CHTC Determination using IR Thermography

Version 1.1.0 (31,5 Mo) par Ruben Ploner

Investigation of a Heat Transfer Measurement Technique for Iced Airfoils.

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Mise à jour 4 fév. 2024

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This MATLAB-based program solves an inverse heat transfer problem and determines the convective heat transfer coefficients. The surface temperatures are used as boundary conditions to solve the problem, these have been determined by use of IR Thermography in this case, and the therefrom resulting temperature data is imported in the program.

REFERENCES:

Program uses MyCrustOpen() function from:

Luigi Giaccari (2024). Surface Reconstruction from scattered points cloud (open surfaces) (https://www.mathworks.com/matlabcentral/fileexchange/63731-surface-reconstruction-from-scattered-points-cloud-open-surfaces), MATLAB Central File Exchange. Retrieved January 23, 2024.

Citation pour cette source

Ruben Ploner (2026). CHTC Determination using IR Thermography (https://fr.mathworks.com/matlabcentral/fileexchange/158191-chtc-determination-using-ir-thermography), MATLAB Central File Exchange. Extrait(e) le janvier 18, 2026.

Compatibilité avec les versions de MATLAB

Créé avec R2022b

Compatible avec toutes les versions

Plateformes compatibles

Windows macOS Linux

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Remerciements

Inspiré par : Surface Reconstruction from scattered points cloud (open surfaces), Variable Convective Heat Transfer Coefficient

htc_calculation

Version	Publié le	Notes de version
1.1.0	4 fév. 2024	- Minor errors corrected	Télécharger
1.0.3	25 jan. 2024	- Added Frossling Number calculation	Télécharger
1.0.2	25 jan. 2024	- Corrected error in thermalBC declaration. - Corrected error in units conversion.	Télécharger
1.0.1	23 jan. 2024	Updated Project Image.	Télécharger
1.0.0	23 jan. 2024		Télécharger