发表论文
[1] Can Yang, Zhibin Hao, Ming He, 2023. Hydrodynamic investigation on the submerged tunnel suspended from a fixed platform using SPH method. Ocean Engineering 277: 114357 (IF 4.372, JCR: Q1)
[2] Chang Wan, Can Yang, Xiaodong Bai, 2023. Numerical Investigation on the Hydrodynamics of a Hybrid OWC Wave Energy Converter Combining a Floating Buoy. Ocean Engineering. (online)
[3] Can Yang, Tingting Xu, Chang Wan, 2023. Numerical investigation of a dual cylindrical OWC hybrid systemincorporated into a fixed caisson breakwater. Energy 263: 126132. (IF 8.954, JCR: Q1)
[4] Yang, C., Yuan, H.Q., Bai, X.D., 2022. Numerical investigations on fluid characteristics around the bottom-fixed aquacultural farm. Ocean Engineering 266: 112689. (IF 4.372, JCR: Q1)
[5] Yang C, Hao Z, Yuan H, Bai X, Su Z, Chen H, Johanning L. Numerical Simulation on the Hydrodynamic Flow Performance and an Improve Design of a Circulating Water Channel. Journal of Marine Science and Engineering. 2022, 10(3):429.(IF 2.458, JCR:Q3) WOS: 000774888800001
[6] Dan Yu, Keyi Wang, Hengxu Liu, Fankai Kong, Can Yang, Yupeng Duan, Hailong Chen, 2022. Investigation on motion characteristics of an Anti-pitching Generating WEC (AGWEC) considering the viscous effect, Ocean Engineering 246: 110619. (IF 4.372, JCR: Q1) WOS: 000786593300003
[7] Yang, C., You, Z.J., Bai. X.D., 2021. Experimental and numerical analysis on the mooring tensions of the coupled tunnel-barge system in waves. Ocean Engineering 235: 109417. (IF 4.372, JCR: Q1)
[8] Xiao-dong Bai, Can Yang, Han-bing Luo. Hydrodynamic performance of the floating fish cage under extreme waves. Ocean Engineering, 2021, 231:109082. (IF 4.372, JCR: Q1) WOS: 000654438700015
[9] Bai XD, Guo WW, Yang C, Luo HB, 2021. Long-term extreme response prediction of fish cage using environmental contour method. China Ocean Engineering 35: 332-343.(IF 1.201, JCR: Q4) WOS: 000677719800002
[10] Yu D, Wang K, Jin Y, Kong F, Chen H, Yang C. Effect of Dissipation on the Moonpool-Javelin Wave Energy Converter. Journal of Marine Science and Engineering. 2021,9(12):1444. WOS:000739118200001
[11] Wan C, Yang C, Fang Q, You Z, Geng J, Wang Y. Hydrodynamic Investigation of a Dual-Cylindrical OWC Wave Energy Converter Integrated into a Fixed Caisson Breakwater. Energies. 2020; 13(4):896. (IF 3.004, JCR: Q3) WOS: 000522492700124
[12] Fang Q, Yang C, Guo A. Hydrodynamic Performance of Submerged Plates During Focused Waves. Journal of Marine Science and Engineering. 2019; 7(11):389. (IF 2.458, JCR: Q2) WOS: 000502261500012
[13] Can Yang, Sam D. Weller, Yong-xue Wang, et al. Experimental and Numerical Investigation on Hydrodynamic Characteristics of Moored Tunnel Element Suspended by Twin-barge. Ocean Engineering, 2018, 153:201-214. (IF 4.372, JCR: Q1)
[14] Can Yang, Sam D. Weller, Yong-xue Wang, et al. Hydrodynamic response of a submerged tunnel element suspended from a twin-barge under random waves[J]. Ocean Engineering, 2017, 135:63-75. (IF 4.372, JCR:Q1)
[15] Can Yang, Yongxue W.. Experimental investigation on hydrodynamic characteristics of moored tunnel element immerging by platform[J]. Journal of Harbin Engineering University, 2016, 37(1):30-35. DOI:10.11990/jheu.201409076
[16] Can Yang, Wang Y., Zuo W., Ren B. Motion response of immerged tunnel element with mooring lines under irregular wave actions. Proceedings of the 36th IAHR World Congress (2015), pp.3911-3919. WOS:000398996204003
[17] Yongxue W., Can Yang, Bing R., et al. Effect of Mooring Lines on the Motion of the Immerged Tunnel Element. 35th IAHR World Congress, 8 Sep –13 Sep., 2013, Chengdu, China. WOS:000370410300072