Revolutionizing Thermochemical Adsorption Heat Storage : An MgSO4/MgCl2/MEG Composite Prepared by the Ball Milling Method for Efficient and Stable Low-Temperature Heat Storage

Zhang, XuelingXun, HaoyunZhou, YingfangZhang, QiZhang, YeqiangWu, XuehongJin, TingxiangLi, Rijie2025-01-232025-01-232025-04-15Zhang, X, Xun, H, Zhou, Y, Zhang, Q, Zhang, Y, Wu, X, Jin, T & Li, R 2025, 'Revolutionizing Thermochemical Adsorption Heat Storage : An MgSO4/MgCl2/MEG Composite Prepared by the Ball Milling Method for Efficient and Stable Low-Temperature Heat Storage', Applied Thermal Engineering, vol. 265, 125482. https://doi.org/10.1016/j.applthermaleng.2025.1254821359-4311https://hdl.handle.net/2164/24926205699405engThermochemical heat storageComposite heat storage materialHeat storage densityCycle stabilityDesorption kinetic modelNumerical simulationTK Electrical engineering. Electronics Nuclear engineeringTKRevolutionizing Thermochemical Adsorption Heat Storage : An MgSO4/MgCl2/MEG Composite Prepared by the Ball Milling Method for Efficient and Stable Low-Temperature Heat StorageJournal article10.1016/j.applthermaleng.2025.125482265