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Innovative PCM-enhanced recycled concrete for year-round energy savings and thermal regulation in buildings

Md Jaynul Abden, Vivian W.Y. Tam, Jannatul Dil Afroze, Khoa N. Le

2025Energy29 citationsDOIOpen Access PDF

Abstract

Reducing reliance on energy-inefficient mechanical cooling systems by improving building energy efficiency is critical for transforming the global energy landscape and achieving sustainability. This study introduces a novel phase change material–impregnated recycled concrete aggregate (RCA–PCM) composite concrete designed to deliver year-round energy savings and enhanced thermal regulation. The RCA–PCM concrete achieves a compressive strength of 48.7 MPa–47.1 % higher than standard RCA concrete, while providing effective latent heat storage of ∼9.2 J/g, enabling superior thermal and energy performance. Prototype testing demonstrates that this innovative material can lower peak indoor temperatures by up to 7.2 °C compared to RCA concrete and 5 °C compared to conventional concrete during summer conditions. EnergyPlus simulations indicate that incorporating RCA–PCM concrete into building walls and roofs can reduce energy consumption by 37.1 %, corresponding to an annual CO₂ emission reduction of 2.12 billion metric tons, or 5.7 % of global emissions. Manufactured using abundant recycled concrete waste and simple technologies, this sustainable material offers a scalable and practical solution for minimizing the construction industry's carbon footprint while advancing global carbon neutrality goals. • Developed novel energy-efficient concrete with PCM and RCA integration. • Enhanced thermal energy storage performance of RCA-PCM composite aggregate. • Evaluated RCA-PCM concrete's energy performance using EnergyPlus simulation. • Demonstrated potential for a 5.7 % reduction in global CO 2 emissions.

Topics & Concepts

ThermalWaste managementEnvironmental scienceCivil engineeringArchitectural engineeringEngineeringBusinessMeteorologyPhysicsThermal Radiation and Cooling TechnologiesUrban Heat Island MitigationTransition Metal Oxide Nanomaterials
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