基本信息
姓名:玄伟伟
系所:热科学与能源工程系
职称:教授
办公地点:机电楼913
邮箱:xww@ustb.edu.cn
教育及工作经历
2024.7至今, 北京科技大学热能系,教授
2019.7-2024.6,北京科技大学热能系,副教授
2019.8-2020.11,德国弗莱贝格工业大学,洪堡学者
2015.1-2019.6,北京科技大学热能系,讲师
2010.9-2015.7,清华大学热能系,硕博连读
2006.9-2010.7,山东大学能源与动力工程学院,本科
2019.7-2024.6,北京科技大学热能系,副教授
2019.8-2020.11,德国弗莱贝格工业大学,洪堡学者
2015.1-2019.6,北京科技大学热能系,讲师
2010.9-2015.7,清华大学热能系,硕博连读
2006.9-2010.7,山东大学能源与动力工程学院,本科
研究领域
1.碳基原料热转化
2.固废热处理
3.工业人工智能交叉
2.固废热处理
3.工业人工智能交叉
研究生培养
课题组与国内外高校、企业保持长期紧密合作关系,自由开放的科研氛围,欢迎有学术追求的同学的加入!
开设课程
主讲课程:工程流体力学(本科)、传输原理与反应动力学(本科)、能源化工技术(研究生)
代表性论文及著作
[1] Xuan ww, Zhao C, Ma Z et al. Data-driven machine learning methods to predict the viscosity-temperature characteristics for gasification slags, Fuel, 2025,135387
[2] Gao J, Xuan w*, Zhang e et al. Exploration of co-gasification mechanism of sewage sludge and bituminous coal based on reactive force field molecular dynamics simulation, Energy Conversion and Management, 2025,119989
[3]Xuan w, Liu w,Yan s et al. Preparation of hierarchical porous materials using coal gasification fine slag and the ammonia nitrogen adsorption performance, Fuel 2025, 135599
[4]Xuan W, Gao Jian, Cao C, Yan S, Wang Q. Synergistic mechanism and radicals interaction of the co-pyrolysis of lignite and PE based on ReaxFF-MD and DFT. [J] Energy 2024.289:129978
[5] Xuan W, Yan S, Zhang J, Luo S, Wang Q, Zhang J. A deep insight into the dynamic crystallization of coal slags and the correlation with melt microstructure. Fuel Processing Technology 2024.254:108005
[6] Cao, C, Xuan, W*, Yan, S, Wang, Q. Zeolites synthesized from industrial and agricultural solid waste and their applications: A review. Journal of Environmental Chemical Engineering 2023; 11: 110898.
[7] Xuan, W, Cao, C Y, Dong, Y, Xia, D. Exploration of the synergistic effect of co-pyrolysis of biomass and waste plastics based on ReaxFF-MD and DFT. J Energy Inst 2023; 111: 101408
[8] 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.
[9] 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.
[10] 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
[11] Xuan W, Zhang J, Xia D. The influence of MgO on the crystallization characteristics of synthetic coal slags. Fuel, 2018, 222: 523~528
[12] Xuan W, Xia D. In situ minerals transformation study of low-temperature ash. Energy & Fuels, 2018, 31(1): 336~341
[13] 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
[14] 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
[15] 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
[16] 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
[17] 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
[18] 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
[19] 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
[20] 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
[2] Gao J, Xuan w*, Zhang e et al. Exploration of co-gasification mechanism of sewage sludge and bituminous coal based on reactive force field molecular dynamics simulation, Energy Conversion and Management, 2025,119989
[3]Xuan w, Liu w,Yan s et al. Preparation of hierarchical porous materials using coal gasification fine slag and the ammonia nitrogen adsorption performance, Fuel 2025, 135599
[4]Xuan W, Gao Jian, Cao C, Yan S, Wang Q. Synergistic mechanism and radicals interaction of the co-pyrolysis of lignite and PE based on ReaxFF-MD and DFT. [J] Energy 2024.289:129978
[5] Xuan W, Yan S, Zhang J, Luo S, Wang Q, Zhang J. A deep insight into the dynamic crystallization of coal slags and the correlation with melt microstructure. Fuel Processing Technology 2024.254:108005
[6] Cao, C, Xuan, W*, Yan, S, Wang, Q. Zeolites synthesized from industrial and agricultural solid waste and their applications: A review. Journal of Environmental Chemical Engineering 2023; 11: 110898.
[7] Xuan, W, Cao, C Y, Dong, Y, Xia, D. Exploration of the synergistic effect of co-pyrolysis of biomass and waste plastics based on ReaxFF-MD and DFT. J Energy Inst 2023; 111: 101408
[8] 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.
[9] 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.
[10] 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
[11] Xuan W, Zhang J, Xia D. The influence of MgO on the crystallization characteristics of synthetic coal slags. Fuel, 2018, 222: 523~528
[12] Xuan W, Xia D. In situ minerals transformation study of low-temperature ash. Energy & Fuels, 2018, 31(1): 336~341
[13] 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
[14] 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
[15] 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
[16] 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
[17] 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
[18] 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
[19] 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
[20] 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
专利
专利:
1. 玄伟伟,张二州、闫仕莹等,高效吸附的碳沸石多级孔材料、制备方法及应用,ZL202411014969.4,2025,发明专利
2. 玄伟伟,张二州,张永泉等,硅酸盐熔体晶体生长的预测方法及系统,ZL202311152646.0,2024,发明专利
软件著作权:
煤灰粘度预测系统1.0;
基于相场的晶体生长预测软件1.0
1. 玄伟伟,张二州、闫仕莹等,高效吸附的碳沸石多级孔材料、制备方法及应用,ZL202411014969.4,2025,发明专利
2. 玄伟伟,张二州,张永泉等,硅酸盐熔体晶体生长的预测方法及系统,ZL202311152646.0,2024,发明专利
软件著作权:
煤灰粘度预测系统1.0;
基于相场的晶体生长预测软件1.0
获奖
德国洪堡学者
山西省三晋英才
北京市青年托举人才
科技产业化促进会科技创新一等奖
山西省三晋英才
北京市青年托举人才
科技产业化促进会科技创新一等奖
代表性科研项目
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
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