2015
DOI: 10.1155/2015/467376
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Numerical Simulation of Underwater Shock Wave Propagation in the Vicinity of Rigid Wall Based on Ghost Fluid Method

Abstract: This paper presents numerical simulation of underwater shock wave propagation nearby complex rigid wall. The Ghost Fluid Method (GFM) for the treatment of complex rigid wall is developed. The theoretical analysis on the GFM-based algorithm and relevant numerical tests demonstrate that the GFM-based algorithm is first-order accurate as applied to complex rigid wall. A large number of challenging numerical tests show that the GFM-based algorithm is robust and quite simple in various practical problems. The numer… Show more

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Cited by 3 publications
(2 citation statements)
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“…The approximate velocity was calculated from Figure 15 as 1520 and 1480 m/s for the incident and reflection shock waves, respectively. The reflection shock wave velocity is significantly lower than that of the incident shock wave because some shock wave energy is lost in the collision with the rigid wall [31]. Moreover, after the reflection superposition process, the superposition effect disappears for the state behind the reflection wave, and the perturbation reverts to a constant value.…”
Section: Characteristics Of the Reflection Shock Wavementioning
confidence: 99%
“…The approximate velocity was calculated from Figure 15 as 1520 and 1480 m/s for the incident and reflection shock waves, respectively. The reflection shock wave velocity is significantly lower than that of the incident shock wave because some shock wave energy is lost in the collision with the rigid wall [31]. Moreover, after the reflection superposition process, the superposition effect disappears for the state behind the reflection wave, and the perturbation reverts to a constant value.…”
Section: Characteristics Of the Reflection Shock Wavementioning
confidence: 99%
“…The vibration problems of fluid-filled shell systems are also common and important in many fields [6][7][8][9][10]. It is well known that vibration not only causes severe noise pollution, but also affects the normal working of equipment installed on piping systems.…”
Section: Introductionmentioning
confidence: 99%