Publications
Papers
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B. Zhang* et al., "SHARP – A high-order framework for flow simulations on stationary and moving grids",
(to be submitted)
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C. Ding*, B. Zhang, C. Liang, K. Visser and G. Yao, "High-order large-eddy simulations of a ducted wind turbine", AIAA Paper, 2022-1147, Jan., 2022.
doi:10.2514/6.2022-1147
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B. Zhang* and C. Liang, "A conservative high-order method utilizing dynamic transfinite mortar elements for flow simulations on curved nonconforming sliding meshes", Journal of Computational Physics, 110522, Vol. 443, 2021.
doi:10.1016/j.jcp.2021.110522
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B. Zhang* et al., "High-order implicit large-eddy simulation of flow over a marine propeller", Computers & Fluids, 104967, Vol. 224, 2021.
doi:10.1016/j.compfluid.2021.104967
(Dedicated to Prof. Antony Jameson's 85-th birthday)
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K. Chen, B. Zhang and and C. Liang*, "A 3D parallel high-order solver with curved local mesh refinement for predicting arterial flow through varied degrees of stenoses", ASME Pressure Vessels & Piping Conference, Volume 4, August, 2020.
doi:10.1115/PVP2020-21667
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B. Zhang* and C. Liang, "High-order numerical simulation of flows over rotating cylinders of various cross-sectional shapes", AIAA Paper, 2019-3430, June, 2019.
doi:10.2514/6.2019-3430
movies
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B. Zhang* and C. Liang, "High-order numerical simulation of flapping wing for energy harvesting", AIAA Paper, 2019-3338, June, 2019.
doi:10.2514/6.2019-3338
movies
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B. Zhang, R. Yu, T. Michael and C. Liang*, "A high-order sliding-mesh spectral difference method with application to simulation of flows around open propellers", Proceedings of the Sixth International Symposium on Marine Propulsors, May, 2019.
in ISBN: 978-88-7617-049-2
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Z. Qiu, B. Zhang*, C. Liang and M. Xu, "A high-order solver for simulating vortex-induced vibrations using the sliding-mesh spectral difference method and hybrid grids", Int. Journal for Numerical Methods in Fluids, 90(4): 171-194, 2019.
doi:10.1002/fld.4717
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Z. Qiu, M. Xu*, B. Zhang and C. Liang, "A parallel high-order method for simulating vortex-induced vibrations", 40(3): 122483-1–122483-14, 2019, Acta Aeronautica et Astronautica Sinica.
doi:10.7527/S1000-6893.2018.22483
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B. Zhang*, Z. Qiu and C. Liang, "A flux reconstruction method with nonuniform sliding-mesh interfaces for simulating rotating flows", AIAA Paper, 2018-1094, January, 2018.
doi:10.2514/6.2018-1094
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B. Zhang* and C. Liang, "A high-order sliding-mesh spectral difference solver for simulating unsteady flows around rotating objects", 31st Symposium on Naval Hydrodynamics, Monterey, California, September, 2016.
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B. Zhang*, C. Liang, J. Yang and Y. Rong, "A 2D parallel high-order sliding and deforming spectral difference method", Vol. 139, pp. 184-196, 2016, Computers & Fluids.
doi:10.1016/j.compfluid.2016.06.019
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J. Yang*, B. Zhang, C. Liang and Y. Rong, "A high-order flux reconstruction method with adaptive mesh refinement and artificial diffusivity on unstructured moving/deforming mesh for shock capturing", Computers & Fluids, 139: 17-35, 2016.
doi:10.1016/j.compfluid.2016.03.025
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B. Zhang*, C. Liang and J. Yang, "A simple, efficient, high-order accurate approach to spectral difference method on coupled rotating and stationary/deforming domains with sliding interfaces", ASME-OMAE Paper, 2015-41012, June, 2015.
doi:10.1115/OMAE2015-41012
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B. Zhang and C. Liang*, "A simple, efficient, and high-order accurate curved sliding-mesh interface approach to spectral difference method on coupled rotating and stationary domains", Journal of Computational Physics, 295: 147-160, 2015.
doi:10.1016/j.jcp.2015.04.006
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B. Zhang* and C. Liang, "A simple, efficient, high-order accurate sliding-mesh interface approach to FR/CPR method on coupled rotating and stationary domains", AIAA Paper, 2015-1742, January, 2015.
doi:10.2514/6.2015-1742
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C. Liang*, K. Miyaji and B. Zhang, "An efficient correction procedure via reconstruction for simulation of viscous flow on moving and deforming domains", Journal of Computational Physics, 256: 55-68, 2014.
10.1016/j.jcp.2013.08.046
* Corresponding author
Theses
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B. Zhang, "A High-Order Computational Framework for Simulating Flows around Rotating and Moving Objects", Ph.D. Thesis, The George Washington University, 2016.
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B. Zhang, "Numerical Simulation of Turbulent Flow over Hemispherical Turrets with Application to Aero-Optics", M.S. Thesis, University of Notre Dame, 2012.
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