The utilization of solar energy in wintertime corresponds with the low temperature of the produced heat, which is often too low to directly leed heating plants. Heat transformation appears to be an attractive way of increasing the temperature of solar fluids, so that in the present paper some solutions are examined with different operating mixtures, i.e. H20-LiBr, CH30H-LiBr, CH30H-LiBr-ZnBr2 (2:1, 3:1). The overall efficiencies of the mentioned systems are determined, as well as the heat rates and the exergetic efficiencies. The conclusions are positive, especially with low values of the solar radiant power Wi. For values of Wi, less than 700 W/m2, which cover the majority of situations in temperate climates, it is remarkable that the introduction of an absorption heat transformer increases the overall efficiency; the advantage becomes very appropriate for low values of Wi as it is usual in cold-temperate climates.
Solar Heat Transformation Alternatives
FELLI, Mauro;BURATTI, Cinzia;COTANA, Franco
1994
Abstract
The utilization of solar energy in wintertime corresponds with the low temperature of the produced heat, which is often too low to directly leed heating plants. Heat transformation appears to be an attractive way of increasing the temperature of solar fluids, so that in the present paper some solutions are examined with different operating mixtures, i.e. H20-LiBr, CH30H-LiBr, CH30H-LiBr-ZnBr2 (2:1, 3:1). The overall efficiencies of the mentioned systems are determined, as well as the heat rates and the exergetic efficiencies. The conclusions are positive, especially with low values of the solar radiant power Wi. For values of Wi, less than 700 W/m2, which cover the majority of situations in temperate climates, it is remarkable that the introduction of an absorption heat transformer increases the overall efficiency; the advantage becomes very appropriate for low values of Wi as it is usual in cold-temperate climates.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
