Copper–Alumina Capsules for High-Temperature Thermal Energy Storage

Abstract: High corrosivity, leakage, and oxidation of metallic phase-change materials (PCMs) have limited their applications in high-temperature thermal energy storage (TES) systems, regardless of their favorable benefits for high-temperature TES applications of over 1000 °C. To overcome these major challenges, this work presents a facile paraffin sacrificial layer approach for directly encapsulating copper (Cu) sphere PCMs with the alumina (Al 2 O 3 ) shell, considering a buffer inner cavity. The cavity is formed by th… Show more

“…Today, thermal energy storage has become a crucial technology for solving the global energy crisis in the oil, gas, and electricity markets. The development of thermal energy storage engineering has contributed to the reduction of energy consumption and the stabilization of power supplies across various industries, including commercial air conditioning, ,− data center cooling, , battery cooling, , photovoltaics, , and thermoregulation. …”

Review of Ionic Semiclathrate Hydrates as Thermal Energy Storage Materials: Properties and Applications

“…Today, thermal energy storage has become a crucial technology for solving the global energy crisis in the oil, gas, and electricity markets. The development of thermal energy storage engineering has contributed to the reduction of energy consumption and the stabilization of power supplies across various industries, including commercial air conditioning, ,− data center cooling, , battery cooling, , photovoltaics, , and thermoregulation. …”

Review of Ionic Semiclathrate Hydrates as Thermal Energy Storage Materials: Properties and Applications

Thermally enhanced nanocomposite phase change material slurry for solar-thermal energy storage

Drop-on-demand metal jetting of pure copper: On the interaction of molten metal with ceramic and metallic substrates