Non-destructive testing method to quantify aging of materials by its apparent emissivity: Case of glass-based reflectors

•Aging of glass-based reflectors used in concentrated solar plants.•Effects of damp heat protocol on infrared spectral emissivity of glass-based reflectors.•Effects of damp heat protocol on normal LWIR apparent emissivity of glass-based reflectors.•In-situ mapping of the aging of glass-based reflect...

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Bibliographic Details
Published in:Applied thermal engineering 2017-03, Vol.115, p.539-548
Main Authors: Riou, Olivier, Delaleux, Fabien, Guiheneuf, Vincent, Espargilliere, Harold, Logerais, Pierre-Olivier, Olives, Régis, Py, Xavier, Durastanti, Jean-Félix
Format: Article
Language:English
Subjects:
Accelerated aging tests
Accelerated tests
Aging (materials)
Aging (natural)
Apparent emissivity measurement capabilities
Compensation
Damp heat test
Damping
Destructive testing
Emissivity
Engineering Sciences
Glass
Glass-based reflector aging
Heat
Infrared radiation
Materials science
Moisture content
Nondestructive testing
Normal LWIR apparent emissivity
Optics
Parameter identification
Photonic
Reflectors
Scaling laws
Thermodynamics
Thermography
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Summary:•Aging of glass-based reflectors used in concentrated solar plants.•Effects of damp heat protocol on infrared spectral emissivity of glass-based reflectors.•Effects of damp heat protocol on normal LWIR apparent emissivity of glass-based reflectors.•In-situ mapping of the aging of glass-based reflectors by utilizing apparent emissivity. In this paper, the measurement capabilities of apparent emissivity are tested by means of a generic LWIR system to quantify the aging of materials. A theoretical frame permitted to elaborate abacuses and to correlate a scaling law to identify the relevant parameters, and to foretell performance in terms of absolute aging time interval resolution as well. The predictions are done for both indoor and outdoor situations. They are compared with measurements performed on glass-based mirrors of a heliostat of the solar furnace of Odeillo after having undergone a Damp Heat accelerated aging test. Apparent emissivity measurements implement an indoor home-made device which had already been characterized. The performances are in accordance with the predictions and allow to discriminate initial natural aging of glass mirror combined with accelerated aging with an interval resolution from 4 to 10years keeping in mind that we are in quest of differentiating two mirror glasses or of quantifying the absolute aging of each mirror. Limitations of indoor measurements come mainly from the accuracy of Non-Uniformity Correction and from the internal drift compensation inherent to any IR system. Outdoor performances are foreseen to be as efficient by optimizing the contrast tapp.-tenv.. If we consider an uncertainty of emitting temperature of 0.25°C and the one of apparent temperature of 0.1°C, a standard outdoor thermography would enable to discriminate absolute aging produced by Damp Heat test with a 10 standard year resolution.
ISSN:1359-4311
1873-5606
DOI:10.1016/j.applthermaleng.2016.12.109