TY - JOUR
T1 - Real-Time Measurement Technique for Slug Flow Characterisation
AU - Zadeh, Seyyed Saeed Shojaee
AU - Egan, Vanessa
AU - Walsh, Pat
N1 - Publisher Copyright:
© 2022 Authors.
PY - 2022
Y1 - 2022
N2 - To achieve accurate slug lengths and velocities in a slug flow regime, monitoring of the droplet/bubble train is an essential stage which necessitates the use of proper techniques. In most experiments, the traditional measurement apparatus consists of a high-speed camera coupled to a microscope which are employed to characterize such flows in microchannels. However, when using these techniques, optical distortion caused by the curved channel walls can result in large measurement uncertainty which undermines the measurement accuracy. In this regard, this study introduces a novel technique to easily and reliably measure slug length and velocity. This automated, non-intrusive measurement technique allows for in-line high-frequency droplet/bubble detection and related physical properties based on changes in the light intensity caused by a phase shifting in liquid-liquid or liquid-gas flows.
AB - To achieve accurate slug lengths and velocities in a slug flow regime, monitoring of the droplet/bubble train is an essential stage which necessitates the use of proper techniques. In most experiments, the traditional measurement apparatus consists of a high-speed camera coupled to a microscope which are employed to characterize such flows in microchannels. However, when using these techniques, optical distortion caused by the curved channel walls can result in large measurement uncertainty which undermines the measurement accuracy. In this regard, this study introduces a novel technique to easily and reliably measure slug length and velocity. This automated, non-intrusive measurement technique allows for in-line high-frequency droplet/bubble detection and related physical properties based on changes in the light intensity caused by a phase shifting in liquid-liquid or liquid-gas flows.
KW - high-frequency
KW - in-line
KW - non-intrusive technique
KW - slug flow
UR - http://www.scopus.com/inward/record.url?scp=85147805256&partnerID=8YFLogxK
U2 - 10.11159/jffhmt.2022.023
DO - 10.11159/jffhmt.2022.023
M3 - Article
AN - SCOPUS:85147805256
SN - 2368-6111
VL - 9
SP - 191
EP - 199
JO - Journal of Fluid Flow, Heat and Mass Transfer
JF - Journal of Fluid Flow, Heat and Mass Transfer
ER -