Hydrodynamics and Heat Mass Transfer in Two-Phase Dispersed Flows in Pipes or Ducts

Hydrodynamics and Heat Mass Transfer in Two-Phase Dispersed Flows in Pipes or Ducts

Two-phase gas-liquid flows are frequently encountered in the energy, nuclear, chemical, geothermal, oil and gas and refrigeration industries. Two-phase gas-liquid flows can occur in various forms, such as flows transitioning from pure liquid to vapor as a result of external heating, separated flows...

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Bibliographic Details
Other Authors: Pakhomov, Maksim (Editor), Lobanov, Pavel (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Technology: general issues
History of engineering & technology
Mechanical engineering & materials
two-phase flow
annular flow
experimental techniques
annular pipe flow
building drainage
droplet-laden flow
ribbed duct
heat transfer
evaporation
RANS
RSM
disturbance waves
ripples
droplet entrainment
experimental methods
flow boiling
critical heat flux
heat transfer enhancement
high reduced pressure
mini-channel
vortex reactor
complex vortex
vortex flow modeling
phase boundary
immiscible liquids
free surface
droplet
biphilic surface
sessile
pendant
heat and mass transfer
inclined pipe
bubbles
coalescence
bubble velocity
chain of bubbles
droplet impact
spreading
superhydrophobicity
superhydrophilicity
wettability
water droplet
laser ablation
HW CVD
bubble column reactor
bubbly flow
polydisperse media
numerical simulation
Euler-Euler approach
discrete bubble size distribution function
hydrophobic
fluoropolymer
oil-water separation
stainless steel mesh
superhydrophobic
rising bubbles
path instability
wall effect
bouncing bubbles
n/a
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Summary:Two-phase gas-liquid flows are frequently encountered in the energy, nuclear, chemical, geothermal, oil and gas and refrigeration industries. Two-phase gas-liquid flows can occur in various forms, such as flows transitioning from pure liquid to vapor as a result of external heating, separated flows behind a flow's sudden expansion or constriction, dispersed two-phase flows where the dispersed phase is present in the form of liquid droplets, or gas bubbles in a continuous carrier fluid phase (i.e. gas or liquid). Typically, such flows are turbulent with a considerable interfacial interaction between the carrier fluid and the dispersed phases. The interfacial heat and mass transfer is very important in the modeling of such flows. The variety of flow regimes significantly complicates the theoretical prediction of hydrodynamics of the two-phase flow. It requires the application of numerous hypotheses, assumptions, and approximations. Often, the complexity of flow structures makes it impossible to theoretically describe its behavior, and so empirical data are applied instead. The correct simulation of two-phase gas-liquid flows is of great importance for safety's sake and the prediction of energy equipment elements.
Physical Description:1 electronic resource (210 p.)
ISBN:books978-3-0365-8196-5
9783036581972
9783036581965
Access:Open Access

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