海流条件下水下滑翔机垂直面上发射段的数值模拟

2018 IEEE 8th International Conference on Underwater System Technology: Theory and Applications (USYS) Pub Date : 2018-12-01 DOI:10.1109/USYS.2018.8779110

Xiaozou Chen, Yuxiang Wan, Jinfu Liu

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引用次数: 0

摘要

水下滑翔机在发射阶段的运动是不稳定的，这种不稳定的运动在水流中很容易失去稳定性。采用基于全结构重叠网格技术的CFD方法对水下滑翔机在发射阶段的运动进行了研究。采用有限差分法对海表温度k-ω湍流模型进行离散化。通过求解垂直平面的三维自由度方程，在时域上更新水下滑翔机的空间位置和姿态。在重力和浮力差为1%时，给出了水下滑翔机在不同洋流下的速度、位移和姿态。结果表明，洋流对滑翔机的运动有很大的影响

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Numerical Simulation of the Launch Stage in Vertical Plane of Underwater Glider in Ocean Current

The movement during the launch stage of the underwater glider is unsteady, and the unsteady movement is very easy to lose stability in current. CFD method which is based on the fully structured overlapping grid technology is adopted to study the movement of the underwater glider during the launch stage. The finite difference method is used to discretize SST k-ω turbulence model. The spatial position and attitude of underwater glider is updated by solving 3DOF equations of vertical plane in time domain. The velocity, displacement and attitude of the underwater glider at different ocean currents are given in time domain at 1% difference of gravity and buoyancy. The results show that the ocean current has a great influence on the motion of the glider

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2018 IEEE 8th International Conference on Underwater System Technology: Theory and Applications (USYS)

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