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A level-set method for computing solutions to viscoelastic two-phase flow
S. B. Pillapakkam,
P. Singh
Mechanical and Industrial Engr
Research output
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Contribution to journal
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Article
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peer-review
143
Scopus citations
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Dive into the research topics of 'A level-set method for computing solutions to viscoelastic two-phase flow'. Together they form a unique fingerprint.
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Keyphrases
Constitutive Equation
100%
Viscoelastic Two-phase Flow
100%
Pressure-driven Flow
100%
Level Set Method
100%
Trailing Edge
100%
Conjugate Gradient Method
100%
Viscoelastic Liquid
50%
Viscoelastic Stress
50%
Cusp
50%
Capillary
50%
Finite Element Code
50%
Numerical Results
50%
Code-based
50%
Interface Behavior
50%
Inviscid Fluid
50%
Stokes
50%
Discretized
50%
Bubble Rising
50%
Viscous Fluid
50%
Third Order
50%
Least Squares
50%
Deborah number
50%
Capillary number
50%
Channel Wall
50%
Two-phase Flow Problem
50%
Convergence Study
50%
Operator Splitting Method
50%
Gravity Flow
50%
Convection Term
50%
Simple Shear
50%
Nonlinear Convection Term
50%
Incompressibility Constraint
50%
Characteristic Shapes
50%
Nonlinear Convection
50%
Positive Definiteness
50%
Convection Problem
50%
Viscoelastic Term
50%
Upwinding Scheme
50%
Two-phase Problem
50%
Viscous Stress
50%
Shear-driven Flow
50%
Finite Difference Approach
50%
Engineering
Two-Phase Flow
100%
Driven Flow
100%
Level Set Method
100%
Constitutive Equation
66%
Trailing Edge
66%
Finite Element Method
33%
Experimental Observation
33%
Dimensionless
33%
Least Square
33%
Deborah Number
33%
Step Size α
33%
Capillary Number
33%
Channel Wall
33%
Flow Problem
33%
Simple Shear
33%
Limiting Value
33%
Viscous Stress
33%
Stress Act
33%
Finite-Difference Approach
33%