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Research on Measurement of Bed Shear Stress Under Wave-Current Interaction 被引量:6

Research on Measurement of Bed Shear Stress Under Wave-Current Interaction
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摘要 The movement of sediment in estuary and on coast is directly restricted by the bed shear stress. Therefore, the research on the basic problem of sediment movement by the bed shear stress is an important way to research the theory of sediment movement. However, there is not a measuring and computing method to measure the bed shear stress under a complicated dynamic effect like wave and current. This paper describes the measurement and test research on the bed shear stress in a long launder of direct current by the new instrument named thermal shearometer based on micro-nanotechnology. As shown by the research results, the thermal shearometer has a high response frequency and strong stability. The measured results can reflect the basic change of the bed shear stress under wave and wave-current effect, and confirm that the method of measuring bed shear stress under wave-current effect with thermal shearometer is feasible. Meanwhile, a preliminary method to compute the shear stress compounded by wave-current is put forward according to the tested and measured results, and then a reference for further study on the basic theory of sediment movement under a complicated dynamic effect is provided. The movement of sediment in estuary and on coast is directly restricted by the bed shear stress. Therefore, the research on the basic problem of sediment movement by the bed shear stress is an important way to research the theory of sediment movement. However, there is not a measuring and computing method to measure the bed shear stress under a complicated dynamic effect like wave and current. This paper describes the measurement and test research on the bed shear stress in a long launder of direct current by the new instrument named thermal shearometer based on micro-nanotechnology. As shown by the research results, the thermal shearometer has a high response frequency and strong stability. The measured results can reflect the basic change of the bed shear stress under wave and wave-current effect, and confirm that the method of measuring bed shear stress under wave-current effect with thermal shearometer is feasible. Meanwhile, a preliminary method to compute the shear stress compounded by wave-current is put forward according to the tested and measured results, and then a reference for further study on the basic theory of sediment movement under a complicated dynamic effect is provided.
出处 《China Ocean Engineering》 SCIE EI CSCD 2015年第4期589-598,共10页 中国海洋工程(英文版)
基金 financially supported by the National Natural Science Foundation of China(Grant No.51309158) funds from the National Key Scientific Instrument and Equipment Development Project(Grant No.2013YQ04091108) Important and Large Scientific and Technical Project of the Ministry of Communications(Grant No.201132874640)
关键词 bed shear stress micro-nanotechnology thermal shearometer wave-current effect sediment movement bed shear stress micro-nanotechnology thermal shearometer wave-current effect sediment movement
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  • 1秦崇仁,赵冲久.波浪作用下沙纹床面上底部剪应力的实验研究[J].水利学报,1993,25(9):2-10. 被引量:11
  • 2练继建.波浪、水流与淤泥质底床的相互作用[M].天津:天津大学,1993..
  • 3Jonsson I G.Wave boundary layers and friction factors[ C ]//ASCE.Proceeding of 10th Coastal Engineering Conference. [ S.l. ] :ASCE, 1966 : 127-148.
  • 4Riedel P H, Kamphuis J W, Brebner A.Measurement of bed shear stress under wave[ C ]//[ s.n. ].Proc. 13th. Conf. on coastal Engineering.[ S.l. ], 1972.
  • 5Mirfenderesk H, Young I R.Direct measurements of the bottom friction factor beneath surface gravity waves[J ].Applied Ocean Research, 2003,25 : 269-287.
  • 6赵子丹.波浪作用下的床面剪应力.海洋学报,1983,5(1):122-128.
  • 7秦崇仁,水利学报,1993年,9期
  • 8俞聿修,随机波浪及其工程应用,1992年
  • 9吴永胜,练继建,张庆河,秦崇仁.波浪—水流共同作用下的紊动边界层数值分析[J].水利学报,1999,30(9):68-74. 被引量:10

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