Carbon Steel Extruded Fin Tube ASTM A179 With Al1060 Fins For Power Plants

Extruded Finned Tube Carbon Steel ASTM A179 With Al1060 Fins For Power Plants

An extruded finned tube is a type of heat exchanger tube where fins are mechanically bonded to the outer surface of a base tube through an extrusion process. This design significantly increases the tube's surface area, improving heat transfer efficiency in applications involving air or gas cooling/heating.

How Extruded Finned Tubes Are Made:

• Base Tube Selection
  • Typically made of carbon steel (e.g., ASTM A179), stainless steel, or other alloys.
• Fin Material (Usually Aluminum or Copper):
  • Common choices: Aluminum 1060 (Al1060) for lightweight and corrosion resistance, or copper for higher thermal conductivity.
• Extrusion Process:
  • The pressure and rotation mechanically bond the fin to the tube, creating a seamless, high-strength connection without soldering or welding.

Key Features of Extruded Finned Tubes

✔ Strong Bond: The fins are integrally attached, reducing the risk of loosening under thermal cycling.
✔ High Heat Transfer Efficiency: More surface area = better heat exchange.
✔ Lightweight (if aluminum fins are used).
✔ Corrosion-Resistant (if aluminum or stainless steel is used).

Comparison with Other Finned Tubes

Advantages Over Other Types

✅ Better heat transfer than wrapped or L-footed fins.
✅ More durable than bonded fins (no adhesive failure risk).
✅ Suitable for high-temperature cycling (unlike soldered fins).

ASTM A179 Extruded Finned Tube Carbon Steel with Al1060 Fins is a type of heat exchanger tube designed for enhanced heat transfer efficiency. Here’s a breakdown of its key components and characteristics:

1. Base Tube Material: ASTM A179

Material: Low-carbon steel (seamless cold-drawn tubes)

ASTM A179 Material Composition (Weight %)

Notes:

Low carbon content improves weldability and reduces brittleness.

Minimal impurities (P, S) enhance corrosion resistance.

ASTM A179 Mechanical Properties

Key Characteristics:

• Cold-drawn seamless tubes: Improved surface finish and dimensional accuracy.
• High ductility (≥35% elongation) for bending/flaring without cracking.
• Moderate strength: Suitable for low/medium-pressure heat exchangers.

Key Advanteages:

• Good thermal conductivity
• Corrosion resistance in certain environments
• Suitable for moderate-temperature applications (e.g., boilers, condensers, heat exchangers)

Comparison with Similar Standards

Why ASTM A179 for Finned Tubes?

✔ Excellent thermal conductivity (better than stainless steel).
✔ Cost-effective vs. alloy tubes.
✔ Compatible with aluminum fins (extrusion-friendly).

The ASTM A179 Extruded Finned Tube (Carbon Steel Base with Al1060 Fins) is widely used in industries where efficient heat transfer, corrosion resistance, and cost-effectiveness are crucial. Below are its key applications:

1. Power Plants & Energy Generation

• Air-Cooled Condensers (ACC)
• Cools steam from turbines using ambient air (reduces water consumption).
• Heat Recovery Steam Generators (HRSG)
• Recovers waste heat from gas turbines to produce steam.
• Economizers
• Preheats boiler feedwater using flue gas waste heat.

2. Petrochemical & Refineries

• Process Gas Cooling/Heating
• Cools hydrocarbon gases in refineries.
• Lube Oil & Fuel Oil Coolers
• Maintains optimal oil temperatures in refining processes.

3. HVAC & Refrigeration

• Chillers & Evaporators
• Used in large-scale air conditioning systems.
• Heat Pumps
• Transfers heat between air/water sources.

4. Industrial Process Heating/Cooling

• Drying Systems
• Removes moisture from materials (e.g., food, paper, textiles).
• Chemical Reactors
• Controls temperature in exothermic/endothermic reactions.

5. Marine & Offshore

• Seawater Coolers
• Cools engine systems (aluminum fins resist saltwater corrosion).

6. Renewable Energy

• Biomass & Waste Heat Recovery
• Recovers heat from exhaust gases in biofuel plants.