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Integral Low Fin Tube Maximizing Heat Transfer Rate
Integral Low Fin Tube Maximizing Heat Transfer Rate
FOB Price
Port
Shanghai
Lead Time
according to the order
China
Main Products : titanium, titanium tube, titanium plates, Nickel
Rm. A, 7/F, NO. 50 RENMING MIDDLE ROAD, Zhangjiagang City Jiangsu Province China Suzhou, Jiangsu
Integral Low Fin Tube Maximizing Heat Transfer Rate Details
Brand Name
xuyi titan
Place of Origin
China
FPI
16/19/28/30/32/36/43
Materials
Titanium,Stainless Steel,
OD
12.7MM, 15.88MM 19.05MM,
TUBE THICKNESS
>=1.25MM
Integral Low Fin Tube Maximizing Heat Transfer Rate Introduce

TEK-FIN Titanium & Stainless Steel Low Fin Tube:

Product Detail

Abstract:

Fin tube provides 3 times the external surface area of bare tube.

Integral low fin tubing yields numerous benefits for shell and tube heat exchangers including reduced size and cost for new equipment, increased performance of existing equipment. The cost of shell and tube heat exchangers can be reduced up to 50% through the proper application of low fin tubing.

Application:

The Integral low fin tubes are widely used in chemicalprocess. Especially applicable between air or other gases on the fin-side and a fluid on the tube-side.

When to Consider Integral low fin tube.

Shell side heat transfer is controlling.

Expensive materials of construction are required.

Debottlenecking an existing exchanger.

Retrofitting or upgrading with new tube material.

Meeting a stringent space or weight requirement.

FIN TUBE MEETS THE FOLLOWING QUALITY STANDARDS

ASTM B891 Seamless and Welded Titanium and Titanium Alloy Condenser and Heat Exchanger Tubes With Integral Fins

ASTM A1012 Seamless and Welded Ferritic, Austenitic and Duplex Alloy Steel Condenser and Heat Exchanger Tubes with Integral Fins

ASTM B924 Seamless and Welded Nickel Alloy Condenser and Heat Exchanger Tubes with Integral Fins

ASTM B359 Copper and Copper Alloy Seamless Condenser and Heat Exchanger Tubes with Integral Fins.

General Dimensions – Low Fin Tube Smooth Bore

28 FPI 0.889mm average fin height 0.305mm average fin thickness

No.

Plain Section   avg. OD

Plain section avg. wall

Wall Under fin avg

Wall Under Fin Min.

Nominal Root OD

Fin Section

ID

Outside Area Ao

Inside Area

Ai

Area Ratio Ao/Ai

ID cross Section Area

153528

15.88

1.473

0.889

0.787

14.097

12.319

0.126

0.039

3.252

1.192

154228

15.88

1.651

1.067

0.940

14.097

11.963

0.126

0.037

3.358

1.124

192828

19.05

1.245

0.711

0.635

17.272

15.85-

0.153

0.050

3.074

1.973

193528

19.05

1.473

0.889

0.787

17.272

15.494

0.153

0.049

3.131

0.292

194228

19.05

1.651

1.067

0.940

17.272

15.138

0.153

0.048

3.212

1.800

253528

25.40

1.473

0.889

0.787

24.622

21.844

0.206

0.069

3.004

3.748

253528

25.40

1.651

1.067

0.940

24.622

21.488

0.206

0.067

3.059

3.627

30 FPI 0.813mm average fin height 0.279mm average fin thickness

No.

Plain Section   avg. OD

Plain section avg. wall

Wall Under Fin avg.

Wall Under Fin Min.

Nominal Root OD

Fin Section

ID

Outside Area Ao

Inside Area

Ai

Area Ratio Ao/Ai

ID cross Section Area

153530

15.88

1.473

0.889

0.787

14.249

12.471

0.125

0.039

3.186

1.222

154230

15.88

1.651

1.067

0.940

14.249

12.116

0.125

0.038

3.288

1.153

192830

19.05

1.245

0.711

0.635

17.424

16.002

0.152

0.050

3.030

2.011

193530

19.05

1.473

0.889

0.787

17.424

15.646

0.152

0.049

3.106

1.923

194230

19.05

1.651

1.067

0.940

17.424

15.291

0.152

0.048

3.165

1.836

253530

25.40

1.473

0.889

0.787

23.774

21.996

0.205

0.069

2.956

3.800

253530

25.40

1.651

1.067

0.940

23.774

21.641

0.205

0.068

3.009

3.678

36 FPI 0.66mm average fin height 0.305mm average fin thickness

No.

Plain Section   avg. OD

Plain section avg. wall

Wall Under Fin avg.

Wall Under Fin Min.

Nominal Root OD

Fin Section

ID

Outside Area Ao

Inside Area

Ai

Area Ratio Ao/Ai

ID cross Section Area

153536

15.88

1.473

0.889

0.787

14.554

12.776

0.125

0.040

3.114

1.282

154236

15.88

1.651

1.067

0.940

14.554

12.421

0.125

0.039

3.211

1.212

192836

19.05

1.245

0.711

0.635

17.729

16.307

0.152

0.051

2.976

2.088

193536

19.05

1.473

0.889

0.787

17.729

15.951

0.152

0.050

3.049

1.998

194236

19.05

1.651

1.067

0.940

17.729

15.596

0.152

0.049

3.106

1.910

253536

25.40

1.473

0.889

0.787

24.079

22.301

0.205

0.070

2.917

3.906

253536

25.40

1.651

1.067

0.940

24.079

21.946

0.205

0.069

2.969

3.783

General Dimensions – Low Fin Tube with Internal Rib

28 FPI 0.89 average fin height 0.305mm average fin thickness 0.254 average rib height

No.

Plain Section   avg. OD

Plain section avg. wall

Wall Under Fin avg.

Wall Under Fin Min.

Nominal Root OD

Fin Section

ID

Outside Area Ao

Inside Area

AI

Area Ratio Ao/Ai

ID cross Section Area

192828-201046

19.05

1.245

0.711

0.635

17.272

15.850

0.153

0.059

2.569

1.961

193528-201046

19.05

1.473

0.889

0.787

17.272

15.494

0.153

0.058

2.623

1.871

36 FPI 0.66 average fin height 0.305mm average fin thickness 0.254 average rib height

No.

Plain Section   avg. OD

Plain section wall

Wall Under Fin avg.

Wall Under Fin Min.

Nominal Root OD

Fin Section

ID

Outside Area Ao

Inside Area

AI

Area Ratio Ao/Ai

ID cross Section Area

192536-201046

19.05

1.245avg.

0.635

0.559

17.729

16.459

0.152

0.062

2.463

2.116

192836-201046

19.05

1.245 min

0.711

0.635

17.729

16.307

0.152

0.061

2.488

2.007

A$C217C6F1B Model (1).jpg

d= outside diameter of plain end

di= inside diameter of plain end

dr= root diameter

do=diameter over fins

di= inside diameter of fin section

Xp=wall thickness of plain end

Xf=wall thickness under fin

Fh=height of fin

Fm=fin thickness

P=rib pitch

Rh=height of rib

Ha=helix angle

heat

FIN

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