Open Access
E3S Web Conf.
Volume 233, 2021
2020 2nd International Academic Exchange Conference on Science and Technology Innovation (IAECST 2020)
Article Number 03035
Number of page(s) 10
Section HCCE2020-Hydraulic, Civil and Construction Engineering
Published online 27 January 2021
  1. LI Shen-duo, HU-hui. A study on the current field of the Hangzhou Bay [J]. Oceanologia Et Limnologia Sinica, 1987(01):28-38. [Google Scholar]
  2. ZHANG Hua-guo, GUO Yan-xia, HUANG Wei-gen, et al. A remote sensing investigation of silting in Hangzhou Bay since 1986 [J]. Remote Sensing For Land & Resources, 2005(02):50-54+81. [Google Scholar]
  3. LI Li, CAO Jin-lang, HE Zhi-guo, et al. Impacts of coastline changes of Hangzhou Bay-Changjiang Estuary on tidal dynamics in Hangzhou Bay [J]. Journal of Zhejiang University (Engineering Science), 2018, 52(08):1605-1615. [Google Scholar]
  4. GUO Y K, ZHANG J S, ZHANG L X, et al. Computational investigation of typhoon-induced storm surge in Hangzhou Bay, China [J]. Estuarine, Coastal and Shelf Science, 2009, 130(4): 530–536. [Google Scholar]
  5. LU You-peng, LIANG Shu-xiu, SUN Zhao-chen, et al. Cumulative effects of topography change on waterway’s hydrodynamic along the southern coast of Hangzhou Bay [J]. Marine Environmental Science, 2015, 34(03):384-390. [Google Scholar]
  6. Shao Ming-ming. Impacts of Reclamation on Tidal Dynamics In Hangzhou Bay, Zhejiang University,2016. [Google Scholar]
  7. Cao Pei-kui, Gu Guo-chuan, Dong Yong-fa, et al. Basic Characteristics of Sediment Transport in Hangzhou Bay [J]. Journal of East China Normal University Natural Science Edition,1985(03):75-84. [Google Scholar]
  8. Liu Cang-zi, Dong Yong-fa. Sedimentary Textures and Enviroments of the Hangzhou Bay [J]. Marine Geology & Quaternary Geology, 1990(04):53-65. [Google Scholar]
  9. Zhang Bohu. Numerical simulation and characteristics of water and sediment movement in the northern part of Hangzhou Bay [A]. China Ocean Engineering Society. The 16th China Ocean (Ashore) Engineering Symposium (Volume 2) [C]. China Ocean Engineering Society: Ocean Engineering Branch of China Oceanographic Society, 2013: 5. [Google Scholar]
  10. SONG Ze-kun, ZHANG Jun-biao, SHI Wei-yong, et al. Mechanism of water and suspended sediment transport in the middle outlet of the Hangzhou Bay: a case study of Daiquyang Sea [J]. Marine Science Bulletin,2015,34(03):267-274. [Google Scholar]
  11. LI Zhan-hai, GAO-Shu, SHEN Huan-ting. Processes of suspended sediment transport and resuspension in Jintang Channel [J]. Journal of Sediment Research,2006(03):55-62. [Google Scholar]
  12. WU Xiu-guang, LIU Guang-sheng, CHENG Wen-long. 3D numerical simulation of sediment in the Hangzhou Bay based on FVCOM [J]. Hydro-science and Engineering,2011(04): 86-96. [Google Scholar]
  13. FENG Shen-ke, YAO Yan-ming. Research on the suspended sediment simulation for the Luotou strait of Zhoushan Islands area [J]. Marine Science Bulletin,2013,32(01):58-65. [Google Scholar]
  14. Chen C S, Liu H D, 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. [Google Scholar]
  15. Van P B C, Winterwerp J C. A stochastic formulation for erosion of cohesive sediments [J]. Journal of Geophysical Research, 2010, 115(C1): 1-15. [Google Scholar]
  16. Winterwerp J C. Stratification effects by cohesive and noncohesive sediment [J]. Journal of Geophysical Research: Oceans, 2001, 106(C10): 22559-22574. [CrossRef] [Google Scholar]
  17. Wang X H. Tide-Induced Sediment Resuspension and the Bottom Boundary Layer in an Idealized Estuary with a Muddy Bed [J]. Journal of Physical Oceanography, 2002, 32: 3113-3130. [Google Scholar]
  18. Cao Zude, Wang Yunhong. Numerical modeling of hydrodynamics and sediment. Tianjin: Tianjin University, 1994: 252-253 (in Chinese). [Google Scholar]
  19. Ye Taoyan, Li Li, Wang Yongxue, Yuan Jinxiong, He Zhiguo, Xia Yuezhang. Impacts of Tidal Flat Reduction on Suspended Sediment Dynamics in Hangzhou Bay [J]. Journal of Tianjin University (Science and Technology), 2019, 52(04):392-403. [Google Scholar]
  20. Murphy A H. Climatology, Persistence, and Their Linear Combination as Standards of Reference in Skill Scores [J]. Weather & Forecasting, 1992, 4(7): 692-698. [CrossRef] [Google Scholar]
  21. Zhu L, He Q, Shen J, et al. The influence of human activities on morphodynamics and alteration of sediment source and sink in the Changjiang Estuary [J]. Geomorphology, 2016, 273: 52-62. [CrossRef] [Google Scholar]
  22. Shen Huan-ting,Li Jiu-fa,Zhu hui-fang.Transport of the Suspended Sediments in the Changjiang Estuary[J]. of Sediment Research,1986(01):1-13. [Google Scholar]
  23. Su J L, Wang K S, 1989. Changjiang River Plume and Suspended Sediment Transport in Hangzhou Bay[J]. Continental Shelf Research, 9(1): 93-111. [Google Scholar]
  24. YING Xiao-ming, DING Ping-xing, HU Ke-lin, et al. ADCP and OBS based water-sediment flux study on key cross-sections in the Yangshan Harbor [J]. Journal of Sediment Research,2010(02):22-30. [Google Scholar]

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