Titlebook: Cartesian CFD Methods for Complex Applications; Ralf Deiterding,Margarete Oliveira Domingues,Kai S Conference proceedings 2021 The Editor(

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,AMR Enabled Quadtree Discretization of Incompressible Navier–Stokes Equations with Moving Boundariedeled through a second-order volume penalization method, and the interface is tracked using a level-set description. We highlight on two dimensional test cases that the uniform grids accuracy can be recovered using quadtree grids with less degrees of freedom.

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2199-3041 challenges are also considered. The book is addressed to graduate students and scientists in the fields of applied mathematics and computational engineering..978-3-030-61763-9978-3-030-61761-5Series ISSN 2199-3041 Series E-ISSN 2199-305X

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An Immersed Boundary Method on Cartesian Adaptive Grids for the Simulation of Compressible Flows,to mitigate the cell count resulting from the isotropic nature of Cartesian cells..The objective of this paper is to demonstrate the capability of the present immersed boundary method on Cartesian adaptive grids to capture compressible flow features. Results obtained are in good agreement with class

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Verification of the WALE Large Eddy Simulation Model for Adaptive Lattice Boltzmann Methods Implemeencils intrinsic to the WALE approach in real-world flow situations, a new method is presented for ensuring consistent boundary conditions in microscopic distribution functions as well as in macroscopic variables. The benefit of the proposed technique is shown for dynamically adaptive simulations of

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,Fluid–Structure Interaction Using Volume Penalization and Mass-Spring Models with Application to Flder the impact of inertial and aerodynamic forces. These forces come from the complex wing kinematics of insects. In this study, both wing structural dynamics and flapping wing motion are taken into account to investigate the effect of wing deformation on the aerodynamic efficiency of a bumblebee in

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