An engineering application of Prosperetti and Lezzi equation to solve underwater explosion bubbles

Jingxiao Zhang, Shushan Wang, Xiyu Jia, Yuan Gao, Feng Ma*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

25 Citations (Scopus)

Abstract

The dynamic behaviors of underwater explosion bubbles differ for different explosives. The explosive characteristic parameters will result in a greater impact on the motion characteristics of the bubbles. Based on the bubble dynamics equation established by Prosperetti and Lezzi ["Bubble dynamics in a compressible liquid. Part 1. First-order theory,"J. Fluid Mech. 168, 457-478 (1986); "Bubble dynamics in a compressible liquid. Part 2. Second-order theory,"J. Fluid Mech. 185, 289-321 (1987)], we proposed an initial condition and an equation of state (EOS) form applicable for calculating the underwater explosion bubble dynamics of different explosives. With the assumption of instantaneous detonation and initial shock wave formation at the gas-liquid boundary, we calculated the initial state of the bubble boundary and established the initial condition for calculating explosion bubbles. Using the Jones-Wilkins-Lee EOS for different explosives, we constructed an isentropic EOS with a polytropic exponent that varied with density. We calculated and analyzed the differences in the initial expansions and the subsequent oscillations of underwater explosion bubbles with different explosives as well as the effects of different explosive parameters on the explosion bubble dynamics. This study showed that the proposed initial condition and the EOS form with a polytropic exponent that varied with density yielded good calculation accuracy and achieve close association of the underwater explosion bubbles with the properties of the explosive detonation and the characteristics of the detonation products. In addition, the explosion bubbles differed in the initial expansion, where the bubbles produced by explosives with higher densities and greater detonation velocities expanded more rapidly.

Original languageEnglish
Article number017118
JournalPhysics of Fluids
Volume33
Issue number1
DOIs
Publication statusPublished - 1 Jan 2021

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