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Layout-Plan 
Geometry of Pressure Vessel. Recording of the complete Application-Process.
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[[Datei:FEM1-01.png|mini|Layout-Plan]] | [[Datei:FEM1-01.png|left|mini|Layout-Plan]] | ||
Using ANSYS workbench, decide upon the wall-thickness of a pressure-vessel subject to a differential internal pressure of ''p''=1 bar. Let | Using ANSYS workbench, decide upon the wall-thickness of a pressure-vessel subject to a differential internal pressure of ''p''=1 bar. Let | ||
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</math> | </math> | ||
[[Datei:FEM1-02.png|mini|Geometry of Pressure Vessel. | The pressure vessel is rotationally symmetric, depicted left is only a 90° section with input/output pipe. | ||
[[Datei:FEM1-02.png|mini|Geometry of Pressure Vessel.]]<br clear="all"> | |||
[[Datei:FEM1.mp4|ohne|mini|Recording of the complete Application-Process.]] | [[Datei:FEM1.mp4|ohne|mini|Recording of the complete Application-Process.]] | ||
Aktuelle Version vom 25. Oktober 2022, 17:18 Uhr
Problem Formulation
Ok, tutorial videos should not be longer than - say - 10 minutes. This video is 72 minutes long! My excuse is: I wanted to record a complete solution procedure including a wrong approach with its remedy and including solution steps outside of ANSYS©.
Using ANSYS workbench, decide upon the wall-thickness of a pressure-vessel subject to a differential internal pressure of p=1 bar. Let
The vessel geometry shall be defined by
The pressure vessel is rotationally symmetric, depicted left is only a 90° section with input/output pipe.
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