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大连海事大学交通运输工程学院导师教师师资介绍简介-尤再进

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简介尤再进,澳大利亚新州大学海岸工程博士,特聘教授、国家杰出青年基金获得者(B)、山东泰山学者海外特聘专家、山东省智库高端人才库专家、烟台市双百计划特聘专家。一直致力于港口海岸工程、物理海洋、海岸泥沙输运、海岸带灾害、海洋能资源评估等方面的研究工作,26年丰富的海外工作经历。主持国家杰出青年基金、国家重点基金、科技部重点专项课题、中科院知识创新基金、澳洲联邦政府重点基金项目。回国工作五年成功建设了水利工程一级学科硕士点、省双一流港口工程专业,担任中科院海洋所客座研究员、中国海洋大学博导、国家同行评审专家,发表论文120多篇。
1.个人情况
姓名:尤再进/You Zai-Jin
出生年月: 1963年11月11日
现任单位: 大连海事大学,港口与航运安全协同创新中心
职称/职务: 双聘教授、博导、中心主任
主要荣誉: 国家杰出青年基金获得者(B类)
山东《泰山学者》海外特聘专家
电话: 156 6681 0220 [手机]
电子邮件:b.you@dlmu.edu.cn
2.教育程度
1993-1994博士后, 魁北克大学, 物理海洋研究所, 加拿大
1988-1992博士, 新南威尔士大学土木工程,澳大利亚
1986-1988国家教委公派出国研究生, 天津大学水利系,海岸动力学专业
1982-1986学士, 天津大学水利系,港口海岸及近海工程专业
3.工作经历
2020-至今 教授、博导、中心主任,大连海事大学,港口与航运安全协同创新中心
2014-2019特聘教授/院长,鲁东大学,港口与海岸工程防灾减灾研究院
1999-2014高级研究员,新南威尔士州环境部,澳大利亚
1994-1999高级研究员及学科带头人,维洲海洋与淡水研究所,澳大利亚
1993-1994博士后, 魁北克大学物理海洋研究所,加拿大
4.科研领域
科研领域港口海岸工程、海岸动力及泥沙输运、物理海洋、海岸带灾害、海洋能资源
5.人才工程及学术荣誉
2016.08山东省《智库高端人才库》专家
2015.07烟台《双百计划》特聘专家
2015.01山东《泰山学者》海外特聘专家
2014.03 鲁东大学海外高层次引进人才,海外特聘教授
2005-2007国家杰出青年基金获得者(B类)
资助学科: 物理海洋
研究课题: 波浪边界层和海岸泥沙起动
依托单位: 中科院海洋所,青岛
2004-2007河海大学特聘教授(短期类)、博士生导师
依托学科:水文水资源与水利工程科学国家重点实验室
主要成果: 指导博士和硕士生、国家基金申请、科研人员培养、
学术交流、发表学术论文、增强了国外科研合作
2003-2004 中科院知识科学创新工程基金获得者
资助学科: 近海岸动力学
研究课题: 不规则波浪和水流作用下泥沙起动
2003中科院王宽诚教育基金高级访问学者
访问单位: 中科院海洋环流和波动重点实验室,青岛
2003-2013特殊津贴享受新南威尔士洲政府津贴(显著科研成绩),澳大利亚
6.学术及社会兼职
2017-至今 同行评审专家:国家****、国家奖
2015-至今 同行评审专家:****、杰出青年科学基金、重点基金等基金
2017-至今博士生导师,中国海洋大学港口海岸及近海工程
2004-至今客座研究员,中科院海洋所,青岛
2004-2007特聘教授、博士生导师,河海大学
2019.09客座主编辑:Marine Geology, Elsevier
2015.09客座主编辑:Estuarine, Coastal & Shelf Science, Elsevier
2012-至今期刊编委:Journal of Shipping and Ocean Engineering, USA
2013-至今期刊编委:China Ocean Engineering, Springer
2013-至今 期刊编委:中国海洋工程
2019-至今 期刊编委:港口技术
7.主要科研项目
尤再进等(¥280万,2019.01-2022.12),NSFC-山东联合重点基金,山东省滨海沙滩防护工程环境灾害及防灾减灾对策研究(U**),在研,主持.
尤再进(¥1400万,2020.01-2024.13),海外高层次人才引进启动经费,大连海事大学.
尤再进等(¥159万,2019.02-2023.02),国家重点研发计划,基于我国资源特性的海洋能高效利用创新技术研发:海洋能资源数据描述及预测(课题1,2018YFB**),在研,主持.
尤再进等(¥81万,2020.01-2023.12),NSFC-山东联合重点基金,山东省粉沙质海岸港口工程骤冲骤於灾害及防灾减灾措施研究(课题1)(U**),在研,主持.
尤再进(¥400万,2015.01-2019.12),海岸侵蚀和淹没灾害数据采集和预测技术(tshw ).山东《泰山学者》特聘专家人才工程.
尤再进(¥40万元,2005.01-2007.12)国家杰出青年科研基金(B),波浪边界层和海岸泥沙起动(**),已结题.
尤再进等(¥30万,2017.08-2019.06),山东省自然科学基金重大基础研究项目,潮流、波浪能高效捕获与转换基础研究(ZR2017ZA0202),在研,主持.
尤再进等(¥30万,2016.01-2016.11),中国典型海域波浪再生能源变化趋势,国家海洋局海洋专项(GHME2014ZC01),国家海洋局技术中心,结题,主持.
尤再进等(¥150万,2016.06-2021.06),鲁东大学水利工程特色学科,鲁东大学.
尤再进(¥80万,2015.07),烟台海岸线治理和保护创新技术研究. 烟台《双百计划》特聘专家人才工程.
尤再进(¥200万,2014.01),海岸工程研究中心和学科建设。高层次人才引进科研启动经费,鲁东大学.
You, Z Jand Hanslow, D (RMB¥154万/$266,000; 2013-15). Combined impacts of storm tide and wave runup on NSW coastal erosion and inundation.Natural Disaster Resilience Program(NDRP)Research Grant funded by the Commonwealth government。该联邦政府重点科研基金课题是:风暴潮和波浪爬高共同作用下的海岸侵蚀和淹没.
Hanslow, D andYou, Z J(RMB¥185万/$318,352; 2012-13). Coastal erosion risk assessment: Best Practice and Tools and Data.NDRP Research Grant。该联邦政府重点科研基金课题是:鉴定海岸侵蚀危害—最佳途径、工具和数据.
You, Z J(RMB¥212万/$366,000; 2010-13). Tidal limits and flooding tailwater levels at NSW coastal entrances (Stages-I and -II),NDRP Research Grant。该联邦政府科研基金课题是:海岸河口潮位和洪水情况下河口水位的确定.
You, Z Jand Gibbs, J (RMB¥110万/$189,000; 2012-13). Mapping NSW coastal hazards and indexing related risks.NDRP Research Grant(Stages-II).NDRP Research Grant。该联邦政府科研基金课题是:新南威尔士州海岸灾害数据库建立(第二期).
You, Z J(RMB¥110万/$190,000; 2010-11). Mapping NSW coastal hazards and indexing related risks.NDRP Research Grant(Stages-I). NDRP Research Grant。该联邦政府科研基金课题是:新南威尔士州海岸灾害数据库建立(一期).OEH, UQ and DHI (RMB¥153万/$263,000; 2010-2012). Development of an adaptive statistical model for oceanic flooding hazards along the East Australian Coast.ARC Linkage Research Grant。该联邦政府自然科研基金课题是:澳大利亚东海岸海岸淹没灾害概率模式的建立。
You, Z J(RMB¥111万/$191,000; 2008-10). Coastal extreme storms and elevated water levels.NDMP Research Grant。该联邦政府科研基金课题是:海岸风暴及增水.
8.代表论文
You, Z.J(1991), Nielsen, P and Wilkinson, D.L (1991). Velocity distributions of waves and currents in combined flows.Coastal Engineering,15: 525-543.
You, Z.J, Nielsen, P &Wilkinson, D.L (1992). Velocity distribution in turbulent oscillatory boundary layer.Coastal Engineering,18: 21-38.
You, Z.J(1994). A simple model for current velocity profiles in combined wave-current flows.Coastal Engineering, 23: 289-304.
You, Z.J(1994). Eddy viscosities and velocities in combined wave-current flows.Ocean Engineering, 21: 81-97.
You, Z.J(1995). Increase of current bottom shear due to waves.Coastal Engineering, 26: 291-295.
You, Z.J(1996). Movable bed roughness and current profiles in the presence of irregular waves with an arbitrary angle to currents.Ocean Engineering, 23: 225-242.
You, Z.J(1996). The effect of wave-induced stress on current profiles.Ocean Engineering, 23: 619-628.
You, Z.J(1998). Initial motion of sediment in oscillatory flow.Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE, 124: 68-72.
You, Z.J(2000). A simple model of sediment initiation under waves.Coastal Engineering, 41: 399-412.
You, Z.J(2004). The effect of suspended sediment concentration on the settling velocity of cohesive sediment in quiescent water.Ocean Engineering,31:1955-1965.
You, Z.J(2005). A field study of fine sediment resuspension dynamics in a large semi-enclosed bay.Ocean Engineering, 32: 1982-1993.
You, Z.J(2005). Estimation of bed roughness from mean velocities measured at two levels near the seabed.Continental Shelf Research, 25: 1043-1051.
You, Z.Jand Yin, B.S (2006). A unified criterion for initiation of sediment motion and inception of sheet flow under waves.Sedimentology, 53: 1181-1190.
You, Z.J(2006). Estimation of bed roughness in a tidal channel with an extended long-fit method.Continental Shelf Research, 26: 283-294.
You, Z.Jand Yin, B.S (2007). Direct measurement of bed shear stress under waves.Journal of Coastal Research, 50: 1132-1136.
You, Z.Jand Lord, D (2008). Influence of the El Nino Southern Oscillation on the NSW coastal storm severity.Journal of Coastal Research, 24: 203-207.
You, Z.J(2009). Statistical distribution of nearbed wave orbital velocity in intermediate coastal water depth.Coastal Engineering, 56: 844-852.
You, Z.J(2009). A close approximation of wave dispersion relation for direct calculation of wavelength in any coastal water depth.Applied Ocean Research, 30:133-139.
You, Z.J, Yin, B S, Ji, Z Z and Hu, C (2015). Minimization of the uncertainty in estimation of extreme waves.Journal of Coastal Research,75:1277-1281.
You Z.J, Shi H.Y and Bai Y.C (2018).Impacts of storm wave-induced coastal hazards on the coast of China.Journal of Coastal Research85:826-830.
You, Z.Jand Chen, C (2018).Chapter 7: Coastal Dynamics and Sediment Resuspension in Laizhou Bay, Book onSediment Dynamics of Chinese Muddy Coasts and Estuaries: Physics, Biology and their Interactions, edited by Wang, X.H .
You, Z.J(2019).Tropical Cyclone-Induced Hazards Caused by Storm Surges and Large Waves on the Coast of China. Geoscience,9(3):131
9.论文目录
[1]You, Z.J(2019).Tropical Cyclone-Induced Hazards Caused by Storm Surges and Large Waves on the Coast of China. Geoscience,9(3):131.
[2]Na Zhang, Jin Wang, Yongsheng Wu, Keh-Han Wang, Qinghe Zhang, Shuangquan Wu,Zai-Jin You, Yuteng Ma (2019. A modelling study of ice effect on tidal damping in the Bohai Sea, Ocean Engineering,173:748-760.
[3]Li Y.Q,You Z.J*(通讯作者), Shi H.Y and Ren B (2020). Construction of in-situ coastal experimental station to continue assessing shoreline protection performance of geotextile sandbags. Journal of Coastal Research (Accepted).
[4]Liu Y, You Z.J, Han YQ (2020), Implementation of complex position constraints in the kinetic Dynamic Relaxation method, Mathematical Problems in Engineering, ID **.
[5]Wan, C.; Yang, C.; Fang, Q.;You, Z.J; Geng, J.; Wang, Y (2020). Hydrodynamic Investigation of a Dual-Cylindrical OWC Wave Energy Converter Integrated into a Fixed Caisson Breakwater.Energies,13:896.
[6]Li X.Y., Wang Q.,You Z.J., Guo W.J., Zhang J.B., Zhan C., Zhang Z.C., Wang L.X and Li Q (200). Wave attenuation performance and the influencing factors of a lower arc-plate breakwater.China Ocean Engineering,34(1):1-10.
[7]You, Z.Jand Chen, C (2018).Chapter 7: Coastal Dynamics and Sediment Resuspension in Laizhou Bay, Book onSediment Dynamics of Chinese Muddy Coasts and Estuaries: Physics, Biology and their Interactions, edited by Wang, X.H .
[8]You Z.J, Shi H.Y and Bai Y.C (2018).Impacts of storm wave-induced coastal hazards on the coast of China.Journal of Coastal Research85:826-830 (SCI).
[9]Shi, H.Y,You, Z.J*(通讯作者), Yin, B.S and Bao, Y.C (2018).Critical depths derived for three distinct modes of coastal sediment transport.Journal of Coastal Research,85:271-275.
[10]Ji, Z.Z,You, Z.J*(通讯作者) and Yun, W (2018).Development of a generalized formulation for estimating sediment siltation in waterways on the silty coast of China, Journal of Coastal Research,85:1221-1225.
[11]Hu C,You Z.J, Mao H.Y and Hu X.M (2018). Assessing impacts of large-scale Coastal land reclamation on marine environment on the coast of China.Journal of Coastal Research,85:1486-1490.
[12]You, Z. J(2018). Impacts of Human-Activity Related National-scale Projects on Coasts and Estuaries of China in Last Few Decades.The 1st International Workshop on Coastal Reservoir. 24-25 January, Wollongong, UOW, Australia.
[13]You, Z.J,Shi, H.Y, Li, B and Li, Y.Q (2018).Field Measurements of Dynamic Beach Profiles to Assess Erosion Hazard on the Coast of Yantai, China.Int. Ocean and Polar Engineering Conf., Sapporo, Hokkaido, Japan, June 10-15.
[14]Liu Y,You, Z.Jand Gao,S C (2017).A continuous 1-D model for the coiling of a weakly viscoelastic jet. Acta Mechanica. DOI 10.1007/s00707-017-2083-1.
[15]You, Z J(2017). Assessment of coastal inundation and erosion hazards along the coast of China.Int. Ocean and Polar Engineering Conf., San Francisco, California , June 25-30.
[16]尤再进,尹宝树,石洪源(2017)。应用“跨零-能量”法估算海洋波能流和波浪再生能资源。海洋湖沼,48(5):926-931.
[17]石洪源,尤再进*(2017).基于ERA-Interim再分析数据的中国东海海域波浪能时空分布特征研究[J], 海洋湖沼通报.(6):30-37.
[18]石洪源,尤再进*(2017).不同台风合成风场在南海的适用性研究,海洋湖沼通报 (已接收).
[19]胡聪,尤再进*(2017),毛海英等.集约用海对海洋资源影响评价方法研究.海洋环境科学,2017,(02):173-178.
[20]王同顺,尤再进*(2017).黄河径流及风场作用下渤海盐度的数值研究,海洋湖沼通报(接收)
[21]尤再进,中国海岸带重大灾害的空间分布及防护措施,第四屆海峽兩岸海岸科學與可持續發展學術研討會,高雄,台湾,6月2-6,2017.
[22]尤再进,海洋与沉积动力的观测系统,国家海底科学观测网东海立体综合观测塔科学功能研讨会。上海,5月16-17,2017.
[23]尤再进,海岸带淹没和侵蚀灾害及减灾措施,2016年海岸工程中青年学术研讨会,大连,10月30-31,2016.
[24]You, Z.J.Wave friction factor and sediment transport. Turbulent mixing and sediment transport in the ocean. Guangzhou, September 12-14, 2016.
[25]You, Z. J. Laizhou Bay, Qingdao and Transformation of Urban Ports and Harbour Workshop, Qingdao, Oct 17-19, 2016.
[26]胡聪,尤再进,毛海英(2016).基于德尔菲法的围填海对海洋资源影响指标体系研究.海洋科学,,(08):150-156.
[27]You, Z Jand Yin, B S (2016). Standardized procedure for estimation of extreme ocean waves.The 26th International Ocean and Polar Engineering Conference, Rhodes, Greece, June 26-July.
[28]Yang, Z T andYou, Z J(通讯作者) (2016). Quantitative Study of Beach-Face Slope Based on Field Measurement.International Ocean and Polar Eng Conference, Rhodes, Greece, June 26-July.
[29]尤再进(2016).中国海岸带淹没和侵蚀灾害及减灾策略。中国科学院院刊,31(10): 1190-1196
[30]You, Z J. Coastal storm erosion dynamics and new conceptual model of shoreline changes. Proceedings of LOICZ 2015.Intl Workshop on Land-Ocean Interactions in the Coastal Zone and Sustainable Development, Yantai, China, September 15-17, 2015.
[31]You, Z J. Calculation of critical bottom shear stresses for initial movement of cohesive and non-cohesive sediment in combined wave-current flows.2nd Intl Workshop on Sediment Dynamics of Muddy Coasts and Estuaries: Physics, Biology and Their Interaction. Zhoushan, China, Oct 23-26, 2015
[32]You, Z J, Yin, B S, Ji, Z Z and Hu, C (2015). Minimization of the uncertainty in estimation of extreme waves.Journal of Coastal Research75:1277-1281.
[33]尤再进、季则舟(2015).澳大利亚新州海岸侵蚀灾害数据采集与模拟。海洋工程会议,广西南宁,13-15,2015.
[34]李宏杰,尹宝树,尤再进(通讯作者)(2015).海洋极值波高计算的主要影响因素。海洋工程会议,广西南宁,13-15,2015.
[35]You, Z J(2015). Coastal storm erosion dynamics and new conceptual model of shoreline changes. Proceedings of LOICZ 2015.Intl Workshop on Land-Ocean Interactions in the Coastal Zone and Sustainable Development,September 15-17, Yantai, China.
[36]You, Z J(2015). Calculation of critical bottom shear stresses for initial movement of cohesive and non-cohesive sediment in combined wave-current flows.2ndIntl Workshop on Sediment Dynamics of Muddy Coasts and Estuaries: Physics, Biology and Their Interaction. Oct 23-26, Zhoushan, China.
[37]You, Z J, Laine R, Wiecek D, Hanslow D and Baldock T (2014). Field Measurements of Beach-dune Dynamic Profiles and Grain-Size Distributions to Assess Coastal Erosion along NSW Coast of Australia.International Conference on Coastal Engineering, ASCE June 15-20.
[38]Yin, B S andYOU, Z J(2014). Identification and Minimization of the Uncertainty in Estimation of Coastal Extreme Waves.International Conference on Coastal Engineering, ASCE June 15-20 (abstract accepted).
[39]David P. Callaghan, Thuy T. T.Vu, David J. Hanslow, Peter Nielsen,You, Z JandIan Teakle(2014).Ocean driven flooding of a coastal lake.International Conference on Coastal Engineering, ASCEJune 15-20.
[40]You, Z.J, Lord, D and Watson, P (2014),Estimation of relative mean sea level rise from Fort Denison tide gauge data.Australian Journal of Civil Engineering.
[41]You, Z Jand Callaghan, D (2013). Modeling significant wave height distribution with quantile functions for estimation of extreme waves: Discussion.Ocean Engineering,70: 208-210.
[42]You, Z J(2013). Critical depths derived from different modes of sediment transport.The 2013 Australasian Coasts and Ports Conference, September, Sydney.
[43]You, Z. Jand Nielsen, P (2013). Chapter 22: Extreme coastal waves, ocean surges and wave runup.Coastal Hazard Book edited by Charles W Finkl, Coastal Research Library 6, Springer Publisher.
[44]Watterson,EYou, Z J, T Baldock, D Callaghan and P Nielsen (2013). Flooding tailwater levels for NSW coastal entrances.The 2013 Australasian Coasts and Ports Conference, September, Sydney.
[45]Moura, T., Olfateh, M, Callaghan, D, Nielsen, P,You, Z Jand Baldock, T (2013). Tidal amplitude and wave setup in trained and untrained river entrances.The 2013 Australasian Coasts and Ports Conference, September, Sydney.
[46]McPherson, B, Young, S, Courier, E,YOU, Z J, Hanslow, D, Callaghan, D, Baldock, T and Nielsen, P (2013). Storm surge penetration in NSW estuaries.The 2013 Australasian Coasts and Ports Conference, September, Sydney.
[47]Modra, B, Fitzhenry, M,You, Z J, Hanslow, D, Jacobs R and McPherson, B (2013). Rethinking tidal harmonic analysis: Improved approach for analysis of tidal anomaly in estuaries.The 2013 Australasian Coasts and Ports Conference, September, Sydney.
[48]You, Z. J., Nielsen, P., Hanslow, D and Pritchard, T (2012). Elevated water levels at trained and untrained river entrances on the east coast of Australia.International Coastal Engineering Conference, 1-6 July, Santander, Spain.
[49]You, Z. J(2012). Estimation of extreme water levels at NSW coastal entrances.The 52ndFloodplain Management Association Conference, 22-24 Feb, Eurobodalla.
[50]Goodwin, I, D., Browning, S., Shand, T., Mole, M andYou, Z. J(2012). Synoptic drivers and secular shifts in extreme wave climate in South-Eastern Australia.The 2011 AMOS Conference, 31 Jan – 2 Feb, Sydney.
[51]You, Z. J(2011). A multi-distribution approach to POT methods for determining extreme wave heights: Discussion.Coastal Engineering,61:49-52.
[52]You, Z. J(2011). Extrapolation of historical coastal storm wave data with best-fit distribution function.Australian Journal of Civil Engineering,9:73-82.
[53]Coghlan, I, Mole, M, Shand, T., Carley, J., Peirson, W., Miller, B., Kulmar, M, Couriel, E., Bodra, B andYou, Z. J(2011). High resolution wave modeling (HI-WAM) for Bateman Bay detailed wave study.The 2011 Australasian Coasts and Ports Conference, September, Perth.
[54]You, Z. J(2011). Uncertainty in extrapolating a historical wave record to extreme wave heights.The 2011 Australasian Coasts and Ports Conference, 28-30 September, Perth.
[55]Shand, T.D, Carley, J.T,You, Z.Jand Cox, R J (2011). Long-term trends in NSW coastal wave climate and derivation of extreme design storms.The 20thNSW Coastal Conference, 8-11 Nov, Tweed Heads.
[56]You, Z. J(2010). The statistical distributions of nearbed wave parameters in finite coastal water depth, pp.83-104. Sea Level Rise, Coastal Engineering, Shorelines and Tides Book edited by Linda L. Wright, Nova Science Publishers, USA.
[57]You, Z J(2010). A unified method for calculation of wave spectrum and wave height distribution. AMSA Conference, Wollongong.
[58]You, Z J(2009). Statistical distribution of nearbed wave orbital velocity in intermediate coastal water depth.Coastal Engineering,56: 844-852.
[59]You, Z J(2009). A close approximation of wave dispersion relation for direct calculation of wavelength in any coastal water depth.Applied Ocean Research,30:133-139.
[60]You, Z. J(2009). Statistical distribution of wave orbital velocity in finite water depth.Advances in Water Resources and Hydraulic Engineering,4:1324-1329.
[61]You, Z.J, Huang, G and Yin, B.S (2009). Direct measurement of wave-induced bottom shear stress under irregular waves.Advances in Water Resources and Hydraulic Engineering,4: 1213-1218.
[62]You, Z. J(2008). Modified Newton-Raphson Solution for Dispersion Equation of Transition Water Waves: Comments.Journal of Coastal Research,24:1349-1350.
[63]You, Z.Jand Lord, D (2008). Influence of the El Nino Southern Oscillation on the NSW coastal storm severity.Journal of Coastal Research,24: 203-207.
[64]You, Z.Jand Yin, B.S (2007). Direct measurement of bed shear stress under waves. Special Issue,Journal of Coastal Research,50: 1132-1136.
[65]You, Z.J(2007). Extrapolation of extreme wave height with a proper probability distribution function.Australasian Coasts and Ports Conference, 17-20 July, Melbourne.
[66]Guang, H., Wang, Y.G, Yin, B.S andYou, Z.J[Corresponding author] (2007). The study of the bed shear stress under irregular waves.The 17thinternational Offshore and Polar Engineering Conference, July 1-6, 2007, Lisbon, Portugal.
[67]Cao B., Wang, Y.G andYou, Z.J[Corresponding author] (2007). Comparison of Five different distribution functions for calculation of design wave height.Transactions of Oceanology and Limnology,4: 1-9.
[68]Guang, H., Wang, Y.G, Yin, B.S andYou, Z.J[Corresponding author](2007). A new method for direct measurement of the bed shear stress of wave boundary layer in wave flume.Journal of Hydrodynamics,19:517-524.
[69]Cao B., Wang, Y.G andYou, Z.J[Corresponding author] (2006). Comparison of three design wave height calculations.China Ocean Engineering,24: 6-11.
[70]You, Z.Jand Yin, B.S (2006). Estimation of extreme coastal waves from time series of wave data.China Ocean Engineering,20: 225-241.
[71]You, Z.Jand Yin, B.S (2006). A unified criterion for initiation of sediment motion and inception of sheet flow under waves.Sedimentology,53: 1181-1190.
[72]You, Z.J(2006). Estimation of bed roughness in a tidal channel with an extended long-fit method.Continental Shelf Research,26: 283-294.
[73]You, Z.J(2005). Discussion of “Initiation of movement of quartz particles”.Journal of Hydraulics Engineering, ASCE.
[74]You, Z.J(2005). Estimation of bed roughness from mean velocities measured at two levels near the seabed.Continental Shelf Research,25: 1043-1051.
[75]You, Z.J(2005). Discussion of “Effects of bed perturbation and wave asymmetry on ripple initiation”.Coastal Engineering.52: 303-307.
[76]You, Z.J(2005). A field study of fine sediment resuspension dynamics in a large semi-enclosed bay.Ocean Engineering,32: 1982-1993.
[77]You, Z.J(2004). The effect of suspended sediment concentration on the settling velocity of cohesive sediment in quiescent water.Ocean Engineering,31:1955-1965.
[78]You, Z.Jand Yin, Y.B (2003). Discussion of “A simple method of predicting the threshold of particle transport under oscillatory waves”.Sedimentary Geology,163: 323-325.
[79]You, Z.Jand Yin, Y.B (2003). Discussion of “Apparent roughness in wave-current flow: Implication for coastal studies”.Journal of Hydraulics Engineering, ASCE,140: 270-271.
[80]You, Z.J(2003). Discussion of “simple and explicit solution to the wave dispersion equation”.Coastal Engineering,48: 133-135.
[81]Yin, B.Y andYou, Z.J(2003). The impact of wave-dependent surface wind stress in a coupled wave-tide surge model.Australasian Coastal Engineering and Ports Conference, Auckland.
[82]You, Z.Jand Jayewardene I. (2003). The occurrence of extreme coastal storms along the NSW coast.Australian National Environment Conference, Brisbane.
[83]You, Z. Jand Hanslow, D. (2001). Statistical distribution of nearbed wave orbital velocity under irregular waves. In:Proc, Combined Australasian Coastal Engineering and Ports Conf., Gold Coast, Australia, pp.412-416.
[84]You, Z. Jand Yin, B. S. (2001). Determination of coastal wave direction in shallow water. In:Proc, Combined Australasian Coastal Engineering and Ports Conf., Gold Coast, Australia, pp523-527.
[85]Evans, P., Hanslow, D Coutts-Smith, A andYou, Z. J(2000). Nearshore-Inner Shelf sediment exchange on the NSW Central Coast. 27thInternational Conference on Coastal Engineering, ICCE, Sydney, pp.3151-3164.
[86]You, Z. J(2000). A simple model of sediment initiation under waves.Coastal Engineering,41: 399-412.
[87]Hanslow, D., Davis, G. andYou, Z. Jand Zastawny, J (2000). Berm height at coastal lagoon entrances in NSW. 10thNSW Coastal Management Conference 2000, Yamba.
[88]You, Z.J(1998). The inception of sheet flow in oscillatory flow.Ocean Eng,26: 277-285.
[89]You, Z.J(1998). Initial motion of sediment in oscillatory flow.Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE,124: 68-72.
[90]You, Z. Jand Nielsen, P (1998). A unified model for initial motion of sediment and inception of sheet flow in oscillatory flow.26th International Conference on Coastal Engineering, ICCE, Copenhagen.
[91]You, Z.J(1997). Initial motion of sediment under waves and currents. 13th Australasian Coastal and Ocean Engineering Conference, Christchurch, pp.173-178.
[92]You, Z.Jand Nielsen, P (1997). Threshold of sediment motion in oscillatory flow.13th Australasian Coastal and Ocean Engineering Conference, Christchurch, pp.167-172.
[93]You, Z.J(1997). Discussion of “On the vertical distribution of ”.Coastal Engineering,30: 305-310.
[94]You, Z.J(1997). Discussion of Laboratory investigations into wave period effects on sand bed erodibility under the combined action of waves and currents”.Coastal Eng,28: 157-160.
[95]You, Z.J(1996). Discussion of “Transport of fine sands by currents and waves”.Journal of Waterway, Port, Coastal and Ocean Engineering, ASCE,122: 265-266.
[96]You, Z.J(1996). The effect of wave-induced stress on current profiles.Ocean Eng,23: 619-628.
[97]You, Z.J(1996). Movable bed roughness and current profiles in the presence of irregular waves with an arbitrary angle to currents.Ocean Eng,23: 225-242.
[98]You, Z.J(1995). Increase of current bottom shear due to waves.Coastal Eng,26: 291-295.
[99]You, Z.J.(1995). A simple model for current profiles in combined wave-current flows: a reply.Coastal Eng,26: 99-104.
[100]You, Z.J(1995). Bottom friction effects in the combined flow field of random waves and currents.Coastal Eng,24: 357-359.
[101]You, Z.Jand Nielsen, P (1996). Movable bed roughness in the flow of irregular waves and currents over movable beds.25th International Conference on Coastal Engineering, ICCE, Orlando, pp.3495-3506.
[102]Nielsen, P andYou, Z.J(1996). Eulerian mean velocities under non breaking waves.25th Intl Conference on Coastal Engineering, ICCE, Orlando, pp.4066-4078.
[103]You, Z.J(1995). Modeling of bottom shear stresses and current profiles in the coastal zone.Australian Physical Oceanography and Australian Meteorological & Oceanographic Society Conference, Lorne, p. 147.
[104]You, Z J. Nielsen P and Black K (1995). The effect of wave Reynolds shear stress on current profiles in combined wave-current flows.12th Australasian Coastal & Ocean Engineering Conference, IEAust, Melbourne, pp.235-239.
[105]You, Z.J(1995). Movable bed roughness and current profiles in the presence of irregular waves perpendicular to currents.12th Australasian Coastal & Ocean Engineering Conference, IEAust, Melbourne, pp.311 -315.
[106]You, Z.Jand Black, K (1995). Increase of current bottom shear stress due to waves.12th Australasian Coastal & Ocean Engineering Conference, IEAust, Melbourne, pp. 323-326.
[107]You, Z.Jand B. Karakiewicz (1994). Current velocity profile and movable roughness in a combined wave-current flow.International Symposium on Waves- Physical and Numerical Modelling, IAHR, Vancouver, pp.1599-1606.
[108]You, Z.Jand B. Karakiewicz (1994). Wave friction factors and velocities in turbulent oscillatory boundary layers with relative large roughness.International Conference: Coastal Zone Canada’94, Halifax, pp. 210-215.
[109]Karakiewicz, B.,You, Z.J., Massel, S.R., Quach, T and Donelan, M (1994). Wind-wave generation and interaction with dam revetments in hydro-electrical reservoirs of complex geometry and bathymetry.International Symposium on Waves-Physical and Numerical Modelling, IAHR, Vancouver, pp.654-664.
[110]You, Z.J(1994). Eddy viscosities and velocities in combined wave-current flows.Ocean Eng,21: 81-97.
[111]You, Z.J(1994). A simple model for current velocity profiles in combined wave-current flows.Coastal Eng,23: 289-304.
[112]You, Z.J(1993). An evaluation of expressions for wave energy dissipation due to bottom friction in the presence of currents.Coastal Eng,19: 327-328.
[113]You, Z.Jand P. Nielsen (1993). Current velocity profiles in the presence of waves.11th Australasian Conference on Coastal and Ocean Engineering, IEAust, Townsville, pp.253-257.
[114]You, Z.J, Nielsen, P and Wilkinson, D.L (1992). Velocity distribution in turbulent oscillatory boundary layer.Coastal Eng,18: 21-38.
[115]You, Z.J(1992). Oscillatory boundary layers without and with currents. Ph.D thesis, Dept of Water Engineering, University of New South Wales.
[116]You, Z.J(1991), Nielsen, P and Wilkinson, D.L (1991). Velocity distributions of waves and currents in combined flows.Coastal Eng,15: 525-543.
[117]You, Z.J, Wilkinson, D.L and Nielsen, P (1991). Near bed net drift under waves.10th Australasian Conference on Coastal and Ocean Engineering, Auckland, pp.183-186.
[118]Nielsen, P. Sena, R.N andYou, Z.J(1990). The roughness height under waves.Journal of Hydraulic Research,28: 645-647.
10.科技报告(1994-1998)
[113]You, Z. Jand Hatton, D (1998). Werribee mixing zone compliance and monitoring: A numerical study. Marine and Freshwater Resources Institute.
[114]You, Z.J, Hatton, D and Turnbull, J (1998). Sediment Resuspension Dynamics in Moreton Bay. Phase-2 Study. Marine and Freshwater Resources Institute.
[115]You, Z.Jand Greilach, P (1998). Assessment of beach refilling and construction of a new jetty in Lake Colac. Marine and Freshwater Resources Institute.
[116]Turnbull, J, Hatton, D andYou, Z.J(1998). Outfall study at Boags Rocks, Victoria: Summary of oceanographic data collection. Marine & Freshwater Resources Institute.
[117]You, Z.J, Hatton, D, Turnbull, J and Greilach, P (1997). Resuspension Dynamics in Moreton Bay. Phase-1 Study. Marine and Freshwater Resources Institute.
[118]You, Z.Jand Greilach, P (1996). Assessment of groyne and rock revetment works at San Remo. Marine and Freshwater Resources Institute.
[119]Greilach, P, Hatton, D, Turnbull, J,You, Z.Jand Ball, D (1996). Review of data collected by the Marine Models Laboratory, Port of Melbourne Authority. Marine and Freshwater Resources Institute.
[120]You, Z.J, Greilach, P, Turnbull, J and Hatton, D (1996). Field measurements of nearbed suspended sediment concentrations and velocities at Pakiri, New Zealand. Marine and Freshwater Resources Institute.
[121]You, Z.J, Greilach, P, Hatton, D, Turnbull, J and Black, K (1996). Field measurements of sediment concentrations in Port Phillip Bay. Port Phillip Bay Environmental Study, CSIRO, Technical Report No.28.
[122]Greilach, P,You, Z.J, Black, K, and Gorman, R (1996). Sediment Characteristics in Port Phillip Bay. Port Phillip Bay Environmental Study, CSIRO, Technical Report No.23.
[123]You, Z. J, Greilach, P and Irvine, I (1995). Assessment on Channel Improvement Program Environment Effects Statement. Victorian Institute of Marine Sciences.
[124]Greilach, P, Edgar, G, Jenkins, G, O’Callaghan, P andYou, Z.J(1995). An assessment of actual environmental effects of a submarine optical fibre cable crossing Bass Strait between Boat Harbour and Sandy Point. Victorian Institute of Marine Sciences.
[125]Greilach, P, Edgar, G, Hatton, D., Jenkins, G, O’Callaghan, P, Weaver, F,Wheatley, M, andYou, Z.J(1995). An assessment of potential environmental effects of a submarine optical fibre cable crossing of Bass Strait between Inverloch and Stanley. Victorian Institute of Marine Sciences.
[126]Greilach, P,You Z. J, Black K, and Gorman, R (1995). Port Phillip Bay environmental study-Task 7: Sediment Sampling. Victorian Institute of Marine Sciences, Vol.1-3.
[127]You, Z. Jand W, Lange (1995). Assessment of existing knowledge on cohesive sediment transport in Port Phillip Bay. Victorian Institute of Marine Sciences.
[128]Black, K, Hatton, D, Turnbull, J andYou, Z.J(1994). Turbidity and light level monitoring in sea grass beds at Avalon and Clifton Spring. Technical Report No.12, Victorian Institute of Marine Sciences.
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