Progress and challenges in utilization of ejectors for cryogenic cooling

•Four configurations of ejector equipped JT cooling cycle are summarized.•Analytical and CFD modelling of ejectors has been classified and compared.•Both the macroscopic features and the local flow characteristics of ejectors should be adopted for validating ejector models.•Key challenges for cryoge...

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Bibliographic Details
Published inApplied thermal engineering Vol. 167; p. 114783
Main Authors Cao, H.S., ter Brake, H.J.M.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 25.02.2020
Elsevier BV
Subjects
Atmospheric models
Atmospheric pressure
Compressors
Computational fluid dynamics
Computer simulation
Cooling
Cooling systems
Cryogenic
Cryogenic cooling
Ejector
Ejectors
Flow characteristics
Flow visualization
Fluid dynamics
Joule–Thomson
Local flow
Low temperature physics
Mathematical models
Optimization
Turbulence models
Visualization techniques
Working fluids
Cryogenic
Visualization techniques
Ejector
Joule–Thomson
Turbulence models
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Summary:•Four configurations of ejector equipped JT cooling cycle are summarized.•Analytical and CFD modelling of ejectors has been classified and compared.•Both the macroscopic features and the local flow characteristics of ejectors should be adopted for validating ejector models.•Key challenges for cryogenic ejector modelling are turbulent, two-phase and non-equilibrium flows. In the field of cryogenic cooling, Joule–Thomson (JT) cooling is a mature technology but suffers from low efficiency. Various efforts such as the optimization of compressors, cold stages, working fluids, and operating conditions have been reported to develop more efficient JT cooling systems. As a further alternative, ejectors can be used in JT cooling systems to create sub-atmospheric pressures and to recover expansion work, and thus achieve lower temperatures and higher system efficiency. This paper presents a comprehensive review of the use of ejectors for cryogenic cooling. The research progress of cooling cycles with ejectors at the system-scale is analyzed and compared, followed by the experimental investigation and numerical simulation of ejector performance at the component-scale. The experimental studies mainly discuss the local flow characteristics of ejectors captured through pressure measurements and flow visualization. The simulation studies introduce the analytical modelling of ejectors although the focus is on the CFD modelling. Current challenges and suggestions for future research on the use of ejectors in cryogenic cooling systems are summarized.
ISSN:1359-4311
1873-5606
DOI:10.1016/j.applthermaleng.2019.114783