J.M. Houben scite author profile

The solid-state hydration of salts has gained particular interest within the frame of thermochemical energy storage. In this work, the water vapor pressure−temperature (p−T) phase diagram of the following thermochemical salts was constructed by combining equilibrium and nonequilibrium hydration experiments: CuCl 2 , K 2 CO 3 , MgCl 2 •4H 2 O, and LiCl. The hydration of CuCl 2 and K 2 CO 3 involves a metastable zone of ca. 10 K, and the induction times preceding hydration are well-described by classical homogeneous nucleation theory. It is further shown for K 2 CO 3 (metastable) and MgCl 2 •4H 2 O (not metastable) through solubility calculations that the phase transition is not mediated by bulk dissolution. We conclude that the hydration proceeds as a solid− solid phase transition, mobilized by a wetting layer, where the mobility of the wetting layer increases with increasing vapor pressure. In view of heat storage application, the finding of metastability in thermochemical salts reveals the impact of nucleation and growth processes on the thermochemical performance and demonstrates that practical aspects like the output temperature of a thermochemical salt are defined by its metastable zone width (MZW) rather than its equilibrium phase diagram. Manipulation of the MZW by e.g. prenucleation or heterogeneous nucleation is a potential way to raise the output temperature and power on material level in thermochemical applications.

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Stabilization of K2CO3 in vermiculite for thermochemical energy storage

Shkatulov

Houben

Fischer

et al. 2020

Renewable Energy

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K2CO3 in closed heat storage systems

et al. 2020

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Caesium doping accelerates the hydration rate of potassium carbonate in thermal energy storage

Houben

Shkatulov

Huinink

et al. 2023

Solar Energy Materials and Solar Cells

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Understanding the Hydration Process of Salts: The Relation between Surface Mobility and Metastability

Houben

Langelaan

Brinkman

et al. 2022

Crystal Growth & Design

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J.M. Houben

Understanding the Hydration Process of Salts: The Impact of a Nucleation Barrier

Stabilization of K2CO3 in vermiculite for thermochemical energy storage

K2CO3 in closed heat storage systems

Caesium doping accelerates the hydration rate of potassium carbonate in thermal energy storage

Understanding the Hydration Process of Salts: The Relation between Surface Mobility and Metastability

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