dtfinnedtube.com
Cast Iron square gilled tubes are heat exchanger components used in industrial heating and cooling applications. They are made entirely of cast iron, with the fins cast onto the outer surface of the tube. This construction provides a robust and durable component that can withstand high temperatures and pressures.
Cast Iron square gilled tubes are commonly used in applications such as air coolers, boilers, heat exchangers, and other industrial process equipment, and are suitable for use with a wide range of fluids, including water, steam, and various gases. The fins increase the surface area for heat transfer, enhancing the convective heat transfer between the fluid flowing over the fins and the tube surface.
Cast Iron gilled tubes are often chosen for their durability, corrosion resistance, and ability to withstand harsh environments.
Cast iron finned tubes offer several other advantages for industrial heat transfer applications:
1. Corrosion Resistance: Cast iron is highly resistant to corrosion, making it an ideal material for use in harsh environments where corrosion can be a problem. This makes cast iron finned tubes suitable for use in a variety of industrial applications, including chemical processing and marine applications.
2. High Thermal Conductivity: Cast iron has excellent thermal conductivity, meaning that it can quickly and efficiently transfer heat from one fluid to another. This makes cast Iron gilled tubes highly effective at heat transfer, even in applications where high temperatures and pressures are present.
3. Versatility: Cast Iron square gilled tubes can be used with a wide range of fluids, including water, steam, and various gases. They are suitable for use in a variety of industrial applications, including air coolers, boilers, heat exchangers, and other process equipment.
4. Customizable Fin Designs: Cast iron finned tubes can be produced with a variety of fin designs to optimize heat transfer performance for specific applications. This allows for greater flexibility and customization in designing heat transfer systems.
5. Easy to Install: Cast Iron gilled tubes are easy to install and require little maintenance over their lifetime. They are typically designed to be easily replaceable, allowing for quick and efficient maintenance and repair of heat transfer systems.
Overall, cast Iron square gilled tubes are a highly effective and reliable component in industrial heat transfer systems, offering a range of benefits for a variety of applications.
Fin Tube Economizer Specifications
| Model | Dimensions (mm) | Fin Height (mm) | Number of Fins | Surface Area (㎡) |
|---|---|---|---|---|
| A | 1000×500×100 | 8 | 24 | 1.92 |
| B | 1200×600×150 | 10 | 44 | 5.28 |
| C | 1500×800×200 | 12 | 64 | 12.288 |
| D | 1800×1000×250 | 14 | 84 | 23.52 |
Our Service
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Inquiry-Professional quotation, or send inquiry item more details ,we start contact more details
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Confirm the price, lead time, payment term etc
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Our sales send the Proforma Invoice with our seal, or you order online to us
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Customer make the payment for deposit and send us Bank receipt
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Initial Production Stage-Inform the clients that we have got the payment,And will make the samples according to your request, send
you photos or Samples to get your approval. After approval, we inform that we will arrange the production & inform the estimated time. |
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Middle Production-send photos to show the production line which you can see your products . Confirm the estimated delivery time
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End Production-Mass production products photos and samples will send to you for approval. You can also arrange the third party
Inspection |
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Clients make payment for balance and Ship goods , Inform the tracking number and check the status for clients
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Order can be say “finish” when you receive the goods and satisfy with them
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Feedback to our about Quality , Service, Market Feedback & Suggestion. And we can do better
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Why Choose Us
Quality Assurance Each base pipe has been tested by eddy current, ultrasonic, and hydraulic pressure, and it is ensured that each weld has no leaks.
