Integral Low Fin tubing is a kind of single metal fin tube, which is a type of extruded tubing that consists of small low fins. The low fin tube is very similar to the extruded "high fin" types but these tubes have the same diameter as the base tube. Low Fin Enhanced tubes can be used in standard shell and tube baffles and tube sheets. The primary advantage of the low fin tube is providing surface enhancement and better heat transfer over smooth tubing.

Low-finned tubes have been successfully used for controlling the temperature of gases and liquids or for evaporating and condensing refrigerants. As mentioned before, due to their enlarged heat transfer surfaces, they provide considerable potential for savings by reducing the tube length that is needed to achieve the required performance of the unit.

Integrally finned tubes by low Finning / Integral fin tube: type low fin:

Integral low fin tube for use in situations where the extended surface is required, but lack of space or heat exchanger type dictates otherwise.
Typical material, Admiralty Brass Tubing, Copper Tubing, Copper Nickel Tubing, Stainless Tubing, Carbon Alloy Tubing, Aluminum Brass Tubing stainless steel (304L, 316L, 321(H), 304H, 310, …), duplex, copper alloys, nickel alloys, Hastelloy and titanium
Integral Low Fin Tube has the advantage that it can improve the thermal performance of a heat exchanger without the necessity for changing shell size, flow arrangement, or the repositioning of piping.

The external surface of the tube is increased by the formation of low fins by direct extrusion from the material of the base tube.

Size range / Dimensions:

- Tube size: 12,7mm, 15,88mm, 19,05mm and 25,4mm
- Fins per inch: 16, 19, 26, 28, 30, 32, 36, 40 and 43 fins/inch dependant on material

Quality test capabilities:
- Non-destructive eddy current examination
- Air underwater testing
- Hydrostatic testing (with fluorescent dye)
-Fin profile examination at 50x magnification
- Dimensional & ring gage checks

Applications:
- Refrigeration, air conditioning, condenser, heat exchanger, boiler
Low-finned tubes are mainly used in the following applications:
Heating
Mechanical engineering
Automotive engineering
Chemical engineering
Power plants
Nuclear engineering

Norms:
- ASME pressure vessel code Sec.8, UG-8 and Div. 1 appendix 23
- ASTM B891: Standard Specification for Seamless and Welded Titanium and Titanium Alloy Condenser and Heat Exchanger Tubes with Integral Fins
- ASTM A1012: Standard Specification for Seamless and Welded Ferritic, Austenitic and Duplex Alloy Steel Condenser and Heat Exchanger Tubes with Integral Fins
- ASTM B924: Standard Specification for Seamless and Welded Nickel Alloy Condenser and Heat Exchanger
Tubes with Integral Fins
- ASTM A498: Standard Specification for Seamless and Welded Carbon, Ferritic and Austenitic Alloy Steel Heat Exchanger Tubes with Integral Fins
- ASTM B359: Standard Specification for Copper and Copper-Alloy Seamless Condenser and Heat Exchanger
Tubes with Integral Fins

In specifying finned tubes you should advise:
- Number of finned tubes required
- Outside diameter of the tube
- Tube thickness or thickness required under the root of the fin
- Length of finned tube
- Number of fins per inch
- Unfinned ends
- Skipped portions and dimensions from one end
- Material of tube
Technical drawing of the integrally finned tube by low Finning

In specifying U-tubes you should advise:
- Tube diameter, thickness, and material
- Straight leg length
- Centre line radius (or diameter) and number of per row
- Whether post-bend heat treatment is required
- Whether hydraulic testing is required

Low Fin Tubing Typical Characteristics:

- Fins per Inch: 19, 26 FPI
- Fin Height: 0.050" Typical
- Tube OD: 1/2" to 1" OD