Image Analysis of Infrared Quantitative Data Applied to Tokamak Survey and Safety: present and future

Image Analysis of Infrared Quantitative Data Applied to Tokamak Survey and Safety: present and future

During operation of present fusion devices, the plasma facing components (PFCs) are submitted to large heat fluxes within a range of 10-20 MW/m2. Understanding and preventing overheating of these components during long pulse discharges is a crucial issue. The surface temperature of the PFCs in the i...

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Bibliographische Detailangaben
Hauptverfasser: Travere, J.M., Balorin, C., Caulier, G., Desgranges, C., Dunand, G., Jouve, M., Moreau, P., Ravenel, N.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Cameras
Fusion
Image analysis
Infrared Images
Infrared imaging
Optical pulses
Plasma devices
Plasma measurements
Plasma temperature
Quantitative Image Analysis
Safety
Surface discharges
Survey and Safety
Tokamaks
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Beschreibung
Zusammenfassung:During operation of present fusion devices, the plasma facing components (PFCs) are submitted to large heat fluxes within a range of 10-20 MW/m2. Understanding and preventing overheating of these components during long pulse discharges is a crucial issue. The surface temperature of the PFCs in the inner chamber of a tokamak is measured by infrared (IR) cameras interfaced with complex optical systems. Due to the complexity of the observed IR scenes and the large amount of data produced, a computer-aided analysis of infrared images will be a key point for ITER, the next fusion device for both real-time applications and deferred-time analysis. This paper describes the current state of IR image analysis based on region of interest (ROI) approach at Tore Supra with an extrapolation to the future ITER tokamak.
DOI:10.1109/WISP.2007.4447641