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Experimental measurements are made for a silica gel-water advanced adsorption refrigeration chiller (1.2-kW [4,095-Btu/h] cooling capacity) to evaluate its performance under different temperature and adsorption-desorption cycle time conditions. Describes the operating principle of the chiller, outlines the experimental hardware, and discusses results obtained by varying the cooling and hot water inlet temperatures and adsorption/desorption cycle times, as well as their agreement with the simulated results given by a lumped parameter model. The chiller performance is analysed in terms of cooling capacity and coefficient of performance (COP). Excellent qualitative agreement was obtained between the experimental data and simulated results. The results showed the advanced three-stage cycle to be particularly well suited for operation with low-grade-temperature waste heat as the driving source, since it worked with small regenerating temperature lifts (heat source - heat sink temperature) of 10 to 30 K.

Keywords: year 1997, experiment, adsorption, refrigeration, cyclic, measuring, silica, chillers, calculating, performance, cooling load, coefficient of performance, comparing, heat recovery, industrial

Units: Dual