| Base Tube Material: | Steel | Base Tube Diameterr: | 16mm-63mm |
|---|---|---|---|
| Fin Material: | Aluminum | Fin Length: | Customized |
| Fin Thick: | ~0.4mm | Fin Type: | Embedded |
| Fin Pitch: | 2.1-5 | Fin Height: | <17 |
| Temperature Rating: | Customized |
1. Heating: Embedded fin tubes are used in greenhouse heating systems to provide uniform and efficient heat distribution. The finned tubes increase the surface area available for heat transfer, allowing for better heat exchange between the hot water or steam flowing through the tubes and the surrounding air. This helps maintain optimal temperatures for breeding plants or animals.
2. Cooling: In warmer climates or during hot seasons, embedded fin tubes can also be used for cooling purposes in breeding greenhouses. Cold water or chilled air can be circulated through the tubes, and the fins enhance heat transfer, helping to lower the temperature inside the greenhouse.
3. Humidity control: Embedded fin tubes can be used in conjunction with humidification systems to regulate the humidity levels in breeding greenhouses. By circulating hot or cold water through the tubes, the fins help to control the moisture content in the air, creating a suitable environment for breeding plants or animals.
4. Ventilation: Embedded fin tubes can be integrated into greenhouse ventilation systems to improve air circulation. By circulating air through the tubes, the fins increase the heat transfer between the air and the tubes, helping to remove excess heat and maintain proper airflow within the greenhouse.
Overall, embedded fin tubes are versatile and efficient heat transfer components that can be used in breeding greenhouses to regulate temperature, humidity, and ventilation, creating optimal conditions for breeding plants or animals.
Chemical Components (%) of ASTM A179 Embedded Finned Tubes
| C | Si | Mn | P | S | Mo | Cr | V |
| 0.06-0.18 | / | 0.27-0.63 | ≤0.035 | ≤0.035 | / | / | / |
Mechanical Properties of ASTM A179 Embedded Finned Tubes
| Tensile | Yield | Elongation | Hardness |
| Strength (Mpa) | Strength (Mpa) | (%) | (HRB) |
| ≥325 | ≥180 | ≥35 | ≤72 |
Applications of these tubes include:
1. Heat exchangers: Aluminum embedded G type fin tubes are commonly used in heat exchangers for efficient heat transfer between two fluids. These tubes help in increasing the surface area for heat transfer, thereby improving the overall efficiency of the heat exchanger.
2. Air conditioning systems: These fin tubes are used in air conditioning systems for cooling purposes. The aluminum fins help in dissipating heat from the refrigerant, allowing for efficient cooling of the air.
3. Boilers: Aluminum embedded G type fin tubes are also used in boilers for heat transfer from the combustion gases to the water. The fins increase the heat transfer surface area, resulting in improved boiler efficiency.
4. Radiators: These fin tubes are used in radiators for cooling purposes. The aluminum fins help in dissipating heat from the coolant, thereby cooling the engine or any other system that requires cooling.
5. Oil coolers: Aluminum embedded G type fin tubes are commonly used in oil coolers to remove heat from the oil. The fins increase the surface area, allowing for efficient heat transfer from the oil to the surrounding air or water.
6. Power plants: These fin tubes are used in power plants for heat transfer in various systems, such as condensers, evaporators, and air preheaters. The aluminum fins help in maximizing heat transfer efficiency, resulting in improved overall plant performance.
