4.7 Article

Analysis of Water Hammer and Pipeline Vibration Characteristics of Submarine Local Hydraulic System

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出版社

MDPI
DOI: 10.3390/jmse11101885

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submarine hydraulic pipeline; water hammer; fluid-structure interaction(FSI); modal analysis; pipeline optimization

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This study focuses on the hydraulic system of a certain type of submarine, and simulates water hammer pressures and fluid-structure interaction vibration characteristics of the pipeline. The simulation results are validated through modal testing, and the pipeline vibration stress is effectively reduced through genetic algorithm optimization.
The hydraulic pipeline vibration noise is one of the main noise sources in submarine stealth conditions. Taking the local hydraulic system of a certain type of submarine as the research object, a model is first developed to simulate water hammer pressures and to study the influence of component parameters on the generation and transmission of water hammers. Then, using the maximum water hammer as the excitation, fluid-structure interaction (FSI) vibration characteristics analysis of the pipeline is carried out. Additionally, the simulation method of clamp bolt pre-tightening is discussed. Finally, the modal test of various specifications of the pipeline is carried out. The results show that the error between the simulation and the test results is within 10%, which verifies the correctness of the model settings. On this basis, with the position of the clamp as the independent variable and the maximum stress of pipelines as the dependent variable, the optimization of pipeline passive vibration control is carried out by genetic algorithm, and the finite element verification shows that the pipeline vibration stress is effectively reduced.

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