The invention provides an efficient
moisture absorption-thermal
chemical reaction single-stage thermode driven by low-grade
heat energy. According to the efficient
moisture absorption-thermal
chemical reaction single-stage thermode driven by low-grade
heat energy, a reaction
bed valve block is connected with a left reaction
bed and a right reaction
bed, a condenser valve block is connected with a left condenser and a right condenser, an
evaporator valve block is connected with a left
evaporator and a right
evaporator, the left reaction bed, the left condenser and the left evaporator are connected in sequence, and the right reaction bed, the right condenser and the right evaporator are connected in sequence. According to the efficient
moisture absorption-thermal
chemical reaction single-stage thermode driven by low-grade
heat energy, the circulating
moisture absorption capacity is greatly improved, and thus the density of the energy flow is increased; meanwhile, the quality of low-temperature fluid is improved, and high-temperature fluid is obtained. When the temperature of a heat source is 95 DEG C and the condensing temperature is 15 DEG C, the temperature of the heat source can be increased to 125 DEG C from 70 DEG C, and the
energy density of a
system can reach 1.86kWh / kg;
internal energy storage is achieved, moisture-absorption salt is separated from refrigerating fluid during
energy storage, and no loss can be caused; when the temperature of the low-temperature fluid needs to rise, a user just needs to enable the moisture-absorption salt to be in contact with with the refrigerating fluid, and thus the high-temperature fluid can be obtained.