[1] 宋科. 潮流能导管涡轮机设计原理及关键技术[M], 西北工业大学出版社, 2023. [2] Song K, Huan H, Wei L C, et al. Performance analysis of a modified Archimedes spiral wind turbine having winglet on blade[J]. Energy, 2025: 137389. [3] Song K, Huan H, Wei L, Liu C. Investigation of the effect of blade angle of Archimedes spiral hydrokinetic turbine based on hydrodynamic performance and entropy production theory[J]. Ocean Engineering. 2025, 324, 120731. [4] Song K, Huan H, Wei L, Liu C. Enhancing the Performance of Novel Archimedes Spiral Hydrokinetic Turbines Utilizing Blade Winglets in Deep-Sea Power Generation for Autonomous Underwater Vehicles[J]. Drones, 2025, 9(1): 72. [5] Song K, Huan H, Wei L, Liu C. A comparative study of hydrodynamic performance between ducted and non-ducted Archimedes spiral hydrokinetic turbines[J]. Ocean Engineering. 2024, 306, 118087. [6] Song K, Huan H, Wei L, Liu C. Aerodynamic Performance and Coupling Gain Effect of Archimedes Spiral Wind Turbine Array[J]. Journal of Marine Science and Engineering, 2024, 12(7), 1062. [7] Song K, Kang Y. A Numerical Performance Analysis of a Rim-Driven Turbine in Real Flow Conditions[J]. Journal of Marine Science and Engineering, 2022, 10(9): 1185. [8] Song K, Wang W, Yan Y. The hydrodynamic performance of a tidal-stream turbine in shear flow[J]. Ocean Engineering, 2020, 199, 107035. [9] Song K, Wang W, Yan Y. Experimental and numerical analysis of a multilayer composite ocean current turbine blade[J]. Ocean Engineering, 2020, 198, 106977. [10] Song K, Wang W, Yan Y. Numerical and experimental analysis of a diffuser-augmented micro-hydro turbine[J]. Ocean Engineering, 2019, 171: 590-602. |
