In-Stream Laser Diffraction for Measuring Suspended Sediment Concentration and Particle Size Distribution in Rivers: Insights from Field Campaigns

IF 2.1 3区 工程技术 Q2 ENGINEERING, CIVIL
M. Ahammad, J. Czuba, C. Curran
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引用次数: 1

Abstract

: This study evaluates the laser in situ scattering and transmissometry (LISST) instrument LISST-SL2, a laser diffraction instrument for suspended sediment sampling in rivers, with concurrent physical measurements of suspended sediment concentration (SSC) and particle size distribution (PSD) as well as velocity measurements by an acoustic Doppler current profiler (ADCP). We collected 136 LISST-SL2 samples along with 61 physical samples for SSC measurement, of which 24 physical samples included PSD measurement during 2018 – 2020 from 11 sites in Washington state and Virginia. An effective density is required to convert the measured volumetric SSC by the LISST-SL2 into a reported mass SSC, and by default the LISST-SL2 assumes a value of 2 . 65 g = mL. From our data set, we computed effective densities (mass SSC/volumetric SSC) that ranged from 0.5 to 5 . 4 g = mL, with a best-fit value of 2 . 05 g = mL. Additionally, the LISST-SL2 was not able to measure the finest sediment sizes in suspension, which affects the resulting PSD. Therefore, we propose some adjustments of the LISST-SL2 data with a supporting physical sample to account for these effective density and PSD issues. When doing so, we were able to reduce the root-mean square relative error (RMSRE) to 18% from 117% for SSC, and to 26% from 78% for PSD. LISST-SL2 velocities were generally higher than ADCP velocities with a 21% RMSRE. Our results and guidance will allow for more accurate sampling by the LISST-SL2, which has potential for studying spatial and temporal variation of suspended sediment characteristics in rivers. DOI: 10.1061/JHEND8.HYENG-13232. © 2022 American Society of Civil Engineers.
用于测量河流中悬浮沉积物浓度和粒度分布的流内激光衍射:来自野外运动的见解
本研究利用激光衍射仪listst - sl2对河流悬浮物进行原位散射和透射测量,同时对悬浮物浓度(SSC)和粒径分布(PSD)进行物理测量,并利用声学多普勒电流剖面仪(ADCP)测量流速。我们从华盛顿州和弗吉尼亚州的11个地点收集了136个list - sl2样本和61个物理样本用于SSC测量,其中24个物理样本包括2018 - 2020年的PSD测量。要将list - sl2测量的体积SSC转换为报告的质量SSC,需要一个有效密度,list - sl2默认假设值为2。根据我们的数据集,我们计算了有效密度(质量SSC/体积SSC),范围为0.5至5。g = mL,最佳拟合值为2。05 g = mL。此外,list - sl2无法测量悬浮液中最细的沉积物大小,这影响了所得的PSD。因此,我们建议使用支持物理样本对list - sl2数据进行一些调整,以解释这些有效密度和PSD问题。当这样做时,我们能够将SSC的均方根相对误差(RMSRE)从117%降低到18%,PSD的均方根相对误差从78%降低到26%。list - sl2速度一般高于ADCP速度,RMSRE为21%。我们的研究结果和指导将使list - sl2的采样更加精确,这对研究河流悬浮泥沙特征的时空变化具有潜在的意义。DOI: 10.1061 / jhend8.hyeng - 13232。©2022美国土木工程师学会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Hydraulic Engineering
Journal of Hydraulic Engineering 工程技术-工程:机械
CiteScore
5.10
自引率
8.30%
发文量
0
审稿时长
10 months
期刊介绍: The Journal of Hydraulic Engineering accepts original contributions that describe the analysis and solutions of problems in hydraulic engineering. Technical Notes may present a problem, without solution, of common interest. Topics range from flows in closed conduits to free-surface flows (canals, rivers, lakes, and estuaries) to environmental fluid dynamics. Topics include transport processes involving fluids (multiphase flows) such as sediment and contaminant transport, and heat and gas transfers. Emphasis is placed on the presentation of concepts, methods, techniques, and results that advance knowledge and/or are suitable for general application in the hydraulic engineering profession.
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