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Tubeside Gas Velocity Range on Heat Exchanger

Ricardo11

Mechanical
Jan 15, 2025
1
Hello everyone,

I'm currently in the process of designing a heat exchanger using Aspen, where the shellside carries liquid and the tubeside carries gas. For the liquid phase, we have RhoV² limits according to TEMA, but I’m unsure if there are similar guidelines for gas velocities.
From the literature I've reviewed so far, the only typical velocity range I found for gases in tubes is between 15 m/s and 30 m/s. However, I'm not sure if this range applies to my case, because the gas is condensing—not completely, but partially.
Currently, the design uses a tubeside gas velocity of 18 m/s.
Would this be considered safe and appropriate under these conditions, or should I be concerned due to the condensation aspect?
I’d appreciate any insights or recommendations from those with experience in this area.

I'm still relatively new to this type of design work, so any insights or recommended literature would be very helpful.

Thank you!
.
 
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Not sure about HX's but high velocity liquid droplets in a gas stream above about 7 to 10m/sec are going to erode whatever the first thing is that it touches. Very rapidly.

Need to talk to to some HX vendors before you go modelling something which can't be built
 
What is the tube material?
Condensing streams are tricky.
Often there will be impingement protection in the form of solid rods as the first two rows in place of tubes.
In main steam condensers they run some crazy velocities but they can spread it out a lot and provide protection.
 
For thermal design of and pressure drop on tubeside in partial condensors, pls refer to page 11-12 in Perry Chem Engg Handbook 7th edn. You can do a manual check of the Aspen output with these correlations.
 

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