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The sediment-carrying capability in offshore area

  • ZHANG Wenhu ,
  • ZHOU Changyou ,
  • GAN Shendong
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  • 1. South China Sea Environment Monitoring Center, State Oceanic Administration, Guangzhou 510300, China;
    2. The Third Engineering Company of CCCC the Fourth Harbor Engineering Co., Ltd., Zhanjiang 524005, China;
    3. Power China Water Environment Governance, Shenzhen 518100, China

Received date: 2018-06-08

  Revised date: 2018-07-08

  Online published: 2018-07-27

Abstract

With a great concern for the marine environment, and the sediment-carrying capacity in the offshore area plays a key role in the study of the sediment transport. This paper reviews the current research achievements with respect to the sediment-carrying capability in the offshore area. Some suggestions are given for the determination of the sediment-carrying capability in a wave-current coexistent system, which is an important topic in the academic area.

Cite this article

ZHANG Wenhu , ZHOU Changyou , GAN Shendong . The sediment-carrying capability in offshore area[J]. Science & Technology Review, 2018 , 36(14) : 80 -87 . DOI: 10.3981/j.issn.1000-7857.2018.14.011

References

[1] 陈吉余. 中国海岸侵蚀概要[M]. 北京:海洋出版社, 2010:1-2. Chen Jiyu. Overview of China's coastal erosion[M]. Beijing:China Ocean Press, 2010:1-2.
[2] 中华人民共和国水利部. 中国河流泥沙公报2005[M]. 北京:中国水利水电出版社, 2005. The Ministry of Water Resources of the People's Republic of China. China river sediment bulletin, 2005[M]. Beijing:China Water & Power Press, 2005.
[3] 中国水利学会泥沙专业委员会. 泥沙手册[M]. 北京:中国环境科学出版社, 1989:231-268. Sediment Speciality Committee of China Water Conservancy Institute. Handbook of sedimentation engineering[M]. Beijing:China Environmental Science Press, 1989:231-268.
[4] 王昌杰. 河流动力学(港口航道与海岸工程专业用)[M]. 北京:人民交通出版社, 2008:56-57. Wang Changjie. River Mechanics(Port Waterway and coastal engineering professional use)[M]. Beijing:China Communications Press, 2008:56-57.
[5] 李瑞杰, 郑俊, 丰青, 等.近岸海域泥沙侵蚀率与水流挟沙力[J]. 泥沙研究, 2013(4):21-25. Li Ruijie, Zheng Jun, Feng Qing, et al. Sediment carrying capacity and erosion rate of nearshore sediment[J]. Journal of Sediment Research, 2013(4):21-25.
[6] 李瑞杰, 董德信, 郑俊, 等. 近岸水流挟沙力探讨[J]. 泥沙研究, 2011(5):19-23. Li Ruijie, Dong Dexin, Zheng Jun, et al. Discussion on coastal sediment carrying capacity[J]. Journal of Sediment Research, 2011(5):19-23.
[7] Ruhl C A, Schoellhamer D H, Stmpf R P, et al. Combined use of remote sensing and continuous monitoring to analyse the variability of suspended-sediment concentrations in San Francisco Bay, California:Estuarine[J]. Coastal and Shelf Science, 2001(53):801-812.
[8] Keiner L E, Yan X H. A neural network model for estimating sea surface chlorophyll and sediments from thematic mapper imagery[J]. Remote Sensing of Environment, 1998, 66(2):153-165.
[9] 黄建维, 夏云峰, 徐华, 等. 粉沙质海岸航道骤淤期悬移质挟沙力研究[J]. 海洋工程, 2010, 28(4):77-83. Huang Jianwei, Xia Yunfeng, Xu Hua, et al. Research on suspensions carring capacity in silt sandy coast during sudden siltation in the channel[J]. The Ocean Engineering, 2010, 28(4):77-83.
[10] Gilbert G K. The Transportation of debris by running water[R]. Virginia:United States Geological Survey, 1914.
[11] Einstein, H A. The Bed-load function for sediment transportation in open channel flows[R]. Washington:Technical Bulletin, U.S. Department of Agriculture, Soli Erosion Conservation Service, 1950.
[12] Christoffersen J B, Jonson I G. Bed friction and dissipation in a combined current and wave motion[J]. Ocean Engineering, 1985,12(5):387-423.
[13] Bagnold, R A. An Approach to the sediment transport problem from general physics[R]. Virginia:United States Geological Survey, 1966.
[14] 曹文洪, 舒安平. 潮流和波浪作用下悬移质挟沙能力研究述评[J]. 泥沙研究, 1999(5):74-80. Cao Wenhong, Shu Anping. Reviews on suspended sediment carrying capacity in combined actions of waves and tidal current[J]. Journal of Sediment Research, 1999(5):74-80.
[15] 武汉水利电力学院. 河流动力学[M]. 北京:工业出版社, 1961. Wuhan Institute of Water Conservancy and electric engineering. River mechanics[M]. Beijing:China Industry Press, 1961.
[16] 李瑞杰, 罗锋, 周华民. 水流挟沙力分析与探讨[J]. 海洋湖沼通报, 2009(1):88-94. Li Ruijie, Luo Feng, Zhou Huamin. Study on the flow induced sediment carrying capacity[J]. Transactions of Oceanology and Limnology, 2009(1):88-94.
[17] Bijker E W. Littoral drift as function of waves and current[J]. Food Hydrocolloids, 2012, 23(3):577-584.
[18] 刘家驹. 在风浪和潮流作用下淤泥质浅滩含沙量的确定[J]. 水利水运科学研究, 1988(2):69-73. Liu Jiaju. Determination of the silf concentration on shoal under the action of wind waves and tidal currents[J]. Hydro-Science and Engineering, 1988(2):69-73.
[19] 曹祖德, 李蓓, 孔令双. 波、流共存时的水体挟沙力[J]. 水道港口, 2001, 22(4):151-155. Cao Zude, Li Bei, Kong Lingshuang. Carrying capacity for a wave-current coexistent system[J]. Journal of Waterway and Harbor, 2001, 22(4):151-155.
[20] 窦国仁, 董风舞. 潮流和波浪的挟沙能力[J]. 科学通报,1995, 40(5):443-446. Dou Guoren, Dong Fengwu. The sediment carrying capacity of current and wave[J]. Science Bulletin, 1995, 40(5):443-446.
[21] Han Zengcui, Chen Hangping, Computation in the Qiantang estuary with consideration of sediment transport in tidal flat[J]. China Ocean Engineering, 1987, 1(2):76-90.
[22] Onyx W H. Wai, Fine sediment carrying capacity of combined wave and current flows[J]. International Journal of Sediment Research, 2009(4):425-438.
[23] Li R J, Luo F, Zhu W J. The suspended sediment transport equation and its near-bed sediment flux[J]. Science in China (Series E:Technological Sciences), 2009, 52(2):387-391.
[24] Shi Wei, Wang Menghua. Satellite observations of the seasonal sediment plume in central East China Sea[J]. Journal of Marine Systems, 2010, 82(4):280-285.
[25] Zhu Yurong, Chen Qingqiang. On the origin of the radial sand ridges in the southern yellow sea results from themodeling of the paleo-radial tidal current fields off the paleo-Yangtze River estuary and northern Jiangsu coast[J]. Journal of Coastal Research, 2005, 21(6):1245-1256.
[26] 曹文洪, 张启舜. 潮流和波浪作用下悬移质挟沙能力的研究[J]. 泥沙研究, 2000(5):16-21. Cao Wenhong, Zhang Qishun. A study on suspended sediment carrying capacity in combined actions of waves and tidal current[J]. Journal of Sediment Research, 2000(5):16-21.
[27] 孔俊, 宋志尧, 章卫胜. 挟沙能量公式系数的最佳确定[J]. 海洋工程, 2005, 23(1):93-96. Kong Jun, Song Zhiyao, Zhang Weisheng. Optimum approach to determine the coefficients in sediment-carrying capability formula[J]. The Ocean Engineering, 2005, 23(1):93-96.
[25] 张红武, 张清. 黄河水流挟沙力的计算公式[J]. 人民黄河, 1992, 14(11):7-10. Zhang Hongwu, Zhang Qing. Formula of sediment carrying capacity of the Yellow River[J]. Yellow River, 1992, 14(11):7-10.
[29] 李昌华. 明渠水流挟沙能力初步研究[J]. 水利水运工程学报, 1980(3):76-83. Li Changhua. A formula of suspended sediment transportation for open channel flows[J]. Hydro-Science and Engineering, 1980(3):76-83.
[30] 郭庆超. 天然河道水流挟沙能力研究[J]. 泥沙研究, 2006(5):45-51. Guo Qingchao. Sediment-carrying capacity in natural rivers[J]. Journal of Sediment Research, 2006(5):45-51.
[31] 方波. 长江下游大通-镇江河道干流水流挟沙力公式[J]. 人民长江, 2004, 35(12):42-44. Fang Bo. Formula of sediment-laden force in the main stream of Datong-Zhenjiang river in the lower Yangtze River[J]. Yangtze River, 2004, 35(12):42-44.
[32] 黄惠明, 王义刚. 长江河口主要汊道水流挟沙能力分析[J]. 水道港口, 2007, 28(6):381-386. Huang Huiming, Wang Yigang. Preliminary study on sediment-carrying capability in main inlets of Yangtze Estuary[J]. Journal of Waterway and Harbor, 2007, 28(6):381-386.
[33] 张红艺, 周赤建, 张欧阳, 等. 高含沙水流挟沙力计算公式研究[J]. 水力发电学报, 2004, 23(1):74-78. Zhang Hongyi, Zhou Chijian, Zhang Ouyang, et al. Study on the formula of silt transport capacity or hyper-concentrated silt-laden flow[J]. Journal of Hydroelectric Engineering, 2004, 23(1):74-78.
[34] 费祥俊, 舒安平.多沙河流水流输沙能力的研究[J]. 水利学报, 1998(11):38-43. Fei Xiangjun, Shu Anping. Investigation on sediment transport capacity with high concentration for fluvial river[J]. Journal of Hydraulic Engineering, 1998(11):38-43.
[35] 沙玉清. 泥沙运动引论[M]. 北京:工业出版社, 1965. Sha Yuqing. Introduction to sediment movement[M]. Beijing:China Industry Press, 1965.
[36] 谢鉴衡. 河流泥沙工程学[M]. 北京:水利出版社, 1981. Xie Jianheng. River sediment engineering[M]. Beijing:Hydraulic Press, 1981.
[37] Nakato T. Tests of selected sediment-transport formulas[J]. Journal of Hydraulic Engineering, 1990, 116(3):362-379.
[38] Shen Liang, Steven Armfield. Simplified marker and cell method for unsteady flows on non-staggered grids[J]. International Journal for Numerical Methods in Fluid, 1995, 21(1):15-34.
[39] Li Congxian, Zhang Jiaqiang, Fang Daidu, et al. Holocene regression and the tidal radial sand ridge system formation in the Jiangsu coastal zone, East China[J]. Marine Geology, 2001, 73:97-120.
[40] Hu Rijun, Ma Fang, Wu Jianzheng, et al. Sediment transport in the nearshore area of phoenix island[J]. Journal of Ocean University of China, 2016(2):767-782.
[41] Koh Sung Cheol, Kim In Soo Song Young Chae. Sediment transport capacity-an improved bagnold formula[J]. International Journal of Sediment Research, 2007(1):27-38.
[42] Hu Rijun, Ma Fang, Wu Jianzheng, et al. Sediment transport in the nearshore area of phoenix island[J]. Journal of Ocean University of China, 2016(5):767-782.
[43] Do Minh Duc, Mai Trong Nhuan, Chu Van Ngoi, et al. Sediment distribution and transport at the nearshore zone of the Red River delta, Northern Vietnam[J]. Journal of Asian Earth Sciences, 2007, 29(4):558-565.
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