【基本信息】

姓名：沈志强

职称：研究员

研究方向：水污染控制技术

电话：010-84922161

Email：shenzhiqiang529@126.com

【个人履历】

教育经历

2008.09-2012.07  清华大学，环境工程，工学博士

2005.09-2008.07  湖南大学，环境工程，工学硕士

主要工作经历

2020.12-至今     中国环境科学研究院  研究员

2014.12-2020.12  中国环境科学研究院  副研究员

2012.07-2014.12  中国环境科学研究院  博士后

【科学研究】

主要研究领域

1、行业废水控制技术；

2、产业园区废水污染全过程控制。

【代表性研究项目】

1.国家重点研发子课题，基于多级膜调控的沼液养分分级回收技术（2023YFD1701403-02），90万元，2023.12-2027.12，项目负责人

2.国家水专项子课题，石化废水污染全过程控制技术集成与工程示范研究（2017ZX07402002-06），600万元，2017.1-2020.12，项目负责人

2.国家自然科学基金青年项目，基于生物膜的固体碳源反硝化特性与机理研究（51508538）,24万元，2016.1-2018.12，项目负责人

3.国家博士后基金面上项目，人工湿地系统固体碳源强化脱氮特性研究（2012M520351），5万元,2012.10-2014.12，项目负责人

4.国家科技支撑子课题，分散及小规模养殖污水源头减排分质处理及村镇污水处理“三低一高”关键技术及设备研究（2012BAJ21B01-02），366.5万元,2012.1-2015.12，技术负责人

【代表性论文】

[1] Wu L J, Shen Z Q#, Zhou Y X, Zuo J E. Ammonia recovery from landfill leachate using gas-permeable membranes: Comparison of membrane fibers and expanded membrane tubes in both in-situ and shell-tube configurations. Chemical Engineering Journal, 2024, 483:149255.

[2] Wang J, Dong B, Shen Z Q#, Zhou Y X. An innovative fast-start aerobic anode microbial fuel cell biosensor for copper ion detection. Journal of Environmental Chemical Engineering, 2024, 12:112876.

[3] Wu L J, Jin T, Chen H, Shen Z Q#, Zhou Y X. Conductive materials as fantastic toolkits to stimulate direct interspecies electron transfer in anaerobic digestion new insights into methanogenesis contribution, characterization technology, and downstream treatment. Journal of Environmental Management, 2023, 326:116732.

[4] Wu L J, Shen Z Q#, Zhou Y X, Zuo J E. Stimulating anaerobic digestion to degrade recalcitrant organic pollutants: Potential role of conductive materials-led direct interspecies electron transfer. Journal of Environmental Management, 2023, 344:118337.

[5] Xiu Y Y, Han Z F, Song A H, Miao Y, Shen Z Q#, Zhou Y X, Dong J, Liu S, Yang C P. Nitrogen removal of decentralized swine wastewater by pilot-scale source reduction – anaerobic baffled reactor – zoning constructed wetlands at low temperatures. Journal of Environmental Management, 2023, 343:118247.

[6] Liu T, Zuo J E, Shen Z Q#, Zhou Y X. Inhibition of biological acidification and mechanism of crotonaldehyde removal with glucose cometabolism. Journal of Environmental Management, 2022, 303:114090.

[7] Yuan L H, Tan L L, Shen Z Q#, Zhou Y X, He X W, Chen X M. Pilot-scale study on enhanced denitrification of dispersed swine wastewater using Ca(OH)2-pretreated rice straw as solid carbon source. Chemosphere, 2022, 305:135316.

[8] Tian X M, Shen Z Q#, Zhou Y X, Wang K J. Acidification inhibition, biodechlorination, and biotransformation of chlorinated acetaldehydes on acidogenic sludge and microbial community changes, Chemosphere, 2021, 277:130231.

[9] Liu T, Song Y D, Shen Z Q#, Zhou Y X. Inhibition character of crotonaldehyde manufacture wastewater on biological acidification. Frontiers Environmental Science and Engineering, 2021, 15(6):119.

[10] Tian X M, Song Y D, Shen Z Q#, Zhou Y X, Wang K J, Jin X G, Han Z F, Liu T. A comprehensive review on toxic petrochemical wastewater pretreatment and advanced treatment. Journal of Cleaner Production, 2020, 245:118692.

[11] Tian X M, Song Y D, Xi H B, Shen Z Q#, Zhou Y X, Wang K J. Inhibition and removal of trichloroacetaldehyde by biological acidification with glucose co-metabolism. Journal of Hazardous Materials, 2020, 386:121796.

[12] Tian X M, Shen Z Q#, Zhou Y X, Wang K J. Inhibition on biological acidification and microbial community by high-strength acetaldehyde. Process Safety and Environmental Protection, 2020, 143:231-238.

[13] Han Z F, Miao Y, Dong J, Shen Z Q#, Zhou Y X, Liu S, Yang C P. Enhanced nitrogen removal and microbial analysis in partially saturated constructed wetland for treating anaerobically digested swine wastewater. Front Environment science and Engineering. 2019.13(4):52.

[14] Han Z F, Dong J, Shen Z Q#, Mou R, Zhou Y X, Chen X M, Fu X Y, Yang C P. Nitrogen removal of anaerobically digested swine wastewater by pilot-scale tidal flow constructed wetland based on in-situ biological regeneration of zeolite[J]. Chemosphere, 2019, 217:364-373.

[15] Tian X M, Shen Z Q, Han Z F, Zhou Y X. The effect of extracellular polymeric substances on exogenous highly toxic compounds in biological wastewater treatment: An overview. Bioresource Technology Reports, 2019, 5:28-42.

[16] Liu T, Shen Z Q, Zhang C Y, Song Y D, Li J, Yang Z P, Han Z F, Zhou Y X. Effect of influent pH on hydrolytic acidification performance and bacterial community structure in EGSB for pretreating cronadehyde manufacture wastewater after ozonation. Water Science and Technoloigy, 2019, 79 (6): 1174-1183.

[17] Wu S H, Shen Z Q#, Yang C P, Zhou Y X, Li X, Zeng G M, Ai S J, He H J. Effects of C/N ratio and bulking agent on speciation of Zn and Cu and enzymatic activity during pig manure composting. International Biodeterioration & Biodegradation, 2017, 119: 429-436.

[18] Shen Z Q, Yin Y N, Wang J L. Biological denitrification using poly(butanediol succinate) as electron donor[J]. Applied Microbiology and Biotechnology, 2016, 100(13):6047-6053.

[19] Shen Z Q, Hu J L, Wang J L, Zhou Y X. Comparison of polycaprolactone and starch/polycaprolactone blends as carbon source for biological denitrification. International Journal of Environmental Science & Technology, 2015, 12(4):1235-1242.

[20] Shen Z Q, Hu J, Wang J L, Zhou Y X. Biological denitrification using starch/polycaprolactone blends as carbon source and biofilm support. Desalination and Water Treatment, 2015, 54(3):609-615.

[21] Shen Z Q, Zhou Y X, Liu J, Xiao Y, Cao R, Wu F P. Enhanced removal of nitrate using starch/PCL blends as solid carbon source in a constructed wetland. Bioresource Technology, 2015, 175:239-244.

[22] Shen Z Q, Zhou Y X, Hu J, Wang J L.Denitrification performance and microbial diversity in a packed-bed bioreactor using biodegradable polymer as carbon source and biofilm support. Journal of Hazardous Materials, 2013, 250-251:431–438.

[23] Shen Z Q, Zhou Y X, Wang J L. Comparison of denitrification performance and microbial diversity using starch/polylactic acid blends and ethanol as electron donor for nitrate removal. Bioresource Technology, 2013, 131:33–39.

[24] Shen Z Q, Wang J L. Biological denitrification using cross-linked starch/PCL blends as solid carbon source and biofilm carrier. Bioresource Technology, 2011, 102:8835–8838.

[25] Yang C P, Shen Z Q, Yu G C, Wang J L. Effect and aftereffect of γ radiation pretreatment on enzymatic hydrolysis of wheat straw. Bioresource Technology, 2008, 99:6240–6245.

【教学工作】

2012年至今，指导（含联合培养）博士生4名和硕士生20余名。

【社会工作】

中国石油学会石油环保专业委员会委员、国家黑臭水体专家库专家，国家农村环境整治专家库专家，Journal of Hazardous Materials、Science of the Total Environment、Chemical Engineering Journal等期刊审稿人

【荣誉奖励】

中国环境科学研究院“青年英才实施计划”（科技英才）

【其他】

[1]沈志强, 周岳溪, 席宏波, 于茵. 一种污水处理量确定方法及装置, 发明专利, 专利号：202011312265.7, 授权日期：2020-11-20

[2]沈志强, 周岳溪, 一种水解酸化脱毒工业废水的预处理方法, 发明专利, 专利号：202011163871.7, 授权日期：2020-10-27（已转让）

[3]周岳溪, 沈志强,宋爱红, 苗莹. 一种处理养殖废水的功能分区型人工湿地系统, 发明专利, 专利号：201510424613.2, 授权日期：2018-07-06

[4]周岳溪, 沈志强,肖宇. 一种处理分散养猪冲洗废水的人工湿地-生态沟渠系统, 发明专利, 专利号：201510423615.X, 授权日期：2017-06-06

[5]沈志强, 周岳溪.一种分散生活污水的处理系统, 发明专利, 专利号：201510424611.3, 授权日期：2017-11-17（已转让）

[6]沈志强, 周岳溪.一种污染河道旁路修复人工湿地系统, 发明专利, 专利号：201510425397.3, 授权日期：2017-11-17

[7]王建龙, 沈志强. 一种淀粉和聚乳酸共混物及其制备方法与应用. 发明专利,专利号：201110153030.2, 授权日期: 2016-04-06

[8]沈志强, 周岳溪. 一种强化脱氮功能分区型垂直流人工湿地系统, 发明专利, 专利号：201310242434.8, 授权日期：2014-04-09

[9]沈志强, 周岳溪. 一种水平潜流人工湿地固体碳源强化脱氮系统, 发明专利, 专利号：201310195378.7, 授权日期：2014-04-09

[10]沈志强, 周岳溪. 一种生物沸石强化硝化浅层人工湿地系统, 发明专利, 专利号：201310243358.2, 授权日期：2014-6-11

[11]王建龙, 沈志强. 一种淀粉乙酸酯的制备方法及其在去除水中硝酸盐的应用.发明专利,专利号：201110129645.1, 授权日期: 2013-01-30

[12]王建龙, 沈志强. 交联淀粉、聚己内酯和聚乳酸共混物的制备方法及应用. 发明专利,专利号：201110092570.4, 授权日期: 2013-04-03

[13]王建龙, 沈志强. 淀粉和聚丁二酸丁二醇酯热塑性共混物的制备方法及应用. 发明专利,专利号：201110092701.9, 授权日期: 2013-10-16