You are in:Home/Publications/Experimental investigations on the thermal performance of an ice storage system using twin concentric helical coil

Prof. Hassanein Abdelmohsen Hassanein Refaey :: Publications:

Title:
Experimental investigations on the thermal performance of an ice storage system using twin concentric helical coil
Authors: HE Abdelrahman; HA Refaey; A Alotaibi; Ali A Abdel-Aziz; MF Abd Rabbo
Year: 2020
Keywords: Cool thermal energy storage; Ice-on-coil; Twin concentric helical coil; Internal melt
Journal: Applied thermal engineering
Volume: 179
Issue: Not Available
Pages: 115737
Publisher: Elsevier
Local/International: International
Paper Link:
Full paper Not Available
Supplementary materials Not Available
Abstract:

The cool thermal energy storage (CTES) offers a big advantage for peak shift of high electrical power consumed by air conditioning systems. An experimental analysis for studying the thermal performance of ice storage system with twin concentric helical coil (TCHC) is conducted in the present work. Effects of operating conditions such as the heat transfer fluid (HTF) inlet temperature and flow rate on the solidified/melted mass fraction, percentage energy stored/regained, and average charging/discharging rate during charging and discharging processes are investigated. An experimental setup composed of TCHC immersed in distilled water as a phase change material (PCM) in an insulated tank is used in the present study. Three different HTF inlet temperatures of (−8, −10, and −12 °C) and (10, 12, and 14 °C) for charging and discharging processes, respectively and HTF volume flow rates (5.0, 7.5, and 10 l/min) are investigated. The results show that, about 90% of the energy stored is achieved at 59–74% of the complete charging time according to the tested parameter range in the current study. Moreover, the HTF volume flow rates have a relatively small effect on the percentage energy stored and seems to be less effective compared to the inlet HTF temperature during charging process.

Google ScholarAcdemia.eduResearch GateLinkedinFacebookTwitterGoogle PlusYoutubeWordpressInstagramMendeleyZoteroEvernoteORCIDScopus