Charles Finney Senior R&D Scientist Contact FINNEYC@ORNL.GOV All Publications In situ monitoring of hydrogen loss during pyrolysis of wood by neutron imaging 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 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... 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 Development of predictive capability of cycle-to-cycle variation in dual-fuel engines using supercomputing-based computational fluid dynamics High-Performance Computing and Analysis-Led Development of High Efficiency Dilute Opposed Piston Gasoline Engine Pagination First page « First Previous page ‹â¶Ä¹ Page 1 Current page 2 Page 3 … Next page ›â¶Äº Last page Last » Key Links Organizations Energy Science and Technology Directorate Buildings and Transportation Science Division Propulsion Science Section Fuel Science and Engine Technologies Research Group User Facilities National Transportation Research Center
