A front-tracking method for viscous, incompressible, multi-fluid flows
TLDR
In this paper, a method to simulate unsteady multi-fluid flows in which a sharp interface or a front separates incompressible fluids of different density and viscosity is described.About:
This article is published in Journal of Computational Physics.The article was published on 1992-05-01 and is currently open access. It has received 2340 citations till now. The article focuses on the topics: Incompressible flow & Unstructured grid.read more
Citations
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Simulation of three-component fluid flows using the multiphase lattice Boltzmann flux solver
Y. Shi,Guihua Tang,Yan Wang +2 more
TL;DR: The multiphase lattice Boltzmann flux solver is extended to three-component fluid flows and can successfully handle complex interactions among three components.
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Physically-based fluid animation: A survey
TL;DR: An up-to-date survey on physically-based fluid animation research, rating the existing methods within three categories: Lagrangian method, Eulerian method and Lattice-Boltzmann method.
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Motion of large bubbles in curved channels
Metin Muradoglu,Howard A. Stone +1 more
TL;DR: In this article, the authors study the motion of large bubbles in curved channels both semi-analytically using the lubrication approximation and computationally using a finite-volume/front tracking method.
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Phase-field method based on discrete unified gas-kinetic scheme for large-density-ratio two-phase flows
TL;DR: In this article, a phase-field method under the framework of discrete unified gas-kinetic scheme (DUGKS) for incompressible multiphase fluid flows is proposed, and the capability of the present method to track the interface that undergoes a severe deformation has been verified.
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Numerical investigation of bubble dynamics using tabulated data
TL;DR: In this article, an explicit density-based solver of the compressible Euler equations suitable for cavitation simulations is presented, using the full Helmholtz energy Equation of State (EoS) for n-Dodecane.
References
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Volume of fluid (VOF) method for the dynamics of free boundaries
C.W Hirt,B. D. Nichols +1 more
TL;DR: In this paper, the concept of a fractional volume of fluid (VOF) has been used to approximate free boundaries in finite-difference numerical simulations, which is shown to be more flexible and efficient than other methods for treating complicated free boundary configurations.
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Numerical Calculation of Time‐Dependent Viscous Incompressible Flow of Fluid with Free Surface
Francis H. Harlow,J. Eddie Welch +1 more
TL;DR: In this paper, a new technique is described for the numerical investigation of the time-dependent flow of an incompressible fluid, the boundary of which is partially confined and partially free The full Navier-Stokes equations are written in finite-difference form, and the solution is accomplished by finite-time step advancement.
Journal Article
Bubbles, Drops, and Particles
TL;DR: In this paper, the authors evaluated the applicability of the standard κ-ϵ equations and other turbulence models with respect to their applicability in swirling, recirculating flows.
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Numerical analysis of blood flow in the heart
TL;DR: In this article, the authors extended previous work on the solution of the Navier-Stokes equations in the presence of moving immersed boundaries which interact with the fluid and introduced an improved numerical representation of the δ-function.