2016

﹞ Z.J. Wang and H.T. Huynh, ※A review of flux reconstruction or correction procedure via reconstruction method for the Navier-Stokes equations,§ Mechanical Engineering Reviews, Vol. 3, No.1 (2016) 1-16.

﹞
L. Shi, C. Zhou and Z.J. Wang, ※Adaptive RANS
Solution with the High-order Correction Procedure via Reconstruction Method,§
AIAA-2016-1826.

﹞
L. Shi and Z.J. Wang, ※Adjoint-based Mesh
Adaptation for the 3D Navier-Stokes Equations with the High-order CPR Method,§
AIAA-2016-1829.

﹞
H. Zhu, S. Fu, L. Shi, and ZJ Wang, ※A Hybrid
RANS-Implicit LES Approach for the High-Order FR/CPR Method,§ AIAA-2016-1599.

﹞
Z. Duan, Z.J. Wang, L.
Duncil and B. Vu, ※Simulation of Moving Bodies Using a Meshfree
Method,§ AIAA-2016-1583.

2015

﹞
Z. J. Wang, ※A perspective on high-order methods
in computational fluid dynamics§, Sci. China-Phys. Mech. Astron. 58, 614701
(2015).

﹞
M. L. Yu, F. X. Giraldo,
M. Peng, and Z. J. Wang, "Localized artificial viscosity stabilization of
discontinuous Galerkin methods for nonhydrostatic mesoscale atmospheric modeling",
Monthly Weather Review, Vol. 143, No. 12, pp. 4823-4845, 2015.

﹞
L. Shi and Z.J. Wang, ※Adjoint-based error
estimation and mesh adaptation for the correction procedure via reconstruction
method,§ Journal of Computational Physics, 295 (2015) 261每284.

﹞
J. Ims, Z. Duan, Z.J.
Wang, ※meshCurve: An Automated Low-Order to
High-Order Mesh Generator,§ AIAA-2015-2293.

﹞
Z. Duan, Z.J. Wang,
and B. Vu, ※Recent Progresses on a Meshless Euler Solver for Compressible
Flows,§ AIAA-2015-2452.

﹞
Y. Li, Z.J. Wang, A priori and a posteriori
evaluations of subgrid stress models with the
Burgers' equation, AIAA 2015-1283.

﹞
C. Zhou, Z.J. Wang CPR High-order Discretization
of the RANS Equations with the SA Model, AIAA 2015-1286.

﹞
L. Shi, Zhi J. Wang, Adjoint-based Adaptation
for the Correction Procedure via Reconstruction Method on Hybrid Meshes, AIAA
2015-1740.

﹞
M. Yu, Z.J. Wang, Homotopy
Continuation for Correction Procedure via Reconstruction - Discontinuous Galerkin (CPR-DG) Methods, AIAA 2015-0570.

2014

﹞ B.J. Zimmerman and Z.J. Wang, ※The efficient implementation of correction procedure via reconstruction with graphics processing unit computing,§ Computers & Fluids, 101 (2014) 263每272.

﹞ M.L. Yu, Z. J. Wang and H. Hu, ※Numerical optimization of flapping foil kinematics using high-order spectral difference method,§ Acta Aerodynamica Sinica, Volume 32, No. 6, December 2014, Pages 727-740.

﹞ Z.J. Wang, ※High-order CFD Tools for Aircraft Design§, Philosophical Transactions A of the Royal Society, 372, 20130318, July 2014.

﹞ H.T. Huynh, Z.J. Wang and P.E. Vincent, ※High-Order Methods for Computational Fluid Dynamics: A Brief Review of Compact Differential Formulations on Unstructured Grids, Computers and Fluids Volume 98, 2 July 2014, Pages 209每220.

﹞ M.L. Yu, Z. J. Wang and Y. Liu, ※On the accuracy and efficiency of discontinuous Galerkin, spectral difference and correction procedure via reconstruction methods,§ Journal of Computational Physics Volume 259, 15 February 2014, Pages 70每95.

﹞
M. Yu and Z.J. Wang, Shock Capturing for the
Correction Procedure via Reconstruction Method Using Artificial Viscosity and
Diffusivity, in Proceedings of the 8^{th} International Conference on
CFD, ICCFD8-2014-0079.

﹞ J.S. Park, M. Yu, C. Kim and Z.J. Wang, Comparative Study of Shock-Capturing Methods for High-Order CPR: MLP and Artificial Viscosity, in Proceedings of the 8th International Conference on CFD, ICCFD8-2014-0067.

﹞ S. Lei and Z.J. Wang, Adjoint Based Anisotropic Mesh Adaptation for the CPR Method, in Proceedings of the 8th International Conference on CFD, ICCFD8-2014-0096.

﹞ M. Yu, Z.J. Wang and S. Farokhi, Impact of Mean Flow Shear on the Wake Vortical Structure behind Oscillating Airfoils, AIAA 2014-2995.

2013

﹞ C. Zhou, Z.J. Wang, An Evaluation of Implicit Time Integration Schemes for Discontinuous High Order Methods, AIAA 2013-2688.

﹞ L. Shi, Z.J. Wang, Adjoint Based Anisotropic Mesh Adaptation for the CPR Method, AIAA 2013-2869.

﹞ HT Huynh, Z. J. Wang, P. Vincent, High-Order Methods for Computational Fluid Dynamics: A Brief Review of Compact Differential Formulation on Unstructured Grids, AIAA 2013-2564.

﹞ Y. Li, Z.J. Wang, Evaluation of Optimized CPR Schemes for Computational Aeroacoustics Benchmark Problems, AIAA-2013-2689.

﹞ M. Yu, Z.J. Wang, Numerical simulation of oscillating-wing based energy harvest mechanism using the high-order spectral difference method, AIAA-2013-2670.

﹞ B. Zimmerman, Z.J. Wang, The Efficient Implementation of Correction Procedure Via Reconstruction with GPU Computing, AIAA 2013-2692.

﹞ B. Zimmerman, Z.J. Wang, M.R. Visbal, High-Order Spectral Difference: Verification and Acceleration using GPU Computing, AIAA 2013-2941.

﹞ M. Yu and Z.J. Wang, ※On the accuracy and efficiency of several discontinuous high-order formulations,§ AIAA-2013-855.

﹞ M. Yu, Z.J. Wang, H. Hu, High-Fidelity Optimization of Flapping Airfoils for Maximum Propulsive Efficiency, AIAA-2013-0085.

﹞ L. Shi and Z.J. Wang, Adjoint Based Error Estimation and hp-Adaptation for the High-Order CPR Method, AIAA-2013-0999.

﹞ V. Vikas, Z. J. Wang, R. O. Fox "Realizable High-Order Finite-Volume Schemes for Quadrature-Based Moment Methods applied to Diffusion Population Balance Equations", in press, J. Computational Physics.

﹞ V. Vikas, C. D. Hauck, Z. J. Wang, R. O. Fox, ※Radiation Transport Modeling using Extended Quadrature Method Of Moments,§ in press, J. Computational Physics.

﹞ M.L. Yu, Z. J. Wang, H. Hu, Formation of Bifurcated Wakes Behind Finite Span Flapping Wings,AIAA Journal, in press.

﹞ Z.J. Wang, K.J. Fidkowski, R. Abgrall, F. Bassi, D. Caraeni, A. Cary, H. Deconinck, R. Hartmann, K. Hillewaert, H.T. Huynh, N. Kroll, G. May, P-O. Persson, B. van Leer, and M. Visbal. ※High-Order CFD Methods: Current Status and Perspective,§ International Journal for Numerical Methods in Fluids, 72, 811-845, (2013).

﹞ H. Gao and Z.J. Wang, ※A Conservative Correction Procedure via Reconstruction Formulation with the Chain-Rule Divergence Evaluation§, J. Computational Physics 232, 7每13 (2013).

﹞ Y. Li and Z.J. Wang, ※An Optimized Correction Procedure via Reconstruction Formulation for Broadband Wave Computation§, Communications in Computational Physics, Vol. 13, No. 5, pp. 1265-1291 (2013).

﹞ H. Gao, Z.J. Wang and H.T. Huynh, ※Differential Formulation of Discontinuous Galerkin and Related Methods for the Navier-Stokes Equations§, Communications in Computational Physics 13, No. 4, 1013-1044 (2013).

﹞ M.L. Yu, Z.J. Wang, ※On the Connection Between the Correction and Weighting Functions in the Correction Procedure via Reconstruction Method,§ J Sci Comput 54, 227每244 (2013).

2012

﹞ M. Yu, Z.J. Wang, Hui Hu, ※The Effects of Wing Planforms on the Aerodynamic Performance of Thin Finite-Span Flapping Wings,§ AIAA-2012-757.

﹞ L. Shi, Z.J. Wang, S. Fu, L. Zhang, ※A PNPM-CPR Method for Navier-Stokes Equations§, AIAA-2012-460.

﹞ M. Yu, Z.J. Wang, H. Hu, ※Experimental and Numerical Investigations on the Asymmetric Wake Vortex Structures of an Oscillating Airfoil§, AIAA-2012-299.

﹞
Hoffmann, M., Munz,
C.-D., and Wang, Z. J., ※Efficient Implementation of
the CPR Formulation for the Navier-Stokes Equations on GPUs,§
in Proceedings of the 7^{th} International Conference on Computational
Fluid Dynamics, ICCFD7-2603.

﹞ Yu, M., Wang, Z. J., and Hu, H., ※High-Fidelity Flapping-Wing Aerodynamics Simulations with a Dynamic Unstructured Grid Based Spectral Difference Method,§ in Proceedings of the 7th International Conference on Computational Fluid Dynamics, ICCFD7-4104.

﹞ M.L. Yu, Z. J. Wang and H. Hu, ※Airfoil Thickness Effects on the Thrust Generation of Plunging Airfoils§, J. of Aircraft, J. of Aircraft 49 (5) 1434-1439, (2012).

﹞ Y. Zhou and Z.J. Wang, ※Effects of Surface Roughness on Separated and Transitional Flows over a Wing,§ AIAA Journal 50 (3), 593-609, (2012).

﹞ Kannan, R. and Wang, Z.J., ※Improving the high order spectral volume formulation using a diffusion regulator", Communications in Computational Physics 12, No. 1, 247-260 (2012).

﹞ R. Kannan and Z.J. Wang, "A High Order Spectral Volume solution to the Burgers＊ equation using the Hopf-Cole Transformation." International Journal for Numerical Methods in Fluids, 69, No. 4, 781每801, (2012).

2011

- Y. Zhou and Z. J. Wang, ※A Low-Frequency Instability/Oscillation near the Airfoil Leading-Edge at Low Reynolds Numbers and Moderate Incidences,§ AIAA-2011-3548.
- J. Andren, H. Gao, M. Yano, D. Darmofal, C. Gooch, Z.J. Wang, ※A Comparison of Higher-Order Methods on a Set of Canonical Aerodynamics Applications,§ AIAA-2011-3230.
- Z.J. Wang, L. Shi, S. Fu, H. Zhang, L. Zhang,※ A PNPM-CPR Framework for Hyperbolic Conservation Laws,§ AIAA-2011-3227.
- T. Haga, H. Gao and Z. J. Wang, ※A High-Order Unifying Discontinuous Formulation for the Navier-Stokes Equations on 3D Mixed Grids,§ Math. Model. Nat. Phenom., accepted.
- R. Kannan and Z.J. Wang, ※Curvature and Entropy Based Wall Boundary Condition for the High Order Spectral Volume Euler Solver,§ Computers and Fluids, accepted.
- K. Kitamura, E. Shima, K. Fujimoto, and Z. J. Wang, ※Performance of Low-Dissipation Euler Fluxes and Preconditioned LU-SGS at Low Speeds,§ Communications in Computational Physics, accepted.
- R. Kannan and Z.J. Wang, ※LDG2: A variant of the LDG flux formulation for the Spectral Volume Method", Journal of Scientific Computing, 46 (2), 314-328 (2011).
- K. Kitamura, K. Fujimoto, E. Shima, K. Kuzuu and Z. J. Wang, ※Validation of an Arbitrary Unstructured CFD Code for Aerodynamic Analyses,§ Transactions of the Japan Society for Aeronautical and Space Sciences 53 (182), 311每319 (2011).
- C. Liang, K. Ou, S. Premasuthan, A. Jameson, and Z. J. Wang, ※High-order accurate simulations of unsteady flow past plunging and pitching airfoils§, Computer & Fluids 40, 236-248 (2011).
- Y. Zhou and Z.J. Wang, ※Effect of Surface Roughness on Laminar Separation Bubble over a Wing at a Low-Reynolds Number,§ AIAA-2011-736.
- T. Haga and Z.J. Wang, ※Efficient Solution Techniques for High-Order Methods on 3-D Anisotropic Hybrid Meshes,§ AIAA-2011-45.
- H. Gao and Z.J. Wang, ※A Residual-Based Procedure for Hp-Adaptation on 2-D Hybrid Meshes,§ AIAA-2011-492.

2010

- Y. Zhou and Z.J. Wang, ※Absorbing boundary conditions for the Euler and Navier每Stokes equations with the spectral difference method§, Journal of Computational Physics 229, 8733每8749 (2010).
- R. Kannan and Z.J. Wang, ※The direct discontinuous Galerkin (DDG) viscous flux scheme for the high order Spectral Volume method", Computer & Fluids 39, (2010) 2007每2021.
- H. Gao, Z.J. Wang, and Y. Liu, ※A study of curved boundary representations for 2D high order Euler solvers,§ J. Scientific Computing 44, 323每336, 2010.
- A.H. Mohammad, Z.J. Wang, C.L. Liang, ※Large eddy simulation of flow over a cylinder using high-order spectral difference method,§ Advances in Applied Mathematics and Mechanics 2 (4), 451-466, 2010.
- Yi Li and Z.J. Wang, ※A Frequency-optimized Discontinuous Formulation for Wave Propagation Problems", AIAA-2010-5035.
- V. Vikas, Z. J. Wang, A. Passalacqua, R. O. Fox, ※A fully coupled fluid-particle solver using quadrature-based moment method with higher-order realizable schemes on unstructured grids§, 7th International Conference on Multiphase Flow (ICMF), Tampa, Florida, May 30th 每 June 4th, 2010. [PDF]
- R. Kannan and Z.J. Wang, ※A high order Spectral Volume method for moving boundary problems", AIAA-2010-4992.
- Francesca Iacono, Georg May and Z.J. Wang, ※Relaxation Techniques for High-Order Discretizations of Steady Compressible Inviscid Flows", AIAA-2010-4991.
- Y. Zhou and Z.J. Wang, ※Implicit Large Eddy Simulation of Transitional Flow over a SD7003 Wing Using High-order Spectral Difference Method", AIAA-2010-4442.
- Y. Zhou and Z.J. Wang, ※Simulation of CAA Benchmark Problems Using High-Order Spectral Difference Method and Perfectly Matched Layers," AIAA-2010-838.
- M. Yu, H. Hu, Z.J. Wang, ※A Numerical Study of Flow Around an Oscillating Airfoil with High-Order Spectral Difference Method,§ AIAA-2010-726.
- R. Harris and Z. J. Wang, ※Partition Design and Optimization for High-Order Spectral Volume Schemes on Tetrahedral Grids, AIAA-2010-720.
- T. Haga, H. Gao, Z.J. Wang, ※A High-Order Unifying Discontinuous Formulation for 3-D Mixed Grids,§ AIAA-2010-540.
- V Vikas, Z J Wang, R.O. Fox, A. Passalacqua, ※High-Order Realizable Finite Volume Schemes for Quadrature Based Moment Method, AIAA-2010-1080.
- K. Kitamura, K. Fijimoto, E. Shima, Z. Wang, ※Performance of Low-Dissipation Euler Fluxes and Preconditioned Implicit Schemes in Low Speeds,§ AIAA-2010-1272.

2009

- Z.J. Wang and Haiyang Gao, ※A unifying lifting collocation penalty formulation including the discontinuous Galerkin, spectral volume/difference methods for conservation laws on mixed grids,§ Journal of Computational Physics 228 (2009) 8161每8186.
- R. Harris and Z.J. Wang, ※High-order adaptive quadrature-free spectral volume method on unstructured grids,§ Computers & Fluids 38 (2009) 2006每2025.
- M. Yang and Z.J. Wang, "A Parameter-Free Generalized Moment Limiter for High-Order Methods on Unstructured Grids," Advances in Applied Mathematics and Mechanics 1 (2009), 451-480.
- C. Liang, A. Jameson, and Z.J. Wang, ※Spectral difference method for compressible flow on unstructured grids with mixed elements,§ Journal of Computational Physics, 228 (2009) 2847每2858.
- R. Kannan and Z.J. Wang, ※A Study of Viscous Flux Formulations for a P-Multigrid Spectral Volume Navier Stokes Solver" Journal of Scientific Computing 41 (2), (2009) 165-199.
- T. Haga, K. Sawada, and Z.J. Wang, ※An Implicit LU-SGS Scheme for the Spectral Volume Method on Unstructured Tetrahedral Grids,§ Communications in Computational Physics 6 (2009), 978-996.
- Y. Sun, Z.J. Wang and Y. Liu,※Efficient Implicit Non-linear LU-SGS Approach for Compressible Flow Computation Using High-Order Spectral Difference Method§, Communications in Computational Physics, Vol.5, No.2-4, pp. 760-778 (2009).
- C. Liang, R. Kannan and Z.J. Wang, ※A p-multigrid Spectral Difference method with explicit and implicit smoothers on unstructured triangular grids,§ Computers & Fluids 38, 254每265 (2009).
- H. Gao and Z.J. Wang , " A High-Order Lifting Collocation Penalty Formulation for the Navier-Stokes Equations on 2-D Mixed Grids,§ AIAA-2009-3784
- Z.J. Wang and H. Gao, "A Unifying Lifting Collocation Penalty Formulation for the Euler Equations on Mixed Grids,§ AIAA-2009-401.
- C. Liang, S. Premasuthan,A.Jameson,Z.J.Wang, "Large Eddy Simulation of Compressible Turbulent Channel Flow with Spectral Difference Method," AIAA-2009-402.
- M. Yang and Z.J. Wang, "A Parameter-Free Generalized Moment Limiter for High-Order Methods on Unstructured Grids," AIAA-2009-605.
- S. Premasuthan, C. Liang, A. Jameson and Z.J.Wang, "A p-Multigrid Spectral Difference method for viscous compressible flow using 2D quadrilateral meshes," AIAA-2009-950.
- K. Fujimoto, K. Fujii,
and Z. J. Wang, "Improvements in the Reliability and Efficiency of
Body-fitted Cartesian Grid Method," AIAA-2009-1173.?/font>
- R. Harris and Z. J. Wang, "Partition Design
and Optimization for High-Order Spectral Volume Schemes," AIAA-2009-1333.

2008

- K Van den Abeele, C. Lacor and Z.J. Wang, "On the stability and
accuracy of the spectral difference method,§ Journal of Scientific
Computing, Journal of Scientific Computing 37, (2008) 162每188.
- R. Harris, Z.J. Wang and Y. Liu, ※Efficient
Quadrature-Free High-Order Spectral Volume Method on Unstructured Grids:
Theory and 2D Implementation,§ Journal of Computational Physics, Volume
227, No. 3, pp. 1620-1642 (2008).
- J.P. Bons, S.T.
McClain, Z.J. Wang, X. Chi and T. I.-P. Shih, ※A Comparison of Approximate
Vs. Exact Geometrical Representations of Roughness for CFD Calculations of
Cp and St,§ Journal of Turbomachinery, Volume
130, 021024 (2008).
- A. H. Mohammad, Z. J. Wang, and C. Liang,
"Large Eddy Simulation of Flow over a Cylinder Using High-Order
Spectral Difference Method," AIAA-2008-7184.
- R. Harris and Z.J. Wang, High-Order Adaptive
Quadrature-Free Spectral Volume Method on Unstructured Grids, AIAA-2008-779.
- H. Gao, H. Hu and Z.J. Wang,
Computational Study of Unsteady Flows around Dragonfly and Smooth Airfoils
at Low Reynolds Numbers, AIAA-2008-385.
- R. Kannan, Y. Sun and Z.J. Wang, A Study of Viscous Flux Formulations for an Implicit
P-Multigrid Spectral Volume Navier Stokes Solver, AIAA-2008-783.

2007

- Z.J. Wang, ※High-order methods for the Euler and
Navier每Stokes equations on unstructured grids,§ Journal of Progress in
Aerospace Sciences, Vol. 43, pp. 1每41 (2007).
- K Van den Abeele, C. Lacor and Z.J. Wang, "On the connection between
the spectral volume and the spectral difference method,§ Journal of
Computational Physics, Volume 227, No. 2, pp. 877-885 (2007).
- R. Kannan and Z.J. Wang, ※Overset Adaptive Cartesian/Prism
Grid Method for Moving Boundary Flow Problems,§ AIAA Journal, Vol. 45, No.
7, pp. 1774-1779 (2007).
- Z.J. Wang, Y. Liu, G. May and A. Jameson,
※Spectral Difference Method for Unstructured Grids II: Extension to the
Euler Equations,§ Journal of Scientific Computing, Vol. 32, No. 1, pp.
45-71 (2007).
- Y. Sun, Z.J. Wang and Y. Liu, ※High-Order Multidomain Spectral Difference Method for the
Navier-Stokes Equations on Unstructured Hexahedral Grids§, Communications
in Computational Physics, Vol. 2, No. 2, pp. 310-333 (2007).
- Y. Sun, Z.J. Wang, and Y. Liu, ※Efficient
Implicit LU- SGS Scheme For Viscous Flow Computation Using High- Order
Spectral Difference Method,§ AIAA-2007-4322.
- H. Yang, R. Harris, Z. Wang, and Y. Liu,
※Efficient Quadrature- Free 3d High- Order Spectral Volume Method On Unstructured Grids,§ AIAA-2007-4325.
- P. Tota, and Z.J. Wang,
※Meshfree Euler Solver Using Local Radial Basis
Functions For Inviscid Compressible Flows,§ AIAA-2007-4581.
- C. Liang, R. Kannan And
Z. Wang, ※P- Multigrid Spectral Difference Method With Explicit and
Implicit Smoothers On Unstructured Grids,§ AIAA-2007-4326.
- C. Chen, Y. Chen, B. Chen, R. Jain, Z.J. Wang,
Lund, ※High Fidelity Multidisciplinary Tool Development For Helicopter
Quieting,§ AIAA-2007-3807.
- Y. Sun, Z.J. Wang and Y. Liu, ※Efficient Implicit
LU-SGS Scheme for High-Order Spectral Difference Method on Unstructured
Hexahedral Grids§, AIAA-2007-313.
- R. Harris, Z.J. Wang and Y. Liu, ※Efficient
Implementation of High-Order Spectral Volume Method for Multidimensional
Conservation Laws on Unstructured Grids§, AIAA-2007-912.
- K. Varma, H. Hu and Z.J. Wang, ※Numerical
Investigation of The Effect Of Buoyancy on the
Wake Instability of a Heated Cylinder in a Contra Flow§ AIAA-2007-0801.
- M. Tamai, G. He, Z.J.
Wang, G. Rajagopalan and H. Hu,"Aerodynamic
Performance of A Corrugated Dragonfly Airfoil Compared with Smooth
Airfoils at Low-Reynolds-Numbers", AIAA-2007-0483,
45th AIAA Aerospace Sciences Meeting And Exhibit, Jan 8 每 11, 2007, Reno,
Nevada.

2006

- X. Lv, Y. ZhaoㄛX.Y. Huang, G.H. Xia, and Z.J.
Wang, ※An Efficient Parallel/Multigrid Preconditioned Implicit
Compressible Solver on Unstructured Grids for Simulating 3D Unsteady Flows
with Moving Objects,§ Journal of Computational Physics. Volume 215, Issue
2, 1 July 2006, Pages 661-690.
- Y. Liu, M. Vinokur, and
Z.J. Wang, "Discontinuous Spectral Difference Method for Conservation
Laws on Unstructured Grids," Journal of Computational Physics Vol.
216, pp. 780-801 (2006).
- Y. Sun, Z.J. Wang and Y. Liu, ※Spectral (Finite)
Volume Method for Conservation Laws on Unstructured Grids VI: Extension to
Viscous Flow,§ Journal of Computational Physics Vol. 215, No. 1, pp. 41-58
(2006).
- Y. Liu, M. Vinokur, and
Z.J. Wang, " Spectral (Finite) Volume Method for Conservation Laws on
Unstructured Grids V: Extension to Three-Dimensional Systems,"
Journal of Computational Physics Vol. 212, pp. 454-472 (2006).
- Z.J. Wang and Y. Liu, ※Extension of the Spectral
Volume Method to High-Order Boundary Representation,§ Journal of
Computational Physics Vol. 211, pp. 154-178 (2006).
- R. Kannan and Z.J. Wang, ※A Parallel Overset
Adaptive Cartesian/Prism Grid Method for Moving Boundary Flow Problems§,
in Proceedings of the 4th International Conference on Computational Fluid
Dynamics, Ghent, Belgium, July 2006.
- Z.J. Wang, Y. Sun, C. Liang and Y. Liu,
※Extension of the Spectral Difference Method to Viscous Flow on
Unstructured Grids§, in Proceedings of the 4th International Conference on
Computational Fluid Dynamics, Ghent, Belgium, July 2006.
- Sun, Y., Wang, Z.J. and Liu, Y., ※High-Order Multidomain Spectral Difference Method for the
Navier-Stokes Equations,§ AIAA-2006-0301.
- Wang, Zhu and Wang, Z.J., ※A Fast Level Set
Method with Particle Correction on Adaptive Cartesian Grid,§ AIAA-2006-0887.
- Yoon, S., Na, S., Wang, Z.J., Bons,
J.P. and Shih, T.I-P., ※Flow and Heat Transfer over Rough Surfaces:
Usefulness of 2-D Roughness-Resolved Simulations,§ AIAA-2006-0025.

2005 &
before

- Wang, Z.J. and Liu, Y., "The Spectral
Difference Method for the 2D Euler Equations on Unstructured Grids ," AIAA-2005-5112.
- Huang, P.G., Wang, Z.J. and Liu, Y.,"An Implicit Space-Time Spectral Difference
Method for Discontinuity Capturing Using Adaptive Polynomials," AIAA-2005-5255.
- B. Greschner, C. Yu, S.
Zheng, M. Zhuang, Z. J. Wang and F. Thiele, "Knowledge Based Airfoil
Aerodynamic and Aeroacoustic Design," AIAA-2005-2968.
- Wang, Zhu. and Wang, Z.J.,"Multi-Phase Flow Computation with Semi-Lagrangian Level Set Method on Adaptive Cartesian
Grids," AIAA-2005-1390.
- Wang, Z.J. and Kannan,R.,"An Overset Adaptive Cartesian/Prism
Grid Method for Moving Boundary Flow Problems," AIAA-2005-0322.
- Liu, Y., Vinokur, M.
and Wang, Z.J. ,"Multi-Dimensional Spectral
Difference Method for Unstructured Grids," AIAA-2005-0320.
- Grove, D. and Wang, Z.J., "Computational Fluid
Dynamics Study of Turbulence Modeling for an Ogive Using a 2N Tree Based
Cartesian Grid Generator," AIAA-2005-1042.
- Wang, Z.J., "Computation
of Aeroacoustic Waves with High-Order Spectral
Volume Method," in Proceedings of the 3rd International
Conference on Computational Fluid Dynamics,Toronto,
Canada, July 12-16 2004.
- Liu, Y., Vinokur, M.
and Wang, Z.J., "Discontinuous
Spectral Difference Method for Conservation Laws on Unstructured Grids,"
in Proceedings of the 3rd International Conference on Computational Fluid Dynamics,Toronto, Canada, July 12-16 2004.
- Sun, Y.Z. and Wang, Z.J., "Evaluation of discontinuous Galerkin and spectral volume methods for scalar and
system conservation laws on unstructured grids," International
Journal for Numerical Methods in Fluids, Vol. 45, No. 8, pp. 819-838
(2004).
- Srinivasan, K., Wang, Z.J., Yuan, W. and Sun, R.,
"Vehicle Thermal Management
Simulation Using a Rapid Omni-Tree Based Adaptive Cartesian Mesh
Generation Methodology," in Proceedings of 2004 ASME Heat
Transfer/Fluid Engineering Summer Conference, July 11-15, 2004, Charlotte,
North Carolina, U.S.A.
- Wang, Z.J., Chi, X.K., Shih, T. I-P., Bons, J., "Direct
Simulation of Surface Roughness Effects with RANS and DES Approaches on
Viscous Adaptive Cartesian Grids," AIAA Paper No. 2004-2420.
- Sun, Yuzhi and Wang,
Z.J., "High-Order Spectral Volume
Method for the Navier-Stokes Equations on Unstructured Grids,"
AIAA Paper No. 2004-2133.
- Wang, Zhu and Wang, Z.J., "The Level Set Method on Adaptive
Cartesian Grid For Interface Capturing," AIAA Paper No.
2004-0082.
- Z.J. Wang, L. Zhang and Y. Liu, "Spectral
(Finite) Volume Method for Conservation Laws on Unstructured Grids IV:
Extension to Two-Dimensional Euler Equations ", J. of Comput. Physics, Vol. 194, No. 2, pp. 716-741 (2004).here
- Wang, Z.J. and Liu, Yen, "Spectral (Finite)
Volume Method for Conservation Laws on Unstructured Grids III: Extension
to One-Dimensional Systems", J. Scientific Computing, Vol. 20 No. 1,
pp.137-157 (2004). here
- Sun, Yuzhi and Wang,
Z.J., "Evaluation of
Discontinuous Galerkin and Spectral Volume
Methods for 2D Euler Equations on Unstructured Grids," in
Proceedings of 16th AIAA CFD Conference, Orlando, Florida, 2003, also AIAA
Paper No. 2003-3680.
- Liu, Y., Vinokur, M.
and Wang, Z.J., "Three-Dimensional
High-Order Spectral Finite Volume Method for Unstructured Grids"
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1998. pdf

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