IEEE Visualization 2004
DOI: 10.1109/visual.2004.59
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Investigating swirl and tumble flow with a comparison of visualization techniques

Abstract: Figure 1: Visualization of swirl and tumble flow using a combination of direct color-mapping, streamlines, isosurfaces, texture-based flow visualization and slicing. (Left) visualizing swirl flow using 3D streamlines and texture-based flow visualization on an isosurface, (middle-left) a clipping plane is applied to reveal occluded flow structures, (middle-right) an isosurface and 3D streamlines visualize tumble motion, and (right) the addition of texture-based flow visualization on a color-mapped slice. ABSTRA… Show more

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Cited by 59 publications
(60 citation statements)
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“…Figure 3 (swirl, right image) provides an example, showing a very strong vortex near the inlet that is drawing away energy from the creation of the ideal swirl pattern. We refer the reader to previous work [9] for other applications of texture-based techniques in this problem context that we believe will benefit strongly from a pairing with a feature-based visualization.…”
Section: Sparse and Dense Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Figure 3 (swirl, right image) provides an example, showing a very strong vortex near the inlet that is drawing away energy from the creation of the ideal swirl pattern. We refer the reader to previous work [9] for other applications of texture-based techniques in this problem context that we believe will benefit strongly from a pairing with a feature-based visualization.…”
Section: Sparse and Dense Methodsmentioning
confidence: 99%
“…Laramee et al [9] took preliminary steps towards the visualization and analysis of in-cylinder flow. Using a combination of texture-based and geometric techniques, they were able to indirectly visualize the key swirl and tumble patterns in two engine simulation datasets.…”
Section: Introductionmentioning
confidence: 99%
“…Swirl motion, an ideal flow pattern strived for in a diesel engine [23], resembles a helix spiral about an imaginary axis aligned with the combustion chamber as illustrated in Fig. 12.…”
Section: In-cylinder Flow Inside a Diesel Enginementioning
confidence: 99%
“…Achieving this ideal motion results in an optimal mixing of air and fuel and, thus, a more efficient combustion process. A number of vector field visualization techniques have been applied to a simulated flow inside the diesel engine [23], [11], [4]. These techniques include arrow plots, color-coding velocity, textures, streamlines, vector field topology, and tracing particles.…”
Section: In-cylinder Flow Inside a Diesel Enginementioning
confidence: 99%
“…For example, we implemented a streamline tracing algorithm on boundary meshes from CFD [3,9] (as in Figure 1). This type of algorithm poses challenges because the meshes are unstructured and adaptive resolution.…”
Section: Visualize Tests and Comparisonsmentioning
confidence: 99%