Combustion physics CK Law Cambridge university press, 2010 | 3179 | 2010 |
Recent advances in droplet vaporization and combustion CK Law Progress in energy and combustion science 8 (3), 171-201, 1982 | 1180 | 1982 |
A directed relation graph method for mechanism reduction T Lu, CK Law Proceedings of the Combustion Institute 30 (1), 1333-1341, 2005 | 1169 | 2005 |
Hierarchical and comparative kinetic modeling of laminar flame speeds of hydrocarbon and oxygenated fuels E Ranzi, A Frassoldati, R Grana, A Cuoci, T Faravelli, AP Kelley, CK Law Progress in Energy and Combustion Science 38 (4), 468-501, 2012 | 1042 | 2012 |
Regimes of coalescence and separation in droplet collision J Qian, CK Law Journal of fluid mechanics 331, 59-80, 1997 | 907 | 1997 |
Toward accommodating realistic fuel chemistry in large-scale computations T Lu, CK Law Progress in Energy and Combustion Science 35 (2), 192-215, 2009 | 869 | 2009 |
Erosive burning mechanism of double-base propellants A Ishihara, N Kubota Symposium (International) on Combustion 21 (1), 1975-1981, 1988 | 757* | 1988 |
Laminar flame speeds of hydrocarbon+ air mixtures with hydrogen addition G Yu, CK Law, CK Wu Combustion and flame 63 (3), 339-347, 1986 | 732 | 1986 |
Structure, aerodynamics, and geometry of premixed flamelets CK Law, CJ Sung Progress in energy and combustion science 26 (4-6), 459-505, 2000 | 707 | 2000 |
Dynamics of stretched flames CK Law Symposium (international) on combustion 22 (1), 1381-1402, 1989 | 642 | 1989 |
Nonlinear effects in the extraction of laminar flame speeds from expanding spherical flames AP Kelley, CK Law Combustion and Flame 156 (9), 1844-1851, 2009 | 552 | 2009 |
High-temperature combustion reaction model of H2 H Wang, X You, AV Joshi, SG Davis, A Laskin, F Egolfopoulos, CK Law, ... High-temperature Combustion Reaction Model of H2/CO/C1-C4 Compounds, 2007 | 547 | 2007 |
Advances and challenges in laminar flame experiments and implications for combustion chemistry FN Egolfopoulos, N Hansen, Y Ju, K Kohse-Höinghaus, CK Law, F Qi Progress in Energy and Combustion Science 43, 36-67, 2014 | 539 | 2014 |
Further considerations on the determination of laminar flame speeds with the counterflow twin-flame technique CM Vagelopoulos, FN Egolfopoulos, CK Law Symposium (international) on combustion 25 (1), 1341-1347, 1994 | 517 | 1994 |
Determination of and Fuel Structure Effects on Laminar Flame Speeds of C1 to C8 Hydrocarbons SG Davis, CK Law Combustion Science and Technology 140 (1-6), 427-449, 1998 | 514 | 1998 |
On the determination of laminar flame speeds from stretched flames CK Wu, CK Law Symposium (International) on Combustion 20 (1), 1941-1949, 1985 | 489 | 1985 |
Structure of a spatially developing turbulent lean methane–air Bunsen flame R Sankaran, ER Hawkes, JH Chen, T Lu, CK Law Proceedings of the combustion institute 31 (1), 1291-1298, 2007 | 479 | 2007 |
Morphology and burning rates of expanding spherical flames in H2/O2/inert mixtures up to 60 atmospheres SD Tse, DL Zhu, CK Law Proceedings of the combustion institute 28 (2), 1793-1800, 2000 | 477 | 2000 |
An experimental investigation on the collision behaviour of hydrocarbon droplets YJ Jiang, A Umemura, CK Law Journal of fluid mechanics 234, 171-190, 1992 | 474 | 1992 |
Outward propagation, burning velocities, and chemical effects of methane flames up to 60 atm G Rozenchan, DL Zhu, CK Law, SD Tse Proceedings of the combustion institute 29 (2), 1461-1470, 2002 | 469 | 2002 |