A comprehensive review on the utilization of industrial solid waste in thermal energy storage field

The utilization of industrial solid waste for thermal energy storage represents an innovative approach to address environmental challenges while advancing energy storage technologies. This review comprehensively examines the potential of industrial solid wastes, including coal fly ash, red mud, sewage sludge, gypsum, metallurgical slag, and waste concrete, as thermal energy storage materials. The discussion encompasses the material properties, preparation methods, and applications of industrial solid wastes in both sensible and composite heat storage systems. The study highlights their capacity for high-temperature stability, enhanced thermal conductivity, and phase change material integration, offering significant energy density improvements. Moreover, the review identifies challenges such as material heterogeneity and long-term thermal cycling performance. Strategies for industrial solid waste modification, encapsulation of phase change materials, and innovative composite designs are analyzed to enhance their applicability in sustainable thermal energy storage systems. This work aims to provide a foundation for future research and industrial applications, emphasizing the dual benefits of environmental protection and energy efficiency improvement.