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杨中华

职称:教授,博士生导师(专业学位、学术学位)

邮箱:yzh@whu.edu.cn

个人网站:http://waterlab.whu.edu.cn/news-303.html

研究领域及招生方向:

研究方向:环境与生态水力学、计算水动力学、河湖生态修复

招生专业:水力学与河流动力学、港口海岸及近海工程、环境工程

招生类型:专业学位硕士、学术学位硕士、专业学位博士、学术学位博士

教育背景:

1995.09-1999.06 武汉水利电力大学,港口航道与治河工程专业,本科

1999.09-2001.06 武汉大学,港口海岸及近海工程专业,硕士

2001.09-2004.06 武汉大学,港口海岸及近海工程专业,博士

工作经历:

2004.09-2007.11 ,讲师

2007.12-2012.11 ,副教授

2012.12-今 ,教授

开设课程:

《流体力学》(本科生)

《水力学》(本科生)

《流体力学实验》(本科生)

《水环境与生态工程学》(研究生)

《CFD基础》(研究生)

《湍流理论与模型》(研究生)

代表性科研项目:

国家自然科学基金联合基金重点项目,长江中下游漫滩湿地生境特征与生态修复方法(2024~2027,主持)

国家自然科学基金面上项目,滩地植被化河道的水流结构和悬沙输移规律研究(2019~2022,主持)

国家自然科学基金面上项目,生态修复河道内的滞水区水流结构及物质输运规律研究(2017~2021,主持)

国家自然科学基金面上项目,基于伴随方程的河渠污染源反演模型及水污染优化控制研究(2014~2017,主持)

国家自然科学基金面上项目,水体紊动混合在水库富营养化中的作用机理研究(2008~2009,主持)

国家自然科学基金重点国际(地区)合作研究项目,河漫滩植被对河流物质耦合输移的多尺度影响效应及调控(2021~2025,参与)

国家自然科学基金重点项目,鄱阳湖水文水动力过程与生态演替相互作用机理多尺度研究(2015~2019,参与)

国家十二五重大专项“水体污染控制与治理科技重大专项课题”子题,水污染事件水质水量快速预测及追踪溯源技术(2013-2016,参与)

国家十一五重大专项“水体污染控制与治理科技重大专项课题”子题,水位调节坝水质水量调度控藻技术研究(2009-2011,参与)

横向科研项目,长江航道“水、滩、岸”立体空间生态修复及涵养技术研发与示范(2023-2024,主持)

横向科研项目,长江干线中下游航道地理信息云平台及趋势智能研判系统研究及示范(第一阶段)(2019-2023,主持)

横向科研项目,长江干线武汉至安庆段6米水深航道整治工程航道整治建筑物对水生生物演替规律及其资源变化的影响研究(2019-2022,主持)

横向科研项目,干支流相互作用条件下支流汇入区水动力特性研究(2021-2022,主持)

横向科研项目,汾河流域河漫滩湿地规划设计关键技术研究(2021-2022,主持)

横向科研项目,鄱阳湖水动力数值模型及江湖水资源关系研究(2019-2020,主持)

横向科研项目,长江中下游生态护坡坡面植被演替特征调查及形成机制研究(2019-2021,主持)

横向科研项目,南水北调东线两湖段河-湖-泵站水力学模型进行开发及测试(2016-2017,主持)

横向科研项目,长江荆江河段航道整治工程植入型生态固滩技术研究(2014-2016,主持)

学术兼职:

2014至今 国际水利与环境工程学会(IAHR)中国分会执行委员会委员

2023至今 中国水利学会水力学专委会委员

2016至今 湖北省力学学会理事

2016至今 湖北省水力发电学会水工水力学专委会副主任

2017至今 《Journal of Hydrodynamics》编委

2022至今 《水电能源科学》编委

2023至今 《Energy, Ecology & Environment》编委

2023至今 《中国农村水利水电》编委

奖励与荣誉:

水力发电科学技术二等奖(2022,排名第1)

中国电力科学技术二等奖(2020,排名第1)

大禹水利科学技术二等奖(2020,排名第4)

大禹水利科学技术一等奖(2018,排名第4)

教育部高等学校水利类专业教学成果特等奖(2014,排名第3)

第四届全国水利类专业青年教师讲课竞赛一等奖(2014)

湖北省自然科学二等奖(2007,排名第5)

代表性学术成果:

专著:

[1]杨中华,白凤朋,郑川东,朱政涛,基于近似Riemann解的浅水植被水流数值模拟,中国水利水电出版社,2022

[2]槐文信,杨中华,曾玉红,环境水力学基础,武汉大学出版社,2014

论文:

[1] Yisen Wang, Zhonghua Yang*, Minghui Yu, Ruyu Lin, Lei Zhu, Fengpeng Bai(2023): Integrating Ecosystem Health and Services for Assessing Ecological Risk and its Response to Typical Land-Use Patterns in the Eco-fragile Region, North China. Environmental Management 71:867–884.

[2] Qian Li, Zhonghua Yang*, Wei Yin*, Minghui Yu, Fengpeng Bai, Yao Yue, Yufeng Ren (2023): Tracing the sources and transport of the total phosphorus in the upper Yangtze River. Ecological Informatics, 77, 102230.

[3] Jianhua Liu , Zhonghua Yang,* Yang Liu, Ming Li, Chengcheng Zhou. (2023): Can the regulation of Golden Inland Waterways meet the needs of navigation, flood control, and ecology? A model-based case study. Ecological Engineering. 193,106998.

[4] Jianhua Liu, Zhonghua Yang*, Yang Liu, Yujie Fan, Ming Li. (2022): Effect of inclined angle on a wall-mounted finite-height square cylinder with a passive vertical suction. Ocean Engineering. 257, 111654.

[5] Yisen Wang, Zhonghua Yang*, Mengyang Liu, and Minghui Yu. (2022): Numerical study of flow characteristics in compound meandering channels with vegetated floodplains. Physics of Fluids, 34, 115107.

[6] Yisen Wang, Zhonghua Yang*, Minghui Yu, Haiyan Zhou,Dawei Zhang. (2022): Study on flow characteristics and diversity index of diamond‑type boulder cluster with different spacing ratios. Environmental Science and Pollution Research.

[7] Yisen Wang, Zhonghua Yang*, Minghui Yu, Ruyu Lin, Lei Zhu, Fengpeng Bai. (2022): Integrating Ecosystem Health and Services for Assessing Ecological Risk and its Response to Typical Land-Use Patterns in the Eco-fragile Region, North China. Environmental Management.

[8] Li, Da, Yang, Zhonghua*, & Guo, Man. (2022).Study of suspended sediment diffusion coefficients in submerged vegetation flow. Water Resources Research, 58, e2021WR031155.

[9] Zhonghua Yang*, Man Guo , Da Li. (2022): Theoretical model of suspended sediment transport capacity in submerged vegetation flow. Journal of Hydrology.

[10] Jianhua Liu, Zhonghua Yang*, Ming Li, Kunkun Lu, Da Li. (2022): Evaluating the concrete grade-control structures built by modified fish-nest bricks in the river restoration: A lab-based case study. Journal of Environmental Management.

[11] Jing Pingfei, Yang Zhonghua*, Yin Wei, Zhang Song, Bai Fengpeng. Release estimation of pollutants in river by the variational analysis approach. Journal of Contaminant Hydrology.

[12] Zhonghua Yang, Zhonghao Mao , Guanghua Guan* & Wei Gao (2021): Spacetime mesh refinement method for simulating transient mixed flows, Journal of Hydraulic Research,

[13] Wen-xin Huai, Shuolin Li, Gabriel G. Katul, Meng-yang Liu, Zhong-hua Yang*. Flow dynamics and sediment transport in vegetated rivers: A review. Journal of Hydrodynamics, 2021

[14] Zhengtao Zhu, Wenxin Huai*, Zhonghua Yang*, Da Li , Yisen Wang. Assessing habitat suitability and habitat fragmentation for endangered Siberian cranes in Poyang Lake region, China. Ecological Indicators 125 (2021) 107594.

[15] Haoze Fang, Zhonghua Yang*, Huilin Wang, Yujie Fan. Longitudinal dispersion coefficients of submerged vegetation flow under the effect of surface wind, Environmental Science and Pollution Research (2021) 28:12817–12830.

[16] Qian Li, Zhonghua Yang*, Yao Yue, Hua Zhong and Da Li, Variation of total phosphorus concentration and loads in the upper Yangtze River and contribution of non-point sources, Water Supply, 2021.

[17] Xiang Ke,Yang Zhonghua*. Flow Structure and Sediment Deposition in Groyne Fields with Emerging Vegetation, advanced engineering sciences, 2021, 53(2): 85-93.

[18] Zhonghua Yang, Zhonghao Mao, Guanghua Guan*, Wei Gao. Space-time mesh refinement method for simulating transient mixed flows, Journal of Hydraulic Research, 2021.

[19] Mao Zhonghao, Guan Guanghua, Yang Zhonghua*. Suppress Numerical Oscillations in Transient Mixed Flow Simulations with a Modified HLL Solver. Water, 2020, 12, 1245.

[20] Xiao Yizhou, Yang Zhonghua*, Wang Feifei, Liu Mengyang. Large eddy simulation of the hydrodynamic behavior of horizontal side jets in compound open channels with vegetated floodplain. Environmental Science and Pollution Research, 2020, 27:7967–7983.

[21] Jing Pingfei, Yang Zhonghua*, Zhou Wugang, Hua Wenxin, Lu Xinhua. Inverse estimation of finite-duration source release mass in river pollution accidents based on adjoint equation method. Environmental Science and Pollution Research, 2020, 27:14679–14689.

[22] Xiang Ke, Yang Zhonghua*, Wu Shiqiang, Gao Wei, Li Dan, Li Qiong. Flow hydrodynamics of the mixing layer in consecutive vegetated groyne fields. Physics of Fluids, 2020, 32, 065110,

[23] Li Da, Yang Zhonghua*, Zhu Zhengtao, Guo Man, Gao Wei, Sun Zhaohua. Estimating the distribution of suspended sediment concentration in submerged vegetation flow based on gravitational theory. Journal of Hydrology, 2020, 587: 124921.

[24] Yang Zhonghua*, Fengpeng Bai, Ke Xiang. A lattice Boltzmann model for the open channel flows described by the Saint-Venant equations. Royal Society Open Science,2020, 6: 190439.

[25] Zhou Wugang, Yang Zhonghua*, Liu Pan, Bai Fengpeng, ZhengChuandong. Estimation of reservoir inflow with significant lateral inflow by using the adjoint equation method. Journal of Hydrology, 2019, (574): 360-372.

[26] Yang Zhonghua, Li Da, Huai Wenxin*, Liu Jianhua. A New Method to Estimate Flow Conveyance in a Compound Channel with Vegetated Floodplains Based on Energy Balance. Journal of Hydrology, 2019.

[27] Xiang Ke, Yang Zhonghua*, Huai Wenxin, Ding Ran. Large eddy simulation of turbulent flow structure in a rectangular embayment zone with different population densities of vegetation. Environmental Science and Pollution Research, 2019.

[28] Jing Pingfei, Yang Zhonghua*, Zhou Wugang, Huai Wenxin, Lu Xinhua. Inversion of multiple parameters for river pollution accidents using emergency monitoring data. Water Environment Research, 2019, 1–9.

[29] Yang Zhonghua, Bai Fengpeng, Huai Wenxin*, Li Chengguang. Lattice Boltzmann Method for Simulating Flows in Open-channel with Partial Emergent Rigid Vegetation Cover. Journal of Hydrodynamics, 2018.

[30] 槐文信,钟娅,杨中华*.明渠漂浮植被水流内部能量损失和传递规律研究. 水利学报, 2018, 49(4): 397-418.

[31] 杨中华*,周武刚,白凤朋,安瑞冬. 基于伴随同化法的一维河流水质模型参数反演. 应用基础与工程科学学报, 2018, 26(2): 276-284.

[32] 杨中华,朱政涛,槐文信*,白凤朋. 鄱阳湖水利调控对湖区典型丰枯水年水动力水质影响研究. 水利学报, 2018, 49(2): 156-167.

[33] Li Da, Yang Zhonghua*, Sun Zhaohua, Huai Wenxin, Liu Jianhua. Theoretical Model of Suspended Sediment Concentration in a Flow with Submerged Vegetation. Water, 2018, 10, 1656.

[34] Zhu Zhengtao, Yang Zhonghua*, Bai Fengpeng, An Ruidong. A New Well-Balanced Reconstruction Technique for the Numerical Simulation of Shallow Water Flows with Wet/Dry Fronts and Complex Topography. Water, 2018, 10, 1661.

[35] Bai Fengpeng, Yang Zhong-hua*, Zhou Wugang. Study of total variation diminishing (TVD) slope limiters in dam-break flow simulation, Water Science and Engineering. 2018, 11(1): 68-74.

[36] Yang Zhonghua, Bai Fengpeng*, Huai Wenxin, An Ruidong, Wang Hanyong. Modelling open-channel flow with rigid vegetation based on two-dimensional shallow water equations using the lattice Boltzmann method, Ecological Engineering, 2017.6.1, 106: 75-81.

[37] Bai Fengpeng, Yang Zhonghua*, Huai Wenxin, Zheng Chuandong. A depth-averaged two dimensional shallow water model to simulate flow-rigid vegetation interactions, 12th International Conference on Hydroinformatics (HIC) - Smart Water for the Future, SOUTH KOREA, 2016.8.21-2016.8.26.

[38] 杨中华*, 杨水草, 李丹, 白凤朋. 三峡水库支流小江富营养化模型构建及在水量调度控藻中的应用, 湖泊科学, 2016, 028(4): 755-764.

[39] BAI Feng-peng, YANG Zhong-hua*. A well-balanced scheme for shallow water euqations over irregular bed topography including flooded and partial flooded cells, E-proceedings of the 36th IAHR World Congress 28 June-3 July, 2015, The Hague, the Netherlands.

[40] Li, Zhiwei, Huai Wenxin, Yang Zhonghua*, Qian Zhongdong, Zeng Yuhong, Numerical study on the dynamics and mass transfer characteristics of a radial offset jet, Engineering Computations, 2014, 31(3): 406-424.

[41] 杨中华*, 白凤鹏, 胡朝阳. 两种布置方式下的四面六边透水框架周边流场的PIV试验研究, 应用基础与工程科学学报, 2014.10.15, (05): 877-886.\

[42] Yang Zhong-hua, Hu Zhao-yang, Yu Xin-ming, et al. Experimental investigation of flow over a tetrahedron penetrating frame with PIV,35th IAHR World Congress, 2013.9.8-2013.9.13, Chengdu, China.

[43] Li Zhi-wei,Huai Wen-xin,Yang Zhong-hua*,Interaction between Wall Jet and Offset Jet with Different Velocity and Offset Ratio,International Conference on Modern Hydraulic Engineering (CMHE),49-54,Nanjing, PEOPLES RCHINA,2012.3.9-2012.3.11.

[44] Yang Zhong-hua , Gao Wei, Huai Wen-xin. Estimation of discharge in compound channels based on energy concept, Journal of Hydraulic Research, 2012,50(1):105-113.

[45] Yang Zhong-hua , Gao Wei, Huai Wen-xin. Secondary flow coefficient of overbank flow, Applied Mathematics and Mechanics, 2010,31(6):709-718.

[46] 杨中华,高伟,考虑滩槽相互作用的漫滩水流二维解析解,四川大学学报(工程科学版),2009,(05):42-46.

[47] Yang Zhong-hua, Huai Wen-xin, Zeng Xiao-hui. An Application of Finite Volume WENO Schemeto Numerical Modeling of Tidal Current, China Ocean Engineering, 2006 , 20(4): 545-556.

[48] Yang Zhong-hua, Huai Wen-xin, Dai Hui-chao. Experimental investigation into hotwater slot jets with Negatively buoyancy incross flow, Journal of Hydrodynamics, Ser.B, 2005,17(4): 412-417.

专利:

[1] 杨中华; 范玉洁; 牛皓; 刘建华; 李明; 方浩泽;一种测量河流岸坡生态护岸结构表面基质流失的方法,2022-06-08, 中国,ZL202210642931.6.

[2] 杨中华; 范玉洁; 牛皓; 刘建华; 槐文信; 李明; 一种有效保护岸坡基质的连锁式生态护坡结构,2022-5-9, 中国,ZL202221102259.3.

[3] 杨中华; 槐文信; 朱政涛; 柳梦阳; 范玉洁; 王奕森; 李达; 河道内水草影响电站发电的风险预警方法及系统,2021-6-7, 中国,ZL202110675169.7.

[4] 杨中华; 陈治平; 伍翠凤; 胡悦; 陈汤卓逸; 卢聆江; 一种多功能生态引水装置,2020-3-15, 中国,ZL20201381101.X.

[5] 杨中华;朱政涛;程明村;槐文信;郑俊杰;李达;结合水动力模型的涉禽栖息地适宜性空间模糊评价方法,2019-07-10, 中国,ZL2019106190731.

[6] 杨中华;荆平飞;槐文信;周武刚;基于应急监测数据的一维瞬时点源污染源溯源方法,2018-09-04, 中国,ZL2018110276035.

地址:武汉市武昌区东湖南路8号电话:027-68772215学院邮箱:sdxy@whu.edu.cn

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