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A generalized dimensionless local power-law correlation for refrigerant flow through adiabatic capillary tubes and short tube orifices.
Author(s) : YANG L., ZHANG C. L.
Type of article: Article, IJR article
Summary
This paper presents a new method to obtain generalized dimensionless correlation of refrigerant mass flow rates through adiabatic capillary tubes and short tube orifices. The dimensionless Pi groups were derived from the homogeneous equilibrium model, which is available for different refrigerants entering adiabatic capillary tubes or short tube orifices as the subcooled liquid, two-phase mixture, or supercritical fluid. To mitigate the potential over-fitting risk in neural network, a new “local” power-law correlation reformed from the homogeneous equilibrium model was proposed and compared with the conventional “global” power-law correlation and recently developed neural network model. About 2000 sets of experimental mass flow rate data of R12, R22, R134a, R404A, R407C, R410A, R600a and CO2 (R744) in the open literature covering capillary and short tube geometries, subcritical and supercritical inlet conditions were collected for the model development. The comparison between the recommended six-coefficient correlation and experimental data reports 0.80% average and 8.98% standard deviations, which is comparable with the previously developed neural network and much better than the “global” power-law correlation.
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Pages: 69-76
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Details
- Original title: A generalized dimensionless local power-law correlation for refrigerant flow through adiabatic capillary tubes and short tube orifices.
- Record ID : 30012262
- Languages: English
- Source: International Journal of Refrigeration - Revue Internationale du Froid - vol. 46
- Publication date: 2014/10
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