A eutectic mixture of galactitol and mannitol as a phase change material for latent heat storage

Cyclic stability of the eutectic mixture of galactitol and D-mannitol. [Display omitted] •A eutectic mixture of galactitol/mannitol was studied as a phase change material.•The eutectic mixture featured a low melting point and a high heat of fusion.•The eutectic mixture showed high cyclic and chemical stability under an atmosphere of nitrogen.•The subcooling of the eutectic mixture was improved by adding nucleating agents. The thermophysical properties of mixtures of galactitol and mannitol were examined via differential scanning calorimetry (DSC) and X-ray powder diffraction (XRD) analysis. The aforementioned sugars were found to form a eutectic mixture at a 30:70molar ratio of galactitol and manntitol, and displayed a melting point of 153°C while maintaining a high latent heat of fusion (ΔHfus=292Jg−1). The XRD data revealed that the eutectic mixture contained the α, β, and δ forms of mannitol with the δ form being the major component. By varying the temperature ramp rates utilized in the DSC measurements from 0.5°Cmin−1 to 20°Cmin−1, the heat of crystallization as well as the crystallization temperature increased (c.f., ΔHcrys: 64Jg−1→197Jg−1; Tc: 68°C→105°C). In addition, the temperature and the enthalpy of crystallization were also improved by up to 34% through the addition of small quantities (up to 0.5wt%) of nucleating agents, such as graphite powder or silver iodide. After 100 heating/cooling cycles under an atmosphere of nitrogen, the heat of fusion of the eutectic mixture decreased by only 4% with no change in the melting point, and the mixture appeared to be chemically stable according to a Fourier transform infrared (FT-IR) spectroscopic analysis. Collectively, these data indicate that the eutectic mixture exhibits excellent cyclic stability under ambient atmospheres and offers potential for use in thermal energy storage applications.