Investigating the performance of the PCM-integrated building envelope on a seasonal basis

Abstract

BackgroundThe PCM-integrated building envelope has shown significant potential in energy management and heating/cooling loads reduction. However, PCM layer performance highly depends on environmental conditions, configuration and its thermo-physical properties. The right choice of these characteristic features is great of importance since it may cause inverse effects. MethodsSo, in this comprehensive study, the performance of PCM wallboard under realistic sessional weather and solar radiation by considering different values of melting points (22, 24 and 26 °C) is investigated. To capture the solid/liquid interface and liquid fraction, the precise enthalpy-porous model, as well as the actual heat transfer chain consisting of radiation, convection and conduction from the environment to the room ambient, are implemented. Significant findingsThe results showed that the PCM layer is not always advantageous and more than 5% negative impact on energy loss is observed. So, the performance is highly dependent on other key factors including the environmental conditions and its volumetric amount. Also, the existence of optimum values for PCM layer thickness regarding the costs and wall density is observed for different types of PCM. The effect of the melting point on energy-saving is another significant parameter that has shown a considerable impact on appropriate PCM selection for specific regional conditions.