Litcius/Paper detail

Fluid–structure interaction modeling with nonmatching interface discretizations for compressible flow problems: Computational framework and validation study

Manoj R. Rajanna, Emily L. Johnson, Ning Liu, Artem Korobenko, Yuri Bazilevs, Ming‐Chen Hsu

2022Mathematical Models and Methods in Applied Sciences11 citationsDOI

Abstract

This work presents a strongly-coupled fluid–structure interaction (FSI) formulation for compressible flows that is developed based on an augmented Lagrangian approach. The method is suitable for handling problems that involve nonmatching fluid–structure interface discretizations. In this work, the fluid is modeled using a stabilized finite element method for the Navier–Stokes equations of compressible flows and is coupled to the structure, which is formulated using isogeometric Kirchhoff–Love shells. The strongly-coupled system is solved using a block-iterative approach. The proposed method is validated using two compressible flow benchmark problems to assess the accuracy of the developed formulation.

Topics & Concepts

Fluid–structure interactionIsogeometric analysisCompressible flowFinite element methodCompressibilityBenchmark (surveying)Applied mathematicsFlow (mathematics)Computer scienceWork (physics)Block (permutation group theory)Incompressible flowInterface (matter)Mathematical optimizationMathematicsMechanicsPhysicsGeometryGeologyBubbleGeodesyParallel computingThermodynamicsMaximum bubble pressure methodAdvanced Numerical Analysis TechniquesAdvanced Numerical Methods in Computational MathematicsComputational Fluid Dynamics and Aerodynamics
Fluid–structure interaction modeling with nonmatching interface discretizations for compressible flow problems: Computational framework and validation study | Litcius