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Description

G Type Embedded Finned Tube Quick Details:
Core tube material:
1. Carbon steel: A179, A192, SA210 Gr A1/C, A106 Gr B
2. Stainless steel: TP304/304L, TP316/TP316L/316Ti, A789 S31803/S2205
3. Copper: UNS12200/UNS14200/UNS70600, CuNi70/30, CuNi 90/10
Fin material:
1. Aluminum (Alu.1100, Alu.1060)
2. Copper.
3. Steel
Fin type: Solid plain
Fin Tube Type: G Type Embedded
Outer diameter (OD): 16mm Min~50.8mm max.
Tube length: up to 18,000 mm.
Fin height: 16.5mm max.
Fin thickness: generally 0.4mm~0.6mm
Fin pitch: 2.1mm minimum (12FPI)
Surface Protection: Both bare ends shall be zinc or aluminum metallized by electrospray arc system coating.
Accessories: Tube support boxes, clamps or spacer boxes (materials: aluminium, zinc and stainless steel).

 G-type embedded finned tubes are a type of heat exchanger tube with fins that are embedded into the wall of the tube itself. These fins typically have a G-shaped cross-section, which gives them their name. The fins are formed by cutting grooves into the outer surface of the tube and then folding or pressing the material to create the fin shape.

G-type embedded finned tubes are commonly used in applications where high heat transfer efficiency and compact design are required, such as in air-cooled heat exchangers, air heaters, and oil coolers. They are particularly well-suited for applications with high-temperature differentials or where space constraints limit the use of traditional finned tubes.

2) What is the advantages of G Type Embedded Finned Tubes?

1. Enhanced Heat Transfer: The embedded fins significantly increase the surface area of the tube, improving heat transfer efficiency. This results in better thermal performance and more effective heat exchange between the fluid inside the tube and the surrounding environment.

3. Mechanical Strength:The fins are securely embedded into the tube wall, providing mechanical stability and resistance to deformation. This ensures the structural integrity of the tube, even under high operating pressures or temperature variations.

5. Corrosion Resistance:Depending on the material used for the tube and fins, G-type embedded finned tubes can offer excellent corrosion resistance, ensuring long-term reliability and durability in various operating environments.

Overall, the advantages of G-type embedded finned tubes make them a preferred choice for heat transfer applications where high efficiency, compact design, mechanical strength, and uniform heat distribution are essential.

G-type embedded finned tubes find applications in various industries and processes where efficient heat transfer is essential. Some of the main application fields include:

2. Air Conditioning and Refrigeration: These finned tubes are utilized in air conditioning systems, refrigeration units, and HVAC (heating, ventilation, and air conditioning) systems to facilitate the exchange of heat between the refrigerant and the surrounding air.

4. Power Generation: They are used in power plants for applications such as heat recovery steam generators (HRSGs), boiler economizers, and cooling systems in steam turbines.

6. Food and Beverage Industry:These finned tubes are utilized in food processing plants for pasteurization, sterilization, and other heating or cooling processes.

8. Automotive Industry: They are used in automotive radiators and heat exchangers for engine cooling and air conditioning systems.

Overall, G-type embedded finned tubes are versatile components that find application in a wide range of industries and processes where efficient heat transfer is critical for optimal system performance and energy efficiency.

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Cangzhou Datang Steel Pipe Co., Ltd All Right Resevered.