[신간의 별자리x] 우리/미술, 그리고 ‘슬픔의 박물관’

This paper assesses some recent trends in the novel numerical meshless method smoothed particle hydrodynamics, with particular focus on its potential use in modelling free-surface flows. Due to its Lagrangian nature, smoothed particle hydrodynamics (SPH) appears to be effective in solving diverse fluid-dynamic problems with highly nonlinear deformation such as wave breaking and impact, multi-phase mixing processes, jet impact, sloshing, flooding and tsunami inundation, and fluid–structure interactions. The paper considers the key areas of rapid progress and development, including the numerical formulations, SPH operators, remedies to problems within the classical formulations, novel methodologies to improve the stability and robustness of the method, boundary conditions, multi-fluid approaches, particle adaptivity, and hardware acceleration. The key ongoing challenges in SPH that must be addressed by academic research and industrial users are identified and discussed. Finally, a roadmap is propose...

Smoothed particle hydrodynamics (SPH) for free-surface flows: past, present and future

Smoothed particle hydrodynamics method for fluid flows, towards industrial applications: Motivations, current state, and challenges

Comparative study on accuracy and conservation properties of two particle regularization schemes and proposal of an optimized particle shifting scheme in ISPH context

The article aims at providing an up-to-date review on several latest advancements related to particle methods with applications in coastal and ocean engineering. The latest advancements corresponding to accuracy, stability, conservation properties, multiphase multi-physics multi-scale simulations, fluid-structure interactions, exclusive coastal/ocean engineering applications and computational efficiency are reviewed. The future perspectives for further enhancement of applicability and reliability of particle methods for coastal/ocean engineering applications are also highlighted.

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On the state-of-the-art of particle methods for coastal and ocean engineering

Experiments on the pulsation of the high-voltage electrical-spark bubbles near different boundaries are conducted by means of high-speed photography. Some intriguing details are observed clearly, such as the formation of the jet (especially the contact jet formed when a bubble is quite close to the rigid boundary) and bubble splitting. The variation of the maximum radius of the bubble, bubble period, jet tip velocity, and bubble center migration is investigated with the presence of different boundaries. In the study of the bubble period, two fitting curves are obtained from the data by the author and previous references; one is for the bubble generated beneath the free surface and the other is for the bubble generated above the rigid boundary. In the study of the maximum jet tip velocity, a possible trend line is proposed to describe the variation of the jet tip velocity with γb (the non-dimensional standoff distance from the bubble center to the rigid boundary). Finally, the critical value of γb is studi...

Dynamic characteristics of large scale spark bubbles close to different boundaries

The dynamics of three-dimensional underwater explosion bubble

This study is concerned with the interaction between a violently oscillating bubble and a movable sphere with comparable size near a rigid wall, which is an essential physical phenomenon in many applications such as cavitation, underwater explosion, ultrasonic cleaning, and biomedical treatment. Experiments are performed in a cubic water tank, and the underwater electric discharge technique (580 V DC) is employed to generate a bubble that is initiated between a rigid wall and a sphere in an axisymmetric configuration. The bubble-sphere interactions are captured using a high-speed camera operating at 52 000 frames/s. A classification of the bubble-sphere interaction is proposed, i.e., “weak,” “intermediate,” and “strong” interactions, identified with three distinct bubble shapes at the maximum volume moment. In the numerical simulations, the boundary integral method and the auxiliary function method are combined to establish a full coupling model that decouples the mutual dependence between the force and t...

Experimental and numerical study on bubble-sphere interaction near a rigid wall

http://www.icname.org/upfiles/sci/p15.pdf

A-Man Zhang

Papers

Dynamic characteristics of large scale spark bubbles close to different boundaries

The dynamics of three-dimensional underwater explosion bubble

Experimental and numerical study on bubble-sphere interaction near a rigid wall

Investigation on a damaged ship model sinking into water based on three dimensional SPH method

Nonlinear interaction between a gas bubble and a suspended sphere