A second-order projection method for the incompressible navier-stokes equations

Bell, John B.; Colella, Phillip; Glaz, Harland M.

doi:10.1016/0021-9991(89)90151-4

Cited by 1,117 publications

(1,038 citation statements)

References 12 publications

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“…High-resolution methods were originally designed to address issues of accuracy, and physically-correct behaviour in the proximity of discontinuities such as shock waves, as well as contact discontinuities. ILES is the established numerical approach for compressible turbulent mixing but is also widely used in many other Bell and Colella (1989) and Drikakis et al (1994) have shown that non-oscillatory methods can also be used for incompressible flows. In this study, the incompressible and compressible Euler equations are solved by nonoscilatory methods (Drikakis and Rider 2004).…”

Section: Methodsmentioning

confidence: 99%

Computing multi-mode shock-induced compressible turbulent mixing at late times

et al. 2015

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Both experiments and numerical simulations pertinent to the study of self-similarity in shock-induced turbulent mixing often do not cover sufficiently long enough times for the mixing layer to become developed in a fully turbulent manner. When the Mach number of the flow is sufficiently low, numerical simulations based on the compressible flow equations tend to become less accurate due to inherent numerical cancellation errors. This paper concerns a numerical study of the late time behaviour of single-shocked Richtmyer-Meshkov Instability (RMI) and associated compressible turbulent mixing using a new technique that addresses the above limitation. The present approach exploits the fact that RMI is a compressible flow during the early stages of the simulation and incompressible at late times. Therefore, depending on the compressibility of the flow field the most suitable model, compressible or incompressible, can be employed. This motivates the development of a hybrid compressible-incompressible solver that removes the low-Mach number limitations of the compressible solvers, thus allowing numerical simulations of late time mixing. Simulations have been performed for a multi-mode perturbation at the interface between two fluids of densities corresponding to an Atwood number of 0.5, and results are presented for the development of the instability, mixing parameters and turbulent kinetic energy spectra. The results are discussed in comparison with previous compressible simulations, theory and experiments.

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Section: Methodsmentioning

confidence: 99%

Computing multi-mode shock-induced compressible turbulent mixing at late times

et al. 2015

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“…Typically, the projection method only requires the boundary condition for velocity, and no boundary conditions for pressure are required. Actually, specifying the pressure boundary condition will overestimate the system (Bell et al, 1989). The pressure intrinsically satisfies the Neumann condition, which reads…”

Section: Projection Methodsmentioning

confidence: 99%

Numerical Study on Mobilization of Oil Slugs in Capillary Model with Level set Approach

Dai

Wang

2014

Engineering Applications of Computational Fluid Mechanics

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Numerical investigation on mobilizing oil slugs trapped in an axisymmetric capillary tube saturated with water was conducted. The governing equations for the incompressible two-phase core-annular flow in a capillary model were derived. Numerical solutions for capturing the evolution of interface between oil and water were developed using a level set approach. A projection method was applied to obtain the velocity field of the twophase flow. The existence of a water film between the oil slug and solid tube wall was evident in mobilizing the oil slug, and the water film clearly reduced the external pressure required to mobilize the oil slug. This result matches with the experimental phenomena reported in the literature. New phenomena in oil slug mobilization and motion were also found in the numerical investigations. The results obtained showed the high efficiency of the presented approach and the significance of water film in improving the mobilization of oil slugs.

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“…The Inlet and Wall cells are all interior to the domain, while the Outlet cells are situated on the domain boundaries, by extending the lumen of each vessel in its centerline direction [13] until it reaches the cartesian boundary. Our embedded boundary Navier-Stokes solver uses a fractional step method [14] that computes in a first step an intermediate velocity field, using the nonlinear advection-diffusion equation for velocity, and then projects the intermediate velocity onto the field of divergence free and tangent to the vessel boundary vector fields. For the velocity advection we use second-order upwind, Van-Leer slope limiting methods, while for the diffusion force components we use a semi-implicit approach as in [15] which is first order accurate and unconditionally stable in 3D.…”

Section: Patient-specific 3d Cfd Simulationsmentioning

confidence: 99%

Hemodynamic Assessment of Pre- and Post-operative Aortic Coarctation from MRI

Ralovich

Itu

Mihalef

et al. 2012

Medical Image Computing and Computer-Assisted Intervention – MICCAI 2012

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Abstract. Coarctation of the aorta (CoA), is a congenital defect characterized by a severe narrowing of the aorta, usually distal to the aortic arch. The treatment options include surgical repair, stent implantation, and balloon angioplasty. In order to evaluate the physiological significance of the pre-operative coarctation and to assess the post-operative results, the hemodynamic analysis is usually performed by measuring the pressure gradient ( P ) across the coarctation site via invasive cardiac catheterization. The measure of success is reduction of the ( P > 20mmHg) systolic blood pressure gradient. In this paper, we propose a non-invasive method based on Computational Fluid Dynamics and MR imaging to estimate the pre-and post-operative hemodynamics for both native and recurrent coarctation patients. High correlation of our results and catheter measurements is shown on corresponding preand post-operative examination of 5 CoA patients.

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A second-order projection method for the incompressible navier-stokes equations

Cited by 1,117 publications

References 12 publications

Computing multi-mode shock-induced compressible turbulent mixing at late times

Computing multi-mode shock-induced compressible turbulent mixing at late times

Numerical Study on Mobilization of Oil Slugs in Capillary Model with Level set Approach

Hemodynamic Assessment of Pre- and Post-operative Aortic Coarctation from MRI

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