ProfessorsProfessors of Stanford UniversityParviz Moin

Parviz Moin

Stanford University

H-index: 125

North America-United States

About Parviz Moin

Parviz Moin, With an exceptional h-index of 125 and a recent h-index of 70 (since 2020), a distinguished researcher at Stanford University, specializes in the field of Turbulent flows, Fluid Mechanics, Turbulence, Computational Fluid Dynamics.

His recent articles reflect a diverse array of research interests and contributions to the field:

Stable, entropy-consistent, and localized artificial-diffusivity method for capturing discontinuities

Large-eddy simulations of the NACA23012 airfoil with laser-scanned ice shapes

Are the dynamics of wall turbulence in minimal channels and larger domain channels equivalent? A graph-theoretic approach

Large-eddy simulations of the CRM65 swept wing under real and artificial icing conditions

Slip-Wall-Modeled Large-Eddy Simulation for Prediction of Turbulent Smooth-Body Separation

Navier-Stokes characteristic boundary conditions for high-enthalpy compressible flows in thermochemical non-equilibrium

Wind tunnel and grid resolution effects in large-eddy simulations of the high-lift common research model

An extension of Thwaites method for turbulent boundary layers

Parviz Moin Information

University	Stanford University
Position	___
Citations(all)	89596
Citations(since 2020)	23188
Cited By	75296
hIndex(all)	125
hIndex(since 2020)	70
i10Index(all)	363
i10Index(since 2020)	242
Email	Access Email
University Profile Page	Stanford University
Google Scholar	View Google Scholar Profile

Parviz Moin Skills & Research Interests

Turbulent flows

Fluid Mechanics

Turbulence

Computational Fluid Dynamics

Top articles of Parviz Moin

Title	Journal	Author(s)	Publication Date
Stable, entropy-consistent, and localized artificial-diffusivity method for capturing discontinuities	Physical Review Fluids	Suhas S Jain Rahul Agrawal Parviz Moin	2024/2/29
Large-eddy simulations of the NACA23012 airfoil with laser-scanned ice shapes	Aerospace Science and Technology	Brett Bornhoft Suhas S Jain Konrad Goc Sanjeeb T Bose Parviz Moin	2024/2/8
Are the dynamics of wall turbulence in minimal channels and larger domain channels equivalent? A graph-theoretic approach	arXiv preprint arXiv:2401.07918	Ahmed Elnahhas Emma Lenz Parviz Moin Adrián Lozano-Durán H Jane Bae	2024/1/15
Large-eddy simulations of the CRM65 swept wing under real and artificial icing conditions		Brett J Bornhoft Suhas S Jain Sanjeeb T Bose Parviz Moin	2024
Slip-Wall-Modeled Large-Eddy Simulation for Prediction of Turbulent Smooth-Body Separation		Michael Whitmore Sanjeeb T Bose Parviz Moin	2024
Navier-Stokes characteristic boundary conditions for high-enthalpy compressible flows in thermochemical non-equilibrium	Journal of Computational Physics	Christopher Williams Mario Di Renzo Javier Urzay Parviz Moin	2024/4/24
Wind tunnel and grid resolution effects in large-eddy simulations of the high-lift common research model		Konrad A Goc Parviz Moin Sanjeeb T Bose Adam M Clark	2024/1
An extension of Thwaites method for turbulent boundary layers	arXiv preprint arXiv:2310.16337	Rahul Agrawal Sanjeeb T Bose Kevin P Griffin Parviz Moin	2023/10/25
Investigation of wall-bounded turbulence dynamics using spatiotemporal tracking and network-centric methods	Bulletin of the American Physical Society	Ahmed Elnahhas Emma Lenz H Jane Bae Adrian Lozano-Duran Parviz Moin	2023/11/19
Assessment of diffuse-interface methods for compressible multiphase fluid flows and elastic-plastic deformation in solids	Journal of Computational Physics	Suhas S Jain Michael C Adler Jacob R West Ali Mani Parviz Moin ...	2023/2/15
Reynolds number dependence of length scales governing turbulent flow separation with application to wall-modeled large-eddy simulations	arXiv preprint arXiv:2401.00075	Rahul Agrawal Sanjeeb Bose Parviz Moin	2023/12/29
Near-wall model for compressible turbulent boundary layers based on an inverse velocity transformation	Journal of Fluid Mechanics	Kevin Patrick Griffin Lin Fu Parviz Moin	2023
Evaluation of an optimal slip wall model for large-eddy simulation	Bulletin of the American Physical Society	MP Whitmore ST Bose Parviz Moin	2023/11/19
Development of a wall model for chemically-reacting turbulent hypersonic boundary layers	Bulletin of the American Physical Society	Michele Cogo Christopher Williams Kevin Griffin Francesco Picano Parviz Moin	2023/11/21
Studies of transonic aircraft flows and prediction of initial buffet onset using large-eddy simulations		Konrad Goc Rahul Agrawal Parviz Moin Sanjeeb Bose	2023
A phase field model for simulating the freezing of supercooled liquid droplets		Lucy Jane Brown Suhas S Jain Parviz. Moin	2023/6/15
Simulating an H-type transitional boundary layer in a coupled NLPSE and WMLES framework with a Falkner-Skan wall model	Bulletin of the American Physical Society	Carlos Gonzalez Shaun Harris Parviz Moin	2023/11/19
Free-stream disturbance receptivity and amplification at hypersonic speeds by adjoint Green’s function	Bulletin of the American Physical Society	Tim Flint Parviz Moin	2023/11/21
Large-Eddy Simulation of a NACA23012 Airfoil under Clean and Iced Conditions		Brett Bornhoft Suhas Jain Konrad Goc Sanjeeb Bose Parviz Moin	2023/6/15
The spatio-temporal dynamics of momentum-carrying and vortical structures in transitional and fully-developed wall-bounded turbulence	Bulletin of the American Physical Society	James Wallace Ahmed Elnahhas Adrian Lozano-Duran Parviz Moin	2023/11/19