Corrosion effects between molten salts and thermal storage material for concentrated solar power plants

Corrosion effects between molten salts and thermal storage material for concentrated solar power plants

► Thermal energy storage combining sensible heat and phase change materials (PCMs). ► Asbestos-containing wastes valorisation in concentrated solar power plants. ► Interactions between inertized asbestos-containing waste and molten salts. ► High temperature NMR characterization of corrosion. Today,...

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Bibliographic Details
Published in:Applied energy Vol. 94; pp. 174 - 181
Main Authors: Guillot, Stéphanie, Faik, Abdessamad, Rakhmatullin, Aydar, Lambert, Julien, Veron, Emmanuel, Echegut, Patrick, Bessada, Catherine, Calvet, Nicolas, Py, Xavier
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-06-2012
Elsevier
Subjects:
Applied sciences
Asbestos-containing wastes
CSP
Energy
Exact sciences and technology
High temperature
Molten salts
Solar energy
Thermal energy storage
CSP
Thermal energy storage
Asbestos-containing wastes
High temperature
Molten salts
Solar energy
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Summary:► Thermal energy storage combining sensible heat and phase change materials (PCMs). ► Asbestos-containing wastes valorisation in concentrated solar power plants. ► Interactions between inertized asbestos-containing waste and molten salts. ► High temperature NMR characterization of corrosion. Today, thermal energy storage (TES) is a key issue for concentrated solar power plants (CSPs). The available and mature technologies of TES do not mach all the actualised criteria for those properties. Alternative approaches have to be identified and developed to guaranty the expected extension of CSP implementations with respect to the IEA 2050 scenario. In this context, promising hybrid TES systems based upon the combination of sensible heat and liquid/solid phase change material (PCM) sub-systems are considered. For the sensible heat stage, a recycled refractory ceramic made of inertised asbestos-containing waste (IACW) is proposed. For the PCM stage, high temperature inorganic salts are considered. One major aspect of the hybrid TES is the integration of the two stages together. Therefore, the present study is focussed on the needed assessment concerning the compatibility between the IACW and the molten salts in terms of corrosion. Sulphates, phosphates, carbonates and nitrates salts have been experimented and the corrosion effects characterised by in situ NMR, ex situ X-ray diffraction and Scanning Electron Microscopy. Among those available salts, only the nitrates have shown good compatibility with IACW materials. For higher temperature levels, other salts or eutectics will have to be considered to allow hybrid TES with direct contact.
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ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2011.12.057