Direct numerical simulations for multiphase flows: An overview of the multiphase code FS3D

被引：54

作者：

Eisenschmidt, Kathrin ^{[1
]}

Ertl, Moritz ^{[1
]}

Gomaa, Hassan ^{[1
]}

Kieffer-Roth, Corine ^{[1
]}

Meister, Christian ^{[1
]}

Rauschenberger, Philipp ^{[1
]}

Reitzle, Martin ^{[1
]}

Schlottke, Karin ^{[1
]}

Weigand, Bernhard ^{[1
]}

机构：

[1] Inst Aerosp Thermodynam, D-70569 Stuttgart, Germany

来源：

APPLIED MATHEMATICS AND COMPUTATION | 2016年 / 272卷

关键词：

DNS; Droplet; Spray; Phase change; Multi-component; Non-Newtonian; SURFACE-TENSION; VOLUME TRACKING; ADVECTION; FLUID; ALGORITHM; DROPLETS;

D O I：

10.1016/j.amc.2015.05.095

中图分类号：

O29 [应用数学];

学科分类号：

070104 ;

摘要：

A brief overview of the main features of the code Free Surface 3D (FS3D) is presented here. FS3D is a Direct Numerical Simulation (DNS) code based on a Volume of Fluid (VOF) method to solve the incompressible Navier-Stokes equations. The energy equation is included and multiphase flows can be considered, in the sense that evaporation and ice growth are already implemented. Furthermore, the code has been expanded to consider multi-component systems and non-Newtonian fluids. Complex phenomena with strong computational effort can be examined, since the code works on massive parallel architectures. (C) 2015 Elsevier Inc. All rights reserved.

引用

页码：508 / 517

页数：10

共 38 条

[1]

[Anonymous], 2010, P 12 WORKSH 2 PHAS F

[2]

[Anonymous], 2004, THESIS

[3]

[Anonymous], 2001, ANN RES BRIEFS

[4]

Baehr H.D., 2006, Heat and Mass Transfer

[5] A CONTINUUM METHOD FOR MODELING SURFACE-TENSION [J].

BRACKBILL, JU ;

KOTHE, DB ;

ZEMACH, C .

JOURNAL OF COMPUTATIONAL PHYSICS, 1992, 100 (02) :335-354

[6] RHEOLOGY OF NON-NEWTONIAN FLUIDS - A NEW FLOW EQUATION FOR PSEUDOPLASTIC SYSTEMS [J].

CROSS, MM .

JOURNAL OF COLLOID SCIENCE, 1965, 20 (05) :417-&

[7]

Dyadechko V., 2005, MOMENT FLUID INTERFA, P1

[8]

Eisenschmidt K., 2011, ILASS EUR 2011 24 EU

[9]

Ertl M., 2013, ILASS EUR 2013 25 EU, P7

[10] A balanced-force algorithm for continuous and sharp interfacial surface tension models within a volume tracking framework [J].

Francois, MM ;

Cummins, SJ ;

Dendy, ED ;

Kothe, DB ;

Sicilian, JM ;

Williams, MW .

JOURNAL OF COMPUTATIONAL PHYSICS, 2006, 213 (01) :141-173

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