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One Week Online Short Term Course (TEQIP-III SPONSORED) OnMathematical Modeling of Complex Fluids
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one week online short term course (TEQIP-III sponsored)
on Mathematical Modeling of Complex Fluids-2020
(MMComFlu-2002). The short term course is to be held at
the Department of Chemical Engineering, NIT Jalandhar
during September 24-28, 2020. This short term course aims
to promote the knowledge of mathematical modeling of
complex fluids (suspensions or solutions of
macromolecules such as polymers, granular, foams,
emulsions, etc., ) within a larger number of research
community.
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| Date: |
September 24, 2020 - September 28, 2020
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| Location: |
Chemical Engineering Department, NITJalandhar, Jalandhar, Punjab, India
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| Web Page: |
https://sites.google.com/view/mmcomflu2020/home?authuser=0
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| Contact Email: |
mmcomflu2020@gmail.com
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| Organizer: |
Dr. Anurag Kumar Tiwari Chemical Engineering DepartmentNIT Jalandhar, Punjab
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| Application Areas: |
Coating, Painting and Printing, Oil, Gas & Petrochemical, Biomedical & Pharmaceutical, Pumps and Fans, General CFD
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| Special Fields: |
Heat Transfer, Finite Element Methods, Finite Volume Methods, Finite Difference Methods, Fluid-Structure Interaction, Non-Newtonian Flows, Multiphase Flows, Incompressible Flows, Numerical Methods, Fluid Mechancis, Theoretical Fluid Dynamics, Boundary and Interior Layers, Micro- and Nano-Fluidics, Experimental Fluid Dynamics, Lattice-Boltzmann Methods, Hydrodynamics, Discrete Simulation of Fluid Dynamics , Magnetohydrodynamics
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| Softwares: |
FLUENT, GAMBIT, Tecplot, Matlab, OpenFOAM, COMSOL Multiphysics, ANSYS
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| Deadlines: |
September 19, 2020 (registration)
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| Type of Event: |
Course, National
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| Description: |
Complex fluids are mixtures that have coexistence between
two phases: solid–liquid (suspensions or solutions of
macromolecules such as polymers), solid–gas (granular),
liquid–gas (foams) or liquid–liquid (emulsions).
Mathematical Modelling for Complex Fluids provides
researchers and engineering practitioners encountering
fluid flows with state-of-the-art knowledge in continuum
concepts and associated fluid dynamics. To design
mathematical models of these flows that adequately express
the engineering physics involved. It exploits the implicit
link between the classical Newtonian fluids and non-
Newtonian fluids such as those required in food processing
and polymeric flows. The objective of course to develops a
descriptive mathematical model articulated through
continuum mechanics concepts for these non-Newtonian,
viscoelastic fluids.
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Event record first posted on August 19, 2020, last modified on August 21, 2020
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