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Modelling vs reality of axial pipeline twist due to vertical expansion loop 1

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gdn1984

Mechanical
Jan 6, 2020
7
Hi, I have been visiting these forums for a while and have learned a lot of good stuff, thank you. Now time for a question:

We have a design for 10” carbon steel pressure piping (ASME B31.1). The pipe has a long straight section near ground level, with a series of vertical expansion loops (4m tall) due to space constraints. Half-way between each expansion loop is an anchor. The other pipe supports are v-stop/guides. Pipe shoes are welded to the bottom of the pipe (inverted T type with end plates). The loops themselves are not supported (except for supports immediately either side of the vertical loop).

The pipe stress analysis (AutoPipe) shows no issues though deflections at the top of the loops are around 100mm in a seismic event acting perpendicular to the general pipe direction.

However, on further thought this is a bit too simple:
1. The Autopipe model assumes that if the vertical loop deflects (i.e due to wind, earthquake) then the straight runs of pipe can twist – with maximum twist at the bottom of the loop and of course working down to zero at the anchor.
2. The pipe support shoe has a flat base with the assumption that the pipe does not axially twist
3. In designing the shoe and shoe/ pipe interface we would typically consider vertical forces acting through the pipe centreline but under the conditions described here, this is not the case
4. Deflection in an under-designed shoe flange can result with possible fatigue implications

I am no Autopipe expert but as far as I can see there is no way to restrict/ restrain torsion in non-anchor supports? I tried a bodge in the model to eliminate torsion in the straight run, and although the stress at the lower elbows of the vertical loops were higher, they were still well within limits. So miss-modelled pipe torsion in itself does not appear to be an issue.

I have scoured the internet for similar examples but I come up empty handed. Even if an unsupported vertical expansion loop is simply a bad idea, there must be loads of other instances in piping design where pipe torsion is an issue, even if just for the support shoe design. Can anyone shed some more light on this? Or is it pretty much a case of: The pipe stress model is by its nature just a model and it is up to the experienced pipe stress engineer to recognise issues such as this and either design out the problem or find another way to manage it/ prove that it is OK?

Thanks for your help.
 
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AutoPIPE does have a rotational support that is separate from anchors. You could also make one by using a rigid beam/pipe straight up from the pipe and then a guide with 0 gap in the rotational direction that you want to restrain.

The rotation at 100mm over 4000mm is less than 1.5 degrees. You could try doing a more accurate model of your support with beam elements and 2 vstops at the ends to see how that affects the loads. You don't need a support in the center of the loop to limit movement. You could put a support somewhere on the vertical section to limit lateral movement or make your first supports rollers/more resistant to rotation.

It's always up to the engineer to understand the software that they are using and its limitations. Garbage in garbage out.
 
jojoyohan said:
You could also make one by using a rigid beam/pipe straight up from the pipe and then a guide with 0 gap in the rotational direction that you want to restrain.
This is pretty much the work-around I did as a test, adding these either side of the vertical expansion loop. The result for the piping was quite OK.

Using a wider and more rigid pipe shoe is something we are looking at. Supports on the verticals to restrain lateral movement would certainly be nice, just a much more substantial solution.
 
gdn1984,
Please draw us a picture of the routing with appropriate dimensions and locations of pipe anchors and guides.


Sometimes its possible to do all the right things and still get bad results
 
Hi pennpiper, please see here for a typical routing between anchors:
Annotation_2020-01-08_091819_lnlzka.jpg
 
Vertical loops are not ideal. I would recommend some sort of lateral restraints at the top of the loop to prevent excessive "twisting". Especially if you have seismic or wind cases present.
 
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