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Hydrofoil is widely used in underwater vehicle for the excellent hydrodynamic characteristics. Currently, researches are mostly about the rigid hydrofoil while the flexible hydrofoil, like the caudal fin, has not been studied adequately. In this paper, the fish was regarded as the bionic object. Then the kinematics model to describe the fish swimming was put forward. A fin-peduncle propulsion mechanism was designed based on the kinematics model to achieve the similar sine curve swimming model. The propulsion mechanism was optimized by Matlab to reduc the deviation between the output curve of the fin-peduncle propulsion mechanism and the ideal motion trajectory. Moreover, the motion phase angles among flexible articulations are optimized to reduce fluid resistance and improve propulsive efficiency. Finally, the fish-like hydrofoil oscillation is simulated by fluid-solid coupling method based on the Fluent. It was shown that the optimized flexible fish-like oscillation could generate the motion that follows the similar law of sine. The propulsive efficiency of oscillating hydrofoil propeller is much higher than that of the screw propeller, and the flexible oscillation has higher propulsive efficiency than the rigid oscillation without obvious fluid resistance increase.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
59--66
Opis fizyczny
Bibliogr. 12 poz., rys.
Twórcy
autor
- Key Laboratory of High Efficiency and Clean Mechanical Manufacture Ministry of Education School of Mechanical Engineering Shandong University, Ji’nan, CHINA
autor
- Key Laboratory of High Efficiency and Clean Mechanical Manufacture Ministry of Education School of Mechanical Engineering Shandong University, Ji’nan, CHINA
autor
- Key Laboratory of High Efficiency and Clean Mechanical Manufacture Ministry of Education School of Mechanical Engineering Shandong University, Ji’nan, CHINA
autor
autor
- Key Laboratory of High Efficiency and Clean Mechanical Manufacture Ministry of Education School of Mechanical Engineering Shandong University, Ji’nan, CHINA
autor
- Key Laboratory of High Efficiency and Clean Mechanical Manufacture Ministry of Education School of Mechanical Engineering Shandong University, Ji’nan, CHINA
autor
- Key Laboratory of High Efficiency and Clean Mechanical Manufacture Ministry of Education School of Mechanical Engineering Shandong University, Ji’nan, CHINA
Bibliografia
- 1. Nagai, M. (2002). Thinking fluid dynamics with dolphins. US: IOS Press.
- 2. Triantafyllou, M. S., and Triantafyllou, G. S. (1995). An efficient swimming machine. Scientific American, 272(3): 64-70.
- 3. Koichi, H., Tadanori, T., and Kenkichi, T., 2000, “Study on turning performance of a fish robot,” First International Symposium on Aqua Bio-Mechanisms, pp. 287-292.
- 4. Cheng, W., 2004, “Research on Simulation and Control Technology for Bionic Underwater Vehicle,” Ph.D. thesis, Harbin Engineering University, Harbin, China.
- 5. Du, R. X., Li, Z., Kamal, Y. T., Pablo, V. A., 2015, “Robot Fish,” New York: Springer Tracts in Mechanical Engineering.
- 6. Liang, J. H., Zhang, W. F., Wen, L., Wang, T. M., Liu, and Y. J. (2010). Propulsion and Maneuvering Performances of Two-Joint Biorobotic Autonomous Underwater Behicle SPC-III. Robot, 32(6):726-731.
- 7. Lighthill, M. J. (1960), Note on the swimming of slender fish, Journal of Fluid Mechanics, Vol.9: 305-317.
- 8. Leroyer, A., Visonneau, M.(2005), Numerical methods for RANSE simulations of a self-propelled fish-like body, Journal of Fluids and Structures, Vol.20, No.7: 975-991.
- 9. Zhao, Y., Wang G. Y., Huang, B., Wu, Q., Wang, F. F. (2015), Lagrangian-Based Investigation of Unsteady Vertex Structure Near Trailing Edge of a Hydrofoil, Transactions of Beijing Institute of Technology, Vol.35, No.7: 666-670.
- 10. Romaneko, E. V. (2002). Fish and dolphin swimming. Bulgaria: Pensoft Publishers.
- 11. Wang, L., Yu, J. Z., Hu, Y. H., Fan, R. F., Huo, J. Y., and Xie, G. M. (2006). Mechanism design and motion control of robotic dolphin. Acta Scientiarum Naturalium Universitatis Pekinensis, 42(3): 294-301.
- 12. Wang, W. J. (2006). Optimal design of planar linkage based on Matlab optimization toolbox. Light Industry Machinery, 24(4): 76
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-afeb44af-b66d-4609-82f5-eccd722b891a