文摘
A new porous-resin-supported calcium sulfate (CaSO4-PSM) material with high-density and high reactivity for chemical heat storage is developed and characterized. The newly developed CaSO4-PSM exhibits a higher reactivity than normal CaSO4. Furthermore, the particle diameter is an important factor for the development of new chemical thermal energy storage (CTES) material. CaSO4-PSM exhibits good performance in the hydration and dehydration processes when used as a CTES material. The hydration reaction rate of the particle with a diameter of 75 μm is 13.3 times of that of 750 μm, whereas, the dehydration reaction velocity is approximately 1.5 times higher. This finding is due to more abundant favorable pore channels for vapor transport and a larger specific surface area. Aggregation of the CaSO4 particles before and after repetitive operations can be eliminated, and a good durability of the new porous supported thermal energy storage material of CaSO4 can be obtained.