Research

Ocean numerical model prediction

DATEDecember 31, 2022
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Research Interests

Development of Ocean numerical Model Framework and Climate Forecast

Publications:

[1] Zheng X, Ji M, Jing F, et al. Sea trial test on offshore integration of an oscillating buoy wave energy device and floating breakwater[J]. Energy Conversion and Management, 2022, 256: 115375.

[2] Zheng X, Ji M, Li X, et al. FMM-BEM algorithm based on improved free surface Green's function[J]. Chaos, Solitons & Fractals, 2021, 153: 111497.

[3] Liu W, Liu L, Wu H, et al. Performance analysis and offshore applications of the diffuser augmented tidal turbines[J]. Ships and Offshore Structures, 2022: 1-10.

[4] Yuesheng Luo, Ruexue Xing, Xiaole Li*, A New Energy Conservative Scheme for Regularized Long Wave Equation, Applications of Mathematics, 2021, 66 (5) 745–765

[5] Xiaole Li, Weizhou Sun, Yulong Xing*, Ching-Shan Chou, Energy conserving local discontinuous Galerkin methods for the improved Boussinesq equation, Journal of Computational Physics, 2020, 401:109002

[6] Xiaole Li,Yulong Xing*, Ching-Shan Chou, Optimal Energy Conserving and Energy Dissipative Local Discontinuous Galerkin Methods for the Benjamin-Bona-Mahony Equation, Journal of Scientific Computing, 2020, 83 (1)

[7] Lihong Yang, Zhong Chen, Kechao Xie. An efficient method for approximate solution of a singular integral equation with Cauchy kernel. Journal of Computational and Applied Mathematics. 2019( 352): 50-61.

[8] Liu X, Zhao W, Wan D. Multi-fidelity Co-Kriging surrogate model for ship hull form optimization[J]. Ocean Engineering, 2022, 243: 110239.

[9] Safari, F., Tong, Q., Tang, Z., & Lu, J. (2022). A Meshfree Approach for Solving Fractional Galilei Invariant Advection–Diffusion Equation through Weighted–Shifted Grünwald Operator. Mathematics, 10(21), 4008.

[10] Safari, F., Jing, L., Lu, J., & Chen, W. (2022). A meshless method to solve the variableorder fractional diffusion problems with fourth-order derivative term. Engineering Analysis with Boundary Elements, 143, 677-686.

[11] Lebedev K V , Filyushkin B N , Shchepetkin A F . THE MODEL STUDY OF THE WATER EXCHANGE INTERANNUAL VARIABILITY BETWEEN ATLANTIC, NORDIC SEAS, AND ARCTIC OCEAN. 2020.

[12] Shchepetkin A F , Mcwilliams J C . The regional oceanic modeling system (ROMS): a split-explicit, free-surface, topography-following-coordinate oceanic model[J]. Ocean Modelling, 2005, 9(4):347-404.

[13] Shchepetkin A F , Mcwilliams J C . Quasi-Monotone Advection Schemes Based on Explicit Locally Adaptive Dissipation[J]. Monthly Weather Review, 1998, 126(6):1541-1580.

[14] Zhang X , Zhang Z , Mcwilliams J C , et al. Submesoscale Coherent Vortices Observed in the Northeastern South China Sea[J]. Journal of Geophysical Research, C. Oceans: JGR, 2022(2):127.

[15] MD Chekroun, Liu H , Mcwilliams J C , et al. Transitions in Stochastic Non-equilibrium Systems: Efficient Reduction and Analysis[J].

Contact

Alexander F.Shchepetkin

Email:alex@atmos.ucla.edu