2005
DOI: 10.1016/j.jcp.2005.05.002
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Artificial compressibility, characteristics-based schemes for variable-density, incompressible, multispecies flows: Part II. Multigrid implementation and numerical tests

Abstract: The paper presents an investigation of the accuracy and efficiency of artificial compressibility, characteristics-based (CB) schemes for variable-density incompressible flows. The CB schemes have been implemented in conjunction with a multigrid method for accelerating numerical convergence and a fourth-order, explicit Runge-Kutta method for the integration of the governing equations in time. The implementation of the CB schemes is obtained in conjunction with first-, second-and third-order interpolation formul… Show more

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Cited by 29 publications
(27 citation statements)
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“…Doubling the grid size in each direction of the cross-section altered the velocity magnitude at the interface by 1.3%. Validation of the CFD models used in this paper was reported previously by Shapiro and Drikakis 11,12 for HR-CBS and by Shapiro et al 8 for PC-VOF.…”
Section: Problem Formulationsupporting
confidence: 52%
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“…Doubling the grid size in each direction of the cross-section altered the velocity magnitude at the interface by 1.3%. Validation of the CFD models used in this paper was reported previously by Shapiro and Drikakis 11,12 for HR-CBS and by Shapiro et al 8 for PC-VOF.…”
Section: Problem Formulationsupporting
confidence: 52%
“…The above system is solved using a high-resolution characteristic-based scheme (hereafter referred to as HR-CBS) developed for multi-component flows by Shapiro and Drikakis 11,12 . The pressure-correction-based computations were performed using first and secondorder accurate upwind schemes in conjunction with the SIMPLE pressure-velocity coupling and Volume of Fluid interface tracking method (hereafter referred to as PC-VOF) 13 as provided by the commercial code FLUENT (Fluent 6.2.16); the additional volumefraction equation was for xylene.…”
Section: Problem Formulationmentioning
confidence: 99%
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“…In a series of papers, Yu, Sakai and Sethian [56][57][58] perform abundant numerical simulations of ink-jet printing for both Newtonian and viscoelastic fluids ; in these applications, the Reynolds number is rather high, namely 40 to 90. Shapiro and Drikakis [40] developed specific methods for diffusion broadening in two-and three-dimensional microfluidic channels. De Menech performed simulation of droplet breakup in a microfluidic junction, with a phase field method [27].…”
Section: Introductionmentioning
confidence: 99%
“…Siong et al used a CB implicit finite-volume method for calculating incompressible flow in porous media on unstructured grids [16]. Drikakis and Shapiro applied the artificial compressibility method for solving flows with various densities by using a locally one-dimensional characteristic scheme [17,18]. Other case studies about using the CB schemes in conjunction with artificial compressibility for modeling incompressible flow can be found in References [19][20][21][22][23].…”
Section: Introductionmentioning
confidence: 99%