Julian A. Domaradzki
Affiliations: | Aerospace Engineering | University of Southern California, Los Angeles, CA, United States |
Area:
Aerospace EngineeringGoogle:
"Julian Domaradzki"Children
Sign in to add traineePatrick P. Yee | grad student | 2000 | USC |
Yuncheng Lin | grad student | 2010 | USC |
Tawan Tantikul | grad student | 2011 | USC |
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Publications
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Sun G, Domaradzki JA. (2018) Implicit LES using adaptive filtering Journal of Computational Physics. 359: 380-408 |
Cadieux F, Domaradzki JA. (2016) Periodic Filtering as a subgrid-scale model for LES of laminar separation bubble flows Journal of Turbulence. 17: 954-965 |
Cadieux F, Domaradzki JA. (2015) Performance of subgrid-scale models in coarse large eddy simulations of a laminar separation bubble Physics of Fluids. 27 |
Orr TS, Domaradzki JA, Spedding GR, et al. (2015) Numerical simulations of the near wake of a sphere moving in a steady, horizontal motion through a linearly stratified fluid at Re = 1000 Physics of Fluids. 27 |
Castiglioni G, Domaradzki JA. (2015) A numerical dissipation rate and viscosity in flow simulations with realistic geometry using low-order compressible Navier-Stokes solvers Computers and Fluids. 119: 37-46 |
Schranner FS, Domaradzki JA, Hickel S, et al. (2015) Assessing the numerical dissipation rate and viscosity in numerical simulations of fluid flows Computers and Fluids. 114: 84-97 |
Cadieux F, Domaradzki JA, Sayadi T, et al. (2014) Direct numerical simulation and large eddy simulation of laminar separation bubbles at moderate Reynolds numbers Journal of Fluids Engineering, Transactions of the Asme. 136 |
Castiglioni G, Domaradzki JA, Pasquariello V, et al. (2014) Numerical simulations of separated flows at moderate reynolds numbers appropriate for turbine blades and unmanned aero vehicles International Journal of Heat and Fluid Flow. 49: 91-99 |
Fu WS, Li CG, Tsubokura M, et al. (2013) An investigation of compressible turbulent forced convection by an implicit turbulence model for large eddy simulation Numerical Heat Transfer; Part a: Applications. 64: 858-878 |
Anderson BW, Domaradzki JA. (2013) Publisher's Note: "A subgrid-scale model for large-eddy simulation based on the physics of interscale energy transfer in turbulence" [Phys. Fluids 24, 065104 (2012)] Physics of Fluids. 25 |