[1]    Shuqi Wang*, Shuxian Li, Baifu Bian, Zijun Zhang, Bin Guo, Hui Tang. Design optimization and hydrodynamic performance analysis of bidirectional horizontal-axis tidal turbine. Ocean Engineering. 352 (2026) 124524.(中科院2区)

[2]    Shuqi Wang*, Shiwei Sun, Yuting Lu, Changquan Liu, Kai Wang. Study on the hydrodynamic characteristics of a double-unit vertical-axis tidal turbine in surging motion. Ocean Engineering. 343 (2026) 123587.(中科院2区)

[3]    Shuqi Wang*, Jinji Xiao, Siyuan Chen, Renwei Ji, Kai Wang. Rotational speed prediction for rated power operation of a horizontal axis tidal turbine under surging motion conditions. Ocean Engineering. 339 (2025) 122206.(中科院2区)

[4]    Yonglin Ye, Yuting Lu, Shuqi Wang*, Wei Guo, Kai Wang. Speed control and hydrodynamic performance analysis of vertical axis tidal turbine under surge motion. Renewable Energy. 251 (2025) 123464. (中科院1区)

[5]    Shuqi Wang*, Ji Tang, Jin Wang, Ratthakrit Reabroy, Renwei Ji, Kai Wang. Study on hydrodynamic characteristics of raft-type wave energy converter based on same-direction parallelogram under wave-current conditions. China Ocean Engineering. 2025, 39(4):662-674.(中科院2区)

[6]    Shuqi Wang*, Ji Tang, Chenyin Li, Renwei Ji, E. Fernandez-Rodriguez. Performance evaluation and fast prediction of a pitched horizontal-axis tidal turbine under wave-current conditions using a variable-speed control strategy. Journal of Fluids and Structures. 133 (2025) 104265.(中科院2区)

[7]    Ruizhang Huang, Shuqi Wang*, Yuting Lu, Ji Tang, Wei Guo. Research on bidirectional fluid-structure interaction characteristics of horizontal axis tidal turbines under wave current conditions. Ocean Engineering. 294 (2024) 116806.(中科院2区)

[8]    Siyuan Chen, Shuqi Wang*, Ying Zhang, Wei Guo, Kai Wang, Linfeng Chen. A fast hydrodynamic prediction method of horizontal axis tidal turbine with surging motion under wave-current condition. Ocean Engineering. 290 (2023) 116318.(中科院2区)

[9]    WANG Jin, WANG Shu-qi*, JIANG Qing-dian, XU Yun-xin, SHI Wei-chao. Effect of Different Raft Shapes on Hydrodynamic Characteristics of the Attenuator-Type Wave Energy Converter. China Ocean Engineering. 2023, 37(4):645–659.(中科院2区)

[10]Shuqi Wang*, Siyuan Chen, Chenyin Li, Wei Guo, Fengmei Jing, Kunpeng Wang. Study on fast prediction method of hydrodynamic load of floating horizontal axis tidal current turbine with pitching motion under free surface. Ocean Engineering. 279 (2023) 114589.(中科院2区)

[11]Siyuan Chen, Shuqi Wang*, Ruizhang Huang, Weichao Shi, Fengmei Jing. Fast Prediction of Hydrodynamic Load of Floating Horizontal Axis Tidal Turbine with Variable Speed Control under Surging Motion with Free Surface. Applied Ocean Research. 135 (2023) 103566.(中科院2区)

[12]Shu-qi Wang*, Chen-yin Li, Ying Zhang, Feng-mei Jing, Lin-feng Chen. Influence of pitching motion on the hydrodynamic performance of a horizontal axis tidal turbine considering the surface wave. Renewable Energy. 189 (2022) 1020-1032. (中科院1区)

[13]Shu-qi Wang*, Chen-Yin Li, Yang-yang Xie, Gang Xu, Ren-qing Zhu, Kun Liu. Research on Hydrodynamic Characteristics of Horizontal Axis Tidal Turbine with Rotation and Pitching Motion under Free Surface Condition. Ocean Engineering. 235(2021):109383. (中科院2区)

[14]Shu-qi Wang*, Ying Zhang, Yang-yang Xie, Gang Xu, Kun Liu, Yuan Zheng. The effects of surge motion on hydrodynamics characteristics of horizontal-axis tidal current turbine under free surface condition. Renewable Energy. 170 (2021):773-784. (中科院1区)

[15]Shu-Qi Wang*, Ying Zhang, Yang-Yang Xie, Gang Xu, Kun Liu, Yuan Zheng. Hydrodynamic Analysis of Horizontal Axis Tidal Current Turbine under the Wave-Current Condition. Journal of Marine Science and Engineering. 2020, 8(8):562. (中科院3区)

[16]Shu-qi Wang, Jie Cui, Ren-chuan Ye, Zhong-fei Chen, Liang Zhang. Study of the Hydrodynamic Performance Prediction Method for a Horizontal-Axis Tidal Current Turbine with Coupled Rotation and Surging Motion. Renewable Energy. 135 (2019):313-325. (中科院1区)

[17]Shu-qi Wang, Gang Xu, Ren-qing Zhu, Kai Wang. Hydrodynamic analysis of vertical-axis tidal current turbine with surging and yawing coupled motions. Ocean Engineering. 155(2018):42-54. (中科院2区)

[18]Shu-qi Wang, Ke Sun, Gang Xu, Yong-tao Liu, Xu Bai. Hydrodynamic Analysis of Horizontal-Axis Tidal Current Turbine with Rolling and Surging Coupled Motions. Renewable Energy. 102 (2017):87-97. (中科院1区)

[19]Shu-qi WANG，Ke SUN, Jian-hua Zhang, Liang Zhang. The Effects of Roll Motion of the Floating Platform on Hydrodynamics Performance of Horizontal-axis Tidal Current Turbine. Journal of Marine Science and Technology. 2017, 22(2):259-269.(中科院4区)

[20]王树齐^*, 卞百福，唐吉，刘峰. 双向水平轴潮流能水轮机翼型优化设计研究. 哈尔滨工程大学学报. 2026, 47(1):28-34. （EI）

[21]王树齐，唐吉，李东，洪咏，卞百福. 水平轴潮流能水轮机制动水动力特性分析.江苏科技大学学报. 2025, 39(3): 11-17.

[22]黄瑞璋，王树齐^*，陆雨婷，陈思远，周效国. 自由液面条件下水平轴水轮机流固耦合分析. 船舶工程. 2024, 46(5): 145-150, 168.

[23]陆雨婷，王树齐^*，王薇，黄瑞璋，周效国. 双机组垂直轴水轮机水动力分析及其干扰规律. 船舶工程. 2024, 46(1): 9-14.

[24]王树齐*，姜庆典，陈林烽，王坤鹏. 定常流中不同淹没深度下水平圆柱载荷分析. 江苏科技大学学报. 2023, 37(6):14-20.

[25]王树齐*，王晋，姜庆典. 两节筏式波浪能发电装置水动力性能研究. 舰船科学技术. 2023, 45(15):91-96.

[26]王树齐^*，周念福，张亮，徐刚. 变偏角垂直轴潮流能水轮机纵荡运动水动力分析. 上海交通大学学报. 2018, 52(3):373-378.（EI）

[27]王树齐，张万超，徐刚^*. 月池对振荡浮子式波能装置转换效率的影响. 江苏科技大学学报. 2018, 32(1):1-6.

[28]王树齐，马伟佳等. 水平轴潮流能水轮机耦合运动水动力分析. 上海交通大学学报. 2017, 51(1):51-56.（EI）

[29]王树齐，张理等. 偏流角对潮流能水轮机水动力影响研究. 太阳能学报. 2016, 37(1):249-255. (EI)

[30]王树齐，张亮等. 自由面条件下水平轴潮流能叶轮水动力研究. 哈尔滨工程大学学报. 2016, 37(10):1330-1334. (EI)

[31]王树齐，肖钢等. 潮流能水平轴水轮机支撑立柱干扰研究. 华中科技大学学报(自然科学版). 2014, 42(4):81-85. (EI).