Characterization of high-temperature figure of merit for solar-thermal absorbers

The figure of merit (FOM) is a widely used metric to characterize the solar-thermal conversion performance of solar absorber layers. Many of previous works have reported FOMs estimated from the radiative properties measured at room temperature. However, advanced concentrated solar power (CSP) plants...

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Veröffentlicht in:	Solar energy materials and solar cells 2023-08, Vol.257 (C), p.112378, Article 112378
Hauptverfasser:	Elahi, A.N.M. Taufiq, Crist, Riley, Francoeur, Mathieu, Park, Keunhan, Rao, Sameer
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Sprache:	eng
Schlagworte:	Concentrated Solar Power (CSP) Figure of Merit (FOM) High-temperature metrology Solar-thermal absorber
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creator	Elahi, A.N.M. Taufiq Crist, Riley Francoeur, Mathieu Park, Keunhan Rao, Sameer
description	The figure of merit (FOM) is a widely used metric to characterize the solar-thermal conversion performance of solar absorber layers. Many of previous works have reported FOMs estimated from the radiative properties measured at room temperature. However, advanced concentrated solar power (CSP) plants operate at very high temperatures (∼750°C), which can strongly affect the absorber’s radiative properties. The present work proposes using a 1-D conduction-based reference bar technique to directly measure the converted thermal energy to determine the FOM at high absorber temperatures (≳750°C) while operating under a large solar concentration (∼1200× suns). Using the finite difference method, we carefully analyze several key parameters influencing the design of the experimental setup, such as temperature distribution, material properties, heat loss, and sensor accuracy. In addition, a rigorous uncertainty analysis is incorporated into the FOM to ascertain the confidence level of the result. We validate this new technique on a custom-built tungsten reference bar with an oxidized Inconel 625 solar-thermal absorber. A good agreement between the model and the experiment shows the reliability of the FOM measurement with a well-defined uncertainty. The same method can be implemented to measure the high-temperature FOM of most surface or volumetric solar absorbers for CSP. •Figure of merit (FOM) of solar absorbers measured at ⩾750 °C and ∼1200×concentration•1-D reference bar technique established for FOM measurement with uncertainty analysis.•Oxidized Inconel 625 tests highlight value of high-temperature FOM measurements.
doi_str_mv	10.1016/j.solmat.2023.112378
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Using the finite difference method, we carefully analyze several key parameters influencing the design of the experimental setup, such as temperature distribution, material properties, heat loss, and sensor accuracy. In addition, a rigorous uncertainty analysis is incorporated into the FOM to ascertain the confidence level of the result. We validate this new technique on a custom-built tungsten reference bar with an oxidized Inconel 625 solar-thermal absorber. A good agreement between the model and the experiment shows the reliability of the FOM measurement with a well-defined uncertainty. 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Taufiq</au><au>Crist, Riley</au><au>Francoeur, Mathieu</au><au>Park, Keunhan</au><au>Rao, Sameer</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Characterization of high-temperature figure of merit for solar-thermal absorbers</atitle><jtitle>Solar energy materials and solar cells</jtitle><date>2023-08-01</date><risdate>2023</risdate><volume>257</volume><issue>C</issue><spage>112378</spage><pages>112378-</pages><artnum>112378</artnum><issn>0927-0248</issn><eissn>1879-3398</eissn><abstract>The figure of merit (FOM) is a widely used metric to characterize the solar-thermal conversion performance of solar absorber layers. Many of previous works have reported FOMs estimated from the radiative properties measured at room temperature. However, advanced concentrated solar power (CSP) plants operate at very high temperatures (∼750°C), which can strongly affect the absorber’s radiative properties. 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subjects	Concentrated Solar Power (CSP) Figure of Merit (FOM) High-temperature metrology Solar-thermal absorber
title	Characterization of high-temperature figure of merit for solar-thermal absorbers
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