(SCI,IF: 3.795, JCR #1，Top,第一作者)

[2]Wang,G.,Huang, L.*, Wang, L., Zhao, F., Li, Y., and Wan, R., 2021, “AMetamodeling with CFD Method for Hydrodynamic Optimisations ofDeflectors on a Multi-Wing Trawl Door,” Ocean Eng., 232, p. 109045.DOI: (SCI,IF: 3.795, JCR #1, Top,第一作者)

[3]Wang,G.*,Martin, T., Huang, L., and Bihs, H., 2021, “Modelling the flowaround and wake behind net panels using large eddy simulations,”Ocean Eng., 239, p. 109846. DOI:(SCI,IF: 3.795, JCR #1,Top, 第一作者,通讯作者)

[4]Wang,G.*,Martin, T., Huang, L., Bihs, H., 2021. “An improved screen forcemodel based on CFD simulations of the hydrodynamic loads on knotlessnet panels,” Appl. Ocean Res. 118, p. 102965. DOI:(SCI,IF: 2.979, JCR #2, Top,第一作者,通讯作者)

[5]Huang, L., Li, Y., Wang,G.*,Wang, Y., Wu, Q., Jia, M., Wan, R., 2021, “An improved Morisonhydrodynamics model for knotless nets based on CFD and metamodelingmethods”, Aqua. Eng. 96, p. 102220. DOI:(SCI,IF: 3.281, JCR #1, Top,通讯作者)

[6]Wang,G.,Huang, L.*, Wang, L., Zhao, F., Wang, X., and Wan, R., 2020, “Effectsof Euler Angles of Vertical Cambered Otter Board on HydrodynamicsBased on Response Surface Methodology and Multi-Objective GeneticAlgorithm,” J. Offshore Mech. Arct. Eng., 143(2), p. 021401. DOI:(SCI,IF: 1.355, JCR #3，第一作者)

[7]Wang,G.*, Martin,T., Huang, L., and Bihs, H., 2021, “Modeling the Flow around andthe Hydrodynamic Drag on Net Meshes Using REEF3D,” J. OffshoreMech. Arct. Eng., pp. 1–21. DOI:

(SCI,IF: 1.355, JCR #3，第一作者,通讯作者)

[8]Wang,G.*,Martin, T., Huang, L., and Bihs, H., 2021, “A numerical study ofthe hydrodynamics of an offshore fish farm using REEF3D,” J.Offshore Mech. Arct. Eng. In Press. DOI:

(SCI,IF: 1.355, JCR #3，第一作者,通讯作者)

[9]Wang,G.,Wan, R., Huang, L*., Zhao, F., Wang, X., Zhu, W., Wang, L., Xu, Q.,and Li, Y., 2019, “Effects of Euler Angles of Vertical CamberedOtter Board on Hydrodynamics Based on Response Surface Methodologyand MOGA,” ASME 2019 38th International Conference on Ocean,Offshore and Arctic Engineering. DOI:(EI，第一作者)

[10]Wang,G.*,Martin, T., Huang, L., and Bihs, H., 2020, “Numerical Simulation ofHydrodynamics Around Net Meshes Using REEF3D,” The ASME 2020 39thInternational Conference on Ocean, Offshore and Arctic Engineering.Volume 5: Ocean Space Utilization. Virtual, Online. August 3–7, p.V005T05A002. DOI: (EI，第一作者，通讯作者)

[11]Wang,G.*,Martin, T., Huang, L., and Bihs, H., 2021, “A Numerical Study ofthe Hydrodynamics of an Offshore Fish Farm Using REEF3D,” 40thInternational Conference on Ocean, Offshore & Arctic Engineering(OMAE 2021), pp. 1–10. DOI: (EI，第一作者，通讯作者)

以其他作者身份已接受&发表文章（SCI或EI收录）：

[1]Martin, T., Wang,G.,and Bihs, H., 2021, “Numerical Modeling of the Interaction ofMoving Fish Nets and Fluid,” J. Offshore Mech. Arct. Eng., 144(1),011901.DOI: (SCI,IF: 1.355, JCR #3，第二作者)

[2]Huang, L., Li, Y., Jia, M., Wang,G.,Feng, C., Zhao, F., Xu, Q., and Cheng, H., 2020, “Analysis andOptimization on the Hydrodynamic Performance of Hollow Otter Board inAntarctic Krill Trawl,” 30th Int. Ocean Polar Eng. Conf., p. 8.(EI，第四作者)

[3]Tang, Y., Yang, W., Sun, L., Zhao, F., Long, X., and Wang,G.,2019, “Studies on Factors Influencing Hydrodynamic Characteristicsof Plates Used in Artificial Reefs,” J. Ocean Univ. China, 18(1),pp. 193–202. DOI: (SCI,IF: 1.355, JCR #4，第六作者)

[4]Huang, L., Li, Y., Ni, Y., Cheng, H., Wang, X., Wang,G.,and Zhao, F., 2019, “Study on the Influence of Mesh Grouping onNumerical Simulation Results of Fish Cages.”, ASME 2019 38thInternational Conference on Ocean, Offshore and Arctic Engineering.DOI: (EI，第六作者)