Index of ACERC Publications by Author

4-97-J02 - Mixing Mechanisms in Turbulent Pipe Flow

4-97-J03 - Long-Tailed Probability Distributions in Turbulent-Pipe-Flow Mixing

4-94-J03 - Effects of Turbulence Length-Scale Distribution on Scalar Mixing in Homogeneous Turbulent Flow

4-94-J04 - Low-Wave-Number Statistics of Randomly Advected Passive Scalars

4-94-J09 - Prediction of NOx Production in a Turbulent Hydrogen-Air Jet Flame

4-94-J10 - Mean-Field Theories of Random Advection

4-93-J04 - Linear Eddy Modeling of Turbulent Combustion

4-93-J05 - Mean-Field Theories of Random Advection

4-93-J11 - Linear Eddy Simulations of Mixing in a Homogeneous Turbulent Flow

4-93-P02 - A Linear Eddy Subgrid Model for Turbulent Combustion: Application to Premixed Combustion

4-92-J03 - A Linear Eddy Mixing Model for a Large Eddy Simulation of Turbulent Combustion

4-92-J04 - Prediction of NOx Production in a Turbulent Hydrogen-Air Jet Flame

4-92-J05 - Linear Eddy Simulations of Mixing in a Homogeneous Turbulent Flow

4-92-P02 - Effects of Turbulence Length Scale Distribution on Scalar Mixing in Homogeneous Turbulent Flow

4-92-S02 - A Linear Eddy Subgrid Model for Turbulent Reacting Flows: Application to Hydrogen-Air Combustion

4-91-P02 - A Linear Eddy Subgrid Model for Turbulent Mixing and Reaction

1-90-J01 - Chemical Percolation Model for Devolatilization: 2. Temperature and Heating Rate Effects on Product Yields

1-90-J20 - A Chemical Percolation Model of Coal Devolatilization: 3. Direct Use of C-13 NMR Data to Predict Effects of Coal Type

1-89-J02 - Chemical Percolation Model for Devolatilization: II. Temperature and Heating Rate Effects on Product Yields

1-89-P05 - A Chemical Percolation Model for Devolatilization: Temperature and Heating Rate Effects

1-88-P07 - A Chemical Model of Coal Devolatilization Using Percolation Lattice Statistics