1.Increase the heat transfer area: The design of the spiral finned tubesignificantly increases the heat transfer area, which helps to arrange more heat transfer area in the same space, thus improving the heat exchange efficiency.
2.Reduce thermal resistance: the existence of spiral fins not only increases the heat transfer area, but also reduces the thermal resistance, making the heat transfer more efficient.
3.Reduce the smoke rate: its structure makes the smoke rate can be reduced, which is of great significance to prevent the wear of economizer and other equipment.
4.Strengthen heat transfer: the design of the fin can further improve the heat transfer efficiency without reducing the original heat transfer effect.
5.Compact structure: its compact structure, small volume, suitable for use in a limited space.
6.Simple processing: relatively simple processing, suitable for large-scale industrial production.
7.Anti-vibration and anti-vibration: the spiral fin heat exchanger has more support points on the heat exchange tube, increasing the restraint, and has better anti-vibration and anti-vibration performance.
1.Electric power industry: This steel pipe is widely used in boiler economizer, air cooler and other equipment in the electric power industry to improve the efficiency of heat exchange and reduce energy consumption.
2.Chemical industry: in the chemical industry, it is often used in a variety of heat exchangers to cope with high temperature, high pressure, corrosive media, improve heat exchange efficiency, to ensure production safety.
3.Refrigeration and air conditioning industry: it is also often used in condensers, evaporators and other equipment in refrigeration and air conditioning industry to improve heat exchange efficiency and reduce energy consumption.
4.Other fields: In addition, petroleum, metallurgy, light industry and other industries can not do without it.
| Type | Description | Base tube O.D.(mm) | Fin specification(mm) | ||
| Fin pitch | Fin height | Fin thick | |||
| Embedded | G-type finned steel tube | 16-63 | 2.1-5 | <17 | ~0.4 |
| Extruded | Single metal combined metal | 8-51 | 1.6-10 | <17 | 0.2-0.4 |
| Low fin tube t-type fin tube | 10-38 | 0.6-2 | <1.6 | ~0.3 | |
| Bamboo tube corrugated tube | 16-51 | 8-30 | <2.5 | / | |
| Wound | l/kl/ll type fin tube | 16-63 | 2.1-5 | <17 | ~0.4 |
| String | String fin tube | 25-38 | 2.1-3.5 | <20 | 0.2-0.5 |
| U-type | U-type tube | 16-38 | / | / | / |
| Welding | HF-welding fin tube | 16-219 | 3-25 | 5-30 | 0.8-3 |
| H/HH type fin tube | 25-63 | 8-30 | <200 | 1.5-3.5 | |
| Studed fin tube | 25-219 | 8-30 | 5-35 | φ5-20 | |
1.Heat sink
2.AL-FUSE™ adhesive fillet
3.Interface
4.Tube
IBC Industry’s patented bonding process metallurgically connects the stainless steel heat sink to the aluminum tube to achieve the highest heat transfer efficiency.
Even with 100 times magnification, no voids were found in the metallurgical bonding. This is your guarantee of maximum heat transfer efficiency, and is the technical advantage of other types of finned tubes.
Seamless Boiler Tube
Stainless Steel Tube
Alloy Steel Pipe
Aluminum Pipe
Anti-Corrosion Steel Pipe
Cylinder Pipe