Fin Tube

ASME SA179, SA192, SA213, SA556, EN10216-5 Fin Tube

Fin tube (Finned tube) U-Tubes made acc. to drawings from cold drawn seamless steel tubes

Material of core tube can be stainless steel, carbon steel, corrosion resistant steel, copper and copper alloys, Titanium and Titanium alloys and the other materials. These products are widely used in petroleum, chemical, metallurgy, textile, mechanical and electrical, light industry and pharmaceutical industries in the heating, drying, condensation and cooling equipments. Standard Range: Tube OD 16mm-219mm, Wall Thickness 2mm-16mm,
Fin Height 5mm-30mm,Fin Thickness 0.5mm-4.0mm,Fin Pitch 2.8mm-50mm Tube Length ≤23m

Supply Range of base tube (core tube): Carbon Steel ASTM A 179, ASTM A 192, ASTM A 210 Gr. A1, ASTM A 210 Gr. C, ASTM A 106 Gr. B Low Alloy Steel ASTM A 209 T1, ASTM A 213 / A 199 T11/T12, ASTM A 213 / A 199 T22, ASTM A 213 / A 199 T5, ASTM A 213 / A 199 T9, ASTM A 335 P1 / A 161 T1, ASTM A 335 P11 / P12 / A 200 T22, ASTM A 335 P22 / A 200 T22, ASTM A 335 P5 / A 200 T5, ASTM A 355 P9 / A 200 T9 Stainless Steel ASTM A 213 / A 312 TP 304, ASTM A 213 / A 312 TP 304L, ASTM A 213 / A 312 TP 321, ASTM A 213 / A 312 TP 316, ASTM A 213 / A 312 TP 316L, ASTM A 213 / A 312 TP 347, ASTM A 213 / A 312 TP 316Ti, ASTM A 289 / A 790 UNS S 31803, ASTM B 677 Alloy 904L Nickel ASTM B 161 Ni 200, ASTM B 161 Ni 201 Nickel Copper ASTM B 163 N 04400 Nickel-Chrom-Iron ASTM B 163 N 06600, ASTM B 161 N 08825, ASTM B 468 N 08020, ASTM B 163 N 08800 Copper Alloy ASTM B 75 / B 111 No. 122, ASTM B 75 / B 111 No. 142, ASTM B 111 Ca. No. 443, ASTM B 111 Ca. No. 687, ASTM B 111 Ca. No. 608, ASTM B 111 Ca. No. 706, ASTM B 111 Ca. No. 715 Titanium alloy GR1 GR2 GR3 GR7 GR9 GR12 GR16 GR17 ASTM B338, ASME SB338 Aluminium AlloysASTM Alloy 1050 / 1050A, ASTM Alloy 5754, ASTM Alloy 3003, ASTM Alloy 5083, ASTM B221 6061 T6, ASTM B209 1060, 1100, 1435, 2A12, 3A21, 6A02, 6063, 6005, K70A.

Air Cooled Heat Exchanger (APi 661) › Calorifier U-Tube Bundle (Heating Battery) › Charge Air Cooler › Chiller Barrel › Condenser/Evaporator/AHU Coil › Compressed Air After Cooler › Coolers for Electromotor › Cooling Tower Open/Close Circuit › Dry Coolers/Air-Condensers › Excavator Oil Cooler, Hydraulic Oil Cooler › Finned Tube/Low Finned Tube › Fan & Heating Coil for Palm Oil Mill › Heat Exchanger Components › Intercooler/Crimped Spiral Finned Tube › Lub Oil Cooler › Plate Heat Exchanger › Radiator, Intercooler, Oil Cooler
(Automobile/Truck/Genset/Tractor) › Radiator Unit/Fin Fan Cooler › Recuperator Heat Exchanger › Rotary/Screw Air/Oil Compressor Cooler (Aluminum) › Shell & Tube Heat Exchanger › Spiral Fin Tube Oil Heater › Spiral Heat Exchanger › Spiral Oil Heating Coil › Standard Albraze Oil/Air Cooler (Aluminum) › Steam/Hot Water Heating Coil (Using Black Fin or Spiral Fin Tube)  Thermal Oil Heating Coil › Water to Air After Cooler › Waste Heat Recovery (Economizer) & etc   Custom Made Application for:  › Breweries & Beverage Industry › Cement Industry › Chemical Industry › Dairies › Food Industry › Industrial Plant › Iron & Steel Industry › Marine › Mobile Equipment › On & Off Shore › Paper Industry › Petrochemical Industry
Pharmaceutical Industry › Plastic Industry › Power Plant › Refrigeration & HVAC › Textile Industry › Wood Industry & etc
Classification Standards:  › ASME › TEMA & etc
Material Available:  › Admiralty Brass › Aluminum › Aluminum Brass › Brass › Carbon Steel › Copper › Cupronickel › Naval Brass › Stainless Steel & etc   Finned Tube:  › “G”, “KL”, “L”, “LL” › Crimped › Extruded › High Frequency Weld › Intergraded › Oval › Rectangular › Spiral › Wire Wound & etc
Condenser Tube:  › Inner Groove › Low Fin Tube › Spiral & etc   Core Product:  › Compact Fin Tube Bundle    Corrosion Protection:  › Hot Dip Galvanized › Hot Solder Dip › Sorabond & PoluAl Coating › Heresite Coating & etc 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 HeatExchanger 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

Corrugated Finned Tube: There are helical channels overall the tubes to supply maximum heat transfer area. Stainless steel, copper and carbon steel materials can be used.   Extruded Finned Tubes: These tubes are manufactured by extrusion process. Different kinds of these tubes as aluminium finned tubes, mono-finned copper tubes are successfully used in our heat-exchangers.

High Frequency Serrated Finned Tubes: High frequency serrated finned tubes are used at high temperatures.   Integral Low Finned Tube-Mono Finned Tube: These fins are produced on the bare tube. The thickness of the bare tube is used as a fin material.   Plate Type Fins: These kinds of fins can be manufactured as copper and aluminium. Tubes must be expanded to supply maximum heat transfer.   Spiral Finned Tubes: Spiral finned tubes can be used in our heat exchangers as round or eliptical shapes. Different materials may be used as fin and tube material according to our customer needs.
Stamped Finned Tubes: Stamped fins can be manufactured in our shop by our special molds.   Tube Bending: U tubes can be bended in our shop.   Tubesheet Manufacturing: Different kinds of tubesheets manufacturing, tube expanding, grooving process can be made completely in our shop by our experienced staff.   Welding Process: All the welding processes can be used in our shop. All the welds are made by our certificated welders. We have applications that we use different kinds of WPS, PQR.
Wire Wound Finned Tubes: Wire is spiral wounded on bare tubes. These kinds finned tubes are usually used for turbulators and compressors.

Heat treatment Stress relive annealing of U-tubes after bending – only for all positions with radius ≤ 100 mm

Surface condition Finished U-tubes shall be free of scale, without scratches after bending.

Dimensional tolerances U-tubes acc. to TEMA R.C.B.

Length of straight part -0/+5 mm

Flattening (also called “ovality”) at the bend shall not exceed 10% of the nominal tube outside diameter.

Wall thickness in bending part acc. to TEMA RCB 2.31

Minimum tube wall thickness in the bend part (Tmin)

T(min) ≥ (SW × (2×R + D))/( 2× (R+D)

Where:    SW             is smallest wall thickness

D                Nominal outside diameter

R                 radius

Radius tolerance  1) for R ≤ 100 mm +/- 3 mm

2) for R ≥ 100 mm +/- 5 mm

Straightness tolerance max. 1.5 mm per 1000 mm

U-Tube ends: plain, vertically cut to the tube axis

Repairs by welding: prohibited