2022年度
1. Xingyu Liang, Xiaohui Wang, Wei Shen,
Shijie Bai, Shihao Zhu, Yuesen Wang, Kun Wang, Development of a
combustion reaction model for lubricant synthetic base oil by experimental and
numerical methods, Combustion and Flame 238 (2022) 111916. https://doi.org/10.1016/j.combustflame.2021.111916 (领域top期刊,影响因子4.185)
2. Xingyu Liang, Bowen Zhao, Kun Wang,
Xu Lv, Yajun Wang, Jun Liu, Yuesen Wang, Impact of multi-injection strategies
on morphology, nanostructure and oxidation reactivity of diesel soot particles,
Combustion and Flame 237 (2022) 111854. https://doi.org/10.1016/j.combustflame.2021.111854 (领域top期刊,影响因子4.185)
3. 梁兴雨,廖寄语,朱仕皓,沈位,王昆. 实际气体效应对碳氢燃料点火延迟时间的影响. 西安交通大学学报. 2022, Vol. 56, No. 1, p.1-11. (EI工程索引期刊)
2021年度
1. Wei Shen, Shijie Bai, Kun Wang, Jiyu
Liao, Xingyu Liang, Simplified modeling combustion chemistry of neat and
blended large hydrocarbon fuels with different functional groups, Combustion
and Flame 234 (2021) 111610. https://doi.org/10.1016/j.combustflame.2021.111610. (领域top期刊,影响因子4.185)
2. Xingyu Liang, Shihao Zhu, Xiaohui Wang, Kun
Wang, Development and application of a foundational fuel chemistry
mechanism for pyrolysis and oxidation of propene and butenes, Fuel 302 (2021)
121130. https://doi.org/10.1016/j.fuel.2021.121130. (中科院一区学术期刊,影响因子6.609)
3. Hongsheng Zhang, Xingyu Liang, Kun Wang,
Yuesen Wang, Shiwen Wang, Experimental study on the interaction between flame
propagation and wall film in a confined vessel, Fuel 302 (2021) 121132. https://doi.org/10.1016/j.fuel.2021.121132. (中科院一区学术期刊,影响因子6.609)
4. Xingyu Liang, Bowen Zhao, Kun Wang, Xu Lv,
Yajun Wang, Jun Liu, Yuesen Wang, Impact of early injection on physicochemical
characteristics of diesel soot particles, Fuel 292 (2021) 120262. https://doi.org/10.1016/j.fuel.2021.120262. (中科院一区学术期刊,影响因子6.609)
5. Kun Wang, Rui Xu, Craig T. Bowman, Hai Wang, Impact of
vitiation on flow reactor studies of jet fuel combustion chemistry, Combustion
and Flame 224 (2021) 66–72. https://doi.org/10.1016/j.combustflame.2020.10.044. (领域top期刊,影响因子4.185)
6. Xingyu Liang, Yajun Wang, Kun Wang,
Yuesen Wang, Hongsheng Zhang, Bowen Zhao, Xu Lv, Experimental study of impact
of lubricant-derived ash on oxidation reactivity of soot generated in diesel
engines, Proceedings of the Combustion Institute, 2021, 38(4), 5635-5642. https://doi.org/10.1016/j.proci.2020.06.335. (领域top期刊,影响因子3.757)
7. 梁兴雨,刘志伟,王昆,朱仕皓,王晓慧,沈位. 4类碳氢燃料的高温反应动力学简化建模.
西安交通大学学报. 2021, Vol. 55, No. 2, p.27-37. (EI工程索引期刊)
8. 梁兴雨,李 畅,王 昆,张洪升,刘子阳,王诗文. 壁面油膜对甲烷预混气燃烧特性和排放的影响. 燃烧科学与技术. 2021, 27(3), 241-248. (中文核心期刊)
9. 梁兴雨,王诗文,王 昆,张洪升,郑志伟,李 畅. 甲烷瞬态火焰与壁面油膜相互作用的实验观测. 燃烧科学与技术. 2021,
27(4), 335-342. (中文核心期刊)
2020年度
1.
Xingyu Liang, Yajun
Wang, Yuesen Wang, Bowen Zhao, Ziding Zhang, Xu Lv,Zhaohui Wu, Xiaoliang Cai,
and Kun Wang, Impact of lubricating base oil on diesel soot oxidation
reactivity, Combustion and Flame, 2020, 217, 77-84. (领域top期刊,影响因子4.185)
2019年度
1. Wang K., Bowman C. T., and Wang Hai,
“Kinetic analysis of distinct product generation in oxidative pyrolysis of
four octane isomers”, Proc. Combust. Inst., 2019 (37) 531–538. (领域top期刊,影响因子3.757)
2018年度
1. Wang K., Xu R., Parise T., Shao J.K.,
Movaghar A., Lee D. J., Park J.-W., Gao Y., Lu T.F., Egolfopoulos F. N.,
Davidson D. F., Hanson R. K., Bowman C. T., Wang H., “A physics-based approach
to modeling real-fuel combustion chemistry- IV. HyChem modeling of combustion
kinetics of a bio-derived jet fuel and its blends with a conventional Jet A”, Combust.
Flame 2018, 198, 477-489. (领域top期刊,影响因子4.185)
2. Wang H., Xu R., Wang K.,
Bowman C.T., Davidson D.F., Hanson R.K., Brezinsky K., Egolfopoulos F.N., “A
Physics-based approach to modeling real-fuel combustion chemistry- I. Evidence
from experiments, and thermodynamic, chemical kinetic and statistical
considerations”, Combust. Flame 2018, 193, 502–519. (领域top期刊,影响因子4.185)
3. Xu R., Wang K., Banerjee
S., Shao J., Parise T., Zhu Y., Wang S., Movaghar A., Lee D.J., Zhao R., Han
X., Gao Y., Lu T., Brezinsky K., Egolfopoulos F.N., Davidson D.F., Hanson R.K.,
Bowman C.T., Wang H., “A Physics-based approach to modeling real-fuel
combustion chemistry- II. Reaction kinetic models of jet and rocket fuels”, Combust.
Flame 2018, 193, 520–537. (领域top期刊,影响因子4.185)
4. Y. Tao, R. Xu, K. Wang, J.K.
Shao, S.E. Johnson, A. Movaghar, X. Han, J.-W. Park, T.F. Lu, K. Brezinsky,
F.N. Egolfopoulos, D.F. Davidson, R.K. Hanson, C.T. Bowman, H. Wang, A
Physics-based approach to modeling real-fuel combustion chemistry –III.
Reaction kinetic model of JP10, Combust. Flame 2018, 193, 466–476.
(领域top期刊,影响因子4.185)
2017年度
1. Chen D., Wang K., and
Wang Hai, “Violation of collision limit in recently published
reaction models”, Combust. Flame, 2017, 186, 208–210. (领域top期刊,影响因子4.185)
2. Wang K., Villano S. M., and Dean A. M.,
“Experimental and Kinetic Modeling Study of Butene Isomer Pyrolysis: Part II.
IsoButene”, Combust. Flame, 2017, 176, 23–37. (领域top期刊,影响因子4.185)
2016年度
1. Wang K., Villano S. M., and Dean A.
M., “Experimental and Kinetic Modeling Study of Butene Isomer Pyrolysis: Part
I. 1- and 2-Butene”, Combust. Flame, 2016, 173, 347–369. (领域top期刊,影响因子4.185)
2. Saldana M., Bogin G., Wang
K., and Dean A. M., “Comparative Kinetic Analysis of Ethane Pyrolysis at
Elevated Pressures and High Conversions”, Energy Fuels, 2016, 30
(11), 9703–9711. (领域top期刊,影响因子3.605)
3. Wang K., Villano S. M., and Dean A.
M., “Ab Initio Study of the Influence of Resonance Stabilization on the Ring
Closure Reactions of Hydrocarbon Radicals”. Phys. Chem. Chem. Phys. 2016, 18, 8437–8452. (领域top期刊,影响因子3.676)
2015年度
1. Wang K., Villano S. M., and Dean A.
M., “Fundamentally-Based Kinetic Model for Propene Pyrolysis”. Combust.
Flame, 2015, 162(12):4456–4470. (领域top期刊,影响因子4.185)
2. Wang K., Villano S. M., and Dean A.
M., “Reactivity-Structure Based Rate Estimation Rules for Alkyl Radical H-atom
Shift and Alkenyl Radical Cyclization Reactions”. J. Phys. Chem. A 2015, 119(28): 7205–7221. (领域top期刊,影响因子2.781)
3. Wang K., Villano S. M., and Dean A.
M., “Reactions of Resonantly-Stabilized Free Radicals that Impact Molecular
Weight Growth Kinetics”. Phys.
Chem. Chem. Phys. 2015, 17, 6255–6273. (领域top期刊,影响因子3.676)
4. Wang K., Villano S. M., and Dean A.
M., “The Impact of Resonance Stabilization on the Intramolecular H-atom Shift
Reactions of Hydrocarbon Radicals”. ChemPhysChem, 2015,
16(12): 2635–2645. (领域top期刊,影响因子3.102)
学术专著
1.
Computer-Aided Chemical
Engineering, Vol. 45, "Mathematical Modelling of Gas-Phase Complex
Reaction Systems: Pyrolysis and Combustion", Edited by Tiziano Faravelli,
Flavio Manenti, and Eliseo Ranzi. Chapter 4, "Rate rules and reaction
classes", Kun Wang and Anthony M. Dean, 2019, pp. 203-257.
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