2014

 Unsteady thin airfoil theory revisited: application of a simple lift formula, AIAA Journal, DOI: 10.2514/1.J053439(2014).
 Evaluation of lift formulas applied to lowReynoldsnumber unsteady flows, AIAA Journal, DOI: 10.2514/1.J053042(2014).
 Flowmediated interactions between two selfpropelled flapping filaments in tandem configuration, Phys. Rev. Lett. 113:238105(2014).
 Conditionally Statistical Description of Turbulent Scalar Mixing at SubgridScales, Flow Turbulence and combustion, Vol. 93 No. 1 : 125140 (2014 ).
 How flexibility affects the wake symmetry properties of a self –propelled plunging foil, J.Fluid. Mech., 751:164183(2014).
 Numerical study on hydrodynamic effect of flexibility in a selfpropelled plunging foil, Computer & Fluids, 97: 120 (2014).
 Lift enhancement by dynamically changing wingspan in forward flapping flight, Physics of Fluids,26,061903(2014).
 Simulation of swimming of a flexible filament using the generalized latticespring latticeBoltzmann method , Journal of Theoretical Biology, 349: 111(2014).
 An Improved DirectForcing Immersed Boundary Method for FluidStructure Interaction Simulations, Journal of Fluids EngineeringTransactions of the ASME, 136 (4) 040903 (2014).
 Lattice Boltzmann simulations of a pitchup and pitchdown maneuver of a chordwise flexible wing in a free stream flow, Physics of Fluids, 26 (2) 021902 (2014).

2013

 Parallel computing strategy doe a flow solver based on immersed boundary method and discrete streamfunction formula, Computer and Fluids, 88 210224 (2013).
 Pumping of water through carbon nanotubes by rotating electric field and rotating magnetic field, Appl. Phys. Lett, 103 143117 (2013).
 A lift formula applied to lowReynoldsnumber unsteady flows, Phys. Fluids, 25 093604 (2013).
 Lattice Boltzmann simulation of sedimentation of a single fiber in a weak vertical shear flow, Phys. Fluid, 25 093302 (2013).
 Turbulent clustering of point patricles and finitesize particles in isotroical turbulence, Industrial & Engineering Chemistry Research, 52(33):1129411301 (2013).
 Temporal decorrelations in isotropical turbulence, Phys. Rev. E, 88(2): 021001 (2013).
 A numerical study of a turbulent mixing layer and its generated Noise, Science China G, 56(6):11571164 (2013).
 A nonlinear model for the subgrid timescale experienced by heavy particles in large eddy simulation of isotropic turbulence with a stochastic differential equation, New Journal of Physics, 15:035011 (2013).
 Numerical simulation of drop oscillation in AC electrowetting, Science China G, 56 (2):383394 (2013).
 Selfassembled supramolecular nanotube yarn ,Advanced Materials,25(41): 58755879（2013）.

2012

 Largeeddy simulation of Jerinhotcoflow burner operating in the oxygendilute combustion regime, Flow, Turbulence and Combustion, 89 (3):449464 (2012).
 LES prediction of spacetime correlations in turbulent shear flows, Acta Mech. Sinica 28 (4):993998 (2012).
 Numerical simulation of a threedimensional fishlike body with finlet, Commun. Comput. Phys. 11 (4):13231333 (2012).

2011

 Numerical
simulation of a threedimensional fishlike body with finlet,
Communications in Computational Physics, accepted (2011).
 An immersed boundary method by the lattice
Boltzmann approach in three dimensions with application, Computers
& Mathematics with Applications, in press (2011).
 Anomalous scaling for Lanrangian velocity
structure functions in fully developed turbulence, Physics Review E,
83 025301(R)(2011).
 An implicit relation between temperature and
reaction rate in SLFM, Theoretical & Applied Mechanics Letters,
1(2011), 012003.
 Flow past two freely rotatable triangular cylinders in tandem arrangement, Journal of Fluids EngineeringTransactions of the ASME 133 (8):081202 (2011).

2010

1.
Effect of dissipation rate of mixturefraction on
solutions of SLFM, Physics Script, T142 (2010), 014048.
2.
Assessment of largeeddy simulation in capturing
preferential concentration of heavy particles in isotropic turbulent flows,
Physics Script, T142(2010), 014061.
3.
Smallscale turbulent fluctuations beyond
Taylor’s frozenflow hypothesis, Physics Review E, 81(2010), 065303 (R).
4.
Largeeddy simulation of flows past a flapping
airfoil using immersed boundary method, Science China G, 53 (6) (2010),
11011108.
5.
Largeeddy simulation of turbulentcollision of
heavy particles in isotropic turbulence, Physics of Fluids, 22 (5) (2010),
055106.
6.
An augmented method for free boundary problems
with moving contact lines, Computers and Fluids, 39 (6) (2010),
10331040.
7.
Subgird scale fluid velocity time scales seen by
inertial particles in large eddy simulation of particleladen turbulence,
International Journal of Multiphase Flow, 36 (5) (2010), 432437.

2009

1.
Scalesimilarity model for Lagrangian time
correlations in isotropic and stationary turbulence, Physics Review E, 80
(6) (2009), 066313.
2.
A delay model for noiseinduced bidirectional
switching, Nonlinearity, 22 (12) (2009), 28452859.
3.
Effects of geometric shape on the hydrodynamics
of a selfpropelled flapping foil, Physics of Fluids, 21 (10) (2009),
103302.
4.
A smoothing technique for discrete delta
functions with application to immersed boundary method in moving boundary
simulation, JCP, 228 (20) (2009), 78217836.
5.
A kinematic subgrid scale model for largeeddy
simulation of turbulencegenerated sound, Journal of Turbulence, 10 (19)
(2009), 114.
6.
An atomisticcontinuum hybrid simulation of
fluid flows over superhydrophobic surfaces, Biomicrofluidics 3(2) (2009),
022409.
7.
GD Jin, Turbulent collision of inertial particles:
pointparticle based hybrid simulations and beyond, International Journal
of Multiphase Flow, 35 (9) (2009), 854867.
8.
Spacetime correlations of fluctuating
velocities in turbulent shear flows, Physics Review E, 79 (4) (2009),
046316.
9.
Subgridscale contributions to Lagrangian time
correlations in isotropic turbulence, Acta Mechanica Sinica, 25 (1)
(2009), 4549.

2008

1.
A pressurecorrection method and its
applications on an unstructured Chimera grid, Computers and Fluids, 37
(8) 9931010 (2008).
2.
Single curved fiber sedimentation under gravity,
Computers and Mathematics with applications, 55 (7) 15601567 (2008).
3.
Time correlations of pressure in isotropic
turbulence, Phys. Fluids. 20 (2) 025105 (2008).
4.
Effects of subgridscale modeling on Lagrangian
statistics in largeeddy simulation, J. Turbulence, 9 (8) 124 (2008).
5.
Prediction of spacetime correlations by large
eddy simulation, AIAA Aerospace Sciences Meeting and
Exhibit, 710(2008).

2007

1.
Flows with inertia in a
threedimensional random fiber network, Chemical Engineering Communications
194 (3) 2007: 398406.
2.
Aerodynamic performance
of a corrugated dragonfly airfoil compared with smooth airfoils at low
Reynolds numbers, AIAA20070483.
3.
A dynamic coupling model for hybrid
atomisticcontinuum computations, Chemical Engineering Sciences, 62 (13)
15743679 (2007).

2006

 A constrained particle dynamics for
continuumparticle hybrid method in micro and nanofluidics, Acta
Mechanica Sinica 22 (6) 503508(2006).
 Electroosmotic flow and mixing in
heterogeneous microchannels, Physical Review E 73 (5)056305(2006).
 Elliptic model for spacetime correlations
in turbulent shear flows, Physical Review E 73 (5) 2006: 055303.
 大涡模拟中的条件滤波耗散和扩散的统计特性，力学学报 38 (4)
2006: 433437.

Before 2005(Click here)
