个人简介
学习与工作简历
1994年在太原理工大学获得学士学位;
1997年在武汉理工大学获得硕士学位;
1997至2000年在武汉理工大学任教;
2001至2004年在香港理工大学博士论文研究(香港政府基金PolyU5056/00E);
2005至2006年在英国帝国理工大学从事博士后研究(英国皇学会海外人才引进计划CIEC_P01919)
2007年至今,在华东理工大学资源过程工程教育部工程研究中心工作。
部分授权专利
1. 乔秀臣,王金磊.活化煤气化灰渣实现铝铁钙分离的方法,CN103305686B,2016
2. 乔秀臣. 一种有机物细粒污泥的干化方法与移动式干化系统,CN104150738B,2016
3. 乔秀臣,柳成亮. 一种循环流化床锅炉底渣矿物的分离方法,CN104198655B,2016
4. 乔秀臣. 一种无机物细粒污泥的干化方法与移动式干化系统,CN104150739B,2015
5. 乔秀臣,司鹏. 提高煤矸石活性的节能煅烧方法,CN102553882B,2014
6. 乔秀臣. 聚合氯化铝铁钙的制备方法,CN102765788B,2014
7. 乔秀臣,司鹏. 免煅烧活化煤矸石的方法,CN102527692B,2014
8. 乔秀臣,金鑫.聚合氯化铝钙的制备方法,CN102765789B,2014
9. 乔秀臣,司鹏. 一种由煤系高岭岩或煤矸石制备氧化铝的方法,CN101234774B,2010
主持的科研项目
1. 粉煤灰深度除杂制备富硅富铝材料技术
2. 煤矸石梯级资源化技术
3. 国家863重大项目“煤化工灰渣低能耗制备铝系氯化物技术”
4.CFB灰渣梯级利用技术
5. 国基金面上“微波有质动力效应耦合粉煤灰莫来石分解过程促进架状硅酸盐形成的研究”
6. 上海市科委重大创新项目“煤化工炉渣铝资源利用工程技术研究与开发”
7. 国家863探索项目,“废弃粉煤灰资源化(提取氧化铝)绿色技术”
8. 浦江人才计划,“硅铝莫来石微波活化技术研究”
荣誉与获奖情况
2000年获湖北省科技进步一等奖
2005 年英国皇家学会海外人才引进计划
2007 年获上海市浦江人才计划
2014年获湖北省楚天学者特聘教授
研究领域
固体废弃物中有价元素提取技术;
铝盐分离提纯技术;
微波能利用技术
高强建筑板材;
防火、保温技术。
固体废物资源化
利用沙漠化治理
高温微波在废物处理过程中的应用
等离子体降解高分子有机污染物
绿色功能建筑材料
含重金属污泥的处理与处置
近期论文
查看导师新发文章
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1. C.C. Li, X. C. Qiao. A new approach to prepare mesoporous silica using coal fly ash. Chemical Engineering Journal, 2016, 302:388-394.
2. C.C. Li, X. C. Qiao,J. G.Yu. Large surface area MCM-41 prepared from acid leaching residue of coal gasification slag. Materials Letters, 2016, 167:246-249.
3. M. X. Yuan, X. C. Qiao,J. G.Yu.Phase equilibria of AlCl3 + FeCl3 + H2O, AlCl3 + CaCl2 + H2O, and FeCl3 + CaCl2 + H2O at 298.15 K. Journal of Chemical & Engineering Data, 2016, 61(5):1749-1755.
4. X. C. Qiao,X. Y. Xie. The effect of electric field intensification at interparticle contacts in microwave sintering. Scientific Reports, 2016, 6:32163.
5. Z. Y.Zhang, X. C. Qiao. Aluminum release from microwave-assisted reaction of coal fly ash with calcium carbonate, Fuel Processing Technology,2015,134: 303-309.
6. Z. Y.Zhang, X. C. Qiao,J. G.Yu.Microwave selective heating-enhanced reaction rates for mullite preparation from kaolinite. Rsc Advances, 2014, 4(6):2640-2647.
7. H. M. Zhou, X. C. Qiao,J. G.Yu.Influences of quartz and muscovite on the formation of mullite from kaolinite. Applied Clay Science, 2013, 80–81(8):176-181.
8. P. Si, QIAO, X. C. Qiao,J. G.Yuet al. Alumina Recovery from Kaolin with Mineral Impurities[J]. Journal of Wuhan University of Technology-Mater. Sci. Ed. 2012, 27(6):1139-1143.
9. X.C. Qiao, C.R. Cheeseman, C.S. Poon. Influences of chemical activators on incinerator bottom ash. Waste Management, 2009, 29(2), 544-549.
10. X. C. Qiao , P. Si ,J. G. Yu. A Systematic Investigation into the Extraction of Aluminum from Coal Spoil through Kaolinite [J]. Environmental Science and Technology, 2008, 42 (22), 8541–8546.
11. X.C. Qiao, M. Tyrer, C.S. Poon, C.R. Cheeseman. Characterization of alkali-activated thermally treated incinerator bottom ash [J]. Waste Management, 2008, 28(10), 1955-1962.
12. X.C. Qiao, B.R. Ng, M. Tyrer, C.S. Poon and C.R. Cheeseman. Novel Cementitious Materials Produced from Incinerator Bottom Ash [J]. Resources, Conservation & Recycling, 2008, 52(3): 496-510.
13. X.C. Qiao, B.R. Ng, M. Tyrer, C.S. Poon and C.R. Cheeseman. Production of lightweight concrete using incinerator bottom ash [J], Construction and Building Materials, 2008, 22(4): 473-480.
14. X.C. Qiao, C.S. Poon, C.R. Cheeseman. Investigation into the stabilization/solidification performance of Portland cement through cement clinker phases, Journal of hazardous Materials, 2007, 139(2): 238-243.
15. X.C. Qiao, C.S. Poon, E. Chung. Comparative studies of three methods for activating rejected fly ash, Advances in Cement Research, 2006, 18(4): 165-170.
16. X.C. Qiao, C.S. Poon and C.R. Cheeseman. Transfer mechanisms of contaminants in cement-based stabilized/solidified wastes, Journal of Hazardous Materials, 2006, 129 (1-3): 290-296.
17. X.C. Qiao, C.S. Poon and C.R. Cheeseman. Use of flue gas desulphurisation (FGD) waste and rejected fly ash in waste stabilization/solidification systems [J], Waste Management, 2006, 26 (2): 141-149.
18. C.S Poon, X. C. Qiao and D. Chan. The cause and influence of self-cementing properties of fine recycled concrete aggregates on the properties of unbound sub-base [J], Waste Management, 2006, 26 (10): 1166-1172.
19. C.S Poon, X. C. Qiao, C.R. Cheesema et al. Feasibility of using reject fly ash in cement-based stabilization/solidification processes [J], Environmental Engineering Science, 2006, 23: 14-23.
20. C.S. Poon, X.C. Qiao and Z.S. Lin. Effects of flue gas desulphurization sludge on the pozzolanic reaction of reject-fly-ash-blended cement pastes [J], Cement and Concrete Research, 2004, 34 (10): 1907-1918.
21. C.S. Poon, X.C. Qiao and Z.S. Lin. Pozzolanic properties of reject fly ash in blended cement pastes , Cement and Concrete Research, 2003, 33 (11): 1857-1865.
22. X.C. Qiao, C.S. Poon and Z.S. Lin. Activation of rejected fly ash using flue gas desulphurization (FGD) sludge, Journal of Wuhan University of Technology-Materials Science Edition, 2003, 18 (4): 84-88.
学术兼职
中国硅酸盐协会固废分会理事、中国城市卫生协会工业危废专业委员会理事,全国化工矿山设计技术中心站技术委员会委员,《化工环保》编辑