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  • 姓名:玄伟伟
    热科学与能源工程系
    副教授
  • 办公地点:
    机电楼913
  • 办公电话:
    010-62332730
  • Email:
    xww@ustb.edu.cn

玄伟伟热科学与能源工程系



教育及工作经历: 

2019.07-至今     威廉希尔体育,副教授

2019.08-2020.11   德国弗莱贝格IEC研究所,洪堡学者

2015.07-2019.06   威廉希尔体育,讲师

2013.12-2014.06   美国犹他大学,访问学者

2010.09-2015.07   清华大学热能工程系,硕博连读

2006.09-2010.07   山东大学能源与动力工程学院,学士


研究领域:

气化技术、碳基燃料热转化、固废热处理、氢能制备、煤基新材料等


开设课程:

工程流体力学(本科)、能源化工技术(研究生)


科研项目:

国家自然科学基金面上项目(52276098),2023-2026,主持

热科学与动力学教育部重点实验室开放项目,2021-2022,主持

中央高校基本科研业务费(FRF-TP-18-017A2等),2019-2021,主持

国家重点研发计划(2017YFB0602602)子课题,2017-2021,主持

国家自然科学基金青年项目(51606009),2016-2019,主持

博士后基金(2016M600921),2016-2017,主持

国家重点研发计划(2016YFB0601102),2016-2020,参与

企业横向项目多项,主持

 

奖励荣誉:

德国洪堡学者

北京市科协青年托举人才

WilliamHill登录入口能环学院青年教师基本功比赛三等奖

 

已培养优秀硕士毕业生2名,国家奖学金获得者1名,与国内外多所高校以及国内能源行业相关企业保持合作联系,已合作发表多篇SCI论文,欢迎报考!

 

学术成果:

[1] Xuan, W, Wang, H, Yan, S, Xia, D. Exploration on the steam gasification mechanism of waste PE plastics based on ReaxFF-MD and DFT methods. Fuel 2022; 315: 123121.(一区)

[2] Xuan, W, Zhang, Y, Zhang, J. Chemistry variation of slag and the layered characteristics of deposits in an industrialized entrained-flow gasifier system with radiant syngas cooler. Energy 2022; 260: 124942. (一区)

[3] Xuan, W, Guhl, S, Zhang, Y, Zhang, J, Meyer, B. A structural viscosity model for silicate slag melts based on MD simulation. Ceram Int 2022; 48: 28291-8. (材料一区)

[4] Xuan W, Wang H, Xia D. Deep structure analysis on coal slags with increasing silicon content and correlation with melt viscosity. Fuel, 2019, 242: 362~367(一区)

[5] Xuan W, Wang H, Xia D. Depolymerization mechanism of CaO on network structure of synthetic coal slags. Fuel Processing Technology, 2019, 187: 21~27(一区)

[6] Xuan W, Wang H, Xia D. In-situ observation of crystallization inside coal slags and influence of crystals on flow behavior. Fuel, 2019, 251: 242~248(一区)

[7] Xuan W, Zhang J, Xia D. The influence of MgO on the crystallization characteristics of synthetic coal slags. Fuel, 2018, 222: 523~528(一区)

[8] Xuan W, Xia D. In situ minerals transformation study of low-temperature ash. Energy & Fuels, 2018, 31(1): 336~341

[9] Xuan W, Zhang J, Xia D. Crystallization characteristics prediction of coal slags based on SiO2–Al2O3–CaO–Fe2O3–MgO components. Journal of Industrial and Engineering Chemistry, 2018, 59: 341~349(二区)

[10] Xuan W, Zhang J. Comparison of Axial and Radial Water Gas Shift Reactors Based on CFD Simulation. Journal of Chemical Engineering of Japan, 2018, 51(12): 937~944

[11] Xuan W, Wang Q, Zhang J, et al. Influence of silica and alumina (SiO2+Al2O3) on crystallization characteristics of synthetic coal slags. Fuel, 2017, 189: 39~45(一区)

[12] Yu W, Xia D, Xuan W. Modeling for particle size prediction and mechanism of silicon nitride nanoparticle synthesis by chemical vapor deposition. Aerosol Science & Technology, 2017, 51(7): 845~855

[13] Xuan W, Guan Q, Zhang J. Kinetic model and CFD simulation for an entrained flow coal hydrogasifier and influence of structural parameters. International Journal of Hydrogen Energy, 2016, 41(44): 20023~20035

[14] Xuan W, Zhang J, Xia D. Crystallization characteristics of a coal slag and influence of crystals on the sharp increase of viscosity. Fuel, 2016, 176: 102~109

[15] Xuan W, Whitty K J, Guan Q, et al. Influence of Fe2O3 and Atmosphere on Crystallization Characteristics of Synthetic Coal Slags. Energy & Fuels, 2015, 29(1): 405~412

[16] Xuan W, Whitty K J, Guan Q, et al. Influence of SiO2/Al2O3 on crystallization characteristics of synthetic coal slags. Fuel, 2015, 144: 103~110

[17] Bi D, Guan Q, Xuan W, et al. Numerical simulation of GSP gasifier under different swirl angles. Fuel, 2015, 155: 155~163

[18] Guan Q, Bi D, Xuan W, et al. Kinetic model of hydropyrolysis based on the CPD model. Fuel, 2015, 152: 74~79

[19] Bi D, Guan Q, Xuan W, et al. Combined slag flow model for entrained flow gasification. Fuel, 2015, 150: 565~572

[20] Xuan W, Whitty K J, Guan Q, et al. Influence of CaO on Crystallization Characteristics of Synthetic Coal Slags. Energy & Fuels, 2014, 28(10): 6627~6634

[21] Xuan W, Whitty K J, Guan Q, et al. Influence of isothermal temperature and cooling rates on crystallization characteristics of a synthetic coal slag. Fuel, 2014, 137: 193~199

[22] Xuan W, Zhang J*. The effect of cooling rates on crystallization characteristics[C]. 30th Annual International Pittsburgh Coal Conference, Beijing, China,September 15-18, 5:3529~3547,2013

[23] 玄伟伟,董彦吾,王海轮.基于ReaxFF-MD和DFT的废旧PP塑料水蒸气气化机理研究.化工学报,2022

[24] 王浩男, 玄伟伟, 夏德宏. 不同温度下煤灰熔渣的结构演变规律. 化工学报, 2019: 1-16.

[25]玄伟伟,王倩,张建胜. 褐煤自燃倾向测定及其低温氧化反应过程研究[J]. 煤炭学报,2016,41,2460-2465

[26] 玄伟伟,张建胜,夏德宏.非牛顿熔渣的结晶特性[J]. 化工学报,2016,67,(6):2612~2617


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