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Gas-Liquid Two-Phase Flow in the Pipe or Channel

Gas-Liquid Two-Phase Flow in the Pipe or Channel

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The main goal of this Special Issue was to contribute to, highlight and discuss topics related to various aspects of two-phase gas–liquid flows, which can be used both in fundamental sciences and practical applications, and we believe that this main goal was successfully achieved. This Special Issue received studies from Russia, China, Thailand, ROC-Taiwan, Saudi Arabia, and Pakistan. We were very grateful to see that all the papers presented findings characterized as unconventional, innovative, and methodologically new. We hope that the readers of the journal Water can enjoy and learn about the experimental and numerical study of two-phase flows from the published material, and share these results with the scientific community, policymakers and stakeholders. Last but not least, we would like to thank Ms. Aroa Wang, Assistant Editor at MDPI, for her dedication and willingness to publish this Special Issue. She is a major supporter of the Special Issues, and we are indebted to her.

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Keywords

  • air concentration
  • backward-facing step
  • capillary waves
  • chute flow
  • coherent phase
  • COMSOL
  • dimensionless analysis
  • droplet vaporization and dispersion
  • dust particles
  • Eulerian modeling
  • exclusion zone
  • experimental study
  • flow boiling
  • flow pattern
  • flow structure
  • gas-droplet turbulent flow
  • heat transfer
  • high reduced pressure
  • high-speed video recording
  • History of engineering & technology
  • Hydrodynamics
  • Infrared
  • infrared thermography
  • magnetohydrodynamic (MHD)
  • microdroplets
  • n/a
  • oil–water–gas flow
  • oscillating two-phase fluctuation flow
  • PH
  • PIV/PLIF measurements
  • RANS modeling
  • redox potential
  • resonance
  • self-aeration
  • spray cooling
  • subharmonic
  • surface wave
  • Technology, engineering, agriculture
  • Technology: general issues
  • transparent heater
  • turbulent bubbly flow
  • ultrasonic atomizer
  • velocity
  • wall shear stress
  • water holdup
  • water vapor

Links

DOI: 10.3390/books978-3-0365-3388-9

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