Abstract

Abstract This paper reports on the testing of a small scale double-reflector solar concentrating system with heat storage. The main advantage of thermal heat storage is that the thermal energy is available also during times when there is little or no sun shine. A well insulated heat storage should keep the heat for about 24 h. Many solar heat collection systems are based on transportation of heat from the focal point to the storage by a circulating heat transfer fluid. With a double-reflector arrangement, the storage is heated directly, and no heat transport fluid is needed in this system. NaNO 3 and KNO 3 in 60:40 percent ratio (mol%) were used as latent heat storage medium. The melting temperature of about 220 °C is quite suitable for cooking and baking purposes. Copper fin was used to increase the heat transfer rate from the heated top plate into the heat storage medium. The experimental results demonstrated that the melting of phase change material occurred within 2–2.5 h and reached the temperature range of 230–260 °C. The latent heat storage unit has been analyzed numerically using a finite element model. Effective heat capacity method was adopted to simulate the phase change process. The model developed in this study is able to predict the experimental results quite satisfactory within about 15% error.

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