In this work, we investigate the fully developed flow field of two vertically stratified fluids (one phase flowing above the other) in a curved channel of rectangular cross section. The domain perturbation technique is applied to obtain an analytical solution in the asymptotic limit of low Reynolds numbers and small curvature ratios (the ratio of the width of the channel to its radius of curvature). The accuracy of this solution is verified by comparison with numerical simulations of the nonlinear equations. The flow is characterized by helical vortices within each fluid, which are driven by centrifugal forces. The number of vortices and their direction of circulation varies with the parameters of the system (the volume fraction, viscosity ratio, and Reynolds numbers). We identify nine distinct flow patterns and organize the parameter space into corresponding flow regimes. We show that the fully developed interface between the fluids is not horizontal, in general, but is deformed by normal stresses associated with the circulatory flow. The results are especially significant for flows in microchannels, where the Reynolds numbers are small. The mathematical results in this paper include an analytical solution to two coupled biharmonic partial differential equations; these equations arise in two-phase, two-dimensional Stokes flows.
Skip Nav Destination
Article navigation
July 2014
Research Article|
July 17 2014
Vertically stratified two-phase flow in a curved channel: Insights from a domain perturbation analysis
P. Garg;
P. Garg
1Department of Chemical Engineering,
Indian Institute of Technology Roorkee
, Roorkee 247 667, India
Search for other works by this author on:
J. R. Picardo;
J. R. Picardo
2Department of Chemical Engineering,
Indian Institute of Technology Madras
, Chennai 600 036, India
Search for other works by this author on:
S. Pushpavanam
S. Pushpavanam
a)
2Department of Chemical Engineering,
Indian Institute of Technology Madras
, Chennai 600 036, India
Search for other works by this author on:
a)
Author to whom correspondence should be addressed. Electronic mail: [email protected]. Tel.: +91-44-2254161. Fax: +91-44-22570509.
Physics of Fluids 26, 073604 (2014)
Article history
Received:
February 12 2014
Accepted:
June 27 2014
Citation
P. Garg, J. R. Picardo, S. Pushpavanam; Vertically stratified two-phase flow in a curved channel: Insights from a domain perturbation analysis. Physics of Fluids 1 July 2014; 26 (7): 073604. https://doi.org/10.1063/1.4889738
Download citation file:
Pay-Per-View Access
$40.00
Sign In
You could not be signed in. Please check your credentials and make sure you have an active account and try again.
Citing articles via
Chinese Academy of Science Journal Ranking System (2015–2023)
Cruz Y. Li (李雨桐), 李雨桐, et al.
On Oreology, the fracture and flow of “milk's favorite cookie®”
Crystal E. Owens, Max R. Fan (范瑞), et al.
Physics-informed neural networks for solving Reynolds-averaged Navier–Stokes equations
Hamidreza Eivazi, Mojtaba Tahani, et al.
Related Content
Flow transitions in triple-helical microchannel involving novel parallel flow patterns
Physics of Fluids (December 2022)
Hydrodynamics of liquid–liquid parallel flow in novel microextractors: Review
Physics of Fluids (October 2024)
Axial dispersion in segmented gas-liquid flow: Effects of alternating channel curvature
Physics of Fluids (December 2010)
Self-ordering and organization of in-line particle chain in a square microchannel
Physics of Fluids (February 2022)
An extended Bretherton model for long Taylor bubbles at moderate capillary numbers
Physics of Fluids (March 2014)