Embedded Fin Tubes, Groove Embedded Fin Construction, Superior Bonding Strength, High Temperature Heat Exchange 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 : | Maximum 287 Fins Per Meter, Minimum 46 Fins Per Meter |
| Material | Stainless Steel, Carbon Steel, Alloy Steel, Inconel, High Nickle & Incolloy |
| Tubes Diameter | 220mm Od Maximum, 30mm Od Minimum |
Embedded Fin Tubes for Power Plants Petrochemical Units and Process Heating Supplier in India
Timex Metals which specializes in providing advanced heat-transfer systems to demanding industrial applications is a large Embedded Fin Tubes Manufacturer that provides high quality finned tubes that have been engineered to be efficient as heat transfer solutions. These tubes are made with modern embedding methods where a base tube is firmly embedded with fins thus making good heat transfer and great mechanical bond strength. This construction allows the performance of the construction under the high temperature and pressure. L Footed Fin Tubes are also typically employed in heat exchangers and air-cooling systems in which high contact with the surfaces and thermal efficiency are needed.
Embedded fin tubes have been known to have dimensional precision, soundness, and lengthy service life making them effective in constant functioning environments that are tough in industries. They find extensive use in heat exchangers, air coolers, condensers, as well as other thermal control systems in power plants, petrochemical units and process industries. The G Finned Tubes are frequently used to find systems that require higher fin stability and vibration resistant properties since they have high fin-tube bonding and effective heat dissipation properties. A combination of these finned tube solutions is beneficial in enhancing energy efficiency and reliable thermal regulation in industrial processes.
Material & Grade Specification
| Fin Material | Fin Grade | Base Tube Material | Base Tube Grade | Tube OD (mm) | Wall Thickness (mm) | Fin Height (mm) | Fin Pitch (FPI) | Max Service Temp (°C) | Approx. Weight (kg/m) |
|---|---|---|---|---|---|---|---|---|---|
| Aluminium | AA1100 | Carbon Steel | ASTM A179 | 25.4 | 2.11 | 10 | 10 | 400 | 2.35 |
| Aluminium | AA1100 | Carbon Steel | ASTM A192 | 31.75 | 2.77 | 12 | 9 | 400 | 3.45 |
| Aluminium | AA3003 | Carbon Steel | ASTM A106 Gr B | 38.10 | 3.05 | 14 | 8 | 420 | 4.70 |
| Aluminium | AA1100 | Stainless Steel | ASTM A213 TP304 | 25.4 | 2.11 | 10 | 10 | 450 | 2.65 |
| Aluminium | AA3003 | Stainless Steel | ASTM A213 TP316 | 31.75 | 2.77 | 12 | 9 | 450 | 3.85 |
| Aluminium | AA3003 | Alloy Steel | ASTM A213 T11 | 38.10 | 3.40 | 15 | 8 | 480 | 5.30 |
- Industrial Uses: It has been used in heat transfer systems, where a large surface area must be used especially in refineries, power plants, chemical plants and HVAC installations.
- Big Build Integrity: The fin strip is manufactured by pressing into a machined groove in the tube, so that there is good fin-to-tube bonding and thermal performance that is resistant to vibration and temperature changes is achieved.
- Material Grades: Tubes are usually offered in Carbon Steel, Stainless steel and Alloy steel and fins are offered in Aluminium, Copper or Carbon Steel as per the ASTM and EN standards.
- Other Technical: The design should be to ensure it works effectively in a broad temperature range which is usually sub-zero down to about 300degC, and fin resistance against loosening and thermal fatigue.
Client Project Report of Embedded Fin Tube
| Product Supplied | Quantity | Cities (India) |
|---|---|---|
| Embedded Fin Tubes for Air Cooled Heat Exchangers | 187 Pieces | Chennai |
| Embedded Fin Tubes for Refinery Process Units | 164 Pieces | Jamnagar |
| Embedded Fin Tubes for Power Plant Condensers | 209 Pieces | Nagpur |
| Embedded Fin Tubes for Petrochemical Cooling | 176 Pieces | Visakhapatnam |
Embedded fin tubes are machined groove designs in the base tube in which the fin strip is mechanically fastened, and therefore, the fin retention is stronger than in a wrapped system, and the performance is also stable in thermal cycling. The construction allows increased operating temperatures without the need to use welding to aid in the preservation of base tube integrity during long service, as well. Engineers have tended to assess embedded fin tubes against Extruded Fin Tubes when measured against a B2B Marketplace to determine the level of difference in the fin bonding strength, thermal capability, and maintenance needs. Detailed technical tables with material combinations, fin sizes, and weight per meter enable the buyer to support load planning and choose a configuration to yield the same degree of heat transfer over the lifetime of the equipment, as well as draw a comparison of airflow behavior.
Type of Sub-products
G Type Embedded Fin Tubes G Type Embedded Fin Tubes
G-type fins are embedded into a helical groove cut into the tube surface, then mechanically locked by backfilling the groove. This design ensures strong fin-to-tube contact, making it highly suitable for high-temperature and high-pressure environments like boilers and petrochemical heat exchangers.
Extruded Embedded Fin Tubes Extruded Embedded Fin Tubes
These tubes feature fins that are extruded from the outer surface of a single metal tube, resulting in a fin that is an integral part of the base. This one-piece construction offers excellent thermal conductivity and corrosion resistance, commonly used in compact heat exchangers and corrosive gas systems.