Raman, V.; Pitsch, H.; Fox, R. O.
view article (1.0)
Hybrid Large-Eddy Simulation/Lagrangian Filtered-Density-Function Approach for Simulating Turbulent Combustion.
Stanford Research Inst., Menlo Park, CA; Iowa State Univ., Ames
Combustion and Flame,
Vol. 143,
No. 1/2,
56-78,
October 2005
Ihme, M.; Cha, C. M.; Pitsch, H.
view article (1.0)
Prediction of Local Extinction and Re-Ignition Effects in Non-Premixed Turbulent Combustion Using a Flamelet/Progress Variable Approach.
Stanford Univ., CA
Combustion Institute, Symposium (International) on Combustion, 30th. Proceedings. Volume 30. Part 1. July 25-30, 2004,
Combustion Institute, Pittsburgh, PA,
Chicago, IL,
Chen, J. H.; Colket, M. D.; Barlow, R. S.; Yetter, R. A., Editors,
793-800 p.,
2005
Raman, V.; Pitsch, H.; Fox, R. O.
view article (1.0)
Eulerian Transported Probability Density Function Sub-Filter Model for Large-Eddy Simulations of Turbulent Combustion.
Stanford Research Inst., Menlo Park, CA; Iowa State Univ., IA
Combustion Theory and Modelling,
Vol. 10,
No. 3,
439-458,
June 2006
Watanabe, H.; Kurose, R.; Komori, S.; Pitsch, H.
view article (1.0)
Effects of Radiation on Spray Flame Characteristics and Soot Formation.
Central Research Institute of Electric Power Industry (CRIEPI), 2-6-1 Nagasaka, Yokosuka, Kanagawa 240-0196, Japan; Kyoto Univ., Yoshida-honmachi, Sakyo-ku, Kyoto 606-8501, Japan; Stanford Univ., CA
Combustion and Flame,
Vol. 152,
No. 1/2,
2-13,
January 2008
Pepiot-Desjardins, P.; Pitsch, H.
view article (1.0)
Efficient Error-Propagation-Based Reduction Method for Large Chemical Kinetic Mechanisms.
Stanford Univ., CA
Combustion and Flame,
Vol. 154,
No. 1/2,
67-81,
July 2008
Pepiot-Desjardins, P.; Pitsch, H.; Malhotra, R.; Kirby, S. R.; Boehman, A. L.
view article (1.0)
Structural Group Analysis for Soot Reduction Tendency of Oxygenated Fuels.
Stanford University, CA; SRI International, Menlo Park, CA; Pennsylvania State Univ., University Park
Combustion and Flame,
Vol. 154,
No. 1/2,
191-205,
July 2008
Knudsen, E.; Pitsch, H.
view article (1.0)
Dynamic Model for the Turbulent Burning Velocity for Large Eddy Simulation of Premixed Combustion.
Stanford Research Inst., Menlo Park, CA
Combustion and Flame,
Vol. 154,
No. 4,
740-760,
September 2008
Ihme, M.; Pitsch, H.
view article (1.0)
Prediction of Extinction and Reignition in Nonpremixed Turbulent Flames Using a Flamelet/Progress Variable Model. 1. A Priori Study and Presumed PDF Closure.
Stanford Univ., CA
Combustion and Flame,
Vol. 155,
No. 1/2,
70-89,
October 2008
Ihme, M.; Pitsch, H.
view article (1.0)
Prediction of Extinction and Reignition in Nonpremixed Turbulent Flames Using a Flamelet/Progress Variable Model. 2. Application in LES of Sandia Flames D and E.
Stanford Univ., CA
Combustion and Flame,
Vol. 155,
No. 1/2,
90-107,
October 2008
Pepiot-Desjardins, P.; Pitsch, H.
view article (1.0)
Automatic Chemical Lumping Method for the Reduction of Large Chemical Kinetic Mechansims.
Stanford Univ., CA
Combustion Theory and Modelling,
Vol. 12,
No. 6,
1089-1108,
November 2008