基本情况

李宇,博士、副教授,钢铁冶金新技术国家重点实验室(北京科技大学)。

 

研究领域

二次资源循环利用,环境材料

 

教育背景

20039月至20076 博士,清华大学材料科学与工程专业

20009月至20034 硕士,华北电力大学热能与动力工程专业

19969月至20007 学士,华北电力大学热能与动力工程专业 

工作经历

20137月至今     副教授,北京科技大学,钢铁冶金新技术国家重点实验室

20152月至20158 访问学者,多伦多大学,冶金二次资源利用方向

20096月至20136 讲师,北京科技大学,冶金与生态工程学院生态科学与工程系

20077月至20096 博士后,清华大学,材料科学与工程系

 

荣誉奖励

  1. 北京市“青年英才计划”入选者
  2. 教育部高等学校“青年骨干教师计划”入选者
  3. 获北京科技大学优秀班主任称号


科研项目

  1. 项目负责人,国家自然科学基金项目“利用含钙含铁冶金渣制备辉石质陶瓷的基础研究”,项目批准号:51474027
  2. 项目负责人,北京高等学校“青年英才计划”资助项目,项目号:YETP0348
  3. 课题负责人,国家重点实验室自主研发基金“电炉渣熔态改质过程中的材料设计基础研究”,项目号:41614004
  4. 项目负责人,校青年人才培养基金: 钢渣尾泥中铁元素对陶瓷制备的影响机理研究, 中央高校基本科研业务费,项目号:FRF-TP-14-106A2
  5. 课题负责人,国家重点实验室自主研发基金“镍铁渣熔态改质及制备堇青石微晶玻璃的基础研究”,项目号:41602011
  6. 项目负责人,国家自然科学基金项目“电解锰渣体系下的惰性硅铝质矿物潜在胶凝活性形成机理”,项目批准号:51104008
  7. 课题负责人,国家高技术研究发展计划(863计划)大宗工业固废综合处理与资源化关键技术项目,钢渣活性组分固化与资源化利用技术课题,液态钢渣在线改质与钢渣陶瓷制备技术子课题,课题编号2011AA06A105
  8. 项目负责人,利用钢渣尾泥制备高附加值材料的研究,校重大项目培育基金,中央高校基本科研业务费,FRF-MP-13-003A
  9. 项目负责人,校青年人才培养基金: 钢渣微晶玻璃基复合材料制备基础研究 中央高校基本科研业务费,FRF-TP-12-027A
  10. 项目第二负责人,国家自然科学基金重点项目,钢渣“热”和“渣”双利用制备高附加值产品的关键技术基础研究,项目编号:51034008
  11. 课题第二负责人,十二五国家科技支撑重大项目,典型工业园区清洁生产与循环经济关键技术及示范,50万吨/年跨行业废弃物水泥窑协同利用技术及示范课题,高炉熔渣在线改质工艺及反应器研发子课题,课题编号:2011BAC06B10


论文发表

  1. Xiang Lu, Yu Li*, Wenbing Dai, Daqiang Cang. Effect of composition and sintering process on mechanical properties of glass ceramics from solid waste.  Advances in Applied Ceramics, 2015, DOI 10.1179/1743676115Y.0000000045. (SCI, EI, IF=1.1)
  2. Lihua Zhao, Yu Li*, Yuanyuan Zhou, Daqiang Cang. Preparation of novel ceramics with high CaO content from steel slag.  Materials and Design, 2014, 64(9): 608-613. (SCI, EI, IF=3.2, 2)
  3. Wenbin Dai, Yu Li*, Daqiang Cang, et al.  BOF Slag Glass-ceramics Prepared in Different Atmospheres from Parents Glasses with Various Reduction Degree. ISIJ International, 2014, 12 (54): 2672-2677. (SCI,EI, IF=1.5) 
  4. Yu Li*, Yuan Yao, Xiaoming Liu, et al. Improvement on Pozzolanic Reactivity of Coal Gangue by Integrated Thermal and Chemical Activation. Fuel. 2013, 109: 527-533.  (SCI,EI, IF=3.4 )
  5. Dai WenBin, Li Yu*, Cang Daqiang, Et al. Effects of the sintering atmosphere on the physical and mechanical properties of modified BOF slag glass, International Journal of Minerals, Metallurgy and Materials, 2014, 21(5): 494-502. (SCI,EI, IF=0.8)
  6. Lingling Zhang; Yu Li; Xiaoming Liu; et al. The properties of ZnO nanofluids and the role of H2O2 in the disinfection activity against E. coli. Water Research. 2013. 47: 4013-4021 (SCI,EI, IF=5.3, 1)
  7. Y. Yao, Y. Li*, XM. Liu, et al. Performance and energy calculation on a green cementitious material composed of coal refuse. Clean Techn Environ Policy. 2014,16(2):281-290 (SCI,EI, IF=1.1)
  8. Yao, Y., Li, Y.*, Liu, X., Jiang, S., Feng, C., & Rafanan, E. Characterization on a cementitious material composed of red mud and coal industry byproducts. Construction and Building Materials, 2013(47): 496–501 (SCI,EI, IF=2.3)
  9. Li Y*, Liu X M, et al. Mechanism of phase separation in BFS (blast furnace slag) glass phase. Sci China Ser E-Tech Sci, 2011, 54(1): 105-109 (SCI,EI, IF=1.1)
  10. Li Y, Sun H H, Liu X M, et al. Effect of phase separation structure on cementitious reactivity of blast furnace slag. Sci. China Ser. E.-Tech. Sci., 2009, 52(9): 2695-2699. (SCI,EI, IF=1.11)
  11. Chao Li, Yu Li, et al. The Composition of Fly Ash Glass Phase and Its Dissolution Properties Applying to Geopolymeric Materials. Journal of the American Ceramic Society, 2011, 94(6): 1773-1778  (SCI,EI, IF=2.4)
  12. Xianbin Ai, Yu Li, Xiaomeng Gu, Daqiang Cang. Development of ceramic based on steel slag with different magnesium content. Advances in Applied Ceramics, 2013, 112(4): 213-218. (SCI,EI, IF=1.1)
  13. Dai, Wen Bin; Li, Yu*; Zhou, Yuan Yuan; Cang, Da Qiang; Fan, Yong. Effect of Al2O3 on the glass-ceramics of CaO-SiO2-MgO-Al2O3 system based on BOF slag, Advanced Materials Research. 2014(833): 208-212. (EI)
  14. Zhou Yuan Yuan, Yu Li*, Cang Da Qiang, Li, Hong. Investigation of the sintering mechanism of steel slag-based ceramics. Applied Mechanics and Materials, 2014(584-586): 1202-1207 (EI)
  15. Yu, Li*, Xiaoming, L., Daqiang, C. and Yanbin, Z. Convert Melting Slag Directly into High Basicity Glass-Ceramic, in TMS Annual Meeting, EPD Congress 2014, 2014, 75-82. (EI) 
  16. Li Yu*, Zong Yanbing and Cang Daqiang,Effect of Phase Separation Structure on the Crystallization Property of Blast Furnace Slag, Advanced Materials Research. 2010, 105-106: 787-790 (EI)
  17. Liu Zhiwei, Li Yu*, Cang Daqiang, et al. Combining Recovering Iron with Activating the Residual Slag Process for Electric Arc Furnace (EAF) Slag. Applied Mechanics and Materials, 2013(275-277): 2206-2209. (EI)
  18. X. Liu, Y. Li, L. Zhang, D. Cang, S.Zhou. Phase transitions relating to the pozzolanic activity of electrolyticmanganese residue during calcinations. Journal of Shanghai JiaoTong University. 2013, 18(1), 105-110 (EI)
  19. X. Liu, Y. Li, H. Sun, D. Cang. Effectof oil shale on the Na+ solidification of red mud-fly ash cementitious material. Journal of Shanghai JiaoTong University.2012, 17(6): 723-729. (EI)
  20. Yu Li, Wen-Bin Dai, Da-Qiang Cang , Wei Wang, Qingde Wang, Min Guo. Convert hot slag directly into glass-ceramics by hot slag modification process. 54th annual Conference of Metallurgists (COM 2015), Toronto, Canada
  21. Xiaoming Liu, Yu Li, et al. Utilization of CFB fly ash in Eco-cement: Mechanical properties and microstructural analysis. Advanced Material Research.2010, 150-151: 885-889 (EI收录)
  22. Zong Yanbinga, Li Yu and Cang Daqiang Experimental Study on Stainless Steel Slag Used in Ceramic Making Advanced Materials Research. 2010, 105-106: 758-760 (EI收录)
  23. Lingling Zhang; Yulong Ding; Yu Li; Daqiang Cang. Antimicroorganism activities comparison among ZnO, TiO2, MgO and SiO2 nanoparticles suspensions at different pH values. The 2nd International Conference on Chemical, Biological and Environmental Engineering. 2010, 11, 978-1-4244-8749-3/10: 257-260 (EI)
  24. Yang Zhijie, Cang Daqiang, Li Yu, Guo Wenbo, Zhang Linlin. Research on thermodynamic and kinetic in extracting iron from steel slag by smelting reduction. 2011 International Conference on Remote Sensing, Environment and Transportation Engineering, RSETE 2011 - Proceedings, p 672-676 (EI)
  25. Yang Zhijie, Cang Daqiang, Guo Wenbo, Li Yu, Zhang Linlin. Research on effect of CaO/SiO2 on recovery iron from converter slag under smelting condition. 2011 2nd International Conference on Mechanic Automation and Control Engineering, MACE 2011 - Proceedings, p 2469-2473 (EI)
  26. Daqiang Cang, Lihua Zhao, Yu Li. Current status and prospect of the biomass resources and utilization of bio-energy in china. Proceedings of the IASTED International Conference Environmental Management and Engineering (EME 2009). Banff, Canada.2009, 7,650-803:1:5 (EI收录)
  27. Lihua Zhao, Xianbin Ai, Daqiang Cang and Yu Li.  Application of High Radiative Coating on Hot Blast Stove and Heat Balance Calculation Advanced Materials Research. 2014(833): 225-229. (EI)
  28.  Zong Yan-bing, Cang Da-qiang, Zhen Yun-pu, Li Yu, Bai Hao. Component modification of steel slag in air quenching process to improve grindability. Trans. Nonferrous Met. Soc. China. 2009(19): s834s839 (SCI,EI)
  29. Chao Feng, Henghu Sun, Yuan Yao, Yu Li, Xiaoming Liu. Thermal activation on calcium silicate slag from high-alumina fly ash: a technical report. Clean Techn Environ Policy, 2014,3(16): 667-672. (SCI收录, IF=1.1)
  30. Xianbin Ai, Yu Li, Xiaomeng Gu, Daqiang Cang. Effect of Steel Slag Content on the Performance of Traditional Ceramics System[C]. IEEE-2012 International Conference on Materials for Renewable Energy and Environment, 2012, 2: 716-720
  31. Yu LI, Xiaoming LIU, Daqiang CANG, Can WANG, Bukaihan. SINTERING MECHANISMS OF GLASS-CERAMIC DERIVED FROM RESIDUAL MOLTEN SLAG. Third International Slag Valorisation Symposium. Leuven, Belgium, 2013, 3, 331-334
  32. Zhang Lingling, Li Yu, Liu Xiaoming, Cang Daqiang. Nanofluids used for water/wastewater treatment - A mini review. Recent Patents on Nanotechnology, 2013, 3(7): 224-231
  33. X. Liu, Y. Li, D. Cang, et al. Effect of oil shale residue on the hydration of red mud-fly ash cementitious material. The Twenty-Seventh International Conference on Solid Waste Technology and Management, Philadelphia, PA, USA. 2012, 3: 4d
  34. Y. Li, D. Cang, Y. Mao. et al.Preparing high value-added materials directly from melting slag. The Twenty-Seventh International Conference on Solid Waste Technology and Management, Philadelphia, PA, USA. 2012, 3: 2A14
  35. 艾仙斌,李宇*,郭大龙,赵立华,苍大强,以钢渣为原料的SiO2-­CaO-­Al2O3系陶瓷烧结机理(Sintering mechanism of SiO2-­CaO-­Al2O3 ceramic from steel slag),中南大学学报(自然科学版) (Journal of Central South University (Science and Technology)201546(5)1583-1587
  36. 孙朋,李宇,郭占成,颗粒堆积与添加造孔剂制备钢渣多孔陶瓷吸声材料,硅酸盐学报,201543(4)753-762
  37. 李宇*,张玲玲,王洋,等,烧结气氛对碳化硼-钢渣微晶玻璃复合材料制备性能的影响研究,稀有金属材料与工程,2013426):311-314(SCIEIIF=0.25
  38. 顾晓朦,李宇*,周园园,等,二次烧成法制备冶金渣陶瓷-微晶玻璃复合材料的结构与性能研究,稀有金属材料与工程,2013426):315-318(SCIEIIF=0.25
  39. 刘晓明,张娜,孙恒虎,李宇,苍大强,复合热活化对赤泥-煤矸石微观结构的影响,稀有金属材料与工程,2013426):538-542(SCIEIIF=0.25
  40. 李宇*,张玲玲,苍大强,等,钢铁熔渣在高压水射流条件下的粒度与胶凝活性变化规律研究,北京科技大学学报,201133(2)161-165(EI
  41. 樊涌,李宇*,苍大强,等,污泥、高炉渣协同制备微晶玻璃的实验研究,北京科技大学学报,2013,07901-907(EI
  42. 杨志杰,李宇,苍大强等,Fe2+Fe3+CaO-Al2O3-SiO2-MgO系微晶玻璃析晶性能的影响规律,材料科学与工艺,201220(2) 45-5160(EI
  43. 代文彬,李宇*,苍大强,等,热处理过程对钢渣微晶玻璃结构与性能的影响规律,北京科技大学学报,2013 35(11)1507-1512(EI
  44. 赵贵州,李宇,代文彬,苍大强,采用一步烧结法的钢渣基微晶玻璃制备机理,硅酸盐通报, 201433(12)1-7
  45. 张文军,李宇,李宏,苍大强,利用镍铁渣及粉煤灰制备CMSA系微晶玻璃的研究,硅酸盐通报,201433(12)1-7
  46. 刘智伟,李宇,苍大强,电炉氧化钢渣全组分高效利用的试验研究,武汉科技大学学报,201310(5)326-330
  47. 赵立华,李宇,王婷,苍大强等,添加铁氧体对钢渣陶瓷性能的影响,硅酸盐通报,201433(5)1-5
  48. 杨志杰,李宇,苍大强等,Al2O3含量对提铁后的钢渣及粉煤灰微晶玻璃结构与性能的影响,环境工程学报,201212(6)4631-4636
  49. 代文彬,李宇,苍大强,等,转炉钢渣热态改性对镁质耐火材料侵蚀行为的研究,耐火材料,2013472):81-87
  50. 刘智伟,李宇,苍大强,电炉氧化钢渣在水泥和混凝土中的应用研究,混凝土,2014(2)57-60
  51. 郭大龙,李宇,艾仙斌,苍大强,利用铁尾矿制备低温烧结陶瓷材料,冶金能源,201433(3)53-57
  52. 张亚洲,李宇,苍大强.铁合金渣综合利用的研究现状及发展趋势 [J].冶金能源,2013325):44-47
  53. 李宇,苍大强,刘晓明,等,钢铁工业高品质能源和资源复合体——高温熔渣的高附加值利用技术,第一届两岸暨第五届资源工程研讨会,台南,台湾,2011,6A11-A16
  54. 宗燕兵,李宇,苍大强,等,钢渣用作水泥生料原料的链接技术开发,第七届中国钢铁年会论文集,20097-345-349
  55. 李宇,苍大强 我国钢铁行业余热()综合利用现状和分析,节能减排,2009820-25
  56. 李宇 低碳技术研究综述,节能减排,2010529-32
  57. 杨志杰,苍大强,李宇,等,钢铁工业一个高质量能源和资源复合体的综合利用技术 2010中国钢铁工业科技与竞争战略论坛论文集》 201055-66
  58. 杨志杰,苍大强,李宇,等,熔融钢渣制备微晶玻璃的试验研究,新型建筑材料,2011752-54
  59. 杨志杰,苍大强,李宇等,冶金熔渣保温剂的保温性能研究,冶金能源,201231(2)9-16
  60. 苍大强,刘晓明,李宇,张玲玲,钢铁工业资源综合利用技术综述,第一届两岸暨第五届资源工程研讨会,台南,台湾,2011.6
  61. 樊涌,苍大强,李宇,周贵友,利用计算相图设计微晶玻璃的方法及应用[J],硅酸盐通报,201231(4)1018-1025
  62. 杨志杰,苍大强,李宇,机械振动对纯Al凝固组织的影响,铸造,201160(1)77-80
  63. 代文彬,苍大强,李宇,化学法回收熔渣余热的研究现状[J],冶金能源,201231(3)37-42
  64. 杨志杰,苍大强,李宇,等,机械振动对纯铜凝固组织的影响,有色金属,201163(2)58-62
  65. 杨志杰,苍大强,李宇,等,钢铁熔渣热能回收技术回顾及其发展趋势,in冶金研究,Ed,朱鸿民,郭占成,李京社,等,冶金工业出版社,北京,201012281-287