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Core Simulation Capabilities

For enabling the use of simulations at all stages of the Product Life Cycle, the flexibility for being able to couple relevant physical phenomena in various appropriate ways is of critical value. CFDRC has unique capability for both weak and strong couplings of relevant phenomena.

As a result, CFDRC covers a wide spectrum of Multidisciplinary simulations, as shown below:
Fluid Mechanics

Subsonic to Hypersonic
Compressible, Incompressible
Viscous/Inviscid/Creeping
Turbulence
- Eddy Viscosity
- Large Eddy Simulation
Low Pressure/Non-continuum
Diffusion Mass Transfer
Capilary Effects/Wetting
Non-Newtonian, Hemodynamics
Poros Media(Anisotropic)
Multi-Phase Flow
- Phase Change
- Free Surface (VOF)
- Spray & Particles
- Cavitation


Heat Transfer

Conduction
Natural/Forced Convection
Conjugate Heat Transfer
Radiation
- Gray/Non-Gray
- STS, DOM, Monte Carlo
- Specular Reflection
- Semi-Transparent

Chemistry

Instananeous/Equilibrium
Multi-step, Finite Rate, Stiff
Combustion LES
NOx and CO Emissions

Catalytic Reactions
Electro Chemistry
- Electroplating with Additives
- Corrosion

Deposition and Etch Mechanisms
Surface Chem/Absorbed Species
Reaction Mechanism Development
Plasma Chemistry
Feature Evolution

Bioelectrochemistry
- Enzymatic Reactions
- Protein/Immunochemistry
- DNA Hybridization

Coupled Multiphysics Multidisciplinary Simulations

Fluid-Structure Interaction (FSI)

Mechanical & Thermal Stress
Anisotropic Material Properties
Large/Nonlinear Deformations
Elastic/Rigid Contact Model
Elastohydrodynamics
Modal Analysis
6 DOF
Two-Way Coupling


Electro-Physics

Electrostatics & Magnetics
Plasma:
- Charged Particle Transport
- Electron Kinetics
Space-Charge Fields
Electrokinetics
- Electroosmosis
- Electrophoresis
- Dielectrophoresis
Piezoelectric
Electrochemistry
Optoelectronics
Device Physics

 
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