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Thermal Method Implementation for NePCM (Said et al., 2024) Figure 5 illustrates the diverse applications and key advantages of nano-enhanced phase change materials (NePCM) across various industries. The central circle highlights the benefits of NePCM, including enhanced thermal performance, improved thermal stability, better phase crystallization, and reduced subcooling. Surrounding segments detail the application areas, emphasizing solutions provided by NePCM in photovoltaic/thermal (PV/T) systems, the electronics industry, HVAC applications, solar-powered systems, and battery thermal management.

Thermal Method Implementation for NePCM (Said et al., 2024) Figure 5 illustrates the diverse applications and key advantages of nano-enhanced phase change materials (NePCM) across various industries. The central circle highlights the benefits of NePCM, including enhanced thermal performance, improved thermal stability, better phase crystallization, and reduced subcooling. Surrounding segments detail the application areas, emphasizing solutions provided by NePCM in photovoltaic/thermal (PV/T) systems, the electronics industry, HVAC applications, solar-powered systems, and battery thermal management.

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... attributes make NePCM an ideal choice for numerous applications, ranging from photovoltaic/ thermal (PV/T) systems and battery thermal management solutions to building insulation applications, HVAC systems, solar cookers, textiles, and the food industry. Figure 5 provides an overview of these applications, detailing the thermal regulation mechanisms involved. PCMs integrated into thermal energy storage (TES) systems offer substantial advantages in temperature regulation and energy efficiency. ...