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Fluid-Solid Interaction Simulation Methodology for Coriolis Flowmeter Operation Analysis.

Evgeniia Shavrina1, Vinh-Tan Nguyen2, Zeng Yan3

  • 1Mechanical Engineering, National University of Singapore, Singapore 117565, Singapore.

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|December 10, 2021
PubMed
Summary
This summary is machine-generated.

This study validates numerical simulations for Coriolis flowmeters (CFM) using a fluid-solid interaction approach. Reynolds Stress Model (RSM) is recommended for accurate CFM operation analysis, with specific simplifications to avoid.

Keywords:
Coriolis flowmeterfluid-structure interactionturbulence modelvalidation

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Area of Science:

  • Fluid dynamics
  • Computational mechanics
  • Measurement science

Background:

  • Numerical simulation is crucial for Coriolis flowmeter (CFM) analysis.
  • Existing CFM simulation methodologies lack experimental validation and consensus on turbulence models and simplifications.

Purpose of the Study:

  • To develop and validate a fluid-solid interaction simulation methodology for CFMs.
  • To compare turbulence models and assess the impact of configuration simplifications.

Main Methods:

  • Coupling finite volume method (fluid) and finite element method (solid) for fluid-solid interaction.
  • Investigating Reynolds Stress Model (RSM) and eddy viscosity-based turbulence models.
  • Evaluating effects of configuration simplifications like brace neglect and tube length assumptions.

Main Results:

  • The RSM turbulence model is found to be favorable for CFM operation simulations.
  • Configuration simplifications excluding brace neglect and equivalent flowmeter tube length are recommended.
  • Simulation results show less than 5% discrepancy compared to experimental data.

Conclusions:

  • The proposed fluid-solid interaction methodology enhances confidence in CFM simulations.
  • Validated simulation methods provide a foundation for further research in diverse flowmeter applications.