Experimental determination of the optimum performance of ejector refrigeration system depending on ejector area ratio

Yapıcı, Rafet; Ersoy, H. Kursad; Aktoprakoğlu, A.; Halkacı, Hüseyin Selçuk; Yiğit, Osman

doi:10.1016/j.ijrefrig.2008.02.010

Cited by 118 publications

(27 citation statements)

References 13 publications

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“…For a fixed-geometry ejector, instead, each ejector with a specific area ratio f has its own optimum T g , at where the maximum COP could be obtained (Selvaraju and Mani, 2006). It is possible to observe that the calculated COP from the model increase nearly linearly with increasing of T g , as reported in literature (Yapıcı et al, 2008). The average changes in performance are reported in Table 4.…”

Section: Influence Of Generator Temperaturesupporting

confidence: 55%

“…For these reasons, ejector refrigeration systems can be used in buildings, in distributed tri-generation systems and for the waste heat recover from industrial processes (Ben Mansour et al, 2014;Godefroy et al, 2007;Little and Garimella, 2011). Nevertheless, the ejector refrigeration has not been able to penetrate the market because of the low coefficient of performance (Sarkar, 2012): this is because the efficiency of the whole system is highly influenced by ejector performances, which significantly depends on the geometry, working fluid and operating conditions (Kasperski and Gil, 2014;Selvaraju and Mani, 2006;Varga et al, 2009a;Yapıcı et al, 2008). This paper deals with the screening of the working fluids, using a validated lumped parameter model, in the range of operating conditions of low grade energy sources (waste heat and solar energy sources).…”

Section: Introductionmentioning

confidence: 99%

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A study of working fluids for heat driven ejector refrigeration using lumped parameter models

Besagni

Mereu

Leo

et al. 2015

International Journal of Refrigeration

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COP Entrainment ratio Ejector refrigeration Ejector efficiencies a b s t r a c tThis paper studies the influence of working fluids over the performance of heat driven ejector refrigeration systems performance by using a lumped parameter model. The model used has been selected after a comparison of different models with a set of experimental data available in the literature. The effect of generator, evaporator and condenser temperature over the entrainment ratio and the COP has been investigated for different working fluids in the typical operating conditions of low grade energy sources. The results show a growth in performance (the entrainment ratio and the COP) with a rise in the generator and evaporator temperature and a decrease in the condenser temperature. The working fluids have a great impact on the ejector performance and each refrigerant has its own range of operating conditions. R134a is found to be suitable for low generator temperature (70e100 C), whereas the hydrocarbons R600 is suitable for medium generator temperatures (100e130 C) and R601 for high generator temperatures (130e180 C). i n t e r n a t i o n a l j o u r n a l o f r e f r i g e r a t i o n 5 8 ( 2 0 1 5 ) 1 5 4 e1 7

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Section: Influence Of Generator Temperaturesupporting

confidence: 55%

Section: Introductionmentioning

confidence: 99%

A study of working fluids for heat driven ejector refrigeration using lumped parameter models

Besagni

Mereu

Leo

et al. 2015

International Journal of Refrigeration

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“…Finally, COP decreased with R c and increased with R d . Yapici et al [145], using R123, theoretically and experimentally determined the optimum for T g and the maximum for COP as a function of ϕ at given evaporator and condenser conditions. COP decreases faster when the T g decreases from the optimal temperature for a given ϕ. Yapici [140], analyzing ejectors with a movable primary nozzle, also observed an improvement of the ejector performance if it is carefully designed and realized.…”

Section: Standard Sersmentioning

confidence: 99%

Ejector refrigeration: A comprehensive review

Besagni

Mereu

Inzoli

2016

Renewable and Sustainable Energy Reviews

405

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a b s t r a c tThe increasing need for thermal comfort has led to a rapid increase in the use of cooling systems and, consequently, electricity demand for air-conditioning systems in buildings. Heat-driven ejector refrigeration systems appear to be a promising alternative to the traditional compressor-based refrigeration technologies for energy consumption reduction. This paper presents a comprehensive literature review on ejector refrigeration systems and working fluids. It deeply analyzes ejector technology and behavior, refrigerant properties and their influence over ejector performance and all of the ejector refrigeration technologies, with a focus on past, present and future trends. The review is structured in four parts. In the first part, ejector technology is described. In the second part, a detailed description of the refrigerant properties and their influence over ejector performance is presented. In the third part, a review focused on the main jet refrigeration cycles is proposed, and the ejector refrigeration systems are reported and categorized. Finally, an overview over all ejector technologies, the relationship among the working fluids and the ejector performance, with a focus on past, present and future trends, is presented.

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“…The major weak point of a steam ejector refrigeration system is its low COP compared to an absorption refrigeration system, another most widely used type of heat-power refrigeration system. The reduction of energy consumption and increase in refrigeration production by optimizing the ejector geometries or the system's operating conditions are the goals of improvement for many researchers (Yapıci et al, 2008;Meyer et al, 2009;Chen et al, 2013;Chandra and Ahmed, 2014). The development of the working fluid circulating system of the ejector refrigeration system (Srisastra and Aphornratana, 2005;Srisastra et al, 2007) is also the one option for improving the system performance.…”

Section: Introductionmentioning

confidence: 99%

Development and performance of steam ejector refrigeration system operated in real application in Thailand

Ruangtrakoon

Aphornratana

2014

International Journal of Refrigeration

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Experimental determination of the optimum performance of ejector refrigeration system depending on ejector area ratio

Cited by 118 publications

References 13 publications

A study of working fluids for heat driven ejector refrigeration using lumped parameter models

A study of working fluids for heat driven ejector refrigeration using lumped parameter models

Ejector refrigeration: A comprehensive review

Development and performance of steam ejector refrigeration system operated in real application in Thailand

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