Experimental evaluation of passive cooling using phase change materials (PCM) for reducing overheating in public building

Abstract: Indoor Environmental Quality (IEQ) is essential for the health and productivity of building users. The risk of overheating in buildings is increasing due to increased density of occupancy of people and heat emitting equipment, increase in ambient temperature due to manifestation of climate change or changes in urban micro-climate. One of the solutions to building overheating is to inject some exposed thermal mass into the interior of the building. There are many different types of thermal storage materials whi… Show more

“…Hence, it is crucial to establish passive cooling methods to target overheating. The adoption to existing buildings can be made by the use of Phase Change Material (PCM), as done by [58][59][60][61][62][63][64].…”

Passive cooling techniques for ventilation: an updated review

“…Hence, it is crucial to establish passive cooling methods to target overheating. The adoption to existing buildings can be made by the use of Phase Change Material (PCM), as done by [58][59][60][61][62][63][64].…”

Passive cooling techniques for ventilation: an updated review

Global trends, performance metrics, and energy reduction measures in datacom facilities

Modelling Envelope Components Integrating Phase Change Materials (PCMs) with Whole- Building Energy Simulation Tools: a State of the Art