水下电爆炸气泡脉动及能量特性实验研究  

作　　者：周少彤[1] 莫腾富 任晓东[1] 徐强[1] 孙奇志[1] 张思群[1] 黄显宾[1] 张朝辉[1] 刘文燕 Zhou Shao-Tong;Mo Teng-Fu;Ren Xiao-Dong;Xu Qiang;Sun Qi-Zhi;Zhang Si-Qun;Huang Xian-Bin;Zhang Zhao-Hui;Liu Wen-Yan(Key Laboratory of Pulsed Power,Institute of Fluid Physics,China Academy of Engineering,Mianyang 621999,China)

机构地区：[1]中国工程物理研究院流体物理研究所,脉冲功率重点实验室,绵阳621999

出　　处：《物理学报》2024年第24期198-209,共12页Acta Physica Sinica

基　　金：国家自然科学基金(批准号:12305263,12075225)资助的课题.

摘　　要：水下爆炸气泡脉动产生的压力波及滞后流可以对舰船的整体结构产生破坏作用.本文介绍了采用电爆炸丝的技术途径开展水下爆炸气泡的初步实验研究工作,重点聚焦于气泡的宏观物理特征、运动规律、以及与传统化爆气泡的差异.实验装置主要由2个并联的储能放电模块和爆炸水箱组成.每个模块由2台20μF的电容器以及位于电容器之间的气体放电开关串联构成.负载采用了1根直径0.9 mm、长度50 mm的纯铜丝.实验结果显示,铜丝被电离后形成等离子体的最高能量密度与TNT相当;等离子体在膨胀过程中汽化周围的水介质并逐渐演变为气泡;气泡的总脉动次数不超过4次,内部的主要成分应该为铜蒸气和水蒸气,并在能量耗尽后直接溃灭于水中.通过实验数据与现有理论运动模型的比较发现,气泡在膨胀阶段汽化水介质导致一定的内能损耗,使得其运动轨迹的模拟结果与实验数据具有一定差异.Low-frequency hysteresis flow and pulsating pressure caused by underwater explosion bubbles can cause overall damage to ships.The hydrodynamic and energy conversion of bubbles are very important in studying underwater explosion bubbles.At present the study of bubble dynamics is based on ideal gas hypothesis,which does not involve heat exchange and is only suitable for bubbles of chemical detonating,but not for bubbles at higher temperatures.The evolution of underwater explosion bubbles is studied experimentally by underwater exploding wire.There is obvious heat exchange during the evolution of bubbles,which is different from bubble behavior in chemical detonating underwater.This study focuses on pulsating behavior and energy characteristic of bubbles,and the difference from chemical detonating as well.The experimental facility is mainly composed of two parallel energy storage-discharge modules and a water tank.Each module is composed of two 20μF capacitors connected and a gas switch connected in series with these two capacitors.A copper wire with a diameter of 0.9 mm and a length of 50 mm is used as a load.The experimental results show that the deposited energy density generated by electric explosion is almost equal to that of TNT.The wire plasma expansion produces an initial bubble with temperature of radially spatial distribution.The total pulsation frequency of bubble will not exceed 4 times.After energy exhaustion,bubbles collapse directly into water because the main component is condensable gas.The comparison of the experimental data with the existing theoretical models shows that the vaporization of water in bubble expansion stage leads to certain energy loss,which makes difference in motion trajectory of bubbles between the simulation and the experiment.This study provides ideas and data support for the dynamical study of high temperature bubbles in underwater explosion.

关 键 词：水下爆炸 气泡 水下电爆炸丝 气泡脉动 

分 类 号：O35[理学—流体力学]