陈纪康
Chen Ji Kang
Department:
Coll. of Ship. Engi.
Discipline:
Naval Arch.
Duty:
None
Prof. Title:
Asso. Prof.
Tutor:
Master
Tel:
18945684049
Fax:
None
E-Mail:
chenjikang@hrbeu.edu.cn
Postcode:
150001
Add:
No. 701 of Chuanhai building
Profile
Jikang Chen is Doctor of Engineering and Master's supervisor in Harbin Engineering University. He serves as reviewer for SCI journals of Ocean Engineering and Engineering Analysis with Boundary Element, etc. He is engaged in teaching and research in the field of marine hydrodynamics. His research interests are within ship maneuverability and seakeeping coupling, Wave-Structure Interactions, Fluid-Structure Interactions and Offshore Aquaculture, and among them he has developed a distinctive theoretical system. He has published more than 30 academic papers in domestic and international journals and conferences, including 14 SCI papers and 7 EI papers. In 2019, he was awarded the second prize of Science and Technology of Heilongjiang Province. He works as principal Investigator for two national longitudinal projects. In the specialized innovation project of numerical tanks, the ship motion prediction software and ship added resistance prediction software he developed have achieved dual certification on accuracy from China Classification Society (CCS) and Bureau Veritas (BV) of France. The related work supported the participation of the Chinese EEDI (Energy Efficiency Design Index) expert group in negotiations with the International Maritime Organization (IMO).
Education
| Country | Graduation school | Educational background/Academic degree | Start time--End time |
| China | Harbin Engineering University | Undergraduate Degree in Naval Architecture and Ocean Engineering | 2006.09.01--2010.06.30 |
| China | Harbin Engineering University | Master Degree in Fluid Mechanics | 2010.09.01-- |
| China | Harbin Engineering University | Doctor of Philosophy in Fluid Mechanics | 2011.09.01--2015.12.15 |
Experience
| Country | Organization/Institution | Position | Start time--End time |
| China | Harbin Engineering University | Postdoc | 2016.01.13--2019.04.26 |
| China | Harbin Engineering University | Lecturer | 2019.04.26--2021.05.30 |
| China | Harbin Engineering University | Associate Professor | 2021.06.01-- |
| Germany | University of Karlsruhe (KIT) | Visiting Scholar | 2018.04.01—2018.12.31 |
Article
(1) Duan, W. Y.; Chen, J. K.*; Zhao, B. B., Second-order Taylor expansion boundary element method for the second-order wave radiation problem [J]. Applied ocean research, 2015, 52, 12-26.
(2) Duan, W. Y.; Chen, J. K.*; Zhao, B. B., Second-order Taylor Expansion Boundary Element Method for the second-order wave diffraction problem [J]. Engineering analysis with boundary elements, 2015, 58, 140-150.
(3) Chen, J. K.; Duan, W. Y., On the development of a numerical tank for potential flow ship seakeeping hydrodynamics[C]. 2nd Conference of Global Chinese Scholars on Hydrodynamics (CCSH '2016), Wuxi, China, NOV 11-14, 2016, 685-691.
(4) Chen, J. K.*; Wang, L. J; Duan, W. Y., Side Wall Effects on the Hydrodynamics of a Floating Body by Image Green Function Based on TEBEM [J]. Journal of marine science and application, 2018, 17(3), 355-361.
(5) Diao, F; Chen, J. K.*; Duan, W. Y.; Zhou, W. X.; Chen, J. P; Wei, J. F., Prediction of added resistance of a ship in waves at low speed[J]. Journal of hydrodynamics, 2019, 31(6), 1231-1239.
(6) Zhao, H. Y.; Ming, P. J.; Zhang, W. P.; Chen, J. K., A direct time-integral THINC scheme for sharp interfaces[J]. Journal of Computational Physics, 2019, 393, 139-161.
(7) Duan, W. Y.; Liu, R. Z.; Chen, J. K.*; Ma, S., Hydrodynamic analysis of floating breakwater with perforated structure based on the Taylor expansion boundary element method [J]. Ocean Engineering, 2020, 200.
(8) Duan, W. Y.; Liu, J. Y; Chen, J. K*; Wang, L. J., Comparison research of ship-to-ship hydrodynamic interaction in restricted water between TEBEM and other computational method[J]. Ocean Engineering, 2020, 202.
(9) Duan, W. Y.; Li, J. D.; Chen, J. K*.; Ma, S, Time-domain TEBEM method for wave added resistance of ships with forward speed[J]. Journal of marine science and technology, 2020, 26(1), 174-189.
(10) Ma, S; Xu, D. K; Duan, W. Y; Chen, J. K.; Liao, K. P; Wang, H, The numerical study of viscous drag force influence on low-frequency surge motion of a semi-submersible in storm sea states[J]. Ocean Engineering, 2020, 213.
(11) Chen, J. K.; Duan, W. Y, A novel method for the m-terms of ship with forward speed [J]. Brodogradnja, 2020, 71(4), 95-108.
(12) Zheng Z.P.; Chen J.K.; Liang H.; Zhao Y.S.; Shao Y.L.; Hydrodynamic responses of a 6 MW spar-type floating offshore wind turbine in regular waves and uniform current [J]. Fluids, 2020, 187(5).
(13) Duan, W.Y; Meng, F.T;Chen, J.K*, PTEBEM for wave drift forces based on hydrodynamic pressure integration[J]. Engineering analysis with boundary elements, 2021, 122, 155-167.
(14) Chen, J.K.; Duan, W.Y.; Ma, S.; Liao, K.P., Time-domain TEBEM method for mean drift force and moment of ships with forward speed under the oblique seas [J]. Journal of marine science and technology, 2021, 26(4), 1001-1013.
(15) Liang, H; Shao, YL and Chen, JK*, Higher-order derivatives of the Green function in hyper-singular integral equations [J]. European journal of mechanics b-fluids, 2021, 86, 223-230.
(16) Shao, YL; Zheng, ZP; Liang, H; Chen, JK, A consistent second-order hydrodynamic model in the time domain for floating structures with large horizontal motions[J]. Computer- aided civil and infrastructure engineering, 2021.
(17) Wang, Y; Shao, YL; Chen, JK; Liang, H, Accurate and efficient hydrodynamic analysis of structures with sharp edges by the Extended Finite Element Method (XFEM): 2D studies [J]. Applied ocean research, 2021, 117.
(18) Chen, J.K.; Duan, W.Y.; Ma, S.; Li, J.D, Time domain TEBEM method of ship motion in waves with forward speed by using impulse response function formulation[J]. Ocean Engineering, 2021, 227.
(19) Liu, R. Z; Shao, Y. L; Chen, J. K; Liang, H, Nonlinear liquid sloshing in an upright circular container: Modal responses and higher-order harmonics [J]. Physics of fluids, 2022, 34(1).
(20) Duan W.Y.; Tang S.X.; Chen, J.K., Power and speed prediction of KVLCC2 in head waves based on TEBEM [J]. Ocean Engineering, 2022,249.
(21) Li J.D.; Duan W.Y.; Chen J.K.*; Ma S.; Zhang Y.H., A study on dynamic trim optimization of VLCC oil tanker in wind and waves [J]. Ocean Engineering, 2022,253.
(22) Duan W.Y., Wang H.X., Chen J.K.* Wang H.J.; TEBEM for spring response of a container ship with forward speed and nonlinear effects in time domain [J]. Engineering analysis with boundary element, 2022, 140, 406-420.
(23) Chen J.K., Zhang G.D. and Duan W.Y.; Numerical study of wave drift load and turning characteristics of KVLCC2 ship in regular waves based on TEBEM [J]. Journal of marine science and engineering, 2022, 10(7).
(24) Wang H.X., Duan W.Y., Chen J.K.*, and Ma S.; A numerical method to compute flexible vertical responses of containerships in regular waves [J]. Ocean engineering, 2022.
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