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周 健(博士生导师)


姓名:

周健

9F709

出生年月

1964年10月

技术职务

教授、博导

行政职务

电子邮箱

zhoujiantt@126.com

通讯地址

重庆沙坪坝太阳成集团B区suncitygroup太阳新城客户端

1.主要研究方向:

城镇污水处理 工业废水处理 污水厂污泥处理及处置 河流水质保持及改善

2.社会兼职、国内外学术团体任职情况:

国际水协(IWA)会员

《Water Research》、《Bioresource technology》、《Biochemical Engineering Journal》、《Science of the Total Environment》等期刊审稿人

3.教育及进修经历

1981年~1985年 太阳成集团 给排水工程专业 工学学士学位

1992年~1995年 太阳成集团 环境工程专业 工学硕士学位

1998年~2004年 太阳成集团 市政工程专业 工学博士学位

4.主持或主研的科学研究项目

(1)主持国家自然基金面上项目“高盐废水生物诱导结晶及磷迁移转化作用机制研究”(52370066-2024);

(2)主持国家水体污染控制与治理科技重大专项“小城镇水污染控制技术集成与评估”课题(2017ZX07401001-002);

(3)主持国家水体污染控制与治理科技重大专项“重庆主城重污染河流水污染控制与水质改善技术研究与示范”课题(2012ZX07307-002);

(4)主持国家水体污染控制与治理科技重大专项“三峡库区山地小城镇水污染控制关键技术研究与示范”课题(2009ZX07315-005);

(5)主持国家水体污染控制与治理科技重大专项,“食品工业园区超高盐超高氮磷有机废水处理关键技术研究”课题(2008ZX07315-004);

(6)主持重庆市技术创新与应用发展专项重点项目“城镇污水厂污泥厌氧消化液处理技术研究”(cstc 2019jscx-tjsbx0002-02)

(7)主持重庆市技术创新与应用示范项目社会民生类重点研发项目“餐厨垃圾发酵废水高效低成本处理技术研究及示范”(cstc2018jscx-mszdX0070)

(8)主持重点产业共性关键技术创新专项“基于水质提升的高技术成套装备与新型填料开发”(cstc2017zdcy-zdyfx0081)

(9)主持重庆市社会民生科技创新专项项目:“基于嗜热菌-甲烷氧化菌的制浆废水生物处理技术研究”课题(cstc2015shmszx20008)

(10)主持重庆市社会事业与民生保障科技创新专项“污水厂尾水深度处理技术与装备研究”课题(cstc2015shms-ztzx20003)

(11)主持国家科技支撑计划子课题“地表水水源热泵系统尾水污染综合评价方法及防治技术研究”(2007BAB21B03-1);

(12)主持国家十五攻关项目—水环境安全关键技术研究与示范课题“三峡库区城镇污水高效低成本处理集成工艺与设备研究”;

(13)主持国家十五攻关项目—小城镇环境保护关键技术研究及设备开发,子课题“一体化多级生物膜设备处理小城镇污水研究;

(14)主持国家建设部国际合作荷兰政府赠款项目,子课题“城镇污水下水道处理技术及其组合系统试验和优化集成研究”及子课题西部小城镇污水处理技术政策研究;

(15)主持重庆市科委攻关项目:高盐高浓度有机榨菜废水处理技术研究;

(16)主持重庆市科委重点项目—子课题“适用于重庆小城镇的废水处理关键技术与示范研究“及”高氮高磷高有机浓度丝绸废水处理技术研究”;

(17)主持重庆市科委重大项目“典型城市河流修复对策及治理技术研究与工程示范”子课题“城市污染水体物化-生物强化修复关键技术研究与示范”;

(18)主持横向课题“高有机浓度难降解制药废水处理技术研究”;

(19)主研国家自然基金重点项目—人类聚居区的水环境保护与水资源综合利用,子课题“AB法A段机理研究”。

5. 主要学术论文与代表作:

论文:

1. Iron-electrolysis assisted anammox/denitrification system for intensified nitrate removal and phosphorus recovery in low-strength wastewater treatment[J].Water Research, 2024, 253:121312

2. Overlooked pathways of endogenous simultaneous nitrification and denitrification in anaerobic/aerobic/anoxic sequencing batch reactors with organic supplementation[J]. Water Research, 2023, 230:119493

3. Metagenomic analysis reveals enhanced nutrients removal from low C/N municipal wastewater in a pilot-scale modified AAO system coupling electrolysis[J]. Water Research 173 (2020) 115530

4. Efficient nitrogen removal in a modified sequencing batch biofilm reactor treating hypersaline mustard tuber wastewater: The potential multiple pathways and key microorganisms[J].Water Research 177 (2020) 115734

5. Sulfur and iron cycles promoted nitrogen and phosphorus removal in electrochemically assisted vertical flow constructed wetland treating wastewater treatment plant effluent with high S/N ratio[J]. Water Research,2019,151/20-30

6. Efficient simultaneous partial nitrification, anammox and denitrification (SNAD) system equipped with a real-time dissolved oxygen (DO) intelligent control system and microbial community shifts of different substrate concentrations [J]. Water Research,2017,119:201-211.

7. A novel Electrolysis integrated anammox system for intensified nitrogen removal and simultaneous phosphorus recovery as vivianite [J]. Chemical Engineering Journal 466 (2023) 143299

8. Achieving intensified nitrogen removal and vivianite recovery from sludge digester liquor in two-stage partial nitrification-electrolysis anammox system [J].Chemical Engineering Journal 474 (2023) 145841

9. Cost-effective domestic wastewater treatment and bioenergy recovery in an immobilized microalgal-based photoautotrophic microbial fuel cell (PMFC) [J].Chemical Engineering Journal 372 (2019) 956–965

10. The coupling system of magnetite-enhanced thermophilic hydrolysis-acidification and denitrification for refractory organics removal from anaerobic digestate food waste effluent (ADFE) [J]. Bioresource Technology 371 (2023) 128601

11. Accelerating denitrification and mitigating nitrite accumulation by multiple electron transfer pathways between Shewanella oneidensis MR-1 and denitrifying microbial community [J]. Bioresource Technology 368 (2023) 128336

12. High-temperature biofilm system based on heterotrophic nitrification and aerobic denitrification treating high-strength ammonia wastewater:Nitrogen removal performances and temperature-regulated metabolic pathways[J]. Bioresource Technology 344 (2022) 126184

13. Simultaneous nitrogen and phosphorus removal from simulated digested piggery wastewater in a single-stage biofilm process coupling anammox and intracellular carbon metabolism [J]. Bioresource Technology 333 (2021) 125152

14. Enhanced thermophilic denitrification performance and potential microbial mechanism in denitrifying granular sludge system [J]. Bioresource Technology 344 (2021) 120196

15. Facilitating harmful algae removal in fresh water via joint effects of multi-species algicidal bacteria [J]. Journal of Hazardous Materials 403 (2021) 123662

16. The performance and microbial response of zero valent iron alleviating the thermal-alkaline stress and enhancing hydrolysis-acidification of primary sludge [J]. Journal of Environmental Management 347 (2023) 119134

17. The variation on nitrogen removal mechanisms and the succession of ammonia oxidizing archaea and ammonia oxidizing bacteria with temperature in biofilm reactors treating saline wastewater [J]. Bioresource Technology 314 (2020) 123760

18. The variation on nitrogen removal mechanisms and the succession of ammonia oxidizing archaea and ammonia oxidizing bacteria with temperature in biofilm reactors treating saline wastewater [J]. Bioresource Technology 314 (2020) 123760

19. Electron storage and resupply modes during sulfur cycle enhanced nitrogen removal stability in electrochemically assisted constructed wetlands under low temperature [J].Bioresource Technology 300 (2020) 122704

20. Effect of COD/TN ratio on nitrogen removal efficiency, microbial community for high saline wastewater treatment based on heterotronitrification-aerobic denitrification process [J].Bioresource Technology 301 (2020) 122726

21. Simultaneous partial nitrification, anammox and denitrification (SNAD) process for nitrogen and refractory organic compounds removal from mature landfill leachate: Performance and metagenome-based microbial ecology [J]. Bioresource Technology 294 (2019) 122166

22. The alleviative effect of exogenous phytohormones on the growth,physiology and gene expression of Tetraselmis cordiformis under high ammonia-nitrogen stress [J]. Bioresource Technology 282 (2019) 339–347

23. Establishment and efficiency analysis of a single-stage denitrifying phosphorus removal system treating secondary effluent [J]. Bioresource Technology 288 (2019) 121520

24. Enhanced hydrolysis-acidification of high-solids and low-organic-content sludge by biological thermal-alkaline synergism [J]. Bioresource Technology 294 (2019) 122234

25. Coupling of thermophilic biofilm-based systems and ozonation for enhancedorganicsremoval from high-temperaturepulping wastewater Performance, microbial communities, and pollutant transformations [J]. Science of the Total Environment 714 (2020) 136802

26. Toxic effects of terpinolene onMicrocystis aeruginosa: Physiological, metabolism, gene transcription, and growth effects [J]. Science of the Total Environment, 2020, 719, 137376

27. Facilitating effects of plant hormones on biomass production and nutrients removal by Tetraselmis cordiformis for advanced sewage treatment and its mechanism[J]. Science of the Total Environment 693 (2019) 133650

28. Influence of eugenol on algal growth, cell physiology of cyanobacteriaMicrocystis aeruginosa and its interaction with signaling molecules [J]. Chemosphere 255 (2020) 126935

29. The potential multiple mechanisms and microbial communities in simultaneous nitrification and denitrification process treating high carbon and nitrogen concentration saline wastewater [J]. Bioresource Technology 243 (2017) 708–715

30. A novel methanotrophic co-metabolic system with high soluble methane monooxygenase activity to biodegrade refractory organics in pulping wastewater [J]. Bioresource Technology 256 (2018) 358–365

31. Intensified nitrogen and phosphorus removal by embedding electrolysis in an anaerobic–anoxic–oxic reactor treating low carbon/nitrogen wastewater [J]. Bioresource Technology, 2018,256:562–565.

32. Robustness and microbial consortia succession of simultaneous partial nitrification, ANAMMOX and denitrification (SNAD) process for mature landfill leachate treatment under low temperature [J]. Biochemical Engineering Journal 132 (2018) 112–121

33. The potential multiple mechanisms and microbial communities in simultaneous nitrification and denitrification process treating high carbon and nitrogen concentration saline wastewater [J]. Bioresource Technology, 2017, 243: 708-715

34. Bacterial community structure in simultaneous nitrification, denitrification and organic matter removal process treating saline mustard tuber wastewater as revealed by 16S rRNA sequencing r[J]. Bioresource Technology, 2017, 228: 0960-8524

35. In situ excess sludge reduction in SBBR through uncoupling of metabolism induced by novel aeration modes[J]. RSC Advances, 2017, 7 2046-2069

36. Start-up and microbial communities of a simultaneous nitrogen removal system for high salinity and high nitrogen organic wastewater via heterotrophic nitrification[J]. Bioresource Technology, 2016, 216:0960-8524.

37. Cometabolic degradation of lincomycin in a Sequencing Batch Biofilm Reactor (SBBR) and its microbial community[J]. Bioresource Technology, 2016, 214: 0960-8524

38. A novel process combining simultaneous partial nitrification, anammox and denitrification (SNAD) with denitrifying phosphorus removal (DPR) to treat sewage[J]. Bioresource Technology, 2016, 222:0960-8524

39. Effects of dissolved oxygen on microbial community of single-stage autotrophic nitrogen removal system treating simulating mature landfill leachate [J]. Bioresource Technology, 2016, 218: 962-968

40. Start-up and bacterial communities of single-stage nitrogen removal using anammox and partial nitritation (SNAP) for treatment of high strength ammonia wastewater [J]. Bioresource Technology, 2014, 169: 652-657.


专利:

1. 发明专利:一种生活污水序批式生物膜-电解处理与回用设备及方法(ZL202010963938.9))

2. 发明专利:一种具有水质净化功能的调节预处理池(ZL202010964289.4))

3. 发明专利:一种铁路堆货场地表径流收集、净化、贮存、回用系统(ZL202010903464.9)

4. 发明专利:一种缺氧生物滤池反硝化同步除磷脱氮深度处理系统的构建方法(ZL201410477710.3)

5. 发明专利:一种低浓度氨氮污水自养脱氮系统的构建(ZL201410520044.7)

6. 发明专利:一种城镇污水高标准除磷脱氮方法(ZL201610175142.0)

7. 发明专利:一种用于污水处理的填料及其制备方法(ZL201110257488.2)

8. 发明专利:一种跌水曝气式污水输送处理渠道(ZL20122058413.6)

9. 发明专利:江水源热泵系统尾水排放结构(ZL201010527138.9)

10. 发明专利:一体化生物生态协同污水处理方法及反应器(ZL200910104616.2)

11. 发明专利:一种间歇流/连续流交替运行的污水处理反应器(ZL200910104618.1)

12. 发明专利:压力管式污水处理反应器(ZL201010527136.x)

13. 发明专利:复合生态型微电解移动式水体原位修复装置(ZL200810069407.4)

14.发明专利:用于污水处理的生物膜反应设备(ZL200820100500.2)

15.发明专利:一种处理高浓度有机废水的序批式组合生物膜一体化设备(ZL200510057100.9)

16.发明专利:周边布水折流复合式水解酸化反应器(ZL200610095266.4)

17.发明专利:组合式多级生物膜法污水处理设备(ZL 200520010630.3)

7. 主要获奖情况

(1)三峡水库城镇水污染控制关键技术研究与应用, 华夏建设科学技术奖特等奖,国家一等奖,第6

(2)山地河湖水环境综合整治关键技术研究与应用, 重庆市人民政府,科技进步省部一等奖,第3

(3)高盐高氮磷高浓度榨菜废水治理关键技术与应用,重庆市科学技术奖科技进步二等奖,第4;

(4)小城镇污水处理经济适用技术体系研究与应用,重庆市科学技术奖科技进步二等奖,第7;

(5)典型城市河流修复对策及治理技术研究与工程示范,重庆市科学技术奖科技进步三等奖,第4;

(6)小城镇环境保护关键技术研究及设备开发,教育部高等学校科学技术奖科技进步二等奖,第13。

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