Progress and challenges in the development of physically-based numerical models for prediction of flow and contaminant dispersion in the urban environment
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Publication:3437431
DOI10.1080/10618560600898528zbMath1370.76070OpenAlexW2063831698MaRDI QIDQ3437431
Hua Ji, Eugene Yee, Fue-Sang Lien, Kun-Jung Hsieh, A. Keats
Publication date: 9 May 2007
Published in: International Journal of Computational Fluid Dynamics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/10618560600898528
large eddy simulationadaptive mesh refinementdispersion modelingdrag-force approachinverse source determination
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Determination of open boundary conditions for computational fluid dynamics (CFD) from interior observations ⋮ Resolving unsteady micro-scale atmospheric flows by nesting a CFD simulation into wide range numerical weather prediction models
Uses Software
Cites Work
- Full threaded tree algorithms for adaptive refinement fluid dynamics simulations
- Gerris: A tree-based adaptive solver for the incompressible Euler equations in complex geometries.
- Large eddy simulation of high-Reynolds-number free and wall-bounded flows
- Numerical study of the turbulent flow past an airfoil with trailing edge separation
- Upstream monotonic interpolation for scalar transport with application to complex turbulent flows
- Large-eddy simulation of rotating channel flows using a localized dynamic model
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