Characterization of Solar-Aged Porous Silicon Carbide for Concentrated Solar Power Receivers

Characterization of Solar-Aged Porous Silicon Carbide for Concentrated Solar Power Receivers

Porous silicon carbide is a promising material for ceramic receivers in next-generation concentrated solar power receivers. To investigate its tolerance to thermal shock, accelerated ageing of large coupons (50 × 50 × 5 mm) was conducted in a solar furnace to investigate the effects of thermal cycli...

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Main Authors: Inmaculada Cañadas, Victor M. Candelario, Giulia De Aloysio, Jesús Fernández, Luca Laghi, Santiago Cuesta-López, Yang Chen, T. James Marrow, Antonio Rinaldi, Ana Mariblanca Sanchez, Angelo Tatì, Claudio Testani
Format: Article
Language:English
Published: MDPI AG 2021-08-01
Series:Materials
Subjects:
silicon carbide
accelerated ageing
non-destructive testing
computed tomography
ultrasonic
thermal diffusivity
Online Access:https://www.mdpi.com/1996-1944/14/16/4627
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spelling doaj-00da7c0026a0477e8166878b0b3f4f7c2021-08-26T14:01:17ZengMDPI AGMaterials1996-19442021-08-01144627462710.3390/ma14164627Characterization of Solar-Aged Porous Silicon Carbide for Concentrated Solar Power ReceiversInmaculada Cañadas0Victor M. Candelario1Giulia De Aloysio2Jesús Fernández3Luca Laghi4Santiago Cuesta-López5Yang Chen6T. James Marrow7Antonio Rinaldi8Ana Mariblanca Sanchez9Angelo Tatì10Claudio Testani11Materials for Concentrating Solar Thermal Technologies Unit, CIEMAT-PSA Almeria, 04200 Tabernas, SpainLiqTech Ceramics A/S, Industriparken 22C, 2750 Ballerup, DenmarkCertiMaC soc.cons. a r.l., 48018 Faenza, ItalyPoint-Focus Concentrating Solar Thermal Technologies Unit, CIEMAT-PSA Almeria, 04200 Tabernas, SpainCertiMaC soc.cons. a r.l., 48018 Faenza, ItalyFundación ICAMCyL-Centro Internacional de Materiales Avanzados y Materias Primas de Castilla y León, 24009 León, SpainDepartment of Materials, University of Oxford, Oxford OX1 2JD, UKDepartment of Materials, University of Oxford, Oxford OX1 2JD, UKSustainability Department, ENEA, 00196 Rome, ItalyAsociación Española de Normalización, UNE, 28004 Madrid, SpainSustainability Department, ENEA, 00196 Rome, ItalyConsorzio CALEF C/O ENEA CR Casaccia S.M. di Galeria, 00123 Roma, ItalyPorous silicon carbide is a promising material for ceramic receivers in next-generation concentrated solar power receivers. To investigate its tolerance to thermal shock, accelerated ageing of large coupons (50 × 50 × 5 mm) was conducted in a solar furnace to investigate the effects of thermal cycling up to 1000 °C, with gradients of up to 22 °C/mm. Non-destructive characterization by computed X-ray tomography and ultrasonic inspection could detect cracking from thermal stresses, and this informed the preparation of valid specimens for thermophysical characterization. The effect of thermal ageing on transient thermal properties, as a function of temperature, was investigated by using the light-flash method. The thermophysical properties were affected by increasing the severity of the ageing conditions; thermal diffusivity decreased by up to 10% and specific heat by up to 5%.https://www.mdpi.com/1996-1944/14/16/4627silicon carbideaccelerated ageingnon-destructive testingcomputed tomographyultrasonicthermal diffusivity
collection DOAJ
language English
format Article
sources DOAJ
author Inmaculada Cañadas
Victor M. Candelario
Giulia De Aloysio
Jesús Fernández
Luca Laghi
Santiago Cuesta-López
Yang Chen
T. James Marrow
Antonio Rinaldi
Ana Mariblanca Sanchez
Angelo Tatì
Claudio Testani
spellingShingle Inmaculada Cañadas
Victor M. Candelario
Giulia De Aloysio
Jesús Fernández
Luca Laghi
Santiago Cuesta-López
Yang Chen
T. James Marrow
Antonio Rinaldi
Ana Mariblanca Sanchez
Angelo Tatì
Claudio Testani
Characterization of Solar-Aged Porous Silicon Carbide for Concentrated Solar Power Receivers
Materials
silicon carbide
accelerated ageing
non-destructive testing
computed tomography
ultrasonic
thermal diffusivity
author_facet Inmaculada Cañadas
Victor M. Candelario
Giulia De Aloysio
Jesús Fernández
Luca Laghi
Santiago Cuesta-López
Yang Chen
T. James Marrow
Antonio Rinaldi
Ana Mariblanca Sanchez
Angelo Tatì
Claudio Testani
author_sort Inmaculada Cañadas
title Characterization of Solar-Aged Porous Silicon Carbide for Concentrated Solar Power Receivers
title_short Characterization of Solar-Aged Porous Silicon Carbide for Concentrated Solar Power Receivers
title_full Characterization of Solar-Aged Porous Silicon Carbide for Concentrated Solar Power Receivers
title_fullStr Characterization of Solar-Aged Porous Silicon Carbide for Concentrated Solar Power Receivers
title_full_unstemmed Characterization of Solar-Aged Porous Silicon Carbide for Concentrated Solar Power Receivers
title_sort characterization of solar-aged porous silicon carbide for concentrated solar power receivers
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2021-08-01
description Porous silicon carbide is a promising material for ceramic receivers in next-generation concentrated solar power receivers. To investigate its tolerance to thermal shock, accelerated ageing of large coupons (50 × 50 × 5 mm) was conducted in a solar furnace to investigate the effects of thermal cycling up to 1000 °C, with gradients of up to 22 °C/mm. Non-destructive characterization by computed X-ray tomography and ultrasonic inspection could detect cracking from thermal stresses, and this informed the preparation of valid specimens for thermophysical characterization. The effect of thermal ageing on transient thermal properties, as a function of temperature, was investigated by using the light-flash method. The thermophysical properties were affected by increasing the severity of the ageing conditions; thermal diffusivity decreased by up to 10% and specific heat by up to 5%.
topic silicon carbide
accelerated ageing
non-destructive testing
computed tomography
ultrasonic
thermal diffusivity
url https://www.mdpi.com/1996-1944/14/16/4627
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