ASTM A213 T5 Embedded G Type Fin Tube With Carbon Steel Fin For Furance And Heat Exchanger
| Attribute | Value |
|---|---|
| Certification | ASME, U STAMP, API, ASME, ABS, LR, DNV, GL, BV, KR, TS, CCS |
| Base Tube Material | T5, T9, T11, T22, T91 |
| Length | Max 43M/PC |
| Fin Wall thickness | 0.4mm |
| Fin pitch | FPI: 2.1-5 |
| Fin height | <17mm |
The alloy steel embedded G type finned tube is a high-performance heat exchange device with the following advantages:
- Materials: Use alloy materials with high thermal conductivity (such as aluminum, copper or special alloys) to enhance heat conductivity.
- Structural design: Fins are usually embedded in the tube wall to form a larger heat exchange surface area and improve heat transfer efficiency.
- Corrosion resistance: Alloy materials can be surface treated as needed to improve corrosion resistance, suitable for a variety of harsh environments.
- Thermal efficiency: Due to the fin design, the alloy Mosaic fin tube can significantly improve the heat exchange efficiency and reduce energy loss.
- Adaptable: They can adapt to a variety of working conditions, including high temperature and high pressure environment, suitable for a variety of industrial applications.
- Compact: Compact design for applications where space is limited.
- Power Generation: For heat recovery and boiler applications.
- Chemical Processing: In reactors and heat exchangers.
- Oil and Gas: For cooling and heating systems.
- HVAC Systems: In specialized air conditioning and refrigeration applications.
The embedded fins increase the surface area available for heat exchange, allowing for more efficient heat transfer between fluids. This design minimizes thermal resistance and enhances overall heat exchanger performance.
- Operating Temperature and Pressure: Ensure the selected material can withstand the operating conditions.
- Corrosion Environment: Choose alloys that are resistant to specific corrosive agents present in the application.
- Heat Transfer Requirements: Consider the desired efficiency and flow rates.
Yes, we can offer customization options regarding dimensions, fin geometry, and material grades to meet specific application needs.
Regular inspections for corrosion, fouling, and physical damage are essential. Cleaning may be necessary to maintain optimal heat transfer efficiency.
We are the professional manufacturer of embedded G type fin tube as we have more than 35 years experiences. ASTM A213 T5 fin tube can be used in various fields to enhance heat transfer efficiency. They feature a tube with fins that are either embedded within the tube or attached externally. The "G" type often refers to a specific fin geometry or arrangement. The fins significantly increase the surface area available for heat transfer, improving the performance of the heat exchanger.
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