developed and produced by our company with independent intellectual property rights. This product has been developed with various additives and is a solvent-free two-component chemical reaction adhesive. In the development and production, adding an efficient accelerator greatly improves the bonding strength, accelerates the curing speed, promotes the thickening of the adhesive, and can be applied to vertical working surfaces without flowing or polluting.
Significant breakthroughs have been made in production processes, bonding techniques, construction methods, and other aspects. In terms of material formula and production process, this product selects imported raw materials, which are the main materials after fine chemical synthesis. 60% of the particles have a circumference of less than 1 nanometer, ensuring stability and service life such as emissivity, wear resistance, and high temperature resistance.
During the construction process, a unique pre-treatment process was adopted to allow the coating to penetrate into the heat absorbing body of the original furnace wall, making it more firmly bonded at high temperatures and never naturally falling off. Its main performance and technical indicators have exceeded the infrared technology standards and reached the international advanced level.
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The anti-corrosion and energy-saving measures for power plants are right in front of us!
Thermal insulation and energy-saving technology for power plants
Figure 1. Reheater overheating and low water replenishment technology for power plants
Figure 2. Thermal insulation and energy saving of cyclone separator
Figure 3. Surface insulation and energy-saving of high-temperature pipelines in power plants
Application of Silicon Crystal Adhesive Coating in Power Plants
Figure 1. N1000MW cooling tower silicon crystal adhesive anti-corrosion
Figure 2. Silicon crystal gel for alkali corrosion prevention of biomass furnace superheater
Figure 3. Silicon crystal adhesive anti-corrosion for dust collector flue
Blue mud abrasion prevention for water-cooled walls in power plants
Figure 1. Skirt shaped partition type wear-resistant water-cooled wall
Figure 2. The water-cooled wall is fully covered to prevent wear and tear
Figure 3. The water-cooled wall provides double layered anti-wear protection at the tube location
Longitudinal and latitudinal anti-wear measures for water-cooled walls in power plants
Figure 1. Three year use of latitude and longitude anti-wear effect pictures
Figure 2. CFB1020T/H warp and weft anti-wear example
Figure 3. CFB boiler four corner warp and weft anti-wear picture
