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W2912698037 endingPage "590" @default.
W2912698037 startingPage "569" @default.
W2912698037 abstract "While many prior works in the field relied upon direct optical access to determine condensation flow regimes, the present work outlines a new methodology utilizing temperature and pressure measurements to identify condensation flow regimes. For vertical upflow condensation, amplitude of dynamic temperature and pressure oscillations are shown to clearly indicate transition from counter-current flow regimes (i.e., falling film, oscillating film, flooding) to annular, co-current flow (climbing film flow regime). In horizontal flow condensation, standard deviation between multiple thermocouple measurements distributed around the tube circumference was calculated at all axial (stream-wise) measurement locations. High values of standard deviation are present for stratified flow (stratified flow, wavy-stratified, plug flow), while axisymmetric flow regimes (i.e., slug flow, annular flow) yield significantly lower values. Successful development of this technique represents a valuable contribution to literature as it allows condensation flow regime to be identified without the often-costly restriction of designing a test section to allow optical access. Identified flow regimes in both vertical upflow and horizontal flow orientations are compared to regime maps commonly found in the literature in pursuit of optimum performing maps." @default.
W2912698037 created "2019-02-21" @default.
W2912698037 creator A5030653020 @default.
W2912698037 creator A5049854515 @default.
W2912698037 creator A5051903052 @default.
W2912698037 creator A5066817862 @default.
W2912698037 creator A5087467777 @default.
W2912698037 creator A5090205389 @default.
W2912698037 date "2019-06-01" @default.
W2912698037 modified "2023-09-24" @default.
W2912698037 title "Identification of condensation flow regime at different orientations using temperature and pressure measurements" @default.
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W2912698037 doi "https://doi.org/10.1016/j.ijheatmasstransfer.2019.01.133" @default.
W2912698037 hasPublicationYear "2019" @default.
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