Uncertainty Study of Reflectance Measurements for Concentrating Solar Reflectors

Francisco Buendia-Martinez,Alejandro Garcia-Segura,Florian Sutter,Loreto Valenzuela,Tomas Jesus Reche-Navarro,Lucia Martinez-Arcos,Aranzazu Fernandez-Garcia

doi:10.1109/tim.2020.2975387

Francisco Buendia-Martinez, Alejandro Garcia-Segura + Show 5 more

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https://doi.org/10.1109/tim.2020.2975387

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Abstract

The solar reflector is one of the main components of concentrated solar thermal systems. Therefore, accurate knowledge of its solar-weighted, near-specular reflectance is highly important. Currently, this parameter cannot be properly measured with a single commercial instrument. There is a great interest in having a suitable procedure that can guarantee the accuracy of reflector quality analysis, which already led to the publication of an international measurement guideline (title “Parameters and method to evaluate reflectance properties of reflector materials for concentrating solar power technology”). Still, more research work is needed to improve the state of the art. At present, both the specular reflectance and the spectral hemispherical reflectance are measured by using commercial portable reflectometers and spectrophotometers, respectively, to gain enough information. This article concentrates on the evaluation and calculation of the type-B (nonstatistical) uncertainties associated with these employed instruments and, therefore, leads to a more accurate definition of the measurement uncertainty. Considering type-B uncertainty, the expanded uncertainties of measurements for most of the reflector types are $U_{\mathrm {B,ref}} = 0.006$ for monochromatic specular reflectance and $U_{\mathrm {B,spec}} = 0.016$ for solar-weighted hemispherical reflectance.

Highlights

G LOBAL warming, worldwide fossil fuel shortage in the near future and restrictions on carbon emissions are increasing the importance of renewable energy resources
1) Ambient Temperature: In general, differences due to the temperature changes are not considered as an uncertainty but considered as a measurement correction
This behavior depends on the reflector materials because their chemical structure may be affected by thermal expansion

Summary

Introduction

G LOBAL warming, worldwide fossil fuel shortage in the near future and restrictions on carbon emissions are increasing the importance of renewable energy resources. The Sun radiates more energy in one second than the whole amount of energy used since the beginning of humanity [1]. The main technologies that harvest solar energy are photovoltaics and concentrated solar thermal (CST) systems. On the one Manuscript received October 31, 2019; revised January 9, 2020; accepted January 28, 2020. (Francisco Buendía-Martínez, Florian Sutter, Lucía Martínez-Arcos, Tomás Jesús Reche-Navarro, Alejandro García-Segura, and Loreto Valenzuela contributed to this work.) (Corresponding author: Aránzazu Fernández-García.) The Associate Editor coordinating the review process was Datong Liu. (Francisco Buendía-Martínez, Florian Sutter, Lucía Martínez-Arcos, Tomás Jesús Reche-Navarro, Alejandro García-Segura, and Loreto Valenzuela contributed to this work.) (Corresponding author: Aránzazu Fernández-García.)

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