Flow velocity and implication on particle size of bottom sediment in the commodore channel lagos, southwestern nigeria

R. A, M. A. S
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Abstract

Flow velocity generally influences the erosion, transport and deposition of sediments. Flow velocity and in relation to particle size distribution in the Commodore channel was investigated with the Acoustic doppler current profiler (ADCP), echosounder and veen van grab. Those equipment were deployed through a low draft survey boat to acquire acoustic and sediment data covering the study area. The ADCP measured the current velocity along fourteen established transect lines while twenty surface sediments samples were collected along the banks and center of the channel respectively. Sediment samples were analyzed for grain size distributions and mineralogicaly composition while the acoustics data were analyzed with Matlab software to produce velocity profiles for the channel area. The study aimed to determine the magnitude and direction of flow of water along the channel with a view to ascertain the sediment transport process.  Results indicated no significant difference in flow velocities along the different channel points. The flow velocity was however slightly higher around the channel mouth than in mid and upper reaches of the channel. The flow velocities showed negative correlation of (– 0.54 and – 0.28) with the sediment characteristics indicating that the sediment particle size distributions is unrelated to the flow velocity. This anomaly in the equilibrium flow velocity suggest  the impact of dredging and the continuous ebbing and flooding of tidal water which resulted to reworking of the sediment particle sizes prior to deposition. The sediment distributions were fine sand, moderately sorted, fine skewed with leptokurtic peaked. Significant fractions of the sediments were deposited in fluvial and shallow marine environments while a few were deposited in the beach and turbidity environment.  Sediments and acoustic data interpreted from the study suggest that sediment supply to the area was by fluvial processes through the barrier lagoon drainage basin.
奈及利亚西南部拉各斯准将水道底沉积物流速及其对颗粒大小的影响
流速一般影响沉积物的侵蚀、搬运和沉积。使用声学多普勒电流剖面仪(ADCP)、回声测深仪和均匀面包车抓斗研究了Commodore通道中的流速及其与粒径分布的关系。这些设备通过一艘低吃水调查船部署,以获取覆盖研究区域的声学和沉积物数据。ADCP沿着14条既定的样线测量流速,同时分别沿着河岸和河道中心收集了20个表层沉积物样本。对沉积物样品进行粒度分布和矿物组成分析,同时利用Matlab软件对声学数据进行分析,得出河道区域的流速剖面。研究的目的是确定沿河道水流的大小和方向,以确定泥沙的搬运过程。结果表明,沿不同通道点的流速无显著差异。而河口附近的流速略高于中上游的流速。流速与泥沙特征呈负相关(- 0.54和- 0.28),表明泥沙粒度分布与流速无关。平衡流速的这种异常表明疏浚的影响和潮汐水的持续退潮和淹没导致沉积前沉积物粒度的重新加工。沉积物分布为细砂、中等分选、细斜、细峰顶。大部分沉积物沉积在河流和浅海环境中,少量沉积在海滩和浑浊环境中。从研究中解释的沉积物和声学数据表明,该地区的沉积物供应是通过屏障泻湖流域的河流作用。
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