论文信息 - Solid-gas chemical heat pumps: Field of application and performance of the internal heat of reaction recovery process

Solid-gas chemical heat pumps: Field of application and performance of the internal heat of reaction recovery process

Abstract With the four components of a chemical heat pump (two solid-gas reactors, an evaporator and a condenser), a cycle of the double-effect type can be applied to continuous refrigeration. The performance of this process is analysed, allowing the infinite sink temperature and the couples of reactive salts to be used, which depend on the production temperature envisaged, to be selected. The results are presented in a diagram from which may be determined the required source temperature (as a function of the refrigeration temperature), the machine's coefficient of performance, its exergetic efficiency and the equilibrium drop, i.e. the power level that can be reached. This process is compared to the double-effect cycle developed on solid adsorption machines. The useful domain of these machines lies between + 10°C and − 70°C for COPs varying from 0.4 to 0.8.

Pierre Neveu | P. Neveu | J. Castaing | J. Castaing

[1] F. Meunier,et al. Effect of operating temperatures on the coefficient of performance of active carbon-methanol systems , 1988 .

[2] Bernard Spinner,et al. The structure and performance of single effect solid-gas chemical heat pumps , 1993 .

[3] M. Härkönen,et al. The principle of internal regeneration as applied to the adsorption heat pump process , 1991 .

[4] M. Lebrun,et al. Simulation for the development of solid—gas chemical heat pump pilot plants Part II. simulation and optimization of Discontinuous and pseudo-continuous operating cycles , 1990 .

[5] S. Arh,et al. Development and comparison of different advanced absorption cycles , 1990 .

[6] M. Lebrun,et al. Simulation for the development of solid—gas chemical heat pump pilot plants Part I. simulation and dimensioning , 1990 .

[7] R. Best,et al. Thermodynamic design data for absorption heat pump systems operating on ammonia—water—Part II. Heating , 1987 .

[8] Bernard Spinner,et al. Models of heat and mass transfers in solid—gas reactors used as chemical heat pumps , 1990 .