Selected papaers
[1] Yumin Wang*, Lei Wu, Yanhong Feng. Cost function for treating wastewater in rural regions. Desalination and Water Treatment, 2016, 57(37), 17241-17246 (SCI, IF=1.383)
[2] Yumin Wang*, Xiaode Zhou, Bernard Engel. Water environment carrying capacity in Bosten Lake basin. Journal of Cleaner Production, 2018, 199, 574-583 (SCI, IF=6.395)
[3] Yumin Wang, Ran Yu,Guangcan Zhu*. Evaluation of physicochemical characteristics in drinking water sources emphasized on fluoride: A case study of Yancheng, China. International Journal of Environmental Research and Public Health, 2019, 16, 1030-1045. (SCI, IF=2.468)
[4] Yumin Wang*, Guangcan Zhua*, Bernard Engel. Health risk assessment of trihalomethanes in water treatment plants in Jiangsu Province, China. Ecotoxicology and Environmental Safety, 2019, 170, 346-354. (SCI, IF=4.527)
[5] Yumin Wang*, Guangcan Zhu*, Bernard Engel. Variation and relationship of THMs between tap water and finished water in Yancheng City, China. Environment Monitoring and Assessment, 2018, 190, 517-527. (SCI, IF=1.959)
[6] Yumin Wang*, Guangcan Zhu*, Zhonglian Yang. Analysis of water quality characteristics for water distribution systems. Journal of Water Reuse and Desalination, 2019, 9(2), 152-162 (SCI, IF=1.538)
[7] Yumin Wang*, Lei Wu, Bernard Engel. Prediction of sewage treatment cost in rural regions with multivariate adaptive regression splines. Water, 2019, 11(195), 1-18. (SCI, IF=2.524)
[8] Yumin Wang, Weijian Ran. Comprehensive eutrophication assessment based on fuzzy matter element model and Monte Carlo-triangular fuzzy numbers approach. International Journal of Environmental Research and Public Health, 2019, 16, 1769-1785. (SCI, IF=2.468)
[9] Yumin Wang, Weijian Ran, Lei Wu, Yifeng Wu. Assessment of river water quality based on an improved fuzzy matter-element model. International Journal of Environmental Research and Public Health, 2019, 16, 2793-2803. (SCI, IF=2.468)
[10] Yumin Wang. The Research of Plane Two-Dimension Eutrophication Ecological Dynamics Model in Lake. International Symposim of Environmental Hydraulics (2004.12).
[11] Yumin Wang. The Research of Water Environment Capacity in Lake——Taking Bosten Lake as an Example, International Symposim of Environmental Hydraulics (2004.12).
[12] 王玉敏. 流域生态需水量的研究进展,水土保持学报.2002.6.
[13] 王玉敏. 汉江中下游水质评价方法研究,中国农村水利水电2003.1.
[14] 王玉敏. 可持续发展评价指标体系模型研究,灌溉排水 2002.21(4)
[15] 王玉敏. 南水北调中线工程对汉江中下游气候的影响研究,水土保持通报 2001.6.
[16] 王玉敏. 湖泊水环境承载力研究,水土保持学报 2004.18(1):179-184.
[17] 王玉敏. 湖泊水环境容量迭加计算方法研究,干旱区资源与环境 2005.19(6):108-112.
[18] 王玉敏. 渭河干流(陕西段)生态需水量研究,人民黄河2006.2.
[19] Yumin Wang*, Shuyuan Ran. Hybrid model for water quality assessment in the Bosten Lake. SAMSE2019 IOP Conference Series: Materials Science and Engineering.
[20] Yumin Wang*,Ran Yu,Guangcan Zhu.Water quality reliability based on information entropy technology in water distribution system. 2019 IOP Conference Series: Earth and Environmental Science.
[21] 王玉敏. 矩形断面明渠流中陡坡与缓坡的转换条件.教育教学论坛,2013, 44: 274-277.
[22] 王玉敏.工程流体力学双语教学的思考与实践.教育科学博览,2014,1:36-37.
[23] 王玉敏.环境工程专业工程流体力学与给水工程的关联教学研究.中国电力教育,2014, 8: 64-65.
[24] 王玉敏.环境流体力学教材编写的改革与体会.教育现代化,2015,11: 230-232.
[25] 王玉敏.对土木专业《流体力学》教学的几点体会. 高教学刊, 2016. 2: 69-70.
[26] 王玉敏.环境水力学课程教学模式的中美差异及感悟.教育学文摘, 2019.3.
[27] 王玉敏.流体力学在滤池配水系统中的应用.教育信息化论坛,2019.6(72):222-224.