A simple semitheoretical method for calculating the two-phase frictional pressure gradient in porous media using asymptotic analysis is presented. The two-phase frictional pressure gradient is expressed in terms of the asymptotic single-phase frictional pressure gradients for liquid and gas flowing alone. In the present model, the two-phase frictional pressure gradient for is nearly identical to the single-phase liquid frictional pressure gradient. Also, the two-phase frictional pressure gradient for is nearly identical to the single-phase gas frictional pressure gradient. The proposed model can be transformed into either a two-phase frictional multiplier for liquid flowing alone or a two-phase frictional multiplier for gas flowing alone as a function of the Lockhart–Martinelli parameter . The advantage of the new model is that it has only one fitting parameter , while the other existing correlations, such as the correlation of Larkins et al., Sato et al., and Goto and Gaspillo, have three constants. Therefore, calibration of the new model to the experimental data is greatly simplified. The new model is able to model the existing multiparameter correlations by fitting the single parameter . Specifically, for the correlation of Midoux et al., for the correlation of Rao et al., for the Tosun correlation, for the correlation of Larkins et al., for the correlation of Sato et al., and for the Goto and Gaspillo correlation.
Skip Nav Destination
e-mail: awad@engr.mun.ca
e-mail: sbutt@engr.mun.ca
Article navigation
Research Papers
A Robust Asymptotically Based Modeling Approach for Two-Phase Flow in Porous Media
M. M. Awad,
M. M. Awad
Faculty of Engineering and Applied Science,
e-mail: awad@engr.mun.ca
Memorial University of Newfoundland
, St. John’s, NF, A1B 3X5, Canada
Search for other works by this author on:
S. D. Butt
S. D. Butt
Faculty of Engineering and Applied Science,
e-mail: sbutt@engr.mun.ca
Memorial University of Newfoundland
, St. John’s, NF, A1B 3X5, Canada
Search for other works by this author on:
M. M. Awad
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland
, St. John’s, NF, A1B 3X5, Canadae-mail: awad@engr.mun.ca
S. D. Butt
Faculty of Engineering and Applied Science,
Memorial University of Newfoundland
, St. John’s, NF, A1B 3X5, Canadae-mail: sbutt@engr.mun.ca
J. Heat Transfer. Oct 2009, 131(10): 101014 (12 pages)
Published Online: August 4, 2009
Article history
Received:
March 10, 2008
Revised:
September 8, 2008
Published:
August 4, 2009
Citation
Awad, M. M., and Butt, S. D. (August 4, 2009). "A Robust Asymptotically Based Modeling Approach for Two-Phase Flow in Porous Media." ASME. J. Heat Transfer. October 2009; 131(10): 101014. https://doi.org/10.1115/1.3180808
Download citation file:
Get Email Alerts
Cited By
Estimation of thermal emission from mixture of CO2 and H2O gases and fly-ash particles
J. Heat Mass Transfer
Non-Classical Heat Transfer and Recent Progress
J. Heat Mass Transfer
Related Articles
Effect of Capsule Density and Concentration on Pressure Drops of Spherical Capsule Train Conveyed by Water
J. Fluids Eng (January,2010)
Numerical Investigation of Thermofluid Flow Characteristics With Phase Change Against High Heat Flux in Porous Media
J. Heat Transfer (January,2008)
Modeling of the Onset of Gas Entrainment From a Stratified Two-Phase Region Through Branches on a Curved Surface
J. Fluids Eng (July,2006)
Two-Phase Flow Through Square and Circular Microchannels—Effects of Channel Geometry
J. Fluids Eng (July,2004)
Related Proceedings Papers
Related Chapters
Thermal Design Guide of Liquid Cooled Systems
Thermal Design of Liquid Cooled Microelectronic Equipment
Applications
Introduction to Finite Element, Boundary Element, and Meshless Methods: With Applications to Heat Transfer and Fluid Flow
Basics of Hydraulic Loops
Hydraulics, Pipe Flow, Industrial HVAC & Utility Systems: Mister Mech Mentor, Vol. 1