陈明洪 |
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个人资料
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教育经历
个人简介陈明洪,男,副教授,博士生导师。湖北枣阳人,2008年7月参加工作。2003年7月毕业于清华大学水利水电工程专业,获工学学士学位;同年保送清华大学攻读博士学位,2008年6月毕业,获工学博士学位;2003年3月-2003年12月赴德国卡尔斯鲁厄大学访问交流,师从Wolfgang Rodi教授。2013年9月-2014年9月赴美国康奈尔大学访问交流,师从Todd Walter教授。2008年7月起任中国农业大学水利与土木工程学院讲师、副教授。 ◆研究领域 (1)灌区磷污染物动力迁移机制 (2)灌区面源污染迁移过程模拟 (3)渠道群闸水动力仿真与联调联控技术 (4)水库群多目标优化调度 ◆学术兼职 北京水利学会会员,AGU会员,IAHR青年会员,世界泥沙研究学会会员,中国土壤学会会员; 担任国际期刊International Journal of Sediment Research副主编; 担任国际期刊Frontiers in Earth Science, Frontiers in Environmental Science, Frontiers in Ecology and Evolution评审编辑; 担任国际期刊Science of the Total Environment, Catena,Journal of Cleaner Production, Journal of Hydro-Environment, International Journal of Sediment Research, Environmental Science and Pollution Research, Journal of Soils and Sediments, Scientific Report等审稿人。 ◆科研项目(近五年)
◆论著及论文(第一/通讯作者) [18] 王一聪, 陈明洪*. 权衡生态和发电目标的梯级水库强化学习模型及其应用[J]. 水电能源科学, 2024, 42(2): 188-191+206. (中文核心) [17] Chen M, Li Y, Wang C, Walter M. Todd, Huang L. Modelling rainfall-induced phosphorus loss with eroded clay and surface runoff[J]. Hydrological Processes, 2023, 37(2): e14817. [16] Chen M, Li Y, Zhang X, Liao R, Wang C, Bi X. Optimization of river environmental management based on reinforcement learning algorithm: A case study of the Yellow River in China[J]. Environmental Science and Pollution Research, 2023, 30(3): 8170-8187. [15] Chen M, Li Y, Wang C, Walter M. Todd. An investigation of the effects of humic acid on soil erosion and loss of phosphorus from soil to runoff: Experiment and modeling[J]. Geoderma, 2022, 427: 116121. [14] Li Y, Chen M*, Liu X. Vertical distribution and transformation of phosphorus and iron in paddy soils during the whole growth stage of rice[J]. Frontiers in Earth Science, 2022, 10. DOI: 10.3389/feart.2022.952630. [13] Zhou Y, Li S, Huang Y, Chen M*, Huang L. Modeling of rainfall induced phosphorus transport from soil to runoff with consideration of phosphorus-sediment interactions [J]. Journal of Hydrology, 2022, 609: 127732. [12] Chen X*, Chen M*, Wu J, Liu H, Yang C. Approximate velocity formula over mobile sediment bed induced by velocity-skewed wave and current[J]. International Journal of Sediment Research, 2022, 37(3): 317–327. [11] Chen X, Chen M*. General velocity formula of boundary layer above mobile sediment bed induced by asymmetric waves[J]. International Journal of Sediment Research, 2021, 36(2): 255-267. [10] Zhang X, Chen M*, Wu P, Xin F. The Use of a Microscale Physical Model to Simulate Bankfull Discharge in the Lower Reaches of the Yellow River[J]. Water, 2020, 12(1): 13. [9] 陈明洪, 白璐, 刘宣冶, 郭建松, 汪超子. 基于土壤微环境分层的平原水稻灌区磷污染模型[J]. 农业工程学报, 2020, 36(20): 17–26. [8] Chen M, Pang J, Wu P. Flood Routing Model with Particle Filter-Based Data Assimilation for Flash Flood Forecasting in the Micro-Model of Lower Yellow River, China[J]. Water, 2018, 10(11): 1612. [7] Chen M, Zhao H, Fang H, Zhang Y. Cross-Sectional Information on Pore Structure and Element Distribution of Sediment Particles by SEM and EDS[J]. Scanning, 2017, 9876935: 1–7. [6] Fang H, Chen M*, Chen Z, Zhao H, He G. Simulation of sediment particle surface morphology and element distribution by the concept of mathematical sand[J]. Journal of Hydro-Environment Research, 2014, 8(3): 186–193. [5] Fang H, Chen M*, Chen Z, Zhao H, He G. Effects of sediment particle morphology on adsorption of phosphorus elements[J]. International Journal of Sediment Research, 2013, 28(2): 246–253. [4] Chen M, Fang H, Zheng Y, He G. Integrated Flood Management for Beiyun River, China[J]. Journal of Hydrology and Hydromechanics, 2013, 61(3): 177–187. [3] Chen M, Fang H, Huang L. Surface charge distribution and its impact on interactions between sediment particles[J]. Ocean Dynamics, 2013, 63(9–10): 1113–1121. [2] Fang H, Han D*, He G, Chen M*. Flood management selections for the Yangtze River midstream after the Three Gorges Project operation[J]. Journal of Hydrology, 2012, 432–433: 1–11. [1] 陈明洪, 方红卫, 刘军梅. 多闸坝分汊河流的洪水实时模拟和调度[J]. 水利水电科技进展, 2011, 31(02): 11-15+27. 学术专著1部: 方红卫, 陈明洪, 陈志和. 环境泥沙的表面特性与模型. 科学出版社,2009 ◆论著及论文(合作作者) [22] 周游, 陈根发, 陈明洪, 陈鑫*, 何茜. 全耦合CFD-DEM颗粒水力输送模型及其在倾斜管中的应用[J]. 清华大学学报(自然科学版), 2024: 1–10. (online) [21] Wang K, Huang L, He G, Fang H, Chen M, Wang D,Wu X. Spatial-temporal evolution of sediment transport in the upper Yangtze River Basin considering the cumulative impacts of mega reservoirs[J]. Catena, 2023, 232: 107370. [20] Xiong Y, Dong L, Long X, Chen M, Huang G. Pore-network model to quantify internal structure and hydraulic characteristics of randomly packed grains with different morphologies[J]. Granular Matter, 2021, 24(1): 10. [19] Wu Y, Huang L, Zhao C, Chen M, Ouyang W. Integrating hydrological, landscape ecological, and economic assessment during hydropower exploitation in the upper Yangtze River[J]. Science of The Total Environment, 2021, 767: 145496. [18] Li X, Huang L, Fang H, Chen M, Cui Z, Sun Z, Reible D. Phosphorus adsorption by sediment considering mineral composition and environmental factors[J]. Environmental Science and Pollution Research, 2021. [17] Liao R, Jin Z, Chen M, Li S. An integrated approach for enhancing the overall performance of constructed wetlands in urban areas[J]. Water Research, 2020, 187: 116443. [16] Wang C, Parlange J-Y, Schneider R L, Rasmussen E W, Wang X, Chen M, et al. Release of Escherichia coli under rainfall impact: The role of clay[J]: Advanced in Water Resources, 2018, 111: 1-5. [15] Wang C, Parlange J-Y, Rasmussen E W, Wang X, Chen M, et al. Modeling the release of Escherichia coli from soil into overland flow under rainfall impact[J]. Advanced in Water Resources, 2017, 106: 144-153. [14] Fang H, Cui Z, He G, Huang L, Chen M. Phosphorus adsorption onto clay minerals and iron oxide with consideration of heterogeneous particle morphology[J]. Science of the Total Environment, 2017, 605–606: 357–367. [13] Huang L, Fang H, He G, Chen M. Phosphorus adsorption on natural sediments with different pH incorporating surface morphology characterization[J]. Environmental Science and Pollution Research, 2016, 23(18): 18883–18891. [12] Fang H, Zhao H, Chen Z, Chen M, Zhang Y. 3D shape and morphology characterization of sediment particles[J]. Granular Matter, 2015, (17): 135-143. [11] Fang H, Shang Q, Chen M, He G. Changes in the critical erosion velocity for sediment colonized by biofilm[J]. Sedimentology, 2014, 61(3): 648–659. [10] Fang H, He G, Han D, Duan J, Huang L, Chen M. Fluvial processes and their impact on the finless porpoise’s habitat after the Three Gorges Project became operational[J]. Science China Technological Sciences, 2014, 57(5): 1020–1029. [9] 黄磊, 方红卫, 王靖宇, 陈明洪, 何国建. 天然石英砂的表面络合模型研究[J]. 环境科学学报, 2014, 34(05): 1141–1149. [8] Huang L, Fang H, Chen M. Experiment on surface charge distribution of fine sediment[J]. Science China Technological Sciences, 2012, 55(4): 1146–1152. [7] Fang H, Zhao H, Shang Q, Chen M. Effect of biofilm on the rheological properties of cohesive sediment[J]. Hydrobiologia, 2012, 694(1): 171–181. [6] 黄磊, 方红卫, 陈明洪. 泥沙颗粒表面电荷分布的初步研究[J]. 中国科学:技术科学, 2012, 42(04): 395–401. [5] 韩冬, 方红卫, 陈明洪. 一维河网模型断流问题研究[J]. 水力发电学报, 2012, 31(02): 95–99. [4] 韩冬, 方红卫, 陈明洪, 何国建, 白静. 一维河网泥沙输移模式研究[J]. 力学学报, 2011, 43(03): 476–481. [3] Zhao H, Fang H, Chen M. Floc architecture of bioflocculation sediment by ESEM and CLSM[J]. Scanning, 2011, 33(6): 437–445. [2] He G, Fang H, Bai S, Liu X, Chen M, Bai J. Application of a three-dimensional eutrophication model for the Beijing Guanting Reservoir, China[J]. Ecological Modelling, 2011, 222(8): 1491–1501. [1] 黄磊, 方红卫, 陈明洪, 赵慧明. 粘性细颗粒泥沙的表面电荷特性研究进展[J]. 清华大学学报(自然科学版), 2012, 52(06): 747–752. ◆荣誉奖励 (1)2023年农业节水科技奖一等奖(排名第6) (2)2023年国家级一流本科课程(排名第4) (3)中国农业大学“百篇优秀毕业论文”指导教师(2021、2018、2015年) (4)2017年高等学校水利类专业教学成果二等奖(排名第5) (5)2016年中国农业大学教学成果二等奖(排名第5) (6)2013年第三届全国大学生水利创新设计大赛一等奖优秀指导教师(排名第2) (7)2012年第三届全国水利学科青年教师讲课竞赛二等奖 (8)2011年度中国农业大学优秀班主任 (9)2010年度中国农业大学工会先进个人 ◆人才培养 (1)指导毕业及在读硕士研究生24人。 (2)指导多项国家级大学生创新训练项目及URP项目。 (3)主讲本科生核心基础课程《水利水能规划》《土木工程测量》,独立承担本科生选修课《河流动力学》。 (4)主持研究生课程《污染水文学》《水文水资源研究进展》。 (5)主持本科生院2019年教改项目《梯级水电站库群调度虚拟仿真实验》。 欢迎对水环境与水动力方向感兴趣的本科生及研究生加入本研究小组! ◆联系方式 地址:北京市海淀区清华东路17号 邮编:100083 E-mail: chenminghong@cau.edu.cn 教学科研概况社会职务活动动态研究领域开授课程
本科生课程:近十年课程数据
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