Forces on a pressure vessel containing a vacuum

In summary, the conversation is about calculating forces on a non-cylindrical or spherical vessel containing a vacuum. The ASME boiler and pressure vessel code manual, as well as "Roark's Formulas for Stress and Strain", are suggested as resources for this problem. It is also noted that the external pressure problem should be considered and that the ASME code may not cover all types of vessels.
  • #1
harry_harrin
5
0
Hi,

I'm trying to work out how to calculate the forces acting on a vessel containing a vacuum. The vessel is not cylindrical or spherical. Can anyone suggest any websites or textbooks that might be useful?

Thanks
 
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  • #2
I think that should be looked upon as a external pressure problem. The fact that its a vacuum inside or 1 atm with 2 atm outside doesn't matter.
The construction of pressure vessels is given in the ASME boiler and pressure vessel code manual section VIII. (I am not sure anymore if external pressure is covered but I believe it is)
Those are not that easy to get your hands on but a large university should have it in their library.
 
  • #3
Thats great, Thanks very much for your help jaap
 
  • #4
Hi harry. ASME code is an excellent resource, but regarding external pressure, ASME is focused on cylindrical or spherical parts.

If you have flat plates, either circular or rectangular, it doesn't matter if there is a vacuum on one side or positive pressure. The calculation is done depending on dP across the plate, so you don't need to concern yourself with whether or not the pressure on either side is below atmospheric - only the dP across the plate is pertinant.

For flat plates, also look for "Roark's Formulas for Stress and Strain".
 
  • #5
that was really useful, thanks for that
 

1. What is a pressure vessel and how does it work?

A pressure vessel is a container that is designed to hold high pressure substances, such as gas or liquids. It works by using thick walls and strong materials to withstand the force of the substance inside pushing outward.

2. How does a vacuum affect a pressure vessel?

A vacuum is an absence of pressure, so it creates a force pushing inward on the walls of the pressure vessel. This force can cause the vessel to collapse or deform if it is not strong enough to withstand it.

3. What are the main forces acting on a pressure vessel containing a vacuum?

The main forces acting on a pressure vessel containing a vacuum are the internal pressure pushing outward and the external vacuum force pushing inward. These forces must be balanced for the vessel to remain stable.

4. How is the strength of a pressure vessel determined?

The strength of a pressure vessel is determined by its design, materials used, and the thickness of its walls. It must be able to withstand the forces acting on it without deforming or breaking.

5. What are the potential risks associated with a pressure vessel containing a vacuum?

The main risks associated with a pressure vessel containing a vacuum are collapse or deformation due to the inward force of the vacuum, and potential leaks or explosions if the vessel is not properly designed and maintained. These risks can be mitigated by following safety standards and regulations for pressure vessels.

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