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Dynamic modelling of an air-cooled LiBr-H2O absorption chiller based on heat and mass transfer empirical correlations

Author
Farnós, J.; Castro, J.; Papakokkinos, G.; Morales Ruiz, S.; Oliva, A.
Type of activity
Presentation of work at congresses
Name of edition
12th IEA Heat Pump Conference
Date of publication
2017
Presentation's date
2017-05-18
Book of congress proceedings
Proceedings of 12th IEA Heat Pump Conference
First page
1
Last page
11
Repository
http://hdl.handle.net/2117/116206 Open in new window
Abstract
The paper describes the numerical modelling of a direct air-cooled single-effect absorption chiller and validates the obtained results by means of experimental data obtained from an own-designed and commissioned small capacity absorption chiller. This direct air-cooled single-effect absorption machine is conceived for low temperature driven, such as solar cooling or waste heat. For performing numerical simulations, a modular objectoriented simulation platform is used (NEST platform tool), which ...
Citation
Farnós, J., Castro, J., Papakokkinos, G., Morales Ruiz, S., Oliva, A. Dynamic modelling of an air-cooled LiBr-H2O absorption chiller based on heat and mass transfer empirical correlations. A: IEA Heat Pump Conference. "Proceedings of 12th IEA Heat Pump Conference". 2017, p. 1-11.
Keywords
Absorption, Air-cooled, Dynamic simulation, H2O-LiBr
Group of research
CTTC - Heat and Mass Transfer Technological Center

Participants