Abstract
Cylinder pressure vessel is a device that is used to process industry, power industry, oil industry, and gas industry. Structure of pressure vessel has complex design that is used to accommodate force, temperature, internal pressure loading, etc. Pressure vessel loading is supported by two saddle. Loading pressure vessel is distributed to saddle as stress. Stress distribution can be checked by finite element software. Autodesk Inventor 2019 is a software that used finite element basic. This research aims to get the effect of pressure vessel saddle width to maximum stress at pressure vessel.
Highlights
Pressure vessels consisting of cylindrical shell components can be found in processing, electrical generator, oil, and gas industries [1]
The pressure vessel load is held by a component called a saddle
This study aims to obtain the stress distribution in horizontal pressure vessels which has saddle thickness variations
Summary
Pressure vessels consisting of cylindrical shell components can be found in processing, electrical generator, oil, and gas industries [1]. The pressure vessel contains a fluid with a liquid or gas phase [1]. One type of pressure vessel is a horizontal pressure vessel. The shape of the pressure vessel structure is very complicated because it can withstand force loads, temperature, pressure from the fluid, and the other loads [2]. The pressure vessel load is held by a component called a saddle. There are two saddles used to withstand the load [3]. The pressure vessel load will be distributed to the two stops [4]. The finite element method can be used to solved stress distribution cases [5]
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