Stainless steel (SS) boiler tube shields are essential components in biomass fired power stations, designed to protect the boiler tubes from high temperatures, corrosion, and abrasion. These shields extend the life of the tubes and reduce maintenance costs associated with tube failure.

Key Features

• Customizable to fit various pipe sizes and configurations.
• Made from high-quality stainless steel for excellent corrosion and erosion resistance.
• Designed to withstand the harsh conditions found in biomass fired boilers.
• Easy to install and maintain, often using snap rings for secure attachment.

Materials

Common materials for boiler tube shields in biomass fired power stations include:

• TP321 (Cr18Ni9Ti): Known for its good corrosion resistance, suitable for temperatures up to 925°C.
• TP309S (Cr23Ni13): Excellent resistance to oxidation and corrosion, can withstand temperatures up to 1095°C.
• 1Cr20Ni14Si2: Offers good strength and can operate at temperatures up to 1095°C.
• TP310S (Cr25Ni20): Provides high creep strength and can be used at temperatures up to 1150°C.
• 1Cr25Ni20Si2: Has good resistance to high temperatures and can operate at temperatures up to 1150°C.

Benefits

• Reduces the rate of erosion and wear on boiler tubes.
• Extends the service life of the tubes, reducing the need for replacements.
• Minimizes downtime and maintenance costs associated with tube failure.
• Improves the overall efficiency and reliability of the boiler system.

Applications

Boiler tube shields are widely used in various types of biomass fired boilers, including:

• Power Generation Boilers: Especially in areas where tubes are exposed to high-velocity flue gases.
• Industrial Boilers: Protecting tubes in processes that involve high temperatures and corrosive chemicals.
• Heating, Ventilation, and Air Conditioning (HVAC) Systems: Where tubes may be subject to corrosion from moisture and airborne particles.

Installation and Maintenance

• Installation: Typically involves securing the shield over the tube bend using clamps or welding it in place.
• Maintenance: Regular inspections are recommended to check for signs of wear or damage. Replacements should be made as needed to ensure continued protection.

Economic Benefits

• Cost-effective solution for extending the life of boiler tubes.
• Reduced maintenance and replacement costs.
• Increased boiler uptime and efficiency.
• Potential for energy savings due to improved heat exchanger performance.

Investing in stainless steel boiler tube shields for biomass fired power stations is a strategic decision that can lead to significant economic benefits and improved system reliability. By protecting the tubes from erosion and wear, these shields help to minimize maintenance costs and extend the service life of the boiler.

SS boiler tube shields coil heat shield for biomass fired power station is a common component of the heating part of tubes.It is usually used in power station boilers. The useful life of tube shield is 3-5years. The tube shield has a variety of material and the selection of the material shall be subject to the original design of the boiler.The tube shield is divided into straight pipe and bend pipe. The main effect of tube shield is to protect the pipe and increase the service life of the pipe.

SS boiler tube shields coil heat shield for biomass fired power station are designed to eliminate major maintenance and downtime costs from boiler and condenser tube failure.

Stainless steel related special grade

Shapes and specifications of tube shields

The cross-sectional shape of boiler tubes shields is mostly semi-circular (180 degrees), and there are also 120-160 degrees.

It is mainly used on finned tubes (water-cooled walls); boiler tube erosion shields are divided into direct wear-resistant shields, in-curve, anti-wear shields, outer-curve, anti-wear shields, side-curve anti-wear shields, s-curve anti-wear shields, etc.

Tube shields-outside bend and side bend types

The length of the straight anti-wear shields ranges from 20mm to 3000mm, and the general length of 1000-2000mm is commonly used. The anti-wear shields with bends generally requires a processing drawing and the following parameters should be on the drawing: outer diameter of the pipe used, bending of the pipe Radius R (to the center of the pipe), the degree of bending angle, and the length of the straight sections on both sides of the arc segment of the wear-resistant shields.

“snap-on” type shield

The most basic parameter of boiler tubes shields is the outer diameter of the tube used (that is, the inner diameter of boiler tubes erosion shields). The main specifications of the tube are: 32, 38, 42, 44.5, 48, 51, 57, 60, 63.5 , 76, 89mm, etc . the inner diameter of the boiler tubes erosion shields is usually 1-3mm larger than the outer diameter of the tube used, depending on the actual requirements.