51 |
Multiphysics modeling of carbon gasification processes in a well-stirred reactor with detailed gas-phase chemistry Qiao L, Xu J, Sane A, Gore J Combustion and Flame, 159(4), 1693, 2012 |
52 |
DYNAMIC STUDY OF COUPLED HEAVY HYDROCARBON PYROLYSIS AND COMBUSTION Gascoin N, Gillard P Combustion Science and Technology, 184(12), 2136, 2012 |
53 |
Combustion chemistry aspects of alternative fuels reforming for high-temperature fuel cell applications Vourliotakis G, Skevis G, Founti MA International Journal of Hydrogen Energy, 37(21), 16649, 2012 |
54 |
Modelling cycle to cycle variations in an SI engine with detailed chemical kinetics Etheridge J, Mosbach S, Kraft M, Wu H, Collings N Combustion and Flame, 158(1), 179, 2011 |
55 |
Assessment of the reactor network approach for integrated modelling of an SOFC system Vourliotakis G, Skeuis G, Founti MA International Journal of Hydrogen Energy, 36(10), 6112, 2011 |
56 |
Numerical study of laminar flame properties of diluted methane-hydrogen-air flames at high pressure and temperature using detailed chemistry Bougrine S, Richard S, Nicolle A, Veynante D International Journal of Hydrogen Energy, 36(18), 12035, 2011 |
57 |
Analysis of catalytic partial oxidation of methane on rhodium-coated foam monolith using CFD with detailed chemistry Ding S, Wu CN, Cheng YH, Jin Y, Cheng Y Chemical Engineering Science, 65(6), 1989, 2010 |
58 |
Simulation of partial oxidation of natural gas with detailed chemistry: Influence of addition of H-2, C2H6 and C3H8 Cao S, Wang DZ, Wang TF Chemical Engineering Science, 65(8), 2608, 2010 |
59 |
The Response of Transient Inhomogeneous Flames to Pressure Fluctuations and Stretch: Planar and Outwardly Propagating Hydrogen/Air Flames Malik NA, Lindstedt RP Combustion Science and Technology, 182(9), 1171, 2010 |
60 |
Investigation of the effect of chemistry models on the numerical predictions of the supersonic combustion of hydrogen Kumaran K, Babu V Combustion and Flame, 156(4), 826, 2009 |