Numerical investigation of an R744 liquid ejector for supermarket refrigeration systems

Haida, Michał; Smołka, Jacek; Palacz, Michał; Bodys, Jakub; Nowak, Andrzej J.; Buliński, Zbigniew; Fic, A.; Banasiak, Krzysztof; Hafner, Armin

doi:10.2298/tsci151210112h

Cited by 17 publications

(15 citation statements)

References 11 publications

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“…where u a (k) is the calculated snapshot based on the arbitrary parameter set k and f a (k) stands for vector of interpolation functions defined in Eq. (10). The implementation of RBF into the POD model reduces the dimensionality of ROM to the number of unknown parameters k. The unknown parameters are defined as the boundary conditions of the CO 2 two-phase ejector as follows:…”

Section: Pod-rbf Approachmentioning

confidence: 99%

“…This platform has been successfully used in several numerical investigations of the CO 2 ejector, i.e. parametrisation procedure of the R744 liquid ejectors [10], swirling of the motive and suction streams for ejector performance improvement [38], shape optimisation of the R744 twophase ejector [39] and numerical investigation of the multi-ejector module during single and parallel operation [40]. Therefore, the CFD results used to generate the hybrid ROM basis were obtained by use of the ejectorPL platform.…”

Section: Pod-rbf Approachmentioning

confidence: 99%

“…In the vapour ejector, the R744 vapour stream from the medium-temperature evaporator is compressed without any additional work [9]. The liquid ejector is utilised in the CO 2 refrigeration system to pump the liquid outside the medium-temperature evaporator to run the evaporator in flooded mode [10]. CO 2 supermarket refrigeration systems operate at different ambient temperatures and different cooling demands, which vary during the daytime.…”

Section: Introductionmentioning

confidence: 99%

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Performance mapping of the R744 ejectors for refrigeration and air conditioning supermarket application: A hybrid reduced-order model

Haida

Smołka

Hafner

et al. 2018

Energy

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The continuous derivation of the ambient temperature and cooling demand in CO 2 refrigeration and air-conditioning systems equipped with multi-ejector modules for supermarkets requires the analysis of the fixed ejector utilisation in a very wide range of the operational envelope. Therefore, performance mapping of the four R744 ejectors installed in the multi-ejector pack was performed. The investigations of a single ejector's work were performed based on the proposed hybrid reduced-order model to predict the performance of each ejector under arbitrary operating conditions. The proposed model was validated and generated by use of the experimental data together with the computational fluid dynamic model results. The ejector efficiency mapping indicated the area of the best ejector performance in the range from approximately 50 bar to 100 bar. The mass entrainment ratio of all four ejectors was presented for different ambient temperatures and the pressure lift. An area of the mass entrainment ratio greater than 0.3 was obtained by each ejector at ambient temperature above approximately 15 • C for pressure lift below 10 bar. The approximation functions of the ejector pressure lift in terms of the ambient temperature for air-conditioning operating conditions to reach the best efficiency of each ejector are proposed.

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Section: Pod-rbf Approachmentioning

confidence: 99%

Section: Pod-rbf Approachmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Performance mapping of the R744 ejectors for refrigeration and air conditioning supermarket application: A hybrid reduced-order model

Haida

Smołka

Hafner

et al. 2018

Energy

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“…The multi-ejector refrigeration system that was investigated by Haida et al (2016a) demonstrated that the application of ejectors provided significant COP improvements. Moreover, Haida et al (2016b) the liquid ejectors and performed a sensitivity analysis of the ejector shape on the ejector efficiency. However, in this study, only the vapour sucking ejectors were optimised.…”

Section: Ejector Designmentioning

confidence: 99%

Shape optimisation of a two-phase ejector for CO 2 refrigeration systems

Palacz

Smołka

Nowak

et al. 2017

International Journal of Refrigeration

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“…As known, an ejector used as an expansion device in R744 transcritical systems, has improved the COP [4,5]. Several theoretical and experimental investigations have been performed for different configurations using ejector [6][7][8][9]. Design of the ejector is revised to work at refrigeration systems with R744.…”

Section: Introductionmentioning

confidence: 99%

The performance evaluation of R744 transcritical ejector and R290/R744 cascade refrigeration systems for Turkey

Yılmaz

Mançuhan

2019

Therm sci

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In this study, performance of two different environmentally friendly systems with natural refrigerant solutions, R744 transcritical booster system with ejector and a R290/R744 cascade system are examined theoretically by using engineering equation solver software. Operating conditions are determined to represent different climatic regions in Turkey using summer dry bulb temperatures of various cities. The transcritical and the cascade system are assumed to operate at two different evaporation temperatures of-10 °C and-32 °C. The overall energy efficiency ratio values for each system with respect to the same ambient and evaporation conditions are compared and evaluated. Finally, performance of both systems has been compared and the appropriate solution for each city has been suggested. For cold and mild climate regions of Turkey, the performance of transcritical alternative is found better than the proposed cascade system. Moreover, the performance of transcritical system is observed slightly lower than those of the cascade system in hot climate regions of Turkey such as Aegean, Mediterranean, and SouthEast Anatolian regions. It is also found that the performance of the transcritical system is better in regions having lower ambient conditions such as near the Black Sea and eastern regions of Turkey. Therefore, for the mild and cold regions of Turkey, the transcritical ejector option is the better alternative due to having higher performance compared to the cascade system.

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Numerical investigation of an R744 liquid ejector for supermarket refrigeration systems

Cited by 17 publications

References 11 publications

Performance mapping of the R744 ejectors for refrigeration and air conditioning supermarket application: A hybrid reduced-order model

Performance mapping of the R744 ejectors for refrigeration and air conditioning supermarket application: A hybrid reduced-order model

Shape optimisation of a two-phase ejector for CO 2 refrigeration systems

The performance evaluation of R744 transcritical ejector and R290/R744 cascade refrigeration systems for Turkey

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