Abstract This paper is concerned with the investigation of a novel open-cycle absorption heat pump capable of utilizing low-grade heat sources such as solar heat, waste heat and the like as its source of power. Unlike most closed-cycle systems, which require a heat supply temperature significantly higher than that of the heat sink, the present cycle can operate at extremely small temperature differences between the heat source and sink. It employs ambient air in conjuntion with an absorbent solution; the air is dehumidified, employed to produce chilled water in an evaporative cooler and then to regenerate the absorbent. The immediate application of this dehumidifier-evaporator-regenerator (DER) cycle is for cooling and air conditioning, but other applications in industrial heat pumping may be envisaged. A computer simulation of the cycle was conducted using a modular computer code developed for closed-cycle absorption systems in varying cycle configurations and with different working fluids. Some modifications in the code were necessary to adapt it for the simulation of the open cycle. Performance characteristics were determined for a wide range of operating conditions and the influence of various design parameters was investigated. The cycle appears to hold considerable promise, with some practical problems remaining to be solved.
[1]
I. C. Finlay,et al.
Evaporative cooling of tube banks
,
1984
.
[2]
Gershon Grossman,et al.
Simulation and performance analysis of triple-effect absorption cycles
,
1993
.
[3]
R. K. Collier,et al.
The analysis and simulation of an open cycle absorption refrigeration system
,
1979
.
[4]
Gershon Grossman,et al.
Simulation and analysis of open cycle absorption systems for solar cooling
,
1992
.
[5]
Gershon Grossman,et al.
Solar cooling and air conditioning
,
1981
.
[6]
C. F. Kettleborough,et al.
A Review of Desiccant Cooling Systems
,
1993
.
[7]
B. D. Wood,et al.
Unglazed collector/regenerator performance for a solar assisted open cycle absorption cooling system
,
1993
.