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A numerical technique for the solution of integrodifferential equations arising from balances over populations of drops in turbulent flows
V. Jairazbhoy,
L. L. Tavlarides
Department of Biomedical & Chemical Engineering
Research output
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Contribution to journal
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Article
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peer-review
3
Scopus citations
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Dive into the research topics of 'A numerical technique for the solution of integrodifferential equations arising from balances over populations of drops in turbulent flows'. Together they form a unique fingerprint.
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Keyphrases
Discretization Scheme
50%
Grid Independence
25%
Isotropic Turbulence
25%
Dense Liquid
25%
Quadrature Points
25%
Comparable Accuracy
25%
Function Evaluation
25%
Number Density Function
25%
Impacting Drop
25%
Gaussian Quadrature Points
25%
Drop number
25%
Semi-discretization
25%
Gaussian Quadrature
25%
Integro-differential
25%
Population Balance Model
25%
Engineering
Discretization Scheme
50%
Quadrature Point
50%
Partial Differential Equation
25%
Function Evaluation
25%
Number Density
25%
Isotropic Turbulence
25%
Optimum Number
25%
Population Balance Equation
25%
Mathematics
Integrodifferential Equation
100%
Quadrature Point
33%
Gaussian Quadrature
33%
Number Density
16%
Function Evaluation
16%
Balance Equation
16%