Computation of flow-induced stresses in a structure using a hybrid momentum equation approach (Q373749)
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scientific article; zbMATH DE number 6219573
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Computation of flow-induced stresses in a structure using a hybrid momentum equation approach |
scientific article; zbMATH DE number 6219573 |
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Computation of flow-induced stresses in a structure using a hybrid momentum equation approach (English)
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25 October 2013
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Summary: In this paper, we present a method to formulate momentum equations for computing flow-induced stresses in a structure. The momentum equations for fluids and solids are cast into a common form, which when integrated over a computational cell generates a hybrid momentum equation customised to fluid-solid interface configurations. The resulting equation can be solved by a proper numerical method for computational fluid dynamics, such as the SIMPLE algorithm. This approach has been applied to Poiseuille flow between two parallel plates and lid-driven cavity flow in a solid container. Simulation results show a good agreement with the ABAQUS\(^{\text{TM}}\) results.
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flow-induced stress
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monolithic
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finite volume method
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hybrid momentum equations
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fluid-solid interface
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computational fluid dynamics
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CFD
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Poiseuille flow
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two parallel plates
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lid-driven cavity flow
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solid containers
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simulation
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