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Analysis of refrigerant flow and deformation for a flexible short-tube using a finite element model.
Author(s) : BASSIOUNY R., O'NEAL D. L.
Type of article: Article, IJR article
Summary
A finite element model was used to simulate single-phase flow of R-22 through flexible short tubes. The numerical model included the fluid-structure interaction between the refrigerant and the deformation of the short-tube as upstream pressure was varied. The finite element model was developed using a commercially available finite element package. Short tubes with moduli of elasticity ranging from 5513 to 9889 kPa were studied. Four upstream and downstream pressures were applied and the upstream subcooling was held at a constant value of 16.7 °C. Mass flow rates from the numerical model were compared to available published experimental results. The study showed that upon deformation the short tube resembled the shape of a converging-diverging nozzle. Both tube inlet and outlet had a chamfered-like shape after deformation which reduced the pressure drop at the tube inlet. The smaller the modulus of the tube, the larger the chamfered-like angle at the inlet and the higher the pressure drop along the tube due to the higher tube contraction. The results illustrated that as the upstream pressure was increased by 45%, there was almost a 60% decrease in the flow area. The more flexible (5513 kPa) short tube restricted the mass flow rate more than the most rigid (9889 kPa) short tube used in this study. The mass flow rates estimated with the finite element model were as much as 14% higher than those from experimental results reported in the literature.
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Pages: 176-183
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Details
- Original title: Analysis of refrigerant flow and deformation for a flexible short-tube using a finite element model.
- Record ID : 2004-1024
- Languages: English
- Source: International Journal of Refrigeration - Revue Internationale du Froid - vol. 27 - n. 2
- Publication date: 2004/03
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Indexing
- Themes: Other refrigerants
- Keywords: Deformation; Tube; Modelling; Flow; Refrigerant; Water
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