Reactive Rayleigh-Taylor turbulent mixing: a one-dimensional-turbulence study
Geophysical and Astrophysical Fluid Dynamics
Abstract not provided.
Publications
Mesh adaption for efficient multiscale implementation of One-Dimensional Turbulence
Theoretical and Computational Fluid Dynamics
Abstract not provided.
Analysis and numerical simulation of a laboratory analog of radiatively induced cloud-top entrainment
Theoretical and Computational Fluid Dynamics
Abstract not provided.
Exploding Stars Indestructible Flames Dark Energy and the Origin of Elements: The Turbulent Mixing Connection
Abstract not provided.
Numerical study of radiatively induced entrainment
Abstract not provided.
ODTLES simulations of wall-bounded turbulent flows
Physics of Fluids
Abstract not provided.
Stochastic simulation of scalar mixing capturing unsteadiness and small-scale structure based on mean-flow properties
Journal of Fluid Mechanics
Abstract not provided.
Turbulent Premixed Combustion Beyond the Flamelet Regime: An Astrophysical Example
Abstract not provided.
Building a Turbulent Combustion Numerical Simulation from the Bottom Up
Abstract not provided.
Derivation from the field equation of the mean consumption velocity for front propagation in homogeneous turbulent flow
International Journal of Spray and Combustion Dynamics
Abstract not provided.
Vertical mixing in homogeneous sheared stratified turbulence: a one-dimensional-turbulence study
Physics of Fluids
Abstract not provided.
Fluxes across double-diffusive interfaces : a one-dimensional turbulence study
Abstract not provided.
Fluxes across double-diffusive interfaces : a one-dimensional turbulence study
The parameterization of the fluxes of heat and salt across double-diffusive interfaces is of interest in geophysics, astrophysics, and engineering. The present work is a parametric study of these fluxes using one-dimensional-turbulence (ODT) simulations. Its main distinction is that it considers a parameter space larger than previous studies. Specifically, this work considers the effect on the fluxes of the stability parameter R{sub {rho}}, Rayleigh number Ra, Prandtl number, Lewis number, and Richardson number. The ratio Ra/R{sub {rho}} is found to be a dominant parameter. Here Ra/R{sub {rho}} can be seen as a ratio of destabilizing and stabilizing effects. Trends predicted by the simulations are in good agreement with previous models and available measurements.
Analysis and numerical simulation of a laboratory analog of radiatively induced cloud-top entrainment
Numerical simulations using the One-Dimensional-Turbulence model are compared to water-tank measurements [B. J. Sayler and R. E. Breidenthal, J. Geophys. Res. 103 (D8), 8827 (1998)] emulating convection and entrainment in stratiform clouds driven by cloud-top cooling. Measured dependences of the entrainment rate on Richardson number, molecular transport coefficients, and other experimental parameters are reproduced. Additional parameter variations suggest more complicated dependences of the entrainment rate than previously anticipated. A simple algebraic model indicates the ways in which laboratory and cloud entrainment behaviors might be similar and different.
Flames in Type Ia Supernova: Deflagration-Detonation Transition in the Oxygen Burning Flame
Astrophysical Journal
Abstract not provided.
The Combustion Research Facility at Sandia National Laboratories : overview and collaboration opportunities
Abstract not provided.
Update on LEM and ODT
Abstract not provided.
Issues in combustion research
Abstract not provided.
Entrainment rates from a tank experiment compared to numerical results using the one-dimensional turbulence model
Abstract not provided.
The Linear-Eddy Model
Abstract not provided.
The One-Dimensional-Turbulence Model
Abstract not provided.
Fluxes across double-diffusive interfaces: a one-dimensional-turbulence study
Journal of Fluid Mechanics
Abstract not provided.
Turbulence Simulation in One Spatial Dimension Using Map-Based Advection
Abstract not provided.
Climate simulation hierarchies : aligning needs, expectations, and capabilities
Abstract not provided.
Map-based advection, low-dimensional simulation, and superparameterization
Abstract not provided.
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