郑兴

Zheng Xing, born in November 1980, is a professor and doctoral supervisor from Chibi, Hubei. Mainly engaged in research on hydrodynamic mechanics in the field of ship and ocean engineering, fluid structure coupling performance under extreme working conditions, wave resistance performance of high-speed ships, interaction between breaking waves and structures, and utilization of renewable energy at sea. Published over 70 academic papers, including over 50 SCI and EI papers by the first author or corresponding author, and 3 academic monographs. I have undertaken three projects of the National Natural Science Foundation of China, one sub project of high-tech ships, one sub project of the Ministry of Science and Technology's key research and development plan, one pre research fund for general assembly, two funding projects in the field of installation and development, and participated in two key projects of the National Natural Science Foundation of China.

1999.8-2003.7 Bachelor's degree, College of Shipbuilding Engineering, Harbin Engineering University

July 2003 to August 2006: Teaching Assistant, College of Ship Engineering, Harbin Engineering University

(1) Grid free computing technology and its application

Zheng Xing et al., Meshless Computing Method and Its Application in Water Wave Problems, Harbin Engineering University Press, 2017.3
 
Zheng Xing et al., Excitation Line Theory Considering the Influence of Aeroelasticity and Research on the Aerodynamic Performance of wind turbines, Harbin Engineering University Press, June 2019
 
Zheng Xing et al., Completely Incompressible SPH Method and Its Simple Applications, Harbin Engineering University Press, June 2019

[1] Ningbo Zhang, Xing Zheng*, Qingwei Ma, Study on wave-induced kinematicresponses and flexures of ice floe by Smoothed Particle Hydrodynamics, Computers and Fluids, 2019, 189, 46-59
[2]Zheng Xing, Ma Qingwei, Shao Songdong, Hu Zhenhong*, Gui Qinqin An Improved 2D+t ISPH Approach for High-Speed Vessel Waves, Journal of Coastal Research,2019
[3]Zhang Ningbo, Zheng Xing*, Ma Qingwei, Hu Zhenhong, A numerical study on ice failure process and ice-ship interactions by Smoothed Particle Hydrodynamics, International Journal of Naval Architecture and Ocean Engineering, 2019, 11(2):796-808
[4] Xing Zheng*, Yi You, A comparative Study on Violent Sloshing with Complex Baffles Using the ISPH Method, Applied Sciences, 2018, 8(6): 904
[5] Xing Zheng*, Qingwei Ma, Songdong Shao. Study on SPH Viscosity Term Formulation, Applied Sciences, 2018, 8(2): 249.
[6] Zhang Ningbo, Zheng Xing*, Ma Qingwei, Duan Wenyang, Khayyer Abbas, Lv Xipeng, Shao Songdong. A Hybrid Stabilization Technique for Simulating Water Wave – Structure Interaction by Incompressible Smoothed Particle Hydrodynamics (ISPH) Method, Journal of Hydro-environment Research,2018,18:77-94
[7] Zhang Ningbo, Zheng Xing*, Ma Qingwei, Updated Smoothed Particle Hydrodynamics for Simulating Bending and Compression Failure Progress of Ice, Water, 2017
[8] ZhengXing*, Lv Xipeng, Ma Qingwei, Duan Wenyang, Khayyer Abbas, Shao Songdong. An improved solid boundary treatment for wave-float interactions using ISPH method, InternationalJournal of Naval Architecture and Ocean Engineering, 2018, 10(3): 329-347
[9] Zheng Xing, Shao Songdong, Khayyer Abbas, Duan Wenyang*, Ma Qingwei, Liao Kangping, Corrected First-Order Derivative ISPH in Water Wave Simulations, Coastal EngineeringResearch, 2017, 59(1): 1750010
[10] Zheng Xing*, Ma Qingwei, Shao Songdong, Khayyer Abbas, Modelling ofViolent Water Wave Propagation and Impact by Incompressible SPH withFirst-Order Consistent Kernel Interpolation Scheme, Water, 2017, 9(6):400
[11]Chen Yunsai, Zheng Xing*, Jin Shanqin, Duan Wenyang. A correctedsolid boundary treatment method for Smoothed Particle Hydrodynamics ,China Ocean Engineering. 2017, 31(2):238-247
[12]ZhengXing*, Ma Qingwei, DuanWenyang. Comparison of different iterative schemes for ISPH based on Rankine source solution. International Journal of Naval Architecture and Ocean Engineering,2017, 9(4):390-403.
[13]ZhengXing*, Ma Qing-wei, DuanWen-yang. Incompressible SPH based on Rankin source solution for violent flow simulation. Journal of Computational Physics, 2014, 276:291-341
[14]ZhengXing*, Ma Qing-wei，Duan Wen-yang. Comparative study of different SPH schemes in simulating violent water wave impact flows, China Ocean Engineering,2014, 28(6):791-806
[15]ZhengXing*, Duan Wen-yang, Ma Qing-Wei. A new scheme for identifying free surface particles in improved SPH.China Science : Physics, Mechanics & Astronomy, 2012, 55(8):1454-1463
[16] Yu, Ziying，Zheng, Xing*，Ma, Qingwei. Study on Actuator Line Modeling of Two NREL 5-MW Wind Turbine Wakes. Applied Sciences, 2018, 8(3): 434
[17] Huang, Xing,Chen, Wu, Hu, Zhe, Zheng, Xing, Jin, Shanqin,Zhang, Xiaoying, Application Research of an Efficient and Stable Boundary Processing Method for the SPH Method, 2019, 11(5): 1110