2008
DOI: 10.1002/nme.2302
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An artificial compressibility method for viscous incompressible and low Mach number flows

Abstract: SUMMARYWithin the framework of the pressure-based algorithm, an artificial compressibility method is developed on a non-orthogonal grid for incompressible and low Mach number fluid flow problems, using cellcentered finite-volume approximation. Resorting to the traditional pseudo-compressibility concept, the continuity constraint is perturbed by the time derivative of pressure, the physical relevance of which is to invoke matrix preconditionings. The approach provokes density perturbations, assisting the transf… Show more

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Cited by 57 publications
(30 citation statements)
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“…Equations (25) and (26) are plotted in Figure 4. Despite satisfying the wall-limit and the fully turbulent phenomena, the blended curve exhibits a large discrepancy from the DNS data in the buffer region.…”
Section: Compound Wall Treatment (Cwt)mentioning
confidence: 99%
See 1 more Smart Citation
“…Equations (25) and (26) are plotted in Figure 4. Despite satisfying the wall-limit and the fully turbulent phenomena, the blended curve exhibits a large discrepancy from the DNS data in the buffer region.…”
Section: Compound Wall Treatment (Cwt)mentioning
confidence: 99%
“…A cell-centered finite-volume scheme combined with an artificial compressibility approach is employed to solve the flow equations [25,26]. A fully upwinded second-order spatial differencing is applied to approximate the convective terms.…”
Section: Computationsmentioning
confidence: 99%
“…After successful pressurevelocity iteration, the algorithm continues with the next time step. The LPVC approach is similar to the artificial compressibility method (ACM), which has been recently under intense research in connection with Finite Volume Method [26,27] and in connection with Finite Element Method [28]. A similar approach, in the framework of the FDM, is SOLA algorithm [29].…”
Section: Local Pressure-velocity Couplingmentioning
confidence: 99%
“…A multigrid method is utilized for the acceleration of convergence [34]. The basic implementation of the artificial compressibility method and associated features are described in [30,31]. Note that the elliptic relaxation Equations (8) and (19) are solved using TDMA.…”
Section: Computationsmentioning
confidence: 99%
“…A cell centred finite-volume scheme combined with an artificial compressibility approach is employed to solve the flow equations [30,31]. A fully upwinded second-order spatial differencing is applied to approximate the convective terms.…”
Section: Computationsmentioning
confidence: 99%