Parviz Moin
Franklin P. and Caroline M. Johnson Professor in the School of Engineering
Mechanical Engineering
Bio
Moin is the founding director of the Center for Turbulence Research. Established in 1987 as a research consortium between NASA and Stanford, Center for Turbulence Research is devoted to fundamental studies of turbulent flows. Center of Turbulence Research is widely recognized as the international focal point for turbulence research, attracting diverse groups of researchers from engineering, mathematics and physics. He was the founding director of the Institute for Computational and Mathematical Engineering at Stanford.
Professor Moin pioneered the use of direct and Large Eddy Simulation techniques for the study of turbulence physics, control and modelling concepts and has written widely on the structure of turbulent shear flows. His current interests include: Computational physics, Physics and control of turbulent boundary layers, hypersonic flows, propulsion, flow control, large eddy simulation for aerospace applications and aircraft icing.
Administrative Appointments
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Founding Director, Institute for Computational and Mathematical Engineering, Stanford (2003 - 2005)
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Chair, American Physical Society, Fluid Dynamics Division (2000 - 2001)
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Chair, Engineering Sciences Section, National Academy of Sciences (2014 - 2017)
Honors & Awards
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Member, National Academy of Sciences (2011-)
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Member, National Academy of Engineering (1997-)
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Member, American Academy of Arts and Sciences (2009-)
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Corresponding Member, Royal Spanish Academy of Engineering (2014-)
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Fellow, American Physical Society (APS) (1992)
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Fellow, American Institute of Aeronautics and Astronautics (AIAA) (2009)
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Fluid Dynamics Prize, American Physical Society (APS) (1996)
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Fluid Dynamics Award, American Institute of Aeronautics and Astronautics (AIAA) (2009)
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Highly Cited Researcher, ISI-Original list
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Einstein Professorship, Chinese Academy of Sciences (2009)
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Moody Award, American Society of Mechanical Engineers (ASME) (2006)
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Outstanding Leadership Medal, The National Aeronautics and Space Administration (NASA) (2002)
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Outstanding Achievement Award, University of Minnesota (2008)
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Doctores Honoris Causa, Universidad Politecnica de Madrid (1998)
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Alexander von Humboldt Prize, Federal Republic of Germany (1995)
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Lawrence Sperry Award, American Institute of Aeronautics and Astronautics (AIAA) (1986)
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Exceptional Scientific Achievement Medal, The National Aeronautics and Space Administration (NASA) (1985)
Boards, Advisory Committees, Professional Organizations
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Member, Committee on Foundational Research Gaps and Future Directions for Digital Twins, National Academy of Sciences, Engineering and Medicine (2022 - 2023)
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Editorial Advisory Board, Flow (2021 - Present)
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Member, Space Nuclear Propulsion Committee, National Academy of Sciences, Engineering and Medicine (2020 - 2021)
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Co-Chair, Visiting Committee, Division of Engineering and Applied Science, California Institute of Technology (2019 - 2019)
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Member, Committee on Advanced Technologies for Gas Turbines, National Academies of Sciences, Engineering and Medicine (2018 - 2019)
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Panel on Review of Laboratory Research at the Army's Research Development, and Engineering Centers, National Academies of Sciences, Engineering and Medicine (2018 - 2019)
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Member, Aeronautics and Space Engineering Board, National Academies of Sciences, Engineering and Medicine (2017 - 2023)
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Member, Visiting Committee, Department of Aerospace and Mechanical Engineering, University of Southern California (2017 - 2017)
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Editorial Board, Physical Review Fluids (2015 - 2021)
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Panel on Improving the Air Force Scientific Discovery Mission, National Academies, Air Force Studies Board (2015 - 2015)
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Chair, National Academy of Sciences, Engineering Sciences Section (2014 - 2017)
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Member, Visiting Committee, Division of Engineering and Applied Science, California Institute of Technology (2014 - 2014)
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Member, Committee on Membership, National Academy of Sciences (2013 - 2016)
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Member, International Temporary Nominating Committee, National Academy of Sciences (2013 - 2015)
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Panel on Mechanical Science and Engineering at the Army Research Laboratory, National Academy of Sciences (2013 - 2014)
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Mechanical Engineering Peer Committee, National Academy of Engineering (2010 - 2012)
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Consultant, Naval Research Advisory Committee (NRAC) (2009 - 2009)
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Editor, Annual Review of Fluid Mechanics (2002 - 2023)
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Editorial Board, Flow, Turbulence and Combustion (2000 - 2015)
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Chair, Division of Fluid Dynamics, American Physical Society (2000 - 2001)
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Associate Editor, Physics of Fluids (1999 - 2015)
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Member, United States National Committee on Theoretical and Applied Mechanics (1999 - 2003)
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Associate Editor, Journal of Computational Physics (1998 - Present)
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Vice Chair, Division of Fluid Dynamics, American Physical Society (1998 - 1999)
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Executive Committee, Division of Fluid Dynamics, American Physical Society (1993 - 1996)
Professional Education
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B.S., University of Minnesota, Mechanical Engineering (with High Distinction) (1974)
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M.S., Stanford University, Mechanical Engineering (1975)
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M.S., Stanford University, Mathematics (1978)
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Ph.D., Stanford University, Mechanical Engineering (with Great Distinction) (1978)
2024-25 Courses
- Introduction to Numerical Methods for Engineering
CME 206, ME 300C (Spr) - Seminar in Fluid Mechanics
ENGR 298 (Aut) - Spectral Methods in Computational Physics
CME 322, ME 408 (Win) -
Independent Studies (15)
- Directed Research and Writing in Aero/Astro
AA 190 (Aut, Win, Spr) - Engineering Problems
ME 391 (Aut, Win, Spr) - Engineering Problems and Experimental Investigation
ME 191 (Aut, Win, Spr) - Experimental Investigation of Engineering Problems
ME 392 (Aut, Win, Spr) - Honors Research
ME 191H (Aut, Win, Spr) - Independent Study in Aero/Astro
AA 199 (Aut, Win, Spr) - Master's Directed Research
ME 393 (Aut, Win, Spr) - Master's Directed Research: Writing the Report
ME 393W (Aut, Win, Spr) - Ph.D. Research Rotation
ME 398 (Aut, Win, Spr) - Ph.D. Teaching Experience
ME 491 (Aut, Win, Spr) - Practical Training
ME 199A (Win, Spr) - Practical Training
ME 299A (Aut, Win, Spr) - Practical Training
ME 299B (Aut, Win, Spr) - Problems in Aero/Astro
AA 290 (Aut, Win, Spr) - Writing of Original Research for Engineers
ENGR 199W (Aut, Win, Spr)
- Directed Research and Writing in Aero/Astro
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Prior Year Courses
2023-24 Courses
2022-23 Courses
- Linear Algebra with Application to Engineering Computations
CME 200, ME 300A (Aut) - Spectral Methods in Computational Physics
CME 322, ME 408 (Win)
2021-22 Courses
- Linear Algebra with Application to Engineering Computations
CME 200, ME 300A (Aut) - Turbulence
ME 361 (Spr) - Turbulence Physics and Modeling Using Numerical Simulation Data
ME 406 (Sum)
- Linear Algebra with Application to Engineering Computations
Stanford Advisees
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Doctoral Dissertation Reader (AC)
Kevin Cherng, Ryan Hass -
Postdoctoral Faculty Sponsor
Davy Brouzet, Alexander Cicchino, Tânia Ferreira, Salvador Gomez, Hanul Hwang, Charlelie Laurent, Jianyu Wang, Hang Yu, Federico Zabaleta, Tony Zahtila -
Doctoral Dissertation Advisor (AC)
Rahul Agrawal, Lucy Brown, Ahmed Elnahhas, Tim Flint, Carlos Gonzalez, Michael Whitmore, Christopher Williams -
Doctoral Dissertation Co-Advisor (AC)
Arun Balakrishna -
Master's Program Advisor
Chandramouli Gade, Nael Ghoundale -
Doctoral (Program)
Ahmed Elnahhas, Tim Flint, Elaine Koh, Janice Zou
All Publications
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Reynolds-Number-Dependence of Length Scales Governing Turbulent-Flow Separation in Wall-Modeled Large Eddy Simulation
AIAA JOURNAL
2024
View details for DOI 10.2514/1.J063909
View details for Web of Science ID 001296252800001
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Navier-Stokes characteristic boundary conditions for high-enthalpy compressible flows in thermochemical non-equilibrium
JOURNAL OF COMPUTATIONAL PHYSICS
2024; 509
View details for DOI 10.1016/j.jcp.2024.113040
View details for Web of Science ID 001235560400001
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Large-eddy simulations of the NACA23012 airfoil with laser-scanned ice shapes
AEROSPACE SCIENCE AND TECHNOLOGY
2024; 146
View details for DOI 10.1016/j.ast.2024.108957
View details for Web of Science ID 001180814900001
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Are the dynamics of wall turbulence in minimal channels and larger domain channels equivalent? A graph-theoretic approach
IOP PUBLISHING LTD. 2024
View details for DOI 10.1088/1742-6596/2753/1/012004
View details for Web of Science ID 001223470600004
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Stable, entropy-consistent, and localized artificial-diffusivity method for capturing discontinuities
Physical Review Fluids
2024
View details for DOI 10.1103/PhysRevFluids.9.024609
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Wind Tunnel and Grid Resolution Effects in Large-Eddy Simulation of the High-Lift Common Research Model
JOURNAL OF AIRCRAFT
2023
View details for DOI 10.2514/1.C037238
View details for Web of Science ID 001069825800001
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Near-wall model for compressible turbulent boundary layers based on an inverse velocity transformation
JOURNAL OF FLUID MECHANICS
2023; 970
View details for DOI 10.1017/jfm.2023.627
View details for Web of Science ID 001059176800001
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Assessment of diffuse-interface methods for compressible multiphase fluid flows and elastic-plastic deformation in solids
JOURNAL OF COMPUTATIONAL PHYSICS
2023; 475
View details for DOI 10.1016/j.jcp.2022.111866
View details for Web of Science ID 000918631300001
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Introduction
ANNUAL REVIEW OF FLUID MECHANICS
2023; 55: V
View details for DOI 10.1146/annurev-fl-55-101822-100001
View details for Web of Science ID 000915418100001
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Atomization of the optimally disturbed liquid jets
PHYSICAL REVIEW FLUIDS
2022; 7 (11)
View details for DOI 10.1103/PhysRevFluids.7.110508
View details for Web of Science ID 000884692900002
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A kinetic energy-and entropy-preserving scheme for compressible two-phase flows
JOURNAL OF COMPUTATIONAL PHYSICS
2022; 464
View details for DOI 10.1016/j.jcp.2022.111307
View details for Web of Science ID 000807745300001
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Non-Boussinesq subgrid-scale model with dynamic tensorial coefficients
PHYSICAL REVIEW FLUIDS
2022; 7 (7)
View details for DOI 10.1103/PhysRevFluids.7.074602
View details for Web of Science ID 000827135400001
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Performance of Wall-Modeled LES with Boundary-Layer-Conforming Grids for External Aerodynamics
AIAA JOURNAL
2021
View details for DOI 10.2514/1.J061041
View details for Web of Science ID 000719625700001
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Prediction of aerothermal characteristics of a generic hypersonic inlet flow
THEORETICAL AND COMPUTATIONAL FLUID DYNAMICS
2021
View details for DOI 10.1007/s00162-021-00587-7
View details for Web of Science ID 000688421400001
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Velocity transformation for compressible wall-bounded turbulent flows with and without heat transfer
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
2021; 118 (34)
View details for DOI 10.1073/pnas.2111144118|1of7
View details for Web of Science ID 000689727900018
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Wall-Modeled Large-Eddy Simulation of Turbulent Boundary Layers with Mean-Flow Three-Dimensionality
AIAA JOURNAL
2021; 59 (5): 1707-1717
View details for DOI 10.2514/1.J059861
View details for Web of Science ID 000647156500016
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The turbulent bubble break-up cascade. Part 2. Numerical simulations of breaking waves
JOURNAL OF FLUID MECHANICS
2021; 912
View details for DOI 10.1017/jfm.2020.1084
View details for Web of Science ID 000618238200001
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The turbulent bubble break-up cascade. Part 1. Theoretical developments
JOURNAL OF FLUID MECHANICS
2021; 912
View details for DOI 10.1017/jfm.2020.1083
View details for Web of Science ID 000618034300001
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A mechanism for the amplification of interface distortions on liquid jets
JOURNAL OF FLUID MECHANICS
2021; 911
View details for DOI 10.1017/jfm.2020.1067
View details for Web of Science ID 000651856800001
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Large eddy simulation of aircraft at affordable cost: a milestone in computational fluid dynamics
FLOW
2021; 1: 1-21
View details for DOI 10.1017/flo.2021.17
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Identifying and tracking bubbles and drops in simulations: A toolbox for obtaining sizes, lineages, and breakup and coalescence statistics
Journal of Computational Physics
2021; 432: 22
View details for DOI 10.1016/j.jcp.2021.110156
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Shock-induced heating and transition to turbulence in a hypersonic boundary layer
Journal of Fluid Mechanics
2021; 909: A8
View details for DOI 10.1017/jfm.2020.935
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General method for determining the boundary layer thickness in nonequilibrium flows
Physical Review Fluids
2021; 6: 024608
View details for DOI 10.1103/PhysRevFluids.6.024608
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Laminar to fully turbulent flow in a pipe: scalar patches, structural duality of turbulent spots and transitional overshoot
JOURNAL OF FLUID MECHANICS
2020; 896
View details for DOI 10.1017/jfm.2020.304
View details for Web of Science ID 000535926200001
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Subgrid-scale Capillary Breakup Model for Liquid Jet Atomization
COMBUSTION SCIENCE AND TECHNOLOGY
2020
View details for DOI 10.1080/00102202.2020.1732950
View details for Web of Science ID 000518470500001
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Turbophoresis of small inertial particles: theoretical considerations and application to wall-modelled large-eddy asimulations
JOURNAL OF FLUID MECHANICS
2020; 883
View details for DOI 10.1017/jfm.2019.865
View details for Web of Science ID 000508121500027
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Non-equilibrium three-dimensional boundary layers at moderate Reynolds numbers
JOURNAL OF FLUID MECHANICS
2020; 883
View details for DOI 10.1017/jfm.2019.869
View details for Web of Science ID 000508121500020
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A conservative diffuse-interface method for compressible two-phase flows
Journal of Computational Physics
2020; 418
View details for DOI 10.1016/j.jcp.2020.109606
- Wall-modeled large-eddy simulation of non-equilibrium turbulent boundary layers arXiv preprint arXiv:2001.01020 2020: 1-14
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Birth of microbubbles in turbulent breaking waves
AMER PHYSICAL SOC. 2019
View details for DOI 10.1103/PhysRevFluids.4.100508
View details for Web of Science ID 000492374200008
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A dynamic spectrally enriched subgrid-scale model for preferential concentration in particle-laden turbulence
INTERNATIONAL JOURNAL OF MULTIPHASE FLOW
2019; 116: 270–80
View details for DOI 10.1016/j.ijmultiphaseflow.2019.04.025
View details for Web of Science ID 000470046700021
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Dynamic slip wall model for large-eddy simulation.
Journal of fluid mechanics
2019; 859: 400-432
Abstract
Wall modelling in large-eddy simulation (LES) is necessary to overcome the prohibitive near-wall resolution requirements in high-Reynolds-number turbulent flows. Most existing wall models rely on assumptions about the state of the boundary layer and require a priori prescription of tunable coefficients. They also impose the predicted wall stress by replacing the no-slip boundary condition at the wall with a Neumann boundary condition in the wall-parallel directions while maintaining the no-transpiration condition in the wall-normal direction. In the present study, we first motivate and analyse the Robin (slip) boundary condition with transpiration (non-zero wall-normal velocity) in the context of wall-modelled LES. The effect of the slip boundary condition on the one-point statistics of the flow is investigated in LES of turbulent channel flow and a flat-plate turbulent boundary layer. It is shown that the slip condition provides a framework to compensate for the deficit or excess of mean momentum at the wall. Moreover, the resulting non-zero stress at the wall alleviates the well-known problem of the wall-stress under-estimation by current subgrid-scale (SGS) models (Jiménez & Moser, AIAA J., vol. 38 (4), 2000, pp. 605-612). Second, we discuss the requirements for the slip condition to be used in conjunction with wall models and derive the equation that connects the slip boundary condition with the stress at the wall. Finally, a dynamic procedure for the slip coefficients is formulated, providing a dynamic slip wall model free of a priori specified coefficients. The performance of the proposed dynamic wall model is tested in a series of LES of turbulent channel flow at varying Reynolds numbers, non-equilibrium three-dimensional transient channel flow and a zero-pressure-gradient flat-plate turbulent boundary layer. The results show that the dynamic wall model is able to accurately predict one-point turbulence statistics for various flow configurations, Reynolds numbers and grid resolutions.
View details for DOI 10.1017/jfm.2018.838
View details for PubMedID 31631905
View details for PubMedCentralID PMC6800713
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Dynamic slip wall model for large-eddy simulation
JOURNAL OF FLUID MECHANICS
2018; 859: 400–432
View details for DOI 10.1017/jfm.2018.838
View details for Web of Science ID 000450425600014
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Wavelet multiresolution analysis of particle-laden turbulence
PHYSICAL REVIEW FLUIDS
2018; 3 (8)
View details for DOI 10.1103/PhysRevFluids.3.084304
View details for Web of Science ID 000443100500002
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Coherent instability in wall-bounded shear
JOURNAL OF FLUID MECHANICS
2018; 844: 917–55
View details for DOI 10.1017/jfm.2018.202
View details for Web of Science ID 000430068500004
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Annual Review of Fluid Mechanics Introduction
ANNUAL REVIEW OF FLUID MECHANICS, VOL 50
2018; 50: V-VI
View details for Web of Science ID 000424830800001
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Conservative and bounded volume-of-fluid advection on unstructured grids
JOURNAL OF COMPUTATIONAL PHYSICS
2017; 350: 387–419
View details for DOI 10.1016/j.jcp.2017.08.054
View details for Web of Science ID 000413379000020
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Large-Eddy Simulation of Thermally Stratified Atmospheric Boundary-Layer Flow Using a Minimum Dissipation Model.
Boundary-layer meteorology
2017; 165 (3): 405-419
Abstract
A generalized form of a recently developed minimum dissipation model for subfilter turbulent fluxes is proposed and implemented in the simulation of thermally stratified atmospheric boundary-layer flows. Compared with the original model, the generalized model includes the contribution of buoyant forces, in addition to shear, to the production or suppression of turbulence, with a number of desirable practical and theoretical properties. Specifically, the model has a low computational complexity, appropriately switches off in laminar and transitional flows, does not require any ad hoc shear and stability corrections, and is consistent with theoretical subfilter turbulent fluxes. The simulation results show remarkable agreement with well-established empirical correlations, theoretical predictions, and field observations in the atmosphere. In addition, the results show very little sensitivity to the grid resolution, demonstrating the robustness of the model in the simulation of the atmospheric boundary layer, even with relatively coarse resolutions.
View details for DOI 10.1007/s10546-017-0288-4
View details for PubMedID 31631898
View details for PubMedCentralID PMC6800680
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Large-Eddy Simulation of Thermally Stratified Atmospheric Boundary-Layer Flow Using a Minimum Dissipation Model
BOUNDARY-LAYER METEOROLOGY
2017; 165 (3): 405–19
View details for DOI 10.1007/s10546-017-0288-4
View details for Web of Science ID 000415143200002
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Log-layer mismatch and modeling of the fluctuating wall stress in wall-modeled large-eddy simulations.
Physical review fluids
2017; 2 (10)
Abstract
Log-layer mismatch refers to a chronic problem found in wall-modeled large-eddy simulation (WMLES) or detached-eddy simulation, where the modeled wall-shear stress deviates from the true one by approximately 15%. Many efforts have been made to resolve this mismatch. The often-usedfixes, which are generally ad hoc, include modifying subgridscale stress models, adding a stochastic forcing, and moving the LES-wall-model matching location away from the wall. An analysis motivated by the integral wall-model formalism suggests that log-layer mismatch is resolved by the built-in physics-based temporal filtering. In this work we investigate in detail the effects of local filtering on log-layer mismatch. We show that both local temporal filtering and local wall-parallel filtering resolve log-layer mismatch without moving the LES-wall-model matching location away from the wall. Additionally, we look into the momentum balance in the near-wall region to provide an alternative explanation of how LLM occurs, which does not necessarily rely on the numerical-error argument. While filtering resolves log-layer mismatch, the quality of the wall-shear stress fluctuations predicted by WMLES does not improve with our remedy. The wall-shear stress fluctuations are highly underpredicted due to the implied use of LES filtering. However, good agreement can be found when the WMLES data are compared to the direct numerical simulation data filtered at the corresponding WMLES resolutions.
View details for DOI 10.1103/PhysRevFluids.2.104601
View details for PubMedID 31633074
View details for PubMedCentralID PMC6800687
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Large-Eddy Simulation-Based Characterization of Suction and Oscillatory Blowing Fluidic Actuator
AIAA JOURNAL
2017; 55 (8): 2566–79
View details for DOI 10.2514/1.J055445
View details for Web of Science ID 000407400900007
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Transitional-turbulent spots and turbulent-turbulent spots in boundary layers
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
2017; 114 (27): E5292–E5299
Abstract
Two observations drawn from a thoroughly validated direct numerical simulation of the canonical spatially developing, zero-pressure gradient, smooth, flat-plate boundary layer are presented here. The first is that, for bypass transition in the narrow sense defined herein, we found that the transitional-turbulent spot inception mechanism is analogous to the secondary instability of boundary-layer natural transition, namely a spanwise vortex filament becomes a [Formula: see text] vortex and then, a hairpin packet. Long streak meandering does occur but usually when a streak is infected by a nearby existing transitional-turbulent spot. Streak waviness and breakdown are, therefore, not the mechanisms for the inception of transitional-turbulent spots found here. Rather, they only facilitate the growth and spreading of existing transitional-turbulent spots. The second observation is the discovery, in the inner layer of the developed turbulent boundary layer, of what we call turbulent-turbulent spots. These turbulent-turbulent spots are dense concentrations of small-scale vortices with high swirling strength originating from hairpin packets. Although structurally quite similar to the transitional-turbulent spots, these turbulent-turbulent spots are generated locally in the fully turbulent environment, and they are persistent with a systematic variation of detection threshold level. They exert indentation, segmentation, and termination on the viscous sublayer streaks, and they coincide with local concentrations of high levels of Reynolds shear stress, enstrophy, and temperature fluctuations. The sublayer streaks seem to be passive and are often simply the rims of the indentation pockets arising from the turbulent-turbulent spots.
View details for PubMedID 28630304
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An Appreciation of the Life and Work of William C. Reynolds (1933-2004)
ANNUAL REVIEW OF FLUID MECHANICS, VOL 49
2017; 49: 1-21
View details for DOI 10.1146/annurev-fluid-122414-034434
View details for Web of Science ID 000396042600001
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Minimum-dissipation scalar transport model for large-eddy simulation of turbulent flows
PHYSICAL REVIEW FLUIDS
2016; 1 (4)
View details for DOI 10.1103/PhysRevFluids.1.041701
View details for Web of Science ID 000390217100001
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Space-time characteristics of wall-pressure and wall shear-stress fluctuations in wall-modeled large eddy simulation
PHYSICAL REVIEW FLUIDS
2016; 1 (2)
View details for DOI 10.1103/PhysRevFluids.1.024404
View details for Web of Science ID 000390198100001
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Direct numerical simulation of a turbulent hydraulic jump: turbulence statistics and air entrainment
JOURNAL OF FLUID MECHANICS
2016; 797: 60-94
View details for DOI 10.1017/jfm.2016.230
View details for Web of Science ID 000376600800007
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Space-time characteristics of wall-pressure and wall shear-stress fluctuations in wall-modeled large eddy simulation.
Physical review fluids
2016; 1 (2)
Abstract
We report the space-time characteristics of the wall-pressure fluctuations and wall shear-stress fluctuations from wall-modeled large eddy simulation (WMLES) of a turbulent channel flow at Re τ = 2000. Two standard zonal wall models (equilibrium stress model and nonequilibrium model based on unsteady RANS) are employed, and it is shown that they yield similar results in predicting these quantities. The wall-pressure and wall shear-stress fields from WMLES are analyzed in terms of their r.m.s. fluctuations, spectra, two-point correlations, and convection velocities. It is demonstrated that the resolution requirement for predicting the wall-pressure fluctuations is more stringent than that for predicting the velocity. At least δ/Δx > 20 and δ/Δz > 30 are required to marginally resolve the integral length scales of the pressure-producing eddies near the wall. Otherwise, the pressure field is potentially aliased. Spurious high wave number modes dominate in the streamwise direction, and they contaminate the pressure spectra leading to significant overprediction of the second-order pressure statistics. When these conditions are met, the pressure statistics and spectra at low wave number or low frequency agree well with the DNS and experimental data. On the contrary, the wall shear-stress fluctuations, modeled entirely through the RANS-based wall models, are largely underpredicted and relatively insensitive to the grid resolution. The short-time, small-scale near-wall eddies, which are neither resolved nor modeled adequately in the wall models, seem to be important for accurate prediction of the wall shear-stress fluctuations.
View details for DOI 10.1103/PhysRevFluids.1.024404
View details for PubMedID 31633073
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Constant-energetics physical-space forcing methods for improved convergence to homogeneous-isotropic turbulence with application to particle-laden flows
PHYSICS OF FLUIDS
2016; 28 (3)
View details for DOI 10.1063/1.4944629
View details for Web of Science ID 000373600600053
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Numerical aspects and implementation of a two-layer zonal wall model for LES of compressible turbulent flows on unstructured meshes
JOURNAL OF COMPUTATIONAL PHYSICS
2016; 305: 589-603
View details for DOI 10.1016/j.jcp.2015.11.010
View details for Web of Science ID 000366156600030
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On the suitability of second-order accurate discretizations for turbulent flow simulations
EUROPEAN JOURNAL OF MECHANICS B-FLUIDS
2016; 55: 242-245
View details for DOI 10.1016/j.euromechflu.2015.10.006
View details for Web of Science ID 000367763100002
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Accurate interface normal and curvature estimates on three-dimensional unstructured non-convex polyhedral meshes
JOURNAL OF COMPUTATIONAL PHYSICS
2015; 300: 365-386
View details for DOI 10.1016/j.jcp.2015.07.055
View details for Web of Science ID 000361573200020
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Minimum-dissipation models for large-eddy simulation
PHYSICS OF FLUIDS
2015; 27 (8)
View details for DOI 10.1063/1.4928700
View details for Web of Science ID 000360646600037
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Osborne Reynolds pipe flow: Direct simulation from laminar through gradual transition to fully developed turbulence
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
2015; 112 (26): 7920-7924
Abstract
The precise dynamics of breakdown in pipe transition is a century-old unresolved problem in fluid mechanics. We demonstrate that the abruptness and mysteriousness attributed to the Osborne Reynolds pipe transition can be partially resolved with a spatially developing direct simulation that carries weakly but finitely perturbed laminar inflow through gradual rather than abrupt transition arriving at the fully developed turbulent state. Our results with this approach show during transition the energy norms of such inlet perturbations grow exponentially rather than algebraically with axial distance. When inlet disturbance is located in the core region, helical vortex filaments evolve into large-scale reverse hairpin vortices. The interaction of these reverse hairpins among themselves or with the near-wall flow when they descend to the surface from the core produces small-scale hairpin packets, which leads to breakdown. When inlet disturbance is near the wall, certain quasi-spanwise structure is stretched into a Lambda vortex, and develops into a large-scale hairpin vortex. Small-scale hairpin packets emerge near the tip region of the large-scale hairpin vortex, and subsequently grow into a turbulent spot, which is itself a local concentration of small-scale hairpin vortices. This vortex dynamics is broadly analogous to that in the boundary layer bypass transition and in the secondary instability and breakdown stage of natural transition, suggesting the possibility of a partial unification. Under parabolic base flow the friction factor overshoots Moody's correlation. Plug base flow requires stronger inlet disturbance for transition. Accuracy of the results is demonstrated by comparing with analytical solutions before breakdown, and with fully developed turbulence measurements after the completion of transition.
View details for DOI 10.1073/pnas.1509451112
View details for Web of Science ID 000357079400031
View details for PubMedID 26080447
View details for PubMedCentralID PMC4491740
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Reduced-order representation of near-wall structures in the late transitional boundary layer
JOURNAL OF FLUID MECHANICS
2014; 748: 278-301
View details for DOI 10.1017/jfm.2014.184
View details for Web of Science ID 000336808600014
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Subgrid-scale backscatter in reacting and inert supersonic hydrogen-air turbulent mixing layers
JOURNAL OF FLUID MECHANICS
2014; 743: 554-584
View details for DOI 10.1017/jfm.2014.62
View details for Web of Science ID 000332844200024
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An improved dynamic non-equilibrium wall-model for large eddy simulation
PHYSICS OF FLUIDS
2014; 26 (1)
View details for DOI 10.1063/1.4861069
View details for Web of Science ID 000331215200043
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A dynamic slip boundary condition for wall-modeled large-eddy simulation
PHYSICS OF FLUIDS
2014; 26 (1)
View details for DOI 10.1063/1.4849535
View details for Web of Science ID 000331215200039
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Direct numerical simulation of complete H-type and K-type transitions with implications for the dynamics of turbulent boundary layers
JOURNAL OF FLUID MECHANICS
2013; 724: 480-509
View details for DOI 10.1017/jfm.2013.142
View details for Web of Science ID 000318920800021
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On the use of the Ffowcs Williams-Hawkings equation to predict far-field jet noise from large-eddy simulations
INTERNATIONAL JOURNAL OF AEROACOUSTICS
2013; 12 (1-2): 1-20
View details for DOI 10.1260/1475-472X.12.1-2.1
View details for Web of Science ID 000317568200001
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Application of vortex identification schemes to direct numerical simulation data of a transitional boundary layer
PHYSICS OF FLUIDS
2013; 25 (1)
View details for DOI 10.1063/1.4774340
View details for Web of Science ID 000314728200027
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Large eddy simulation of controlled transition to turbulence
PHYSICS OF FLUIDS
2012; 24 (11)
View details for DOI 10.1063/1.4767537
View details for Web of Science ID 000312033200021
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Fundamental and subharmonic transition to turbulence in zero-pressure-gradient flat-plate boundary layers
PHYSICS OF FLUIDS
2012; 24 (9)
View details for DOI 10.1063/1.4744967
View details for Web of Science ID 000309425800004
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Large-Eddy Simulations of Perfectly Expanded Supersonic Jets Using an Unstructured Solver
48th AIAA Aerospace Sciences Meeting
AMER INST AERONAUTICS ASTRONAUTICS. 2012: 1103–18
View details for DOI 10.2514/1.J051211
View details for Web of Science ID 000303365700010
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Verification of variable-density flow solvers using manufactured solutions
JOURNAL OF COMPUTATIONAL PHYSICS
2012; 231 (9): 3801-3827
View details for DOI 10.1016/j.jcp.2012.01.027
View details for Web of Science ID 000302501500018
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Boundary layer turbulence in transitional and developed states
PHYSICS OF FLUIDS
2012; 24 (3)
View details for DOI 10.1063/1.3693146
View details for Web of Science ID 000302224600032
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Grid-point requirements for large eddy simulation: Chapman's estimates revisited
PHYSICS OF FLUIDS
2012; 24 (1)
View details for DOI 10.1063/1.3676783
View details for Web of Science ID 000300527000003
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NOISE PREDICTION OF PRESSURE-MISMATCHED JETS USING UNSTRUCTURED LARGE EDDY SIMULATION
ASME Turbo Expo 2011
AMER SOC MECHANICAL ENGINEERS. 2011: 381–387
View details for Web of Science ID 000320677300034
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Grid-independent large-eddy simulation using explicit filtering
PHYSICS OF FLUIDS
2010; 22 (10)
View details for DOI 10.1063/1.3485774
View details for Web of Science ID 000283748900021
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A high order multivariate approximation scheme for scattered data sets
JOURNAL OF COMPUTATIONAL PHYSICS
2010; 229 (18): 6343-6361
View details for DOI 10.1016/j.jcp.2010.04.047
View details for Web of Science ID 000280251100009
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An adaptive implicit-explicit scheme for the DNS and LES of compressible flows on unstructured grids
JOURNAL OF COMPUTATIONAL PHYSICS
2010; 229 (17): 5944-5965
View details for DOI 10.1016/j.jcp.2010.04.027
View details for Web of Science ID 000279569200008
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Transitional and turbulent boundary layer with heat transfer
PHYSICS OF FLUIDS
2010; 22 (8)
View details for DOI 10.1063/1.3475816
View details for Web of Science ID 000281905900023
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Large-activation-energy theory for premixed combustion under the influence of enthalpy fluctuations
JOURNAL OF FLUID MECHANICS
2010; 655: 3-37
View details for DOI 10.1017/S0022112010000698
View details for Web of Science ID 000280818600002
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Assessment of high-resolution methods for numerical simulations of compressible turbulence with shock waves
JOURNAL OF COMPUTATIONAL PHYSICS
2010; 229 (4): 1213-1237
View details for DOI 10.1016/j.jcp.2009.10.028
View details for Web of Science ID 000274547000013
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Prediction of Sound Generated by Complex Flows at Low Mach Numbers
AIAA JOURNAL
2010; 48 (2): 306-316
View details for DOI 10.2514/1.42583
View details for Web of Science ID 000274803400007
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UNSTRUCTURED LARGE EDDY SIMULATION TECHNOLOGY FOR PREDICTION AND CONTROL OF JET NOISE
ASME Turbo Expo 2010
AMER SOC MECHANICAL ENGINEERS. 2010: 57–70
View details for Web of Science ID 000290692000007
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A RATIONAL INTERPOLATION SCHEME WITH SUPERPOLYNOMIAL RATE OF CONVERGENCE
SIAM JOURNAL ON NUMERICAL ANALYSIS
2010; 47 (6): 4073-4097
View details for DOI 10.1137/080741574
View details for Web of Science ID 000277836100003
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Sources of high-speed jet noise: analysis of LES data and modeling
IUTAM Symposium on Computational Aero-Acoustics for Aircraft Noise Prediction
ELSEVIER SCIENCE BV. 2010: 84–93
View details for DOI 10.1016/j.proeng.2010.09.010
View details for Web of Science ID 000287141600010
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Revisiting Taylor's hypothesis
JOURNAL OF FLUID MECHANICS
2009; 640: 1-4
View details for DOI 10.1017/S0022112009992126
View details for Web of Science ID 000273185500001
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Suitability of artificial bulk viscosity for large-eddy simulation of turbulent flows with shocks
JOURNAL OF COMPUTATIONAL PHYSICS
2009; 228 (19): 7368-7374
View details for DOI 10.1016/j.jcp.2009.06.040
View details for Web of Science ID 000269582300015
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Prediction of wall-pressure fluctuation in turbulent flows with an immersed boundary method
JOURNAL OF COMPUTATIONAL PHYSICS
2009; 228 (18): 6753-6772
View details for DOI 10.1016/j.jcp.2009.05.036
View details for Web of Science ID 000269375000007
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Forest of hairpins in a low-Reynolds-number zero-pressure-gradient flat-plate boundary layer
PHYSICS OF FLUIDS
2009; 21 (9)
View details for DOI 10.1063/1.3205471
View details for Web of Science ID 000270378600006
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Direct numerical simulation of turbulence in a nominally zero-pressure-gradient flat-plate boundary layer
JOURNAL OF FLUID MECHANICS
2009; 630: 5-41
View details for DOI 10.1017/S0022112009006624
View details for Web of Science ID 000268546800003
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Accurate Immersed-Boundary Reconstructions for Viscous Flow Simulations
AIAA JOURNAL
2009; 47 (7): 1750-1760
View details for DOI 10.2514/1.42187
View details for Web of Science ID 000267676100017
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Computational study of optical distortions by separated shear layers and turbulent wakes
JOURNAL OF FLUID MECHANICS
2009; 625: 273-298
View details for DOI 10.1017/S0022112008005697
View details for Web of Science ID 000265801400010
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A dynamic global-coefficient subgrid-scale model for large-eddy simulation of turbulent scalar transport in complex geometries
PHYSICS OF FLUIDS
2009; 21 (4)
View details for DOI 10.1063/1.3115068
View details for Web of Science ID 000266885400037
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Numerical Experiments with Shock-Turbulence Interaction
3rd International Conference on Numerical Modeling of Space Plasma Flows
ASTRONOMICAL SOC PACIFIC. 2009: 31–41
View details for Web of Science ID 000267287200005
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Active Control of Flow Separation Over an Airfoil Using Synthetic Jets
IUTAM Symposium on Unsteady Separated Flows and their Control
SPRINGER. 2009: 551–561
View details for Web of Science ID 000281212900048
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Stochastic modeling of atomizing spray in a complex swirl injector using large eddy simulation
PROCEEDINGS OF THE COMBUSTION INSTITUTE
2009; 32: 2257-2266
View details for DOI 10.1016/j.proci.2008.06.156
View details for Web of Science ID 000264756900074
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MINIMAL REPETITION DYNAMIC CHECKPOINTING ALGORITHM FOR UNSTEADY ADJOINT CALCULATION
SIAM JOURNAL ON SCIENTIFIC COMPUTING
2009; 31 (4): 2549-2567
View details for DOI 10.1137/080727890
View details for Web of Science ID 000268859500007
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Large-eddy simulation of evaporating spray in a coaxial combustor
PROCEEDINGS OF THE COMBUSTION INSTITUTE
2009; 32: 2247-2256
View details for DOI 10.1016/j.proci.2008.05.059
View details for Web of Science ID 000264756900073
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Resolution requirements for aero-optical simulations
JOURNAL OF COMPUTATIONAL PHYSICS
2008; 227 (21): 9008-9020
View details for DOI 10.1016/j.jcp.2008.02.014
View details for Web of Science ID 000260353900003
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Active control of flow separation over an airfoil using synthetic jets
IUTAM Symposium on Unsteady Separated Flows and their Control
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD. 2008: 1349–57
View details for DOI 10.1016/j.jfluidstructs.2008.06.017
View details for Web of Science ID 000261942300021
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Nonlinear evolution of the Richtmyer-Meshkov instability
JOURNAL OF FLUID MECHANICS
2008; 612: 311-338
View details for DOI 10.1017/S0022112008002905
View details for Web of Science ID 000260050300012
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Preface to Special Topic: Turbulence Physics and Control - Papers from a Workshop in Honor of John Kim's 60th Birthday, Stanford, California, September 2007
PHYSICS OF FLUIDS
2008; 20 (10)
View details for DOI 10.1063/1.3005814
View details for Web of Science ID 000260572800001
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Discrete conservation principles in large-eddy simulation with application to separation control over an airfoil
Workshop on Turbulence Physics and Control
AMER INST PHYSICS. 2008
View details for DOI 10.1063/1.3006077
View details for Web of Science ID 000260572800015
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A direct numerical simulation study on the mean velocity characteristics in turbulent pipe flow
JOURNAL OF FLUID MECHANICS
2008; 608: 81-112
View details for DOI 10.1017/S0022112008002085
View details for Web of Science ID 000258201900005
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A Monte Carlo method for solving unsteady adjoint equations
JOURNAL OF COMPUTATIONAL PHYSICS
2008; 227 (12): 6184-6205
View details for DOI 10.1016/j.jcp.2008.03.006
View details for Web of Science ID 000256502100012
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A predictive wall model for large-eddy simulation based on optimal control techniques
PHYSICS OF FLUIDS
2008; 20 (6)
View details for DOI 10.1063/1.2930673
View details for Web of Science ID 000257283800028
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Toward petascale shock/turbulence computations
4th Annual Scientific Discovery Through Advanced Computing Conference (SciDAC 2008)
IOP PUBLISHING LTD. 2008
View details for DOI 10.1088/1742-6596/125/1/012045
View details for Web of Science ID 000260370700046
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Large-eddy simulation analysis of mechanisms for viscous losses in a turbomachinery tip-clearance flow
JOURNAL OF FLUID MECHANICS
2007; 586: 177-204
View details for DOI 10.1017/S0022112007006842
View details for Web of Science ID 000249409500008
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Vortex dynamics and low-pressure fluctuations in the tip-clearance flow
JOURNAL OF FLUIDS ENGINEERING-TRANSACTIONS OF THE ASME
2007; 129 (8): 1002-1014
View details for DOI 10.1115/1.2746911
View details for Web of Science ID 000248969700006
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Effects of hydrophobic surfaces on the drag and lift of a circular cylinder
PHYSICS OF FLUIDS
2007; 19 (8)
View details for DOI 10.1063/1.2756578
View details for Web of Science ID 000249156500001
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A dynamic global-coefficient subgrid-scale eddy-viscosity model for large-eddy simulation in complex geometries
PHYSICS OF FLUIDS
2007; 19 (6)
View details for DOI 10.1063/1.2739419
View details for Web of Science ID 000247625900023
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Trailing-edge noise reduction using derivative-free optimization and large-eddy simulation
JOURNAL OF FLUID MECHANICS
2007; 572: 13-36
View details for DOI 10.1017/S0022112006003235
View details for Web of Science ID 000244434700002
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Complex effects in large eddy simulations
Symposium on Complex Effects in Large Eddy Simulation
SPRINGER. 2007: 1-?
View details for Web of Science ID 000244562300001
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Application of a dynamic global-coefficient subgrid-scale model for large-eddy simulation in complex geometries
5th Joint ASME/JSME Fluids Engineering Summer Conference
AMER SOC MECHANICAL ENGINEERS. 2007: 1429–1437
View details for Web of Science ID 000252340100163
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Numerical Simulations of the bursting of a laminar separation bubble and its relation to airfoil stall
11th EUROMECH European Turbulence Conference
SPRINGER-VERLAG BERLIN. 2007: 712–714
View details for Web of Science ID 000251779600226
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Towards time-stable and accurate LES on unstructured grids
Symposium on Complex Effects in Large Eddy Simulation
SPRINGER. 2007: 235-?
View details for Web of Science ID 000244562300017
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Computational issues and algorithm assessment for shock/turbulence interaction problems
3rd Annual Scientific Discovery through Advanced Computing Conference (SciDAC 2007)
IOP PUBLISHING LTD. 2007
View details for DOI 10.1088/1742-6596/78/1/012014
View details for Web of Science ID 000250667200014
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Statistical description of the free-space propagation of highly aberrated optical beams
JOURNAL OF THE OPTICAL SOCIETY OF AMERICA A-OPTICS IMAGE SCIENCE AND VISION
2006; 23 (12): 3027-3035
Abstract
The free-space propagation of initially aberrated optical beams is considered with an emphasis on aero-optical applications. An exact statistical solution of the paraxial wave equation is derived that can be used to obtain statistics of the beam such as beam center, spread, and higher-order statistics as algebraic functions of propagation distance, wavelength, and statistics of the initial wavefront. Correlations between the proposed description and intensity-based statistics, such as the Strehl ratio, are investigated. It is found that the root-mean-square (rms) of the gradient of the wavefront plays an important role in causing coherence degradation and that the rms of the wavefront error is not always an appropriate measure of the degradation. To illustrate the use of this statistical tool, index of refraction data from a numerical simulation of compressible flow over a cylinder are employed to perform an aero-optical analysis.
View details for Web of Science ID 000242326400005
View details for PubMedID 17106458
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Large-eddy simulations of longitudinal vortices embedded in a turbulent boundary layer
AIAA JOURNAL
2006; 44 (12): 3032-3039
View details for DOI 10.2514/1.22043
View details for Web of Science ID 000242987500023
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Direct numerical simulation of polymer-induced drag reduction in turbulent boundary layer flow of inhomogeneous polymer solutions
JOURNAL OF FLUID MECHANICS
2006; 566: 153-162
View details for DOI 10.1017/S0022112006002321
View details for Web of Science ID 000241996800006
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A quasi-generalized-coordinate approach for numerical simulation of complex flows
JOURNAL OF FLUIDS ENGINEERING-TRANSACTIONS OF THE ASME
2006; 128 (6): 1394-1399
View details for DOI 10.1115/1.2354533
View details for Web of Science ID 000241820900029
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Large-eddy simulation of flow over a wall-mounted hump with separation control
AIAA JOURNAL
2006; 44 (11): 2571-2577
View details for DOI 10.2514/1.21989
View details for Web of Science ID 000241851100018
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Effects of tip-gap size on the tip-leakage flow in a turbomachinery cascade
PHYSICS OF FLUIDS
2006; 18 (10)
View details for DOI 10.1063/1.2354544
View details for Web of Science ID 000241722300031
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Large-eddy simulation of reacting turbulent flows in complex geometries
4th ASME/JSME Joint Fluids Engineering Conference
ASME. 2006: 374–81
View details for DOI 10.1115/1.2179098
View details for Web of Science ID 000237675800005
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Large-eddy simulation of realistic gas turbine combustors
AIAA 42nd Aerospace Sciences Meeting and Exhibit
AMER INST AERONAUTICS ASTRONAUTICS. 2006: 698–708
View details for Web of Science ID 000236752100004
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Analysis of stability and accuracy of finite-difference schemes on a skewed mesh
JOURNAL OF COMPUTATIONAL PHYSICS
2006; 213 (1): 184-204
View details for DOI 10.1016/j.jcp.2005.08.007
View details for Web of Science ID 000235612100008
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Partially reflecting and non-reflecting boundary conditions for simulation of compressible viscous flow
11th International Congress on Sound and Vibration
ACADEMIC PRESS INC ELSEVIER SCIENCE. 2006: 437–49
View details for DOI 10.1016/j..jcp.2005.08.016
View details for Web of Science ID 000235612100019
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Computational study on the internal layer in a diffuser
JOURNAL OF FLUID MECHANICS
2006; 550: 391-412
View details for DOI 10.1017/S0022112005008116
View details for Web of Science ID 000236195700020
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An efficient wall model for large-eddy simulation based on optimal control theory
PHYSICS OF FLUIDS
2006; 18 (2)
View details for DOI 10.1063/1.2166457
View details for Web of Science ID 000235663700011
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Wall modeling for large-eddy simulation of turbulent boundary layers
IUTAM Symposium on One Hundred Years of Boundary Layer Research
SPRINGER. 2006: 269–278
View details for Web of Science ID 000240025700026
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An experimental and numerical investigation of drag reduction in a turbulent boundary layer using a rigid rodlike polymer
PHYSICS OF FLUIDS
2005; 17 (8)
View details for DOI 10.1063/1.1993307
View details for Web of Science ID 000231392000026
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New answers on the interaction between polymers and vortices in turbulent flows
FLOW TURBULENCE AND COMBUSTION
2005; 74 (4): 311-329
View details for DOI 10.1004/s10494-005-9002-6
View details for Web of Science ID 000235281500002
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Direct numerical simulation of polymer-induced drag reduction in turbulent boundary layer flow
PHYSICS OF FLUIDS
2005; 17 (1)
View details for DOI 10.1063/1.1829751
View details for Web of Science ID 000226358000005
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Large-eddy simulation of rotor tip-clearance flows: Computational challenges and accomplishments
Annual Conference on High Performance Computing Modernization Program
IEEE COMPUTER SOC. 2005: 134–141
View details for Web of Science ID 000236397600021
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Vortex dynamics and mechanisms for viscous losses in the tip-clearance flow
ASME Fluids Engineering Division Summer Meeting
AMER SOC MECHANICAL ENGINEERS. 2005: 1601–1610
View details for Web of Science ID 000242485100175
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Outflow conditions for integrated large eddy simulation/Reynolds-averaged Navier-Stokes simulations
AIAA 32nd Fluid Dynamics Conference
AMER INST AERONAUT ASTRONAUT. 2005: 156–64
View details for Web of Science ID 000226317800015
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Higher entropy conservation and numerical stability of compressible turbulence simulations
JOURNAL OF COMPUTATIONAL PHYSICS
2004; 201 (2): 531-545
View details for DOI 10.1016/j.jcp.2004.06.006
View details for Web of Science ID 000225409800007
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Numerical simulation of turbulent drag reduction using rigid fibres
JOURNAL OF FLUID MECHANICS
2004; 518: 281-317
View details for DOI 10.1017/S0022112004001144
View details for Web of Science ID 000225335600012
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Study of tip-clearance flow in turbomachines using large-eddy simulation
COMPUTING IN SCIENCE & ENGINEERING
2004; 6 (6): 38-46
View details for Web of Science ID 000224626000008
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Suppression of vortex-shedding noise via derivative-free shape optimization
PHYSICS OF FLUIDS
2004; 16 (10): L83-L86
View details for DOI 10.1063/1.1786551
View details for Web of Science ID 000223822300001
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On the coherent drag-reducing and turbulence-enhancing behaviour of polymers in wall flows
JOURNAL OF FLUID MECHANICS
2004; 514: 271-280
View details for DOI 10.1017/S0022112004000291
View details for Web of Science ID 000224223600011
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A numerical method for large-eddy simulation in complex geometries
JOURNAL OF COMPUTATIONAL PHYSICS
2004; 197 (1): 215-240
View details for DOI 10.1016/j.jcp.2003.11.031
View details for Web of Science ID 000221833000011
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Optimal aeroacoustic shape design using the surrogate management framework
OPTIMIZATION AND ENGINEERING
2004; 5 (2): 235-262
View details for Web of Science ID 000227173000008
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Large-eddy simulation of conductive flows at low magnetic Reynolds number
PHYSICS OF FLUIDS
2004; 16 (5): 1255-1261
View details for DOI 10.1063/1.1651484
View details for Web of Science ID 000220832600011
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Simulated polymer stretch in a turbulent flow using Brownian dynamics
JOURNAL OF FLUID MECHANICS
2004; 504: 61-71
View details for DOI 10.1017/S0022112004008250
View details for Web of Science ID 000221274000003
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Progress-variable approach for large-eddy simulation of non-premixed turbulent combustion
JOURNAL OF FLUID MECHANICS
2004; 504: 73-97
View details for DOI 10.1017/S0022112004008213
View details for Web of Science ID 000221274000004
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Large eddy simulation inflow conditions for coupling with Reynolds-averaged flow solvers
AIAA 41st Aerospace Sciences Meeting and Exhibit
AMER INST AERONAUT ASTRONAUT. 2004: 478–84
View details for Web of Science ID 000220234900006
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Computational methodology for large-eddy simulation of tip-clearance flows
AIAA JOURNAL
2004; 42 (2): 271-279
View details for Web of Science ID 000189147700010
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Prediction and analysis of rotor tip-clearance flows using large-eddy simulation
Users Group Conference
IEEE COMPUTER SOC. 2004: 158–165
View details for Web of Science ID 000226863200023
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Large-eddy simulation of multiphase flows in complex combustors
2nd International Conference on Computational Methods in Multiphase Flow
WIT PRESS. 2004: 53–62
View details for Web of Science ID 000222919300006
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Large eddy simulation of multi-phase turbulent flows in realistic combustors
Workshop on Trends in Numerical and Physical Modelling for Turbulent Processes in Gas Trubine Combustors
INDERSCIENCE ENTERPRISES LTD. 2004: 237–40
View details for Web of Science ID 000223765200012
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Combustion instability due to the nonlinear interaction between sound and flame
JOURNAL OF FLUID MECHANICS
2003; 497: 23-53
View details for DOI 10.1017/S0022112003006554
View details for Web of Science ID 000189114600002
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LES of atomizing spray with stochastic modeling of secondary breakup
INTERNATIONAL JOURNAL OF MULTIPHASE FLOW
2003; 29 (9): 1503-1522
View details for DOI 10.1016/S0301-9322(03)00111-3
View details for Web of Science ID 000185317400008
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Numerical simulation of the flow around a circular cylinder at high Reynolds numbers
5th International Symposium on Engineering Turbulence Modelling and Measurements
ELSEVIER SCIENCE INC. 2003: 463–69
View details for DOI 10.1016/S0142-727X(03)00061-4
View details for Web of Science ID 000183511800006
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Large-eddy simulation of swirling particle-laden flows in a coaxial-jet combustor
INTERNATIONAL JOURNAL OF MULTIPHASE FLOW
2003; 29 (8): 1311-1331
View details for DOI 10.1016/S0301-9322(03)00104-6
View details for Web of Science ID 000184675200007
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Thermal conduction in magnetized turbulent gas
ASTROPHYSICAL JOURNAL
2003; 589 (2): L77-L80
View details for Web of Science ID 000183043400005
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A further study of numerical errors in large-eddy simulations
JOURNAL OF COMPUTATIONAL PHYSICS
2003; 184 (2): 366-380
View details for Web of Science ID 000181402800002
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A numerical method for large-eddy simulation in complex geometries
2nd MIT Conference on Computational Fluid and Solid Mechanics
ELSEVIER SCIENCE BV. 2003: 23–30
View details for Web of Science ID 000184938200006
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Large-eddy simulation and analysis of tip-clearance flows in turbomachinery applications
Users Group 2003 Conference
IEEE COMPUTER SOC. 2003: 180–187
View details for Web of Science ID 000189408300023
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Large eddy simulation of a road vehicle with drag-reduction devices
AIAA JOURNAL
2002; 40 (12): 2447-2455
View details for Web of Science ID 000179662000009
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Advances in large eddy simulation methodology for complex flows
INTERNATIONAL JOURNAL OF HEAT AND FLUID FLOW
2002; 23 (5): 710-720
View details for Web of Science ID 000176511800019
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A semi-implicit method for resolution of acoustic waves in low Mach number flows
JOURNAL OF COMPUTATIONAL PHYSICS
2002; 181 (2): 545-563
View details for DOI 10.1006/jcph.2002.7141
View details for Web of Science ID 000178141700009
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Dynamic wall modeling for large-eddy simulation of complex turbulent flows
PHYSICS OF FLUIDS
2002; 14 (7): 2043-2051
View details for DOI 10.1063/1.1476668
View details for Web of Science ID 000176549000005
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A numerical method to simulate radio-frequency plasma discharges
JOURNAL OF COMPUTATIONAL PHYSICS
2002; 176 (2): 402-429
View details for DOI 10.1006/jcph.2001.6994
View details for Web of Science ID 000174304500008
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Construction of commutative filters for LES on unstructured meshes
JOURNAL OF COMPUTATIONAL PHYSICS
2002; 175 (2): 584-603
View details for DOI 10.1006/jcph.2001.6958
View details for Web of Science ID 000173796900010
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Numerical simulation of the flow around a circular cylinder at high Reynolds number
5th International Symposium on Engineering Turbulence Modelling and Measurements
ELSEVIER SCIENCE BV. 2002: 657–665
View details for Web of Science ID 000178612700062
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Progress in control of mixing and large eddy simulation of turbulent combustion
IUTAM Symposium on Turbulent Mixing and Combustion
SPRINGER. 2002: 305–314
View details for Web of Science ID 000179768300027
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DNS-based predictive control of turbulence: an optimal benchmark for feedback algorithms
JOURNAL OF FLUID MECHANICS
2001; 447: 179-225
View details for Web of Science ID 000172239700009
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Large eddy simulation wall-modeling based on suboptimal control theory and linear stochastic estimation
PHYSICS OF FLUIDS
2001; 13 (10): 2968-2984
View details for Web of Science ID 000171228100022
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Computation of trailing-edge flow and noise using large-Eddy simulation
3rd ASME/JSME Joint Fluids Engineering Conference, FEDSM99-7231
AMER INST AERONAUT ASTRONAUT. 2000: 2201–9
View details for Web of Science ID 000165568500001
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Numerical simulation of a Mach 1.92 turbulent jet and its sound field
AIAA/CEAS 4th Aeroacoustics Conference
AMER INST AERONAUT ASTRONAUT. 2000: 2023–31
View details for Web of Science ID 000165136400004
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Compressibility effects in a turbulent annular mixing layer. Part 2. Mixing of a passive scalar
JOURNAL OF FLUID MECHANICS
2000; 421: 269-292
View details for Web of Science ID 000165275100009
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Compressibility effects in a turbulent annular mixing layer. Part 1. Turbulence and growth rate
JOURNAL OF FLUID MECHANICS
2000; 421: 229-267
View details for Web of Science ID 000165275100008
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Jet mixing enhancement by high-amplitude fluidic actuation
AIAA JOURNAL
2000; 38 (10): 1863-1870
View details for Web of Science ID 000089559800010
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An evaluation of the assumed beta probability density function subgrid-scale model for large eddy simulation of nonpremixed, turbulent combustion with heat release
PHYSICS OF FLUIDS
2000; 12 (10): 2522-2529
View details for Web of Science ID 000089171000015
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Numerical studies of flow over a circular cylinder at Re-D=3900
PHYSICS OF FLUIDS
2000; 12 (2): 403-417
View details for Web of Science ID 000084598800019
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Large eddy simulation of turbulent, nonpremixed combustion
8th European Turbulence Conference
INT CENTER NUMERICAL METHODS ENGINEERING. 2000: 385–392
View details for Web of Science ID 000181074800087
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Approximate wall boundary conditions in the large-eddy simulation of high reynolds number flow
FLOW TURBULENCE AND COMBUSTION
2000; 63 (1-4): 269-291
View details for Web of Science ID 000089121600014
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Space-time characteristics of the wall shear-stress fluctuations in a low-Reynolds-number channel flow
PHYSICS OF FLUIDS
1999; 11 (10): 3084-3094
View details for Web of Science ID 000082405300031
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Study of flow in a planar asymmetric diffuser using large-eddy simulation
JOURNAL OF FLUID MECHANICS
1999; 390: 151-185
View details for Web of Science ID 000081736400007
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B-spline method and zonal grids for simulations of complex turbulent flows
JOURNAL OF COMPUTATIONAL PHYSICS
1999; 151 (2): 757-789
View details for Web of Science ID 000080452600014
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Direct computation of the sound generated by vortex pairing in an axisymmetric jet
JOURNAL OF FLUID MECHANICS
1999; 383: 113-142
View details for Web of Science ID 000079765300005
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Control of turbulent flows
18th IFIP TC7 Conference on Systems Modelling and Optimization
CRC PRESS-TAYLOR & FRANCIS GROUP. 1999: 3–11
View details for Web of Science ID 000079751700001
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The structure of wall-pressure fluctuations in turbulent boundary layers with adverse pressure gradient and separation
JOURNAL OF FLUID MECHANICS
1998; 377: 347-373
View details for Web of Science ID 000078321100014
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A dynamic model for subgrid-scale variance and dissipation rate of a conserved scalar
PHYSICS OF FLUIDS
1998; 10 (12): 3041-3044
View details for Web of Science ID 000077151600003
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Direct numerical simulation of a separated turbulent boundary layer
JOURNAL OF FLUID MECHANICS
1998; 374: 379-405
View details for Web of Science ID 000077142900014
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A general class of commutative filters for LES in complex geometries
JOURNAL OF COMPUTATIONAL PHYSICS
1998; 146 (1): 82-104
View details for Web of Science ID 000076448100004
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Direct numerical simulation of a separated turbulent boundary layer
JOURNAL OF FLUID MECHANICS
1998; 370: 175-201
View details for Web of Science ID 000076253600007
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Observed mechanisms for turbulence attenuation and enhancement in opposition-controlled wall-bounded flows
PHYSICS OF FLUIDS
1998; 10 (9): 2421-2423
View details for Web of Science ID 000075604300040
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Method for generating equilibrium swirling inflow conditions
AIAA JOURNAL
1998; 36 (7): 1325-1327
View details for Web of Science ID 000077516900027
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Fully conservative higher order finite difference schemes for incompressible flow
JOURNAL OF COMPUTATIONAL PHYSICS
1998; 143 (1): 90-124
View details for Web of Science ID 000074169200005
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Numerical and physical issues in large eddy simulation of turbulent flows
JSME INTERNATIONAL JOURNAL SERIES B-FLUIDS AND THERMAL ENGINEERING
1998; 41 (2): 454-463
View details for Web of Science ID 000074544900027
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Direct numerical simulation: A tool in turbulence research
ANNUAL REVIEW OF FLUID MECHANICS
1998; 30: 539-578
View details for Web of Science ID 000071880700019
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Direct computation of Mach wave radiation in an axisymmetric supersonic jet
AIAA JOURNAL
1997; 35 (10): 1574-1580
View details for Web of Science ID A1997XZ32000003
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Suitability of upwind-biased finite difference schemes for Large-Eddy simulation of turbulent flows
AIAA JOURNAL
1997; 35 (8): 1415-1417
View details for Web of Science ID A1997XN77600020
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Interaction of isotropic turbulence with shock waves: Effect of shock strength
JOURNAL OF FLUID MECHANICS
1997; 340: 225-247
View details for Web of Science ID A1997XF40100009
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The influence of entropy fluctuations on the interaction of turbulence with a shock wave
JOURNAL OF FLUID MECHANICS
1997; 334: 353-379
View details for Web of Science ID A1997WR67900013
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On the effect of numerical errors in large eddy simulations of turbulent flows
JOURNAL OF COMPUTATIONAL PHYSICS
1997; 131 (2): 310-322
View details for Web of Science ID A1997WL60900005
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Sound generation in a mixing layer
JOURNAL OF FLUID MECHANICS
1997; 330: 375-409
View details for Web of Science ID A1997WG78700016
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Direct numerical simulation of turbulent flow over a backward-facing step
JOURNAL OF FLUID MECHANICS
1997; 330: 349-374
View details for Web of Science ID A1997WG78700015
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Tackling turbulence with supercomputers
SCIENTIFIC AMERICAN
1997; 276 (1): 62-68
View details for Web of Science ID A1997VY02200026
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Computation of quadrupole noise using acoustic analogy
AIAA JOURNAL
1996; 34 (11): 2247-2254
View details for Web of Science ID A1996VQ10800004
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Zonal embedded grids for numerical simulations of wall-bounded turbulent flows
JOURNAL OF COMPUTATIONAL PHYSICS
1996; 127 (2): 412-423
View details for Web of Science ID A1996VF91200013
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Sound radiation during local laminar breakdown in a low-Mach-number boundary layer
JOURNAL OF FLUID MECHANICS
1996; 319: 197-218
View details for Web of Science ID A1996VD01300009
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Large-eddy simulation of a concave wall boundary layer
10th Symposium on Turbulent Shear Flows
ELSEVIER SCIENCE INC. 1996: 290–95
View details for Web of Science ID A1996UZ63700014
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Large-eddy simulation of turbulent confined coannular jets
JOURNAL OF FLUID MECHANICS
1996; 315: 387-411
View details for Web of Science ID A1996UQ48800018
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An efficient method for temporal integration of the Navier-Stokes equations in confined axisymmetric geometries
JOURNAL OF COMPUTATIONAL PHYSICS
1996; 125 (2): 454-463
View details for Web of Science ID A1996UJ96500014
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THE INTERACTION OF AN ISOTROPIC FIELD OF ACOUSTIC-WAVES WITH A SHOCK-WAVE
JOURNAL OF FLUID MECHANICS
1995; 300: 383-407
View details for Web of Science ID A1995TD01400016
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SHEAR-FREE TURBULENT BOUNDARY-LAYERS .2. NEW CONCEPTS FOR REYNOLDS STRESS TRANSPORT-EQUATION MODELING OF INHOMOGENEOUS FLOWS
JOURNAL OF FLUID MECHANICS
1995; 295: 229-245
View details for Web of Science ID A1995RM81600009
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SHEAR-FREE TURBULENT BOUNDARY-LAYERS .1. PHYSICAL INSIGHTS INTO NEAR-WALL TURBULENCE
JOURNAL OF FLUID MECHANICS
1995; 295: 199-227
View details for Web of Science ID A1995RM81600008
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THE BASIC EQUATIONS FOR THE LARGE-EDDY SIMULATION OF TURBULENT FLOWS IN COMPLEX-GEOMETRY
JOURNAL OF COMPUTATIONAL PHYSICS
1995; 118 (1): 24-37
View details for Web of Science ID A1995QT07900003
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A DYNAMIC LOCALIZATION MODEL FOR LARGE-EDDY SIMULATION OF TURBULENT FLOWS
JOURNAL OF FLUID MECHANICS
1995; 286: 229-255
View details for Web of Science ID A1995QM52300010
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ON THE REPRESENTATION OF BACKSCATTER IN DYNAMIC LOCALIZATION MODELS
PHYSICS OF FLUIDS
1995; 7 (3): 606-616
View details for Web of Science ID A1995QH87100013
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DIRECT COMPUTATION OF THE SOUND FROM A COMPRESSIBLE CO-ROTATING VORTEX PAIR
JOURNAL OF FLUID MECHANICS
1995; 285: 181-202
View details for Web of Science ID A1995QK09100008
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EFFECTS OF CONVEX TRANSVERSE CURVATURE ON WALL-BOUNDED TURBULENCE .1. THE VELOCITY AND VORTICITY
JOURNAL OF FLUID MECHANICS
1994; 272: 349-381
View details for Web of Science ID A1994PC92400015
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EFFECTS OF CONVEX TRANSVERSE CURVATURE ON WALL-BOUNDED TURBULENCE .2. THE PRESSURE-FLUCTUATIONS
JOURNAL OF FLUID MECHANICS
1994; 272: 383-406
View details for Web of Science ID A1994PC92400016
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EFFECTS OF THE COMPUTATIONAL TIME-STEP ON NUMERICAL-SOLUTIONS OF TURBULENT-FLOW
JOURNAL OF COMPUTATIONAL PHYSICS
1994; 113 (1): 1-4
View details for Web of Science ID A1994NR92800001
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ACTIVE TURBULENCE CONTROL FOR DRAG REDUCTION IN WALL-BOUNDED FLOWS
JOURNAL OF FLUID MECHANICS
1994; 262: 75-110
View details for Web of Science ID A1994ND14300003
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THE SCATTERING OF SOUND-WAVES BY A VORTEX - NUMERICAL SIMULATIONS AND ANALYTICAL SOLUTIONS
JOURNAL OF FLUID MECHANICS
1994; 260: 271-298
View details for Web of Science ID A1994MZ16300011
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THE RESPONSE OF ANISOTROPIC TURBULENCE TO RAPID HOMOGENEOUS ONE-DIMENSIONAL COMPRESSION
Symposium on Turbulence, in honor of the 60th Birthday of William Craig Reynolds
AMER INST PHYSICS. 1994: 1052–62
View details for Web of Science ID A1994NA73900031
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IN HONOR OF REYNOLDS,WILLIAM,CRAIG ON THE OCCASION OF HIS 60TH BIRTHDAY
PHYSICS OF FLUIDS
1994; 6 (2): R3-R3
View details for Web of Science ID A1994NA73900001
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DIRECT NUMERICAL-SIMULATION OF TRANSITION AND TURBULENCE IN A SPATIALLY EVOLVING BOUNDARY-LAYER
JOURNAL OF COMPUTATIONAL PHYSICS
1993; 109 (2): 169-192
View details for Web of Science ID A1993ML31400003
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ON THE RELATION OF NEAR-WALL STREAMWISE VORTICES TO WALL SKIN FRICTION IN TURBULENT BOUNDARY-LAYERS
PHYSICS OF FLUIDS A-FLUID DYNAMICS
1993; 5 (12): 3307-3309
View details for Web of Science ID A1993MJ05800035
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DIRECT NUMERICAL-SIMULATION OF TURBULENT-FLOW OVER RIBLETS
JOURNAL OF FLUID MECHANICS
1993; 255: 503-539
View details for Web of Science ID A1993MF29800022
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BOUNDARY-CONDITIONS FOR DIRECT COMPUTATION OF AERODYNAMIC SOUND GENERATION
AIAA JOURNAL
1993; 31 (9): 1574-1582
View details for Web of Science ID A1993LU62500005
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FEEDBACK-CONTROL FOR UNSTEADY-FLOW AND ITS APPLICATION TO THE STOCHASTIC BURGERS-EQUATION
JOURNAL OF FLUID MECHANICS
1993; 253: 509-543
View details for Web of Science ID A1993LV21200020
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DIRECT NUMERICAL-SIMULATION OF ISOTROPIC TURBULENCE INTERACTING WITH A WEAK SHOCK-WAVE
JOURNAL OF FLUID MECHANICS
1993; 251: 533-562
View details for Web of Science ID A1993LK38200021
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PROSPECTS OF PHYSICAL AND NUMERICAL EXPERIMENTS FOR THE FUNDAMENTAL UNDERSTANDING OF TURBULENCE
Colloquium on New Approaches and Concepts in Turbulence
BIRKHAUSER VERLAG. 1993: 395–398
View details for Web of Science ID A1993BA12J00022
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THE DIMENSION OF ATTRACTORS UNDERLYING PERIODIC TURBULENT POISEUILLE FLOW
JOURNAL OF FLUID MECHANICS
1992; 242: 1-29
View details for Web of Science ID A1992JR63200001
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SIMULATION OF SPATIALLY EVOLVING TURBULENCE AND THE APPLICABILITY OF TAYLOR HYPOTHESIS IN COMPRESSIBLE FLOW
PHYSICS OF FLUIDS A-FLUID DYNAMICS
1992; 4 (7): 1521-1530
View details for Web of Science ID A1992HZ84200018
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THE COMPUTATION OF TURBULENCE
AEROSPACE AMERICA
1992; 30 (1): 42-46
View details for Web of Science ID A1992GZ22500010
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A DYNAMIC SUBGRID-SCALE MODEL FOR COMPRESSIBLE TURBULENCE AND SCALAR TRANSPORT
PHYSICS OF FLUIDS A-FLUID DYNAMICS
1991; 3 (11): 2746-2757
View details for Web of Science ID A1991GL82900028
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THE FREE COMPRESSIBLE VISCOUS VORTEX
JOURNAL OF FLUID MECHANICS
1991; 230: 45-73
View details for Web of Science ID A1991GH08800002
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DIRECT SIMULATIONS OF TURBULENT-FLOW USING FINITE-DIFFERENCE SCHEMES
JOURNAL OF COMPUTATIONAL PHYSICS
1991; 96 (1): 15-53
View details for Web of Science ID A1991GA36600002
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ON THE EFFECT OF RIBLETS IN FULLY-DEVELOPED LAMINAR CHANNEL FLOWS
PHYSICS OF FLUIDS A-FLUID DYNAMICS
1991; 3 (8): 1892-1896
View details for Web of Science ID A1991FY79500007
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A DYNAMIC SUBGRID-SCALE EDDY VISCOSITY MODEL
PHYSICS OF FLUIDS A-FLUID DYNAMICS
1991; 3 (7): 1760-1765
View details for Web of Science ID A1991GM59400010
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SUBGRID-SCALE BACKSCATTER IN TURBULENT AND TRANSITIONAL FLOWS
PHYSICS OF FLUIDS A-FLUID DYNAMICS
1991; 3 (7): 1766-1771
View details for Web of Science ID A1991GM59400011
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TOWARDS LARGE EDDY AND DIRECT SIMULATION OF COMPLEX TURBULENT FLOWS
SYMP ON RECENT DEVELOPMENTS IN LARGE-SCALE COMPUTATIONAL FLUID DYNAMICS
ELSEVIER SCIENCE SA. 1991: 329–34
View details for Web of Science ID A1991FU64300011
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EDDY SHOCKLETS IN DECAYING COMPRESSIBLE TURBULENCE
PHYSICS OF FLUIDS A-FLUID DYNAMICS
1991; 3 (4): 657-664
View details for Web of Science ID A1991FE06000018
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THE MINIMAL FLOW UNIT IN NEAR-WALL TURBULENCE
JOURNAL OF FLUID MECHANICS
1991; 225: 213-240
View details for Web of Science ID A1991FK16100009
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AN IMPROVEMENT OF FRACTIONAL STEP METHODS FOR THE INCOMPRESSIBLE NAVIER-STOKES EQUATIONS
JOURNAL OF COMPUTATIONAL PHYSICS
1991; 92 (2): 369-379
View details for Web of Science ID A1991EY61900006
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Large Eddy Simulation of the Flow in a Transpired Channel
JOURNAL OF THERMOPHYSICS AND HEAT TRANSFER
1991; 5 (1): 124-128
View details for Web of Science ID 000208449100021
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DIRECT NUMERICAL-SIMULATION OR EXPERIMENTS - DISCUSSION
NATO ADVANCED RESEARCH WORKSHOP ON THE GLOBAL GEOMETRY OF TURBULENCE
PLENUM PRESS DIV PLENUM PUBLISHING CORP. 1991: 331–339
View details for Web of Science ID A1991BV17R00030
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DIRECT NUMERICAL-SIMULATION OF TRANSITION AND TURBULENCE IN A SPATIALLY EVOLVING BOUNDARY-LAYER
10TH CONF ON COMPUTATIONAL FLUID DYNAMICS
AMER INST AERONAUTICS & ASTRONAUTICS. 1991: 890–914
View details for Web of Science ID A1991BW14N00078
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THE STRUCTURE OF 2-DIMENSIONAL SEPARATION
JOURNAL OF FLUID MECHANICS
1990; 220: 397-411
View details for Web of Science ID A1990EK87500015
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DIRECT NUMERICAL-SIMULATION OF A 3-DIMENSIONAL TURBULENT BOUNDARY-LAYER
PHYSICS OF FLUIDS A-FLUID DYNAMICS
1990; 2 (10): 1846-1853
View details for Web of Science ID A1990EB50600016
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ON THE SPACE-TIME CHARACTERISTICS OF WALL-PRESSURE FLUCTUATIONS
PHYSICS OF FLUIDS A-FLUID DYNAMICS
1990; 2 (8): 1450-1460
View details for Web of Science ID A1990DQ43900016
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STRUCTURE OF TURBULENCE AT HIGH SHEAR RATE
JOURNAL OF FLUID MECHANICS
1990; 216: 561-583
View details for Web of Science ID A1990DQ88000022
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THE POTENTIAL AND LIMITATIONS OF DIRECT AND LARGE EDDY SIMULATIONS - DISCUSSION
WORKSHOP ON WHITHER TURBULENCE : TURBULENCE AT THE CROSSROADS
SPRINGER-VERLAG BERLIN. 1990: 374–393
View details for Web of Science ID A1990BR14X00021
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APPLICATIONS OF CHAOS THEORY TO SHEAR TURBULENCE
1989 ANNUAL MEETING OF THE AMERICAN ASSOC FOR THE ADVANCEMENT OF SCIENCE
AMER ASSOC ADVANCEMENT SCIENCE. 1990: 56–63
View details for Web of Science ID A1990BS06M00006
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UTILITY OF DYNAMIC-SYSTEMS APPROACH - DISCUSSION
WORKSHOP ON WHITHER TURBULENCE : TURBULENCE AT THE CROSSROADS
SPRINGER-VERLAG BERLIN. 1990: 292–305
View details for Web of Science ID A1990BR14X00015
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WHAT CAN WE HOPE FOR FROM CELLULAR AUTOMATA - DISCUSSION
WORKSHOP ON WHITHER TURBULENCE : TURBULENCE AT THE CROSSROADS
SPRINGER-VERLAG BERLIN. 1990: 426–435
View details for Web of Science ID A1990BR14X00025
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THE ROLE OF COHERENT STRUCTURES - DISCUSSION
WORKSHOP ON WHITHER TURBULENCE : TURBULENCE AT THE CROSSROADS
SPRINGER-VERLAG BERLIN. 1990: 170–191
View details for Web of Science ID A1990BR14X00010
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NEAR-WALL kappa-epsilon-TURBULENCE MODELING
AIAA JOURNAL
1989; 27 (8): 1068-1073
View details for Web of Science ID A1989AH12700013
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NEW APPROXIMATE BOUNDARY-CONDITIONS FOR LARGE EDDY SIMULATIONS OF WALL-BOUNDED FLOWS
PHYSICS OF FLUIDS A-FLUID DYNAMICS
1989; 1 (6): 1061-1068
View details for Web of Science ID A1989U807600020
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CHARACTERISTIC-EDDY DECOMPOSITION OF TURBULENCE IN A CHANNEL
JOURNAL OF FLUID MECHANICS
1989; 200: 471-509
View details for Web of Science ID A1989U146300022
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REYNOLDS-STRESS AND DISSIPATION-RATE BUDGETS IN A TURBULENT CHANNEL FLOW
JOURNAL OF FLUID MECHANICS
1988; 194: 15-44
View details for Web of Science ID A1988Q286300002
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KARHUNEN-LOEVE EXPANSION OF BURGERS MODEL OF TURBULENCE
PHYSICS OF FLUIDS
1988; 31 (9): 2573-2582
View details for Web of Science ID A1988P944700023
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MODEL CONSISTENCY IN LARGE EDDY SIMULATION OF TURBULENT CHANNEL FLOWS
PHYSICS OF FLUIDS
1988; 31 (7): 1884-1891
View details for Web of Science ID A1988P322700009
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EJECTION MECHANISMS IN THE SUBLAYER OF A TURBULENT CHANNEL
PHYSICS OF FLUIDS
1988; 31 (6): 1311-1313
View details for Web of Science ID A1988P125100001
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STOCHASTIC ESTIMATION OF ORGANIZED TURBULENT STRUCTURE - HOMOGENEOUS SHEAR-FLOW
JOURNAL OF FLUID MECHANICS
1988; 190: 531-559
View details for Web of Science ID A1988N782800027
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HELICITY FLUCTUATIONS IN INCOMPRESSIBLE TURBULENT FLOWS
PHYSICS OF FLUIDS
1987; 30 (9): 2662-2671
View details for Web of Science ID A1987K105800010
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TURBULENCE STATISTICS IN FULLY-DEVELOPED CHANNEL FLOW AT LOW REYNOLDS-NUMBER
JOURNAL OF FLUID MECHANICS
1987; 177: 133-166
View details for Web of Science ID A1987H239500008
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THE STRUCTURE OF THE VORTICITY FIELD IN HOMOGENEOUS TURBULENT FLOWS
JOURNAL OF FLUID MECHANICS
1987; 176: 33-66
View details for Web of Science ID A1987G648800002
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THE EFFECTS OF CURVATURE IN WALL-BOUNDED TURBULENT FLOWS
JOURNAL OF FLUID MECHANICS
1987; 175: 479-510
View details for Web of Science ID A1987G162400023
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EVOLUTION OF A CURVED VORTEX FILAMENT INTO A VORTEX RING
PHYSICS OF FLUIDS
1986; 29 (4): 955-963
View details for Web of Science ID A1986A817800010
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THE STRUCTURE OF THE VORTICITY FIELD IN TURBULENT CHANNEL FLOW .2. STUDY OF ENSEMBLE-AVERAGED FIELDS
JOURNAL OF FLUID MECHANICS
1986; 162: 339-363
View details for Web of Science ID A1986AZK0100019
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APPLICATION OF A FRACTIONAL-STEP METHOD TO INCOMPRESSIBLE NAVIER-STOKES EQUATIONS
JOURNAL OF COMPUTATIONAL PHYSICS
1985; 59 (2): 308-323
View details for Web of Science ID A1985ALK3900009
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THE STRUCTURE OF THE VORTICITY FIELD IN TURBULENT CHANNEL FLOW .1. ANALYSIS OF INSTANTANEOUS FIELDS AND STATISTICAL CORRELATIONS
JOURNAL OF FLUID MECHANICS
1985; 155 (JUN): 441-464
View details for Web of Science ID A1985ALU3300021
- Numerical Simulation of Turbulent Flows @book{ book3, title={Fundamentals of Engineering Numerical Analysis},publisher={Cambridge},year={2010},edition={2},volume={},series={},doi={},allauthors={},author={}} Annual Rev. of Fluid Mech 1984; 116: 99-137
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A SPECTRAL NUMERICAL-METHOD FOR THE NAVIER-STOKES EQUATIONS WITH APPLICATIONS TO TAYLOR-COUETTE FLOW
JOURNAL OF COMPUTATIONAL PHYSICS
1983; 52 (3): 524-544
View details for Web of Science ID A1983RV81900006
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NUMERICAL INVESTIGATION OF TURBULENT CHANNEL FLOW
JOURNAL OF FLUID MECHANICS
1982; 118 (MAY): 341-377
View details for Web of Science ID A1982NU70500019
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ON THE NUMERICAL-SOLUTION OF TIME-DEPENDENT VISCOUS INCOMPRESSIBLE FLUID-FLOWS INVOLVING SOLID BOUNDARIES
JOURNAL OF COMPUTATIONAL PHYSICS
1980; 35 (3): 381-392
View details for Web of Science ID A1980JS75900005
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INVESTIGATION OF FLOW STRUCTURE IN THE WALL REGION OF TURBULENT BOUNDARY-LAYERS VIA A NUMERICAL-SIMULATION
AMER INST PHYSICS. 1980: 1103–
View details for Web of Science ID A1980KP44100221
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3-DIMENSIONAL TIME-DEPENDENT CALCULATION OF TURBULENT CHANNEL FLOW
AMER INST PHYSICS. 1980: 1083–83
View details for Web of Science ID A1980KP44100093
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LARGE EDDY SIMULATIONS OF TURBULENT CHANNEL FLOW
AMER INST PHYSICS. 1978: 989–89
View details for Web of Science ID A1978FV34400012
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PROGRESS IN LARGE EDDY SIMULATION
AMER INST PHYSICS. 1976: 1229–29
View details for Web of Science ID A1976CK63900072