Experimental and Numerical Research on the Performance of a Seasonal Ice Storage Device in Summer Residential Rooms of Northeast China

Seasonal cold storage is an environment-friendly technique that utilizes natural cold source in winter for summer cooling. In this study, a seasonal ice storage device using cold ambient air in cold regions in winter to make and storage ice for cooling residential rooms in summer was developed. The mathematical model of a seasonal ice storage device was established and validated though designing and measuring the operation data of an experimental device under the winter condition in Shenyang, China. The impacts of various affecting factors, including the inlet wind speed, inlet size, and the air channel size on the performance of the ice making and storage device were analyzed. The results indicate that the time that is taken for ice-making decreases with the increase of the inlet size, decreases with the increase of the inlet wind speed and decreases with the increase of the air channel size. The optimal air channel size of the seasonal ice storage device was achieved. The proposed and optimized device can save cold energy for residential buildings, and provide some guidance for the understanding of ice making and ice storage characteristics in the seasonal ice storage device.