Phase change materials for climate-adaptive buildings: A review framed by tropical and Mediterranean climates

Improving the energy performance of buildings is a global imperative. This review explores the role of Phase Change Materials (PCMs) as thermal energy storage components in buildings, using contrasting climate zones - tropical (Singapore) and Mediterranean (Portugal) - as a framework for climate-responsive analysis.

The review synthesizes current knowledge across experimental investigations, numerical simulations, and modeling approaches, focusing on PCM classification, incorporation strategies, thermophysical performance, and building-level integration. It identifies key knowledge gaps in the literature, including limited treatment of climatic influences on PCM behavior, insufficient comparative insights across regions, and fragmented integration of modeling and experimental findings.

By contextualizing PCM research within two distinct climate zones, this review offers practical insights into climate-sensitive design, material selection, and energy-saving strategies. It contributes a comprehensive perspective that bridges laboratory research and simulation studies with building application needs, supporting the development of energy-efficient and climate-adapted buildings.