李克勋

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姓名:李克勋
职称职务:教授,博士生导师。
研究领域:水处理技术,电化学与新能源技术,智慧水务

联系电话:
邮  箱:likx@nankai.edu.cn




教育背景

2000-2003    南开大学,环境科学与工程学院,博士
1997-2000    华北电力大学,环境工程系,硕士
1993-1997    河北大学,化学系,学士

科研教学经历

2015-今     南开大学,环境科学与工程学院,教授
2014-2015   新墨西哥州立大学,化学工程和材料系,访问学者
2007-2014    佐治亚理工学院,市政和环境工程访问学者
2005-2007    南开大学,环境科学与工程学院,副教授
2002-2005    南开大学,环境科学与工程学院,讲师 

学术与社会任职

天津市节水与水处理技术研究会,副理事长兼秘书长

科研项目

季铵化合物对硝化细菌活性的抑制特性研究(50908117),国家自然基金,2010-2012,项目负责人。
北方城市污水深度除磷脱氮与污泥减量化技术研究,国家发改委、科技部和环保部联合资助“水体污染控制和治理”重大专项下设的“城市水污染控制与水环境综合整治技术与示范”重点主题研究项目“海河流域典型城市水环境整治技术研究与综合示范”子课题,1803万元,项目编号2008ZX07314-002,主要参加人。
Factors affecting the biodegradation of quaternary ammonium,国家自然科学基金,基金委,2011,20万元,国内联系人。
含氮季铵盐在污水处理厂中迁移转化和归趋以及对微生物的影响,教育部科技项目(教外司留[2010]609号)2010年,3万元,主持。
天津市科技创新专项资金项目,城市污水深度除磷脱氮关键技术研究和工程示范,500万,主要参加人。
污水好氧生物处理工程技术规范 生物接触氧化法,国家环保部,20万元,标准参编人,2008~2009。
丰田汽车有限公司(天津)综合污水处理设施问题诊断及相关技术咨询和引进,项目负责人,2006~2007。(10万)
天津科委,纳米晶粒TiO2多孔微球的中试及在杀菌抑菌领域的应用开发子课题光催化氧化处理废水的研究,子项目主持人,2004.11~2006.3。
天津科委,利用海河底泥、剩余活性污泥和工业废水制备生物降解材料聚羟基脂肪酸酯PHA,参与,2005.6~2007.12。
国家自然基金,厌氧同时脱氮除硫新工艺及其机理研究,参与,2003.12~2006.12。
三菱丽阳,中日膜分离技术合作研究,参与,2002~2004。
天津科委,利用海河底泥、剩余活性污泥和工业废水制备生物降解材料聚羟基脂肪酸酯PHA,参与,2005.6~2007.12。
企业、家庭中水自动处理装置的开发,项目主持人,2004.3~2005.3。
主要行业用水定额制修订,天津市节约用水事务管理中心,126万元,2015年,主持。
天津市用水定额制修定,天津市节约用水事务管理中心,91.8万元,2014,主持。
天津市滨海新区主要行业用水定额指导意见,李克勋,天津市滨海新区建设和交通局,20万元,2013年,主持。
天津市电子行业产品用水定额的制定、修订研究,天津市节约用水事物管理中心,42万元,2012年,主持。
天津市第一次全国水利普查市区六区经济社会用水情况及水利行业能力建设情况专项普查服务,天津市节约用水事务管理中心,120万元,2012年,主持。
天津市重要行业综合用水定额制定,天津市节约用水事务管理中心   240万元,2012年,主持。
天津市滨海新区“十二五”节约用水规划,天津市滨海新区塘沽资源管理中心,15,2012年,主持。
滨海新区第一次全国水利普查技术支撑及组织实施,滨海新区建设和交通(水务局),433.5618万元,2010年,主持。
水利部、天津市基于水权理论的节水机制研究(经费50万)
天津市支柱性行业用水情况调查研究(32万)
天津市节水型生态校园地方标准(7万)
天津市节约用水事务管理中心,天津市节约用水管理信息系统统计分析,参与,2006~2007。(10万)
南开大学节水型生态校园规划(3万)
联合国开发署,三门峡市环境达标规划(子课题)水环境达标规划,项目主持人,2005.6~2006. 1。
乌鲁木齐头屯河环保局,乌鲁木齐头屯河工业区环境影响评价,参与,2004~2005。
南开大学985基地,节水型社会初试水权分配方法研究,项目主持人,2005~2006.12。

学术论著

1.SongZhangab, WeiSua, KexunLib, DiLiub, JunjieWangb, PeiTianb,Metal organic framework-derived Co3O4/NiCo2O4 double-shelled nanocage modified activated carbon air-cathode for improving power generation in microbial fuel cell, Journal of Power Sources, Volume 396, 31 August 2018, Pages 355-362.
2.CuicuiLvabc, BolongLiangabc, KexunLiabc, YongZhaod, HongwenSunabc. Boosted activity of graphene encapsulated CoFe alloys by blending with activated carbon for oxygen reduction reaction,  Biosensors and Bioelectronics, Available online 11 July 2018, https://doi.org/10.1016/j.bios.2018.07.020
3.Pei Tian, Di Liu, Kexun Li*,Tingting Yang, Junjie Wang, Yi Liu, Song Zhang. Porous metal-organic framework Cu3(BTC)2 as catalyst used in air-cathode for high performance of microbial fuel cell,·Bioresource Technology, Volume 244, Part 1, November 2017, Pages 206-212.
4.F Dong, P Zhang, K Li, X Liu, P Zhang. Nano Copper Oxide-Modified Carbon Cloth as Cathode for a Two-Chamber Microbial Fuel Cell, Nanomaterials, 2016 - mdpi.com.
5.Surface-oxidized cobalt phosphide used as high efficient electrocatalyst in activated carbon air-cathode microbial fuel cell,Tingting Yang; Zhong Wang; Ke Xun Li; Yi Liu; Di Liu; Junjie Wang, Journal of Power Sources, 2017,363 :87-94.
6.The performance of spinel bulk-like oxygen-deficient CoGa2O4 as an air-cathode catalyst in microbial fuel cell, Di Liuabc1, Xiaoping Moabc1, Kexun Liabc∗,Yi Liuabc, Junjie Wangabc, Tingting Yangabc, Journal of Power Sources, Volume 359, 15 August 2017, Pages 355–362.
7.Carbon-supported binary transition metal chalcogenide used as cathode catalyst for oxygen reduction in microbial fuel cell, Liangtao Pua, b, c, 1, Di Liua, b, c, 1, Kexun Lia, b, c, , , Junjie Wanga, b, c, Tingting Yanga, b, c, Baochao Gea, b, c, Ziqi Liua, b, c,10.1016/j.ijhydene.2017.04.074.
8.The influence and mechanism of different acid treatment to activated carbon used as air-breathing cathode catalyst of microbial fuel cell, Zhong Wanga, b, 1, Yi Liua, b, 1, Kexun Lia, b, , , Di Liua, b, Tingting Yanga, b, Junjie Wanga, b, Jinfeng Lua, b, Electrochimica Acta, https://doi.org/10.1016/j.electacta.2017.05.086.
9.The excellent performance of nest-like oxygen-deficient Cu1.5Mn1.5O4 applied in activated carbon air-cathode microbial fuel cell, Junjie Wanga, b, c, 1, Pei Tiana, b, c, 1, Kexun Lia, b, c, , , Baochao Gea, b, c, Di Liua, b, c, Yi Liua, b, c, Tingting Yanga, b, c, Rong Rend, Bioresource Technology, Volume 222, December 2016, Pages 107–113.
10.Z Liu, B Ge, K Li, X Zhang, K Huang. The excellent performance and mechanism of activated carbon air cathode doped with different type of cobalt for microbial fuel cells, Fuel, Volume 176, 15 July 2016, Pages 173–180.
11.T Yang, K Li, Z Liu, L Pu, X Zhang. One-Step Synthesis of Hydrangea-like Cu2O@ N-doped Activated Carbon as Air Cathode Catalyst in Microbial Fuel Cell,doi: 10.1149/2.0401704jes J. Electrochem. Soc. 2017 volume 164, issue 4, F270-F275.
12.Liu, Di; Mo, Xiaoping; Li, Kexun; Liu, Yi; Yang, Tingting; Wang, Junjie; Ren, Rong, Nanorod β-Ga2O3 semiconductor modified activated carbon as catalyst for improving power generation of microbial fuel cell, revision.
13.Junjie Wanga, b, c, Kexun Lia, b, c,*, Lixin Zhangd, Baochao Gea, b, c, Yi Liua, b, c, Tingting Yanga, b, c, Di Liua, b, c, Temperature-depended Cu0.92Co2.08O4 modified activated carbon air cathode improves power output in microbial fuel cell, International Journal of Hydrogen Energy, accept, 10.1016/j.ijhydene.2016.09.104.
14.Junjie Wanga, b, c, 1, Pei Tiana, b, c, 1, Kexun Lia, b, c, , , Baochao Gea, b, c, Di Liua, b, c, Yi Liua, b, c, Tingting Yanga, b, c, Rong Rend,The excellent performance of nest-like oxygen-deficient Cu1.5Mn1.5O4 applied in activated carbon air-cathode microbial fuel cell, Bioresource Technology, Volume 222, December 2016, Pages 107–113.
15.Yi Liu, Kexun Li* , Baochao Ge, Liangtao Pu, Ziqi Liu. The role of micropore and mesoporous in activated carbon as air-cathode catalyst in microbial fuel cell for oxygen reduction reaction, Electrochimica Acta, Electrochimica Acta, Volume 214, 1 October 2016, Pages 110–118.
16.Tingting Yanga, b, Kexun Lia, b, Liangtao Pua, b, Ziqi Liua, b, Baochao Gea, b, Yajun Pana, b, Ying Liuc, Hollow-spherical Co/N-C nanoparticle as an efficient electrocatalyst used in air cathode microbial fuel cell, Biosensors and Bioelectronics, Volume 86, 15 December 2016, Pages 129–134, doi:10.1016/j.bios.2016.06.032
17.Zhou Fu Waterproof breathable membrane used as the gas diffusion layer in activated carbon air cathode microbial, Fuel Cells, accept
18.Ziqi Liua, 1, Baochao Gea, 1, Kexun Lia,* , Xi Zhanga, Kan Huangb,  The excellent performance and mechanism of activated carbon air cathode modified with different types of cobalt for microbial fuel cells,Fuel, Volume 176, 15 July 2016, Pages 173–180. IF, 3.520,二区。
19.Yajun Pan1, Xiaoping Mo1, Kexun Li*, Liangtao Pu, Di Liu, Tingting Yang, Iron-nitrogen-activated carbon as cathode catalyst to improve the power generation of single-chamber air-cathode microbial fuel cells, Bioresource Technology, Volume 206, April 2016, Pages 285–289, 1区 ,IF:4.494。
20.Baochao Gea,b, Kexun Lia,b,[1], Kan Huang#, Zhou Fua,b, Liangtao Pua,b, Xi Zhanga,b, Ziqi Liua,b, The peformance of nano urchin-like NiCo2O4 modified activated carbon as air cathode for microbial fuel cell, journal of power source, Volume 303, 30 January 2016, Pages 325–332  IF:6.217.
21.Peng Zhanga, b, Xian-Hua Liua, Ke-Xun Lib, Yi-Ren Lua. Heteroatom-doped highly porous carbon derived from petroleum coke as efficient cathode catalyst for microbial fuel cells, International Journal of Hydrogen Energy, 2015, 40(39): 13530-13537,IF:3.313,2区.
22.Peng Zhanga,b, Xian-Hua Liua,z, Ke-Xun Lib,z and Zhi-Quan Songa, Optimization of Fabrication Parameters to Enhance the Performance of Activated Carbon Air-Cathode[J]. Journal of The Electrochemical Society, 2015, 162(12): F1347-F1355.    IF:3.266,2区.
23.Ge B, Li K, Fu Z, Liangtao Pu, Xi Zhang. The addition of ortho-hexagon nano spinel Co 3 O 4 to improve the performance of activated carbon air cathode microbial fuel cell[J]. Bioresource technology, 2015, 195: 180-187. IF:4.494, 1区。
24.X Liu, Y Yang, X Shi, K Li. Fast photocatalytic degradation of methylene blue dye using a low-power diode laser[J]. Journal of hazardous materials, 2015, 283: 267-275.  4.529,1区。
25.Yu J, Liu D, Li K. Influence of Tetracycline on Tetracycline-Resistant Heterotrophs and tet Genes in Activated Sludge Process[J]. Current microbiology, 2015, 70(3): 415-422.  IF:1.423, 4区。
26.Z Fu, L Yan, K Li, B Ge, L Pu, X Zhang. The performance and mechanism of modified activated carbon air cathode by non-stoichiometric nano Fe 3 O 4 in the microbial fuel cell[J]. Biosensors and Bioelectronics, 2015, 74: 989-995.   IF:6.494,1区。
27.Zhang X, Li K, Yan P, et al. N-type Cu 2 O doped activated carbon as catalyst for improving power generation of air cathode microbial fuel cells[J]. Bioresource technology, 2015, 187: 299-304 .IF:4.494, 1区。
28.Yang J, Tezel U, Li K, et al. Prolonged exposure of mixed aerobic cultures to low temperature and benzalkonium chloride affect the rate and extent of nitrification[J]. Bioresource technology, 2015, 179: 193-201. IF:4.494, 1区。
29.Chen Z, Li K, Zhang P, Liangtao Pu, Xi Zhang, Zhou Fu. The performance of activated carbon treated with H 3 PO 4 at 80° C in the air-cathode microbial fuel cell[J]. Chemical Engineering Journal, 2015, 259: 820-826. IF: 4.321, 2区。
30.Yunting Liu a, Kexun Li *ab, Yi Liu a, Liangtao Pu a, Zhihao Chen a and Shuguang Deng b . The high-performance and mechanism of P-doped activated carbon as a catalyst for air-cathode microbial fuel cells[J]. Journal of Materials Chemistry A, 2015,3,21149-21158. IF:7.443,1区。
31.Liu Z, Li K, Zhang X, Baochao Ge, Liangtao Pu. Influence of different morphology of three-dimensional CuxO with mixed facets modified air–cathodes on microbial fuel cell[J]. Bioresource Technology, 2015, 195: 154-161. IF:4.494, 1区。
32.Guowei Zhanga*, Dongfang Liua*, Xiancai Songa*, Xianrong Menga*, Matthew Frigona*, Jianbo Lua* & Kexun Lia*, Distribution of Pb(II) in the chemical fractions of activated sludge during sorption, Received: 18 Dec 2013, Accepted: 17 Oct 2014, Published online: 25 Nov 2014, desalanation and water treatment.
33.X Song, D Liu#, G Zhang, M Frigon, X Meng, K Li#,  Adsorption mechanisms and the effect of oxytetracycline on activated sludge[J]. Bioresource technology, 2014, 151: 428-431.
34.Pu L, Li K, Chen Z, et al. Silver electrodeposition on the activated carbon air cathode for performance improvement in microbial fuel cells[J]. Journal of Power Sources, 2014, 268: 476-481.
35.Zhang P, Li K, Liu X. Carnation-like MnO 2 modified activated carbon air cathode improve power generation in microbial fuel cells[J]. Journal of Power Sources, 2014, 264: 248-253.
36.Chen Z, Li K, Pu L. The performance of phosphorus (P)-doped activated carbon as a catalyst in air-cathode microbial fuel cells[J]. Bioresource technology, 2014, 170: 379-384.
37.Li K, Liu S, Liu X. An overview of algae bioethanol production[J]. International Journal of Energy Research, 2014, 38(8): 965-977. 2.418, 2区。
38.Li K, Wang Y, Zhang Z, et al. Effects of oxidation reduction potential in the bypass micro-aerobic sludge zone on sludge reduction for a modified oxic–settling–anaerobic process[J]. Water Science & Technology, 2014, 69(10): 2139-2146.  1.106,4区。
39.Xianrong Menga, Dongfang Liua, Kaibo Yanga, Xiancai Songa, Guowei Zhanga, Jie Yua, Jian Zhangb, Yunlu Tanga, Kexun Lia. A full scale anaerobic–anoxic–aerobic process coupled with low-dose ozonation for performance improvement[J]. Bioresource technology, 2013, 146: 240-246.
40.Liu D, Tao Y, Li K*, et al. Influence of the presence of three typical surfactants on the adsorption of nickel (II) to aerobic activated sludge[J]. Bioresource technology, 2012, 126: 56-63.
41.Tang, Yun-Lu (1); Liu, Dong-Fang (1); Meng, Xian-Rong (1); Yu, Jie (1); Wang, Jin (1); Liu, Yu-Xing (1); Li, Ke-Xun (1); Lander, James (2), Performance of a modified RBC system in simulated municipal wastewater treatment,  Water Science and Technology, 2012; 66(9):2014-9. doi: 10.2166/wst.2012.412
42.Ren R, Li K, Zhang C, et al. Biosorption of tetradecyl benzyl dimethyl ammonium chloride on activated sludge: kinetic, thermodynamic and reaction mechanisms[J]. Bioresource technology, 2011, 102(4): 3799-3804.
43.Rong R, Dongfang L, Kexun Li*, et al. Adsorption of quaternary ammonium compounds onto activated sludge. Journal of Water Resource and Protection, 2011, 2011.
44.Chong Zhanga, Ulas Tezelb, Kexun Lia,*, Dongfang Liua, Rong Rena, Jingxuan Dua, Spyros G. Pavlostathisb, Evaluation and modeling of benzalkonium chloride inhibition and biodegradation in activated sludge, Water Research, Volume 45, Issue 3, January 2011, Pages 1238–1246. 5.528, 1区。
 
张友萍,刘东方,李克勋,《华北地区城市污水处理厂污泥填埋处置可行性分析》,环境污染与防治,第32卷 第5期,2010;
冯文芳,张丽,李克勋,2010,水利工程供水两部制水价基本水量确定方法的比较,水利经济,No.3:32-35
北方典型污水处理厂污泥农用可行性分析,《农机化研究》2010第3期
刘云婷;王伟;李克勋;孙琦, 天津市火电厂综合用水定额编制研究, 给水排水, 12(9), pp 11-13, 2014/09/01.
白思琴;刘东方;刘宇星;唐云鹭;于洁;张嵩涛;李克勋, 探究新型生物转盘—A~2/O联用系统的可行性, 中国给水排水, 09期, pp 88-91, 2014/5/1.
王进;高康宁;李克勋;唐云鹭;于洁;张忠品;刘东方;孙清;邓建华, 四环素对活性污泥系统抑制性及其去除效果研究, 中国给水排水, 29(19), pp 11-13, 2013/10/01.
刘宇星;刘东方;张忠品;唐云鹭;于洁;陈瑞萍;李克勋, 旁路微氧池污泥停留时间对污泥减量化的影响, 环境工程学报, 02期, pp 507-512, 2013/02/01.
刘宇星;刘东方;张忠品;唐云鹭;于洁;陈瑞萍;李克勋, 旁路微氧池污泥停留时间对污泥减量化的影响, 环境工程学报, 7(2), pp 11-13, 2013/02/01.
陈瑞萍;张丽;于洁;陶芸;张忠品;李克勋;刘东方, 活性污泥对四环素的吸附性能研究, 环境科学, 01期, pp 156-162, 2012.
王进;李克勋;陈瑞萍;高康宁;曹会勇;刘东方, 四环素对缺氧污泥的毒性及其去除效果分析, 水处理技术, 12期, pp 70-72+77, 2012.
刘东方;白思琴;韩磊;张友萍;陶芸;李克勋, 初沉污泥球磨破解后水解酸化研究, 环境污染与防治, 09期, pp 5-7+12, 2012.
张忠品;李克勋;刘东方;刘宇星;于洁;贾建辉;陶芸;陈瑞萍, 旁路微氧污泥减量效果及其影响因素, 中国给水排水, 09期, pp 1-4, 2012.
刘东方;王爱娟;王伟;张友萍;李克勋;韩磊, 超声与次氯酸钠耦合预处理剩余污泥的中温厌氧消化效果, 环境工程学报, 05期, pp 1704-1708, 2012.
王进;李克勋;于洁;唐云鹭;刘东方;王国英, Fenton试剂氧化—SBR工艺处理阿莫西林制药废水生化处理出水, 化工环保, 03期, pp 242-246, 2012.
邵会卿;张丽;陈楚楚;刘东方;李克勋, EPANET软件在区域供水管网改造设计中的应用, 水资源与水工程学报, 06期, pp 128-131, 2012.
冯文芳;张丽;王伟;刘东方;李克勋, 天津市文明生态村生活垃圾处理方案优选, 环境工程学报, 03期, pp 1025-1029, 2012.
陶芸;刘东方;李克勋;陈瑞萍;韩磊, 季铵化合物对好氧活性污泥吸附Ni~(2+)的影响研究, 环境污染与防治, 08期, pp 9-13, 2011.
孙洁;王爱娟;李克勋;任荣;杜静轩;乔婧;陈艳;刘东方, 十四烷基二甲基苄基氯化铵对生物反硝化的抑制作用, 水处理技术, 02期, pp 31-34, 2011.
任荣;王爱娟;李克勋;孙洁;张冲;乔婧;刘东方, 好氧污泥对季铵盐吸附性能的研究, 水处理技术, 01期, pp 39-43+47, 2011.
乔婧;刘东方;李克勋;陶芸;张国威;孙洁, 十二烷基二甲基苄基氯化铵对生物除磷的影响研究, 水处理技术, 06期, pp 27-29+33, 2011.
穆东雪;李克勋, 跨流域调水工程两部制水价研究, 水资源与水工程学报, 06期, pp 87-90, 2011.
魏巍;李克勋;杜静轩;张冲;刘东方, 汽车生产废水处理系统诊断及现场模拟试验研究, 中国给水排水, 17期, pp 47-50, 2010/9/1.
魏巍;李克勋;杜静轩;张冲;刘东方, 汽车生产废水处理系统诊断及现场模拟试验研究, 中国给水排水, 26(17), pp 44-46+50, 2010/09/01.
冯文芳;张丽;刘东方;李克勋, 生态村污水处理技术筛选方法研究, 中国城市经济, 07期, 2010/7/15.
张友萍,刘东方,李克勋,《华北地区城市污水处理厂污泥填埋处置可行性分析》,环境污染与防治,第32卷 第5期,2010;
冯文芳,张丽,李克勋,2010,水利工程供水两部制水价基本水量确定方法的比较,水利经济,No.3:32-35
北方典型污水处理厂污泥农用可行性分析,《农机化研究》2010第3期
刘红姝,王宝庆,刘东方,周建芝,闫学军,李克勋.汽车生产企业节水潜力研究.给水排水,2009(8),64-66.
朱兴旺,刘红姝,李云生,李克勋,王玉秋.中俄饮用水水质安全保障措施比较分析.给水排水,2009(8),13-16.
张冲,李克勋,刘东方.QACs对环境的影响及微生物降解研究进展.环境污染与防治,Vol.(31)8,84-87.
李克勋,王毅军.厌氧-好氧处理高浓度聚醚多元醇生产废水的试验研究。中国沼气,2006(03),3-5.
王志达,戈有林,穆青,王双林,徐宏俊,何建民,李晓眠,李克勋,孙红文.臭氧与紫外线协同灭活脊髓灰质炎病毒效果的研究.中国消毒学杂志,2006(06),503-505.
李克勋,王太平,张振家.薯干酒精糟液治理途径探讨.工业水处理,2005(02),13-15.
李克勋,张扬,王太平,张振家.高浓度变性淀粉生产废水厌氧生物处理.中国沼气,2005(03),23-31.
 
研究报告及会议报告:
Pavlostathis, S. G.; Li, K.; Tezel, U.; Pierson, J. A. (2008) Preliminary Assessment of Biological Nitrogen Removal in Poultry Processing Facilities. Final Report – Project No. 0607-E004; US Poultry & Egg Association, Tucker, GA.
Li, K., U. Tezel, J. A. Pierson, and S. G. Pavlostathis. “Effect of Quaternary Ammonium Compounds and Temperature on Nitrification,” US Poultry & Egg Association – 2008 Environmental Management Seminar, Atlanta, GA, March 2008.
Kexun Li,Dongfang Liu,Jingxuan Du,Chong Zhang,Spyros G.The inhibition of Quaternary ammonium compounds to nitrification, 2nd International Conference on Pollution Control and resource reuse for a better Tomorrow and Sustainable Ecnomy, Nanjing , 2009.
刘红姝,刘东方,李克勋.我国城市污水处理厂污泥处置探讨.中国环境科学学会学术年会论文集(2009),736-739.
刘红姝,宋君,穆东雪,李克勋,刘东方.北方典型城市污水处理厂污泥焚烧处置可行性分析.第四届水务会.
 
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荣誉与奖励

南开大学教学三等奖
天津市科技进步二等奖,多水源关键点危害控制安全供水技术的应用,刘东方,徐廷云,马旭丽,文丰涛,王玉强,李克勋,张丽,鲁金凤,2014-12-31
天津市教育先锋岗。


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