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Experimental results of a direct air-cooled ammonia–lithium nitrate absorption refrigeration system
Absorption thermal cooling systems driven by renewable energy are a viable option in order to reduce fossil fuel consumption and the associated emissions. This work shows the results of an air cooled absorption cooling prototype working with an ammonia–lithium nitrate mixture at high ambient tempera...
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Published in: | Applied thermal engineering 2014-06, Vol.67 (1-2), p.362-369 |
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Main Authors: | , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Absorption thermal cooling systems driven by renewable energy are a viable option in order to reduce fossil fuel consumption and the associated emissions. This work shows the results of an air cooled absorption cooling prototype working with an ammonia–lithium nitrate mixture at high ambient temperatures. An absorption refrigeration system was designed and built. The prototype is a one stage ammonia–lithium nitrate air cooled chiller. The experimental system was instrumented to evaluate each component. This paper shows the operation conditions in the experimental unit as well as some of the heat loads encountered at different operating conditions. The system was operated successfully at ambient temperatures in the range of 25–35 °C. A series of test showed that even at ambient temperatures it can be operated at evaporator temperatures below 10 °C producing chilled water for air conditioning applications such as radiative cooling panels. The system proved to stabilize very quickly and no risk of crystallization was encountered so the first results are promising in order to continue with the development of a more advanced prototype.
•Experimental results of a direct air-cooled ammonia–lithium nitrate system.•The prototype is a one stage ammonia–lithium nitrate air cooled chiller.•The absorption system was operated successfully at ambient temperatures.•Cooling loads of 4.5 kW were reached in the chilled water side. |
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ISSN: | 1359-4311 |
DOI: | 10.1016/j.applthermaleng.2014.03.050 |