Modified Numerical Model for Simulating Fluid-Filled Structure Response to Underwater Explosion with Cavitation 被引量：2

Modified Numerical Model for Simulating Fluid-Filled Structure Response to Underwater Explosion with Cavitation

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摘要 In this paper, a numerical method is established to analyze the response of fluid-filled structure to underwater explosion with cavitation and the validation of the method is illustrated. In the present implementation, the second-order doubly asymptotic approximation(DAA2) other than curved wave approximation(CWA)is used to simulate non-reflecting boundary. Based on the method, the difference between DAA2non-reflecting boundary and CWA non-reflecting boundary is investigated; then, the influence of internal fluid volume and the influence of cavitation on dynamic response of spherical shell are analyzed. Compared with CWA non-reflecting boundary, DAA2non-reflecting boundary treats added mass effects better. When the internal fluid is full, the displacement and velocity of spherical shell decrease, but, when the internal fluid is half, the displacement and velocity of spherical shell increase. The effect of cavitation is more obvious at the trailing point than at the leading point of spherical shell. In this paper, a numerical method is established to analyze the response of fluid-filled structure to underwater explosion with cavitation and the validation of the method is illustrated. In the present implementation, the second-order doubly asymptotic approximation （DAA2） other than curved wave approximation （CWA） is used to simulate non-reflecting boundary. Based on the method, the difference between DAA2 non-reflecting boundary and CWA non-reflecting boundary is investigated; then, the influence of internal fluid volume and the influence of cavitation on dynamic response of spherical shell are analyzed. Compared with CWA non-reflecting boundary, DAA~ non-reflecting boundary treats added mass effects better. When the internal fluid is full, the displacement and velocity of spherical shell decrease, but, when the internal fluid is half, the displacement and velocity of spherical shell increase. The effect of cavitation is more obvious at the trailing point than at the leading point of spherical shell.

作者肖巍张阿漫汪玉

机构地区 College of Shipbuilding Engineering Unit

出处《Journal of Shanghai Jiaotong university(Science)》 EI 2014年第3期346-353,共8页 上海交通大学学报（英文版）

基金 the National Security Major Basic Research Program of China(No.613157) the Outstanding Youth Fund of China(No.51222904) the National Natural Science Foundation of China(No.51279038)

关键词 spectral ELEMENT finite ELEMENT DOUBLY asymptotic approximation(DAA) FLUID STRUCTURE interaction FLUID FILLED STRUCTURE spectral element, finite element, doubly asymptotic approximation （DAA）, fluid structure interaction, fluid filled structure

分类号 U661 [交通运输工程—船舶及航道工程] O383 [交通运输工程—船舶与海洋工程]

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