Kl Fin Tube, Knurled Finning Technique, Enhanced Heat Transfer Performance, Air Cooled Heat Exchanger Systems, Manufacturer In India
| Fin Thickness | Minimum 0.8mm, Maximum 3 Mm |
|---|---|
| Fin Height | Minimum 0.25″(6.35 Mm), 1.5″(38 Mm) |
| Fin Density : | Minimum 46 Fins Per Meter, Maximum 287 Fins Per Meter |
| Material | Carbon Steel, Stainless Steel, Alloy Steel, Inconel, High Nickle & Incolloy |
| Tubes Diameter | 30mm Od Minimum, 220mm Od Maximum |
KL Fin Tube for Thermal Processing and Industrial Cooling Supplier in India
Timex Metals with a long history of providing high-quality and energy-efficient heat transfer assemblies to meet the rigorous needs of industrial processes is a significant KL Fin Tube manufacturer that has solutions designed to perform effectively and have a long lifespan. KL fin tubes are made to ensure that the heat transfer is as high as possible by an effective bonding of fins to the tube surface to provide high thermal conductivity and mechanical stability. The applications of these fin tubes in power plants, chemical processing facilities as well as oil and gas plants that require consistency in their performance are common. In the applications where a stronger fin attachment and high resistance to vibration is necessary, L' Fin Tube configurations are also of choice because of their safe mechanical connection and effective heat removal.
KL fin tubes are designed to resist corrosive conditions and thermal cycling, and thus can be used in the industry over a long period of time with reduced maintenance. Strict quality standards and high-technology production practice are crucial in providing consistent operation in the global conditions. Copper Fin Tube is generally adopted in the systems that need to achieve high thermal conductivity particularly in condensers and heat exchangers to attain a rapid heat transfer and high energy efficiency. The combination of these fin tube solutions has facilitated the stable operation, optimum heat exchange and extended life time in high temperature industrial processes.
L’ Fin Tube – Material, Grades & Weight Table
| Base Tube Material | Base Tube Grade | Fin Material | Tube OD (mm) | Wall Thickness (mm) | Fin Height (mm) | Fin Pitch (FPI) | Approx. Weight (kg/m) |
|---|---|---|---|---|---|---|---|
| Carbon Steel | ASTM A179 | Aluminium AA 1100 | 25.4 (1") | 2.11 | 10 | 10 | 2.20 |
| Carbon Steel | ASTM A192 | Aluminium AA 1050 | 31.75 (1¼") | 2.77 | 12 | 9 | 3.40 |
| Carbon Steel | ASTM A106 Gr B | Aluminium AA 1100 | 38.10 (1½") | 3.05 | 12 | 8 | 4.60 |
| Stainless Steel | ASTM A213 TP304 | Aluminium AA 1050 | 25.4 (1") | 2.11 | 10 | 10 | 2.45 |
| Stainless Steel | ASTM A213 TP316 | Aluminium AA 1100 | 31.75 (1¼") | 2.77 | 12 | 9 | 3.70 |
| Copper | ASTM B111 | Copper | 19.05 (¾") | 1.65 | 8 | 12 | 2.10 |
- Focus Use Case: It is used where there is a need to provide a greater surface area in order to dissipate heat, especially in systems where the air is used to cool
- Manufacturing Integrity: Made through a continuous wrap of fins with the strip of fin bonded to the base tube in a mechanical manner such that there is consistent thermal contact even in the presence of cyclic temperature loads.
- Material Grades: Base tubes and fins are available in combinations like a combination of Carbon Steel, Stainless steel, Copper and Aluminium in accordance to the operating temperature and pressure to meet the requirement of ASTM and ASME standards.
- Extra Performance Factors: These tubes are designed to operate at temperatures of up to 300 o C with a long life in the rigorous industrial conditions often used with them.
Client Project Report of Kl Fin Tube
| Product Supplied | Quantity | Cities (India) |
|---|---|---|
| KL Fin Tubes for Air Cooled Heat Exchangers | 173 Pieces | Vadodara |
| KL Fin Tubes for Refinery Cooling Systems | 209 Pieces | Jamnagar |
| KL Fin Tubes for Process Industry Heat Recovery | 164 Pieces | Panipat |
| KL Fin Tubes for Industrial Condensers | 191 Pieces | Tuticorin |
Type of Sub-products
Standard Kl Fin Tube Standard Kl Fin Tube
This type features an L shaped fin that is knurled and tightly wound around the base tube. The knurling process on the base tube enhances the mechanical bond between the fin and tube, improving heat transfer. It’s ideal for standard industrial applications where moderate thermal efficiency and durability are required.
Embedded Kl Fin Tube Embedded Kl Fin Tube
In this variant, the L shaped fin is mechanically embedded into a knurled groove on the base tube. This deeper mechanical interlock increases surface contact and provides greater resistance to thermal cycling and vibration. It’s preferred in high temperature or high stress environments where superior fin adhesion is critical.