更新时间:2024-09-21 12:45
吴唯民,男,环境工程与科学专家,美国斯坦福大学土木与环境工程系高级研究员工程师。
吴唯民博士(Dr. Wei-Min Wu)
吴唯民博士,美国斯坦福大学土木与环境工程系高级研究员工程师 (Senior Research Engineer, Department of Civil \u0026 Environmental Engineering, Stanford University), 美国斯坦福大学可持续发展和全球竞争力研究中心项目经理(Program Manager, Center for Sustainable Development \u0026 Global Competitiveness, Stanford University), 哈尔滨工业大学市政环境工程学院兼职教授博士生导师.
祖籍广东丰顺, 籍惯四川省青神. 四川省成都市第四中学(四川省成都市石室中学) 毕业, 哈尔滨建筑大学给水排水专业毕业(1976年9月), 清华大学环境工程系硕士(1984年 10月), 密歇根州立大学(Michigan State University) 土木与环境工程系博士 (1991年 11月). 1994年获得美国密歇根州注册专业工程师 (PE) 执照. 吴唯民博士师从中国著名环境工程专家哈尔滨工业大学张自杰教授和清华大学顾夏声院士, 美国著名微生物学家密西根州立大学J.G. Zeikus教授, 就读研究生前曾为中国著名建筑工程专家顾天训助手. 曾任中国国家建筑工程总局第二工程局安装公司助理工程师(1976年10月- 1978年2月), 国家建筑工程总局第二工程局总工程师室助理(1978年2月- 1982年2月), 美国密西根州立大学生物化学系访问学者 (1986年8月-1990年7月), 美国密西根生物技术研究所(Michigan Biotechnology Institute, Lansing, MI) 副研究员工程师 (1990年 8月- 1992年 8月), 美国密西根生物技术研究所研究员工程师, 亚太地区开发部经理(1992年 8月- 2001年 1月).
吴唯民博士的研究方向包括环境微生物学, 微生物生态学与反应动力学(产甲烷, 脱氮, 脱氯, 共代谢, 硫酸还原, 金属还原), 地下水与土壤生物修复(氯代有机化合物 PCBs, PCE, TCE, 硝基化合物, 重金属), 有机物(产甲)发酵回收能源技术, 废水废物处理环境生物技术 (UASB反应器, 膜生物反应器, 流化床等), 微生物电池及可生物降解塑料. 吴唯民博士先后参与和承担美国国家科学基金会, 美国能源部, 美国空军, 美国陆军工程兵, 美国五大湖保护基金会, 美国密歇根州环境质量部, 加利福尼亚州环境保护部以及中国国家自然科学基金等机构的重大项目. 吴唯民博士的主要学术贡献在厌氧菌处理, 有毒有机化合物降解, 和氯代有机物与重金属污染的生物修复方面, 先后在Applied and Environmental Microbiology, Bioresource Technology, Environmental Microbiology, Environmental Science \u0026 Technology, The ISME Journal, Journal of Hazardous Materials, Journal ofHydrology, 液态水 Research, 环境科学学报, 及中国环境科学等杂志上共发表中英文学术论文100余篇, 其中之一为 美国化学学会Environmental Science \u0026 Technology 2006年度最高引用与热门论文 (Most Cited Paper and Hot Paper). 曾任美国国家科学基金会(US National Science Foundation), 哥伦比亚国家研究促进计划部(Colombian National Research Promoting and Sponsoring Agency ) 等机构的项目建议书评审人及John Wiley and Sons 公司书籍出版建议书评审人. 为Applied and Environmental Microbiology, Environmental Science \u0026 Technology 及 液态水 Research 等16 种杂志审稿人. 曾参与春晖计划(1998年), 先后被哈尔滨建筑大学, 农业部沼气科学研究所, 广东省微生物研究所, 中国科学院成都生物科学研究所, 重庆大学等聘为兼职教授, 获清华大学梅贻琦学术论文奖(1995年), 中国国家教育委员会科学技术进步三等奖(1993年).
主要学术论文
1) 吴唯民,胡纪萃,顾夏声1985. 厌氧污泥的最大比产甲烷速率间歇试验测定法. 中国给水排水. 1(4):31 35.
2) 吴唯民,胡纪萃,顾夏声.1985. 厌氧颗粒污泥的形成及其特性的试验研究. 中国沼气. (12): 2-9.
3)吴唯民,胡纪萃,顾夏声.1986. 升流式厌氧污泥层反应器内污泥颗粒化对固液分离效果的影响. 环境科学学报. 6:86-95.
4) 吴唯民,赵一章,张辉,徐元生 1987. 计算活菌的最可能数值的通用计算机程序 微生物学通报. 14(5): 228-232.
5) 郑中华,赵一章,张辉,吴唯民. 1987. 产甲烷菌的超微结构. 微生物学报. 27(1): 1-5.
6)Wu, W. M., J. C. Hu, X. S. Gu, Y. Z. Zhao, H. Zhang, G. G. Gu. 1987. Cultivation of anaerobic granular sludge in UASB reactors with aerobic activated sludge as seed. 液态水 Research. 21:789 799.
7) 吴唯民,胡纪萃,顾夏声, 朱学庆,赵一章,张辉,徐元生. 1987. 好氧活性污泥中的产甲烷菌环境科学学报. 7(1):100 106.
8) 吴唯民,胡纪萃,顾夏声. 1988. Li+ 离子浓度对厌氧消化的影响. 中国环境科学 8(1): 66-72.
9) 朱学庆,吴唯民, 胡纪萃, 徐元生, 张辉. 1988. pH对厌氧颗粒污泥产甲烷活性影响的研究. 中国沼气, (1), 16-20.
10) Thiele, J. H.,W.-M. Wu, M. K. Jain,J. G. Zeikus. 1990. Ecoengineered high rate anaerobic digestion systems: analysis of improved syntrophic biomethanation catalysts. Biotechnology and 生物工程学 35: 990-999.
11) Hickey, R. F.,W. -M. Wu, M. C. Veiga, R. Jones. 1991. The start-up, operation and monitoring of high-rate anaerobic treatment systems. 液态水 Science and Technology. 24 (8): 207-255.
12) Wu, W. -M, R. F. Hickey, J. G. Zeikus. 1991. Characterization of metabolic 表演 of methanogenic granules treating brewery wastewater: role of sulfate-reducing bacteria. Applied and Environmental Microbiology. 57:3438-3449.
13)Wu, W.-M., M. K. Jain, E. Conway de Macario, J. H. Thiele, J. G. Zeikus. 1992. Microbial composition and characterization of prevalent Methanogens and acetogens isolated from syntrophic methanogenic granules. Applied Microbiology and Biotechnology. 38:282-292.
14) Wu, W.-M., R. F. Hickey, M. K. Jain, J. G. Zeikus. 1993. Energetics and regulations of formate and hydrogen 新陈代谢 by 甲烷杆菌属 formicicum. Archives of Microbiology. 159: 57-65.
15)Wu, W.-M., L. Bhatnagar, J. G. Zeikus. 1993. 表演 of anaerobic granules for degradation of 五氯苯酚 Applied and Environmental Microbiology. 59: 389-397.
16) Wu, W.-M, J. H. Thiele, M. K. Jain, H. S. Pankratz, R. F. Hickey, J. G. Zeikus. 1993. Comparison of rod- versus filament-type of methanogenic granules: microbial population and reactor 表演 Applied Microbiology and Biotechnology. 39:795-803.
17)Wu, W.-M, J. H. Thiele, M. K. Jain, J. G. Zeikus. 1993. Metabolic properties and kinetics of methanogenic granules. Applied Microbiology and Biotechnology. 39:804-811.
18)Wu, W,-M., M.K. Jain, J. G. Zeikus. 1994. Anaerobic degradation of normal- and branched-chain fatty acids with four or more carbons to 甲烷 by a syntrophic methanogenic triculture. Applied and Environmental Microbiology. 60: 2220-2226
19)吴唯民, J. Nye, R. F. Hickey, L. Bhatnagar. 1995. 利用厌氧颗粒污泥处理氯代有毒有机化合物 应用环境微生物学报. 1:50-59.
20) Wu, W.-M, M. K. Jain, J. H. Thiele, and J.G. Zeikus. 1995. Effect of storage on the 表演 of methanogenic granules. 液态水 Research. 29:1445-1452.
21) Wu, W.-M, M.K. Jain, J.G. Zeikus 1996. Formation of fatty acid-degrading anaerobic granules by defined 物种 Applied and Environmental Microbiology. 62: 2037-2044.
22) Natarajan, M.R.,W.-M. Wu, J. Nye, H. Wang, L. Bhatnagar, M.K. Jain. 1996. Dechlorination of polychlorinated 联苯 (PCB) congeners by an anaerobic microbial consortium. Applied Microbiology and Biotechnology. 46:673-677.
23) Kennes, C., W.-M. Wu, L. Bhatnagar, J. G. Zeikus. 1996. Anaerobic dechlorination and mineralization of 五氯苯酚 and 2,4,6-三氯苯酚 by methanogenic PCP-degrading granules. Applied Microbiology and Biotechnology. 44:801-806.
25)Wu, W.-M., M. K. Jain, R.F. Hickey, G.J. Zeikus. 1996. Perturbation of syntrophic isobutyrate and butyrate degradation with formate and hydrogen. Biotechnology and Bioengineering. 52: 404-411.
26) Veiga, M.C., M.K. Jain,W.-M. Wu, R.I. Hollingsworth, and J.G. Zeikus. 1997. Composition and role of extracellular polymers in methanogenic granules. Applied and Environmental Microbiology. 63: 403-407
27) Natarajan, M.R., J. Nye,W.-M. Wu, HY Wang, and M.K. Jain. 1997. Reductive dechlorination of PCB-contaminated River raisin sediments by anaerobic microbial granules. Biotechnology and Bioengineering. 55:182-190.
28)Wu, W.-M., J. Nye, M.K. Jain, R.F. Hickey. 1998. Anaerobic dechlorination of 三氯乙烯 (TCE) to ethylene using complex organic materials. 液态水 Research. 32:1445-1454.
29) Wu, W.-M., M. Kiwagawa, S. Taniguchi, M.K. Jain. 1998. Anaerobic dechlorination of perchloroethylene (PCE) in soil by a dechlorinating microbial consortium. Journal of 发酵 and Bioengineering. 86:588-594.
30) Natarajan, M.R.,W.-M. Wu, H. Wang, L. Bhatnagar, and M.K. Jain. 1998. Dechlorination of spiked PCBs in lake sediment by anaerobic microbial granules. 液态水 Research. 30: 3013-3020.
31) Natarajan, M.R.,威廉与玛丽学院 Wu, R. Sanford, and M. K. Jain. 1999. Degradation of 联苯 by methanogenic microbial consortium. Biotechnology Letters. 21: 741-745.
32) Wu, W.-M., B. Gu, M. W. Fields, M. Gentile, Y.-K. Ku, S. Tiquias, J. Nyman, J. Zhou, P.M. Jardine, 计算机科学 Criddle. 2005. Reduction uranium (VI) by denitrifying biomass. Bioremediation Journal. 9: 1-13.
33) Gu, B.,W.-W. Wu, M.W. Fields, M. V.Ginder, H. Yan, S. Fendorf, C.S. Criddle, P. M. Jardine. 2005. Bioreduction of uranium in a contaminated soil column. Environmental Science \u0026 Technology. 39:4841-4847.
34) Luo, J.,W.-M. Wu, M. N. Fienen, P. M. Jardine, T. L. Mehlhorn, D. B. Watson, O. A. Cripka, C. S. Criddele, P. K. Kitanidis. 2006. A nested-cell approach for in situ remediation. Ground 液态水 44: 266-274.
35)Wu, W.-M., J. Carley, M. Fienen, T. Mehlhorn, K. Lowe, J. Nyman, J. Luo, M.E. Gentile, R. Rajan, D. Wagner, R.F. Hickey, B. Gu, D. Watson, O.A. Cirpka, P.K. Kitanidis, P.M. Jardine, 计算机科学 Criddle. 2006. Pilot-scale in situ bioremedation of uranium in a highly contaminated aquifer 1: conditioning of a treatment zone. Environmental Science \u0026 Technology. 40: 3978-3985.
36)Wu, W-M., J. Carley, T. Gentry, M.A. Ginder-Vogel, M. Fienen, T. Mehlhorn, H. Yan, S. Carroll, J. Nyman, J. Luo, M.E. Gentile, M.W. Fields, R.F. Hickey, D. Watson, O.A. Cirpka, S. Fendorf, J. Zhou, P. Kitanidis, P. M. Jardine, 计算机科学 Criddle. 2006. Pilot-scale in situ bioremediation of uranium in a highly contaminated aquifer 2: U(VI) reduction and geochemical control of U(VI) bioavailability. Environmental Science \u0026 Technology. 40: 3986-3995.
37) He, Z., T.J. Gentry, C.W. Schadt, L. Wu, J. Liebich, S.C. Chong, Z. Huang,W.-M. Wu, B. Gu, C. Criddle, J. Zhou. 2007. GeoChip: a comprehensive microarray for investigating biological, ecological, and environmental processes. The ISME J. 1: 67-77.
38) Luo, J.,威廉与玛丽学院 Wu, J. Carley, C. Ruan, B. Gu, P. M. Jardine, 计算机科学 Criddle, P.K. Kitanidis. 2007. Hydraulic 表演 analysis of a multiple injection-extraction well system. Journal of Hydrology. 336: 294-302.
39)Wu, W.-M., J. Carley, J. Luo, M. A Ginder-vogel, E. Cardenas, M.B. leigh, C. Hwang, S. D. Kelly, C. Ruan, L. Wu, J. Van Norstrand, T. Gentry, K. Lowe, T. Mehlhorn, S. Carroll, W. Luo, M. W. Fields, B. Gu, D. Watson, K.M. Kemner, T. Marsh, J. Tiedje, J. Zhou, S. Fendorf, P. K. Kitanidis, P.M. Jardine, C. S. Criddle. 2007. In situ bioreduction of uranium (VI) to submicromolar levels and reoxidation by dissolved oxygen. Environmental Science \u0026 Technology. 41:5716-5723.
40)Kelly, S.D., K.M. Kemner, J. Carley, C. Criddle, D. Phillips, P.M. Jardine, T. L. Marsh, D. Watson,W.-M. Wu. 2008. Speciation of uranium in sediments before and after in situ bioreduction. Environmental Science \u0026 Technology. 42: 1558–1564.
41)Wu, W.-M., J. Shi, R.F. Hickey. 2008. Long-term 表演 of cometabolic degradation of 三氯乙烯 in a fluidized bed reactor fed with benzene, 甲苯 and xylene. Journal of Chemical Technology and Biotechnology. 83: 513-523.
42) Cardenas, E.,W.-M. Wu, M.B. Leigh, J. Carley, S. Carroll, T. Gentry, J. Luo, D. Watson, B. Gu, M. Ginder-Vogel, P. K. Kitanidis, P.M. Jardine, J. Zhou, C. S. Criddle, T. L. Marsh, J. M. Tiedje. 2008. Microbial communities in contaminated sediments associated with bioremediation of uranium to submicromolar levels. Applied and Environmental Microbiology. 74:3718-3729.
43) Hwang, C.,W.-M. Wu, T. J. Gentry, J. Carley, G. A. Corbin, S. L Carroll, D. B. Watson, P. M Jardine, J. Zhou, C. S. Criddle, M. W. Fields. 2009. Bacterial community succession during in situ uranium bioremediation: spatial similarities along controlled flow paths. The ISME Journal. 3: 47-64.
44) Van Nostrand, J.,W.-M. Wu, Y. Deng, J. Carley, S. Carroll, Z. He, B. Gu, J. Luo, 计算机科学 Criddle, D. Watson, P. Jardine, T. Marsh, J. Tiedje, T. Hazen, J. Zhou. 2009. GeoChip-based analysis of functional microbial communities during the reoxidation of a bioreduced uranium contaminated aquifer. Environmental Microbiology. 11: 2611-2626.
45) Kelly, S.D.,W.-M. Wu, F. Yang|, C. Criddle, Team Liquid Marsh, E. J. O’Loughlin, B. Rave, D. Watson, P.M. Jardine, K.M. Kemner 2010. Monitoring uranium transformations in static microcosms. Environmental Science \u0026 Technology. 44: 236-242.
46) Wang, A., D. Sun, N. Ren, C. Liu, W. Liu, Be Logan,W.-M. Wu. 2010. A rapid selection strategy for an anodophilic consortium for microbial fuel cells. Bioresource Technology.101: 5733-5735. 12) Gong, R., C. Lu,W.-M. Wu., H. Cheng, B. Gu, D.B. Watson, 计算机科学 griddle, P. K. Kitanidis, S.C. Brooks, P.M. Jardine, J. Luo. 2010. Estimating kinetic 质量 transfer by resting-period measurements in flow-interruption tracer tests. Journal of Contaminant Hydrology. 117:37-45.
47) Xu, M,W.-M. Wu, L. Wu, Z. He, J. D. Van Nostrand, Y.Deng, J. Luo, J. Carley, M. Ginder-Vogel, T. J. Gentry, B.Gu, D.Watson, P. M. Jardine, Team Liquid Marsh, Jackie McLean Tiedje, T. Hazen, 计算机科学 Criddle, J. Zhou. 2010. Responses of microbial community functional structures to pilot-scale uranium in situ bioremediation. The ISME Journal. 4: 1060-1070.
48) Gong, R., C. Lu,威廉与玛丽学院 Wu., H. Cheng, B. Gu, D.B. Watson, 计算机科学 Griddle, P. K. Kitanidis, S.C. Brooks, P.M. Jardine, J. Luo. 2010. Estimating kinetic 质量 transfer by resting-period measurements in flow-interruption tracer tests. Journal of Contaminant Hydrology. 117:37-45.
49) Gao, D.-W, Y.-Z. peng,W.-M. Wu. 2010. A kinetic model for biological nitrogen removal using shortcut nitrification-denitrification process in SBR. Environmental Science \u0026 Technology. 44 : 5015-5021.
50) Wu, W.-M., J. Carley, Super Junior Green, J. Luo, S. D. Kelly, J. Van Nostrand, K. Lowe, T. Mehlhorn, S. Carroll, B. Boohchayaanant, 国际汽联电动方程式世锦赛 Löfller, D. Watson, K. Kemner, J. Zhou, P. Kitanidis, J. Kostka, P. M. Jardine, 计算机科学 Criddle. 2010. Effects of nitrate on the stability of uranium in the bioreduced region of the subsurface. Environmental Science \u0026 Technology. 44: 5104-511
51) Zhang, F.,威廉与玛丽学院 Wu, J.C. Parker, T. Mehlhorn, S.D. Kelly, K. M. Kemner, G..-X. Zhang, C. Schadt, S.C. Brooks, 计算机科学 Criddle, D.B. Watson, P.M. Jardine. 2010. Kinetic analysis and modeling of oleate and 乙醇 stimulated uranium (VI) bio-reduction in contaminated sediments under sulfate reduction conditions. Journal of Hazardous Materials. 183: 482-409.
52) Cardenas, E,W.-M. Wu, M.B. leigh, J.Carley, S.Carroll, T. Gentry, J. Luo, D. Watson, B. Gu, M. Ginder-Vogel, P.K. Kitanidis, P.M. Jardine, J. Zhou, 计算机科学 Criddle, Team Liquid Marsh, Jackie McLean Tiedje. 2010. Significant association between sulfate-reducing bacteria and uranium-reducing microbial communities as revealed by a combined massively parallel sequencing-indicator 物种. Applied and Environmental Microbiology. 76: 6778-6786.
53) Gao, D.-W, T. Zhang, C.-Y, Tang,W.-M. Wu, C. –Y. Wong, Y. H. Lee, D. H. Yeh, 计算机科学 Criddle. 2010. Membrane fouling in an anaerobic membrane bioreactor: differences in relative abundance of bacterial species in the membrane foulant layer and in suspension. Journal of Membrane Science. 364: 331-338.
54) Tao, H.-C., M. Liang, N. Xu, J.R Ni,W.-M Wu. 2011. A membrane-free baffled microbial fuel cell for cathodic reduction of Cu(II) with electricity generation. Bioresource Technology.102:4774-4778.
吴唯民参考资料
https://soe.stanford.edu/research/layoutPHP?sunetid=billwu