朱森林-水利科学与工程学院

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朱森林

发布日期：2021-05-28浏览次数：

个人基本情况

姓名：朱森林

性别：男

出生年月：1989年3月

籍贯：河南信阳

Email: slzhu@yzu.edu.cn

学习及工作经历

2007.09-2011.06 武汉大学水力学及河流动力学工学学士

2011.09-2017.06 武汉大学水力学及河流动力学工学博士

2014.09-2015.12 美国环境研究与发展中心（ERDC）研究助理

2017.11-2020.10 南京水利科学研究院（NHRI）博士后

2019.04-2020.05 美国休斯顿大学（UH）博士后

2020.06-2020.08 美国波特兰州立大学（PSU）研究助理

2020.11-至今扬州大学水利科学与工程学院

研究方向（生态水力学、生态水文学）

河流及湖泊水温、冰盖模拟；水库湖泊等水体的富营养化过程模拟；污染物（重金属、有机污染物等）的输移及转化过程模拟；气候变化及极端气候对于水生态系统的影响评估等。

科研经历

主持中国博士后基金及中央公益性行业专项-青年项目，参与国家重点研发计划“长三角地区水安全保障技术集成与应用”及“河湖水系连通与水安全保障关键技术”，长期从事CE-QUAL-W2等水动力-水质模型的研发工作。目前为国际水利与环境工程学会（IAHR）会员，塞尔维亚共和国科学基金项目同行评审专家，SCI期刊Acta Geophysica（波兰科学院院刊）副主编，SCI期刊Applied Sciences客座编辑“Climate Change on Lake Hydrology”， Atmosphere客座编辑“River Water Temperature and Ice Phenomena Modelling and Forecasting”。Earth-Science Reviews、Water Research、Journal of Hydrology、Advances in Water Resources、Environmental Research Letters、Science of the Total Environment、Stochastic Environmental Research and Risk Assessment、Engineering Applications of Computational Fluid Mechanics等多个SCI期刊审稿人。

科研成果

近五年发表学术论文30多篇，取得软件著作权2项。

代表性学术论文：

2021年度：

[1] Zhu Senlin*, Adam P. Piotrowski, Mariusz Ptak, Jaroslaw J. Napiorkowski, Jiangyu Dai, Qingfeng Ji*. How does the calibration method impact the performance of the air2water model for the forecasting of lake surface water temperatures? Journal of Hydrology, 2021, 597, 126219. (IF₂₀₁₉= 4.5)

[2] Sebastiano Piccolroaz*, Zhu Senlin, Mariusz Ptak, Mariusz Sojka, Xinzhong Du. Warming of lowland Polish lakes under future climate change scenarios and consequences for ice cover and mixing dynamics. Journal of Hydrology: Regional Studies, 2021, 34, 100780. (IF₂₀₁₉= 3.645)

[3] Fan Yang, Jingxiu Wu, Yu Zhang, Zhu Senlin, Guoqing Liu, Guangyu Chen, Shiqiang Wu, Ziwu Fan*. Improved Method for Identifying Manning’s Roughness Coefficients in Plain Looped River Network Area. Engineering Applications of Computational Fluid Mechanics, 2021, 15(1), 94-110. (IF₂₀₁₉= 5.8)

[4] Hongfang Lu, Xin Ma*, Minda Ma, Zhu Senlin. Energy price prediction using data-driven models: A decade review. Computer Science Review, 2021, 39, 100356. (IF₂₀₁₉= 7.707)

[5] Mohammad Zakwan, Quoc Bao Pham*, Zhu Senlin. Effective discharge computation in the lower Drava River. Hydrological Sciences Journal (IAHS), 2021, 66(5), 826-837.

[6] Wenhao Ding, Jinxiao Zhao, Boqiang Qin*, Tingfeng Wu, Zhu Senlin, Yun Li, Shikai Xu, Shiping Ruan, Yong Wang. Exploring and quantifying the relationship between instantaneous wind speed and turbidity in a large shallow lake: case study of Lake Taihu in China. Environmental Science and Pollution Research, 2021, 28, 16616-16632.

2020年度：

[1] Zhu Senlin*, Mariusz Ptak, Zaher Mundher Yaseen, Jiangyu Dai*, Bellie Sivakumar. Forecasting lake surface water temperature: a comparison of approaches. Journal of Hydrology, 2020, 585, 124809. (IF₂₀₁₉= 4.5)

[2] Zhu Senlin*, Bahrudin Hrnjica*, Mariusz Ptak, Adam Choiński, Bellie Sivakumar. Forecasting of water level in multiple temperate lakes using machine learning models. Journal of Hydrology, 2020, 585, 124819. (IF₂₀₁₉= 4.5)

[3] Dai Jiangyu*, Wu Shiqiang, Wu Xiufeng, Xueyan Lv, Bellie Sivakumar, Wang Fangfang, Zhang Yu, Gao Ang, Yang Qianqian, Yu Lei, Zhao Yuhang, Zhu Senlin*. Impacts of a large river-to-lake water diversion project on lacustrine phytoplankton communities. Journal of Hydrology, 2020, 587, 124938. (IF₂₀₁₉= 4.5)

[4] Salim Heddam*, Mariusz Ptak, Zhu Senlin. Modelling of Daily Lake Surface Water Temperature from Air Temperature: Extremely Randomized Trees (ERT) versus Air2Water, MARS and M5Tree. Journal of Hydrology, 2020, 588, 125130. (IF₂₀₁₉= 4.5)

[5] Jiangyu Dai*, Shiqiang Wu, Haifei Sha, Xiufeng Wu, Qianqian Yang, Xueyan Lv, Zhu Senlin, Wanyun Xue, Fangfang Wang, Dan Chen. Lacustrine micro-ecosystem responses to the inflow discharge gradient of Water Diversion from Yangtze River to Lake Taihu. Environmental Geochemistry and Health, 2020, 42(3), 1021-1032. (IF₂₀₁₉= 3.47)

[6] Zhu Senlin*, Mariusz Ptak, Adam Choiński, Songbai Wu. Exploring and quantifying the impact of climate change on surface water temperature of a high mountain lake in Central Europe. Environmental Monitoring and Assessment, 2020, 192, 7.

2019年度：

[1] Renata Graf, Zhu Senlin*, Bellie Sivakumar. Forecasting river water temperature time series using a wavelet–neural network hybrid modelling approach. Journal of Hydrology, 2019, 578, 124115. (IF₂₀₁₉= 4.5)

[2] Zhu Senlin*, Salim Heddam, Nyarko Emmanuel Karlo, Hadzima-Nyarko Marijana, Sebastiano Piccolroaz, Shiqiang Wu. Modeling daily water temperature for rivers: comparison between adaptive neuro-fuzzy inference systems and artificial neural networks models. Environmental Science and Pollution Research, 2019, 26(1), 402-420. (ESI全球Top1%高被引论文)

[3] Zhu Senlin, Ognjen Bonacci, Dijana Oskoruš, Marijana Hadzima-Nyarko*, Wu Shiqiang. Long term variations of river temperature and the influence of air temperature and river discharge: case study of Kupa River watershed in Croatia. Journal of Hydrology and Hydromechanics, 2019, 67(4), 305-313.

[4] Juxiang Jin, Scott Wells, Defu Liu, Guolu Yang, Zhu Senlin, Jun Ma, Zhengjian Yang. Effects of water level fluctuation on thermal stratification in a typical tributary bay of Three Gorges Reservoir, China. PeerJ, 2019, 7, e6925.

2018年度：

[1] Zhu Senlin, Zhang Zhonglong*, Dušan Žagar. Mercury transport and fate models in aquatic systems: a review and synthesis. Science of the Total Environment, 2018, 639, 538-549. (IF₂₀₁₉= 6.55)

[2] Dai Jiangyu*, Chen Dan, Wu Shiqiang, Wu Xiufeng, Gao Guang, Tang Xiangming, Shao Keqiang, Lv Xueyan, Yang Qianqian, Zhu Senlin. Dynamics of phosphorus and bacterial phoX genes during the decomposition of Microcystis blooms in a mesocosm. PloSOne, 2018, 13(5), e0195205.

2017年度：

[1] Zhu Senlin, Zhang Zhonglong*, Liu Xiaobo. Enhanced two dimensional hydrodynamic and water quality model (CE-QUAL-W2) for simulating mercury transport and cycling in water bodies. Water, 2017, 9, 643.

学术会议：

[1] Zhu Senlin. Modelling daily water temperature in the Missouri River Basin using statistical models. The 13th International Conference on Hydroscience & Engineering (ICHE), Chongqing, China (IAHR), 2018.

[2] Zhu Senlin, Zhang Zhonglong, Wu Shiqiang. Modelling water temperature along the Missouri River using HEC-RAS. The 2nd International Symposium on Hydraulic Modelling and Measuring Technology Congress, Nanjing, China (IAHR), 2018. (Oral Presentation)

软件著作权：

[1] 复杂水系水资源联合调度决策模拟程序.

[2] 太湖流域多目标优化调度模拟程序.