|  | 3.1 | A Method for Modeling Sub-Grid Combustion in a Large-Scale Wildland Fire CFD Model
Michael M. Clark, Brigham Young Univ., Provo, UT; and T. H. Fletcher, R. R. Linn, and J. Colman |
| 8:30 AM | 3.1A | Influence of Radiative Heating on Wildfire Behavior—A Sensitivity Study
William S. Smith, LANL, Los Alamos, NM; and R. Linn and J. Winterkamp |
| 8:45 AM | 3.2 | An Evaluation of the FDS and Clark Coupled Wildfire Model  
Ruiyu Sun, Univ. of Utah, Salt Lake City, UT; and S. K. Krueger, M. A. Jenkins, W. Mell, and J. J. Charney |
| 9:00 AM | 3.3 | Numerical Simulations of Fires Similar to Those of The International Crown Fire Modeling Experiment
Rodman R. Linn, LANL, Los Alamos, NM; and J. Canfield, J. Winterkamp, P. Cunningham, J. Colman, C. Edminster, and S. L. Goodrick |
| 9:15 AM | 3.4 | Modeling Effects of Atmospheric Stability on Wildfire Behavior
Jesse M. Canfield, LANL, Los Alamos, NM; and R. Linn, P. Cunningham, and S. L. Goodrick |
| 9:30 AM | 3.5 | Coupled Influences of Topography and Atmosphere on Wildland Fire Behavior: Physics-Based Model Explorations
Judith L. Winterkamp, LANL, Los Alamos, NM; and R. R. Linn, W. S. Smith, and J. J. Colman |
| 9:45 AM | 3.6 | A Numerical Solution of Reynolds System of Equations for Description of Forest Fire Initiation
Valeriy Perminov, Kemerovo State Univ., Belovo, Kemerovo, Russia |