1 |
Influence of the functional group of fuels on the construction of skeletal chemical mechanisms: A case study of 1-hexane, 1-hexene, and 1-hexanol Wang PZ, Chang YC, Niu B, Dong X, Jia M Combustion and Flame, 221, 120, 2020 |
2 |
Development of a compact and robust Polyoxymethylene Dimethyl Ether 3 reaction mechanism for internal combustion engines Lin QJ, Tay KL, Zhou DZ, Yang WM Energy Conversion and Management, 185, 35, 2019 |
3 |
Construction of a skeletal oxidation mechanism of n-pentanol by integrating decoupling methodology, genetic algorithm, and uncertainty quantification Chang YC, Jia M, Niu B, Xu Z, Liu ZH, Li YP, Xie MZ Combustion and Flame, 194, 15, 2018 |
4 |
Construction of a skeletal mechanism for butanol isomers based on the decoupling methodology Chang YC, Jia M, Xiao JH, Li YP, Fan WW, Xie MZ Energy Conversion and Management, 128, 250, 2016 |
5 |
Development of a skeletal mechanism for diesel surrogate fuel by using a decoupling methodology Chang YC, Jia M, Li YP, Liu YD, Xie MZ, Wang H, Reitz RD Combustion and Flame, 162(10), 3785, 2015 |
6 |
Development of a new skeletal mechanism for n-decane oxidation under engine-relevant conditions based on a decoupling methodology Chang YC, Jia M, Liu YD, Li YP, Xie MZ Combustion and Flame, 160(8), 1315, 2013 |