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劉曉明
(北京科技大學冶金與生態工程學院教授)
鎖定
劉曉明,男,1980年11月生,山東臨沂人,教授,博士生導師,北京科技大學冶金與生態工程學院副院長。中國礦業大學(北京)和美國威斯康星-麥迪遜大學聯合培養博士,2010年1月獲工學博士學位;同年進入北京科技大學冶金工程博士後流動站,並任冶金與生態工程學院生態系講師;2012年8月博士後出站,2013年9月晉升為副教授,2017年6月被評為博士生導師,2018年6月晉升為教授。兼任中國硅酸鹽學會理事、固廢與生態材料分會常務理事、青年委員會主任委員,中國電子顯微鏡學會無機非金屬建築材料微觀測試與分析專業委員會委員。
長期從事冶金等行業固廢資源化高效利用的研究工作,包括赤泥、電解錳渣、鋼渣、鐵尾礦、粉煤灰、煤矸石、脱硫石膏、垃圾焚燒飛灰等工業固廢的大宗和高附加值利用研究,低品位/複雜二次鐵礦資源高效利用研究。先後負責或參與承擔國家自然科學基金項目、國家“863”項目、國家科技支撐計劃項目等國家和省部級科研項目30餘項,負責企業項目10餘項。在Journal of Hazardous Materials, Journal of Cleaner Production, Resources, Conservation and Recycling, Cement and Concrete Research, Construction and Building Materials等國內外學術期刊上發表論文80餘篇;申請國家發明專利17項,已授權8項。
劉曉明本科課程
劉曉明研究生課程
資源循環與高效利用
劉曉明科研方向
複雜/低品位鐵礦資源高效利用
劉曉明社會職務
中國硅酸鹽學會,理事
中國硅酸鹽學會固廢與生態材料分會,常務理事
中國硅酸鹽學會固廢與生態材料分會青年委員會,主任委員
中國電子顯微鏡學會無機非金屬建築材料微觀測試與分析專業委員會,委員
Journal of Hazardous Materials,Journal of Cleaner Production,Journal of American Ceramic Society,Metallurgical research & technology,Ceramics International,Waste Management & Research,Cement and Concrete Composites等國際期刊審稿人
劉曉明代表性論著
[1] Yuliang Zhang, Xiaoming Liu*, Yingtang Xu, Binwen Tang, Yaguang Wang, Preparation of road base material by utilizing electrolytic manganese residue based on Si-Al structure: Mechanical properties and Mn stabilization/solidification characterization, Journal of Hazardous Materials, 2020, 390, 122188.
[2] Yaguang Wang, Xiaoming Liu*, Wei Zhang, Zepeng Li, Yuliang Zhang, Yong Li, Yongyu Ren, Effects of Si/Al ratio on the efflorescence and properties of fly ash based geopolymer, Journal of Cleaner Production, 2020, 244, 118852.
[3] Yingtang Xu, Xiaoming Liu*, Yuliang Zhang, Binwen Tang, Emile Mukiza. Investigation on sulfate activation of electrolytic manganese residue on early activity of blast furnace slag in cement-based cementitious material. Construction and Building Materials, 2019, 229, 116831.
[4] Yaguang Wang, Shuai Gao, Xiaoming Liu*, BinwenTang, Emile Mukiz, Na Zhang*. Preparation of non-sintered permeable bricks using electrolytic manganese residue: Environmental and NH3-N recovery benefits. Journal of Hazardous Materials, 2019, 378, 120768.
[5] Emile Mukiz, Xiaoming Liu*, Lingling Zhang*, Na Zhang, Preparation and characterization of a red mud-based road base material: Strength formation mechanism and leaching characteristics. Construction and Building Materials, Volume 220, 2019, Pages 297-307.
[6] Yuliang Zhang, Xiaoming Liu*, Yingtang Xu, Binwen Tang, Yaguang Wang, Emile Mukiz. Synergic effects of Electrolytic Manganese Residue-Red Mud-Carbide Slag on the road base strength and durability properties, Construction and Building Materials, Volume 220, 2019, Pages 364-374.
[7] Yuliang Zhang, Xiaoming Liu*, Yingtang Xu, Binwen Tang, Yaguang Wang, Emile Mukiz, Preparation and characterization of cement treated road base material utilizing electrolytic manganese residue. Journal of Cleaner Production, Volume 232, 2019, Pages 980-992.
[8] Na Zhang*, Le Wu, Xiaoming Liu*, Yihe Zhang*, Structural characteristics and cementitious behavior of basic oxygen furnace slag mud and electric arc furnace slag. Construction and Building Materials, Volume 219, 2019, Pages 11-18.
[9] Yingtang Xu, Bo Yang, Xiaoming Liu*, Shuai Gao, Dongsheng Li, Emile Mukiz, and Huajian Li. Investigation of the medium calcium based non-burnt brick made by red mud and fly ash: durability and hydration characteristics. International Journal of Minerals, Metallurgy and Materials, Volume 26, Number 8, 2019, Page 983-991.
[10] Dandan Peng, Yaguang Wang, Xiaoming Liu*, Binwen Tang, Na Zhang*. Preparation, characterization, and application of an eco-friendly sand-fixing material largely utilizing coal-based solid waste. Journal of Hazardous Materials, Volume 373, 2019, Pages 294-302
[11] Binwen Tang, Shuai Gao, Yaguang Wang, Xiaoming Liu*, Na Zhang*. Pore structure analysis of electrolytic manganese residue based permeable brick by using industrial CT. Construction and Building Material, 2019, 208, 697-709.
[12] Xiang Lu, Wenbin Dai, Xiaoming Liu*, Daqiang Cang, and Liang Zhou. Effect of basicity on cementitious activity of modified electric arc furnace steel slag. Metallurgical Research Technology. 2019, 116(2):217-223.
[13] Emile Mukiza, LingLing Zhang*, Xiaoming Liu*, Na Zhang. Utilization of red mud in road base and subgrade materials: A review, Resources, Conservation and Recycling. 2019, 141: 187-199.
[14] X. Liu*, X. Zhao, H. Yin, J. Chen, N. Zhang*. Intermediate-calcium based cementitious materials prepared by MSWI fly ash and other solid wastes: hydration characteristics and heavy metals solidification behavior. Journal of Hazardous Materials.2018, 349, 262-271.
[15] 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.
[16] 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.
[17] X. Liu*, N. Zhang. Utilization of red mud in cement production: A review. Waste Management and Research, 2011, 29(10): 1053-1063.
[18] N. Zhang, H. Li, X. Liu*, Hydration mechanism and leaching behavior of bauxite-calcination-method red mud-coal gangue based cementitious materials. Journal of Hazardous Materials, 2016, 314, 172-180.
[19] N. Zhang, H. Li, Y. Zhao, X. Liu*, Hydration products and environmental friendly performance of a cementitious material composed of calcium silicate slag. Journal of Hazardous Materials, 2016, 306, 67-76.
[20] 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.
[21] 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.
[22] X. Liu*, N. Zhang, H. Sun, Y. Li , D. Cang. Effect of multiplex thermal activation on microstructure of red mud-coal gangue, Rare Metal Materials and Engineering, 2013, 42(6):538-542.
[23] 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.
[24] X. Liu*,H. Zhang, S. Li, D. Huang, Y. Zhao,Mechanism on Reduction of Fe2O3 by Biomass Sawdust,Journal of Shanghai JiaoTong University. 2017, 22(3):280-285.
[25] 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.
[26] 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.
[27] 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.
[28] D. Huang, Y. Zong, R. Wei, W. Gao, X. Liu*. Direct Reduction of High-Phosphorus Oolitic Hematite Ore Based on Biomass Pyrolysis. Journal of Iron and Steel Research International. 2016,23(9):874-883.
[29] N. Zhang, H. Li, D. Peng, X. Liu*, Properties evaluation of silica-alumina based concrete: Durability and environmental friendly performance. Construction and Building Materials. 2016, 115, 105-113.
[30] 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.
[31] 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.
[32] X. Liu*,H. Zhang, S. Li, D. Huang, Y. Zhao,Mechanism on Reduction of Fe2O3 by Biomass Sawdust,Journal of Shanghai JiaoTong University. 2017, 22(3):280-285
[33] 劉曉明, 唐彬文, 尹海峯, Emile Mukiza. 赤泥煤矸石基公路路面基層材料的耐久與環境性能. 工程科學學報, 2018, 40(4):438-445.
[34] 李恆, 劉曉明*, 趙喜彬, 陳蛟龍, 尹海峯, 生物質松木鋸末中低温還原高鐵拜耳法赤泥. 工程科學學報, 2017, 39(9): 1331-1338.
[35] 陳蛟龍,張娜,李恆,趙喜彬,劉曉明*.赤泥基似膏體充填材料水化特性研究.工程科學學報, 2017, 39 (11):1641-1646.
[36] 黃冬波,宗燕兵,鄧振強, 劉蓮鳳, 李彥輝, 王俊, 劉曉明*. 鮞狀赤鐵礦生物質低温磁化焙燒實驗研究,工程科學學報.2015,37(10):1260-1267.
[37] 張娜,劉曉明*,孫恆虎. 赤泥-煤矸石基中鈣體系膠凝材料的水化特性.材料研究學報.2014,28(5): 325-332.
劉曉明科研業績
[1] 國家自然科學基金面上項目:“生物質磁化低品位赤鐵礦協同提高其尾礦膠凝活性機理研究”(負責人),51574024,2016.1-2019.12;
[2] 國家重點研發計劃重點專項課題,“基於高爐爐料結構優化的硫硝減排技術及示範”,2017YFC0210604-01,2017.07- 2020.12。
[3] 中央高校基本科研業務費:“赤泥基膠凝材料水化過程中硅對鋁的四配位同構效應” (負責人),FRF-TP-18-005B1,2019.03.11-2019.11.30。
[4] 中央高校基本科研業務費:“電解錳渣中NH3-N提取機理及製備氮肥研究”(負責人),FRF-AT-19-007,2020.01.14- 2020.10.31。
[5] 北京科大分析檢驗中心有限公司,“電解錳渣無害化處理技術”(負責人),2019-0755,2019.05.30-2021.5.30。
[6] 北京科大分析檢驗中心有限公司,“赤泥鹼溶出控制及協同多固廢製備免燒砌塊工藝研究”(負責人),2019-1153,2019.12.13- 2020.12.13。
[7] 山西中科泓源環保科技有限公司,“利用陽泉赤泥製備免燒磚和水穩層技術”(負責人),2018.10-2019.6。
[8] 上海淨域土壤修復工程有限公司,“利用貴州松桃縣電解錳渣製備透水磚技術” (負責人),2017-055,2017.2-2018.2
[9] 中色十二冶金建設有限公司,“利用拜耳法赤泥製備路基材料和免燒砌塊技術”(負責人),2017-314,2017.2-2017.12
[10] 貴州中科見地新材料科技有限公司,“利用電解錳渣製備路面基層材料技術研究”,(負責人),2018.3-2020.2。
[11] 國家自然科學基金青年項目:“鋁冶煉硅鈣渣基生態膠凝材料鈉離子固結機理研究”(負責人),51302012,2014.1-2016.12;
[12] 中國博士後基金特別資助項目,“高磷鐵礦生物質熱解直接還原脱磷機理研究”(負責人),2016T90034,2015.12-2017.1;
[13] 中央高校基本科研業務費:“二次鐵礦資源選-冶-材協同全組分清潔利用基礎研究”(負責人),FRF-BR-16-026A,2017.2-2017.12;
[14] 中色十二冶金建設有限公司,“利用華興鋁業赤泥製備生態材料技術”(負責人),2016-270,2016.4-2016.8;
[15] 中國博士後科學基金面上項目:“低品位赤鐵礦生物質磁化還原耦合熱液蝕變作用機理研究”(負責人),2015M580987,2015.11-2017.1;
[16] 教育部博士點專項科研基金:“高鋁粉煤灰提取氧化鋁後硅鈣渣中Na固結機理研究”(負責人),20120006120015,2013.1-2015.12;
[17] 中國博士後科學基金面上項目:“熔融鋼渣粒化輪和冷卻水聯合霧化的基本規律研究”(負責人),20100480202,2010.12-2012.6;
[18] 鋼鐵冶金新技術國家重點實驗室創新基金:“生物質磁化含磷鐵礦脱磷機理研究”(負責人),2013.1-2014.12;
[19] 中央高校基本科研業務費:“生活垃圾焚燒飛灰製備輕質保温複合牆體材料基礎研究”(負責人),FRF-TP-15-055A3,2015.10-2016.9;
[20] 中央高校基本科研業務費:“赤泥基高固體含量生態無機塗料基礎研究”(負責人),2014.9-2015.8;
[21] 中央高校基本科研業務費:“熔融鋼渣可控粒化數值模擬研究”(負責人),2012.1-2013.12;
[22] 大唐國際發電有限公司,“利用高鹼硅鈣渣製備綠色建材技術”(負責人), 2012.5-2013.5;
[23] 清華大學建築設計研究院,“利用高鹼硅鈣渣製備綠色混凝土摻合料技術”(負責人),橫向課題,2014.1-2014.6;
[24] 國家自然科學基金重點項目:“鋼渣‘熱’和‘渣’雙利用製備高附加值產品的關鍵技術基礎研究”,2011.01-2014.12;
[25] 國家高技術研究發展計劃(863計劃)重大項目:“鋼渣活性組分固化與資源化利用技術”,2011-2015;
[26] 國家“十二五”科技支撐計劃重大項目:“典型工業園區清潔生產與循環經濟關鍵技術及示範50萬噸/年跨行業廢棄物水泥窯協同利用技術及示範”,2011.1-2014.12;
[27] 國家“十二五”科技支撐計劃:“納米微米高輻射覆層節能材料應用和示範”,2011-2015
[28] 國家“十一五”科技支撐計劃,“液態鋼渣改性及氣淬處理技術”,2008.1-2010.12;
[29] 教育部博士學科點專項科研基金:“電解錳渣潛在膠結活性增強機理研究”,2011.1-2013.12;
[30] 廣東省教育部產學研結合項目:“陶瓷低碳製備資源循環利用及清潔生產技術開發”,2010.2.2-2012.11.29;
[31] 內蒙古自治區科技重大專項“煤基固廢硅鋁資源協同利用技術與示範”,2013.1-2016.12。
劉曉明獲得獎勵
[1] 一種利用固廢材料的生態友好複合膠凝材料及其製備方法,申請號:CN201910859267.9
[2] 一種含電解錳渣道路抗開裂水穩層材料及其製備方法,申請號:CN201910860624.3
[3] 一種拜耳法赤泥煤矸石路基材料及製備方法,申請號:201710260111.X
[4] 生物質還原赤泥中氧化鐵同步提高無機組分活性的方法,專利號:201710473929.X
[5] 一種綠色可降解無機固沙材料的固沙方法,申請號:201611061575.X
[6] 一種利用鋼渣濕法磁選尾泥製備陶瓷材料的方法,專利號,201210276443.4;
[7] 一種提高鋼渣鐵組分回收率的方法,申請號:201610833748.9
[8] 一種利用赤泥生產陶瓷材料的方法. 中國,申請號:201610056201.2
[9] 一種熔渣節能保温劑,專利號,201010225763.8。
[10] 一種雙爐膛高温熔融爐,專利號:201020521930.9
[11] 一種透水磚的製備方法,專利號:201310184631
[12] 一種複合路基材料,專利號:201310183480
[13] 一種電解錳渣提氨改質的方法,專利號:201410752049.2
[14] 一種高温熔渣連續改質的工藝方法,專利號:201510191265.9
[15] 一種電解錳渣生態水泥的製備方法,申請號:201010283952.0
[16] 一種污泥基綠色還原劑及使用方法,2011.11.21,中國,CN201110370934.0
[17] 一種含鐵工業熔渣在線回收鐵及製備微晶玻璃熔塊的方法,2010.9.8, CN201010275956.4
- 參考資料
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- 1. 師資隊伍-人物簡介 .北京科技大學冶金與生態工程學院[引用日期2020-05-02]
