教授
刘丽 教授
姓名:刘丽 学历学位:工学博士 职称:教授 职务: 主讲课程:给水排水管网系统,水工程经济 电话: E-mail:lliu@hfut.edu.cn http://civil.hfut.edu.cn/teacher_show.php?id=11235 | |
研究方向: 1. 城市管网安全理论与技术 2. 水资源系统工程 教育背景: 2005.1-2009.8 美国北卡罗来纳州立大学 市政工程专业 博士 2001.9-2004.5 合肥工业大学 水文学与水资源专业 硕士 1991.9-1995.7 合肥工业大学 给水排水工程 学士 工作履历: 2017.1-至今 合肥工业大学土木与水利工程学院 教授 2012.1-2016.12 合肥工业大学土木与水利工程学院 副教授 2005.1-2009.12 美国北卡罗来纳州立大学土木环境学院 助理研究员 2000.12-2011.12 合肥工业大学土木与水利工程学院 讲师 1995.7-2000.12 合肥工业大学土木工程系 助教 承担的科研项目: 1. 2015.1-2018.12 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,国家自然科学基金(51479046),主持 2. 2012.7-2014.6 基于灾害风险的城市排水系统更新改造策略研究,安徽省自然科学基金项目(1208085ME75),主持 3. 2011.1-2014.6 南四湖流域水资源配置整体模拟模型研究,企业委托项目(11-750),主持 4. 2011.1-2012.12 动态不确定环境下供水系统优化运行研究,校博士启动基金(2010HGBZ0560),主持 5. 2012.1-2014.12 基于流域分布式水文模拟的湖泊干旱特征水位计算及应用,国家自然科学基金(51109052),参与 6. 2009.1-2012.12 我国不同分区湖泊营养物基准制定技术方法研究,国家“十一五”科技重大专项(2009ZX07106),参与 发表论文: 1.Du B, Gu Y, Chen GW, Wang G, Liu L*. 2020. Flagellar motility mediates early-stage biofilm formation in oligotrophic aquatic environment. Ecotoxicology and Environmental Safety 194: 110340. doi:10.1016/j.ecoenv.2020.110340. 2.Liu YY, Shan RR, Chen GW, Liu L*. 2020. Linking flow velocity-regulated EPS production with early-stage biofilm formation in drinking water distribution systems. Water Supply. doi: 10.2166/ws.2020.039. 3.Wang G, Han N, Liu L, Ke ZC, Li BG, Chen GW*. 2020. Molecular density regulating electron transfer efficiency of S. oneidensis MR-1 mediated roxarsone biotransformation. Environmental Pollution 262: 114370. doi:10.1016/j.envpol.2020.114370. 4.Zhao RR, Chen GW*, Liu L, Zhang W, Sun YF, Li BG, Wang G. 2020. Bacterial foraging facilitates aggregation of Chlamydomonas microsphaera in an organic carbon source-limited aquatic environment. Environmental Pollution 259: 113924. doi:10.1016/j.envpol.2020.113924. 5.Chen GW, Zhu N, Hu Z, Liu L, Wang GQ, Wang G*. 2020. Motility changes rather than EPS production shape aggregation of Chlamydomonas microsphaera in aquatic environment. Environmental Technology. doi:10.1080/09593330.2020.1718216. 6.Chen GW, Xu RD, Liu L, Shi HS, Wang GQ, Wang G*. 2018. Limited carbon source retards inorganic arsenic release during roxarsone degradation in Shewanella oneidensis microbial fuel cells. Applied Microbiology Biotechnology 102: 8093–8106. 7.Wang G, Wang Y, Liu L, Jin Y, Zhu N, Li X, Wang G, Chen G*. 2018. Comprehensive assessment of microbial aggregation characteristics of activated sludge bioreactors using fuzzy clustering analysis. Ecotoxicology and Environmental Safety 162: 296–303. 8.Chen GW, Liu H, Zhang W, Li B, Liu L, Wang G*. 2018. Roxarsone exposure jeopardizes nitrogen removal and regulates bacterial community in biological sequential batch reactors. Ecotoxicology and Environmental Safety 159: 232–239. 9.Liu L, Hu QY, Le Y, Chen GW, Tong ZL, Xu Q, Wang G*. 2017. Chlorination-mediated EPS excretion shapes early-stage biofilm formation in drinking water systems. Process Biochemistry 55: 41–48. 10.Liu L, Liu YY, Lu QQ, Chen GW and Wang G*. 2017. Assessing comprehensive performance of biofilm formation and water quality in drinking water distribution systems. Water Science & Technology: Water Supply 17(1): 267–278. 11.Lazouskaya V, Sun T, Liu L, Wang G and Jin Y*. 2016. Effect of surface properties on colloid retention on natural and surrogate produce surfaces. Journal of Food Science 81(12): E2956–E2965. 12.Liu L*, Li X, Xia GY, Jin JL, Chen GW. 2016. Spatial fuzzy clustering approach to characterize flood risk in urban storm water drainage systems. Natural Hazards 83(3): 1469–1483. 13.Chen GW, Ke ZC, Liang TF, Liu L*, Wang G*. 2016. Shewanella oneidensis MR-1-induced Fe(III) reduction facilitates roxarsone transformation. PLoS ONE 11(4): e0154017. doi:10.1371/journal.pone.0154017. 14.Zhu N, Liu L, Xu Q,Chen GW*, Wang G*. 2015. Resources availability mediated EPS production regulate microbial cluster formation in activated sludge system. Chemical Engineering Journal. 279:129–135. 15.Liu L, Le Y, Jin JL, Zhou YL, Chen GW*. 2015. Chlorine stress mediates microbial surface attachment in drinking water systems. Applied Microbiology and Biotechnology 99: 2861–2869. 16.Yan PF, Hu ZH*, Yu HQ , Li WH , Liu L. 2015. Fluorescence quenching effects of antibiotics on the main components of dissolved organic matter. Environmental Science and Pollution Research 23:5667–5675. 17.Chen GW, Zhu N, Tang ZB, Ye P, Hu ZH, Liu L*. 2014. Resource availability shapes microbial motility and mediates early-stage formation of microbial clusters in biological wastewater treatment processes. Applied Microbiology and Biotechnology 98: 1459–1467. 18.Liu H, Wang GQ, Ge J, Liu L, Chen GW*. 2014. Fate of roxarsone during biological nitrogen removal process in wastewater treatment systems. Chemical Engineering Journal 255: 500–505. 19.Liang TF, Ke ZC, Chen Q, Liu L, Chen GW*. 2014. Degradation of roxarsone in a silt loam soil and its toxicity assessment. Chemosphere 112: 128–133. 20.Guo QF, Liu L, Hu ZH, Chen GW*. 2013. Biological phosphorus removal inhibition by roxarsone in batch culture systems. Chemosphere 92: 138–142. 21.Zhou YL, Jin JL*, Liu L, Zhang LB, He J, Wang ZS. 2013. Inference of reference conditions for nutrient concentrations of Chaohu Lake based on model extrapolation. Chinese Geographical Science 23(1): 35–48. 22.Liu L*, Zechman EM, Mahinthakumar G and Ranjithan S. 2012. Identifying Contaminant Sources for Water Distribution Systems Using a Hybrid Method. Civil Engineering and Environmental Systems 29(2): 123–136. 23.Liu L*, Zechman EM, Mahinthakumar G and Ranjithan S. 2012. Coupling of logistic regression analysis and local search methods for characterization of water distribution system contaminant source. Engineering Applications of Artificial Intelligence 25(2): 309–316. 24.Jin JL, Wei YM*, Zou LL, Liu L, Zhang WW, Zhou YL. 2012. Forewarning of sustainable utilization of regional water resources: a model based on BP neural network and set pair analysis. Natural Hazards 62(1): 115–127. 25.Jin JL, Wei YM*, Zou LL, Liu L, Fu J. 2012. Risk evaluation of China’s natural disaster systems: an approach based on triangular fuzzy numbers and stochastic simulation. Natural Hazards 62(1): 129–139. 26.Liu L*, Sankarasubramanian A and Ranjithan S. 2011. Logistic regression analysis to estimate contaminant sources in water distribution systems. Journal of Hydroinformatics 13(3): 545–557. 27.Liu L*, Ranjithan S and Mahinthakumar G. 2011. Contamination source identification in water distribution systems using an adaptive dynamic optimization procedure.Journal of Water Resources Planning and Management 137(2): 183–192. 28.Zhou P, Zhou YL*, Jin JL, Liu L, Wang ZZ, Cheng L, Zhang LB. 2011. An improved Markov chain model based on autocorrelation and entropy techniques and its application to state prediction of water resources. Chinese Geographical Science 21(2): 176–184. 29.Liu L*, Ranjithan S. 2010. An adaptive optimization technique for dynamic environments. Engineering Applications of Artificial Intelligence 23(5): 772–779. 30.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. 31.黄保国, 顾越, 陈国炜, 金菊良, 刘丽*. 2018. 给水管网流速对水质和生物膜种群结构的影响. 应用与环境生物学报 24(4): 0860–0865. 32.夏高原, 李星, 金菊良, 刘丽*. 2016. 基于最大熵法的雨水排水系统灾害损失不确定性研究. 水电能源科学 34(6): 123–127. 33.杜云, 蒋尚明, 金菊良*, 郦建强, 刘丽, 周玉良. 2013. 淮河流域农业旱灾风险评估研究. 水电能源科学 31(4): 1–4. 34.刘航, 蒋尚明, 金菊良*, 郦建强, 周玉良, 刘丽. 2013. 基于GIS的区域干旱旱灾风险区划研究. 灾害学 28(3): 198-203. 35.刘巧红, 张浩, 吴开亚*, 刘丽. 2012. 湖泊富营养化因子对叶绿素a影响的SEM分析. 水电能源科学 30(10): 37-40. 36.周玉良, 刘丽, 金菊良*, 张礼兵, 汪哲荪. 2012. 基于SCS和USLE的程海总磷总氮参照状态推断. 地理科学 32(6): 725–730. 37.周玉良, 金菊良*, 刘丽, 张礼兵, 汪哲荪, 霍守亮. 2012. 基于模型推断法确定邛海总磷总氮浓度的参照状态. 环境工程技术学报 2(3): 200–206. 38.金菊良*, 刘丽, 汪明武, 李如忠, 周玉良. 2011. 基于三角模糊数随机模拟的地下水环境系统综合风险评价模型. 地理科学31(2): 143–147. 39.张礼兵*, 霍守亮, 周玉良, 童中华, 刘丽. 2011. 基于系统动力学的湖泊营养物基准参照状态研究. 环境科学学报 31(6): 1254–1262. |