Abstract EN:

An innovative concept of seasonal storage of solar energy for house heating by absorption is developed in this thesis. The process is introduced and described. The study of the storage capacity, the efficiency, the operating pressure, the temperature need for solar energy, the possible temperature for house heating, the material security and the material economy of seven absorption couples : CaC12/H2O, Glycerin/H2O, KOH/H2O, LiBr/H2O, LiCI/H2O, NaOH/H2O and H2O/NH3 is performed by a static simulation. A prototype of demonstration of the feasibility of the concept with the absorption couple CaC12/H2O is designed, dimensioned and built. It has been optimized, in order to minimize the number of components of the system. Experimentations are carried out at different operating conditions. The thermodynamic performances and the problems of the prototype are analyzed. As the experimental results are influenced by several factors, for a better understanding of the process, a dynamic simulation is developed to represent the prototype. The optimal functioning of the prototype is thus studied through the dynamic simulation. An global annual dynamic simulation is performed in order to obtain the annual performance of the seasonal storage system in a building. Models of the storage system, of a solar collector, a building and weather conditions are used. The characteristics such as the pressure, the temperature, the mass, the mass fraction, the power, the efficiency, the storage capacity etc. Of the storage system are presented and analyzed.