求真百科歡迎當事人提供第一手真實資料,洗刷冤屈,終結網路霸凌。

刘丽(合肥工业大学)查看源代码讨论查看历史

跳转至: 导航搜索
刘丽

刘丽,女,合肥工业大学土木与水利工程学院教授。

人物履历

教育背景

1991/09–1995/07,合肥工业大学,给水排水工程专业,学士

2001/09–2004/05,合肥工业大学,水文学与水资源专业,硕士

2005/01–2009/08,美国北卡罗来纳州立大学,市政工程专业,博士

工作经历

1995/07–2000/12,合肥工业大学土木工程系,助教

2000/12–2011/12,合肥工业大学土木与水利工程学院,讲师

2005/01–2009/12,美国北卡罗来纳州立大学土木环境学院,助理研究员

2012/01–2016/12,合肥工业大学土木与水利工程学院,副教授

2017/01–至 今,合肥工业大学土木与水利工程学院,教授

科研项目

[1] 国家自然科学基金面上项目,微观水力条件下给水管网微生物聚集行为解析及数值模拟,51479046,2015/01-2018/12,主持;

[2] 安徽省自然科学基金面上项目,基于灾害风险的城市排水系统更新改造策略研究,1208085ME75,2012/07-2014/06,主持;

[3] 企业委托项目,节能错峰智慧供水系统优化调度开发,W2020JSKF0389,2020/06-2022/08,主持;

[4] 国家重点研发计划项目专题,水资源承载能力评价方法与模型,2016YFC0401303,20162/07-2019/12,参与;

[5] 国家自然科学基金面上项目,基于链式传递情景模拟的区域旱灾风险智能识别评估与调控,51579059,2016/01-2019/12,参与

学术成果

[1] Du, Y. Gu, G. Chen, G. Wang, L. Liu*. Flagellar motility mediates early-stage bio fi lm formation in oligotrophic aquatic environment. Ecotoxicol. Environ. Saf. 194 (2020) 110340.

[2] Y. Liu, R. Shan, G. Chen, L. Liu*. Linking flow velocity-regulated EPS production with early-stage biofilm formation in drinking water distribution systems. Water Supply. (2020) 1–13. doi:10.2166/wst.2015.440.

[3] L. Liu, Q. Hu, Y. Le, G. Chen, Z. Tong, Q. Xu, G. Wang*. Chlorination-mediated EPS excretion shapes early-stage biofilm formation in drinking water systems. Process Biochem. 55 (2017) 41–48.

[4] G. Chen, Z. Ke, T. Liang, L. Liu*, G. Wang*. Shewanella oneidensis MR-1-induced Fe(III) reduction facilitates roxarsone transformation. PLoS One. 11 (2016) e0154017.

[5] L. Liu*, X. Li, G. Xia, J. Jin, G. Chen. Spatial fuzzy clustering approach to characterize flood risk in urban storm water drainage systems. Nat. Hazards. 83 (2016) 1469–1483.

[6] L. Liu, Y. Le, J. Jin, Y. Zhou, G. Chen*. Chlorine stress mediates microbial surface attachment in drinking water systems. Appl. Microbiol. Biotechnol. 99 (2015) 2861–2869.

[7] G. Chen, N. Zhu, Z. Tang, P. Ye, Z. Hu, L. Liu*. Resource availability shapes microbial motility and mediates early-stage formation of microbial clusters in biological wastewater treatment processes. Appl. Microbiol. Biotechnol. 98 (2014) 1459–1467.

[8] L. Liu*, E. Zechman, G. Mahinthakumar, S. Ranjithan. Identifying Contaminant Sources for Water Distribution Systems Using a Hybrid Method. Civ. Eng. Environ. Syst. 29 (2012) 123–136.

[9] L. Liu*, E. Zechman, G. Mahinthakumar, S. Ranjithan. Coupling of logistic regression analysis and local search methods for characterization of water distribution system contaminant source. Eng. Appl. Artif. Intel. 25 (2012) 309–316.

[10] L. Liu*, A. Sankarasubramanian, S. Ranjithan. Logistic regression analysis to estimate contaminant sources in water distribution systems. J. Hydroinform. 13 (2011) 545–557.

[11] L. Liu*, S. Ranjithan and G. Mahinthakumar. Contamination source identification in water distribution systems using an adaptive dynamic optimization procedure. J. Water Res. Plan. Man. 137 (2011) 183–192.

[12] L. Liu*, S. Ranjithan. An adaptive optimization technique for dynamic environments. Eng. Appl. Artif. Intel. 23 (2010) 772–779.

[13] 章鑫鑫,谷正,余超,陈国炜,刘丽*.饮用水中悬浮颗粒物对微生物聚集和 消毒效果的影响.中国环境科学. 2021. https://doi.org/10.19674/j.cnki.issn1000-6923.20210708.002

[14] 余健, 杜邦, 施华升, 陈国炜, 刘丽*. 2018. 给水管网中余氯浓度对颗粒物表面细菌附着的影响. 环境科学学报 38(5): 1804–1811.

[15] 刘丽, 黄保国, 汪哲荪, 金菊良, 余健, 夏高原. 一种太阳能式给水管网紫外线灭菌装置, 2020-12-08,中国, ZL201710227411.8[1]

参考资料