OpenAIRE - Collezioni speciali delle ricerche finanziate dalla Commissione Europea per l'Open Access

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In questa comunità si trovano i lavori pubblicati con i finanziamenti relativi al 7 Programma Quadro (clausola 39)

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End date: 2017Subject: search.filters.subject.Turbiscan

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    Preparation and characterization of PCM from Glauber salt recoverable from the disposal of lead batteries
    (2016-12-20) De Paola, Maria Gabriela; Arcuri, Natale; Calabrò, Vincenza; De Simone, Marilena
    Glauber salt (sodium sulfate decahydrate) is a promising phase change material (PCM) to use in the building sector, thanks to the high enthalpy of fusion associated with a proper phase transition temperature. Also it offers economic and environmental advantages because it can be obtained as by product from the disposal process of lead batteries. However the Glauber salt, due to phenomena of phase segregation and subcooling, cannot be used in the pure state but requires the addition of rheological modifiers and nucleating agents. In this work the thermal performances of mixtures based on Glauber salt with different compositions are compared by using T-history method, by adopting sonication for mixing, and following the same preparation procedure for all the samples. Fixed the composition, also the effects of the sequence of addition of the reagents is examined. The analysis carried out by Turbiscan allowed to identify the kinetic of destabilization of each sample and revealed the need to specify in detail the preparation stages of PCM in order to make the composition reproducible in laboratory and on a wider scale.
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    Crossed analysis by T-history and Turbiscan for the characterization of PCM with Glauber salt
    (2016-12-20) De Paola, Maria Gabriela; De Simone, Marilena; Arcuri, Natale; Calabrò, Vincenza
    The Glauber salt (sodium sulfate decahydrate) is a low-cost Phase Change Material (PCM) with promising characteristics. It offers economic and environmental advantages since it can be recovered as a waste product from the lead battery disposal. However, sub-cooling and phase segregation problems [1] require the addition of appropriate additives capable to reduce the melting temperatures as well as the latent heat [2]. These mixtures are dispersions, heterogeneous systems, for which the T-history method [3] seems to be more suitable respect to the traditional DSC, due to the major and more significant sampling. On the other hand, these systems are not thermodynamically stable and need more detailed information on the kinetics of destabilization. With this aim, the authors propose the analysis by using Turbiscan, an instrument commonly used in the pharmaceutical and cosmetic sector since it allows identification of slow and not visible phenomena that precede the dispersion destabilization [4]. Also the integration of the characterization by this method could provide further information on the effectiveness of the additives addition and on the method of samples preparation.