| 11 |
Droplet evaporation characteristics of aviation kerosene surrogate fuel and butanol blends under forced convection
Chen LF, Li GZ, Fang B
International Journal of Multiphase Flow, 114, 229, 2019 |
| 12 |
Formulation of optimal surrogate descriptions of fuels considering sensitivities to experimental uncertainties
Govindaraju PB, Ihme M
Combustion and Flame, 188, 337, 2018 |
| 13 |
An optimization method for formulating model-based jet fuel surrogate by emulating physical, gas phase chemical properties and threshold sooting index (TSI) of real jet fuel under engine relevant conditions
Yu WB, Yang WM, Tay KL, Zhao FY
Combustion and Flame, 193, 192, 2018 |
| 14 |
An experimental and modeling study on the low temperature oxidation of surrogate for JP-8 part II: Comparison between neat 1,3,5-trimethylbenzene and its mixture with n-decane
Wang BY, Liu YX, Weng JJ, Pan GF, Tian ZY
Combustion and Flame, 192, 517, 2018 |
| 15 |
Computational acceleration of multi-dimensional reactive flow modelling using diesel/biodiesel/jet-fuel surrogate mechanisms via a clustered dynamic adaptive chemistry method
Zhou DZ, Tay KL, Li H, Yang WM
Combustion and Flame, 196, 197, 2018 |
| 16 |
Development of multi-component surrogates of diesel from indirect coal liquefaction for spray analysis
Huang Z, Xu XC, Ju DH, Han D, Qiao XQ, Huang Z
Energy, 152, 341, 2018 |
| 17 |
Soot emission prediction in pilot ignited direct injection natural gas engine based on n-heptane/toluene/methane/PAH mechanism
Li MH, Zhang Q, Liu XR, Ma YX, Zheng QP
Energy, 163, 660, 2018 |
| 18 |
Development of a surrogate fuel mechanism for application in two-stroke marine diesel engine
Sun XX, Liang XY, Shu GQ, Lin JS, Wei HQ, Zhou PL
Energy, 153, 56, 2018 |
| 19 |
Development of a Diesel Surrogate Fuel Library
Szymkowicz PG, Benajes J
Fuel, 222, 21, 2018 |
| 20 |
A simplified chemical reaction mechanism for two-component RP-3 kerosene surrogate fuel and its verification
Yan YW, Liu YC, Fang W, Liu YP, Li JH
Fuel, 227, 127, 2018 |
