Dissertations and Theses¶
T. Wei, One-Dimensional Turbulence Modeling of Turbulent Wall Bounded Flows, The University of Utah (2004).
R.J. McDermott, Toward one-dimensional turbulence subgrid closure for large-eddy simulation, The University of Utah (2005).
A. Ricks, A One-Dimensional Turbulence (ODT) study of soot formation, transport, and radiation interactions in meter-scale buoyant turbulent flames, Purdue University (2007).
N. Krishnamoorthy, Reaction models and reaction state parameterization for turbulent nonpremixed combustion, The University of Utah (2008).
G. Sun, Stochastic simulation of Lagrangian particle transport in turbulent flows, Brigham Young University (2015).
S. Balasubramanian, A novel approach for the direct simulation of subgrid-scale physics in fire simulations, North Carolina State University (2010).
T. Weydahl, A framework for mixing-reaction closure with the Linear Eddy Model, Institutt for energi og prosessteknikk (2010).
E. Monson, Simulations of controlled fires using the One-Dimensional Turbulence model with application to fire spread in wildland fires, Brigham Young University (2012).
A. Paudel, Application of One Dimensional Turbulence (ODT) to model fire spread through biomass fuel bed, Brigham Young University (2013).
D. Harris, A kinetic study of aqueous calcium carbonate, Brigham Young University (2013).
B. Goshayeshi, Coal combusion simulation using One-Dimensional Turbulence model, University of Utah (2014).
F. T. Meiselbach, Application of ODT to turbulent flow problems, BTU Cottbus-Senftenberg, Germany, 2015.
C. Glawe, ODTLES: Turbulence Modeling Using a One-DimensionalTurbulence Closed Extended Large Eddy Simulation Approach, Berlin, Germany, 2015.
Z. Jozefik, Application of ODT to turbulent combustion problems in incompressible and compressible regimes, BTU Cottbus-Senftenberg, Germany, 2016.
A. Abdelsamie, Direct numerical simulations of turbulent flow and spray combustion, Universität Magdeburg (2017).
M. Fistler, Turbulence-Droplet Interaction Modelled by One-Dimensional-Turbulence, Chalmers University of Technology (2017).
J. Medina, Application of the One-Dimensional Turbulence model to electrohydrodynamically enhanced internally forced convective flows, Brandenburg University of Technology Cottbus-Senftenberg (2020).