research-article

Two-Way Coupled SPH and Particle Level Set Fluid Simulation

Authors:

Frank Losasso,

Jerry Talton,

Nipun Kwatra,

Ronald FedkiwAuthors Info & Claims

IEEE Transactions on Visualization and Computer Graphics, Volume 14, Issue 4

Pages 797 - 804

https://doi.org/10.1109/TVCG.2008.37

Published: 01 July 2008 Publication History

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Abstract

Grid-based methods have difficulty resolving features on or below the scale of the underlying grid. Although adaptive methods (e.g. RLE, octrees) can alleviate this to some degree, separate techniques are still required for simulating small-scale phenomena such as spray and foam, especially since these more diffuse materials typically behave quite differently than their denser counterparts. In this paper, we propose a two-way coupled simulation framework that uses the particle level set method to efficiently model dense liquid volumes and a smoothed particle hydrodynamics (SPH) method to simulate diffuse regions such as sprays. Our novel SPH method allows us to simulate both dense and diffuse water volumes, fully incorporates the particles that are automatically generated by the particle level set method in under-resolved regions, and allows for two way mixing between dense SPH volumes and grid-based liquid representations.

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Li XNi XZhu BWang BChen B(2023)GARM-LS: A Gradient-Augmented Reference-Map Method for Level-Set Fluid SimulationACM Transactions on Graphics10.1145/361837742:6(1-20)Online publication date: 5-Dec-2023
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Qu ZLi MDe Goes FJiang C(2022)The power particle-in-cell methodACM Transactions on Graphics10.1145/3528223.353006641:4(1-13)Online publication date: 22-Jul-2022
https://dl.acm.org/doi/10.1145/3528223.3530066
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cover image IEEE Transactions on Visualization and Computer Graphics

IEEE Transactions on Visualization and Computer Graphics Volume 14, Issue 4

July 2008

236 pages

ISSN:1077-2626

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IEEE Educational Activities Department

United States

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Published: 01 July 2008

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Li XNi XZhu BWang BChen B(2023)GARM-LS: A Gradient-Augmented Reference-Map Method for Level-Set Fluid SimulationACM Transactions on Graphics10.1145/361837742:6(1-20)Online publication date: 5-Dec-2023
https://dl.acm.org/doi/10.1145/3618377
Xiong SWang ZWang MZhu B(2022)A clebsch method for free-surface vortical flow simulationACM Transactions on Graphics10.1145/3528223.353015041:4(1-13)Online publication date: 22-Jul-2022
https://dl.acm.org/doi/10.1145/3528223.3530150
Qu ZLi MDe Goes FJiang C(2022)The power particle-in-cell methodACM Transactions on Graphics10.1145/3528223.353006641:4(1-13)Online publication date: 22-Jul-2022
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Wretborn JFlynn SStomakhin A(2022)Guided bubbles and wet foam for realistic whitewater simulationACM Transactions on Graphics10.1145/3528223.353005941:4(1-16)Online publication date: 22-Jul-2022
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Lesser SStomakhin ADaviet GWretborn JEdholm JLee NSchweickart EZhai XFlynn SMoffat A(2022)LokiACM Transactions on Graphics10.1145/3528223.353005841:4(1-20)Online publication date: 22-Jul-2022
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Huang LQu ZTan XZhang XMichels DJiang C(2021)Ships, splashes, and waves on a vast oceanACM Transactions on Graphics10.1145/3478513.348049540:6(1-15)Online publication date: 10-Dec-2021
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Chen JKala VMarquez-Razon AGueidon EHyde DTeran J(2021)A momentum-conserving implicit material point method for surface tension with contact angles and spatial gradientsACM Transactions on Graphics10.1145/3450626.345987440:4(1-16)Online publication date: 19-Jul-2021
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Wang MDeng YKong XPrasad AXiong SZhu B(2021)Thin-film smoothed particle hydrodynamics fluidACM Transactions on Graphics10.1145/3450626.345986440:4(1-16)Online publication date: 19-Jul-2021
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Winchenbach RAkhunov RKolb A(2020)Semi-analytic boundary handling below particle resolution for smoothed particle hydrodynamicsACM Transactions on Graphics10.1145/3414685.341782939:6(1-17)Online publication date: 27-Nov-2020
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Ni XZhu BWang BChen B(2020)A level-set method for magnetic substance simulationACM Transactions on Graphics10.1145/3386569.339244539:4(29:1-29:13)Online publication date: 12-Aug-2020
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Numerical and Physical Characterization of a Two­-Way Coupling Approach for the Simulation of Fluid Flows Under Cryogenic Conditions

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Numerical and Physical Characterization of a Two-Way Coupling Approach for the Simulation of Fluid Flows Under Cryogenic Conditions