Experimental investigation of condensation flows in circular cross-section channel

•Identification by shadowgraph of the wavy-stratified and the wavy-annular regimes.•Development of a flow regime map and comparison with the literature.•Measurement of the local mean internal heat transfer coefficient.•Comparison of the measured heat transfer coefficient with the literature.•Measure...

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Bibliographic Details
Published inApplied thermal engineering Vol. 145; pp. 147 - 154
Main Authors El Achkar, Georges, Queeckers, Patrick, Iorio, Carlo Saverio
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 25.12.2018
Elsevier BV
Subjects
Circular cross-section channel
Circularity
Condensation
Convective condensation
Cross-sections
Ethanol
Experimentation
Flow mapping
Flow regimes
Heat exchange
Heat exchangers
Heat transfer
Heat transfer coefficient
Heat transfer coefficients
Pressure drop
Circular cross-section channel
Experimentation
Flow regimes
Heat transfer coefficient
Convective condensation
Pressure drop
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Summary:•Identification by shadowgraph of the wavy-stratified and the wavy-annular regimes.•Development of a flow regime map and comparison with the literature.•Measurement of the local mean internal heat transfer coefficient.•Comparison of the measured heat transfer coefficient with the literature.•Measurement of the total pressure drop. In this work, condensation flows of pure ethanol in a horizontal water-cooled circular cross-section heat exchanger were investigated for a mass velocity ranging between 30 and 100 kg m−2 s−1. The inner channel of condensation has inner and outer diameters of 4 mm and 10 mm, respectively, with a heat exchange length of 1020 mm. An adiabatic section consisted of a transparent circular cross-section channel, of 4 mm inner diameter and of 130 mm visible length, was placed downstream of the condenser in order to visualise the condensation flows by shadowgraph technique. Two main flow regimes were identified: the wavy-stratified regime and the wavy-annular regime. A flow regime map was developed and compared with flow regime maps available in the literature. Besides, the local vapour quality and internal heat transfer coefficient were determined and compared with prediction models of the literature. Finally, the total pressure drop in the condenser was determined.
ISSN:1359-4311
1873-5606
DOI:10.1016/j.applthermaleng.2018.08.077