Author:
El ouali Abdelmajid,Zennouhi Hajar,Benomar Wafaa,Laaroussi Najma,El rhafik Tarik,Kousksou Tarik
Abstract
Nowadays, with the rapid growths in world population and economy, the world energy demand and consumption have increased enormously which led to a wide variety of harsh environmental impacts [1]. As a potential solution for energy conservation storing the excess energy to fill the gap between energy supply and demand, using phase change materials (PCMs) has received much attention. Thermal energy storage with PCM is a promising technology based on the principle of latent heat thermal energy storage (LHTES)[2], where PCM absorbs or releases large amounts of energy at a certain temperature during the phase change transition period (charging and discharging process), with a high heat of fusion around its phase change temperature range [3]. Thermal energy storage in packed beds is receiving increased attention as a necessary component for efficient implementation of concentrated solar power plants. In this study, the thermal characteristics, during a single charge period, of a packed bed made of PCM filled spherical capsules is presented. It was found that the energy efficiency of the system proved to be very sensitive to the choice of the PCM melting temperature.
Reference20 articles.
1. Parry M. L., Canziani O., Palutikof J., Van der Linden P., Hanson C., Climate change 2007-impacts, adaptation and vulnerability: Working group II contribution to the fourth assessment report of the IPCC (Vol. 4), Cambridge University Press (2007).
2. Energy storage: Applications and challenges
3. Mehling H. and Cabeza L. F., Heat and cold storage with PCM, Heat and mass transfer (2008), 11–55.
4. Highly conductive composites made of phase change materials and graphite for thermal storage
5. Performance enhancement of a solar dynamic LHTS module having both fins and multiple PCMs