周礼杰 (Lijie Zhou)

E-mail: pakerzhou@szu.edu.cn; pakerzhou@gmail.com; pakerzhou@163.com

地址 (Address)：深圳市南山区学苑大道深圳大学西丽校区化学与环境工程学院514室

College of Chemistry and Environmental Engineering Room 514, Shenzhen University, Xueyuan Ave, Nanshan, Shenzhen, Guangdong, PR China, 518000

1. 个人简介 (Biography)

周礼杰，男，博士，2017年7月进入深圳大学化学与工程学院，现任环境工程系副教授。2016年3月毕业于同济大学，获环境工程博士学位，主要从事水处理技术及其资源化领域研究，重点对膜生物反应器及其膜污染、氢基质生物膜反应器、厌氧氨氧化、剩余污泥资源化等方向进行较深入分析，并在 Water Research、Chemical Engineering Journal、Bioresource Technology、Applied Microbiology and Biotechnology等国内外著名杂志发表过多篇学术论文。

Dr. Lijie Zhou is serving as the associate professor in Department Environmental Engineering of College of Chemistry and Environmental Engineering at Shenzhen University, PR China. He got his doctor degree of environmental engineering from Tongji Unviersity at March 2016. Lijie is focus on the research area of water treatment technology and its resourceful treatment, especially membrane bioreactor and its biofouling, membrane H₂-based membrane biofilm reactor, Anammox, sludge treatment, etc. Lijie has published papers on journals of Water Research、Chemical Engineering Journal、Bioresource Technology、Applied Microbiology and Biotechnology, etc.

2. 教育背景 (Education)

2010-2016，同济大学，环境工程，导师夏四清教授，获博士学位；

2013-2015，加州大学伯克利分校，导师Lisa Alvarez-Cohen院士，联合培养博士生；

2006-2010，中山大学，环境工程，获学士学位。

2010-2016: Ph.D, Environmental Engineering, Tongji University, supervisor Prof. Siqing Xia;

2013-2015: Visiting Scholar, UC Berkeley, supervisor Prof. Lisa Alvarz-Cohen;

2006-2010; B.S, Environmental Engineering, Sun Yat-sen University.

（1）膜生物反应器（Membrane Bioreactor, MBR）及其膜污染

膜生物反应器是一种将微滤或超滤膜技术与生物处理工艺结合的废水处理技术。它能有效去除悬浮固体和营养物，提供高质量的出水。然而，MBR系统中的膜污染是一个主要挑战，它涉及生物性、无机和有机物质在膜表面的积累，导致通量下降和操作成本增加。解决膜污染的策略包括优化水力和污泥管理、定期清洗和采用抗污染膜材料。

（2）氢基质生物膜反应器（Hydrogen-Based Membrane Bioreactor, HBMBR）

氢基质MBR是一种利用氢气作为补充底物来增强生物处理效率的技术。它通过促进特定微生物群落的生长，提高系统中的硝化和反硝化反应，从而更有效地去除氨氮和硝酸盐。氢基质MBR在处理高氨氮废水方面显示出巨大潜力，能够实现更高的氮去除率和更低的能耗。

（3）硫驱动脱氮（Sulfur-Driven Denitrification）

硫驱动脱氮是一种生物过程，通过硫氧化细菌将硫化合物转化为硫酸盐，同时利用硫氧化过程中释放的能量将硝酸盐还原为氮气。这种方法为含硝酸盐废水的处理提供了一种环境友好型的替代技术，尤其适用于那些碳源受限的环境。

（4）厌氧氨氧化（Anammox）

厌氧氨氧化是一种由特定微生物（anammox细菌）介导的生物过程，能够直接将氨氮和亚硝酸盐氮转化为氮气。与传统的硝化-反硝化过程相比，厌氧氨氧化不需要额外的有机碳源，能耗更低，产生的污泥量更少。这一过程在处理低C/N比的废水中尤为有效。

（5）剩余污泥资源化（Sludge Resource Recovery）

剩余污泥资源化是指将污水处理过程中产生的污泥转化为有价值的资源，如能源和肥料。这包括通过厌氧消化回收生物质能源（如沼气）、通过热化学处理回收磷元素、以及通过堆肥和土地应用利用污泥中的有机质。剩余污泥资源化不仅减少了废物处理的环境影响，还提供了经济上的收益。

2024：

[1]Lijie Zhou^*, Fei Wu, Yongzhou Lai, Bikai Zhao, Wenyu Zhang, Bruce E. Rittmann^*, Cooperation and competition between denitrification and chromate reduction in a hydrogen-based membrane biofilm reactor, Water Research, 2024, 259:121870.

[2]Nan Dong, Zhihang Zeng, Marc Russenberger, Lijie Zhou^*, Wei-Qin Zhuang, Investigating cake layer development and functional genes in formate- and acetate-driven heterotrophic denitrifying AnMBRs, Chemical Engineering Journal, 2024, 485:149623.

[3]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.

2023：

[1]Lijie Zhou^*, Bikai Zhao, Wei-Qin Zhuang, Double-edged sword effects of dissimilatory nitrate reduction to ammonium (DNRA) bacteria on anammox bacteria performance in an MBR reactor, Water Research, 2023, 233:119754.

[2]Lijie Zhou^*, Yongzhou Lai, Zhiyuan Shao, Yixin Jian, Wei-Qin Zhuang, Keystone bacteria in a thiosulfate-driven autotrophic denitrification microbial community, Chemical Engineering Journal, 2023, 470: 1444321.

[3]Lijie Zhou^*, Nan Dong, Manki Fu, Xi Yue, Yixin Jian^*, Haixiang Li, Marc Russenberger, Wei-Qin 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.

[4]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.

[5]Zhiyuan Shao, Yichang Shen, Zhihang Zeng, Yixin Jian, Marc Russenberger, Lijie Zhou^*, Wei-Qin Zhuang, Nitrogen removal crash of denitrification in anaerobic biofilm reactor due to dissimilatory nitrate reduction to ammonium (DNRA) for tofu processing wastewater treatment: Based on microbial community and functional genes, Journal of Water Process Engineering, 2023, 51:103408.

[6]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.

2022：

[1]Lijie Zhou^*, Pingxiang Ou, Zhiyuan Shao, Yichang Shen, Jiahao Lu, Wei-Qin Zhuang, Dissimilatory sulfate reduction in the cake layer of a full-scale anaerobic dynamic membrane bioreactor for hotel laundry wastewater treatment: Bacterial community and functional genes, Bioresource Technology, 2022, 351:127026.

[2]Lijie Zhou^*, Yongzhou Lai, Rongjie Zeng, Bikai Zhao, Yixin Jian, Pingxiang Ou, Wenyu Zhang, How Yong Ng^*, Wei-Qin Zhuang, Core carbon fixation pathways associated with cake layer development in an anoxic-oxic biofilm-membrane bioreactor treating textile wastewater, Science of the Total Environment, 2022, 835:155483.

[3]Lijie Zhou^*, Bikai Zhao, Yuanzhong Lin, Zhiyuan Shao, Rongjie Zeng, Yichang Shen, Wenyu Zhang, Yixin Jian, Wei-Qin Zhuang, Identification of dissimilatory nitrate reduction to ammonium (DNRA) and denitrification in the dynamic cake layer of a full-scale anoixc dynamic membrane bioreactor for treating hotel laundry wastewater, Chemosphere, 2022, 307:136078.

2021：

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

[2]Lijie Zhou^*, Pingxiang Ou, Bikai Zhao, Wenyu Zhang, Ke Yu, Kang Xie, Wei-Qin Zhuang, Assimilatory and dissimilatory sulfate reduction in the bacterial diversity of biofoulant from a full-scale biofilm-membrane bioreactor for textile wastewater treatment, Science of the Total Environment, 2021, 772:145464.

[3]Lijie Zhou^*, Nan Dong, Biao Ye, Wei-Qin Zhuang, Siqing Xia^*, Assessing effects of Ca²⁺ addition on membrane bioreactor performance and macro-floc sludge characteristics, Science of the Total Environment, 2021, 798:149223.

[4]Lijie Zhou, Hongwu Wang, Zhiqiang Zhang, Jian Zhang, Hongbin Chen, Xuejun Bi, Xiaohu Dai, Siqing Xia^*, Lisa Alvarez-Cohen, Bruce E. Rittmann, Novel perspective for urban water resource management: 5R generation, Frontier Environmental Science & Engineering, 2021, 15(1): 16.

2020：

[1]Ray Keren^#, Jennifer Lawrence^#, Weiqin Zhuang, David Jenkins, Jillian Banfield, Lisa Alvarez-Cohen, Lijie Zhou*, Ke Yu*, Increased replication of dissimilatory nitrate-reducing bacteria leads to decreased anammox bioreactor performance, Microbiome, 2020, 8:7. (#co-firstauthor) (IF=11.356)

[2]Lijie Zhou^*,#, Ying Gao^#, Ke Yu^#, Hong Zhou, Yashika G. De Costa, Shan Yi, Wei-Qin Zhuang, Microbial community in in-situ waste sludge anaerobic digestion with alkalization for enhancement of nutrient recovery and energy generation, Bioresource Technology, 2020, 169:122277. (#co-firstauthor)

[3]Lijie Zhou*, Wenyu Zhang, Yashika G. De Costa, Wei-Qin Zhuang, Shan Yi, Assessing inorganic components of cake layer in A/O membrane bioreactor for physical-chemical treated tannery effluent, Chemosphere, 2020, 250:126220.

2019：

[1]Lijie Zhou*, Biao Ye, Siqing Xia*, Structural characteristics of cake layer in membrane bioreactor with chromate exposure, Ecotoxicology and Environmental Safety, 2019, 169:583-589.

[2]Lijie Zhou*, Wei-Qin Zhuang, Yashika G. De Costa, Siqing Xia*, Potential effects of suspended TiO₂ nanoparticles on activated sludge floc properties in membrane bioreactors, Chemosphere, 2019, 223:148-156.

[3]Siqing Xia, Xiaoyin Xu, Lijie Zhou*, Insights into selenate removal mechanism of hydrogen-based membrane biofilm reactor for nitrate-polluted groundwater treatment based on anaerobic biofilm analysis, Ecotoxicology and Environmental Safety, 2019, 178:123-129.

[4]Lijie Zhou*, Biao Ye, Siqing Xia*, Assessment of membrane bioreactor fouling with the addition of suspended aluminum nitride nanoparticles, Chemosphere, 2019, 237:124473.

[5]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. (#co-firstauthor)

2018：

[1]Lijie Zhou*, Wei-Qin Zhuang, Yashika G. De Costa, In situ and short-time anaerobic digestion coupled with alkalization and mechanical stirring to enhance sludge disintegration for phosphate recovery, Chemical Engineering Journal, 2018, 351:878-885.

[2]Lijie Zhou, Xiaoyin Xu*, Siqing Xia*, Effects of sulfate on simultaneous nitrate and selenate removal in a hydrogen-based membrane biofilm reactor for groundwater treatment: Performance and biofilm microbial ecology, Chemosphere, 2018, 211:254-260.

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

[4]Lijie Zhou*, Ming Zhao, Siqing Xia*，Sludge aggregation and biofouling mitigation in A/O-MBR treating anaerobically digested swine slurry with PAC/PAM flocculation pretreatment，Desalination and Water Treatment，2018, 131:194-205.

2017:

[1]Lijie Zhou*, Biao Ye, Siqing Xia*, Assessing membrane biofouling and its gel layer of anoxic/oxic membrane bioreactor for megacity municipal wastewater treatment during plum rain season in Yangtze River Delta, China, Water Research, 2017, 127:22-31.

[2]Lijie Zhou, Wei-Qin Zhuang, Xin Wang, Ke Yu, Shufang Yang, Sinqing Xia*, Potential effects of loading nano zero valent iron discharged on membrane fouling in an anoxic/oxic membrane bioreactor, Water Research, 2017, 111: 140-146.

[3]Lijie Zhou*, Wei-Qin Zhuang, Xin Wang, Ke Yu, Shufang Yang, Siqing Xia, New insights into comparison between synthetic and practical municipal wastewater in cake layer characteristic analysis of membrane bioreactor, Bioresource Technology, 2017, 244:934-940.

[4]Lijie Zhou*, Wei-Qin Zhuang, Biao Ye, Y.G. De Costa, Xin Wang, Ke Yu, Shan Yi, Shufang Yang, Siqing Xia*, Inorganic characteristics of cake layer in A/O MBR for anaerobically digested leachate from municipal solid waste incineration plant with MAP pretreatment, Chemical Engineering Journal, 2017, 327: 71-78.

[5]Lijie Zhou, Wei-Qin Zhuang, Xin Wang, Ke Yu, Shufang Yang, Siqing Xia*, Potential acute effects of suspended aluminum nitride (AlN) nanoparticles on soluble microbial products (SMP) of activated sludge, Journal of Environmental Sciences, 2017，57: 284-292.

[6]Xin Wang, Xuejiang Wang*, Jianfu Zhao, Jingke Song, Lijie Zhou, Jiayi Wang, Xin Tong, Yongsheng Chen*, An alternative to in situ photocatalytic degradation of microcystin-LR by worm-like N, P co-doped TiO2/expanded graphite by carbon layer (NPT-EGC) floating composites, Applied Catalysis B: Environmental, 2017, 206: 479-489.

[7]Xin Wang, Xuejiang Wang*, Jianfu Zhao, Jingke Song, Lijie Zhou, Rongrong Ma, Jiayi Wang, Xin Tong, Yongsheng Cheng*, Efficient visible light-driven in situ photocatalytic destruction of harmful alga by worm-like N, P co-doped TiO2/expanded graphite carbon layer (NPT-EGC) floating composites, Catalysis Science & Technology, 2017, 7: 2335-2346.

[8]周礼杰, 王鑫, 韩倩，朱婷婷，成功，夏四清*，C₈-oxo-HSL对 P. aeruginosa 在污水处理中生长特性影响, 中国环境科学, 2017, 37(5): 1930-1936.

2012-2016:

[1]Lijie Zhou, Zhiqiang Zhang, Siqing Xia*, Characteristics of dissolved organic matters in submerged membrane bioreactor with low-concentration Cr (VI), Desalination and Water Treatment, 2016, 57: 8927-8934.

[2]Lijie Zhou, Ming Zhao, Liang Feng, Xin Wang, Xiaoyin Xu, Siqing Xia*, Performance and bacterial community structure of an anoxic/oxic membrane bioreactor treating anaerobically digested piggery wastewater. Desalination and Water Treatment, 2016, 57: 28581-28591.

[3]Lijie Zhou, Siqing Xia*, Lisa Alvarez-Cohen, Structure and distribution of inorganic components in the cake layer of a membrane bioreactor treating municipal wastewater, Bioresource Technology, 2015, 192: 586-591;

[4]Xin Wang, Wei Wang, Xuejiang Wang*, Jing Zhang, Jianfu Zhao, Zaoli Gu, Lijie Zhou, Synthesis, structural characterization and evaluation of floating B-N codoped TiO₂/expanded perlite composites with enhanced visible light photoactivity, Applied Surface Sciences, 2015, 349(15): 264-271.

[5]Xin Wang, Wei Wang, Xuejiang Wang*, Jing Zhang, Zaoli Gu, Lijie Zhou, Jianfu Zhao, Enhanced visible light photocatalytic activity of a floating photocatalyst based on B–N-codoped TiO₂ grafted on expanded perlite, RSC Advance, 2015, (5): 41385-41392.

[6]Lijie Zhou, Zhiqiang Zhang, Siqing Xia*, et al. Effects of suspended titanium dioxide nanoparticles on cake layer formation in submerged membrane bioreactor, Bioresource Technology, 2014, 152: 101-106;

[7]Siqing Xia, Lijie Zhou*, Zhiqiang, et al. Removal mechanism of low-concentration Cr (VI) in a submerged membrane bioreactor activated sludge system, Applied Microbiology and Biotechnology, 2015, 99(12): 5351-5360.

[8]Lijie Zhou, Siqing Xia*, Zhiqiang Zhang, et al. Effects of pH, Temperature and Salinity on Extracellular Polymeric Substances of Pseudomonasaeruginosa Biofilm with N-(3-Oxooxtanoyl)-L-Homoserine Lactone Addition，Journal of Water Sustainability, 2015, 4(2): 91-100.

[9]Lijie Zhou, Zhiqiang Zhang, Wei Jiang, et al. Effects of low-concentration Cr (VI) on the performance and the membrane fouling of a submerged membrane bioreactor in the treatment of municipal wastewater, Biofouling, 2014, 30(1): 105-114.

[10]Lijie Zhou, Zhiqiang Zhang, Xiangzhou Meng, et al. New insight into the effects of Ca (II) on cake layer structure in submerged membrane bioreactors, Biofouling, 2014, 30 (5): 571-578.

[11]Siqing Xia*, Shuang Shen, Xiaoyin Xu, Jun Liang, Lijie Zhou, Arsenic removal from groundwater by acclimated sludge under autohydrogenotrophic conditions, Journal of Environmental Sciences (China), 2014, 26(2): 248-255.

[12]Xiaoyin Xu, Siqing Xia*, Lijie Zhou, et al. Bioreduction of vanadium (V) in groundwater by autohydrogentrophic bacteria: mechanisms and microorganisms, Journal of Environmental Sciences, 2014, 26(2): 248-255.

[13]Awoke Guadie, Siqing Xia*, Wei Jiang, Lijie Zhou, et al. Enhanced struvite recovery from wastewater using a novel cone-inserted fluidized bed reactor, Journal of Environmental Sciences, 2013, 26(4): 765-774.

[14]冯亮，赵明，周礼杰等, 化学絮凝预处理对A/O-MBR处理养猪沼液的影响, 工业水处理, 2013, 33(2): 16-19.

[15]叶标，胡青，周礼杰等, 磷酸铵镁法去除垃圾渗滤也中高浓度氨氮的研究, 环境污染与防治, 2013, 33(2): 31-35.

[16]周云，周礼杰，叶标等, 新型包埋污泥EPS吸附小球对含Cd²⁺废水吸附性能的研究, 水处理技术, 2013, 39(6):20-23.

[17]Siqing Xia*, Lijie Zhou, Zhiqiang Zhang, et al. Influence and mechanism of N-(3-oxooxtanoyl)-L-homoserine lactone (C₈-oxo-HSL) on biofilm behaviors at early stage, Journal of Environmental Sciences, 2012, 24(12): 2035-2040.

个人获奖：

1.广东省珠江计划青年拔尖人才

2.深圳市海外高层次人才

3.深圳市南山区领航人才

4.广东省本科高校课程思政优秀案例，二等奖

5.第六届全国高等学校教师直制实验教学仪器设备创新大赛自由设计类，三等奖

6.深圳大学优秀本科教师奖（2021-2022）

7.深圳大学化学与环境工程学院“优秀竞赛指导奖”（2020-2021）

8.深圳大学优秀本科教师奖（2018-2019）

9.深圳大学优秀实习指导教师（2017）

10.深圳大学军训先进个人（2019）（2020）

11.深圳大学腾讯益友奖-优秀班主任（2020）

科研项目：

1.广东省普通高校特色创新项目（2023.10-2025.10）

2.广东省自然科学基金-面上项目（2023.1-2025.12）

3.深圳市高等院校支持计划稳定支持-面上项目（2022.9-2024.8）

4.广东省自然科学基金-面上项目（2021.1-2023.12）

5.国家自然科学基金-青年项目（2018.1-2020.12）

教学项目：

1.深圳大学教学改革研究项目（2021-2023）

2.深圳大学学术学位研究生示范性seminar课程（2018-2019）

3.深圳大学教学改革研究项目（2018-2020）

4.国家虚拟仿真实验教学项目（2019-2022）

5.国家虚拟仿真实验教学项目（2018-2021）

指导学生获奖：

1.第四届“深水杯”全国大学生给排水科技创新大赛，优胜奖（张婕、陈鋆颐）

2.全国大学生生命科学竞赛（2023，科学探究类）广东省三等奖

3.全国大学生生命科学竞赛（2022，创新创业类）国家级三等奖

4.第四届全国大学生市政环境类创新实践技能大赛华南赛区化验赛三等奖

5.第四届全国大学生市政环境类创新实践技能大赛华南赛区化验赛一等奖

本课题组正在招收环境科学与工程方向、环境生物技术、化学等方向的学生，感兴趣的同学可直接通过邮箱pakerzhou@szu.edu.cn进行联系。

组内本科生成员：

2019级 邵志远

论文：《Nitrogen removal crash of denitrification in anaerobic biofilm reactor due to dissimilatory nitrate reduction to ammonium (DNRA) for tofu processing wastewater treatment: Based on microbial community and functional genes》（独立一作）

获奖：

深圳大学荔园之星

双创之星一等奖

优秀学生干部一等奖

2020级

傅敏琪

获奖：

全国大学生生命科学竞赛（2023，科学探究类）广东省三等奖

第四届全国大学生市政环境类创新实践技能大赛华南赛区化验赛三等奖

深圳大学港澳及华侨学生一等奖奖学金

化学与环境工程学院院长奖学金“飞扬-双创之星”

梁咏诗

获奖：

全国大学生生命科学竞赛（2022，创新创业类）国家级三等奖

全国大学生生命科学竞赛（2023，科学探究类）广东省三等奖

第四届全国大学生市政环境类创新实践技能大赛华南赛区化验赛三等奖

深圳市优秀学生骨干

深圳大学优秀学生干部一等奖

腾讯益友奖“优秀新生导生”

化学与环境工程学院院长奖学金“飞扬-双创之星”

陈嘉钰

论文：《Cake layer discrepancy triggered by different pore sizes in an anaerobic membrane bioreactor》（共同一作）

获奖：

全国大学生生命科学竞赛（2022，创新创业类）国家级三等奖

全国大学生生命科学竞赛（2023，科学探究类）广东省三等奖

第四届全国大学生市政环境类创新实践技能大赛华南赛区化验赛三等奖

深圳大学优秀学生干部一等奖

陈聚贤

论文：《Cake layer discrepancy triggered by different pore sizes in an anaerobic membrane bioreactor》（共同一作）

获奖：

全国大学生生命科学竞赛（2022 创新创业类）全国三等奖

全国大学生生命科学竞赛（2023 科学研究类）广东省三等奖

第四届全国大学生市政环境类创新实践能力大赛华南赛区化验赛一等奖

2021级

沈奕畅

论文：《The impact of perfluorooctanoic acid shock on hydrogen-driven nitrate and arsenate removal》（独立一作）

全国大学生生命科学竞赛（2024 创新创业类）全国二等奖

曾志杭

全国大学生生命科学竞赛（2024 创新创业类）全国二等奖

2022级 岳熹

全国大学生生命科学竞赛（2024 创新创业类）全国二等奖

本课题组招募有志于开展科研学习的大学一年级本科生！

招募条件:刻苦、认真、沉得下心!