Introduction
Shizhao Wang currently works at the Institute of Mechanics, Chinese Academy of Sciences (Email: WANGSZ@LNM.IMECH.AC.CN).
Skills and Expertise
Computational Fluid Dynamics
Large Eddy Simulation
Bio-fluid Dynamics
Turbulence Modeling
Parallel Computing
Research Experience
January 2016 - present
Chinese Academy of Sciences

    Institute of Mechanics Beijing, China

Position

    Associate Professor (WANGSZ@LNM.IMECH.AC.CN)

May 2014 - June 2016
George Washington University

    Department of Mechanical & Aerospace Engineering Washington, D.C., United States

Position

    PostDoc

Publications
Publications (46)
A simulation-based actuator surface parameterization for large-eddy simulation of propeller wakes
Article

    Mar 2020

Passive hovering of a flexible Lamda-flyer in a vertically oscillating airflow
Article
Full-text available

    Nov 2019

Passive hovering of a flexible -flyer in a vertically oscillating airflow
Article

    Nov 2019

Subgrid-scale model for large-eddy simulation of isotropic turbulent flows using an artificial neural network
Article

    Oct 2019

Estimating lift from wake velocity data in flapping flight
Article

    Jun 2019

A hydrodynamic stress model for simulating turbulence/particle interactions with immersed boundary methods
Article
Full-text available

    Apr 2019

Wall-modeling for large-eddy simulation of flows around an axisymmetric body using the diffuse-interface immersed boundary method
Article
Full-text available

    Jan 2019

WALL-MODEL FOR LARGE-EDDY SIMULATION AND ITS APPLICATIONS
Article

    Jan 2019

A structural subgrid-scale model for relative dispersion in large-eddy simulation of isotropic turbulent flows by coupling kinematic simulation with approximate deconvolution method
Article
Full-text available

    Nov 2018

Spray Formation during the Impact of a Flat Plate on a Water Surface
Article
Full-text available

    Apr 2018

Bifurcations of vortex-induced vibrations of a fixed membrane wing at Re ≤ 1000
Article
Full-text available

    Feb 2018

Locomotion of a bioinspired flyer powered by one pair of pitching foils
Article
Full-text available

    Jan 2018

Direct and Large-Eddy Simulations of Biological Flows
Chapter

    Jan 2018

Lattice Boltzmann simulations of high-order statistics in isotropic turbulent flows
Article
Full-text available

    Jan 2018

The spanwise spectra in wall-bounded turbulence
Article
Full-text available

    Dec 2017

Explicit Role of Viscosity in Generating Lift
Article
Full-text available

    Jul 2017

A large eddy simulation of flows around an underwater vehicle model using an immersed boundary method
Article
Full-text available

    Nov 2016

Self-propulsion of flapping bodies in viscous fluids: Recent advances and perspectives
Article
Full-text available

    Aug 2016

leading-edge vortex enhanced by bats' dynamically changing wingspan
Data

    Dec 2015

Lift enhancement by bats’ dynamically changing wingspan
Article
Full-text available

    Dec 2015

Lift enhancement by bats’ dynamically changing wingspan
Article
Full-text available

    Dec 2015

Unsteady Thin-Airfoil Theory Revisited: Application of a Simple Lift Formula
Article
Full-text available

    Nov 2015

Fig.13 (gif)
Data

    Jun 2015

Fig.12 (gif)
Data

    Jun 2015

Unsteady Thin-Airfoil Theory Revisited: Application of a Simple Lift Formula
Article
Full-text available

    Jun 2015

Lift enhancement on spanwise oscillating flat-plates in low-Reynolds-number flows
Article
Full-text available

    Jun 2015

Numerical simulation of unsteady flows over a slow-flying bat
Article
Full-text available

    Jan 2015

The Lift Problem in Flapping Forward Flight at Low Reynolds Numbers
Conference Paper
Full-text available

    Jan 2015

Evaluation of Lift Formulas Applied to Low-Reynolds-Number Unsteady Flows
Article
Full-text available

    Jan 2015

Autorotation of Two Tandem Triangular Cylinders
Conference Paper
Full-text available

    Sep 2014

Evaluation of Lift Formulas Applied to Low-Reynolds-Number Unsteady Flows
Article
Full-text available

    Aug 2014

Lift enhancement by dynamically changing wingspan in forward flapping flight
Article
Full-text available

    Jun 2014

Unsteady Thin-Airfoil Theory Revisited: Application of a Simple Lift Formula
Article
Full-text available

    Jan 2014

Parallel computing strategy for a flow solver based on immersed boundary method and discrete stream-function formulation
Article

    Sep 2013

Lift Enhancement by Dynamically Changing Wingspan in Forward Flapping Flight
Article
Full-text available

    Sep 2013

A lift formula applied to low-Reynolds-number unsteady flows
Article
Full-text available

    Sep 2013

Numerical simulation of a three-dimensional fish-like body swimming with finlets
Article
Full-text available

    Apr 2012

A bi-directional leading-edge vortex in slow-flying bats
Article

    Nov 2011

Flow Past Two Freely Rotatable Triangular Cylinders in Tandem Arrangement
Article
Full-text available

    Aug 2011

An immersed boundary method based on the lattice Boltzmann approach in three dimensions, with application
Article
Full-text available

    Jun 2011

An immersed boundary method based on discrete stream function formulation for two- and three-dimensional incompressible flows
Article

    May 2011

Numerical investigation of wake structures of slow-flying bats
Conference Paper
Full-text available

    Nov 2010

An Immersed Boundary Method Based on Navier-Stokes Equations in Discrete Stream Function Formulation
Conference Paper

    Jan 2010

Flow Structures in Three-Dimensional Fish-Like Swimming
Conference Paper

    Jan 2010

Effects of geometric shape on the hydrodynamics of a self-propelled flapping foil
Article
Full-text available

    Oct 2009

Effect of aspect ratio on the hydrodynamics of a self-propelled elliptic foil
Conference Paper

    Nov 2008

Projects
Projects (2)
Bio-inspired propulsion: swimming & flying
Project
To investigate the aerodynamics (hydrodynamics ) of flapping-foil systems. The studies are closely associated with animal swimming and flying.
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Immersed boundary method
Project
Development of IBM for flow simulations with complex and moving boundaries.
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