Abstract
Increased graphical capabilities of contemporary computer hardware make ray tracing possible for a much wider range of applications. In science, and numerical fluid mechanics in particular, visual inspections still play a key role in both understanding flows, predicted by computational fluid dynamics, exhibiting features observable in real-life, such as interfaces or smoke, and when comparing such flows against experimental observations. Usually, little attention is paid to the visualisation itself, unless when the render is used solely for its eye-catching appearance. In this work, we argue that the use of ray tracing software can help make comparisons between computational and experimental fluid dynamics more robust and meaningful, and that, in some cases, it is even a necessity. Several visualisation problems which can be overcome through application of this methodology are discussed, and the use of ray tracing is exemplified for several common test cases in the maritime field. Using these examples the benefits of ray tracing are shown, and it is concluded that ray tracing can improve the reliability of scientific visual comparisons.
Highlights
We do not show how to perform computational fluid dynamics (CFD) visualisations using ray tracing, rather we aim to show the advantages of doing so when comparing against experimental visualisations
We focus on fluid dynamics for maritime applications, due to the occurrence of fluid interfaces for a range of different applications, but the subject is extensible to other fields
Visualisations play a key role in modern day science, and fluid mechanics in particular
Summary
It consists of geometry generation, grid generation, running the CFD solver to obtain results and postprocessing to visualise the results. Note that while these steps are shown as separate, for most commercial CFD tools they are integrated into one software package. The outcome of the postprocessing is compared to experimental data, which is obtained in a different way. What we propose in the current study is to expand the work to include ray tracing software before a comparison to experimental results is made
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