Thermochemical heat-storage materials such as magnesium, zinc and iron sulfates offer
high energy-storage densities and a reliable means of long-term storage of solar energy. In …

Thermochemical heat storage materials offer high‐energy storage densities and clean
means of long‐term solar energy storage. The aim of the study is to assess the potential heat …

This paper describes the characterization of four salt hydrates as potential thermochemical
material for compact seasonal heat storage in the built environment. First, magnesium …

Water vapor sorption in salt hydrates is one of the most promising means for compact, low
loss, and long-term storage of solar heat in the built environment. One of the most interesting …

The heat demand for dwellings in summer can be completely covered by solar heat, but in
winter the heat demand exceeds the solar supply. For a low-energy house, a solution is to …

The reversible dehydration and re-hydration of salts is considered as a promising
thermochemical process for the storage of heat from a renewable energy source such as …

The selection of a suitable salt hydrate for use in a thermochemical energy storage system is
challenging. In this work, the most promising salts to store intermediate heat energy were …

Thermal energy storage based on sorption is an emerging technology used in space
heating and cooling applications. Salt hydrates exhibit high energy density and emerge as …

Inorganic salt hydrates, known for their high thermal capacity, are promising materials for
large-scale thermal energy storage. This study investigates the potential of salt solution …

Salt hydrates are an appealing option to be used as sorption materials in thermal energy
storage (TES). In this work, strontium bromide and magnesium sulphate have been selected …