陈卓-pg麻将胡了模拟器链接

 陈卓-pg麻将胡了模拟器链接

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pg麻将胡了模拟器链接-pg电子赏金女王模拟器试玩

师资队伍

陈卓

邮箱:zhuochen@mail.tsinghua.edu.cn

电话:010-62797265

地点:清华大学中意清华环境节能楼524

教育背景

2010–2014     澳大利亚悉尼科技大学   环境工程专业    博士

2009–2010     澳大利亚新南威尔士大学   环境工程专业   硕士

2005–2009     成都理工大学    环境工程专业   学士


工作履历

2018–              清华大学    环境学院    助理研究员

2014–2018      清华大学    博士后


学术兼职

1. 国际标准化组织水回用技术委员会(iso/tc282 water reuse)城镇水回用分技术委员会分散式水回用系统(sc2/wg4)工作组召集人、iso/tc282/sc2专家

2.《water reuse》国际期刊(影响因子:3.154)编辑

3. 国际水协会(iwa)中国青年委员会委员

4. 中国环境科学学会水处理与回用专业委员会工作助理

5. 美国水回用协会国际咨询组委员

6. 日本水环境协会国际委员


研究领域

再生水安全消毒控制技术

再生水生物风险评价与管理方法

再生水循环利用安全保障体系(循环利用模式、系统可靠性评价与优化、水安全保障技术规范和管理体系)等


研究项目

1. 再生水消毒效果替代指标及其协同反馈控制机制研究(51908317), 2020-2022, 国家自然科学基金青年基金, 负责人

2. 支撑重点领域水资源消耗总量和强度双控的关键技术标准研究子课题“水回用评价和管理技术标准研究”(2017yff0206702), 2017-2021, 国家重点研发计划,子课题负责人

3. 城镇分散式水回用系统设计(20211550208), 2021-2022, 北京市政府部门项目, 负责人

4. 三维荧光光谱法判别再生水集中式回用系统管道错接风险(2015m570114), 2015-2018, 中国博士后科学基金(一等), 负责人

5. 环境介质中的病毒识别与传播规律(52091541), 2021-2025, 国家自然科学基金重大项目, 研究骨干

6. 再生水的生物风险产生机制与控制原理(51738005), 2018-2022, 国家自然科学基金重点项目, 研究骨干

7. 再生水景观环境利用水质基准与风险控制技术子课题“再生水景观环境利用安全保障技术集成工程实证研究”(2018yfc0406306), 2018-2021, 国家重点研发计划,研究骨干

8. 光照对再生水氯消毒副产物及其细胞毒性的控制机制与强化原理(51678332), 2017-2020, 国家自然科学基金面上项目, 参与

9. 京津冀水资源安全保障技术研发集成与示范应用子课题“京津冀非常规水安全利用技术研发示范”(2016yfc0401405), 2016-2020, 国家重点研发计划,参与


奖励与荣誉

2021年, 国际标准化组织卓越贡献奖(iso excellence award), 排名第1

2020年, 污废水强化增效处理与工业循环利用关键技术及应用, 中国循环经济协会科学技术奖, 一等, 排名第4

2019年, 城镇再生水生态耦联循环利用技术及应用, 华夏建设科学技术奖, 一等, 排名第10

2018年, jswe-idea water environment international exchange award, japan society on water environment, 排名第1

2016年, 深圳市海外高层次人才“孔雀计划”c类, 排名第1


学术成果

期刊文章

1. shi q, chen z*, wei f q, mao y, xu q, li k x, lu y, hu h y. 2022. identification of surrogates for rapid monitoring of microbial inactivation by ozone for water reuse: a pilot-scale study. journal of hazardous materials 424, 127567.

2. chen z, wang d, dao g h et al. 2021. environmental impact of the effluents discharging from full-scale wastewater treatment plants evaluated by a hybrid fuzzy approach. science of the total environment 790, 148212.

3. wu y h, chen z*, li x, et al. 2021. effect of ultraviolet disinfection on the fouling of reverse osmosis membranes for municipal wastewater reclamation. water research 195, 116995.

4. liao z t, chen z*, wu y h, hu h y*, et al. 2021. identification of development potentials and routes of wastewater treatment and reuse for asian countries by key influential factors and prediction models. resources, conservation & recycling 168, 105259.

5. cao k f, chen z*, shi q, et al. 2021. an insight to sequential ozone‑chlorine process for synergistic disinfection on reclaimed water: experimental and modelling studies. science of the total environment 793, 148563.

6. shi q, chen z*, liu h, lu y, hu h y*, et al. 2021. efficient synergistic disinfection by ozone, ultraviolet irradiation and chlorine in secondary effluents. science of the total environment, 758, 143641.

7. liao z t, chen z*, hu h y, et al. 2021. wastewater treatment and reuse situations and influential factors in major asian countries. journal of environmental management, 282, 111976.

8. shi x j, chen z*, lu y, et al. 2021. significant increase of assimilable organic carbon (aoc) levels in mbr effluents followed by coagulation, ozonation and combined treatments: implications for biostability control of reclaimed water. frontiers of environmental science & engineering 15(4), 68.

9. mao y, chen x w, chen z*, et al. 2021. characterization of bacterial fluorescence: insight into rapid detection of bacteria. water reuse 11(4), 621-631.

10. pan s h, chen x w, cao c y, chen z*, et al. 2021. fluorescence analysis of centralized water supply systems: indications for rapid cross-connection detection and water quality safety guarantee. chemosphere 277, 130290.

11. zhang t, xu q, shi y l, chen z* et al. 2021. study on the influence of operational and management processes of a water reclamation plant since covid-19 situation. environmental pollution 285, 117257.

12. chen z, wu g x, wu q y, shi q, ngo h h, saucedo oav, hu h y. 2020. water eco-nexus cycle system (watereconet) as a key solution for water shortage and water environment problems in urban areas. water cycle, 1, 71-77.

13. cui q, liu h, yang h w, lu y, chen z*, hu h y*. 2020. bacterial removal performance and community changes during advanced treatment process: a case study at a full-scale water reclamation plant. science of the total environment, 705, 135811.

14. zhang t, tao y z, yang h w, chen z*, wang x m*. 2020. study on the removal of aesthetic indicators by ozone during advanced treatment of water reuse. journal of water process engineering, 36, 101381.

15. chen z, wang d, sun m x, et al. 2018. sustainability evaluation and implication of a large scale membrane bioreactor plant. bioresource technology 269, 246-254.

16. chen z, yu t, ngo, h h, lu y, li g q, wu q y, li k x, bai y, liu s m, hu h y. 2018. assimilable organic carbon (aoc) variation in reclaimed water: insight on biological stability evaluation and control for sustainable water reuse. bioresource technology, 254, 290-299.

17. chen z, wu q y, wu g x, hu h y. centralized water reuse system with multiple applications in urban areas: lessons from china's experience. resources, conservation & recycling, 2017, 117, 125-136.

18. sun y, chen z, wu g x, wu q y, zhang f, niu z, hu h y. characteristics of water quality of municipal wastewater treatment plants in china: implications for resources utilization and management. journal of cleaner production, 2016, 131, 1-9. (共同一作)

19. chen z, ngo h h, guo w s, lim r, wang x c, o’halloran k. a comprehensive framework for the assessment of new end uses in recycled water schemes. science of the total environment, 2014, 470-471, 44-52.

20. chen z, ngo h h, guo w s, pham t t n, lim r, wang x c. a new optional recycled water pre-treatment system prior to use in the household laundry. science of the total environment, 2014, 476, 513-521.

21. chen z, ngo h h, guo w s, listowski a, o’ halloran k, thompson m. a critical review on the end uses of recycled water. critical reviews in environmental science and technology, 2013, 43, 1446-1516.

22. chen z, ngo h h, guo w s. risk control in recycled water schemes. critical reviews in environmental science and technology, 2013, 43(22), 2439-2510.

23. chen z, ngo h h, guo w s, wang x c. analysis of sydney’s recycled water schemes. frontiers of environmental science and engineering, 2013, 7(4), 608-615.

24. chen z, ngo h h, guo w s. analysis of social attitude to the new end use of recycled water for household laundry by the regression models. journal of environmental management, 2013, 126, 79-84.

25. chen z, ngo h h, guo w s, listowski a, o’ halloran k, thompson m. multi-criteria analysis towards the new end use of recycled water for household laundry: a case study in sydney. science of the total environment, 2012, 438(1), 59-65.

26. chen z, ngo h h, guo w s. a critical review on sustainability assessment of recycled water schemes. science of the total environment, 2012, 426(1), 13-31.

27. 陈卓,郝姝然,徐傲,白雪,胡梦婷,巫寅虎,胡洪营*. 2022.《水回用导则 再生水厂水质管理》国家标准解读. 给水排水, 48(2), 116-121.

28. 陈卓,郝姝然,白雪,胡梦婷,巫寅虎,胡洪营*. 2022.《水回用导则污水再生处理技术与工艺评价方法》国家标准解读. 给水排水, 48(2), 122-127.

29. 陈卓,胡威,巫寅虎,黄南,白雪,胡梦婷,吴乾元,胡洪营*. 2022.《水回用导则 再生水分级》国家标准解读. 给水排水, 48(2), 151-155.

30. 陈卓,崔琦,曹可凡,陆韻*,巫寅虎,胡洪营*. 2021. 污水再生利用微生物控制标准及其制定方法探讨. 环境科学, 42(5), 466-472.

31. 陈卓,郝姝然,高强,毛宇,黄南,巫寅虎*,胡洪营*.2021.《再生水利用效益评价指南》标准解读. 中国给水排水, 37(18), 1-7.

32. 毛宇,陈卓*,陆韻,吴乾元,巫寅虎,胡洪营*.2021. 高铁酸盐对微生物的灭活特性及影响因素. 环境工程, 1-13.

33. 刘俊含,陈卓*,徐傲,陆韻,巫寅虎,郝姝然,胡洪营*.2021. 澳大利亚污水处理与再生利用现状分析及经验. 环境工程, 1-13.

34. 陈卓,胡洪营*,吴光学,吴乾元,刘书明,文湘华. iso《城镇集中式水回用系统设计指南》国际标准解读. 给水排水, 2019, 03, 139-144.

35. 陈卓,吴乾元,杜烨,孙艳,陆韻,杨宏伟,刘书明,胡洪营*.世界卫生组织(who)《再生水饮用回用:安全饮用水生产指南》解读. 给水排水, 2018, 44(6), 7-12.

36. 崔琦,陈卓*,李魁晓,时玉龙,巫寅虎,王文龙,吴乾元,吴光学,胡洪营*.再生水系统的可靠性—内涵及其保障措施. 环境工程, 2019, 37(12), 75-79.

37. 陈卓, 吴乾元, 杜烨, 孙艳, 陆韻, 杨宏伟, 刘书明, 胡洪营. 世界卫生组织(who)《再生水饮用回用:安全饮用水生产指南》解读. 给水排水, 2018, 44(6), 7-12.

著作

1. chen z, hu h y, sun y x. water reuse in china: current status, policies and experience. in: handbook of water and used water purification, springer nature, 2022

2. chen z, ngo h h, hu h y, guo w s, wu g x, shi l, sun m x, wang d. sustainability analysis of large-scale membrane bioreactor plant. in: current developments in biotechnology and bioengineering, elsevier, 2020

3. chen z, ngo h h, guo w s, eslamain, s. water shortages; water reuse environmental benefits. in: urban water reuse handbook, crc press taylor and francis, uk, 2015.

4. gondhalekar d, hu h y, chen z, et al. operationalizing the urban water energy food nexus in china and india. in ore environmental science, oxford university press, 2021.

5. ngo h h, guo w s, chen z, surampalli y r, zhang c t. chapter 1: green technologies for sustainable water management: introduction and overview. in: green technologies for sustainable water management, asce, usa, 2016.

6. ngo h h, guo w s, chen z. new submerged membrane bioreactors (smbrs) for sustainable water. in: advances in industrial biotechnology, singh, r.s., pandey, a. and larroche, c. (eds.). ik international publishing house pvt. ltd., india, 393-411, 2012.

专利

1. 水处理方法,专利号zl2021106467807

2. 一种再生水管网错接识别方法,专利号201910651558.9

3. 一种用户端再生水管道错接识别与防范系统,专利号201921138289.8

4. 一种便携式荧光光谱检测系统,专利号201821903505.9

5. 一种再生水管网错接识别与防范系统及水质安全保障系统,专利号201921130990.5

6. 水处理消毒模拟设计软件,代理立案号 6044-2111004fp

标准指南

1. 国际标准《water reuse in urban areas — guidelines for decentralized/onsite water reuse system — design principles of a decentralized/onsite system》(iso 23056: 2020), 主持制定.

2. 国际标准《water reuse in urban areas — guidelines for reclaimed water treatment: design principles of a ro treatment system of municipal wastewater》(iso 23070: 2020), 研究骨干.

3. 国际标准《water reuse in urban areas— guidelines for centralized water reuse system— part 1: design principle of a centralized water reuse system》(iso 20760-1: 2018), 研究骨干.

4. 国际标准《water reuse in urban areas— guidelines for centralized water reuse system— part 2: management of a centralized water reuse system》(iso 20760-2: 2017), 研究骨干.

5. 国际标准《water reuse in urban areas— guidelines for water reuse safety evaluation: assessment parameters and methods》(iso 20761: 2018), 研究骨干.

6. 国家标准《水回用导则 再生水厂水质管理》(gb/t 41016-2021), 排名第2.

7. 国家标准《水回用导则 污水再生处理技术与工艺评价方法》(gb/t 41017-2021), 排名第3.

8. 国家标准《水回用导则 再生水分级》(gb/t 41018-2021), 排名第3.

9. 国家标准《节约用水 术语》(gb/t 21534-2021), 排名第15.

10. 北京市地方标准《再生水利用指南第4部分:景观环境》(db11/t 1767.4—2021), 排名第3.

11. 北京市地方标准《再生水利用指南第1部分:工业》(db11/t 1767—2020), 排名第3.

12. 中国环境科学学会团体标准《水回用指南 再生水分级与标识》(t/cses 07-2020), 排名第2.

13. 中国环境科学学会团体标准《再生水利用效益评价指南》(t/cses 01-2019), 排名第2.

14. 中国环境科学学会团体标准《水回用指南:污水再生处理反渗透系统运行管理》(t/cses 10-2020), 排名第4.

15. 中国环境科学学会团体标准《水回用指南 再生水中药品和个人护理品类微量污染物处理技术》(t/cses 42-2021), 排名第7.



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