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师资队伍
院士风采
系所检索
姓氏检索
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荣誉称号与奖励
刘晓明
副教授/博导
生态科学与工程系副主任
办公地点:冶金生态楼810室
办公电话:010-62332786
电子邮件:liuxm@ustb.edu.cn
本科课程:资源循环与高效利用,科技英语技能训练,生态数据处理技能训练
研究生课程:资源循环与高效利用
科研方向:复杂/低品位铁矿资源高效利用
工业二次资源循环与材料化利用
社会职务:Journal of Hazardous Materials,Reviewer
Journal of American Ceramic Society,Reviewer
Waste Management & Research,Reviewer
Cement and Concrete Composites, Reviewer
简历
刘晓明,男,1980年11月生,山东临沂人,副教授,硕士生导师。中国矿业大学(北京)和美国威斯康星-麦迪逊大学联合培养博士,2010年1月获工学博士学位;同年进入北京科技大学冶金工程博士后流动站,并任冶金与生态工程学院生态系讲师;2012年8月博士后出站,2013年9月晋升为副教授。
先后负责或参与国家自然科学基金项目(4项)、国家“863”项目(2项)、国家科技支撑计划项目(3项)、美国能源部项目等国家、国际合作及省部级科研项目20余项、企业项目10余项。在Journal of Hazardous Materials, Ironmaking and Steelmaking, Cement and Concrete Research, Waste Management and Research等国内外学术期刊上发表论文50余篇;申请国家发明专利10项,已获得3项。
代表性论文论著
[1]X. Liu, N. Zhang, Y. Yao, H. Sun, C. Feng. Micro-structural characterization of the hydration products of bauxite-calcination-method red mud-coal gangue based cementitious materials. Journal of Hazardous Materials, 2013, 262, 428-438 (JCR 1区,SCI,IF:5.277)
[2]N. Zhang, H. Sun, X. Liu*, J. Zhang, Early-age characteristics of red mud-coal gangue cementitious material. Journal of Hazardous Materials. 2009,167:927-932 (JCR 1区,SCI,IF:5.277)
[3]X. Liu, N. Zhang, H. Sun, J. Zhang, L. Li. Structural investigation relating to the cementitious activity of bauxite residue – red mud. Cement and Concrete Research, 2011,41(8):847-853(JCR 2区,SCI,IF:4.075)
[4]X. Liu, N. Zhang. Utilization of red mud in cement production: A review. Waste Management and Research, 2011, 29(10): 1053-1063(JCR 3区,SCI,IF:1.621)
[5]X. Liu, H. Sun, X. Feng, N. Zhang. Relationship between the microstructure and reaction performance of aluminosilicate. International Journal of Mineral, Metallurgy and Materials, 2010,17(1):108-115 (SCI,IF:0.695)
[6]X. Liu, D. Cang, H. Sun, Y. Zong. Effect of Oil Shale Residue on the Hydration of Red Mud-Fly Ash Cementitious Material. The Journal of Solid Waste Technology and Management. 2013, 39(1):43-50 (EI)
[7]X. Liu, Y. Li, L. Zhang, D. Cang, S. Zhou. Phase transitions relating to the pozzolanic activity of electrolytic manganese residue during calcinations. Journal of Shanghai JiaoTong University. 2013, 18(1): 105-110 (EI)
[8]X. Liu, Y. Li, H. Sun, D. Cang. Effect of oil shale on the Na+ solidification of red mud-fly ash cementitious material. Journal of Shanghai JiaoTong University. 2012, 17(6): 723-729 (EI)
[9]X. Liu, H. Wen, T. B. Edil, C. H. Benson. Stabilization of Flue Gas Desulfurization By-Products with Fly Ash, Cement, and Sialite. Journal of the Transportation Research Board. 2011,2204:pp 102-109.(EI)
[10]N. Zhang, X. Liu, H. Sun, L. Li. Evaluation of blends bauxite-calcination-method red mud with other industrial wastes as a cementitious material: Properties and hydration characteristics. Journal of Hazardous Materials, 2011,185(1):329-335 (JCR 1区,SCI,IF:5.277)
[11]N. Zhang, X. Liu, H. Sun, L. Li. Pozzolanic behaviour of compound-activated red mud-coal gangue mixture. Cement and Concrete Research, 2011,41(3):270-278 (JCR 2区,SCI,IF:4.075)
[12]L. Zhang, Y. Li, X. Liu, L. Zhao, Y. Ding, M. Povey, D. Cang. The properties of ZnO nanofluids and the role of H2O2 in the disinfection activity against Escherichia coli. Water Research. 2013, 47(12):4013-21 (JCR 1区,SCI,IF:6.279)
[13]Y. Li, Y. Yao, X. Liu, H. Sun, W. Ni, Improvement on pozzolanic reactivity of coal gangue by integrated thermal and chemical activation, Fuel, July 2013, 109, 527-533 (JCR 2区,SCI,IF:4.091)
[14]R. Wei, D. Cang*, Y. Bai, D. Huang, X. Liu Reduction characteristics and kinetics of iron oxide by carbon in biomass. Ironmaking and Steelmaking,2015.(SCI, in press)
[15]Y. Yao, Y. Li, X. Liu, S. Jiang, C. Feng, E. Rafanan. Characterization on a cementitious material composed of red mud and coal industry byproducts, Construction and Building Materials, 2013, 47, 496 - 501(JCR 3区,SCI,IF:2.710)
[16]Y. Yao, Y. Li, X. Liu, H. Sun, S. Jiang, C. Feng. Performance and energy calculation on a green cementitious material composed of coal refuse. Clean Technologies and Environmental Policy. 2013, (SCI,IF:1.934)
[17]C. Feng, Y. Yao, Y. Li, X. Liu, Henghu Sun. Thermal activation on calcium silicate slag from high-alumina fly ash: a technical report. Clean Technologies and Environmental Policy. 2013, (SCI,IF:1.934)
[18]Y. Li, X. Liu, H. Sun, D. Cang, Mechanism of phase separation in BFS glass phase. Science in China Series E: Technological Sciences. 2011,54(1):105-109 (SCI,IF:1.019)
[19]Y. Li, H. Sun, X. Liu, Z. Cui, Effect of phase separation structure on cementitious reactivity of blast furnace slag. Science in China Series E: Technological Sciences 2009, 52, (2), 1-5. (SCI,IF:1.019)
[20]H. Zhang, S. Li, D. Huang, Y. Zhao, X. Liu*,Mechanism on Reduction of Fe2O3 by Biomass Sawdust,Journal of Shanghai JiaoTong University. 2015(EI, accepted)
[21]X. Liu, D. Cang, H. Feng, et al. Preparation of glass ceramic by using reformed steel slag. 4th International Conference on Process Development in Iron and Steel-making. June, 2012, Luleå, Sweden.
[22]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,2013,42: 538-542. (SCI收录,IF:0.203)
[23]黄冬波,宗燕兵,邓振强, 刘莲凤, 李彦辉, 王俊, 刘晓明*. 鲕状赤铁矿生物质低温磁化焙烧实验研究,工程科学学报.2015,37(10):1260-1267.(EI)
[24]张娜,刘晓明*,孙恒虎. 赤泥-煤矸石基中钙体系胶凝材料的水化特性.材料研究学报.2014,28(5),(EI)
[25]徐啸雄,苍大强刘晓明*,李宇,宗燕兵. FEM—SPH耦合算法模拟铝液粒化的动态过程. 材料科学与工艺. 2013,21(5):1-7
[26]李宇*,张玲玲,宗燕兵刘晓明苍大强. 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,2011,33(2): 161~165 (EI)
科研业绩
近几年负责或参与的科研项目
[1]国家自然科学基金面上项目:“生物质磁化低品位赤铁矿协同提高其尾矿胶凝活性机理研究”(负责人),51574024,2016.1-2019.12;
[2]国家自然科学基金青年项目:“铝冶炼硅钙渣基生态胶凝材料钠离子固结机理研究”(负责人),51302012,2014.1-2016.12;
[3]教育部博士点专项科研基金:“高铝粉煤灰提取氧化铝后硅钙渣中Na+固结机理研究”(负责人),20120006120015,2013.1-2015.12;
[4]中国博士后科学基金:“低品位赤铁矿生物质磁化还原耦合热液蚀变作用机理研究”(负责人),2015M580987,2015.11-2017.1;
[5]中国博士后科学基金:“熔融钢渣粒化轮和冷却水联合雾化的基本规律研究”(负责人),20100480202,2010.12-2012.6;
[6]钢铁冶金新技术国家重点实验室创新基金:“生物质磁化含磷铁矿脱磷机理研究”(负责人),2013.1-2014.12;
[7]中央高校基本科研业务费:“生活垃圾焚烧飞灰制备轻质保温复合墙体材料基础研究”(负责人),FRF-TP-15-055A3,2015.10-2016.9;
[8]中央高校基本科研业务费:“赤泥基高固体含量生态无机涂料基础研究”(负责人),2014.9-2015.8;
[9]中央高校基本科研业务费:“熔融钢渣可控粒化数值模拟研究”(负责人),2012.1-2013.12;
[10]大唐国际发电有限公司,“利用高碱硅钙渣制备绿色建材技术”(负责人),横向课题,2012.5-2013.5;
[11]中矿,“铁尾矿综合利用研究”(负责人),横向课题,2011.1-2011.12;
[12]清华大学建筑设计研究院,“利用高碱硅钙渣制备绿色混凝土掺合料技术”(负责人),横向课题,2014.1-2014.6;
[13]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”,2011.01-2014.12;
[14]国家高技术研究发展计划(863计划)重大项目:“钢渣活性组分固化与资源化利用技术”,2011-2015;
[15]国家“十二五”科技支撑计划重大项目:“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”,2011.1-2014.12;
[16]国家“十二五”科技支撑计划:“纳米微米高辐射覆层节能材料应用和示范”,2011-2015
[17]国家“十一五”科技支撑计划,“液态钢渣改性及气淬处理技术”,2008.1-2010.12;
[18]教育部博士学科点专项科研基金:“电解锰渣潜在胶结活性增强机理研究”,2011.1-2013.12;
[19]广东省教育部产学研结合项目:“陶瓷低碳制备资源循环利用及清洁生产技术开发”,2010.2.2-2012.11.29;
[20]内蒙古自治区科技重大专项“煤基固废硅铝资源协同利用技术与示范”,2013.1-2016.12;
[21]山东钢铁集团,“直接利用转炉钢渣及其显热制备微晶玻璃原料关键技术研究”,横向课题,2010.5-2011.8;
[22]北京卡本低碳技术研究院,“城市低碳技术综合开发研究”,横向课题,2011;
[23]遵义能矿公司,“利用余庆陶土矿制备建筑陶瓷”,横向课题,2014.4-2015.3;
[24]澳大利亚哈默斯利铁矿有限公司,“钢铁工业流程能耗和碳排放预测模型开发”,2012.06-2013.12。
获得奖励 / 专利
[1]一种利用钢渣湿法磁选尾泥制备陶瓷材料的方法,授权号,201210276443.4;
[2]一种熔渣节能保温剂,授权号,201010225763.8。
[3]一种双炉膛高温熔融炉,授权号:201020521930.9
[4]一种高温熔渣连续改质的工艺方法,申请号:201510191265.9
[5]一种含铁工业熔渣在线回收铁及制备微晶玻璃熔块的方法,申请号:201010275956.4
[6]一种电解锰渣生态水泥的制备方法,申请号:201010283952.0
[7]一种电解锰渣提氨改质的方法,申请号:201410752049.2
[8]一种污泥基绿色还原剂,申请号:201110370934.0
[9]一种透水砖的制备方法,申请号:201310184631
[10]一种复合路基材料,申请号:201310183480
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