职称

副教授

年龄

39

所在学院（系、所）

环境与市政工程学院

通讯地址

津静路26号

电子信箱

Lhb19850725@163.com

联系方式

13042288016

主要研究方向

　　生物脱氮除磷，市政污水厂运行管理，环境微生物技术，难降解污染物生物催化转化

主要学历

2012.09-2017.01 北京科技大学  环境科学与工程   工学博士

2009.09-2012.07 河北科技大学  环境科学与工程   工学硕士

2005.09-2009.07 河北科技大学  环境科学与工程   工学学士

主要学术经历

2020.12-至今 天津城建大学 副教授

2017.01-2020.12 天津城建大学 讲师

2017.04-2022.06 科技特派员

2019.10-2023.09 军事科学院 军事医学研究院 环境医学与作业医学研究所   博士后

主要讲授课程

本科生：《水污染控制工程》、《环境生物学》；研究生：《污水深度处理及其资源化》

主要学术兼职

国际生物过程协会IBA终身会员

主要学术成就、奖励及荣誉

1. 河北省金属学会冶金科学技术进步二等奖，基于污水资源化的钢铁冶金集成水处理技术的创新与应用，排名第二，2024

2. 天津市自然科学三等奖，生物脱氮颗粒污泥快速形成机制与调控策略基础研究，排名第三，2022

3. 天津市131三层次人才

主要科研项目及角色

　　【在研项目】

1. 主持“以提高工程实践能力为导向的环境工程专业师资建设”教育部产学研协同育人项目（231107649135400）. 排名第一，经费合计2万元。

2. 参与“天津城建大学低碳比市政污水节能低碳治理中波联合研究中心建设”天津一带一路项目(24PTLYHZ00310). 排名第二，经费合计40万元。

　　【完成项目】

1. 主持“基于“铁-EPS-信号分子”交互机制解析黄铁矿-硫磺填料曝气生物滤池同时脱氮除磷机理”，国家自然科学基金青年基金项目（51908399），2020.01-2023.03，结题，经费合计24万元。

2. 主持“基于“铁-EPS-信号分子”交互机制解析黄铁矿-硫磺（FeS2-S）填料脱氮除磷机理及其应用的研究”，天津市自然科学基金青年基金项目（19JCQNJC07600），2019.04-2022.03，结题，经费合计6万元。

3. 主持“改良A2O耦合硫自养新工艺高效脱氮除磷技术与调控策略”，天津市科技计划项目，（20YDTPJC00480），2020.10-2022.09，经费合计10万元。

4. 主持“改良A2O-硫自养联合工艺高效脱氮除磷原理与调控策略”，天津市教委科研计划项目（2017KJ056），2018.01-2020.12，结题，经费合计6万元。

5. 主持完成“关于A2O-硫自养高效脱氮除磷技术的科技成果转化与建设”，天津市重点实验室开放基金（KJZH-CA3-1754），2017.01-2017.12，结题，经费合计2.5万。

6. 主持完成“关于厌氧-缺氧/硫自养-好氧系统高效脱氮除磷技术的科技成果转化建设”，天津市重点实验室开放基金（KJZH-A2-1727），2017.01-2018.06，结题，经费合计1.5万。

7. 主持“厌氧/缺氧/好氧-硫自养联合工艺高效脱氮除磷技术研究”，天津城建大学博士科研启动基金项目，2018.06–2020.12，结题，经费合计5万元。

8. 参与“介体催化异养-硫自养"组合新工艺净化高浓度高氯酸盐基础理论和调控策略研究”，天津市自然科学基金重点基金项目（17JCZDJC39300），2017.04-2020.03，结题，经费合计20万。

代表性论文/论著及检索情况

【出版著作与教材】
  　　环境生物介体理论与技术, 科学出版社, 2019

【发表论文】已在国内外学术刊物发表学术论文 30 余篇，主要包括：

[1] Lingxia Li, Xiaoyu Li, Chun Yu, Haibo Li*. Amorphous NiB layer   deposition and piezoelectric field assisted for efficient photocatalytic   degradation of Sb2S3. Journal of Alloys and Compounds, 2024, 175999.

[2] Renhang Li, Haibo Li*, Chao Zhang*, et al. The corncobs-loaded iron   nanoparticles enhanced mechanism of denitrification performance in   microalgal-bacterial aggregates system when treating low COD/TN wastewater.   Journal of Environmental Management, 2024, 122547.

[3] Haochun Zang, Mengyuan Wang, Haibo Li*, et al. Anaerobic baffled   reactor (ABR) coupled step-feeding and effluent recycling for treating high   concentration allicin wastewater with granulation of sludge. Journal of Water   Process Engineering, 2024, 65, 105834.

[4] Lei Peng, Haibo Li*, Jianbo Guo, et al. Enhanced AGS by granular activated   carbon loaded nano iron when treating low strength and low COD/TN ratio   municipal wastewater: microbial metabolism, electron transfer and enhancement   mechanism. Journal of Environmental Chemical Engineering, 2024, 12, 112416.

[5] Nengyao Xu, Jianbo Guo, Cong   Huang, Haibo Li* et al. Effect of   ibuprofen (IBU) on the sulfur-based and calcined pyrite-based autotrophic   denitrification (SCPAD) systems with two filling modes: performance and toxic   response mechanism. Environmental Research, 2023, 239, 117251.

[6] Haibo Li, Yaofeng Li, Zhixian Gao, et al. Effect of   macro-environment and feedback mechanism of EPS and AHLs on simultaneous   nitrifcation, autotrophic denitrifcation and phosphorus removal processes via   sulfur-autotrophic combined with the BAF system. Biochemical Engineering   Journal, 2023, 200: 109069.

[7] Xu Zhang, Tingting Guo, Haibo Li*, et al. A novel sulfur   autotrophic denitrification in-situ coupled sequencing batch reactor system   to treat low carbon to nitrogen ratio municipal wastewater: Performance,   niche equilibrium and pollutant removal mechanisms. Bioresource Technology,   2023, 387: 129609.

[8] Nengyao Xu, Haibo Li, Tingting Guo, et al. Effect of ibuprofen on the sulfur   autotrophic denitrification process and microbial toxic response mechanism.   Bioresource Technology, 2023, 384: 129261.

[9] Haibo Li, Jiali Zhang, Chao Zhang, et al. Responses of anammox   and sulfur/pyrite autotrophic denitrifcation in one-stage system to high   nitrogen load: Performance, metabolic and bacterial community. Journal of   Environmental Management, 2023, 332: 117427.

[10] Shiqi Zhao, Haibo Li*, Jianbo Guo, et al.   Formation of anaerobic granular sludge (AnGS) to treat high-strength   perchlorate wastewater via anaerobic baffled reactor (ABR) system: Electron   transfer characteristic, bacterial community and positive feedback mechanism.   Science of the Total Environment, 2022, 828: 154531.

[11] Denghui Chen, Haibo Li*, Xiaofei Xue, et al.   Enhanced simultaneous partial nitrification and denitrification performance   of aerobic granular sludge via tapered aeration in sequencing batch reactor   for treating low strength and low COD/TN ratio municipal wastewater.   Environmental Research, 2022, 209: 112743.

[12] Haibo Li, Kun Li, Jianbo Guo*, et al. The effect of step-feeding   distribution ratio on high concentration perchlorate removal performance in   ABR system with heterotrophic combined sulfur autotrophic process. Journal of   Hazardous Materials, 2021, 411: 125151.

[13] Haibo Li, Yaofeng Li, Jianbo Guo*, et al. Effect of calcinated   pyrite on simultaneous ammonia, nitrate and phosphorus removal in the BAF   system and the Fe2+ regulatory mechanisms: Electron transfer and bioflm   properties. Environmental Research, 2021, 192: 110708.

[14] Hang Peng, Jianbo Guo*, Haibo Li*, et al. Granulation and   response of anaerobic granular sludge to allicin stress while treating   allicin-containing wastewater. Biochemical Engineering Journal, 2021, 169:   107971.

[15] Yuanyuan Song, Haibo Li*, Yi Han, et al. Landfill   leachate as an additional substance in the Johannesburg-Sulfur autotrophic   denitrification system in the treatment of municipal wastewater with low   strength and low COD/TN ratio. Bioresource Technology, 2020, 295, 122287.

[16] Yaofeng Li, Jianbo Guo*, Haibo Li, et al. Effect of dissolved   oxygen on simultaneous removal of ammonia, nitrate and phosphorus via   biological aerated filter with sulfur and pyrite as composite fillers.   Bioresource Technology, 2020, 296,122340.

[17] Haibo Li, Jianbo Guo*, Jing Lian* et al. The modifed mechanism   for denitrifying granular sludge formation in a UASB reactor. Desalination   and Water Treatment, 2019, 145: 26-35.

[18] Kun Li, Jianbo Guo*, Haibo Li et al. A Combined   Heterotrophic and Sulfur-based Autotrophic Process to Reduce High   Concentration Perchlorate via Anaerobic Baffled Reactors: Performance   Advantages of A Step-feeding Strategy. Bioresource Technology, 2019,   279(Mar): 297~306.

[19] Jianbo Liu, Panyue Zhang*, Haibo Li et al. Denitrification of   Landfill Leachate under Different Hydraulic Retention Time in A Two-stage   Anoxic/oxic Combined Membrane Bioreactor Process: Performances and Bacterial   Community. Bioresource Technology, 2018, 250(Feb): 110~116.

[20] Haibo Li, Beihai Zhou*; Zhiyong Tian* et al. Improving   Anoxic/Aerobic Nutrients Removal from Low COD/TN Ratio Municipal Wastewater   by Enhanced Biological Phosphorus Removal-Sulfur Autotrophic Denitrification   (EBPR-SAD) System. Desalination and Water Treatment, 2017, 95(11): 247-261.

[23] Haibo Li, Beihai Zhou*; Zhiyong Tian* et al. Johannesburg-Sulfur   Autotrophic Denitrification System Treating Low COD/TN Ratio Municipal   Wastewater: Performance, Material Balance and Bacterial Community.   Desalination and Water Treatment, 2017, 59(1): 99-113.

[24] Haibo Li, Beihai Zhou*; Zhiyong Tian et al. Assessing Dissolved   Organic Matter in the Johannesburg-Sulfur Autotrophic Denitrification System   using Excitation-Emission Matrix Fluorescence Spectroscopy with a Parallel   Factor Analysis. Desalination and Water Treatment, 2016, 57(50):23622-23632.

[25] Haibo Li, Beihai Zhou, Zhiyong Tian et al. Efficient biological   nitrogen removal by Johannesburg-Sulfur autotrophic denitrification from low   COD/TN ratio municipal wastewater at low temperature. Environmental Earth   Sciences, 2015, 73(9):5027-5035.

[26] Haibo Li, Jianbo Guo*, Jing Lian et al. Study the biocatalyzing   effect and mechanism of cellulose acetate immobilized redox mediators   technology（CE-RM） on nitrite denitrification.   Biodegradation, 2014, 25(3): 395-404.

[27] Haibo Li, Janbo Guo*, Jing Lian et al. Effective and   characteristics of anthraquinone-2,6-disulfonate (AQDS) on denitrification by   Paracoccus versutus sp.GW1. Environmental Technology, 2013, 34(17):   2563-2570.