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Home
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Research
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Computational Modeling & Simulation
> Research Projects
Research Projects
AMR Simulation of Unsteady Flames with Detailed Chemistry
Autoignition in Turbulence Media
Development of Program Framework for Visualization and Data Discovery of Combustion Simulation Data
MPP DNS Code Development
Parallel Scientific Computing
Richtmyer-Meshkov Instabilities
SDF/PDF Modeling of Partially-Premixed Turbulent Flames
Structure and Propagation of Triple Flames
Unsteady Stretch/Preferential Diffusion Effects on Turbulent Premixed Burning Velocity
Turbulence Combustion Modeling
Compressible Shear Flows
Explicit Runge-Kutta Methods
Additive Runge-Kutta Methods
Implicit Runge-Kutta Methods
Higher-Order Finite-Difference Methods
MPP DNS Code Development
Kinetic Theory of Reacting Gases
(
Reactbib.pdf
)
Modeling and Simulation of Turbulent Combustion
Flow Frequency effect upon Huygens Front Propagation
Chemical Reaction and Diffusion: a Comparison of Molecular Dynamics Simulations with Continuum Solutions
Droplet formation by rapid expansion of a liquid
Droplet size dependence upon volume expansion rate
Numerical Methods Development for Reacting Flow Modeling
Computational Studies of Flames
Uncertainty Quantification in Reacting Thermofluid Systems
Adaptive Chemical Reduction in Multidimensional Reacting Flow
Turbulence-Chemistry Interactions
Control of Combustion in Homogeneous-Charge, Compression-Ignition Engines
Modeling the Growth of Polycyclic Aromatic Hydrocarbons in Nonpremixed Combustion
Turbulence Modeling
