Laboratory study on response of underwater cohesive sediment to columnar vibration source

IF 2.4 4区 环境科学与生态学 Q2 WATER RESOURCES Water Quality Research Journal Pub Date : 2018-09-24 DOI:10.2166/WCC.2018.199
P. Zhao, F. Chen, Guoliang Yu
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引用次数: 5

Abstract

This paper investigates the responses of cohesive sediment to mechanical vibration by experimental observation, containing: (1) the dynamic soil pressure, dynamic pore water pressure and dynamic acceleration to the vibration source; (2) the soil pressure distribution in the near field centered in an artificial columnar vibration source. Under the mechanical vibration with a frequency of 200 Hz and an amplitude of 1.15 mm, the dynamic soil pressure, dynamic pore water pressure and dynamic acceleration of underwater viscous sediment were measured in the sediment of four different depositing conditions. Results of the dynamic soil pressure, dynamic pore water pressure and dynamic acceleration of underwater viscous sediment in the near field responding to artificial vibration source are exhibited and discussed. It is found that, excited by the sinusoidal vibrator, the soil pressure presents a response of statistical sinusoidal fluctuation with the same frequency to the vibration source. In the sediment of lower initial yield stresses, the soil pressure distribution distinctly tends to firstly increase and then decrease with distance. The amplitude of the soil pressure is attenuated exponentially with distance.
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水下粘性沉积物对柱状振动源响应的实验研究
本文通过试验观测研究了粘性沉积物对机械振动的响应,包括:(1)动土压力、动孔隙水压力和对振动源的动加速度;(2) 以人工柱状振动源为中心的近场土壤压力分布。在频率为200Hz、振幅为1.15mm的机械振动下,测量了四种不同沉积条件下水下粘性沉积物的动土压力、动孔隙水压力和动加速度。展示并讨论了近场水下粘性沉积物在人工振动源作用下的动土压力、动孔隙水压力和动加速度的结果。研究发现,在正弦振动器的激励下,土压力对振动源呈现出相同频率的统计正弦波动响应。在初始屈服应力较低的泥沙中,土压力分布明显地呈现出先增大后减小的趋势。土壤压力的振幅随距离呈指数衰减。
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CiteScore
4.50
自引率
8.70%
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0
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