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Overview
Studded fin tubes are heat exchange tubes that have metal studs or
pins attached to the outside surface of the tube. These studs or
pins increase the surface area of the tube, allowing for improved
heat transfer efficiency.
The studs are typically welded or brazed onto the tube surface and
can be made from a variety of materials such as carbon steel,
stainless steel, or copper. Studded fin tubes are commonly used in
industries where high heat transfer rates are required, such as in
oil refineries, chemical plants, and power plants.
The studded fins on the tube help to disrupt the airflow around the
tube, creating turbulence and increasing heat transfer efficiency.
This allows for more heat to be transferred from one fluid to
another within the tube, making studded fin tubes a popular choice
for heat exchangers in a wide range of applications.
Base Tube Material | Material Grade | Studs Material |
stainless steel stud tube, carbon steel stud pipe,alloy steel studded tube |
| Carbon steel: ASTM A510 grade 1005 to 1010. Stainless steel: AISI 304, 316, 410, 347, 321. ASTM A193 Grade: B6, B6X, B8, B8a, B8M, B8C. Cr-Mo alloy etc. |
Advantages of Fin Tube
Studded fin tubes offer several advantages compared to traditional smooth tubes or other types of heat exchange surfaces. Some of the key advantages of studded fin tubes include:
Overall, studded fin tubes offer a range of benefits that make them
a popular choice for heat exchange applications in industries such
as oil and gas, power generation, chemical processing, and more.
Their ability to improve heat transfer efficiency, thermal
performance, and durability make them a valuable component in
various systems and equipment.
Application
Studded fin tubes are commonly used in a variety of equipment and applications where efficient heat transfer is essential. Some of the common equipment where studded fin tubes are used include:
These are just a few examples of the equipment and applications where studded fin tubes are commonly used. Their versatility and effectiveness in optimizing heat transfer make them a valuable component in various industries and systems.