Experimental investigations on the influence of ice floating in an internal melt ice-on-coil tank

In this paper, the discharge of an experimental ice-storage tank is analyzed. The storage tank is an internal melt-ice-on-coil system. The discharge process has been studied for different mass flow rates and supply temperatures in the range from 10 ºC to 15 ºC. The results indicate that once the ice breaks and floats toward the top of the tank, convection in the ice/water mixture is enhanced and the heat transfer fluid in the top coils becomes colder than in the bottom coils. Thus, an increase of the cooling power is generally observed around the ice-breaking point. Two correlations have been developed to reproduce the effect of the mass flow rate and supply temperature on the discharge duration and the mean cooling power.The authors gratefully acknowledge ACCIONA Infraestructuras for the financing support and collaboration.López Navarro, A.; Biosca Taronger, J.; Torregrosa Jaime, B.; Corberán Salvador, JM.; Bote García, J.; Payá Herrero, J. (2013). Experimental investigations on the influence of ice floating in an internal melt ice-on-coil tank. Energy and Buildings. 57:20-25. doi:10.1016/j.enbuild.2012.10.040S20255