博士生导师
李海翔 教授
  1. 作者:环境学院
  2. 浏览:

李海翔老师简介


邮箱:lihaixiang0627@163.com


一、基本情况

男,博士,1984年生,湖北荆州人,现为桂林理工大学环境科学与工程学院副院长、教授博士生导师,桂林理工大学屏风学者,广西碳排放与污染物协同控制高校重点实验室主任,获广西自然科学基金杰出青年基金、广西青年科技奖、广西八桂青年拔尖人才计划。围绕岩溶水污染控制与用水安全保障领域,承担了国家自然科学基金等国家级科研项目6项、广西自然科学基金等省部级科研项目5项,发表高水平学术论文60余篇(其中高被引2篇),出版学术专著3部,编制标准4部,授权发明专利10项;成果获广西科学技术进步奖二等奖1项、环境保护科学技术奖一等奖1项、中国发明协会发明创业奖创新奖一等奖2项;担任广西给水排水学会副理事长、广西化学化工学会资源与环境专业委员会副主任委员、广西环境科学学会理事、《中国给水排水》青年编辑委员会委员、《净水技术》青年编辑委员会委员、城市水资源开发利用(南方)国家工程研究中心专家、桂林市第六届人大常委会智库专家、桂林市叠彩区人民检察院咨询专家等兼职。

二、教育工作经历

2001.9—2005.6,桂林工学院(现桂林理工大学),给排水科学与工程,学士

2005.9—2008.6,桂林工学院(现桂林理工大学),市政工程,硕士

2008.9—2011.8,同济大学,环境工程,博士

2010年8月,美国加州大学伯克利分校和斯坦福大学,访学交流

2011.9—至今,桂林理工大学,环境科学与工程学院,给水排水教研室

2012.1—2013.12,广西壮族自治区环境保护厅,挂职锻炼

三、研究方向及招生专业

水污染控制协同碳减排、微污染水源水治理。本课题组正在招收环境科学与工程、资源与环境、土木工程(市政工程方向)博士研究生,感兴趣的同学可直接通过邮箱进行联系。

四、主持课题项目

[1]沼气基质生物膜同步脱氮固碳机理与方法. 国家自然科学基金面上项目(52470029,2025.1-2028.12),主持,48

[2]基于微生物群感效应的氢基质生物膜反应器生物膜富集动态调控机理与方法. 国家自然科学基金面上项目(51878197,2019.1-2022.12),主持,60万

[3]氢基质生物膜反应器生物膜富集特性及CO2动态调控机理研究. 国家自然科学基金(51768012,2018.1-2021.12),主持,40万

[4]硝酸盐对氢基质生物膜反应器中溴酸盐和高氯酸盐去除的影响机制. 国家自然科学基金(51408146,2015.1-2017.12),主持,25万

[5]生物膜法污水处理协同碳减排. 广西自然科学基金杰出青年基金(2022GXNSFFA035033,2022.4-2026.3),主持,40万

[6]基于CO2为碳源的氢基质生物膜反应器同步去除水中氧化性污染物. 广西自然科学基金面上项目(2016GXNSFAA380204,2016.9-2019.8),主持,5万

[7]氢基质自养微生物去除水中重铬酸盐和砷酸盐的机理与方法. 广西自然科学基金青年基金(2013GXNSFBA019208,2013.4-2016.3),主持,5万

[8]广西农村污水处理设施建设现状及运行情况研究,广西壮族自治区科学技术协会咨询项目,2016年,主持,4万

[9]临桂新区环城水系环境质量评价及综合改善策略研究. 桂林市科学研究与技术开发计划(20150127-6,2015.7-2017.12),主持,10万

[10]灵渠南渠水系综合治理与生态景观利用技术集成示范. 桂林市科学研究与技术开发计划重大专项子课题(20190101-1-5,2019.9-2022.9),主持,8万

五、主要成果

(一)科研论文

[1]Junjian Zheng, Minmin Jiang, Yuchao Chen*, Yuanyuan Zhang, Qiaoyan Wei, Mei Chen, Xingran Zhang, Xuehong Zhang, Haixiang Li*. Hollow fiber layout matters the denitrification performance and mechanism of H2-based membrane biofilm reactor: A comprehensive study of hydrodynamics, bioecology and biokinetics. Water Research, 2025, 281: 123708.

[2]Yuchao Chen, Kun Dong*, Yi Zhang, Minmin Jiang, Junjian Zheng, Xuehong Zhang, Dunqiu Wang, Xiaowu Huang, Yun Zhou, Lijie Zhou, Siqing Xia, Haixiang Li*. The application of membrane biofilm reactor for carbon emission reduction: A waste-to-waste strategy. Journal of Cleaner Production,2025, 495: 145043.

[3]Lijie Zhou, Fei Wu, Pingxiang Ou, Haixiang Li, Wei-Qin Zhuang. Non-electroactive bacteria behave variously in AnMBR biofilm control using electric field. Water Research, 2025, 268: 122646.

[4]Huanfang Huang, Zifeng Chen, Yuru Su, Honghu Zeng, Haixiang Li, Yingjie Chen, Shihua Qi, Wei Chen, Wenwen Chen, Gan Zhang. N-nitrosamines in electroplating and printing/dyeing industrial wastewater treatment plants: Removal efficiency, environmental emission, and the influence on drinking water. Water Research, 2025, 255: 121537.

[5]Chang Mei, Meng Zhang, Yuchao Chen, Kun Dong, Ruize Sun, Xuehong Zhang, Haixiang Li*. Exploring the applications and carbon reduction of multi-technology-coupled membrane biofilm reactors for sustainable wastewater treatment: a review. Environmental Science: Water Research &Technology, 2025, 11: 793-808.

[6]Yinghui Zhang, Kun Dong, Meng Zhang, Xiaofei Wang, Xuehong Zhang, Dunqiu Wang, Ruize Sun*, Haixiang Li*, Wenjie Zhang. Effect of the main properties of membrane materials on denitrification of hydrogen-based membrane biofilm reactors (H2-MBfRs). Journal of Water Process Engineering, 2024, 66: 105975.

[7]Yuchao Chen, Kun Dong, Yiming Zhang, Junjian Zheng, Minmin Jiang, Dunqiu Wang, Xuehong Zhang, Xiaowu Huang, Lijie Zhou*, Haixiang Li*. Enhancing biofilm formation in the hydrogen-based membrane biofilm reactor through bacterial Acyl-homoserine lactones. Frontiers of Environmental Science & Engineering, 2024, 18(11): 142.

[8]Minmin Jiang, Xuehong Zhang, Xingru Dai, Yuanyuan Zhang, Haixiang Li, Qiaoyan Wei, Mei Chen, Junjian Zheng, Robert Nerenberg. How does CO2 supply shape the biofilm microenvironment in denitrifying H2-based membrane biofilm reactor: A modeling study. Journal of Water Process Engineering, 2024, 66: 106005.

[9]Bo Chen, Kun Dong*, Yufeng Xu, Minmin Jiang, Junjian Zheng, Honghu Zeng, Xuehong Zhang, Yuchao Chen, Haixiang Li*. Biodegradation of nitrate and p-bromophenol using hydrogen-based membrane biofilm reactors in parallel. Environmental Technology, 2024, 45(22): 4550-4564.

[10]Haixiang Li, Yu Han, Yanhao Zhang, Xiaojuan Mi, Dunqiu Wang, Yufeng Xu and Kun Dong*. Optimization of nitrogen removal and microbial mechanism of a hydrogen-based membrane biofilm reactor. Environmental Technology, 2024,https://doi.org/10.1080/09593330.2024.2317817.

[11]Fei Wu, Zhihang Zeng, Wenyu Zhang, Haixiang Li, Lijie Zhou, Wei-Qin Zhuang. Functional bacteria and their genes encoding for key enzymes in hydrogen-driven autotrophic denitrification with sulfate loading. Journal of Cleaner Production, 2024, 440: 140901.

[12]Yingjie Chen, Honghu Zeng, Huanfang Huang, Litang Qin, Shihua Qi, Haixiang Li, Asfandyar Shahab, Hao Zhang, Wenwen Chen. Occurrence and fate of N-nitrosamines in full-scale domestic wastewater treatment plants and their impact on receiving waters along the Lijiang River, China. Journal of Hazardous Materials, 2024, 469: 133870.

[13]Ting Wang, Weiyuan Cao, Yingqi Wang, Chao Qu, Yufeng Xu*, Haixiang Li*. Surface modification of quartz sand: A review of its progress and its effect on heavy metal adsorption. Ecotoxicology and Environmental Safety, 2023, 262: 115179.

[14]Jiayu Chen, Juxian Chen, Xi Yue, Haixiang Li, Marc Russenberger, Lijie Zhou*, Wei-Qin Zhuang. Cake layer discrepancy triggered by different pore sizes in an anaerobic membrane bioreactor. Journal of Water Process Engineering, 2023, 56: 104493.

[15]Jiaqi Wei, Yuanyuan Zhang, Jinxing Ma, Shanshan Wang, Minmin Jiang, Qiaoyan Wei, Mei Chen, Xiaowu Huang, Haixiang Li, Xuehong Zhang, Junjian Zheng. Electrochemical detoxification of tetrabromobisphenol A-contaminated water using Ti/SnO2-Sb/PbO2-Ce anodic membrane. Journal of Water Process Engineering, 2023, 56: 104531.

[16]Lijie Zhou*, NanDong, Manki Fu, Xi Yue, Yixin Jian*, Haixiang Li, Marc Russenberger, Weiqin Zhuang. Dissimilatory sulfate reduction in an anaerobic biofilm reactor for tofu processing wastewater treatment: Bacterial community and their functional genes. Science of the Total Environment, 2023, 892: 164579.

[17]Yichang Shen, Zhihang Zeng, Xi Yue, Haixiang Li, Hukerenui Bonnet, Lijie Zhou*, Wei-Qin Zhuang. The impact of perfluorooctanoic acid shock on hydrogen-driven nitrate and arsenate removal. Environmental Pollution, 2023, 335: 122261.

[18]Kun Dong, Wubin Wang, Min Li, Xinyu Zhou, Yutong Huang, Guozhi Zhou, Yufeng Xu, Dunqiu Wang, Haixiang Li*. Degradation of sulfonamide antibiotics in the rhizosphere of two dominant plants in Huixian karst wetland, Guangxi, China. Water Reuse, 2023, 13(1): 19-32.

[19]Minmin Jiang, Yuanyuan Zhang, Junjian Zheng*, Haixiang Li*, Jinxing Ma, Xingran Zhang, Qiaoyan Wei, Xueye Wang, Xuehong Zhang, Zhiwei Wang. Mechanistic insights into CO2 pressure regulating microbial competition in a hydrogen-based membrane biofilm reactor for denitrification. Chemosphere, 2022, 303: 134875.

[20]Minmin Jiang, Yuanyuan Zhang, Jie Zhang, Xingru Da, Haixiang Li*, Xuehong Zhang, Zhichao Wu, Junjian Zheng*. Model evaluation of the microbial metabolic processes in a hydrogen-based membrane biofilm reactor for simultaneous bromate and nitrate reduction. Membranes, 2022, 12: 774.

[21]Haixiang Li, Ruize Sun, Xuehong Zhang, Hua Lin, Yi Xie, Yu Han, Yongxing Pan, Dunqiu Wang*, Kun Dong*. Characteristics of denitrification and microbial community in respect to various H2 pressures and distances to the gas supply end in H2-based MBfR. Frontiers in Microbiology, 2022, 13: 1023402.

[22]Xinghui Feng, Xiaojun Wang, Haixiang Li, Haiya Zhang, Zongqiang Zhu, Yanpeng Liang, Kun Dong, Honghu Zeng*. Integration of zeolite membrane bioreactor with granular sludge-based anammox in high-efficiency nitrogen removal from iron oxide red Wastewater. Frontiers in Microbiology, 2022, 13: 932940.

[23]Kun Dong, Xinghui Feng, Yi Yao, Zongqiang Zhu, Hua Lin, Xuehong Zhang, Dunqiu Wang, Haixiang Li*. Nitrogen removal from nitrate-containing wastewaters in hydrogen-based membrane biofilm reactors via hydrogen autotrophic denitrification: Biofilm structure, microbial community and optimization strategies. Frontiers in Microbiology, 2022, 13: 924084.

[24]Xiaoyu Zhu*, Huanhuan Huang, Yong He, Xinyu Wang, Jia Jia, Xin Feng, Dong Li, Haixiang Li. A preliminary study on the feasibility of industrialization for n-caproic acid recovery from food wastewater: From lab to pilot. Bioresource Technology, 2022, 366: 128154.

[25]Yucheng Jiao, Qiang Yuan, Wubin Wang, Lingling Yan, Xiaoying Mu, Haixiang Li*, Songhe Zhang*. Vallisnerian natans tolerance and response of microbial community in wetlands to excess nutrients loading. Ecological Indicators, 2021, 131: 108179.

[26]Kun Dong, Xinghui Feng, Wubin Wang, Yuchao Chen, Wei Hu, Haixiang Li*, Dunqiu Wang*. Simultaneous partial nitrificationand denitrification maintained in membrane bioreactor for nitrogen removal and hydrogen autotrophic denitrification for further treatment. Membranes, 2021, 11: 911.

[27]Yongli Qin, Qiaoyan Wei, Yuanyuan Zhang, Haixiang Li, Yongrong Jiang*, Junjian Zheng*. Nitrogen removal from ammonium-and sulfate-rich wastewater in an upflow anaerobic sludge bed reactor: performance and microbial community structure. Ecotoxicology, 2021, 30: 1719–1730.

[28]Lijie Zhou, Bikai Zhao, Pingxiang Ou, Wenyu Zhang, Haixiang Li, Shan Yi, Weiqin Zhuang. Core nitrogen cycle of biofoulant in full-scale anoxic & oxic biofilm-membrane bioreactors treating textile wastewater. Bioresource Technology, 2021, 325: 124667.

[29]Minmin Jiang, Junjian Zheng, Patricia Perez-Calleja, Cristian Picioreanu, Hua Lin, Xuehong Zhang, Yuanyuan Zhang, Haixiang Li*, Robert Nerenberg*. New insight into CO2-mediated denitrification process in H2-based membrane biofilm reactor: An experimental and modeling study. Water Research, 2020, 184: 116177.

[30]Minmin Jiang, Yuanyuan Zhang, Yuhang Yuan, Yuchao Chen, Hua Lin, Junjian Zheng*, Haixiang Li*, Xuehong Zhang. Nitrate removal and dynamics of microbial community of a hydrogen-based membrane biofilm reactor at diverse nitrate loadings and distances from hydrogen supply end. Water, 2020, 12: 3196.

[31]Sze-Mun Lam*, Jin-Chung Sin, Hua Lin, Haixiang Li, Honghu Zeng*. Greywater and bacteria removal with synchronized energy production in photocatalytic fuel cell based on anodic TiO2/ZnO/Zn and cathodic CuO/Cu. Chemosphere, 2020, 245: 125565.

[32]Jin-Chung Sin*, Sze-MunLam, Honghu Zeng*, Hua Lin, Haixiang Li, Aravind Kugan Kumaresan, Abdul Rahman Mohamed, Jun-Wei Lim. Z-scheme heterojunction nanocomposite fabricated by decorating magnetic MnFe2O4 nanoparticles on BiOBr nanosheets for enhanced visible light photocatalytic degradation of 2,4-dichlorophenoxyacetic acid and Rhodamine B. Separation and Purification Technology, 2020, 250: 117186.

[33]Sze-Mun Lam*, Jin-Chung Sin, Hua Lin, Haixiang Li, Jun Wei Lim, Honghu Zeng*. A Z-scheme WO3 loaded-hexagonal rod-like ZnO/Zn photocatalytic fuel cell for chemical energy recuperation from food wastewater treatment. Applied Surface Science, 2020, 514: 145945.

[34]Jin-Chung Sin*, Sze-Mun Lam, Honghu Zeng*, Hua Lin, Haixiang Li, Abdul Rahman Mohamed. Constructing magnetic separable BiOBr/MnFe2O4 as efficient Z-scheme nanocomposite for visible light-driven degradation of palm oil mill effluent and inactivation of bacteria. Materials Letters, 2020,175: 128112.

[35]Haixiang Li#, Lijie Zhou#, Hua Lin, Wenjie Zhang, Siqing Xia*. Nitrate effects on perchlorate reduction in a H2/CO2-based biofilm. Science of the Total Environment, 2019, 694: 133564.

[36]Xiaoning Liu, Huaqin Wang, Haixiang Li, Yue Jin, Wenjie Zhang*. Carbon sequestration pathway of inorganic carbon in partial nitrification sludge. Bioresource Technology, 2019, 293: 122101.

[37]Mi Feng*, Haixiang Li, Shaohong You, Jun Zhang, Hua Lin, Meiqian Wang, Jiahua Zhou. Effect of hexavalent chromium on the biodegradation of tetrabromobisphenol A (TBBPA) by Pycnoporus sanguineus. Chemosphere, 2019, 235: 995-1006.

[38]Haixiang Li#, Lijie Zhou#, Hua Lin, Xiaoyin Xu, Renyong Jia, Siqing Xia*. Dynamic response of biofilm microbial ecology to para-chloronitrobenzene biodegradation in a hydrogen-based, denitrifying and sulfate-reducing membrane biofilm reactor. Science of the Total Environment, 2018, 643: 842-849.

[39]Haixiang Li, Hua Lin, Xiaoyin Xu, Minmin Jiang, Chein-Chi Chang, Siqing Xia*. Simultaneous bioreduction of multiple oxidized contaminants using a membrane biofilm reactor. Water Environment Research, 2017, 89(2): 178-185.

[40]Haixiang Li, Zhiqiang Zhang, Xiaoyin Xu, Jun Liang, Siqing Xia*. Bioreduction of para-chloronitrobenzene in a hydrogen-based hollow-fiber membrane biofilm reactor: effects of nitrate and sulfate. Biodegradation, 2014, 25(2): 205-215.

(二)专著教材

[1] 李海翔, 林华, 陆兰晶, 曾鸿鹄. 硝基苯类化合物高级氧化与生物还原处理技术研究. 北京: 中国环境出版社, 2014年6

[2] 刘立恒, 林华, 李海翔, 许立巍. 污泥活性炭的制备、表征及应用. 北京:中国环境出版社, 2017年03

[3] 中国高等教育学会. 新时代高校理论与实践教学深度融合若干问题观察报告(2019). 北京: 北京理工大学出版社, 2020年9月(编委会成员

[4] 曾鸿鹄, 林华, 李海翔, 朱宗强, 张帅普, 舒小华, 夏源. 新工科背景下的地方高校环境类专业改造升级探索与实践. 北京: 中国环境出版集团, 2021.06

[5] 曾鸿鹄, 李海翔, 陆燕勤. 现代水业认知与探索. 北京: 中国环境出版集团, 2022, 06

(三)标准

[1] 铅锌矿尾矿库植被生态修复技术规程(T/GXAS 925-2024)(排名5)

[2] 农村分散式供水户用型慢滤池建设规范(T/GXAS 322-2022)(排名5)

[3] 农村分散式供水系统技术指引(T/GXAS 183-2021)(排名2)

[4] 城镇污水处理厂升级改造技术指南(DB45/T 1185-2015)(排名10)

)专利

[1] 李海翔;陈博;丁婉莹;蒋敏敏;郑君健;张媛媛;董堃;林华;张文杰;金樾;张学洪. Hydrogen-based membrane biofilm reactor system and method for treating 4-bromophenol in tertiary industrial wastewater. 南非专利: 2023/10773, 2024-6-26

[2] 李海翔;董堃;蒋敏敏;郑君健;张媛媛;陈宇超;林华;张文杰;张学洪;曾鸿鹄;冯兴会.一种低碳氮比污水同步脱氮除氮的方法. 中国专利: ZL202110033358.4, 2023-7-25

[3] 李海翔;王武斌;代俊峰;莫凌云;覃礼堂;曾鸿鹄;林华;王敦球;张学洪. 一种组合式梯形生态沟渠. 中国专利: ZL202010598199.8, 2022-5-3

[4] 李海翔;王武斌;郑君健;张媛媛;蒋敏敏;代俊峰;莫凌云;覃礼堂;曾鸿鹄;林华;王敦球;张学洪. 一种复合式有机废水处理系统. 中国专利: ZL202110646777.5, 2022-8-9

[5] 董堃;李海翔;苑宇航;张艺鸣;陈宇超;林华;张文杰;孙晓杰;韦威;卢隽. 一种厌氧氨氧化与氢自养反硝化耦合深度脱氮的装置.中国专利:ZL201920205267.2, 2019-10-25

[6] 莫华涛;李海翔;王蓬;朱晓峰;张康. 一种液体采集装置. 中国专利: ZL201721885198.1, 2018-7-31

[7] 凃月;李海翔;姜磊;梅德均;汤传武;吴磊;王敦球. 一种模拟表面流湿地反应器. 中国专利: ZL201820211192.4, 2018-10-23

[8] 蒋敏敏;李海翔;韩亚梅;张欢;林华;张学洪;曾鸿鹄;莫凌云. 一种氢基质生物膜反应器及其去除地下水中高氯酸盐的方法. 中国专利: ZL201710114909.3, 2020-5-1

[9] 韩亚梅;李海翔;蒋敏敏;张欢;林华;张学洪;曾鸿鹄;莫凌云. 一种氢基质生物膜反应器在去除饮用水中溴酸盐中的应用. 中国专利: ZL201710114910.6, 2020-5-15

[10] 林华;陈功宁;王义安;李海翔;莫凌云;徐旭. 一种绿色硅肥及其制备方法. 中国专利: ZL201811489753.8, 2021-7-6

)获奖情况

[1]第十七届广西青年科技奖. 2023.11

[2]西南岩溶农业活动区水安全保障关键技术研发与应用. 2022年度环境保护科学技术奖一等奖, 排名2/11, 2022.12

[3]膜法污水深度处理协同碳减排关键技术及应用. 中国发明协会发明创业奖创新奖一等奖,排名1/6, 2022.10

[4]农业活动区水土复合污染防控及其风险评估. 中国发明协会发明创业奖创新奖一等奖,排名2/6, 2021.11

[5]基于陶瓷平板膜生物反应器(CMBR)的高浓度废水协同处理技术开发与应用. 广西科学技术进步二等奖,排名4/8, 2017.4

[6]认证驱动、实践赋能、多元协同:地方高校环境类一流本科专业建设探索与实践. 2023年广西高等教育自治区级教学成果奖等奖,排名3/12,2024.1

[7]新工科背景下的地方高校环境类专业升级改造探索与实践. 2021年广西高等教育自治区级教学成果奖一等奖,排名3/12,2021.10

[8]面向产业需求的环境类创新应用型人才“四位一体”培养体系建设与实践. 广西高等教育自治区级教学成果奖一等奖,排名6/17,2019.12

[9]认证导向、学科交融、品牌塑造——给排水科学与工程专业建设改革与实践. 广西高等教育自治区级教学成果奖一等奖,排名5/12,2017.6

六、学术或社会兼职

[1] 广西给水排水学会副理事长(2025-至今)

[2] 广西环境科学学会理事(2024-至今)

[3] 广西化学化工学会资源与环境专业委员会副主任委员(2024-至今)

[4] 《中国给水排水》青年编辑委员会委员(2020-至今)

[5] 《净水技术》青年编辑委员会委员(2021-至今)

[6] 城市水资源开发利用(南方)国家工程研究中心专家库专家(2021.4-2024.3)

[7] 第四届广西壮族自治区环境保护产业协会专家(2019.5-2023.4)

[8] 桂林市第六届人大常委会智库专家(2023-至今)

[9] 桂林市叠彩区人民检察院咨询专家(2022-至今)


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