王宇,出生於1985年10月,博士,武漢理工大學汽車工程學院教授、博士生導師,車用動力系主任。
基本介紹
- 中文名:王宇
- 出生日期:1985年10月
- 職業:教師
- 畢業院校:阿卜杜拉國王科技大學
- 學位/學歷:博士
- 專業方向:低碳能源,先進動力系統,燃燒雷射診斷
- 職務:武漢理工大學汽車工程學院博士生導師
研究方向,人物經歷,教育經歷,工作經歷,學術兼職,獲獎情況,學術成果,科研項目情況,代表性學術成果,獲獎記錄,
研究方向
1.先進動力系統 2.低碳能源 3.燃燒與排放
人物經歷
教育經歷
2013年 博士 阿卜杜拉國王科技大學(KAUST)
2009年 碩士 清華大學
2006年 學士 武漢理工大學
工作經歷
2019年 -今 武漢理工大學 青年拔尖人才
2017年-今 武漢理工大學 博士生導師
2015年-今 武漢理工大學 教授
2013-2015 KAUST研究專家
2009-2010 ETH-Zurich研究助理
學術兼職
1)“International Journal of Hydrogen Energy”; “Fuel”; “Energy and Fuels”; “Combustion and Flame”;
“Combustion Science and Technology”等SCI期刊審稿人;
“Combustion Science and Technology”等SCI期刊審稿人;
2)中國內燃機學會氣體機分會委員;
3)國際燃燒學會會員
獲獎情況
1)北京市科學技術一等獎
2)KAUST Academic Excellence Award
3) 清華大學學術新秀提名
4)清華大學汽車工程系學術新秀
學術成果
科研項目情況
1)主持國家自然科學基金面上項目一項
2)主持國家自然科學基金青年項目一項
3) . 主持國家重點研發計畫子課題一項
4)主持國家工程實驗室開放基金一項
5)參與項目若干
代表性學術成果
發表SCI論文30篇,最高影響因子26.4,被引1500餘次,H-index 18 (Google Scholar),論文節選如下(標註*號為通訊作者):
1)Y. Wang*, S.H. Chung*. Soot formation in laminar counterflow flames.Progress in Energy and Combustion Science2019; 74:152-238. (IF=26.467)
2) X. Kang, B. Sun, J. Wang,Y. Wang*.A numerical investigation on the thermo-chemical structures of methane-oxygen diffusion flame-streets in a microchannel.Combustion and Flame2019; 206:266-81. (IF=4.120)
3) N.M. Mahmoud, F. Yan, M. Zhou, L. Xu,Y. Wang*.Coupled effects of carbon dioxide and water vapor addition on soot formation in ethylene diffusion flames.Energy and Fuels2019; 33:5582-96. (IF=3.021)
4)F. Yan, M. Zhou, L. Xu,Y. Wang*, S.H. Chung. An experimental study on the spectral dependence of light extinction in sooting ethylene counterflow diffusion flames.Experimental Thermal and Fluid Science2019; 100:259-70. (IF=3.493)
5) F. Yan, L. Xu,Y. Wang*,S. Park, S.M. Sarathy, S.H. Chung. On the opposing effects of methanol and ethanol addition on PAH and soot formation in ethylene counterflow diffusion flames.Combustion and Flame2019; 202:228-42. (IF=4.120)
6)N.M. Mahmoud, F. Yan,Y. Wang*. Effects of fuel inlet boundary condition on aromatic species formation in coflow diffusion flames.Journal of the Energy Institute2019; 92:288-97. (IF=3.774)
7)Y. Wang*, S. Park, S.M. Sarathy, S.H. Chung. A comparative study on the sooting tendencies of various 1-alkene fuels in counterflow diffusion flames.Combustion and Flame2018; 192:71-85. (IF=4.120)
8) L. Xu, F. Yan, M. Zhou,Y. Wang*, S.H. Chung. Experimental and soot modeling studies of ethylene counterflow diffusion flames: Non-monotonic influence of the oxidizer composition on soot formation.Combustion and Flame2018; 197:304-18. (IF=4.120)
9) L. Xu, F. Yan,Y. Wang*. Effects of Hydrogen Addition on the Standoff Distance of Premixed Burner-Stabilized Flames of Various Hydrocarbon Fuels.Energy and Fuels2018; 32:2385-96. (IF=3.021)
10) Z. Li, H.M.F. Amin, P. Liu*,Y. Wang, S.H. Chung, W.L. Roberts. Effect of dimethyl ether (DME) addition on sooting limits in counterflow diffusion flames of ethylene at elevated pressures.Combustion and Flame2018; 197:463-70. (IF=4.120)
11) F. Yan, L. Xu,Y. Wang*. Application of hydrogen enriched natural gas in spark ignition IC engines: from fundamental fuel properties to engine performances and emissions.Renewable and Sustainable Energy Reviews2018; 82:1457-88.(IF=10.556)
12)S. Park,Y. Wang*, S.H. Chung, S.M. Sarathy. Compositional effects on PAH and soot formation in counterflow diffusion flames of gasoline surrogate fuels.Combustion and Flame2017; 178:46-60. (IF=4.120)
13) K. Moshammer, L. Seidel, Y. Wang, H. Selim, S.M. Sarathy, F. Mauss, N. Hansen*. Aromatic ring formation in opposed-flow diffusive 1,3-butadiene flames.Proceedings of the Combustion Institute2017; 36:947-55. (IF=3.299)
14)Y. Wang*, S.H. Chung. Strain rate effect on sooting characteristics in laminar counterflow diffusion flames.Combustion and Flame2016; 165:433-44.(IF=4.120)
15) P. Selvaraj, P.G. Arias, B.J. Lee, H.G. Im*,Y. Wang, Y. Gao, et al. A computational study of ethylene–air sooting flames: Effects of large polycyclic aromatic hydrocarbons.Combustion and Flame2016; 163:427-36. (IF=4.120)
16)Y. Wang*, S.H. Chung. Formation of soot in counterflow diffusion flames with carbon dioxide dilution.Combustion Science and Technology2016; 188:805-17. (IF=1.564)
17)Y. Wang, A. Raj, S.H. Chung*. Soot modeling of counterflow diffusion flames of ethylene-based binary mixture fuels.Combustion and Flame2015; 162:586-96. (IF=4.120)
18)Y. Wang, S.H. Chung*. Effect of strain rate on sooting limits in counterflow diffusion flames of gaseous hydrocarbon fuels: Sooting temperature index and sooting sensitivity index.Combustion and Flame2014; 161:1224-34. (IF=4.120)
19)Y. Wang, A. Raj, S.H. Chung*. A PAH growth mechanism and synergistic effect on PAH formation in counterflow diffusion flames.Combustion and Flame2013; 160, 1667-1676.(IF=4.120)
20) P.H. Joo,Y. Wang, A. Raj, S.H. Chung*. Sooting limit in counterflow diffusion flames of ethylene/propane fuels and implication to threshold soot index.Proceedings of the Combustion Institute2013; 34:1803-9. (IF=3.299)
獲獎記錄
1)北京市科學技術一等獎
2)KAUST學術卓越獎
3)清華大學學術新秀提名
4)清華大學汽車工程系學術新秀
