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河海大学港口海岸与近海工程学院导师教师师资介绍简介-储鏖

本站小编 Free考研考试/2021-02-20


储鏖,男 ,讲师,博士


简历
教育背景
2007.10-2019.07 荷兰Delft理工大学 博士
专业:水利工程(河口海岸动力地貌)
2003.03-2007.07 河海大学,港口、海岸及近海工程专业 博士研究生
2000.10-2002.05 荷兰IHE水教育学院 硕士
专业:水利工程(海岸工程)
1998.09-2000.10 河海大学,港口、海岸及近海工程专业 硕士研究生
1994.09-1998.06 河海大学,港口航道与近海工程专业 本科

工作及科研经历
1998.07-至今 河海大学 港口海岸与近海工程学院 讲师
2014.01-2014.08 荷兰Delft理工大学 访问****
2013.12-2014.01 罗马第三大学 访问****
1999.07-2000.05 长江委员会设计院 助理工程师

研究方向
?河口海岸水动力学、泥沙及动力过程地貌模拟
?河口防灾减灾
?海洋工程水文


主讲课程
?河海大学留学生精品课程Software Application of Estuarine, Coastal Hydrodynamic and Sediment (河口海岸水动力泥沙软件应用),河海大学留学生研究生英文选修课,2学分
?河海大学留学生精品课程Simulation Technology of Port Coastal and Offshore Engineering (河口海岸及近海工程模拟技术),河海大学留学生研究生英文必修课,2学分
?海洋法规,海洋学院本科生选修课,1学分
?海洋灾害与预报,海洋学院本科生选修课,2学分
?工程水文学,港口航道与海岸工程专业本科生必修课,2学分

科研项目
1.国家重点研发计划:2018YFC**,“水资源高效开发利用”专项“河口海岸滩涂资源保护与高效利用关键技术研究及应用”项目之“变化条件下河口海岸滩涂动态响应及演变趋势”课题2018/07-2021/12,320万(课题一),在研,专题负责
2.国家重点研发计划:2017YFC**,“水资源高效开发利用”专项“长江口水沙变化与重大工程安全”项目之“输入条件变化趋势与河口主要动力要素响应机制”课题,2017/07-2020/12,242万(课题一),在研,专题负责
3.国家自然科学基金重点项目:,多因子驱动下粉砂淤泥质潮滩演变机制及模拟,2017.01-2021.12,项目经费243万元,参与,子课题负责人
4.江苏省海岸资源开发与环境安全重点实验室开放基金,JSCE201510河口地貌演变多尺度、多动力过程模拟技术,2015/10-2017/09,3万元,在研,主持
5.“十二五”国家科技支撑项目,2013BAB12B05,水沙变异条件下荆江与长江口北支河道治理关键技术研究,2013/07-2016/12,40万元,结题,主持
6.973项目,2010CB429001,“长江口水动力与水盐动态过程”,2010/01- 2014/12,423万元,结题,参与
7.技术开发,长江口盐水入侵特性分析及数学模型研究,2014-2016,48万,项目负责人之一。
8.技术开发,连云港30万吨级航道工程预可行性研究——潮流、泥沙、波浪数学模型研究,2007-2009,90万,项目负责人之一。
9.技术开发,N005工程北灯光带台风期间波要素核算研究,2017-2018,15万,主持。

论文论著
?期刊论文
[1] Ao Chu, Z. B. Wang, H.J. de Vriend,J.A. Tai, (2018) Parallel Morphodynamic Modelling for the Yangtze Estuary,Journal of Coastal Research, 641-645.
[2] Xie D. H. Tan Y. Chu A., Zhou T.Y., van Maanen B (2018) Distribution Characteristics of the Extreme Storm Tides in the Radial Sand Ridges Area of the South Yellow Sea in China, Journal of Coastal Research.
[3] Zhu Y.L, Chen W.L, Chu A. (2018). 河口潮平均准稳态盐度解析模型, 海洋与湖沼, pp541-550, vol 49, No.3.
[4] Ao Chu, Z. B. Wang, H.J. de Vriend. (2015) Analysis on Residual Coarse Sediment Transport in Estuaries, Estuarine, Coastal and Shelf Science, 163:194-205
[5] Zhang X. L., Dai Z. J., Chu A., Du J. Z. (2014) Impacts of relative sea level rise on the shoreface deposition, Shuidong Bay, South China, Environment Earth Science, 71:3503-3515, doi 10.1007/s12665-013-2740-1.
[6] Dai Z.J., Chu A., Li W.H., Wu H.L (2013). Has Suspended Sediment Concentration Near the Mouth Bar of the Yangtze (Changjiang) Estuary Been Declining in Recent Years? Journal of Coastal Research, doi: 10.2112/JCOASTRES-D-11-00200.1.
[7] Gong, Z., Wang, Z., Stive, M. J. F., Zhang, C., & Chu, A. (2012). Process-Based Morphodynamic Modeling of a Schematized Mudflat Dominated by a Long-Shore Tidal Current at the Central Jiangsu Coast, China. Journal of Coastal Research, 285, 1381-1392. doi:10.2112/jcoastres-d-12-00001.1.
[8] Dai Z.J., Chu A., Stive M.J.F., Yao H.Y.(2012) Impact of the Three Gorges Dam overruled by an extreme climate hazard, , Natural Hazards Review, 2012, 13(4) : 310 -316 http://dx.doi.org/10.1061/(ASCE)NH.1527-6996.**
[9] Dai Z.J. *, Chu A.*, Stive M.J.F., Zhang X.L., Yan H.(2011) Unusual salinity conditions in the Yangtze Estuary in 2006: impacts of an extreme drought or of the Three Gorges Dam?, Ambio, doi: 10.1007/s13280-011-0148-2
[10] Dai Z.J., Chu A., Stive M.J.F., Li J.F. (2011) Is the Three Georges Dam the cause behind the 2006 extreme low suspended sediment discharge into the Yangtze (Changjiang) estuary? Hydrological Sciences Journal 56(7): 1280-1288
[11] Dai Z.J., Du J.Z., Chu A., Zhang X.L. ( 2011) Sediment characteristics in the North Branch of the Yangtze Estuary based on radioisotope tracers. Environmental Earth Sciences 62: 1629-11634.
[12] Dai Z.J., Du J.Z., Chu A., Li J.F., Chen J.Y. and. Zhang X.L, (2010) Groundwater discharge to the Changjiang River, China, during the drought season of 2006: effects of the extreme drought and the impoundment of the Three Gorges Dam. Hydrogeology Journal 18: 359-369.
[13] Dai Z.J., Chu A., Du J.Z., Stive M.J.F., and Yan H. (2010) Assessment of extreme drought and human interference on baseflow of the Yangtze River, Hydrological Processes 24: 749-757.
[14] 顾家悦,储鏖*,申云飞,沈港佩,王雨霏,傅钧义(2017) 芦潮港岸段警戒潮位研究,中国标准化。
[15] 储鏖 (2004) Delft3D在天文潮与风暴潮耦合数值模拟中的应用,海洋预报,vol.21 No.3


?会议论文或摘要
[1] Chu A., Tai J.A., Tan Y. (2018) Effect of storm surge barrier at the north branch on the extreme high water level in Yangtze Estuary, Proc. ISOPE2018, Sapporo, Japan.
[2] Chen J.X., Tan Y., Chu A. (2018) Probability Assessment of Flood Embankment in the Radial Sand Ridges Area of the South Yellow Sea, Proc. ISOPE2018, Sapporo, Japan.
[3] Chu A., Xu Y., Chen Y. P., Tai J. A. (2018) Long-term net sediment transport in estuarine environment, Sediment Dynamics of Estuaries and Muddy Coasts (Abstract).
[4] 顾家悦,储鏖*,申云飞,沈港佩,王雨霏,傅钧义 (2017) Warning Water Level Determination for Luchaogang of Shanghai,国际材料科学和工程应用年会2017年,南京.
[5] Chu A., Tai J.A. (2015) Mor-Merge approach with multi-discharge for morphodynamic modeling of the Yangtze Estuary, Proc. ISOPE2015.
[6] Chu A. and Tai J. A (2015). Analytical approach to long-term coarse sediment transport in estuaries, Proc. IAHR Den Hague (abstract)
[7] Chu A., Tai J.A., Gu S.H. (2014) Influence of the Three Gorges Dam on Sediment Budget at Mouth Bar of the Yangtze Estuary, Proc. PACOMS 2014-Shanghai.
[8] Chu A., Tai J.A., Gu S.H. (2014) Determination of Constituent Models for Process-Based Morphological Model of the Yangtze Estuary, Proc. ISOPE2014-Shanghai.
[9] Tai J. A., Chu A. (2014) Determination of the Probable Maximum Tropical Cyclone for the Chinese coast: Case of Nansha, Guangzhou, Proc. ISOPE2014-Shanghai.
[10] Chu A., Wang Z. B., de Vriend H. J., Tai J.A. (2013) Modelling processes controlling sediment transport at the mouth bar of the Yangtze Estuary, Proc. IAHR2013 word congress, Chengdu.
[11] Grasmeijer B., Chu A., van Rijn L. (2011). Application and comparison of two different fine cohesive sediment transport models in delft3d. Proc. Coastal Sediments 2011, Miami
[12] Chu A., Z. B. Wang, H.J. de Vriend and Stive M. J.F., 2010, A process-based approach to sediment transport in the Yangtze Estuary, Proc. in ICCE2010, Shanghai.
[13] Chu A., Z. B. Wang and H. J. de Vriend, 2009, Process-based modelling for the Yangtze Estuary, Proc. Coastal Dynamics, 2009, Tokyo.
[14] Chu A., Tai J. A. (2006) Wave simulation in the Radial Sand Ridge Are of the Yellow Sea, Proc. IAHR-APD, Chennai.
[15] 储鏖,邰佳爱,张君论(2005)南中国海台风暴潮研究——台风气压模式优选,第二届军事海洋强国论坛。
[16] Chu A., Zhang C. K., Zhang J. L., Tai J. A. (2005) Tidal prediction improvements in estuaries and coastal seas, Proc. IAHR 2005, Soul.
[17] Chu A., Tai J. A. (2004) Numerical simulation of coupling storm surge and astronomic tide based on delft 3D, Proc. Second sino-german joint symposium on coastal and ocean engineering, Nanjing.
[18] Tai J. A., Chu A. (2004) Extreme water level determination based on coupling model integrating storm surge and astronomic tide, Proc. Second sino-german joint symposium on coastal and ocean engineering, Nanjing.

学位论文
Chu A. (2019). Analysis and modelling of Morphodynamics of the Yangtze Estuary (ISBN书号:978-94-6366-191-1),Delft University of Technology, 博士学位论文

表彰奖励
2018 河海大学本科毕业设计优秀指导教师
2013 河海大学本科毕业设计优秀指导教师
2007 江苏沿海风浪场、潮位和风暴潮研究,江苏省水利科技优秀成果奖,一等奖(张玮,陈锡林,谭亚,黄利亚,闻余华,储鏖,邰佳爱)
2005 长江下游实用型洪水-风暴潮综合数学模型 教育部科技进步奖,二等奖,(张长宽,谭亚,王震,邰佳爱,储鏖,李国芳,龚政,张君伦,张东生)
2005 河海大学“青年岗位能手”
1999 河海大学1998-1999年度“优秀研究生干部”

联系方式
邮箱:ao_chu@hhu.edu.cn

本人长期致力于河口海岸水动力学、泥沙及动力地貌过程模拟,河口海岸台风暴潮模拟及预报,海洋工程水文学等方面的研究工作。目前主要关注长江口水、沙动力过程,及中长周期动力地貌数值模拟,欢迎垂询。

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