Dean D Edwards Contact edwardskd@ornl.gov | 865.341.1213 All Publications Development and testing of residential micro-CHP powered by opposed piston engine Reduced Order Model to Predict Dispersion of Flammable Refrigerant into a Space... Simulation of spray, wall-film, and charge preparation for light-duty cold-start applications... Completion of initial reduced-order model for flammable refrigerant dispersal in residential spaces... A Transported Livengood–Wu Integral Model for Knock Prediction in Computational Fluid Dynamics Simulation... CFD/FEA Co-Simulation Framework for Analysis of the Thermal Barrier Coating Design and Its Impact on the HD Diesel Engine Per... Exploring the potential benefits of high-efficiency dual-fuel combustion on a heavy-duty multi-cylinder engine for SuperTruck I A transported Livengood-Wu integral model for knock prediction in CFD simulation... Risk Assessment of Catastrophic Leak Of R-452b From Package Unit into A Residential Space Reduced-order model to estimate safe flammable refrigerant charge limits for a one-room air conditioner... Development of Opposed-Piston Variable Compression Ratio Engine for Automotive Applications... Prediction of Cyclic Variability and Knock-Limited Spark Advance in a Spark-Ignition Engine... METHODOLOGY FOR ESTIMATING SAFE CHARGE LIMITS OF FLAMMABLE REFRIGERANTS IN HVAC&R APPLICATIONS – PART 2... Research Activities, Challenges, And Future Directions In Uav Propulsion Prediction of Cyclic Variability and Knock-Limited Spark Advance (KLSA) in Spark-Ignition (SI) Engine... Benefits of Higher-temperature Operation In Boosted Si Engines Enabled by Advanced Materials Benefits of Higher-Temperature Operation in Boosted SI Engines Enabled by Advanced Materials Benefits of Higher-Temperature Operation in Boosted SI Engines Enabled by Advanced Materials... Benefits of Higher-temperature Operation In Boosted Si Engines Enabled by Advanced Materials Benefits of Higher-temperature Operation In Boosted Si Engines Enabled by Advanced Materials Benefits of Higher-temperature Operation In Boosted Si Engines Enabled by Advanced Materials Benefits of Higher-temperature Operation In Boosted Si Engines Enabled by Advanced Materials Benefits of Higher-Temperature Operation in Boosted SI Engines Enabled by Advanced Materials Benefits of Higher-temperature Operation In Boosted Si Engines Enabled by Advanced Materials Benefits of Higher-Temperature Operation in Boosted SI Engines Enabled by Advanced Materials Pagination Current page 1 Page 2 Page 3 … Next page ›› Last page Last » Key Links ORCID Organizations Energy Science and Technology Directorate