Journal ArticleDOI
A general classification of three-dimensional flow fields
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TLDR
In this paper, the geometry of solution trajectories for three first-order coupled linear differential equations can be related and classified using three matrix invariants for elementary three-dimensional flow patterns defined by instantaneous streamlines for flow at and away from no slip boundaries for both compressible and incompressible flow.Abstract:
The geometry of solution trajectories for three first‐order coupled linear differential equations can be related and classified using three matrix invariants. This provides a generalized approach to the classification of elementary three‐dimensional flow patterns defined by instantaneous streamlines for flow at and away from no‐slip boundaries for both compressible and incompressible flow. Although the attention of this paper is on the velocity field and its associated deformation tensor, the results are valid for any smooth three‐dimensional vector field. For example, there may be situations where it is appropriate to work in terms of the vorticity field or pressure gradient field. In any case, it is expected that the results presented here will be of use in the interpretation of complex flow field data.read more
Citations
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Two-stage autoignition and edge flames in a high pressure turbulent jet
TL;DR: In this paper, a three-dimensional direct numerical simulation is conducted for a temporally evolving planar jet of n-heptane at a pressure of 40 atmospheres and in a coflow of air at 1100 K. The results show that ignition occurs in several overlapping stages and multiple modes of combustion are present.
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Minimization of divergence error in volumetric velocity measurements and implications for turbulence statistics
TL;DR: In this article, the divergence correction scheme (DCS) is implemented using a con-straint-based nonlinear optimization to minimize divergence error by employing continuity of mass as a constraint, with minimal change to the measured velocity field.
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Flow dynamics in the turbulent wake of a sphere at sub-critical Reynolds numbers
TL;DR: In this article, a parallel unstructured symmetry-preserving formulation has been used for simulating the flow over a sphere, where the main features of the flow including power spectra of selected monitoring probes at different positions have been described and discussed in detail.
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Detection of Lagrangian Coherent Structures in the SPH framework
TL;DR: A novel numerical technique is presented in the context of the Smoothed Particle Hydrodynamics (SPH) models, which allows for a direct evaluation of the FTLE field supplying a new way for the data analysis of complex flows.
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A numerical and experimental study on advection in three-dimensional Stokes flows
TL;DR: In this paper, three-dimensional advection of passive tracers in non-inertial flows is studied in a finite cylinder confined by two parallel endwalls by means of numerical simulations and laboratory experiments.
References
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Book
Nonlinear Oscillations, Dynamical Systems, and Bifurcations of Vector Fields
TL;DR: In this article, the authors introduce differential equations and dynamical systems, including hyperbolic sets, Sympolic Dynamics, and Strange Attractors, and global bifurcations.
A Reflection on Nonlinear Oscillations, Dynamical Systems, and Bifurcations of Vector Fields
J. Guckenheimer,P. J. Holmes +1 more
TL;DR: In this paper, the authors introduce differential equations and dynamical systems, including hyperbolic sets, Sympolic Dynamics, and Strange Attractors, and global bifurcations.
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Differential Equations, Dynamical Systems, and Linear Algebra
Morris W. Hirsch,Steve Smale +1 more
TL;DR: In this article, the structure theory of linear operators on finite-dimensional vector spaces has been studied and a self-contained treatment of that subject is given, along with a discussion of the relations between dynamical systems and certain fields outside pure mathematics.
Journal ArticleDOI
Direct simulation of a turbulent boundary layer up to R sub theta = 1410
TL;DR: In this paper, the turbulent boundary layer on a flat plate, with zero pressure gradient, is simulated numerically at four stations between R sub theta = 225 and R sub tta = 1410.