Hydrophilic substance assisted low temperature LiOH·H2O based composite thermochemical materials for thermal energy storage

Abstract

Lithium hydroxide monohydrate was modified by impregnation method with hygroscopic materials, such as polyethylene glycol (PEG), lithium chloride (LiCl), 13X-zeolite and NaY-zeolite. The lithium hydroxide monohydrate particles were well dispersed into nanoscale as composed with 13X-zeolite and NaY-zeolite. These composite materials exhibited obviously improved heat storage capacity and higher hydration rate than pure lithium hydroxide monohydrate, and the introduction of hygroscopic materials leads to greatly decreasing of apparent activation energy for the thermochemical reaction process. It is probably due to that hydrophilic materials provide efficient hygroscopic reaction interface and also show catalytic effect to the hydration reaction. Among these thermochemical materials, LiOH·H2O/13X-zeolite showed the lowest apparent activation energy (21.5kJ/mol) and the highest heat storage density (1949kJ/kg), which is 2.9 times higher than the pure lithium hydroxide after the same hydration time.