姓名: 郑茂盛
职称: 教授、博士生导师
电子邮箱:maoshengzheng@ncepu.edu.cn
办公地址:北京市昌平区北农路2号华北电力大学主楼G座
研究方向
1. 水治理理论与技术 Water Treatment Theory and Technology
2. 环境微生物 Environmental Microbiology
个人简介
郑茂盛,1987年11月出生,现任华北电力大学环境科学与工程学院副院长。2015年毕业于北京大学环境工程专业,获理学博士学位,同年入职华北电力大学从事教学科研工作。主要研究方向包括污水生物脱氮技术、完全氨氧化菌功能解析、水处理温室气体控制等。先后主持国家自然科学基金、北京市自然科学基金、上海市科委重大项目课题等20余项,以第一/通讯作者在Environ. Sci. Technol.、Water Res.等期刊发表学术论文40余篇。兼任B. Environ. Contam. Tox.、安全与环境工程学报等期刊青年编委,中国化工学会环境保护专委会委员等。多项研究成果与中电建、中石油、交通运输部、中国大唐等企事业单位合作完成产学研转化应用,取得显著的社会经济效益。科技成果获中华环保联合会科技进步一等奖(1/10)、河北省科技进步一等奖(3/10)、中国商业联合会科技进步二等奖(2/12)等。
教育教学与人才培养
1. 教学成果
北京市本科教学成果二等奖(2/20);
校研究生教学成果特等奖(1/13);
校本科教学成果一等奖(2/6);
中国高校产学研创新基金科学试验装置自主创新专项,教育部教改项目(1/8);
电力特色环境类专业创新实践教学体系构建与应用,北京高等教育本科教改项目(1/16)。
2. 本科生与研究生课程
环境生物学,生物技术原理与应用,化工原理,化工原理实验;
废水处理工程,环境工程典型案例分析,土壤与地下水污染修复工程。
3. 研究生培养
毕业研究生:王明远(中持水务),周南(清华读博),赵志荣(力博明科技),何诗诗(中电金信),田志超(复旦读博),牟广利(天大读博),顾瑷璐(先河环保),杨旭东(北大读博),周康利(石家庄应急管理局),吴羡(华北设计院),柴子民(本校转博),张安琪(中国环科院),姚伟(上海淳博),朱名扬(中核四〇四),宋超(本校转博),郑伊泽(南大读博),王庆彬(涿州京热热力),黄意涵(康润环保),李云龙(沈阳工业大学)。
留学研究生:Fazeela(巴基斯坦),Edison(卢旺达),Juvens(卢旺达),Rafiq(巴基斯坦),Nasser(巴基斯坦)。
在读博士生:柴子民,陈红伟,宋超,李明月,崔雨晗,薄琳,杨彪。
4. 本科双创竞赛获奖
全国大学生生命科学竞赛创新创业类二等奖
第八届中国国际“互联网+”大学生创新创业大赛北京二等奖
青创北京“挑战杯”首都大学生创业计划竞赛银奖
首届“京彩大创”北京大学生创新创业大赛百强创业团队
科技成果奖
海水养殖尾水低碳处理与回用关键技术及应用,中华环保联合会科技进步一等奖(1/10),2025年;
低碳约束下有机工业废水碳污协同减排及资源回收关键技术与应用, 河北省科技进步一等奖(3/10), 2024年;
高氨氮化工废水高性能固定化微生物处理技术与应用,中国商业联合会科技进步二等奖(2/12),2025年。
代表性专利
倪晋仁*, 郑茂盛, 仝国平. 一株不同溶解氧条件下脱氮除磷的铜绿假单胞菌及其应用: 中国, ZL201210395333.X, 2013-07-05.
郑茂盛, 柴子民, 尤文博, 裴翔. 一株具有好氧反硝化及温室气体减排功能的施氏假单胞菌. ZL202111585008.5, 2023-10-13.
郑茂盛, 姚伟, 苏吉拉.穆雷克齐.吉文森, 詹莹. 一株具有耐盐好氧反硝化特性的柴油食烷菌. ZL202211688170.4, 2023-10-20.
郑茂盛, 李云龙, 牟广利, 王庆彬.一种富集氨氧化微生物的方法及富集氨氧化微生物制品. ZL 202310892397.9,2024-05-10.
郑茂盛, 姚伟, 李云龙, 陈红伟. 一种亲水聚氨酯填料及其制备方法. ZL202311562940.5, 2024-11-19.
郑茂盛, 姚伟, 岳仪春. 一株具有耐盐好氧反硝化特性的嗜碱盐单胞菌及应用. ZL202311330863.0, 2025-09-16
代表性论文
Zheng Y., Li Y., Song C., Chai Z., Fu J., Dang C., Ju F., Wang B., Niu J., Zheng M.* 2026. Functional dominance and competitive strategy of comammox bacteria among ammonia oxidizers in urban secondary effluent-constructed wetlands. Environmental Science & Technology 60: 7194-7207.
Chen H., Chai Z., Chen J. Song C., Zheng M.* 2026. Anthraquinone-2-sulfonate enhances endogenous denitrification and phosphorus removal: Electron shuttle-mediated syntrophic partnerships. Water Research 298: 125783.
Chai Z., Yao W., Chen H. He Y., Zheng M.* 2025. Efficient aerobic nitrate removal and nitrogen metabolism of the salt-tolerant Halomonas alkaliphila HYJ1. Journal of Environmental Management 393: 127024.
Chen H., Song C., Wang Q., Chai Z., Zheng M.* 2025. Advanced treatment of coal gasification wastewater using a multistage aerated biofilm reactor with hydrophilic polyurethane carriers. Journal of Environmental Management 389: 126141.
Zheng Y., Wang B., Chen H., Zhou J., Song C., Chen J., Chai Z., Zheng M.* 2025. Rhizosphere as hotspot for ammonia oxidation in secondary effluent constructed wetlands: Role of comammox Nitrospira. Bioresource Technology 431: 132621.
Li Y., Wang Q., Tang M., Chai Z., Zheng Y., Zheng M.* 2025. The critical roles of biofilm property and community structure in adaptability of ammonia-oxidizing microorganisms to the toxicity of coking wastewater. Desalination 603: 118653.
Chai Z., Tian Z., Zheng M.*, Wang B., Li Y., Cui J., Ju F., Guo J. 2025. The functional dominance and metabolic diversity of comammox Nitrospira in recirculating aquaculture systems. Water Research 273, 122949.
Zhang A., Zhu M., Zheng Y., Tian Z., Mu G., Zheng M.* 2024. The significant contribution of comammox bacteria to nitrification in a constructed wetland revealed by DNA-based stable isotope probing. Bioresource Technology 399: 130637.
Li Y., Wang Q., Chen H., Song C., Zheng Y., Chai Z., Zheng M.* 2024. Multi-stage oxic biofilm system for pilot-scale treatment of coking wastewater: Pollutants removal performance, biofilm properties and microbial community. Bioresource Technology 411: 131271.
Li Y., Chai Z., Song C., Chen J., Gu A., Mu G., Ge R., Zheng M.* 2024. The superiority of hydrophilic polyurethane in comammox-dominant ammonia oxidation during low-strength wastewater treatment. Science of the Total Environment 935: 173017.
Cui Y., He W., Wang Z., Yang H., Zheng M.*, Li Y. Reduced estrogenic risks of a sunscreen additive: Theoretical design and evaluation of functionally improved salicylates. Journal of Hazardous Materials 477, 135371.
Zheng M.*, Tian Z., Chai Z., Zhang A., Gu A., Mu G., Wu D., Guo J.* 2023. Ubiquitous occurrence and functional dominance of comammox Nitrospira in full-scale wastewater treatment plants, Water Research, 236: 119931.
王献昆,田志超,周南,赵志荣,何诗诗,余艳鸽,辜晓原,翟德勤,郑茂盛.2023. 河流疏浚底泥余水的固定化微生物技术处理研究.工业水处理, 43: 123-132.
Zheng M., Mu G., Zhang A., Wang J. *, Chang F., Niu J., Wang X., Gao T., Zhao Z. 2022. Predominance of comammox bacteria among ammonia oxidizers under low dissolved oxygen condition. Chemosphere, 308: 136436.
He S., Zhao Z., Tian Z., Xu C., Liu Y., He D., Zhang Y., Zheng M.* 2022. Comammox bacteria predominate among ammonia-oxidizing microorganisms in municipal but not in industrial wastewater treatment plants. Journal of Environmental Management, 316: 115271.
Yang X., Duan J., Zhang X., Zhang H., Liu X., Feng Y., Zheng M.* 2022. Heterojunction architecture of Nb2O5/g-C3N4 for enhancing photocatalytic activity to degrade organic pollutants and deactivate bacteria in water. Chinese Chemical Letters, 33: 3792-3796.
Tian Z., Zhou N., You W., He D., Chang F., Zheng M.* 2021. Mitigating NO and N2O emissions from a pilot-scale oxidation ditch using bioaugmentation of immobilized aerobic denitrifying bacteria. Bioresource Technology 340, 125704.
You W., Peng W., Tian Z., Zheng M.* 2021. Uranium bioremediation with U(VI)-reducing bacteria. Science of the Total Environment 798, 149107.
Zheng M., Zhou N., He S., Chang F., Zhong J., Xu S., Wang Z., Liu T. 2021. Nitrous oxide (N2O) emissions from a pilot-scale oxidation ditch under different COD/N ratios, aeration rates and two shock-load conditions. Journal of Environmental Management 280, 111657.
Gu W., Li X., Li Q., Hou Y., Zheng M.*, Li Y. 2021. Combined remediation of polychlorinated naphthalene-contaminated soil under multiple scenarios. Journal of Hazardous Materials 405, 124139.
Zheng M., He S., Feng Y., Wang M., Liu Y.X., Dang C., Wang J.* 2021. Active ammonia-oxidizing bacteria and archaea in wastewater treatment systems. Journal of Environmental Sciences 102, 273-282.
He S., Li Y., Mu H., Zhao Z., Wang J., Liu S., Sun Z., Zheng, M.* 2021. Ammonium concentration determines differential growth of comammox and canonical ammonia-oxidizing prokaryotes in soil microcosms. Applied Soil Ecology 157, 103776.
孙振丽, 王宁, 陈慧, 张娴, 张俱珧, 郑茂盛*. 2021. 基于CiteSpace 的磁性SERS 检测技术研究态势分析. 化学通报, 84, 6: 620-626.
Yang X., Duan J., Zhang X., Zhang H., Liu X., Feng Y., Zheng, M.* 2021. Heterojunction architecture of Nb2O5/g-C3N4 for enhancing photocatalytic activity to degrade organic pollutants and deactivate bacteria in water. Chinese Chemical Letters.
Zhao Z., Huang G., He S., Zhou N., Wang M., Dang C., Wang J., Zheng M.* 2019. Abundance and community composition of comammox bacteria in different ecosystems by a universal primer set. Sci. Total Environ. 691, 146-155.
Zhou N., Dang C., Zhao Z., He S., Zheng, M.*, Liu W., Wang X. 2019. Role of sludge retention rime in mitigation of nitrous oxide emission from a pilot-scale oxidation ditch. Bioresource Technology, 292, 121961.
Zheng M., Zhou N., Liu S., Dang C., Liu Y., He S., Zhao Y., Liu W.*, Wang X.* 2019. N2O and NO emission from a biological aerated filter treating coking wastewater: Main source and microbial community. J. Clean. Prod. 213, 365-374.
Zhou N., Zhao Z., Wang H., Chen X., Wang M., He S., Liu W., Zheng, M.* 2019. The effects of graphene oxide on nitrification and N2O emission: Dose and exposure time. Environ. Pollut. 252 (Pt B), 960-966.
Li C., Liu S., Ma T., Zheng M.*, Ni J.* 2019. Simultaneous nitrification, denitrification and phosphorus removal in a sequencing batch reactor (SBR) under low temperature. Chemosphere, 229, 132-141.
何诗诗,周 南,赵志荣,王明远,郑茂盛*. 2019. 氧化石墨烯材料对水溶液中放射性核素的吸附去除研究进展. 核化学与放射化学.
Zheng M., Wang M., Zhao Z., Zhou N., He S., Liu S., Wang J., Wang X. 2018. Transcriptional activity and diversity of comammox bacteria as a previously overlooked ammonia oxidizing prokaryote in full-scale wastewater treatment plants. Sci. Total Environ. 656: 717-722.
Wang, M., Huang, G., Zhao, Z., Dang, C., Liu, W., Zheng, M.* 2018. Newly designed primer pair revealed dominant and diverse comammox amoA gene in full-scale wastewater treatment plants. Bioresour. Technol. 270, 580-587.
Maosheng Zheng. Nitrogen removal characteristics of aerobic denitrifying bacteria and their applications. Springer, 2018, ISSN: 2190-5053. (专著)
Zheng M., Fu H.Z., Ho Y.S. 2017. Research trends and hotspots related to ammonia oxidation based on bibliometric analysis. Environ Sci Pollut Res. 24(25): 20409-20421.
Zheng M., Li C., Liu S., Gui M., Ni J. 2016. Potential application of aerobic denitrifying bacterium Pseudomonas aeruginosa PCN-2 in nitrogen oxides (NOx) removal from flue gas. Journal of Hazardous Materials, 318, 571-578.
Gui M., Chen Q., Ma T., Zheng M., Ni J. 2016. Effects of heavy metals on aerobic denitrification by strain Pseudomonas stutzeri PCN-1.
Liu T., Liu S., Zheng M., Chen Q., Ni J. 2016. Performance Assessment of Full-Scale Wastewater Treatment Plants Based on Seasonal Variability of Microbial Communities via High-Throughput Sequencing. Plos One, 11, e0152998.
Zheng M., Tian Y., Liu T., Ma T., Li L., Li C., Ahmad M., Chen Q., Ni J.* 2015. Minimization of nitrous oxide emission in a pilot-scale oxidation ditch: generation, spatial variation and microbial interpretation. Bioresource Technology 179, 510-517. (IF=4.494)
Zheng M., Ma L.K., Li T.H.*, Huang R. 2017. Rapid Assessment Method for Eco-water Deficit in Catchments. Journal of Environmental Informatics 30, 149-160.
Zheng M., He D., Ma T., Chen Q., Liu S., Ahmad M., Gui M., Ni J.* 2014. Reducing NO and N2O emission during aerobic denitrification by newly isolated Pseudomonas stutzeri PCN-1. Bioresource Technology 162, 80-88. (IF=4.494)
Zheng M., He D., Ma T., Ni J.* Isolation and nitrogen removal characteristics of aerobic denitrifying bacterium Pseudomonas aeruginosa HD4-2. Cross-Strait Forum on Postgraduate Education. University of Macau, November 3-4, 2013.
Zhu S., Zheng M., Li C., Gui M., Chen Q., Ni J.* 2015. Special role of corn flour as an ideal carbon source for aerobic denitrification with minimized nitrous oxide emission. Bioresource Technology 186, 44-51.
He D., Zheng M., Ma T., Li C., Ni J.* 2015. Interaction of aerobic Cr (VI) reduction and denitrification by strain Pseudomonas aeruginosa PCN-2. Bioresource Technology 185, 346-352.
He D., Zheng M., Ma T., Ni J.* Nitrite interference and elimination in diphenylcarbazide (DPCI) spectrophotometric determination of hexavalent chromium. Water Science and Technology 72, 223-229.
Chen Q., Ni J.*, Ma T., Liu T., Zheng M. 2015. Bioaugmentation treatment of municipal wastewater with heterotrophic-aerobic nitrogen removal bacteria in a pilot-scale SBR. Bioresource Technology 183, 25-32.
徐硕, 郑茂盛, 周海霞, 许楠*. 2014. 好氧污泥氨氧化活性对雌激素降解效率的影响研究. 北京大学学报(自然科学版), 50, 535-541.
张秀霞*, 郑茂盛, 王荣靖, 梁昌峰, 徐硕. 2010. 石油污染土壤中高效石油烃降解菌Y-16的筛选及其降解性能. 环境工程学报, 4, 1916-1920.