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.