Development of a correlation for pressure drop of two-phase flow inside horizontal small diameter smooth and microfin tubes

•Two-phase frictional pressure drop inside small diameter smooth and microfin tubes is measured experimentally.•The effects of mass velocity, vapor quality, tube diameter and refrigerant properties on the pressure drop are clarified.•A new frictional pressure drop correlational for small diameter tu...

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Published inInternational journal of refrigeration Vol. 119; pp. 80 - 91
Main Authors Khairul Bashar, M., Nakamura, Keisuke, Kariya, Keishi, Miyara, Akio
Format Journal Article
LanguageEnglish
Published Paris Elsevier Ltd 01.11.2020
Elsevier Science Ltd
Subjects
Chute de pression frictionnelle
Correlation
Corrélation
Faible diamètre
Fluids
Frictional pressure drop
Micro-ailettes
Microfin
Pressure
Pressure drop
R1234yf
Refrigerants
Refrigeration
Small diameter
Temperature
Tubes
Two phase flow
Vapors
Working fluids
Écoulement diphasique
Corrélation
Correlation
Microfin
R1234yf
Two-phase flow
Small diameter
Micro-ailettes
Frictional pressure drop
Chute de pression frictionnelle
Écoulement diphasique
Faible diamètre
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Abstract •Two-phase frictional pressure drop inside small diameter smooth and microfin tubes is measured experimentally.•The effects of mass velocity, vapor quality, tube diameter and refrigerant properties on the pressure drop are clarified.•A new frictional pressure drop correlational for small diameter tube is proposed. This study investigated the pressure drop of adiabatic vapor-liquid two-phase flow inside horizontal smooth and microfin tubes with 2.5 mm outside diameter. R134a and R1234yf were used as working fluid and the experiments were carried out at saturation temperatures of 20 and 30°C, mass velocities ranging from 50 to 200 kg m−2s−1 and vapor qualities ranging from 0.1 to 0.9. The effects of mass velocity, vapor quality, refrigerant properties and tube diameter on the pressure drop were analyzed. Some typical previous pressure drop correlations were used to predict the experimental data. A new two-phase pressure drop correlation for small diameter tubes was proposed based on the experimental data. The new correlation agrees with the available other researchers’ data and it can be broadly applied to the small diameter smooth and microfin tubes, wide range of mass velocity and many kinds of refrigerants.
AbstractList •Two-phase frictional pressure drop inside small diameter smooth and microfin tubes is measured experimentally.•The effects of mass velocity, vapor quality, tube diameter and refrigerant properties on the pressure drop are clarified.•A new frictional pressure drop correlational for small diameter tube is proposed. This study investigated the pressure drop of adiabatic vapor-liquid two-phase flow inside horizontal smooth and microfin tubes with 2.5 mm outside diameter. R134a and R1234yf were used as working fluid and the experiments were carried out at saturation temperatures of 20 and 30°C, mass velocities ranging from 50 to 200 kg m−2s−1 and vapor qualities ranging from 0.1 to 0.9. The effects of mass velocity, vapor quality, refrigerant properties and tube diameter on the pressure drop were analyzed. Some typical previous pressure drop correlations were used to predict the experimental data. A new two-phase pressure drop correlation for small diameter tubes was proposed based on the experimental data. The new correlation agrees with the available other researchers’ data and it can be broadly applied to the small diameter smooth and microfin tubes, wide range of mass velocity and many kinds of refrigerants.
This study investigated the pressure drop of adiabatic vapor-liquid two-phase flow inside horizontal smooth and microfin tubes with 2.5 mm outside diameter. R134a and R1234yf were used as working fluid and the experiments were carried out at saturation temperatures of 20 and 30°C, mass velocities ranging from 50 to 200 kg m−2s−1 and vapor qualities ranging from 0.1 to 0.9. The effects of mass velocity, vapor quality, refrigerant properties and tube diameter on the pressure drop were analyzed. Some typical previous pressure drop correlations were used to predict the experimental data. A new two-phase pressure drop correlation for small diameter tubes was proposed based on the experimental data. The new correlation agrees with the available other researchers' data and it can be broadly applied to the small diameter smooth and microfin tubes, wide range of mass velocity and many kinds of refrigerants.
Author Khairul Bashar, M.
Nakamura, Keisuke
Kariya, Keishi
Miyara, Akio
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DocumentTitleAlternate Développement d'une corrélation pour la chute de pression de l'écoulement diphasique à l'intérieur de tubes horizontaux de faible diamètre lisses et à micro-ailettes
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Keywords Corrélation
Correlation
Microfin
R1234yf
Two-phase flow
Small diameter
Micro-ailettes
Frictional pressure drop
Chute de pression frictionnelle
Écoulement diphasique
Faible diamètre
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SSID ssj0017058
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Snippet •Two-phase frictional pressure drop inside small diameter smooth and microfin tubes is measured experimentally.•The effects of mass velocity, vapor quality,...
This study investigated the pressure drop of adiabatic vapor-liquid two-phase flow inside horizontal smooth and microfin tubes with 2.5 mm outside diameter....
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SubjectTerms Chute de pression frictionnelle
Correlation
Corrélation
Faible diamètre
Fluids
Frictional pressure drop
Micro-ailettes
Microfin
Pressure
Pressure drop
R1234yf
Refrigerants
Refrigeration
Small diameter
Temperature
Tubes
Two phase flow
Vapors
Working fluids
Écoulement diphasique
Title Development of a correlation for pressure drop of two-phase flow inside horizontal small diameter smooth and microfin tubes
URI https://dx.doi.org/10.1016/j.ijrefrig.2020.08.013
https://www.proquest.com/docview/2465475420/abstract/
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