| 1 |
Diffusion Combustion of a Hydrogen Microjet at Variations of its Velocity Profile and Orientation of the Nozzle in the Field of Gravitation
Kozlov VV, Vikhorev VV, Grek G, Litvinenko YA, Shmakov AG
Combustion Science and Technology, 191(7), 1219, 2019 |
| 2 |
Experimental study on diffusion combustion of high-speed hydrogen round microjets
Kozlou VV, Grek GR, Kozlou GV, Lituinenko YA, Shmakou AG
International Journal of Hydrogen Energy, 44(1), 457, 2019 |
| 3 |
Neat polyoxymethylene dimethyl ether in a diesel engine; part 2: Exhaust emission analysis
Barro C, Parravicini M, Boulouchos K, Liati A
Fuel, 234, 1414, 2018 |
| 4 |
Influence of initial and boundary conditions at the nozzle exit upon diffusion combustion of a hydrogen microjet
Shmakov AG, Grek GR, Kozlov VV, Litvinenko YA
International Journal of Hydrogen Energy, 42(24), 15913, 2017 |
| 5 |
Cycle-to-cycle variations in diesel engines
Kyrtatos P, Bruckner C, Boulouchos K
Applied Energy, 171, 120, 2016 |
| 6 |
Raman scattering measurements of mixing and finite-rate chemistry in a supersonic reacting flow over a piloted, ramped cavity
Grady NR, Pitz RW, Carter CD, Hsu KY
Combustion and Flame, 165, 310, 2016 |
| 7 |
New 0-D methodology for predicting NO formation under continuously varying temperature and mixture composition conditions
Benajes J, Lopez JJ, Molina S, Redon P
Energy Conversion and Management, 91, 367, 2015 |
| 8 |
First and second thermodynamic-law analyses of hydrogen-air counter-flow diffusion combustion in various combustion modes
Chen S, Mi JC, Liu H, Zheng CG
International Journal of Hydrogen Energy, 37(6), 5234, 2012 |
| 9 |
Diesel-like and HCCI-like operation of a truck engine converted to hydrogen
Boretti AA
International Journal of Hydrogen Energy, 36(23), 15382, 2011 |
| 10 |
Presumed joint probability density function model for turbulent combustion
Guo ZM, Zhang HQ, Chan CK, Lin WY
Fuel, 82(9), 1091, 2003 |
