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Industrial waste heat recovery using an enhanced conductivity latent heat thermal energy storage

Kevin Merlin, Jérôme Soto, Didier Delaunay and Luc Traonvouez

Applied Energy, 2016, vol. 183, issue C, 503 pages

Abstract: The aim of this work is to present the experimental performance of a latent heat thermal energy storage. A demonstrator devoted to recover waste heat in food processing industry is investigated. The storage is composed of an expanded natural graphite matrix impregnated with paraffin wax. This kind of composite material has been studied in previous works and appears to be one of the best solutions for the applications requiring a high heat transfer density, defined as the ratio of requested thermal power and stored energy. An investigation of the thermal performance of the storage during cooling and heating phases is presented. The results show that the storage is able to save 6kW·h, which represents 15% of the energy of the process and delivers a thermal power larger than 100kW, as planned during the design phase. Differences appear between the performances in heating and cooling. Some assumptions on the causes of this phenomenon are proposed, such as the change of viscosity of the heat transfer fluid, the heat losses through the external casing, or the variation of the thermal contact resistance within the heat exchanger containing the storage material. Finally, an economical approach is performed, showing a manufacturing cost of 260€/kW·h and a payback period within 500days for this application.

Keywords: Thermal storage; Industrial waste heat; Phase change material; Expanded natural graphite; Heat exchanger; Latent heat (search for similar items in EconPapers)
Date: 2016
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (21)

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DOI: 10.1016/j.apenergy.2016.09.007

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