Thermographic flow visualization by means of non-negative matrix factorization

•Non-negative matrix factorization of flow measurements.•Reduction of systematic effects on temperature pattern.•Visualization of flow transition area on an airfoil.•Increased separation of flow transition and flow regime.•Contrast enhancement in thermographic flow visualization. In order to investi...

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Bibliographic Details
Published in:The International journal of heat and fluid flow 2020-04, Vol.82, p.108528, Article 108528
Main Authors: Gleichauf, Daniel, Dollinger, Christoph, Balaresque, Nicholas, Gardner, Anthony D., Sorg, Michael, Fischer, Andreas
Format: Article
Language:English
Subjects:
Boundary layer measurement
Computer vision
Contrast enhancement
Non-negative matrix factorization
Temperature inhomogeneity
Thermographic flow visualization
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Summary:•Non-negative matrix factorization of flow measurements.•Reduction of systematic effects on temperature pattern.•Visualization of flow transition area on an airfoil.•Increased separation of flow transition and flow regime.•Contrast enhancement in thermographic flow visualization. In order to investigate the areas of different flow regimes in the boundary layer of an airfoil, thermography is a powerful flow visualization tool. However, the distinguishability between boundary layer flow regimes such as laminar or turbulent is limited due to systematic and random inhomogeneity in the measured temperature field, hindering a clear separation of the flow regimes. In order to increase the distinguishability of different flow regimes, a time series of thermographic images is evaluated by means of a non-negative matrix factorization. As a result, the non-negative matrix factorization creates images that contain the dominant features of the measured images, while reducing systematic temperature gradients within the flow regimes by up to a factor of five. This way an increase of the distinguishability between every pair of consecutive flow regimes can be achieved on the surface of a non-heated cylinder in cross-flow condition. As a further application example of the non-negative matrix factorization, the distinguishability between the flow and the laminar-turbulent transition zone on a heated helicopter airfoil is also increased by a factor of five. Hence, non-negative matrix factorization is capable of enhancing thermographic flow visualization for increasing the distinguishability of different flow phenomena.
ISSN:0142-727X
1879-2278
DOI:10.1016/j.ijheatfluidflow.2019.108528