姓    名：张世羊

性    别：男

出生年月：1980年8月

职　　称：副研究员/硕士生导师

学　　历：研究生

学　　位：博士

电　　话：18802737110

邮　　箱：zhangshiyang@whut.edu.cn; zhangshiyang7@126.com

个人简历（从大学本科写起）：

2000.09～2004.07 西南大学                           学士

2004.09～2010.02 中国科学院水生生物研究所           博士

2010.04～2013.12 中国水产科学研究院长江水产研究所   助理研究员

2014.01～2015.10 中国水产科学研究院长江水产研究所   副研究员

2015.11～今      版权所有 贝博ballbet(中国)艾弗森官网     副研究员

主要研究方向：

污水处理与资源化、生物脱氮除磷、水生态修复、湿地生态工程、养殖尾水处理等。

代表性科研项目：

（1）国家自然科学基金项目：基于人工湿地的复合池塘养殖系统模型化研究，2013.1~2015.12，主持。

（2）湖北省自然科学基金项目：波形推流湿地甲烷氧化耦合反硝化作用机制研究，2017.1~2018.12，主持。

（3）“十二五”科技支撑计划子课题：养殖池塘生态效率及水质调控关键技术研究，2012.1~2016.12，主持。

（4）横向项目：湖北沉湖国际重要湿地修复方案(2024-2028年)编制，2023.10－2024.07，主持。

（5）横向项目：电极生物膜耦合自养/异养过程协同处理虾蟹养殖尾水净化机制研究，2023.05~2026.05，主持。

主要成果简述：

主要从事污水生物处理与资源化利用、污水生物脱氮除磷、养殖尾水处理、湿地生态修复工程设计、水生态环境监测与评估等。主持过国家自然科学基金、湖北省自然科学基金、“十二五”科技支撑计划子课题、艾弗森贝博ballbet官网自主创新基金、农业农村部重点实验室开放基金等项目。发表学术论文70余篇，其中SCI论文40余篇；获国家授权发明专利十余项。作为主要完成人获湖北省科技进步三等奖一项、中国水产科学研究院科技进步二等奖一项、荆州市科技进步二等奖一项。受邀为Front. Microbiol.、Water、Sustainability等期刊的Guest Editor，担任Water Res.、Chem. Eng. J.、J. Hazard. Mater.、Bioresour. Technol.、J. Hydrol.、J. Clean Prod.、Agric. Water Manage.、Aquaculture等三十余个SCI期刊审稿人。现为教育部学位中心、广东省自然基金通讯评议人。

代表性论文（第一/通讯作者；*通讯作者;#第一作者）：

[1]Yufan Xie, Sicheng Yuan, Qinglong Wang, Yuhu Nie, Shiyang Zhang*, Gang Peng, Tingzhen Ming, Shaohui Zhang, Weibo Wang*. Microbial mutualisms explain the influencing mechanism of current density on the performance of a sole pyrite-based electrochemical bioreactor during the stable phase. Chemical Engineering Journal, 2025, 510, 161684.

[2]Xihui Guo, Wentao Zhu, Zhi Wang*, Gang Peng, Lin Tan, Tingzhen Ming, Shaohui Zhang, Shiyang Zhang*. Insight into shortening mechanisms of start-up time for three-dimensional biofilm electrode reactor/pyrite-autotrophic denitrification coupled system. Bioresource Technology, 2025, 415, 131719.

[3]Yuhu Nie, Sicheng Yuan, Shiyang Zhang*, Gang Peng, Qinglong Wang, Yufan Xie, Tingzhen Ming, Zhi Wang*. Microbial interactions elucidate the mechanisms of hydraulic retention time altering denitrification pathway in a sole pyrite-based electrochemical bioreactor (PEBR). Journal of Environmental Management, 2025, 376, 124467.

[4]Xihui Guo, Wentao Zhu, Gang Peng*, Yan Zhang, Jing Wang, Zhi Wang, Lin Tan, Shiyang Zhang*. Current intensity and hydraulic retention time play differential roles in functional gene expression or electron transfer pathways in a pyrite-filled three-dimensional biofilm electrode reactor (P3DBER). Environmental Research, 2025, 270, 121040.

[5]Yufan Xie, Sicheng Yuan, Guangjun Wang*, Qinglong Wang, Yuhu Nie, Weibo Wang, Shiyang Zhang*. Optimization of operating parameters for pyrite-based electrochemical bioreactor using response surface methodology: C/N ratio, current density, and hydraulic retention time. Process Biochemistry, 2025, 153, 191-197.

[6]Wentao Zhu, Zhiwei Tang, Gang Peng*, Zhi Wang, Weibo Wang, Yan Zhang, Jing Wang, Shiyang Zhang*. Deciphering the response of heterotrophic, autotrophic and mixotrophic denitrification to enrofloxacin stress: Performance, denitrifying community and antibiotic resistance genes. Journal of Cleaner Production, 2024, 434, 140119.

[7]Yufan Xie, Guangjun Wang*, Qinglong Wang, Yuhu Nie, Wang Zhi, Weibo Wang, Xinhua Tang, Shiyang Zhang*. The stratified response of heterotrophic, autotrophic or mixotrophic denitrification to enrofloxacin stress along different filling heights in up-flow fixed-bed bioreactors. Journal of Water Process Engineering, 2024, 66, 106030.

[8]Xihui Guo#, Gang Peng#, Lin Tan, Yan Zhang, Jing Wang, Weibo Wang, Shiyang Zhang*. Effect of pyrite particle size on the denitrification performance of autotrophic or split-mixotrophic bioreactors supported by pyrite/polycaprolactone. Water Environment Research, 2024, 96: e11040.

[9]Lin Tan#, Gang Peng#, Xihui Guo, Yan Zhang, Jing Wang, Shiyang Zhang*. Effect of reflux ratio on performance of pyrite-based mixotrophic sequencing batch biofilm reactor treating real domestic wastewater. Journal of Environmental Engineering, 2024, 150(10), 04024046.

[10]Sicheng Yuan, Qingbo Zhong, Hongjun Zhang, Wentao Zhu, Weibo Wang, Shiyang Zhang*. Deciphering the influencing mechanism of hydraulic retention time on purification performance of a mixotrophic system from the perspective of reaction kinetics. Environmental Science and Pollution Research, 2024,31(9), 12933-12947.

[11]Wentao Zhu, Jing Chen, Sicheng Yuan, Wenjiao Sang, Yihui Ban, Shiyang Zhang*. Impact of aeration frequency on performance of mixotrophic sequencing batch biofilm reactor (SBBR) treating real domestic wastewater: Removal efficiency, pathways, and mechanisms. Journal of Cleaner Production, 2023, 385, 135747.

[12]Wentao Zhu, Jing Chen, Hongjun Zhang, Sicheng Yuan, Weijie Guo, Qian Zhang, Shiyang Zhang*. Start-up phase optimization of pyrite-intensified hybrid sequencing batch biofilm reactor (PIHSBBR): Mixotrophic denitrification performance and mechanism. Journal of Environmental Management, 2023, 330,117232.

[13]Sicheng Yuan, Qingbo Zhong, Hongjun Zhang, Wentao Zhu, Weibo Wang, Meng Li, Xinhua Tang, Shiyang Zhang*. The enrichment of more functional microbes induced by the increasing hydraulic retention time accounts for the increment of autotrophic denitrification performance. Environmental Research, 2023, 236,116848.

[14]Longqu Xiao#, Shiyang Zhang#, Boqi Chen, Panpan Wu, Ningdong Feng*, Feng Deng, Zhi Wang*. Visible-light photocatalysis degradation of enrofloxacin by crawfish shell biochar combined with g-C3N4: Effects and mechanisms. Journal of Environmental Chemical Engineering, 2023, 11(3): 109693.

[15]Shiyang Zhang*, Longqu Xiao, Zhiwei Tang, Xiangling Zhang, Zhi Wang. Microbial explanation to performance stratification along up-flow solid-phase denitrification column packed with polycaprolactone. Bioresource technology, 2022, 343: 126066.

[16]Xin Yang, Zhiwei Tang, Longqu Xiao, Shaohui Zhang, Jing Jin, Shiyang Zhang*. Effect of electric current intensity on performance of polycaprolactone/FeS2-based mixotrophic biofilm–electrode reactor. Bioresource Technology, 2022, 361: 127757.

[17]Xin Yang#, Julin Yuan#, Weijie Guo, Xinhua Tang, Shiyang Zhang*. The enzymes-based intermediary model explains the influence mechanism of different aeration strategies on nitrogen removal in a sequencing batch biofilm reactor treating simulated aquaculture wastewater. Journal of Cleaner Production, 2022, 356: 131835.

[18]Wentao Zhu, Xuehui Zhang, Sicheng Yuan, Wenjiao Sang, Xinhua Tang, Shiyang Zhang*. Effects of different aeration strategies on removal of organics, nitrogen and phosphorus in sequencing batch biofilm reactor (SBBR): Performance, microbial community and nitrogen cycling pathways. Journal of Water Process Engineering, 2022, 49: 103118.

[19]Sicheng Yuan, Wentao Zhu, Weijie Guo, Wenjiao Sang, Shiyang Zhang*. Effect of hydraulic retention time on performance of autotrophic, heterotrophic, and split-mixotrophic denitrification systems supported by polycaprolactone/pyrite: Difference and potential explanation. Water Environment Research, 2022, 94(12), e10820.

[20]Shiyang Zhang*, Zhiwei Tang, Shibin Xia, Yinghe Jiang, Meng Li, Bing Wang. The intrinsic relevance of nitrogen removal pathway to varying nitrate loading rate in a polycaprolactone-supported denitrification system. Biodegradation, 2022, 33(4): 317-331.

[21]Xin He, Shiyang Zhang*, Yinghe Jiang, Meng Li, Julin Yuan, Guangjun Wang. Influence mechanism of filling ratio on solid-phase denitrification with polycaprolactone as biofilm carrier. Bioresource technology, 2021, 337: 125401.

[22]Shiyang Zhang*, Jing Chen, Wenjiao Sang, Meng Li, Veljko Prodanovic, Kefeng Zhang. Metagenomic insights into the explanation of biofilter performance distinction induced by dissolved oxygen increment. Process Safety and Environmental Protection, 2021, 153: 329-338.

[23]Shiyang Zhang*, Qingbo Zhong, Yinghe Jiang, Meng Li, Shibin Xia. Temperature-induced difference in microbial characterizations accounts for the fluctuation of sequencing batch biofilm reactor performance. Biodegradation, 2021, 32(5): 595-610.

[24]Shiyang Zhang*, Xin He, Veljko Prodanovic, Kefeng Zhang. Effect of filling ratio and backwash on performance of a continuous-flow SPD reactor packed with PCL as carbon source. Water Environment Research, 2021, 93(8): 1381-1390.

[25]Shiyang Zhang*, Jing Chen, Julin Yuan, Guangjun Wang. Response of simultaneous nitrification-denitrification to DO increments in continuously aerated biofilm reactors for aquaculture wastewater treatment. Water Practice and Technology, 2021, 16 (4): 1067–1077.

[26]Shiyang Zhang*, Xiaoliang Jiang, Meng Li, Qian Zhang, Julin Yuan, Weijie Guo. Effects of deoxygenation pretreatment and dissolved oxygen adjustment on performance of double-layer-packed sequencing biofilm batch reactor treating secondary effluent under low temperature. Journal of Cleaner Production, 2020, 258: 120650.

[27]Shiyang Zhang, Shibin Xia, Wenjiao Sang, Julin Yuan*, Weijie Guo. Evaluation of functional microbes in explaining biofilter performance during start-up. Journal of Cleaner Production, 2020, 277: 123503.

[28]Shiyang Zhang, Julin Yuan*, Weijie Guo. Metagenomic insights into microbial characterizations in explaining the distinction of biofilter performance during start-up. Biodegradation, 2020, 31(3): 183-199.

[29]Shiyang Zhang*, Changbo Zhu, Shibin Xia, Meng Li. Impact of different running conditions on performance of biofilters treating secondary effluent during start-up. Bioresource Technology, 2019, 281: 168-178.

[30]Shiyang Zhang, Yihui Ban, Zhouying Xu, Jing Cheng, Meng Li*. Comparative evaluation of influencing factors on aquaculture wastewater treatment by various constructed wetlands. Ecological Engineering, 2016, 93: 221–225.

[31]Shiyang Zhang*, Meng Li, Jing Cheng, Zhouying Xu, Jianming Chen*. Response and environmental assessment of two Chinese conventional carps to water quality regulation in recirculating aquaculture. Aquacultural Engineering, 2016, 74: 180–185.

[32]Shiyang Zhang*, Gu Li, Xiaoli Li, Ling Tao. Multiple linear modeling of outflow nitrogen dynamics in vertical-flow constructed wetlands under two different operating states. Ecological Engineering, 2015, 81: 53–61.

[33]Shi-yang Zhang*, Gu Li, Xiao-li Li, Ling Tao. Four stage hybrid constructed wetlands treating low-strength aquaculture wastewater with and without artificial aeration. Environment Protection Engineering, 2015, 41(3): 31–42.

[34]Shi-yang Zhang, Gu Li*, Jun-jun Chang, Xiao-li Li, Ling Tao. Aerated Enhanced Treatment of Aquaculture Effluent by Three-stage, Subsurface-Flow Constructed Wetlands under a High Loading Rate. Polish Journal of Environmental Studies, 2014, 23(5): 1821–1830.

[35]Shi-Yang Zhang, Gu Li*, Hui-Bi Wu, Xing-Guo Liu, Yan-Hong Yao, Ling Tao, Huang Liu. An integrated recirculating aquaculture system (RAS) for land-based fish farming: the effects on water quality and fish production. Aquacultural Engineering, 2011, 45: 93–102.

[36]Shi-yang Zhang, Ai-fen Liu, Jian-min Ma, Qiao-hong Zhou, Dong Xu, Shui-ping Cheng, Qiang Zhao, Zhen-bin Wu*. Changes in physicochemical and biological factors during regime shifts in a restoration demonstration of macrophytes in a small hypereutrophic Chinese lake. Ecological Engineering, 2010, 36: 1611–1619.

[37]Shiyang Zhang, Qiaohong Zhou, Dong Xu, Jidong Lin, Shuiping Cheng, Zhenbin Wu*. Effects of sediment dredging on water quality and zooplankton community structure in a shallow of eutrophic lake. Journal of Environmental Sciences, 2010, 22(2): 218–224.

[38]Shi-yang Zhang, Qiao-hong Zhou, Dong Xu, Feng He, Shui-ping Cheng, Wei Liang, Cheng Du, Zhen-bin Wu*. Vertical-flow constructed wetlands applied in a recirculating aquaculture system for channel catfish culture: effects on water quality and zooplankton. Polish Journal of Environmental Studies, 2010, 19(5): 1063–1070.

[39]江肖良, 李孟, 张少辉, 张世羊*. 4种不同工况生物滤池净化效能与微生物特性分析[J]. 环境科学, 2018, 39(12): 5503-5513.

[40]张世羊, 张胜花, 张翔凌, 王广军*. 组合生物滤池对养殖废水的净化效率及影响因素分析[J]. 环境科学, 2017, 38(6): 2419–2428.

[41]张世羊, 常军军, 高毛林, 李谷*. 曝气对垂直流湿地处理水产养殖废水脱氮的影响. 农业工程学报, 2015, 31(9): 235–241.

[42]张世羊, 李谷*, 陶玲, 李晓莉. 不同增氧方式对精养池塘溶氧的影响. 农业工程学报, 2013, 29(17): 169–175.

[43]张世羊, 周巧红, 成水平, 吴振斌*. 复合养殖系统中浮游动物种类丰度及其影响因素. 中国环境科学, 2009, 29: 745–750. 

授权专利（第一完成人）：

1. ZL202321964896.6. 张世羊; 张宏珺; 杨鑫; 李政; 袁钟豪. 外加电极强化的自养反硝化快速启动的脱氮装置.

2. ZL201910759527.5. 张世羊; 江肖良; 李孟; 班宜辉; 张倩; 徐舟影. 一种喀斯特山区农村污水无动力去除装置.

3. ZL201910529686.6. 张世羊; 张学辉; 江肖良; 何鑫; 李孟. 一种高氨氮高有机物废水的碳氮去除装置及方法. 

4. ZL201810908346.X. 张世羊; 江肖良. 一种基于甲烷氧化的污水厂尾水深度脱氮装置. 

5. ZL201610537144.X. 张世羊; 班宜辉; 张少辉; 程静; 徐舟影; 李翠华. 一种城市黑臭河道的生态修复装置及方法.

6. ZL201610584384.5. 张世羊. 一种削减入湖径流营养负荷的综合水处理方法. 

7. ZL201510703764.1. 张世羊. 一种池塘高氨氮养殖废水的深度处理装置. 

8. ZL201510066695.8. 张世羊; 李谷; 李晓莉; 陶玲. 一种工厂化水产养殖尾水高效脱氮装置. 

9. ZL201310237040.3. 张世羊; 李谷; 李晓莉; 陶玲. 一种基于沟塘复合系统的生态渔业养殖方法及装置. 

10. ZL201310199395.8. 张世羊; 李谷; 李晓莉; 陶玲. 一种基于多营养级生态沟渠的综合水产养殖装置及方法.