Hydrodynamic influence of proposed excavated-in harbor in the Hengsha Shoal of the Yangtze Estuary Ⅰ: Numerical Model and Validations
-
摘要: 基于无结构三角形网格FVCOM模式,建立长江口高分辨率三维水动力数值模型,采用大量水文观测资料进行验证,使之能合理反映长江口,特别是横沙浅滩区域的水动力结构及其变化,为横沙浅滩挖入式港池方案的影响分析提供合理可靠的数值工具.Abstract: Based on an unstructured-grid FVCOM model, a high-resolution hydrodynamic model of the Changjiang Estuary has been established. Through the extensive validation against the various observation data, including the current and salinity, this model could correctly reveal the hydrodynamic structures and their variations. It has provided a basic tool for assessing the impacts of the proposed excavated-in harbor of the Hengsha Shoal on the current field on local and adjacent regions.
-
Key words:
- Hengsha Shoal /
- excavated-in harbor /
- FVCOM
-
[1] [1] 陈吉余,沈焕庭,恽才兴.长江河口动力过程和地貌演变[M].上海:上海科学技术出版社,1988.[2] 交通部第三航务工程勘察设计研究院. 上海国际航运中心横沙浅滩挖入式港池规划方案研究报告[R]. 上海:交通部第三航务工程勘察设计研究院,2012.[3] 顾伟浩. 长江口南北槽咸水入侵—兼谈开挖北槽为深水航槽[J]. 水运工程,1985(2):1-3.[4] 匡翠萍. 长江口盐水入侵三维数值模拟[J]. 河海大学学报1997,25(54):54-60.[5] 朱建荣,胡松. 河口形状对河口环流和盐水入侵的影响[J]. 华东师范大学学报:自然科学版, 2003(2):68-73.[6] 〖JP2〗朱建荣,胡松,傅德健,等.河口环流和盐水入侵I:模式及控制数值试验[J].青岛海洋大学学报,2003,33(2):180-184.〖JP〗[7] 吴辉. 长江河口盐水入侵研究—北支倒灌、深水航道工程和冬季季风的影响[D]. 上海: 华东师范大学,2006.[8] HU K, DING P. The Effect of Deep Waterway Construction on Hydrodynamics and Salinities in Yangtze Estuary, China [J]. Journal of Coastal Research, 2009: 961-965.[9] GE J, CHEN C, QI J, et al. A dike-groyne algorithm in a terrain-following coordinate ocean model (FVCOM): Development, validation and application[J]. Ocean Modelling, 2012, 47(C):26-40.doi:10.1016/j.ocemod.2012.01.006[10] CHEN C, LIU H, BEARDSLEY R C. An unstructured grid, finite-volume, three-dimensional, primitive equations ocean model: application to coastal ocean and estuaries[J]. Journal of atmospheric and oceanic technology, 2003, 20(1): 159-186.[11] CHEN C, COWLES G, BEARDSLEY R C. An unstructured grid, finite-volume coastal ocean model: FVCOM user manual[R]. 2nd ed. SMAST/UMASSD Technical Report-06-0602, 2006:45.[12] CHEN C, BEARDSLEY R C, COWLES G. An unstructured grid, finite-volume coastal ocean model (FVCOM) system[J]. Oceanography: Special Issue,2006,19(1):78-89.[13] GE J, DING P, CHEN C, et al. Low-salinity plume in the Changjiang and adjacent coastal regions: a model-data comparison[C]. Proceedings of the 31st International Conference of Coastal Engineering Hamburg, Germany, 2008: 4471-4481.[14] GE J, DING P, CHEN C. Imapcts of deep waterway project on local circulations and salinity in the Changjiang estuary, China[C]. Proceedings of the 32st International Conference of Coastal Engineering Shanghai, China, 2010.[15] 海洋图集编委会.渤海、黄海、东海海洋图集[M]. 北京:海洋出版社,1993.[16] 范中亚,葛建忠,丁平兴,等.长江口深水航道工程对北槽盐度分布的影响[J].华东师范大学学报:自然科学版,2012(4):181\|189.[17] 葛建忠.Hulti\|scale FVCOM model system for the East China Sea and Changjiang Estuary and its applications[D]. 上海:华东师范大学,2010.[18] 高敏,范期锦,谈泽炜,等.对长江口北槽分流比的分析研究[J].水运工程,2009(5):82-86.
点击查看大图
计量
- 文章访问数: 2030
- HTML全文浏览量: 60
- PDF下载量: 1793
- 被引次数: 0