姓    名：张世羊

性    别：男

职　　称：副研究员/硕士生导师

学　　位：博士

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                           =工学学士

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

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      771771威尼斯.Cm     副研究员

主要研究方向：

污水处理与资源化、生物脱氮除磷、污染水体生态修复、湿地生态工程、工业废水处理等。

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，项目负责人。

（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，项目负责人。

（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，项目负责人。

（4）武汉理工大学自主创新项目：海绵型智慧小区建设关键技术研发，2019.1~2021.12，项目负责人。

（5）横向课题：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，项目负责人。

主要成果简述：

主要从事污水生物处理与资源化利用、生物脱氮除磷、水环境生态修复、湿地生态工程、工业废水处理等。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、武汉理工大学自主创新基金、农业农村部重点实验室开放基金等项目，参与过现代农业产业技术体系专项资金、科技部“十三五”重大科技专项、国家外专局引智项目等研究。共发表学术论文60余篇，其中SCI论文30余篇；获国家授权发明专利十余项，其中第一完成人9项。作为主要完成人获湖北省科技进步三等奖一项（R04）、中国水产科学研究院科技进步二等奖一项（R04）、荆州市科技进步二等奖一项（R07）。目前担任国际SCI期刊Frontiers in Microbiology评阅编辑，并为Bioresource Technology、Journal of Cleaner Production、Agricultural Water Management、Science of the Total Environment、Journal of Environmental Management等二十余个SCI期刊审稿人。

代表性论文（第一或通讯作者；^*通讯作者）：

1.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.

    2.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.

    3.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.

   4.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.

   5.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.

   6.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.

   7.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.

   8.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.

   9.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.

  10.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.

  11.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.

  12.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.

  13.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.

  14.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.

  15.Shiyang Zhang; Shibin Xia; Wenjiao Sang; Julin Yuan^*; Weijie Guo. Evaluation of functional microbes in explaining biofilter performance during start-up1. Journal of Cleaner Production, 2020, 277: 123503.

  16.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.

  17.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.

  18.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.

  19.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.

  20.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.

  21.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.

  22.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.

  23.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.

  24.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.

  25.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.

  26.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.

  27.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.

  28.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.

  29.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.

  30.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.

  31.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.

授权发明专利（第一完成人）：

   1.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.

   2.ZL2019105296866.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.

   3.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.

   4.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.

   5.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.

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

   7.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.

   8.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.

   9.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.