Stable and accurate schemes for smoothed dissipative particle dynamics

G. Faure; G. Stoltz

doi:10.1007/s10483-018-2256-8

Stable and accurate schemes for smoothed dissipative particle dynamics

G. Faure
, G. Stoltz

CEA/UVSQ/CNRS

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Smoothed dissipative particle dynamics (SDPD) is a mesoscopic particle method that allows to select the level of resolution at which a fluid is simulated. The numerical integration of its equations of motion still suffers from the lack of numerical schemes satisfying all the desired properties such as energy conservation and stability. Similarities between SDPD and dissipative particle dynamics with energy (DPDE) conservation, which is another coarse-grained model, enable adaptation of recent numerical schemes developed for DPDE to the SDPD setting. In this article, a Metropolis step in the integration of the fluctuation/dissipation part of SDPD is introduced to improve its stability.

langue originale	Anglais
Pages (de - à)	83-102
Nombre de pages	20
journal	Applied Mathematics and Mechanics (English Edition)
Volume	39
Numéro de publication	1
Les DOIs	https://doi.org/10.1007/s10483-018-2256-8
état	Publié - 1 janv. 2018

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abstract = "Smoothed dissipative particle dynamics (SDPD) is a mesoscopic particle method that allows to select the level of resolution at which a fluid is simulated. The numerical integration of its equations of motion still suffers from the lack of numerical schemes satisfying all the desired properties such as energy conservation and stability. Similarities between SDPD and dissipative particle dynamics with energy (DPDE) conservation, which is another coarse-grained model, enable adaptation of recent numerical schemes developed for DPDE to the SDPD setting. In this article, a Metropolis step in the integration of the fluctuation/dissipation part of SDPD is introduced to improve its stability.",

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AB - Smoothed dissipative particle dynamics (SDPD) is a mesoscopic particle method that allows to select the level of resolution at which a fluid is simulated. The numerical integration of its equations of motion still suffers from the lack of numerical schemes satisfying all the desired properties such as energy conservation and stability. Similarities between SDPD and dissipative particle dynamics with energy (DPDE) conservation, which is another coarse-grained model, enable adaptation of recent numerical schemes developed for DPDE to the SDPD setting. In this article, a Metropolis step in the integration of the fluctuation/dissipation part of SDPD is introduced to improve its stability.

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Stable and accurate schemes for smoothed dissipative particle dynamics

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