Improving the performance of solar heat collector using molten salts

Abstract EN

An individual solar collector and two partly freight cylinders filled with molten salts embedded storage tank were connected to each other and forced circulated water by electric pump to improve the thermal performance of residential solar hot water tank.

Multi flow rates of 25, 50 and 70 l/h.

used to achieve an appropriate flow rate of circulating water.

The calcium nitrate tetra hydrate Ca(NO3)2-4H2O and magnesium nitrate hex hydrate Mg(NO3)2-6H2O were mixed to form cheap binary molten salts base on different weight ratios.

These molten salts combined could be used as both sensible heat materials and latent heat storage materials, besides they can directly use as heat transfer fluid due to freezing temperature.

Six samples of different mixing ratio of molten salts had tested to assess the thermal analysis of each sample.

The result indicated that the mixture 60% Ca(NO3)2+40% Mg(NO3)2 had the best performance for thermal storage tank with melting point of 38°C and the thermal value is 8.7 mW, and thermal stability of molten salts were noticed by DSC 60 SHIMADZSU An individual solar collector and two partly freight cylinders filled with molten salts embedded storage tank were connected to each other and forced circulated water by electric pump to improve the thermal performance of residential solar hot water tank.

Multi flow rates of 25, 50 and 70 l/h.

used to achieve an appropriate flow rate of circulating water.

The calcium nitrate tetra hydrate Ca(NO3)2-4H2O and magnesium nitrate hex hydrate Mg(NO3)2-6H2O were mixed to form cheap binary molten salts base on different weight ratios.

These molten salts combined could be used as both sensible heat materials and latent heat storage materials, besides they can directly use as heat transfer fluid due to freezing temperature.

Six samples of different mixing ratio of molten salts had tested to assess the thermal analysis of each sample.

The result indicated that the mixture 60% Ca(NO3)2+40% Mg(NO3)2 had the best performance for thermal storage tank with melting point of 38°C and the thermal value is 8.7 mW, and thermal stability of molten salts were noticed by DSC 60 SHIMADZSU devise.