Journal Articles Joule Year : 2025

Converting low-grade heat into mechanical energy using a natural rubber elastocaloric device

Gaël Sebald
Giulia Lombardi

Abstract

This work leverages the thermomechanical properties of natural rubber, an abundant, lowcost and renewable material, for low-grade heat energy harvesting. Natural rubber tubes exhibited temperature-induced stress variations of 10 kPa.K-1 when pre-elongated to 5 times their original length, for a temperature range of 20 to 60°C. A prototype elastocaloric device was evaluated using a fluid to cyclically transfer heat from a hot heat exchanger to the natural rubber and then to a cold heat exchanger. Constitutive equations and simulations were used to assess the energy conversion capability. Finally, thermodynamic energy cycles were experimentally tested with temperature variations of 35 K and elongations of 4.5 to 5.5 times the original length, converting heat to mechanical work at 4 J per cycle, corresponding to 150 mJ.cm-3. The proposed design is scalable using a larger quantity of natural rubber, and after adding an electromagnetic system, low-grade heat energy may be converted into electricity.

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hal-05221057 , version 1 (25-08-2025)

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Gaël Sebald, Giulia Lombardi, Gildas Coativy, Atsuki Komiya. Converting low-grade heat into mechanical energy using a natural rubber elastocaloric device. Joule, 2025, 9 (7), pp.102012. ⟨10.1016/j.joule.2025.102012⟩. ⟨hal-05221057⟩
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