刘淑丽
基本情况
姓名:刘淑丽
职称:副教授
联系地址:华北水利水电大学(郑州市金水东路136号)
联系方式:E-mail: liushuli@ncwu.edu.cn
教育背景
2006.9-2010.7 哈尔滨师范大学,学士
2010.9-2012.7 哈尔滨工业大学,硕士研究生
2012.9-2016.10 哈尔滨工业大学,博士研究生
2019.1-2020.4 University of Michigan,Ann Arbor,国家公派访问学者
工作履历
2016.10-2021.11 华北水利水电大学教师(讲师)
2021.12-至今 华北水利水电大学教师(副教授)
承担课程名称
本科生:《水处理生物学》
研究生:《高等微生物学》
研究领域
多年来一直从事污水处理及其资源化研究,主要的研究方向如下:
(1)光合细菌污水处理资源化技术:构建光合污水处理系统及效能研究、高价值物质生物合成途径及代谢调控机制;
(2)污水膜处理工艺的开发与应用:新型抗污染膜的制备及性能研究、膜污染减缓调控机制;
(3)污水的生物脱氮除磷:同步脱氮除磷工艺的性能优化、功能微生物强化及调控机制;
(4)剩余污泥的能源化:剩余污泥的生物减量化技术的开发与应用、生物质资源的回收再利用。
学术兼职
《Bioresource Technology》、《Science of the Total Environment》、《Applied Microbiology and Biotechnology》、《Frontiers in Environmental Science》、《Environmental Science and Pollution Research》 等多个著名 SCI 期刊审稿人;国家自然科学基金青年项目评审人。
科研项目
1.国家自然科学基金青年项目—紫色非硫细菌处理食品有机废水的高价值物质合成代谢及影响机制研究(51708214),2018-01至2020-12,课题负责人;
2.国家科学技术部高端外国专家引进计划项目—基于新型光合细菌-膜生物反应器的污水处理及资源化技术研究(G2022026015L),2022-01至2023-12,课题负责人;
3.河南省重点研发与推广专项(科技攻关)项目—光合细菌污水处理过程中合成生产高价值物质的资源化研究(202102310265),2020-01至2022-12,课题负责人;
4.华北水利水电大学高层次人才引进项目—PNSB 处理食品加工废水的高价值物质合成及影响因子研究(40550),2017-02至2020-09,课题负责人。
学术成果
1.专著、统编教材
刘淑丽。光合细菌合成高价值物质的代谢研究。中国水利水电出版社,2022
2.国家发明专利
刘淑丽等。基于A-SBR 工艺的低温处理生活污水同步去碳脱氮除磷的方法,2022-3-1,中国,ZL201811015743.0;
刘淑丽等。一种提高紫色非硫细菌菌体 5-氨基乙酰丙酸产率的方法,2018-6-19,中国,ZL201410765653.9;
刘淑丽等。一种利用食品有机废水产类胡萝卜素的方法,2018-4-24,中国,ZL201410409797.0。
3.高水平学术论文
[1] Liu Shuli*, Li Heng, Daigger Glen T. , et al. Material biosynthesis, mechanism regulation and resource recycling of biomass and high-value substances from wastewater treatment by photosynthetic bacteria: A review[J]. Science of the Total Environment, 2022, 820(SCI一区, TOP期刊, IF 7.963).
[2] Liu Shuli*, Li Heng, Kang Jia, et al. Improving simultaneous N, P, and C removal and microbial population dynamics in an anaerobic-aerobic-anoxic SBR (A-O-ASBR) treating municipal wastewater by altering organic loading rate (OLR) [J]. Environmental Technology & Innovation, 2021, 24(SCI 三区, IF 5.263).
[3] Liu Shuli*, Daigger Glen T., Liu Bingtao, et al. Enhanced performance of simultaneous carbon, nitrogen and phosphorus removal from municipal wastewater in an anaerobic-aerobic-anoxic sequencing batch reactor (AOA-SBR) system by alternating the cycle times[J]. Bioresource Technology, 2020, 301: 122750(SCI一区, TOP期刊, IF 7.539).
[4] Liu Shuli*, Daigger Glen T., Kang Jia, et al. Effects of light intensity and photoperiod on pigments production and corresponding key gene expression of Rhodopseudomonas palustris in a photobioreactor system[J]. Bioresource Technology, 2019, 294: 122172(SCI一区, TOP期刊, IF 6.669).
[5] Liu, Shuli*, Zheng Zhihong, Tie, Jingxi, et al. Impacts of Fe2+ on 5-aminolevulinic acid (ALA) biosynthesis of Rhodobacter sphaeroides in wastewater treatment by regulating nif gene expression[J]. Journal of Environmental Sciences, 2018, 70: 11-19(SCI二区, IF 3.120).
[6] Liu Shuli,Yang Guang, Fu Jinwei, et al. Synchronously enhancing biogas production, sludge reduction, biogas desulphurization and digestate treatment in sludge anaerobic digestion by adding K2FeO4[J]. Environmental Science and Pollution Research, 2018, 25: 35154-35163(SCI三区, IF 3.208).
[7] Liu Shuli, Zhang Guangming*, Zhang Jie, et al. Performance, carotenoids yield and microbial population dynamics in a photobioreactor system treating acidic wastewater: Effect of hydraulic retention time (HRT) and organic loading rate (OLR)[J]. Bioresource Technology, 2016, 200: 245-252(SCI一区, TOP期刊, IF 5.651).
[8] Liu Shuli, Zhang Guangming*, Zhang Jie, et al. Performance, 5-aminolevulinic acid (ALA) yield and microbial population dynamics in a photobioreactor system treating soybean wastewater: Effect of hydraulic retention time (HRT) and organic loading rate (OLR)[J]. Bioresource Technology, 2016, 210: 146-152(SCI一区, TOP期刊, IF 5.651).
[9] Liu Shuli, Zhang Guangming*, Zhang Jie, et al. Optimization of Biomass and 5-Aminolevulinic Acid Production by Rhodobacter sphaeroides ATCC17023 via Response Surface Methodology[J]. Applied Biochemistry and Biotechnology, 2016, 179(3): 444-458(SCI四区, IF 2.094).
[10] Liu, Shuli, Li Jianzheng. Accumulation and isolation of simultaneous denitrifying polyphosphate-accumulating organisms in an improved sequencing batch reactor system at low temperature[J]. International Biodeterioration & Biodegradation, 2015, 100: 140-148(SCI三区, IF 2.131).
[11] Liu Shuli, Zhang Guangming*, Li Xiangkun, et al. Microbial production and applications of 5-aminolevulinic acid[J]. Applied Microbiology and Biotechnology, 2014, 98(17): 7349-7357(SCI一区, IF 3.811).
