Abstract
Adsorption chillers with desalination functionality, being devices characterised by very low electricity consumption, provide an alternative to conventional sources of cooling and water. The option of desalinating water means that the use of a single device enables obtaining two useful products. Adsorption chillers are not widely used at present. due to their low performance characteristics; these are, however, constantly being improved. This paper presents a verification of the possibility of increasing the cooling coefficient of performance (COP) and specific cooling power (SCP) of a laboratory adsorption chiller by optimising the length of cycle times and using a copper additive to silica gel with a mass fraction of 15% to increase heat transport in the bed. The choice of copper among other considered additives was determined by the conclusions from the research on the sorption kinetics of various mixtures, price and availability, and a high thermal conductivity. The device was operated in a two-bed mode aimed at producing cooling. The adsorbate was distilled water. The results were compared with those obtained under similar conditions when the beds were only filled with silica gel. As a result of the testing, it was found that the use of the copper additive with the sorbent increased both the COP and SCP. The tests were performed for different cycle times, of 100, 200, 300 and 600 s. With increasing cycle time COP also increased. In contrast, the specific cooling power increased only up to a certain point, whereafter its value decreased.
Highlights
The intensive development of the world economy and the expected population growth mean that the demand for cooling and water will continue to rise
coefficient of performance (COP) for the chiller with beds filled with silica gel with the addition of copper at a mass fraction of 15% for the individual cycle times
The aim of this study was to assess the effect of the use of a copper additive to silica gel, at a mass fraction of 15% and paired with water, on the performance of an adsorption chiller operating in a two-bed configuration, and to investigate the impact of the cycle time on the COP and specific cooling power (SCP) of the device
Summary
The intensive development of the world economy and the expected population growth mean that the demand for cooling and water will continue to rise. The energy demand for cooling buildings has more than tripled since 1990 [2]. The IIR (International Institute of Refrigeration) estimates that, currently, about 20% of total electricity generation is used for refrigeration and air conditioning processes, of which about 8.5% is used to power air conditioners during space cooling [2,3]. It is important to take measures to reduce peak energy demand, which can increase significantly during the summer period [4]. The IIR predicts that power consumption of cooling equipment may double by 2050 [3]. In 2017, the number of new air conditioning devices was 110 million units, an increase of 8.1% over
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