2002.9-2005.7 beat365 市政工程 博士

1999.9-2002.3 山東大學 環境工程 碩士

1995.9-1999.7 山東工業大學 環境工程 學士

2007.12-今 beat365 教師、博導、黨委委員、所長（2018-20）

2017.03-今 清華蘇州環境創新研究院 應急團隊負責人、院應急中心顧問

2019.02-06 意大利威尼斯國際大學（VIU） 訪問教授

2012.03-2013.02 美國加州大學洛杉矶分校（UCLA） 訪問學者

2005.7-2007.11 beat365環境科學與工程系 博士後（獲校優秀博士後稱号）

1. 飲用水新污染物風險識别和控制

3. 供水管網水質穩定性和監控技術

3. 突發環境事件的應急處理和管理

供水是城市生命線工程之一，高品質供水是人民群衆向往的美好生活的重要元素。本人面向國家重大需求和國際前沿熱點，重視科學研究與工程應用的融合，确定研究方向為飲用水水質化學風險控制，主要包括飲用水新污染物、供水管網水質穩定性、突發水環境污染事故的應急處理。

主要創新性學術成果是：

（1）針對新型消毒副産物，發現了微生物代謝含氮物質生成亞硝胺前體物的新機理，開發了亞硝胺前體物的極性解析新技術和處理工藝，系統評估了新型和常規消毒副産物的健康風險

①在國際上首次提出并驗證了微生物代謝水中含氮物質産生亞硝胺前體物的新機制（Water Res., 2020; Sci. Tot. Environ., 2023），通過實驗室研究和城市尺度的定量源解析估算該機制可貢獻我國水源水中約38 %的亞硝胺前體物（Water Res., 2020; J. Hazard Mat., 2021），有助于解釋我國飲用水存在較高亞硝胺風險的原因。②首次開發了基于極性快速分析法（PRAM）的亞硝胺前體物解析技術（Water Res., 2014），揭示了亞硝胺前體物的基本結構特性：同時具有正電性和非極性。該解析技術和配套設備具有針對性強、操作簡便、質控可靠等優點，可為自來水、污水、再生水處理提供有機物的極性和電性信息以提升處理效能（Water Res., 2015）。③首次開發了基于陽離子交換的亞硝胺前體物處理技術和濃縮工具（J. Env. Sci., 2017）；發現黑臭水體存在較高亞硝胺前體物，識别出福美鋅等新型亞硝胺前體物（Chemosphere, 2016）。④深入研究二甲雙胍、表面活性劑、溴離子等前體物反應生成亞硝胺的機理（Sci. Tot. Environ., 2019; 2022; Chem. Res. Chinese Univ., 2023），為應對亞硝胺風險和篩查風險污染物提供了技術儲備（Accounts Chem. Res., 2019）。⑤根據前體物解析研究結果，測試了常規工藝對亞硝胺及其前體物的去除特性（Sci. Tot. Environ., 2013; 2019），研究确定了臭氧-（生物）活性炭是現階段的消毒副産物最佳可行控制技術，可同時控制亞硝胺、三鹵甲烷和鹵乙酸（J. AWWA, 2014; 2015; 2017），揭示了不同工藝去除前體物的機理（Water Res., 2015）；研究了典型亞硝胺前體物的生物降解過程（Chemosphere, 2015; J. AWWA, 2015）。⑥開發了順序氯化消毒技術，可安全高效地實現對微生物和三鹵甲烷、鹵乙酸、亞硝胺等消毒副産物的綜合控制（Biomed. & Env. Sci., 2006, 2007; J. AWWA, 2017; Sep. & Purif. Tech., 2018）。⑦通過長期和大範圍檢測，識别出我國存在較高的飲用水亞硝胺新型消毒副産物風險（Water Res., 2016），引起了國内外的廣泛關注。⑧系統開展亞硝胺暴露組學研究，定量評估飲用水、食品、煙草、藥品等亞硝胺外源攝入量，為制訂亞硝胺水質标準和管控策略提供技術支持（Sci. Tot. Environ., 2021; J. Env. Sci., 2023; Progress in Chemistry, 2023）。

（2）針對供水管網水質穩定性，開發了基于電化學信号的金屬管道腐蝕結垢狀态在線監測新技術，建立了水質穩定性評估和控制技術體系

①在國内外首次開發了基于電化學信号的管網腐蝕結垢狀态在線監測技術（Water Res., 2020），為監控金屬管線安全提供了新手段。深入開展鐵質管材管垢破裂溶析産生黃水問題的機理，首次開發以人造管垢和新型管道反應器為核心的管道電化學研究測試平台，為Kuch機理提供了直接試驗證據（Water Res., 2023）。②發現經典的拉森指數用于評估低堿低硬水時存在失效風險，開發出适用于軟水水質（如長三角區域）的鐵穩定性指數，豐富和發展了化學穩定性評價方法（J. Cleaner Production, 2023)。③深入研究了管網生物穩定性的變化過程、評估方法和控制技術，系統評估了微生物在管網水質穩定性方面的影響（J. Env. Sci., 2023），闡明了微生物種群的“生境壓力-競合抵抗”關系是管網微生态系統的主要演化機理，明确了消毒劑強度與營養基質（以可同化有機碳AOC為指标）是影響管網承載力的關鍵微生境因子（J. Env. Sci., 2014; 2015; Biomed. Environ. Sci., 2014; Appl. Microbiol. Biotechnol. 2015）。④在供水管網中識别了分支杆菌、鞘氨醇單胞菌、甲基杆菌、鐵細菌等多種耐氯性微生物，建立了針對耐氯菌的脈沖式高劑量氯消毒技術（Annals Microbiology, 2009; Biomed. Environ. Sci., 2012; J. Environ. Sci., 2015），為控制南方高熱地區供水管網生物穩定性和保障直飲水安全提供技術策略。⑤在北京、天津、廣州、東莞、杭州、甯波、平湖、青島等地開展了大量的管網水質穩定性研究和實踐工作，參與了2008年北京黃水問題的應急處理研究，快速判别黃水産生原因，建立了應對技術方案并支撐了工程實踐（Frontier Env. Sci. Engin., 2014; J. Env. Sci., 2014; J. Cleaner Production, 2023），為南水北調中線、千島湖引水、西江引水等重大調水工程的順利實施提供了管網水質穩定性方面的技術支持。

（3）針對常規和新污染物的突發污染風險，構建了系統高效的應急淨化處理技術體系，開發了海量有機（新）污染物的應急效能預測模型，開發了基于藻類生長機理的預測模型和系統

①建立了系統高效的城市供水應急處理技術體系，包括活性炭吸附、化學沉澱、氧化/還原、強化消毒、曝氣吹脫和藻類綜合處理等6類關鍵技術，覆蓋飲用水标準中絕大部分100多種污染物（Environ. Sci. & Technol., 2011; Accounts Chem. Res., 2019）；率先獲得了數十種有機污染物的活性炭吸附特性，首次突破了自來水廠應對重金屬嚴重超标水源水的化學沉澱處理技術和應對揮發性污染物的曝氣吹脫技術。②建立了基于線性溶劑化自由能關系的海量有機（新）污染物應急吸附、吹脫性能的預測模型（SAR & QSAR in Environ. Res. 2015; J. Environ. Sci., 2016，JES outstanding publication award）。③合作開發了應急處理導試水廠、射流加藥系統、移動式應急藥劑投加系統、異位應急處理反應器等關鍵設備，在全國20多個自來水公司、上百個投藥系統工程中得到應用。④研究藻類死亡過程中硫醇硫醚類惡臭物質的釋放機理，為太湖水危機事故原因判斷、高藻水處理技術開發提供依據（J. Hat. Mat., 2010）；構建基于藻類生長機理模型的在線監測預警系統，為富營養化湖泊水庫的藻類治理和供水安全提供“眼睛”和“大腦”（Progress in Chemistry, 2025）。⑤參與了2005年松花江硝基苯污染、2007年無錫太湖水危機、2008年汶川地震、2012年廣西龍江河镉污染、2014年蘭州自來水苯超标、2015年天津港爆炸事故、2015年廣元應對銻污染應急供水、2018年河南南陽淇河污染等重大事件應急工作，參與多個城市的“一河一策一圖”的編制工作，多次擔任住建部、環保部和各級政府的專家組成員，大大提高了供水行業面對水源突發污染事故時的應急處理能力。

共負責國家級課題7項（十一五水專項1項、科技支撐1項、國家自然基金面上項目4項和青年項目1項）、子課題1項（十二五水專項1項），清華自主科研項目2項，參與數十項國家和省部級課題。發表SCI 論文100多篇（總被引4000+，H-index=34），國際會議大會報告4次、口頭報告40多次，主編英文專著1部、參編中英文專著10餘部，申請專利30多項（已授權20多項），入選2020年Elsevier中國高被引學者（土木工程領域），所負責課題指導了10餘座示範工程建設，供水保障能力超過1000萬m³/d，研究成果被《人民日報》《中央電視台》《科技日報》《中國環境報》《南方周末》等媒體多次報道。

beat365

1. 高等水處理工程（研究生主幹課，2006-2018參與，2019起主講）

2. 水處理工程生産實習（本科生主幹課，2011至今，參與）

3. 水處理工程課程設計（本科生主幹課，2011至今，參與）

4. 環境與地球科學概論（本科生主幹課，2017-2018，參與）

5. 環境應急管理與工程（研究生、本科生選修課，2015-2018，主講）

獨立培養博士生、碩士生多人：1人次獲清華優秀博士學位論文、1人次獲清華優秀碩士學位論文、1人次獲beat365抗擊新冠肺炎疫情先進個人

威尼斯國際大學(Venice International University, Italy)

1. Introduction to Environmental Engineering (Globalization Program S1929, 2019.2-6, 主講)

2. Environmental Risk and Emergency Response (Globalization Program S1930, 2019.2-6, 主講)

1. 氨基酸多态性對代謝生成亞硝（酰）胺前體物的影響機理研究. 國家自然科學基金面上項目. 2024.1-2027.12. 負責人

2. 水中正電性含氮有機物的研究方法、環境行為及其對消毒副産物的貢獻研究. 國家自然科學基金面上項目. 2021.1-2024.12. 負責人

3. 京津冀水環境治理與管理關鍵技術綜合集成研究. 國家十三五重大科技專項. 2018.1-2020.6 任務負責人

4. 水環境中亞硝胺前體物的微生物代謝來源機制假說的驗證研究. 國家自然科學基金面上項目. 2018.1-2021.12. 負責人

5. 基于極性快速分析法的亞硝胺前體物解析技術體系研究與應用. 國家自然科學基金面上項目. 2015.1-2018.12. 負責人

6. 突發事件供水短期暴露風險與應急管控技術研究. 國家十二五重大科技專項. 2015.1-2018.6. 子課題負責人

7. 自來水廠應急淨化處理技術及工藝體系研究與示範課題. 國家十一五重大科技專項. 2008.9-2012.8. 負責人

8. 高藻水源水飲用水處理技術與工藝研究及示範課題. 國家十一五科技支撐計劃. 2007.8-2011.4. 負責人

9. 飲用水系統複雜生物相條件下微生物的消毒抵抗特性和控制技術機理. 國家自然科學基金青年基金項目. 2008.1-2010.12. 負責人

10. 水中痕量亞硝胺前體物富集和解析方法的開發. beat365-阿爾伯塔大學聯合科研基金. 2017.1-12.負責人

11. 飲用水新興消毒副産物前體物的解析技術和控制機理研究. beat365自主科研項目. 2014.1-2016.12 負責人

12. 亞硝胺前體物在污水處理過程中的遷移轉化規律. 國家環境模拟與污染控制重點聯合實驗室自由探索課題. 2019-2020. 負責人

13. 亞硝胺前體物的微生物來源解析. 國家環境模拟與污染控制重點聯合實驗室自由探索課題. 2016-2018. 負責人

14. 生物活性炭濾池對亞硝胺前體物的物理吸附和生物作用機理研究. 國家環境模拟與污染控制重點聯合實驗室開放課題. 2016-2018. 副組長

15. The nitrosamine threat in the drinking water supply system and the assessment of water treatment process. National Geographic Air and Water Conservation Fund. 2016-2017. Principal Investigator.

16. Controlling the formation of nitrosamines during water treatment. Water Research Foundation 4370. USA. 2012-2014. Investigator.

17. 飲用水亞硝胺類消毒副産物的關鍵前體物識别與控制技術研究. 國家自然科學基金面上項目. 2010-2013. 研究骨幹

18. 南水北調京津受水區供水安全保障技術研究與示範. 國家十二五重大科技專項. 2012-2014. 研究骨幹.

19. 河流突發铊、銻污染事件應急處置技術研究. 環保部科技計劃項目. 2012-2014. 研究骨幹

20. 城市供水應急預案研究與示範. 國家十一五重大科技專項. 2009-2011. 研究骨幹

21. 内外源污染引起供水管網水質變化的機理和處理技術. 科技部國際合作項目. 2010-2013. 研究骨幹.

22. 給水管網化學穩定特性研究與控制技術. 863計劃滾動支持. 2011-2013. 研究骨幹

23. 飲用水源與水環境污染評估及應對措施課題. 環保部專項汶川特大地震環境評估. 2008.5-2010.11. 研究骨幹

24. 微污染水處理技術研究與裝置開發課題. 十一五科技支撐課題. 2007.1-2010.12. 研究骨幹

25. 給水管網水穩定性控制技術研究與應用課題. 十一五863計劃課題. 2007-2009. 研究骨幹

26. 城市安全供水應急淨化技術方案研究課題. 環保部專項松花江污染環境評估. 2006.1-11. 研究骨幹

27. 給水管網中鐵穩定性控制機理研究. 國家自然科學基金面上項目. 2006-2008. 研究骨幹

28. 安全消毒技術和消毒二次污染控制課題. 十五863北方安全飲用水保障技術項目. 2003-2005. 研究骨幹

29. 水質安全淨化新理論新技術. 國家自然基金重大項目. 2003-2006. 研究骨幹

30. 城市供水系統應急技術研究項目. 建設部計劃項目 2006-2007. 研究骨幹

31. 東莞市城市供水安全保障技術研究. 建設部計劃項目 2006.1-2007.3. 研究骨幹

企業委托項目：略

一、發表SCI論文

1. Wang Y., Zhang Z.C., Yin Z.H., Wang J., Zhang X.J., Chen C.^* Adsorption of typical NDMA precursors by superfine powdered activated carbon: Critical role of particle size reduction. Journal of Environmental Sciences, 2025, 147, 101-113.

2. Zhao J.L., Guo C.S., Yang Q.P., Liu W.L., Zhang H., Luo Y., Zhang Y., Wang L., Chen C., Xu J.^* Comprehensive monitoring and prioritizing for contaminants of emerging concern in the Upper Yangtze River, China: An integrated approach. Journal of Hazardous Materials. 2024, 480:135835

3. Chen J.F., Lin Y.Y., Zhu Y., Zhang Y.R., Qian Q.R., Chen C.^*, Xie S.G.^* Spatiotemporal profiles and underlying mechanisms of the antibiotic resistome in two water-diversion lakes. Environmental Research. 2024, 263:120051.

4. Shi Y.J., Xia W., Liu H.X., Liu J.T., Cao S.T., Fang X.J., Li S.L., Li Y.Y., Chen C.^*, Xu S.Q^*. Trihalomethanes in global drinking water: Distributions, risk assessments, and attributable disease burden of bladder cancer. Journal of Hazardous Materials. 2024. 469(16):133760

5. Gao M.L., Liao X.B., Chen S.T., Li X.Y., Zhang Y.R., Chen C., Qi H^*. Unveiling Distinct Influencing Mechanisms of Br- on NDMA Formation During Ozonation of Actual Water Matrixes: Identification of Precursors and Brominated Substance. Chemical Engineering Journal. 2024. 10.1016/j.cej.2024.151760

6. Wen J.Q., Duan L., Wang B., Dong Q., Liu Y.C., Chen C., Huang J., Yu G^*. In-sewer Stability Assessment of 140 Pharmaceuticals, Personal Care Products, Pesticides and Their Metabolites: Implications for Wastewater-Based Epidemiology Biomarker Screening. Environmental International. 2024. 184:108465

7. Yuxuan Xie, Jun Wang, Yuqing Tang, Yun Zhu, Zehui Tian, Alex T. Chow, Chao Chen^*. Principle and Application of Algae Concentration Prediction Models in Lakes and Reservoirs. Progress in Chemistry. 2024, 36(9): 1412~1424

8. Liu S.Q., Zhang Z.C., Liu R., Mao Y.K., Ge H.R., Liu C., Tian C.X., Yin S.Y., Li F., Chen C., Zhang L.Q. O₂ plasma-modified carbon nanotube for sulfamethoxazole degradation via peroxymonosulfate activation: Synergism of radical and non-radical pathways boosting water decontamination and detoxification. Chemosphere, 2024, 344(5):140214

9. Li X., Ye Z.W., Wang J., Lin P.F., Zhang X.J., Xie S.G., Chen C.^* Intake of tobacco nitrosamines of smokers in various provinces of China and their cancer risk: A meta-analysis. Journal of Environmental Sciences. 2024. 141, 249-260. DOI: 10.1016/j.jes.2023.05.018

10. Zhang H.Y., Dong D., Chen S.C., Liao J., Liu D.B., Zhang X.J., Zhao L.T., Wang J., Liu S., Chen C.^* Study on a new index for yellow water problem during source water switch and its application on one real project. Journal of Cleaner Production. 2023. 435(7):140419

11. Cao M.R., Ye Z.W., Wang J., Zhang X.J., Lin P.F., Chen C^*. Occurrence of N-nitrosamines as Harmful Impurities in Pharmaceuticals. Progress in Chemistry. 2023, 35, 12:1881-1894.

12. Bei E., Ye Z.W., Chen X.L., Li X., Wang J., Qiu Y., Xie S.G.^⁎, Chen C^*. Study on characteristic and mechanism involved in the formation of N-nitrosodimethylamine precursors during microbial metabolism of amino acids. Science of the Total Environment. 2023, 874, 162469.

13. Luo Q., Miao Y., Liu C., Bei E., Zhang J. F., Zhang L. H., Chen C., Zeng Q. Maternal exposure to nitrosamines in drinking water during pregnancy and birth outcomes in a Chinese cohort. Chemosphere. 2023, 315, 9

14. Zhao L.T., Liu D.B., Zhang H.Y., Wang J., Zhang X.J., Liu S.M., Chen C^*. Study on electrochemical reduction mechanisms of iron oxides in pipe scale in drinking water distribution system. Water Research. 2023, 231, 119597.

15. Chen, X.L.; Ke, Y.C.; Zhu, Y.; Xu, M.B.; Chen, C.; Xie, S.G.^* Enrichment of tetracycline-degrading bacterial consortia: Microbial community succession and degradation characteristics and mechanism. Journal of Hazardous Materials. 2023, 448,130984.

16. Xia R., Liao X.B.^*, Liu T.Z., Gao M.L. Chen C.^* Effects of Br^‒ on NDMA Formation During Chloramination: a Review of Influencing Factors, Mechanisms, and Control. Chem. Res. Chinese Universities. 2023, 39, 3: 370-377. https://doi.org/10.1007/s40242-023-3048-7

17. Zhang H.Y., Liu D.B., Zhao L.T., Wang J. Xie S.G., Liu S.M., Lin P.F., Zhang X.J., Chen C.^* Review on corrosion and corrosion scale formation upon unlined cast iron pipes in drinking water distribution systems. Journal of Environmental Sciences. 2022, 117: 173-189.

18. Prasse C., Yang X., Chen C., Xu B., Li X.F. Re-Imagining drinking water safety based on 21st century science: Microbial pathogens, emerging contaminants, by-products, and health risks. Journal of Environmental Sciences. 2022, 117: 1-2.

19. Gao M.L., Jiang Z.B., Liao X.B.^⁎, Qi H., Zhao L., Chen C.^⁎, Westerman D. NDMA formation during ozonation of DMAPA: Influencing factors, mechanisms, and new pathway exploration. Science of the Total Environment. 2022, 825: 153881.

20. Chen X.L., Yang Y.J., Ke Y.C., Chen C., Xie S.G^*. A comprehensive review on biodegradation of tetracyclines: Current research progress and prospect. Science of the Total Environment. 2022, 814

21. Chen J.F., Yang Y.J., Ke Y.C., Chen X.L., Jiang X.S., Chen C., Xie S.G^*. Sulfonamide-metabolizing microorganisms and mechanisms in antibiotic-contaminated wetland sediments revealed by stable isotope probing and metagenomics. Environment International. 2022, 165.

22. Chen J.F., Yang Y.J., Ke Y.C., Chen X.L., Jiang X.S., Chen C., Xie S.G^*. Anaerobic sulfamethoxazole-degrading bacterial consortia in antibiotic-contaminated wetland sediments identified by DNA-stable isotope probing and metagenomics analysis. Environmental Microbiology. 2022, 24, 8: 3751-3763.

23. Chen X.L., Shen W., Chen J.F., Zhu Y., Chen C., Xie S.G.^* Tetracycline biotransformation by a novel bacterial strain Alcaligenes sp. T17. Science of the Total Environment. 2022, 832: 155130.

24. Liao X.B., Shen L.L, Jiang Z.B., Qiu Y., Qi H.^*, Chen C.^*, Li F., Yuan B.L. NDMA formation during ozonation of metformin: Roles of ozone and hydroxyl radicals. Science of The Total Environment. 2021, 796(3):149010.

25. Li X., Bei E., Qiu Y., Xiao H., Wang J., Lin P.F., Zhang X.J., Chen C^*. Intake of Volatile Nitrosamines by Chinese Residents in Different Provinces via Food and Drinking Water. Science of the Total Environment. 2021, 754: 142121.

26. Qiu Y., Bei E., Li X., Xie S.G., Xiao H., Luo Y.H., Wang Y., Wang J., Zhang X.J., Chen C.^* Quantitative analysis of source and fate of N-nitrosamines and their precursors in an urban water system in East China. Journal of Hazardous Materials. 2021, 415, 125700.

27. Zhang, J.X.#, Maqbool, T.#, Qiu, Y.#, Qin Y.L., Asif M. B., Chen, C., Zhang, Z.H.^* Determining the leading sources of N-nitrosamines and dissolved organic matter in four reservoirs in Southern China. Science of the Total Environment. 2021, 771: 145409.

28. Hu Y.; Dong D.; Wan K.; Chen C.; Yu X.; Lin H.R. Potential shift of bacterial community structure and corrosion-related bacteria in drinking water distribution pipeline driven by water source switching. Frontiers of Environmental Science & Engineering. 2021, 15, 2.

29. Chen C., Hayward K., Khan S.J., Ormeci B., Pillay S., Rose J.B, Thanikal J.V., Zhang T. Role of wastewater treatment in COVID-19 control. Water Quality Research Journal of Canada. 2021, 56 (2): 68–82.

30. Zhang H.Y., Zhao L.T., Liu D.B., Wang J., Zhang X.J., Chen C.^* Early period corrosion and scaling characteristics of ductile iron pipe for ground water supply with sodium hypochlorite disinfection. Water Research, 2020, 176: 115742.

31. Zhang H.Y., Liu D.B., Zhao L.T., Zhang X.J., Wang J., Chen C.^* Corrosion mechanisms of ductile iron pipes in water distribution system: impacts of ionic strength and cement mortar lining coverage. Desalination and Water Treatment. 2020, 197:237-248.

32. Bei E., Li X., Wu F.H, Li S.X., He X.S., Wang Y.F., Qiu Y., Wang Y., Wang C.K., Wang J., Zhang X.J., Chen C.^* Formation of N-nitrosodimethylamine precursors through the microbiological metabolism of nitrogenous substrates in water. Water Research, 2020, 183: 116055.

33. Luo Q.^#, Bei E.^#, Liu C., Deng Y.L., Miao Y., Qiu Y., Lu W.Q., Chen C.^*, Zeng Q^*. Spatial, temporal variability and carcinogenic health risk assessment of nitrosamines in a drinking water system in China. Science of the Total Environment. 2020, 736: 139695

34. Shi L., Hu Z.H., Wang Y., Bei E., Lens P.N.L., Thomas O., Hu Y.S., Chen C., Zhan X.M. In situ electrochemical oxidation in electrodialysis for antibiotics removal during nutrient recovery from pig manure digestate. Chemical Engineering Journal. 2020, 127485.

35. Qiu Y., Bei E., Wang Y.F., Wang J., Zhang X.J., Chen C.^* One representative water supply system in China with nitrosamine concern: Challenges and treatment strategies. Journal of Environmental Sciences. 2020, 88: 12-20.

36. Lu ZD, Sun W.J., Li C., Cao W.F., Jing Z.B., Li S.M., Ao X.W., Chen C., Liu S.M. Effect of granular activated carbon pore-size distribution on biological activated carbon filter performance. Water Research. 2020, 177: 115768.

37. Qiu Y., Bei E., Li S.X., Wang J., Zhang X.J., Chen C.^*, Xie S.G., Krasner S.W. Contributions of volatilization, photolysis, and biodegradation to N-nitrosodimethylamine removal in conventional drinking water treatment plants. Science of the Total Environment. 2019, 697, 133993.

38. Liao, X. B.; Zhao, L.; Shen, L. L.; Chen, M. Y.; Chen, C.; Li, F.; Yuan, B. L.; Zhang, X. J. Effect of pre-ozonation on N-nitrosodimethylamine (NDMA) formation from four drinking-water sources during subsequent chloramination. Water Science and Technology-Water Supply. 2019, 19, 6:1816-1822.

39. Liao X.B., Cheng Y.S., Liu Z.H., Shen L.L., Zhao L., Chen C., Li F., Zhang X.J. Performance of BAC for DBPs precursors' removal for one year with micro-polluted lake water in East-China. Environmental Technology. 2019. 41,27: 3554-3561.

40. Bei E., Wu X.M., Qiu Y., Chen C.^*, Zhang X.J. A tale of two water supplies in China: finding practical solutions to urban and rural water supply problems. Accounts of Chemical Research. 2019. 52, 4: 867-875. https://pubs.acs.org/doi/full/10.1021/acs.accounts.8b00605

41. Zhang H.Y., Tian Y.M., Kang M.X., Chen C., Song Y.R., Li. H. Effects of chlorination/chlorine dioxide disinfection on biofilm bacterial community and corrosion process in a reclaimed water distribution system. Chemosphere, 2019, 215, 62-73.

42. Wang Y.X., Liu C., Sun Y., Huang L.L., Li J., Ai S.H., Huang Z., Sun L., Wan Z.Z., Lu W.Q., Chen Y.J., Chen C., Pan A., Duan P., Wang Q., Chen C., Meng T.Q., Wang L. Profiles, variability and predictors of concentrations of blood trihalomethanes and urinary haloacetic acids along pregnancy among 1760 Chinese women. Environmental Research. 2019, 172: 665-674.

43. Chen, J.F; Li, N.N; Xie, S,G.; 等. Biofilm and planktonic bacterial communities in a drinking water distribution system supplied with untreated groundwater. Archives of Microbiology. 2018, 200, 9: 1323-1331.

44. Li S.X., Shu Y.Y., Tang X., Lin P.F., Wang J., Zhang X.J., Chen C^*. Reaction patterns of NDMA precursors during the sequential chlorination process of short-term free chlorination and monochloramination. Separation and Purification Technology. 2018, 204: 196–204.

45. Liao, Xiaobin; Zou, Rusen; Chen, Chao; 等.Evaluating the biosafety of conventional and O₃-BAC process and its relationship with NOM characteristics. Environmental Technology. 2018, 39, 2: 221-230.

46. Li S.X., Zhang X.L., Bei E., Yue H.H., Lin P.F., Wang J., Zhang X.J., Chen C.^*. Capability of cation exchange technology to remove proven N-nitrosodimethylamine precursors. Journal of Environmental Sciences. 2017. 58, 331-339. https://doi.org/10.1016/j.jes.2017.04.007

47. Liao X.B., Chen C.^*, Yuan B.L.^*, Wang J., Zhang X.J. Control of Nitrosamines, THMs, and HAAs in Heavily Impacted Water With O₃-BAC. Journal of American Water Works Association. 2017, 109, 6: E3-13. https://doi.org/10.5942/jawwa.2017.109.0057

48. Fu H., Li X.B., Wang J., Lin P.F., Chen C.^*, Zhang X.J., Suffet I.H.M. Activated carbon adsorption of quinolone antibiotics in water: Performance, mechanism, and modeling. Journal of Environmental Sciences. 2017, 56: 145-152.

49. Yao W.K., Qu Q.Y., von Gunten U., Chen C., Yu G., Wang Y.J. Comparison of methylisoborneol and geosmin abatement in surface water by conventional ozonation and an electro-peroxone process. Water Research. 2017, 108: 373-382.

50. Bei E., Liao X.B., Meng X.T., Li S.X., Wang J., Sheng D.Y., Chao M., Chen Z.H., Zhang X.J., Chen C.^*. Identification of nitrosamine precursors from urban drainage during storm events: A case study in southern China. Chemosphere. 2016, 160, 323-331.

51. Liao, XB; Zou, RS; Chen, C; Yuan, BL; Zhou, ZM; Ma, HF; Zhang, XJ. Biomass development in GAC columns receiving influents with different levels of nutrients. Water Science and Technology-Water Supply. 2016. 16, 4: 1024-1032. DOI: 10.2166/ws.2016.016

52. Bei E., Shu Y.Y., Li S.X., Wang J., Zhang X.J., Chen C^*., Krasner S.W. Occurrence of nitrosamines and their precursors in drinking water systems around mainland China. Water Research. 2016, 98: 168-175.

53. Mi Z.L., Zhang X.J., Chen C.^* Iron release in drinking water distribution systems by feeding desalinated seawater: characteristics and control. Desalination and Water Treatment. 2016, 57: 9728–9735. DOI: 10.1080/19443994.2015.1031706

54. Ding H., Li X., Wang J., Zhang X.J., Chen C.^* Adsorption of chlorophenols from aqueous solutions by pristine and surface functionalized single-walled carbon nanotubes. Journal of Environmental Sciences. 2016, 43: 187-198. 封面文章，獲得JES 2019 Outstanding Publication Award

55. Li X., Lin P.F., Wang J., Liu Y.Y., Li Y., Zhang X.J., Chen C.^*. Treatment technologies and mechanisms for three odorants at trace level: IPMP, IBMP, and TCA. Environmental Technology. 2016, 37, 3: 308–315, http://dx.doi.org/10.1080/09593330.2015.1069405

56. Ding H., Chen C^*., Zhang X. Linear solvation energy relationship for the adsorption of synthetic organic compounds on single-walled carbon nanotubes in water. SAR and QSAR in Environmental Research. 2016, 27, 1: 31-45.

57. Ding H., Shen X., Chen C.^*, Zhang X.J. Molecular dynamics simulations of simple aromatic compounds adsorption on single-walled carbon nanotubes. RSC Advances, 2016, DOI: 10.1039/C6RA12644H

58. Liao X.B., Bei E., Li S.X., Ouyang Y.Y., Wang J., Chen C.^*, Zhang X.J., Krasner S.W. and Suffet M. Applying the Polarity Rapid Assessment Method to Characterize Nitrosamine Precursors and to Understand Their Removal by Drinking Water Treatment Processes. Water Research. 2015, 87: 292-298

59. Wang C.K., Liu S.M., Wang J., Zhang X.J., Chen C^*. Monthly survey of N-nitrosamines yield in a conventional water treatment plant in North China. Journal of Environmental Sciences. 2015, 38: 142-149. DOI: http://dx.doi.org/10.1016/j.jes.2015.05.025.

60. Mi Z.L., Dai Y., Xie S.G., Chen C., Zhang X.J. Impact of disinfection on drinking water biofilm bacterial community. Journal of Environmental Sciences. 2015, 37: 200-205.

61. Liao X.B., Chen C.^*, Xie S.G., Hanigan D., Wang J., Zhang X.J., Westerhoff P., Krasner S.W. Nitrosamine Precursor Removal by BAC: Adsorption versus Biotreatment Case Study. Journal of American Water Works Association. 2015, 107, 9: E454-463. DOI: 10.5942/jawwa.2015.107.0123

62. Li X., Wang J., Zhang X.J., Chen C.^*, Xie Y.F., Suffet I.H.M. Powdered activated carbon adsorption of two fishy odorants in water: trans,trans-2,4-heptadienal and trans,trans-2,4-decadienal. Journal of Environmental Sciences. 2015, 32, 15-25. DOI:10.1016/j.jes.2015.01.001.

63. Liao X.B.#, Chen C.#, Wang Z., Chang C.H., Zhang X.J., Xie S.G.^* Bacterial community change through drinking water treatment processes. International Journal of Environmental Science and Technology. 2015, 12, 6:1867-1874. DOI: 10.1007/s13762-014-0540-0

64. Wu H.T., Zhang J.X., Mi Z.L., Xie S.G.^*, Chen C.^*, Zhang X.J. Biofilm bacterial communities in urban drinking water distribution systems transporting waters with different purification strategies. Appl Microbiol Biotechnol. 2015. 99, 4: 1947-1955

65. Lin P.F., Zhang Y., Zhang X.J., Chen C.^*, Xie Y.F., Suffet I.H.M. Applying chemical sedimentation process in drinking water treatment plant to address the emergent arsenic spills in water sources. Frontiers of Environmental Science and Engineering. 2015. 9(1):50-57.

66. Lin P.F., Zhang Y., Zhang X.J., Chen C.^*, Xie Y.F., Suffet I.H.M. The influence of chlorinated aromatics' structure on their adsorption characteristics on activated carbon to tackle chemical spills in drinking water source. Frontiers of Environmental Science and Engineering, 2015, 9(1): 138–146.

67. Li X., Wang J., Liu Y.Y., Shi J., Zhang X.J., Chen C.^* Odorant screening and possible origin analysis of odor episodes in one reservoir in northern China. Journal of Water Supply: Research and Technology—AQUA. 2015, 64, 7: 847-856.

68. Lin P.F., Zhang X.J., Wang J., Zeng Y.N., Liu S.M., Chen C.^* Comparison of different combined treatment processes to address the source water with high concentration of natural organic matter during snowmelt period. Journal of Environmental Sciences, 2015. 27: 51-58.

69. Liao X.B.#, Chen C.#, Zhang J.X., Dai Y., Zhang X.J, Xie S.G.^* Dimethylamine biodegradation by mixed culture enriched from drinking water biofilter. Chemosphere. 2015, 119: 935–940

70. Liao X.B.#, Chen C.#, Zhang J.X., Dai Y., Zhang X.J, Xie S.G.^* Operational performance, biomass and microbial community structure: impacts of backwashing on drinking water biofilter. Environ Sci Pollut Res. 2015, 22:546–554. DOI 10.1007/s11356-014-3393-7

71. Liu S.M.^*, Che H., Smith K., Chen C. A method of detecting contamination events using multiple conventional water quality sensors. Environmental Monitoring and Assessment. 2015; 187(1):4189

72. Wu H.T., Mi Z.L., Zhang J.X., Chen C.^*, Xie S.G.^* Bacterial Communities Associated with An Occurrence of Colored Water in An Urban Drinking Water Distribution System. Biomedical and Environmental Sciences. 2014, 27(8): 646-650.

73. Liao X.B., Wang C.K., Wang J., Zhang X.J., Chen C.^*, Krasner S.W., Suffet I.H.M. Nitrosamine Precursor and DOM Control in a Wastewater-Impacted Drinking Water. Journal of American Water Works Association. 2014, 106, 7: 307-318.

74. Chen C.^*, Leavey S., Krasner S.W, Suffet I.H.M. Applying Polarity Rapid Assessment Method and Ultrafiltration to Characterize NDMA Precursors in Wastewater Effluents. Water Research. 2014. 57: 115-126.

75. Zhang X.J., Mi Z.L., Wang Y., Liu S.M. Niu Z.B., Lu P.P., Wang J., Gu J.N., Chen C.^* A Red Water Occurrence in Drinking Water Distribution Systems Caused by Changes in Water Source in Beijing, China: Mechanism Analysis and Control Measures. Frontier of Environmental Science and Engineering. 2014, 8, 3: 417-426. DOI 10.1007/s11783-013-0558-4

76. Lu P.P., Zhang X.J., Zhang C.Q., Niu Z.B., Xie S.G., Chen C.^* Biostability in distribution systems in one city in southern China: characteristics, modeling and control strategy. Journal of Environmental Sciences-China. 2014; 26(2):323–331.

77. Feng S., Chen C., Wang Q.F., Yang Z.Y., Zhang X.J., Xie S.G.^* Characterization of microbial communities in a granular activated carbon–sand dual media filter for drinking water treatment. Int. J. Environ. Sci. Technol. 2013,10,5: 917-922.

78. Feng S., Chen C., Wang Q.F., Yang Z.Y., Zhang X.J., Xie S.G.^* Microbial community in a full-scale drinking water biosand filter. Journal of Environmental Biology. 2013, 34, 321-324.

79. Wang C.K., Zhang X.J., Wang J., Liu S.M., Chen C.^*, Xie Y.F. Effects of organic fractions on the formation and control of N-nitrosamine precursors during conventional drinking water treatment processes. Science of the Total Environment. 2013, 449, 295-301

80. Wang C.K., Zhang X.J., Wang J., Chen C^*. Factors controlling N-nitrosodimethylamine (NDMA) formation from dissolved organic matter. Frontier of Environmental Science and Engineering, 2013. 7(2): 151-157.

81. Liao X.B., Chen C., Wang Z., Wan R., Chang C.H., Zhang X.J., Xie S.G. Pyrosequencing analysis of bacterial communities in drinking water biofilters receiving influents of different types. Process Biochemistry. 2013, 48: 703-707.

82. Lu P.P., Chen C., Wang Q.F., Wang Z., Zhang X.J., Xie S.G. Phylogenetic diversity of microbial communities in real drinking water distribution systems. Biotechnology and Bioprocess Engineering. 2013, 18: 119-124

83. Liao X.B., Chen C., Zhang X.J., Xie S.G. Changes of biomass and bacterial communities in biological activated carbon filters for drinking water treatment. Process Biochemistry. 2013, 48: 312-316.

84. Meng F.L., Liu S.M., Ostfeld A, Chen C., Burchard-Levine A. A deterministic approach for optimization of booster disinfection placement and operation for a water distribution system in Beijing. Journal of Hydroinfomatics. 2013, 15, 3: 1042-1058.

85. Wang C.K., Zhang X.J., Wang J., Chen C^*. Characterization of dissolved organic matter as N-nitrosamine precursors based on hydrophobicity, molecular weight and fluorescence. Journal of Environmental Sciences-China. 2013, 25(1). 85-95.

86. Liao X.B., X.J. Zhang, J. Wang, C.K. Wang, C. Chen^*. Combined conventional and O₃-BAC process: a feasible solution for organic matters and antibiotics pollutants in a lake of East China. Water Science and Technology: Water Supply. 2013. 13, 6: 1470-1477.

87. Wang C.K., Zhang X.J., Wang J., Chen C^*. Detecting N-nitrosamines in water treatment plants and distribution systems in China using ultra-performance liquid chromatography-tandem mass spectrometry. Frontier of Environmental Science and Engineering. 2012, 6(6): 770-777.

88. Hanigan D., Zhang J.W., Herckes P., Krasner S.W., Chen C., Westerhoff P. Adsorption of N-Nitrosodimethylamine Precursors by Powdered and Granular Activated Carbon. Environ. Sci. Technol. 2012, 46 (22), 12630–12639.

89. Liao X.B., Chen C., Chang C.H., Wang Z., Zhang X.J., Xie S.G. Heterogeneity of microbial community structures inside the up-flow biological activated carbon (BAC) filters for the treatment of drinking water. Biotechnol Bioprocess Eng. 2012, 17: 881–886.

90. Feng S., Zhang X.J., Wang Q.F., Wan R., Chen C., Xie S.G. Heterogeneity of ammonia-oxidizing community structures in a pilot-scale drinking water biofilter. International Biodeterioration & Biodegradation. 2012, 70: 148-152.

91. Chen Y.Q., Chen C.^*, Zhang X.J., Zheng Q., Liu Y.Y. Inactivation of persistent Mycobacteria mucogenicum in water: chlorine resistance and mechanism analysis. Biomed. Environ. Sci. 2012, 25(2): 230-237.

92. Du P.F., Chen J.N., Chen C., Liu Y., Liu J.G., Wang H.T., Zhang X.J. Environmental risk evaluation to minimize impacts within the area affected by the Wenchuan earthquake. Science of the Total Environment. 2012, 419: 16-24.

93. Feng S., Xie S.G., Zhang X.J., Yang Z.Y., Ding W., Liao X.B., Liu Y.Y., Chen C.^* Ammonium removal pathways and microbial community in GAC-sand dual media filter in drinking water treatment. Journal of Environmental Sciences-China. 2012, 24(8): 1-8.

94. Li Y.H., Wang J., Zhang W., Zhang X. J., Chen C.^* Effect of Powdered Activated Carbon on Immersed Hollow Fiber Ultrafiltration Membrane Fouling Caused by Particles and Natural Organic Matter. Desalination. 2011, 278, 1-3: 443-446

95. Li Y.H., Wang J., Zhang W., Zhang X. J., Chen C.^* Effects of coagulation on submerged ultrafiltration membrane fouling caused by particles and natural organic matter. Chinese Science Bulletin, 2011, 56, 6:584-590.

96. Zhang, X. J., Chen, C.^*, Lin, P.F., Hou A.X., Niu Z.B., Wang J. Emergency Drinking Water Treatment during Source Water Pollution Accidents in China: Origin Analysis, Framework and Technologies. Environ. Sci. Technol. 2011, 45, 1: 161-167.

97. Chen C. ^*, Zhang X.J., Zhu L.X., He W.J., Han H.D. Changes in different organic matter fractions during conventional treatment followed by advanced treatment. Journal of Environmental Sciences-China. 2011, 23, 4: 582-586.

98. Zhang W., Zhang X.J., Li Y.H., Wang J., Chen C.^*. Membrane flux dynamic in the submerged ultrafiltration hybrid treatment process when removing particles and natural organic matter. Journal of Environmental Sciences-China. 2011, 23, 12: 1970-1976.

99. Zhang X.J., Chen C. ^*, Ding J.Q., Hou A.X., Li Y., Niu Z.B., Su X.Y., Xu Y.J., Laws E. The 2007 water crisis in Wuxi, China: analysis of the origin. Journal of Hazardous Material. 2010, 182, 130-135. 高被引論文

100. Y. H. Li, W Zhang, X. J. Zhang, C. Chen^*, J. Wang. Characterization of fouling in immersed polyvinylidence fluoride hollow fibre membrane ultrafiltration by particles and natural organic matter. Desalination and Water Treatment. 2010 18: 309-314.

101. Li Y, Zhang X, Chen C. Reviews on Analytical Technologies of Sulfur Odorants in Water with Chromatography. Progress in Chemistry. 2009. 21(12):2718-2725.

102. Zhang X.J., Chen C.^*. Emergency drinking water treatment in source water pollution incident: Technology and practice in China. Frontier of Environmental Science and Engineering in China. 2009, 3(3):364-368.

103. Wang Y, Zhang, XJ, Feng S, Chen C. Study on inactivation of iron bacteria isolated from real drinking water distribution systems by free chlorine and chloramine. Annals of Microbiology, 2009, 59 (2): 353-358.

104. Chen C.^*, Zhang X.J., Zhu L., Liu J., He W., Han H. Disinfection by-products and their precursors in a water treatment plant in north China: seasonal changes and fraction analysis. Science of the Total Environment. 2008, 397: 140-147.

105. S. B. Xie, J. Yang, C. Chen, X. J. Zhang, Q. L. Wang, C. Zhang. Study on biosorption kinetics and thermodynamics of uranium by Citrobacter freudii. Journal of Environmental Radioactivity. 2008. 99, 1, 126-133 .

106. Zhang X. J., Chen C. ^*, and Wang Y. Synergetic inactivation of microorganisms by short-term free chlorination and subsequent monochloramination in drinking water disinfection. Biomed. Environ. Sci. 2007, 20:373-380.

107. Chen C. ^*, Zhang X.J., He W.J., and Han H.D. Comparison of seven kinds of drinking water treatment processes to enhance organic material removal: a pilot test. Science of the Total Environment. 2007, 382: 93-102.

108. Chen C. ^*, Zhang X. J., He W. J., and Han H. D. Simultaneous Control of Microorganisms, Disinfection By-products by Sequential Chlorination. Biomed. Environ. Sci. 2007, 20:119-125.

109. C. Chen^*, X. J. Zhang, Y. Wang, L. Zhu and J. Liu. Waste water disinfection during SARS epidemic: aiming for microbiological and toxicological control. Biomed. Environ. Sci., 2006, 19: 173-178.

^* Corresponding author

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7. 孫卉;胡鑫;趙東南;謝紅玉;張肖錦;陳超;林朋飛，我國突發環境事件現狀與關鍵影響因素研究，環境保護科學，2023，49，3：130-138

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9. 張傑; 邱文心; 陳超; 鮑潔.新冠疫情控制期間供水廠消毒效果影響因素及其控制範圍. 中國給水排水. 2021,37(24): 1-5.

10. 王钰芳; 貝爾; 邱玉; 汪隽; 齊飛; 陳超. UPLC-MS/MS測定水源水中17種氨基酸及其應用. 中國給水排水, 2020, 36(8): 106-112,118.

11. 張海亞; 劉迪波; 李舒陽; 趙律童; 張曉健; 汪隽; 陳超. 供水管道中球墨鑄鐵和304不鏽鋼的電偶腐蝕特性研究. 中國給水排水, 2019, 35(17): 37-42.

12. 張曉健;瞿強勇;陳超. 應對水源油類物質洩漏事故的自來水廠應急淨水技術研究. 給水排水. 2019, 45, 5: 11-16.

13. 瞿強勇; 王彤; 汪隽; 謝曙光; 陳超; 張曉健. 某小區自備井供水系統中異臭問題原因分析和應急處理. 給水排水. 2018, 44,9: 9-14.

14. 李曉; 貝爾; 汪隽; 徐志祥; 陳超. 食品和飲用水中的亞硝胺研究進展. 中國給水排水, 2018, 34(22): 13-18.

15. 陳超，劉揚，林朋飛，張曉健.新“水污染防治法”在保障供水安全方面的法制化建設成果. 中國給水排水.2017,33,20:11-19.

16. 張曉健; 林朋飛; 陳超. 江西新餘仙女湖镉铊砷突發環境事件應急供水. 中國給水排水. 2017, 33, 9:1-9. （中國給水排水優秀論文一等獎）

17. 廖曉斌; 趙雷; 陳超; 苑寶玲; 張曉健. 升/降流式生物活性炭濾池處理微污染湖泊水比較. 中國給水排水. 2017, 33,19:1-5.

18. 李曉敏; 汪隽; 陳超; 張曉健; 王洋. 淡化海水進入水泥砂漿内襯管後的水質化學穩定性. 中國給水排水.2017, 33,17:43-47.

19. 周圓; 陳超; 張曉健. 美國環境應急管理制度簡析. 中國環境管理. 2017,5:95-100.

20. 張曉健, 陳超,謝繼步, 胡堅, 陳義春,陳愛民, 戴盛,顧炜,朱永林,劉柳. 自來水廠原水的調蓄與水質控制. 中國給水排水, 2016, 32, 22：14-19（中國給水排水優秀論文特等獎）

21. 李雪冰，付浩，林朋飛，汪隽，瞿強勇，陳超，張曉健. 水中典型磺胺類抗生素的活性炭吸附性質探究. 給水排水. 2016，42，1: 36-41.

22. 潘正道,聶瑤,董理騰,陳超^*,張曉健.應對突發污染事故的城市供水應急處理工程的成本效益分析初步研究. 給水排水, 2015, 41, 10:14-21.

23. 舒圓媛,王成坤,汪隽,張曉健,陳超^*.含二甲胺結構化合物消毒生成NDMA的特性研究[J].給水排水,2015, 41, 5:118-122.

24. 李雪冰，付浩，林朋飛，馬豫魯，瞿強勇，汪隽，陳超^*，張曉健. pH值對活性炭吸附水中磺胺類抗生素的影響研究.中國給水排水, 2015, 31, 1:56-60.

25. 張曉健;廖曉斌;丁根寶;張智翔;董仁傑;謝曙光;汪隽;王成坤;陳超; 上向流O₃-BAC工藝處理微污染湖泊水研究. 給水排水. 2014, 40: 增刊, 1-6

26. 林朋飛;張曉健;陳超.硫化物沉澱法在水源突發鋅污染中的應用研究. 中國給水排水. 2014, 30, 11:48-51.

27. 米子龍; 邬慧婷; 張曉健; 陳超; 李越. 低pH低堿度水源水引起供水管網黃水的控制措施. 中國給水排水. 2014,30,18:23-27.

28. 米子龍,牛璋彬,張曉健,陳超.給水管網中鐵穩定性問題綜合控制技術研究. 給水排水, 2013,09:149-154.

29. 米子龍,張曉健,邬慧婷,陳超,汪隽.水源切換引發供水管網腐蝕産物釋放的控制對策[J].中國給水排水,2013,22:44-48

30. 米子龍,張曉健,王洋,陳超,顧軍農.磷酸鹽類緩蝕劑對給水管網鐵釋放的控制作用[J].中國給水排水,2013,23:52-55.

31. 鄭琦,陳超^*,張曉健,陸品品,劉源源,陳雨喬.給水管網中耐氯分枝杆菌的滅活特性及機制研究[J].環境科學,2013,02:576-582.

32. 陳超^*;張曉健;董紅;顧軍農;陳國光;董玉蓮;盧益新;周聖東;馮桂學;韓宏大;紀峰;陳宇敏;盛德洋;孫增峰. 自來水廠應急淨化處理技術及工藝體系研究與示範. 給水排水. 2013, 39, 07: 9-12.

33. 張曉健; 陳超; 林朋飛. 應對水源突發污染的城市供水應急處理技術研究與應用. 中國應急管理 . 2013, 10: 11-17.

34. 林朋飛;張曉健;陳超;張車瓊. 淨水廠高錳酸鉀預處理工藝控制技術研究. 給水排水. 2013, 39, 08: 20-24.

35. 張曉健 林朋飛 陳超等. 自來水廠應急除錳淨水技術研究. 給水排水. 2013, 39, 12:27-31.

36. 張曉健; 陳超; 米子龍; 王成坤. 飲用水應急除镉淨水技術與廣西龍江河突發環境事件應急處置. 給水排水. 2013, 39,01: 24-32.（《給水排水》雜志優秀論文特等獎）

37. 馮碩; 張曉健; 陳超; 楊至瑜; 汪隽. 飲用水處理曝氣炭砂濾池工藝研究. 給水排水.2012, 38, 11:41-45.

38. 馮碩，張曉健，陳超，楊至瑜. 炭砂濾池在飲用水處理中的研究現狀及前景. 中國給水排水 2012, 04:16-19.

39. 丁衛; 盛德洋; 張曉健; 陳超; 馮碩; 楊至瑜; 楊蕊竹; 張建國. 活性碳-石英砂雙層濾池去除氨氮和亞硝酸鹽氮的特性. 淨水技術, 2012,05:20-24.

40. 米子龍; 張曉健; 陳超; 陳沛君; 杜嘉丹. 淡化海水并網供水的管網鐵釋放控制技術研究. 中國給水排水. 2012,19:37-40. （《中國給水排水》雜志優秀論文特等獎）

餘略

三、國際學術會議

1. Chao Chen. The 50 years of research on disinfection by-products in water. 4^th International conference on Disinfection and Disinfection By-Products. Oct 21-24, 2024. Almeria, Spain. Plenary presentation. 4th IWA消毒與消毒副産物會議大會報告

2. Chao Chen. Research in advance, act quickly, and regulate wisely: aiming to satisfy the comprehensive disinfection demand during the COVID-19 pandemic. 3^rd IWA Disinfection and Disinfection By-Products conference. June 28-July 1, 2022. Milan, Italy. Plenary presentation. 3^rd IWA消毒與消毒副産物會議大會報告

3. Chao Chen. A Tale of Two DBPs in China: Carbonaceous DBPs vs. Nitrogenous DBPs. 2^nd IWA Disinfection and Disinfection By-Products conference. May 14-18, 2018. Beijing, China. Plenary presentation. 2^nd IWA消毒與消毒副産物會議大會報告

4. Chao Chen. Nitrosamine Precursor Characterization, Tracing and Control Some New Insights by the Polarity Rapid Assessment Method (PRAM). Gordon DBP conference. July 31 - August 4, 2017. Mount Holyoke College. South Hadley, MA. Plenary presentation. 高登消毒副産物會議大會報告

5. Chao Chen. Engineer’s Choice to Address the Nitrosamine Concern in Drinking Water Systems around China. Xiang Shan Science Conferences, 595th Session, Health Risk & Control of DBPs in China. May 25-26, 2017. Plenary presentation. 香山科學會議專題報告.

   
   

餘略

四、國内學術會議

1. 陳超、貝爾、邱玉、李曉、張曉健. 亞硝胺的環境來源和健康影響概述. 2020年第七屆消毒與消毒副産物研讨會. 西安. 2020.12.4-6. 大會報告

2. 陳超. 亞硝胺類消毒副産物前體物的生物代謝來源. 2019年第六屆消毒與消毒副産物研讨會. 廈門. 2019.10.25-26. 大會報告

3. 城市供水系統中的亞硝胺控制技術研究. 大會報告. 上海東方科技論壇，第302期，飲水安全與健康. 2017.11.3. 大會報告

4. 陳超、張曉健. 亞硝胺前體物的來源解析和去除機理. 2015年第二屆全國消毒與消毒副産物研讨會. 北京, beat365. 2015.7.20 大會報告

餘略

五、特邀講座

1. Engineer’s Choice to Address the Concern of Disinfection By-Products in Drinking Water Systems around China. Invited by Prof. Manuela Antonelli & Dr Andrea Turolla. Dipartimento Di Ingegneria Civile E Ambientale, POLITECNICO, Milano, ITALY. 2019.5.10

2. Precursors of Disinfection By-products: Earth’s Enigma & Human’s Secret. Invited by Prof. Susan Richardson, University of South Carolina. 2014.8.9

3. Precursors of Disinfection By-products: Earth’s Enigma & Human’s Secret. Invited by Prof. Tanju Karanfil, Clemson University. 2014.8.6

4. Study on characterization and treatment of nitrosamine precursors. Invited by Prof. Ching-hua Huang, Georgia Institute of Technology. 2014.8.3

5. Emergency Response for Drinking Water Treatment after the Chemical Spills in China: Technologies and Case Studies. Invited by Carollo Corp, Pheonix. USA. 2013.2.1

6. N-nitrosamines concern in the source water of one Lake in Yangtze Delta, China: precursor and treatability. Invited by Carollo Corp, Pheonix. USA. 2013.2.1

7. Development of a Promising Tool for Nitrosamine Precursor Characterization. Invited by Prof. Westerhoff. Arizona State University. 2013. 1. 25.

8. Inactivation of Mycobacteria Mucogenicum in Drinking Water Networks: Chlorine Resistance and Mechanism Analysis. Invited by Prof. Haas. Drexel University. USA. 2012.8.15

9. N-nitrosamines concern in the source water of one Lake in Yangtze Delta, China: precursor and treatability. Invited by Prof. Mitch. Yale University. USA. 2012.8.13

10. Removal of Volatile Organic Sulfur Chemicals in Water by Oxidants: Kinetics, Choice and Case Study. Invited by Prof. Sedlak. UC Berkeley. USA. 2012.7.27

11. N-nitrosamines concern in the source water of one Lake in Yangtze Delta, China: precursor and treatability. Invited by Prof. Sedlak. UC Berkeley. USA. 2012.7.27

12. Emergency Response for Drinking Water Treatment after the Chemical Spills in China: Technologies and Case Studies. Invited by Environmental Science and Engineering Program. UCLA. USA. 2012.4.10

13. Drinking water research in China: Demand and “Water Special Projects”. Invited by Office of Research & Development. US EPA. Washington D.C. USA. 2010.2.24

14. The Bio-Stability Problem in Networks and Development of Sequential Chlorination. Invited by National Lab of Risk Management and Research. US EPA. Cincinnati. USA. 2010.2.22

15. Red Water Phenomenon in Drinking Water Distribution Systems Caused by Changes in Water Source: Mechanism Analysis and Control Measures. Invited by National Lab of Risk Management and Research. US EPA. Cincinnati. USA. 2010.2.22

一、參編專著和報告

1. Chao Chen, Susan Andrews, Yuefeng Xie Ed. Disinfection By-Products in Water. Springer Press. 2024. ISBN 978-3-031-74259-0 (in English)

2. Yu Wang, Susan Andrews, Chao Chen. Chapter 8 Nitrosamines. In Chao Chen, Susan Andrews, Yuefeng Xie Ed. Disinfection By-Products in Drinking Water. Springer Press. 2024. ISBN 978-3-031-74259-0 (in English)

3. 馬軍、孫志強、王碩、楊欣、劉迪波、陳超. 第15章 飲用水處理技術進展. 見 江桂斌、鄭明輝、王焰新、史健波主編. 環境化學前沿（第四輯）. 2023.12 北京：科學出版社.

4. 陳超、張曉健、林朋飛、張肖錦. 第9章 我國城鎮供水行業應急能力建設的進展與展望. 見 中國城鎮供水排水協會主編. 中國城鎮水務行業年度發展報告（2022）. 2023.3 北京：中國建築工業出版社.

5. 陳超、魏東斌、徐斌、于鑫、陳白楊、楚文海、楊欣、金敏、葉志偉.第 4 章 疫情期間的消毒與消毒副産物問題. 見 江桂斌、鄭明輝、馮玉傑、王亞韡主編. 環境化學前沿（第三輯）. 2021.12 北京：科學出版社.

6. 陳超、謝曙光. 第七章 飲用水消毒副産物的控制. 見 魯文清主編 飲用水消毒副産物與健康. 2020.9，武漢：湖北科學技術出版社.

7. 魏東斌、孫雪鳳、陳妙、邱玉、貝爾、陳超、杜宇國. 第13章 飲用水消毒及消毒副産物研究進展. 見江桂斌、鄭明輝、孫紅文、蔡勇主編. 環境化學前沿（第二輯）. 2019.8 北京：科學出版社.

8. Chao Chen, Wenhai Chu, Andrea Turolla, Emmanuel Mousset, Ludwig Dinkloh, Haim Chikurel, J. Paul Chen, Xin Yu, Bin Xu, Xin Yang. Chapter 2.5 Disinfection. In IWA Global Trends & Challenges in Water Science, Research and Management, 3rd Edition, 2022.9.

9. Chao Chen, Arash Zamyadi, Tsair-Fuh Lin and Daniel Gallagher. Chapter 6. Removal of odourants from drinking water. In Tsair-Fuh Lin, Susan Watson, Andrea M. Dietrich, I.H. (Mel) Suffet ed. Taste and Odour in Source and Drinking Water: Causes, Controls, and Consequences. IWA publishing. London, UK. 2019 (in English)

10. 張曉健、陳超、董紅、姚左鋼、郭文娟. 第九章 應急處理技術. 見 郄燕秋、張金松主編. 淨水廠改擴建設計. 2017. 北京：中國建築工業出版社.

11. 張悅、張曉健、陳超、董紅，城市供水系統應急淨水技術指導手冊（第二版），2017，北京：中國建築工業出版社.

12. 陳超、張曉健. 第十一章 受污染水源水處理技術和工藝. 見 魯文清等編著. 水污染與健康. 2015.12，武漢：湖北科技出版社.

13. Chao Chen, David Hanigan, Xiaobin Liao, Jun Wang, Xiaojian Zhang, I. H. (Mel) Suffet, Stuart W. Krasner, Paul Westerhoff. pH Effect on Nitrosamine Precursors Removal by Activated Carbon Adsorption. In Tanju Kranfil, Paul Westerhoff, William Mitch and Yuefeng Xie, eds. Recent advances in Disinfection By-products. Chapter 10, pp 173-185. DOI: 10.1021/bk-2015-1190.ch010. Publication Date (Web): August 24, 2015. American Chemical Society.

14. 張曉健、陳超. 第二章 汶川地震災區水環境與飲用水安全保障. 見 陳吉甯主著. 汶川特大地震災後環境安全評價方法與實踐. 2012，北京：中國環境科學出版社.

15. 張曉健、林朋飛、陳超. 砷污染應急處置技術. 2010，北京：中國環境科學出版社

16. 張曉健、張悅、陳超、王歡、張素霞，城市供水系統應急淨水技術指導手冊，2009，北京：中國建築工業出版社.

17. 張曉健、陳超. 第九章 消毒. 見 何文傑、李偉光、張曉健、黃廷林、韓宏大編著，安全飲用水保障技術，2006，北京：中國建築工業出版社.

二、發明專利

1. 短時遊離氯後轉氯胺的順序水處理消毒方法，發明專利 2004100427906，排名第2

2. 一種清水池内加氨并混合的實施系統，發明專利 2005100866096， 排名第2

3. 應對水中超标金屬污染物的堿性化學沉澱飲用水處理方法，發明專利 2008100560046，排名第3

4. 一種适用于微污染水源生物預處理的跌水曝氣生物濾池，發明專利 2010102754679，排名第3

5. 飲用水突發揮發性鹵代烷烴類有機物污染時的曝氣吹脫法，發明專利 2010105233550，排名第2

6. 移動集裝箱式一體化粉質溶解投加裝置，發明專利2011101552104，排名第4

7. 一種移動式應急處理導試水廠，發明專利2011102978000，排名第4

8. 一種用于研究給水管網内壁管垢鐵穩定性的方法，發明專利2011102583805，排名第3

9. 反沖洗後增加微沖洗的快濾池初濾水濁度控制方法，發明專利 2011100834705，排名第3

10. 提高氨氮去除能力的飲用水處理曝氣炭砂濾池，發明專利201110349174.5，排名第3

11. 一種去除飲用水源水中铊污染的方法，發明專利2011102312273，排名第3

12. 一種使用不同極性固相萃取小柱解析亞硝胺前體物的方法，發明專利201410010059.9，排名第1

13. 一種調節pH強化離子交換去除水中亞硝胺前體物的方法，發明專利201410433304.7，排名第1

14. 一種移動式模塊化應急檢測工作方艙 發明專利，201510263824.2，排名第1

15. 一種基于離子交換技術富集水中亞硝胺前體物的方法，發明專利201610309222.0，排名第1

16. 研究鐵質管道電化學腐蝕和管網水質變化的實驗模拟平台，發明專利201711133280.3，排名第1

17. 一種用于突發性水污染裝置，發明專利201920481519.4，排名第1

18. 一種用于突發性水污染事故的異位應急處理反應系統，發明專利201721793527.x，排名第1

19. 一種研究水處理管道管垢發育與破裂的電化學模拟測試平台，發明專利201910014565.8，排名第1

20. 一種用于水處理行業的快速高效吸附材料、制備方法及其應用，發明專利201910029452.5，排名第1

21. 一種針對水中有機物的快速高效自動化分類解析設備，發明專利 202021356956.2，排名第1

1. 2019至今 生态環境部第一屆應急專家組成員

2. 2020至今 全國檢察機關環境公益訴訟技術專家

3. 2019至今 四川省環境應急專家組成員

4. 2020至今 新疆維吾爾自治區環境應急專家組成員

5. 2015.8--今 國際水協（International Water Association） 戰略委員會委員

6. 2011.8--今 國際水協（International Water Association） 水環境嗅味專業委員會委員

7. 2005.10--今 國際水協（International Water Association） 消毒委員會委員、秘書長、主席

8. 2004.12--今 國際水協（International Water Association） 會員

9. 2006.8-2008.7 國際水協（International Water Association） 青年委員會委員

10. 2008.8-2010.7 國際水協（International Water Association） 青年委員會顧問

11. 2012.6--2016 國際水協中國區水處理青年委員會（China YWP） 常務委員

12. 2010.9--今 美國化學學會（American Chemistry Society） 會員

13. 2005.10--今 美國水工業學會（American Water Works Association）會員

14. 2013.8--今 中國飲用水深度處理研究會 理事

15. 2014.6--今 中國環境科學學會高級會員、環境應急專委會常委

16. 2019.6-今 中國環境誘變劑學會暴露組學與暴露科學專委會青年委員會副主任委員

17. 2021.4-今 中國海洋學會海水資源利用專業委員會 常務委員

18. 2006.4--今 中國微生物學會（Chinese Society for Microbiology） 會員

19. 2011-2013 Frontier of Environmental Science and Engineering Responsible editor

20. 2019-今 《化學進展》期刊 青年編委

21. 2019-今 《環境化學》期刊 青年編委

22. 2020-今 《中國給水排水》期刊 青年編委

23. 2020-今 《淨水技術》期刊 青年編委

24. 2020-今 《市政技術》期刊 青年編委

1. 2024年，水源水中新污染物的應急處理技術、預測模型和關鍵裝備. 中國城鎮供水排水協會科技獎一等獎 （第1位）

2. 2022年，中國産學研合作創新獎

3. 2021年，水源地突發污染事件應急處理集成系統，日内瓦國際發明展銀獎（第1位）

4. 2020年，Elsevier中國高被引學者（土木工程）

5. 2019年，首屆水業傑出青年

6. 2018年，水中典型污染物健康風險識别關鍵技術及應用，國家科技進步二等獎（第6位）

7. 2015年，汶川特大地震災後環境安全評估及應對措施，環境保護科學技術獎一等獎（第10位）

8. 2015年，城市供水系統突發污染監測預警及應急處理技術研究與應用，山東省科技進步二等獎（第4位）

9. 2014年，應對突發水源污染的自來水廠應急淨化技術、關鍵設備及工程設計，華夏建設科技三等獎（第2位）

10. 2010年，中國環境科學學會青年科技獎

11. 2010年，飲用水水質保障污染物應急處理技術導則，北京市水務科技二等獎（第3位）

12. 2009年，應對水源突發性污染的城市供水應急處理技術研究，華夏建設科技二等獎（第3位）

13. 2009年，beat365優秀博士後（全校僅10名）

14. 2008年，全國五一勞動獎狀（集體獎成員）

15. 2008年，首都勞動獎狀（集體獎成員）

16. 2007年，beat365先進集體（集體獎成員，第3位）

17. 2002年，山東省科技進步一等獎（第6位）