Andreas Rittler scite author profile

The computed tomography of chemiluminescence (CTC) technique was applied for the first time to a real highly turbulent swirl flame setup, using a large number of CCD cameras (N=24 views), to directly reconstruct the three-dimensional instantaneous and time-averaged chemiluminescence fields. The views were obtained from a 172.5° region (in one plane) around the flame, and the CTC algorithm [Floyd et al., Combust. Flame158, 376 (2011)CBFMAO0010-2180] was used to reconstruct the flame by discretizing the domain into voxels. We investigated how the reconstructions are affected by the views' arrangement and the settings of the algorithm, and considered how the quality of reconstructions should be assessed to ensure a realistic description of the capabilities of the technique. Reconstructions using N≤12 were generally better when the cameras were distributed more equiangularly. When N was severely low (e.g., 3), the reconstruction could be improved by using fewer voxels. The paper concludes with a summary of the strengths and weaknesses of the CTC technique for examining a real turbulent flame geometry and provides guidance on best practice.

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Large eddy simulations of nanoparticle synthesis from flame spray pyrolysis

Rittler

Deng

Wlokas

et al. 2017

Proceedings of the Combustion Institute

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Large-Eddy Simulation of Sandia Flame D with Efficient Explicit Filtering

Bertels

Kober

Rittler

et al. 2019

Flow Turbulence Combust

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Andreas Rittler

Instantaneous 3D flame imaging by background-oriented schlieren tomography

LES of the Sydney piloted spray flame series with the PFGM/ATF approach and different sub-filter models

Instantaneous 3D imaging of highly turbulent flames using computed tomography of chemiluminescence

Large eddy simulations of nanoparticle synthesis from flame spray pyrolysis

Large-Eddy Simulation of Sandia Flame D with Efficient Explicit Filtering

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