潘凯玲
博士,副教授,硕士生导师
Email: pankailing@qut.edu.cn
研究方向:
(1)污水生物脱氮
(2)微生物群体感应
(3)污泥好氧颗粒化技术
(4)环境微生物分子生态学
教育经历:
本科:2009/09-2013/06,华南农业大学,资源与环境学院;
博士:2013/09-2019/06,北京工业大学,环境与能源工程学院。
工作经历:
2019/07-今,青岛理工大学,主要从事教学科研工作。
课程教学:
本科:《水质工程学II》、《水资源利用与保护》、《流体力学》
代表性教学科研项目:
1、《AHLs群体感应对污水处理好氧氨氧化微生物代谢活性与群落结构的调控机理》,国家自然科学基金青年项目,2023-2025,主持
2、《基于铁盐强化的好氧颗粒污泥同步硝化反硝化工艺及机理研究》,山东省自然科学基金青年项目,2020-2023,主持
3、《基于生物膜的城市污水深度脱氮除磷工艺研究》,项目编号:2017ZX07103-003,国家科技重大专项,2017-2020,参与
4、《活性污泥中AOA、AOB和异养菌在三氯生去除过程中的协同作用机理》,项目编号:51578015,国家自然科学基金面上项目,2015-2019,参与
5、《基于DNA-SIP技术的污水氨氧化微生物系统发育与生理代谢功能关系的研究》,项目编号:51378027,国家自然科学基金面上项目,2013-2017,参与
6、《污水处理系统中氨氧化古菌的富集培养及其生理代谢特性》,项目编号:8162010,北京市自然科技基金项目,2016-2018,参与
代表性研究成果:
1、Pan Kailing*, Wei Yuxuan, Qiu Chen et al., 2024. Comprehensive analysis of effects of magnetic nanoparticles on aerobic granulation and microbial community composition: From the perspective of acyl-homoserine lactones mediated communication. Bioresource technology, 393, 130174.(一区)
2、Pan Kailing, Gao Jingfeng*, Li Dingchang et al., 2019. The dominance of non-halophilic archaea in autotrophic ammonia oxidation of activated sludge under salt stress: A DNA-based stable isotope probing study. Bioresource technology, 291, 121914.(一区)
3、Pan Kailing, Gao Jingfeng*, Fan Xiaoyan et al., 2018. The more important role of archaea than bacteria in nitrification of wastewater treatment plants in cold season despite their numerical relationships. Water Research, 145, 552-561.(一区)
4、Pan Kailing, Gao Jingfeng*, Li Hongyu et al., 2018. Ammonia-oxidizing bacteria dominate ammonia oxidation in a full-scale wastewater treatment plant revealed by DNA-based stable isotope probing. Bioresource Technology, 256, 152-159.(一区,)
5、Gao Jingfeng*, Pan Kailing, Li Hongyu et al., 2017. Application of GelGreen™ in cesium chloride density gradients for DNA-stable isotope probing experiments. Plos One, 12(1), e169554.(三区)
6、Fan Xiaoyan, Gao Jingfeng*, Pan Kailing et al., 2019. Temporal heterogeneity and temperature response of active ammonia-oxidizing microorganisms in winter in full-scale wastewater treatment plants. Chemical Engineering Journal, 360, 1542-1552. (一区)
7、Fan Xiaoyan, Gao Jingfeng*, Pan Kailing et al. More obvious air pollution impacts on variations in bacteria than fungi and their co-occurrences with ammonia-oxidizing microorganisms in PM2. 5. Environmental Pollution, 2019, 251: 668-680. (二区)
8、Fan Xiaoyan, Gao Jingfeng*, Pan Kailing et al., 2018. Functional genera, potential pathogens and predicted antibiotic resistance genes in 16 full-scale wastewater treatment plants treating different types of wastewater. Bioresource Technology, 268, 97-106.(一区)
9、Fan Xiaoyan, Gao Jingfeng*, Pan Kailing et al., 2018. Shifts in bacterial community composition and abundance of nitrifiers during aerobic granulation in two nitrifying sequencing batch reactors. Bioresource Technology, 251, 99-107.(一区)
10、Fan Xiaoyan, Gao Jingfeng*, Pan Kailing et al., 2017. Temporal dynamics of bacterial communities and predicted nitrogen metabolism genes in a full-scale wastewater treatment plant. RSC Advances, 7(89), 56317-56327. (三区)
11、Gao Jingfeng*, Fan Xiaoyan, Pan Kailing et al., 2016. Diversity, abundance and activity of ammonia-oxidizing microorganisms in fine particulate matter. Scientific Reports, 6, 38785. (三区)
代表性专利:
1、潘凯玲,邱晨,沈鲁滨等,一种快速启动生活污水短程硝化的方法,2022104792042。
2、潘凯玲,李耀先,邱晨等,一种投加四氧化三铁磁性纳米颗粒强化污泥颗粒化的方法,202111530721.X。
3、高景峰,潘凯玲,樊晓燕等,一种GelGreen染料在氯化铯密度梯度混合液中对DNA染色的方法,201510205804.X。
4、高景峰,潘凯玲,李洪禹,一种碱性染料碱性棕G废水快速还原降解的方法,201710228105.6。
5、高景峰,潘凯玲,李洪禹,一种三苯甲烷染料结晶紫废水快速还原降解的方法,201710228089.0。
6、高景峰,潘凯玲,李洪禹,一种提高绿色合成纳米零价铁降解碱性棕G染料废水能力的方法及其应用,201710228086.7。
7、高景峰,潘凯玲,李洪禹,一种提高绿色合成纳米零价铁降解活性艳蓝染料废水效率的方法及其应用,201710228101.8。
8、高景峰,潘凯玲,李洪禹,一种提高绿色合成纳米零价铁降解结晶紫染料废水能力的方法及其应用,201710228103.7。
