蝠鲼仿生型多模块UUV的水动力分析及能量捕获效能研究

Hydrodynamic analysis and energy capture efficiency of multi-module bionic manta ray UUV

  • 摘要:
    目的 针对无人值守型航行器存在电能续航力不足的瓶颈,开展蝠鲼仿生型无人潜航器(UUV)的构型设计、运动性能和能量捕获效率分析。
    方法 基于浮体液压缸捕获波浪能原理,首先提出一型蝠鲼仿生型长续航UUV的构型,并推导获得蝠鲼式多模块UUV的运动及其能量捕获机理。然后基于多模块浮体理论和三维势流理论编制程序进行水动力计算分析,揭示蝠鲼式多模块UUV在不同浪向、不同液压缸连接刚度和阻尼环境下运动响应和波浪能捕获规律。
    结果 最后结合最优的液压缸刚度和阻尼研究了蝠鲼式多模块UUV在波浪中的波浪能捕获效能。
    结论 可见,推导的蝠鲼式多模块UUV的运动方程及其能量捕获公式可被用于有效分析其波浪能捕获特性。

     

    Abstract:
    Objectives Aiming at the bottleneck of the insufficient electric endurance of unattended vehicles, the configuration design, motion performance and energy capture efficiency analysis of a manta ray bionic unmanned underwater vehicle (UUV) are carried out.
    Methods The configuration of a multi-module bionic long-endurance manta ray UUV is proposed, and its motion and energy capture mechanism are deduced and obtained under the principle of wave energy capture by a floating hydraulic cylinder. Next, based on the multi-module floating body theory and three-dimensional potential theory, hydrodynamic calculation and analysis are carried out, and the motion response and wave energy capture law of the multi-module manta ray UUV are revealed under different wave directions and different connected stiffness and damping of the UUV.
    Results Finally, the wave energy capture efficiency of the multi-module manta ray UUV in waves is studied in combination with the optimal stiffness and damping of the hydraulic cylinder.
    Conclusions It is concluded that the wave energy capture characteristics of a multi-module manta ray UUV can be analyzed by its motion equations and energy capture formula.

     

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