| 21 |
Single-cylinder engine evaluation of a multi-component diesel surrogate fuel at a part-load operating condition with conventional combustion
Szymkowicz PG, Benajes J
Fuel, 226, 286, 2018 |
| 22 |
A six-component surrogate of diesel from direct coal liquefaction for spray analysis
Huang Z, Xia J, Ju DH, Lu XC, Han D, Qiao XQ, Huang Z
Fuel, 234, 1259, 2018 |
| 23 |
Compositional effects on PAH and soot formation in counterflow diffusion flames of gasoline surrogate fuels
Park S, Wang Y, Chung SH, Sarathy SM
Combustion and Flame, 178, 46, 2017 |
| 24 |
Investigation of microalgae HTL fuel effects on diesel engine performance and exhaust emissions using surrogate fuels
Hossain FM, Nabi MN, Rainey TJ, Bodisco T, Rahman MM, Suara K, Rahman SMA, Van TC, Ristovski Z, Brown RJ
Energy Conversion and Management, 152, 186, 2017 |
| 25 |
A multi-component wide distillation fuel (covering gasoline, jet fuel and diesel fuel) mechanism for combustion and PAH prediction
Ren SJ, Kokjohn SL, Wang Z, Liu HY, Wang BY, Wang JX
Fuel, 208, 447, 2017 |
| 26 |
Recent advances in catalytic oxidation and reformation of jet fuels
Wierzbicki TA, Lee IC, Gupta AK
Applied Energy, 165, 904, 2016 |
| 27 |
Autoignition of methyl butanoate under engine relevant conditions
Kumar K, Sung CJ
Combustion and Flame, 171, 1, 2016 |
| 28 |
Surrogate fuel formulation for oxygenated and hydrocarbon fuels by using the molecular structures and functional groups
Yu J, Ju YG, Gou XL
Fuel, 166, 211, 2016 |
| 29 |
Sooting tendency and particle size distributions of n-heptane/toluene mixtures burned in a wick-fed diffusion flame
Botero ML, Mosbach S, Kraft M
Fuel, 169, 111, 2016 |
| 30 |
EXPERIMENTAL AND KINETIC MODELING STUDY OF IGNITION CHARACTERISTICS OF CHINESE RP-3 KEROSENE
Zeng W, Li HX, Chen BD, Ma HA
Combustion Science and Technology, 187(3), 396, 2015 |
