Multi-scale performance evaluation of ejector refrigeration systems

Despite the many advantages, ejector refrigeration systems have not been able to penetrate the market because of two prevailing reasons: low coefficient of performance and relevant influence of ejector operation on the performance of the whole system. Indeed, the performance of ejector refrigeration...

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Bibliographic Details
Published in:Journal of physics. Conference series 2021-04, Vol.1868 (1), p.12013
Main Authors: Besagni, Giorgio, Croci, Lorenzo, Cristiani, Nicolò, Inzoli, Fabio, Guédon, Gaël Raymond
Format: Article
Language:English
Subjects:
Boundary conditions
Computational fluid dynamics
Fluid dynamics
Local flow
Mathematical models
Model testing
Performance evaluation
Physics
Refrigeration
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Summary:Despite the many advantages, ejector refrigeration systems have not been able to penetrate the market because of two prevailing reasons: low coefficient of performance and relevant influence of ejector operation on the performance of the whole system. Indeed, the performance of ejector refrigeration systems depends on the local flow phenomena occurring within the ejector. Thus, improving the performance of ejector refrigeration systems relies on the understanding of the fluid dynamic phenomena at the “ component-scale ” and on integrating such information at the “ system-scale ”. This paper contributes to the present discussion regarding the multi-scale modeling of ejector-based systems by proposing an integrated Computational Fluid Dynamic ( CFD ) - Lumped Parameter Model ( LPM ) ejector refrigeration system. In particular, ejector performances have been obtained by a validated CFD approach, whereas a LPM approach has modeled the refrigeration cycle. The refrigeration system’s performances, for different boundary conditions, have been evaluated, and the effects of the “ local-scale ” on the “ system-scale ” have been commented.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1868/1/012013