Stainless Steel HFW Serrated Fin Tube ASTM A312 TP304H with SS304 Fin for Convection Coil

Key Features:

The Stainless Steel HFW Serrated Fin Tube, made from ASTM A312 TP304H stainless steel with SS304 fins, is specifically designed for use in radiator tube applications where high thermal efficiency and durability are required. The serrated fin design significantly enhances heat transfer by increasing the surface area and improving the air flow dynamics, making it ideal for radiators, heat exchangers, and cooling systems. The HFW (High-Frequency Welding) process ensures that the fins are securely bonded to the base tube, providing reliable performance even under high-temperature and high-pressure conditions.

Technical Specifications:

Chemical Composition:

Mechanical Properties:

Advantages:

1. 1. • Enhanced Heat Transfer:

        • The serrated fin design maximizes the heat transfer efficiency by increasing the surface area and inducing turbulence, which leads to improved thermal performance in radiator tubes and cooling systems.

      • High-Temperature Performance:

        • SS304 stainless steel and TP304H base tube provide excellent resistance to high temperatures, making this tube ideal for radiators in furnaces, heat exchangers, and boilers.

      • Corrosion Resistance:

        • SS304 stainless steel fins offer superior corrosion resistance in environments exposed to moisture, steam, and flue gases, making them durable in harsh operating conditions, especially in cooling systems and furnaces.

      • Durability and Long Service Life:

        • The mechanically bonded serrated fins ensure strong, durable attachment, providing long-term reliability and resistance to thermal cycling, oxidation, and mechanical stresses that occur in industrial heating systems.

      • Compact and Efficient:

        • The serrated fin design provides a compact solution for heat exchangers and radiators that require high thermal efficiency in a space-efficient form.

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   Applications

   • Convection Coils: Ideal for furnaces, boilers, and heat exchangers where high-efficiency heat transfer is required.

   • Industrial Heating Systems: Used in power plants, chemical plants, and refineries where heat recovery and thermal management are crucial.

   • Air-Cooled Heat Exchangers: Effective in air-cooled heat exchangers for HVAC systems and cooling towers where compactness and efficiency are essential.

   • Energy Recovery Systems: Commonly used in waste heat recovery and energy-efficient systems where convection heat transfer is needed to maximize energy savings.

Applications:

• • Radiator Tubes: Ideal for use in radiators, cooling coils, furnaces, and boilers that require efficient heat dissipation in high-temperature systems.

  • Heat Exchangers: Used in chemical processing plants, oil refineries, power generation, and HVAC systems, where efficient heat transfer is critical.

  • Cooling Systems: Effective in air-cooled heat exchangers, cooling towers, and industrial refrigeration systems where heat dissipation is essential.

  • Furnaces and Boilers: Commonly used in high-temperature heating systems to transfer heat efficiently from the combustion gases to the fluid in the system.