Reprint

Selected Papers from the 15th OpenFOAM Workshop

Edited by
October 2021
202 pages
  • ISBN978-3-0365-1996-8 (Hardback)
  • ISBN978-3-0365-1997-5 (PDF)

This is a Reprint of the Special Issue Selected Papers from the 15th OpenFOAM Workshop that was published in

Engineering
Physical Sciences
Summary

This Special Issue will publish selected papers from the 15th OpenFOAM Workshop, June 22–25, 2020 in Arlington, Virginia, USA. The workshop is hosted by the Crofton Department of Aerospace and Ocean Engineering at Virginia Tech. During this community driven event, conference presentations and poster sessions will be held and work in progress is gladly seen as well. In addition to the conference aspect, trainings on OpenFOAM technology and other related software tools are held mostly from users for users. This underlines one of the goals of the workshop: bringing users, developers and researchers together and providing a nurturing ground for open discussions and future projects. The conference will cover the following main topics:

Aerodynamics; Civil engineering; Complex materials; Compressible flows; Fluid-structure interaction; General CFD; Heat and mass transfer;Lagrangian methods; Naval hydrodynamic; Offshore and renewable energy; Optimization and control; Porous media; Pre/post-processing; Reacting flows; Turbomachinery; Turbulence modeling.

Papers presented in this workshop and having enough quality can be further considered for publication in Fluids. The papers will be peer-reviewed for the validation of research results, developments, and applications.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
capillary flow; container draining; CFD; interior corner; capillary fluidics; contact angle; tankage; computational fluid dynamics; moving meshes; propeller; stratified environments; mixed patch; non-premixed combustion; turbulence; radiative heat transfer; conjugate heat transfer; thermal thermal nitric-oxide(NOx); rotary kiln; intake; air-core vortex; LTSInterFoam; OpenFOAM; volume of fluid (VOF); multi-physics; electrochemistry; fluid mechanics; OpenFOAM; finite volume method; finite area method; stratified wakes; turbulence; RANS; stress-transport; multi-scale simulation; OpenFOAM; geophysical fluids; ocean physics; atmosphere-ocean coupling; air-sea interface; OpenFOAM; Weather Research and Forecast (WRF); mesh resolution; large-eddy simulation; OpenFOAM; channel flow; sudden expansion; non-Gaussian seas; wave–structure interaction; HOS; OpenFOAM; submarine; flow characterization; vortex identification; full-scale simulation; type 209 class; DARPA SUBOFF

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