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Hourly analysis of temperature and heat gain reduction for building envelope-compacted phase change material in extremely hot conditions

Qudama Al-Yasiri, Márta Szabó

2023Journal of Energy Storage32 citationsDOIOpen Access PDF

Abstract

Compacting phase change materials (PCMs) for thermal energy management in buildings is a promising method to reduce peak temperature and heat gain in hot climates. This experimental study analyses the hourly temperature reduction (HTR) and hourly heat gain reduction (HHGR) of building envelope-compacted PCM passively during a hot summer day. Two cubicles, one compact with PCM and the other without, are fabricated and examined under non-ventilated conditions concerning the supreme PCM thickness and position in the roof and the best thermally-performed PCM-bricks in the walls. The results showed that PCM effectiveness is time-dependent, and the east wall performed better than the other walls showing a maximum HTR of 9.1 % and HHGR of 16 %. Moreover, the PCM roof surface showed a maximum HTR and HHGR of 15.1 % and 34.9 %, respectively, contributing to the total HGR by one-third. The research exhibited that the PCM cubicle indoor temperature was reduced by up to 4 °C in comparison with the one referenced.

Topics & Concepts

Building envelopePhase-change materialSolar gainRoofEnvelope (radar)Phase changeMaterials scienceEnvironmental scienceThermalStructural engineeringMeteorologyEngineeringEngineering physicsGeographyRadarTelecommunicationsPhase Change Materials ResearchBuilding Energy and Comfort OptimizationSolar Energy Systems and Technologies
Hourly analysis of temperature and heat gain reduction for building envelope-compacted phase change material in extremely hot conditions | Litcius