Your search keyword '"Manning, Andrew James"' showing total 5 results

1. The 2011 International Conference on Cohesive Sediment Transport (INTERCOH 2011)

Author

He, Qing, Winterwerp, Johan C., and Manning, Andrew James

Published

2015

2. On the variability of flocculated particle characteristics in a shallow estuary

Author

Egan, Galen, primary, Chang, Grace, additional, Manning, Andrew James, additional, Monismith, Stephen G., additional, and Fringer, Oliver B., additional

Published

2021

3. Rheology of Mud: An Overview for Ports and Waterways Applications

Author

Shakeel, A., Kirichek, Alex, Chassagne, C., and Manning, Andrew James

Subjects

Yield (engineering), 010504 meteorology & atmospheric sciences, Mineralogy, Density, Silt, 010502 geochemistry & geophysics, 01 natural sciences, Cohesive sedimen, Rheology, Mud, Protocol, Organic matter, Yield stress, Moduli, 0105 earth and related environmental sciences, chemistry.chemical_classification, Nautical bottom, Sampling (statistics), Sampling depth, chemistry, OA-Fund TU Delft, Flow curve, Clay minerals, Geology

Abstract

Mud, a cohesive material, consists of water, clay minerals, sand, silt and small quantities of organic matter (i.e., biopolymers). Amongst the different mud layers formed by human or natural activities, the fluid mud layer found on top of all the others is quite important from navigational point of view in ports and waterways. Rheological properties of fluid mud layers play an important role in navigation through fluid mud and in fluid mud transport. However, the rheological properties of mud are known to vary as a function of sampling location within a port, sampling depth and sampling location across the globe. Therefore, this variability in rheological fingerprint of mud requires a detailed and systematic analysis. This chapter presents two different sampling techniques and the measured rheological properties of mud, obtained from laboratory experiments. The six protocols used to measure the yield stresses are detailed and compared. Furthermore, the empirical or semi-empirical models that are commonly used to fit rheological experimental data of such systems are presented. The influence of different factors such as density and organic matter content on the rheological behavior of mud is discussed. The fluidic yield stress of mud samples was observed to vary from 0.2 Pa to 500 Pa as a function of density and organic matter content.

Published

2021

4. Non-Intrusive Characterization and Monitoring of Fluid Mud: Laboratory Experiments with Seismic Techniques, Distributed Acoustic Sensing (DAS), and Distributed Temperature Sensing (DTS)

Author

Draganov, D.S., Ma, X., Buisman, M., Kiers, Tjeerd, Heller, H.K.J., Kirichek, Alex, and Manning, Andrew James

Subjects

reflection seismic measurements, 010504 meteorology & atmospheric sciences, transmission seismic measurements, Transverse wave, Distributed acoustic sensing, 010502 geochemistry & geophysics, 01 natural sciences, distributed temperature sensing (DTS), Current (stream), yield stress, Transmission (telecommunications), Temporal resolution, Reflection (physics), Bathymetry, Ultrasonic sensor, non-intrusive monitoring of fluid mud, Safe navigation, Geology, 0105 earth and related environmental sciences, Remote sensing, distributed acoustic sensing (DAS)

Abstract

In ports and waterways, the bathymetry is regularly surveyed for updating navigation charts ensuring safe transport. In port areas with fluid-mud layers, most traditional surveying techniques are accurate but are intrusive and provide one-dimensional measurements limiting their application. Current non-intrusive surveying techniques are less accurate in detecting and monitoring muddy consolidated or sandy bed below fluid-mud layers. Furthermore, their application is restricted by surveying-vessels availability limiting temporary storm- or dredging-related bathymetrical changes capture. In this chapter, we first review existing non-intrusive techniques, with emphasis on sound techniques. Then, we give a short review of several seismic-exploration techniques applicable to non-intrusive fluid-mud characterization and monitoring with high spatial and temporal resolution. Based on the latter, we present recent advances in non-intrusive fluid-mud monitoring using ultrasonic transmission and reflection measurements. We show laboratory results for monitoring velocity changes of longitudinal and transverse waves propagating through fluid mud while it is consolidating. We correlate the velocity changes with shear-strength changes while the fluid mud is consolidating and show a positive correlation with the yield stress. We show ultrasonic laboratory results using reflection and transmission techniques for estimating the fluid-mud longitudinal- and transverse-wave velocities. For water/mud interface detection, we also use distributed acoustic sensing (DAS) and distributed temperature sensing (DTS).

Published

2021

5. The Importance of Micro-Scale Processes on the Release of Macro-Nutrients from Estuarine Suspended Sediments

Author

Pidduck, Emma Louise, Manning, Andrew James, and Faculty of Science and Environment

Subjects

Turbulence, Geochemistry, Estuary, Flocculation, Sediment

Abstract

The quality of water within an estuary is inseparable from the component parts; suspended particulate matter (SPM) and the balance of macro-nutrients. Long-term temporal variations and the horizontal advection of both SPM and macro-nutrient concentrations are well-constrained, but the vertical fluxes associated with micro-scale processes, such as turbulence and flocculation, are poorly constrained. The importance of three micro-scale processes on the interactions between SPM and inorganic macro-nutrients, nitrate (NO–3 ), ammonium (NH+4) and phosphate (PO3 –4 ), are examined in four field campaigns and five laboratory experiments. Field campaigns were conducted in two turbid estuaries. One field campaign was conducted in the Seine estuary, France, and three campaigns in the Tamar estuary, U.K., in order to consider the effects of seasonal variations (spring, summer and autumn). Physical conditions measured included current velocity, turbidity, turbulence and particle size, were recorded using a suite of oceanographic instrumentation. Five different laboratory studies were conducted using the same mini annular flume, with different background conditions. Inorganic macro-nutrients were measured spectrophotometrically on a continuous flow analyser (for NO – 3 and PO3 –4) and fluorimetry (NH +4). Three hypotheses are presented as potential mechanisms controlling the release and uptake of macro-nutrients from sediments. Mechanism One (M1) described an exchange process between inorganic macro-nutrients and flocculation/disaggregating particles. It was hypothesised that flocculating particles would decrease water column macro-nutrient concentrations, and vice versa. In this study, flocculation was observed in both field sites, but there was no significant relationship between flocculation and macro-nutrient concentration. Similarly, the five laboratory studies demonstrated no statistically significant relationships between flocculation and macro-nutrient concentrations. Mechanism Two (M2) hypothesised that turbulence would enhance the release portion of the exchange processes described in M1. Furthermore, it was proposed that increased turbulence would break bonds between macro-nutrients and the surface of particle faces. Turbulence was observed to limit the floc size in all experiments (both field and laboratory), but this study determined that it did not promote a significant release mechanism for inorganic macro-nutrients. However, this study observed that turbulence played a key role in the vertical distribution of PO 3 – 4 and NH +4. In both the Seine and Tamar estuaries, surface and near-bed concentrations were observed to be statistically significantly different (p =

Published

2016