张少同(副教授)

发布者:时振波发布时间:2018-06-11浏览次数:768


一、基本信息

姓名:张少同

性别:男

出生年月:1989年11月

祖籍:山东省泰安市

通讯地址:山东省青岛市崂山区松岭路238号,地质楼A301室;邮编:266100

电子邮箱:shaotong.zhang@ouc.edu.cn;办公电话:0532-66782056


二、简历

1. 学习经历

2008.09-2012.06,山东科技大学,土木工程与建筑学院,土木工程,工学学士

2012.09-2018.01,中国海洋大学,环境科学与工程学院,环境地质工程,工学博士,导师:贾永刚 教授

2. 工作经历

2018.03-2021.10,中国海洋大学,海洋地球科学学院,海洋科学(海洋地质),博士后,合作导师:李广雪 教授

2019.06-2020.07,The University of Queensland,海岸工程团队,山东省博士后国际交流计划,合作导师:Prof. Peter Nielsen

2020.07-2021.07,Griffith University (Gold Coast Campus),海洋工程团队,访问学者,合作导师:Prof. Dong-Sheng Jeng

2020.05-2021.07,Queensland University of Technology,统计数学团队,合作研究,合作导师:Prof. You-Gan Wang

2021.10 至今,中国海洋大学,海底科学与探测技术教育部重点实验室,副教授

3. 学术兼职

[1]《Geoenvironmental Disasters》编委

[2] 《Engineering Geology》、《Ocean Engineering》、《Estuarine, Coastal and Shelf Science》、《Physics of Fluids》、《Engineering Applications of Artificial Intelligence》、《Applied Ocean Research》、《Journal of Coastal Research》、《海洋地质与第四纪地质》、《海洋地质前沿》等期刊审稿人

[3] American Geophysical Union (AGU)、Asia Oceania Geosciences Society (AOGS)、 Coastal and Estuarine Research Federation (CERF)、Estuarine & Coastal Sciences Association (ECSA)、International Consortium on Geo-disaster Reduction (ICGdR) 等协会会员

4. 科研奖励

山东省技术发明奖(2018),二等奖,风暴期间海床蚀积过程关键控制要素监测装置及灾害预警方法,完成人:贾永刚,刘晓磊,张少同,郭秀军,徐海波,朱超祁

5. 承担项目

[1] 国家自然科学基金,青年项目(41807229),波致渗流对粉质土海床侵蚀影响的定量评价方法研究,2019.01-2021.12,23万元,已结题,主持

[2] 山东省博士后创新人才支持计划(2018),“波-流”联合作用下海床侵蚀性现场原位测试环形水槽装置研发,2018.05-2021.10,40万元,已结题,主持

[3] 山东省自然科学基金,博士基金项目(ZR2019BD009),波致渗流侵蚀通量测量装置研发与应用,2019.07-2022.06,10万元,在研,主持

[4] 中国博士后科学基金,面上项目(一等资助)(2018M640656),原位沉积物柱状样分层抗侵蚀性测量装置设计与应用,2019.01-2021.10,8万元,已结题,主持

[5] 山东省非教育系统公派留学资助,博士后国际交流计划项目(201801026),Cohesive sediment transport along the China muddy coast, 2019.06-2020.06, 12万元,已结题,主持

[6] 中国海洋大学,青年英才工程第三层次,科研启动经费,2022-2025,30万元,在研,主持

[7] 国家自然科学基金委员会与山东省联合基金项目,U1906230,山东近海风电场复杂桩基础与水沙动力环境耦合作用机理及其冲刷防护方法研究,2020.01-2023.12,247 万元,在研,参加

[8] 国家自然科学基金,面上项目,41877223,基于现场原位观测的黄河水下三角洲海底滑坡启动过程与控制因素研究,2019.01-2022.12,62 万元,在研,参加

[9] 山东省科技厅,山东省自然科学基金,面上项目,ZR2020MD110,考虑液化效应的粉质土海底斜坡波浪冲刷机制研究,2021.01-2023.12,10 万元,在研,参加

[10] 国家自然科学基金委员会,青年项目,41402253,波致海床液化诱发黄河口异重流研究,2015.01-2017.12,25 万元,已结题,参加

[11] Australian Research Council (ARC). Linkage Projects. LP190101130, Managing the existing and emerging threats from coastal flow slides,2021.02-2024.02,AU$ 298,622,在研,参与


三、主要专业领域

1. 学科方向:海洋地质、海洋工程、工程地质

2. 研究方向

[1] 海洋动力作用下海底沉积物的动力输运过程

[2] 海洋工程构筑物周围的海床冲刷与液化问题

[3] 海洋环境与地质灾害的发生机理与定量评价

[4] 海洋环境与地质灾害的超前预报与监测预警

3. 正在开展的研究课题

[1] 基于海底原位观测数据与一维悬沙模型推求海底沉积物关键动力学参数

[2] 基于人工智能方法实现海洋环境水质的超前预报并构建监测系统

[3] 海洋工程设施(海底管道等)周围的海床冲刷实验研究

[4] 波浪导致的海床孔压响应规律与液化灾害

[5] 海床侵蚀性原位测量技术与预测方法


四、代表性成果

1. 代表性学术论文(发表期刊论文 38 篇,其中 SCI 收录 23 篇)

[1] Zhang S., Wu J., Wang Y. G., Jeng D. S., Li G. (2022). A physics-informed statistical learning framework for forecasting local suspended sediment concentrations in marine environment.Water Research, 118518.

[2] Zhang S., Nielsen P., Perrochet P., Jia Y. (2021). Multiscale superposition and decomposition of field-measured suspended sediment concentrations: implications for extending 1DV models to coastal oceans with advected fine sediments.Journal of Geophysical Research:Oceans, 126(3): e2020JC016474.

[3] Zhang S., Jia Y., Zhang Y., Shan H. (2018). Influence of seepage flows on the erodibility of fluidized silty sediments: parameterization and mechanisms.Journal of Geophysical Research:Oceans, 123(5): 3307-3321

[4] Zhang S., Wu J., Jia, Y., Wang Y., Zhang Y., Duan Q. (2021). An interpretable statistical learning model for emergency forecast and mechanism explanation of suspended sediment concentration in coastal oceans: Accuracy and interpretability.Engineering Applications of Artificial Intelligence, 100, 104206

[5] Zhang S., Nielsen P., Perrochet P., Xu B., Jia Y., Wen M. (2021). Derivation of settling velocity, eddy diffusivity and pick-up rate from field-measured suspended sediment concentration profiles in horizontally uniform but unsteady scenario.Applied Ocean Research, 107, 102485

[6] Zhang S, Jia Y, Zhang Y, Liu X, Shan H. (2018). In situ observations of wave pumping of sediments in the Yellow River Delta with a newly developed benthic chamber.Marine Geophysical Research, 39(4): 463-474

[7] Xu B.,Zhang S., Nielsen P., Wuthrich D. (2021). Measurements of bed shear stresses near the tip of dam-break waves on a rough bed.Experiments in Fluids, 62(3)

[8] Tian Z., Jia Y.,Zhang S., Zhang X., Li Y., Guo X. (2019). Bottom and intermediate nepheloid layer induced by shoaling internal solitary waves: impacts of the angle of the wave group velocity vector and slope gradients.Journal of Geophysical Research:Oceans, 124(8), 5686-5699

[9] Tian Z., Jia Y., Du Q.,Zhang S., Guo X., Tian W., Zhang M., Song L. (2021). Shearing stress of shoaling internal solitary waves over the slope.Ocean Engineering, 241, 110046

[10] Nielsen P., Xu B., Wüthrich D., Zhang S. (2022). Friction effects on quasi-steady dam-break wave1 propagation on horizontal beds. Journal of Fluid Mechanics, doi:10.1017/jfm.2022.182

[11] Tian Z., Jia Y., Chen J, Liu J. P,Zhang S., Ji C., Liu X, Shan H, Shi X, Tian J. (2021). Internal Solitary waves induced deep-water nepheloid layers and seafloor geomorphic changes on the continental slope of the northern South China Sea.Physics of Fluids, 33(5), 053312

[12] Wang Z., Sun Y., Jia Y., Shan Z., Shan H.,Zhang S., Wen M, Liu X, Song Y, Zhao D, Wen S. (2020). Wave-induced seafloor instabilities in the subaqueous Yellow River Delta-initiation and process of sediment failure.Landslides,17(8), 1849-1862

2. 学术论著

Jia Y., Liu X., Zhang S., Shan H., Zheng J. (2020). Wave-forced sediment erosion and resuspension in the Yellow River Delta, Springer

3. 代表性发明专利(授权国内外发明专利 22 项)

[1] 张少同,贾永刚,张雅淇,文明征,张博文,单红仙. 一种波致渗流诱发海床内部沉积物侵蚀的实验装置,2020.05.22, 中国,ZL201811335536.3

[2] 张少同,张雅淇,贾永刚,张皓清,代馨楠,单红仙. 一种原位沉积物柱状样分层抗侵蚀性测量装置及其方法,2020.05.22, 中国,ZL201811335519.X

[3]张少同,贾永刚,张雅淇,刘晓磊,熊传芳,沈泽中,单红仙. 模拟海床渗流影响下沉积物再悬浮的环形水槽装置. 2017.12.29, 中国,ZL201710061388.X

[4] 贾永刚,张少同,张雅淇,郭磊,王振豪,文明征,刘晓磊, 单红仙. 海底床内部沉积物泵送再悬浮量的原位长期观测装置与方法. 2017.09.15, 中国,ZL201710061390.7

[5] 贾永刚,张少同,王振豪,刘晓磊,郭磊,孙永福,印萍,单红仙. 2016. 潮滩海床内部垂向泵送输运的沉积物的捕获装置及方法. 2016.04.20, 中国,ZL201410389538.6

[6] Jia, Y., Tian Z., Zhang, S., Zhang, B., Wei, Z., Liu, X., Shan H. Observation system and method for re-suspension quantity of submarine sediments by deep-sea internal waves. U.S. Patent No.10,640,176[P]. Washington DC: U.S. Patent and Trademark Office.2020-05-05.

[7] Jia Y., Zhang H., Lu F., Wen M., Zhang S., Ma L. An in-situ test device and method to measure the amount of pollutants released from interior of marine sediments under wave action. Patent number: 2019100001. Innovation Patent of Australia. 2019-01-03.

4. 计算机软件著作权

卢芳,贾永刚,刘文全,张少同,文明征. 地表水水质综合评价及预测系统V1.0,登记号:2017SR421834. 登记时间:2017.08.03