Combining SES and ADCP to measure mud transport processes in tide-controlled estuaries

Similar documents
Formation and entrainment of fluid mud layers in troughs of subtidal dunes in an estuarine turbidity zone

impact of human interventions on estuarine dynamics regime shifts

A 3D unstructured numerical model of Ems-Dollart estuary Observations and 3-D modeling. Pein JU, Stanev EV, Zhang YJ.

Applying Gerris to Mixing and Sedimentation in Estuaries

OCCURRENCE, BEHAVIOUR AND PHYSICAL

Fine sediment transport into the hyper-turbid lower Ems River: the role of channel deepening and sediment-induced drag reduction

Linking Sediment Transport in the Hudson from the Tidal River to the Estuary

6 THE SIZE AND SETTLING VELOCITY OF FINE-GRAINED SUSPENDED SEDIMENT IN THE DOLLARD ESTUARY. A SYNTHESIS

SMS 303: Integrative Marine

Comparing suspended sediment concentrations derived from a model and collected in a tidally dominated area

On the response of tidal rivers to deepening and narrowing

German Weser. Abstract. 2 Objectives. pumped from the. only few Hamburg. PSD of. as found. device. dunes in the. visible in the. data.

SPM response to tide and river flow in the hyper-turbid Ems River

Internal hydraulics and mixing in a highly stratified estuary

Assessment of the performance of a turbulence closure model: along the tidally-influenced Kaipara River to the estuary, NZ

Dynamics of the Ems Estuary

PDCE2007. Possibilities of minimizing sedimentation in harbours in a brackish tidal environment

Suspended Sediment Transport and Fluid Mud Dynamics in Tidal Estuaries

Main issues of Deltas

ABSTRACT INTRODUCTION. 26 Terra et Aqua Number 110 March 2008

FINAL REPORT Fluid Mud in Energetic Systems: FLUMES II

A Modeling Study of the Satilla River Estuary, Georgia. II: Suspended Sediment

THE SETTLING OF MUD FLOCS IN THE DOLLARD ESTUARY, THE NETHERLANDS

3.3 Classification Diagrams Estuarine Zone Coastal Lagoons References Physical Properties and Experiments in

HIGH RESOLUTION SEDIMENT DYNAMICS IN SALT-WEDGE ESTUARIES

Tidal changes in the Lower Ems ( ): reconstructing the effects of channel deepening and bottom roughness

High Resolution Numerical Modeling of Cohesive Sediment Transport

For example, for values of A x = 0 m /s, f 0 s, and L = 0 km, then E h = 0. and the motion may be influenced by horizontal friction if Corioli

Fluid Mud in Energetic Systems: FLUMES II

Securing Manoeuverability of a Deep Draft Ship in a Sediment loaded Tidal River Berth

MORPHODYNAMIC PROCESSES IN ESTUARIES COMPARISON OF MARINE AND LIMNIC TIDAL FLATS

Structure and composition of a strongly stratified, tidally pulsed river plume

SEDIMENT TRANSPORT IN RIVER MOUTH ESTUARY

Sediment Transport (in Estuaries)

Bathymetric controls on sediment transport in the Hudson River estuary: Lateral asymmetry and frontal trapping

Sediment resuspension, flocculation and settling in a macrotidal estuary

CHAPTER TWO HUNDRED FOUR

WATER INJECTION DREDGING by L.C. van Rijn

B-1. Attachment B-1. Evaluation of AdH Model Simplifications in Conowingo Reservoir Sediment Transport Modeling

Lecture 9: Tidal Rectification, Stratification and Mixing

Morphodynamic Response of Tidal Mudflats to Marine Cohesive Sediment Influx

Published in: MARID Fifth International Conference on Marine and River Dune Dynamics

Robert J Chant IMCS Rutgers University Timothy P. Wilson US Geological Survey West Trenton NJ. Overview

The Influence of Wind and River Pulses on an Estuarine Turbidity Maximum: Numerical Studies and Field Observations in Chesapeake Bay

Effects of possible land reclamation projects on siltation in the Rotterdam harbour area. A model study.

A Comparison of Predicted Along-channel Eulerian Flows at Cross- Channel Transects from an EFDC-based Model to ADCP Data in South Puget Sound

Estuarine Boundary Layer Mixing Processes: Insights from Dye Experiments*

1 Shoreline Landforms 2. 2 Emergent v. Submergent 2. 3 Wavecutting 3. 4 Planview 4. 5 Marine Terraces 5. 6 California 7. 7 Tombolos, Sea Stacks 8

FLUID MUD FORMATION by Leo van Rijn;

Sediment Transport at Density Fronts in Shallow Water: a Continuation of N

Internal Wave Driven Mixing and Transport in the Coastal Ocean

Comparing Calculated and Observed Vertical Suspended-Sediment Distributions from a Hudson River Estuary Turbidity Maximum

Hydrodynamics in Shallow Estuaries with Complex Bathymetry and Large Tidal Ranges

SEDIMENT CONCENTRATIONS AND TRANSPORT DUE TO NEAR-BED JET FLOW: STJET-MODEL

Lateral entrapment of sediment in tidal estuaries: An idealized model study

Temporal and spatial variability of vertical salt flux in a highly stratified estuary.

A lithological map created from multibeam backscatter data in challenging circumstances: the Lower Sea Scheldt estuary

The assessment of sediment bed properties within the York River estuary as a function of spring and neap tidal cycles

Turbulent Mixing During an Admiralty Inlet Bottom Water Intrusion. Coastal and Estuarine Fluid Dynamics class project, August 2006

Sediment Transport Modelling of Proposed Maintenance Dredging of the Outer and Inner Berths at the Aughinish Marine Terminal, Shannon Estuary

Unified View of Sediment Transport by Currents and Waves. II: Suspended Transport

Summary Results from Horizontal ADCP tests in the Indiana Harbor Canal and the White River

Chapter 8 - pg. 1 CHAPTER 8 ESTUARIES. To paraphrase Pritchard, a pioneer in studies of estuarine circulation,

Geomorphological Modelling in Coastal Waters

Donald Slinn, Murray D. Levine

High-Frequency Acoustic Propagation in Shallow, Energetic, Highly-Salt- Stratified Environments

Lateral Circulation and Suspended Sediment Transport in a Curved Estuarine Channel: Winyah Bay, SC, USA

centrifugal acceleration, whose magnitude is r cos, is zero at the poles and maximum at the equator. This distribution of the centrifugal acceleration

DUNE MIGRATION AND SAND TRANSPORT RATES IN TIDAL ESTUARIES: THE EXAMPLE OF THE RIVER ELBE

Hydraulics and mixing in the Hudson River estuary: A numerical model study of tidal variations during neap tide conditions

The Imperative of Sediment Management Concepts in River Basin Management Plans

Turbulence Structure in Bottom Layer of a Tidal Estuary

SIMPLE GENERAL FORMULAE FOR SAND TRANSPORT IN RIVERS, ESTUARIES AND COASTAL WATERS by L.C. van Rijn (

Note: Deposition/dredging of tidal ferry channel in Dutch Wadden Sea Date: 23 June 2017

NAME: GEL 109 Final Winter 2010

Sediment Transport at Density Fronts in Shallow Water

Surficial sediment erodibility from time-series measurements of suspended sediment concentrations: development and validation

INTERNAL GRAVITY WAVES

Multi-Class Sediment Dynamics and Export in the Fraser River Estuary

Research Topic Updated on Oct. 9, 2014

Topographic Effects on Stratified Flows

Temporal and spatial variability of vertical salt flux in a highly stratified estuary

Strategies for and results from the investigation of migrating bedforms in the German Bight

Lecture 9+10: Buoyancy-driven flow, estuarine circulation, river plume, Tidal mixing, internal waves, coastal fronts and biological significance

Sediment Transport and Strata Formation in the Adriatic Sea

JOURNAL OF GEOPHYSICAL RESEARCH: OCEANS, VOL. 118, , doi: /jgrc.20410, 2013

Marine Geosciences / Oceanography Fields and disciplines

Near-bottom shear stresses in a small, highly stratified estuary

Monitoring of Suspended Sediment Plume Formed During Oyster Shell Dredging in the James River, Virginia, August 2001

arxiv: v1 [physics.flu-dyn] 4 Dec 2018

High-resolution numerical modeling of wave-supported gravity-driven mudflows

High Resolution Numerical Models of Tidal Marshes in the Delaware Bay

An Intensive Field Survey of Physical Environments in a Mangrove Forest

The Effect of Tidal Asymmetry and Temporal Settling Lag on Sediment Trapping in Tidal Estuaries

Dynamics of Intertidal Gravel Dunes

Turbulent structure of high-density suspensions formed under waves

Vertical Transport of Sediment from Muddy Buoyant River Plumes in the Presence of Different Modes of Interfacial Instabilities

Winfried Siefert ; Volker Barthel**' and

BUDGET. Investigation of natural sand transport on the Belgian continental shelf

Tidal and spring-neap variations in horizontal dispersion in a partially mixed estuary

Transcription:

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-1 Combining SES and ADCP to measure mud transport processes in tide-controlled estuaries Dr. Marius Becker Centre for Marine Sciences (MARUM), University of Bremen, Germany Contact Address E-mail Website Marum - Zentrum für Marine Umweltwissenschaften der Universität Bremen Leobener Straße 28359 Bremen Germany mbecker@marum.de www.marum.de

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-2 Combining SES and ADCP to measure mud transport processes in tide-controlled estuaries Marius Becker Christian Maushake Christian Winter Alexander Bartholomä Kerstin Schrottke Combining SES and ADCP to measure mud transport processes in tide-controlled estuaries MARUM Coastal Dynamics Christian Winter

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-3 Trapping of suspended sediments Residual circulation Buoyancy gradient Tidal asymmetry Tidal excursion

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-4 Tidal excursion Entrainment, advection, settling

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-5 Flocculation, hindered settling, stratification North Sea Elbe Ems Weser Hamburg Bremen

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-6 Ems estuary Emden Sediment stratification ETM decoupled from salt wedge Large scale fluid mud formation discharge 80 m 3 s -1 SSC ETM 5 g l -1 tidal excursion 15 km depth 8 m tidal influence 65 km tidal elevation 3.5 m 10 km Papenburg Ems estuary Emden Convergence Hydraulic drag + + Tidal asymmetry + - Tidal pumping Stratification 10 km Papenburg following Winterwerp et al. (2013a, 2013b) OD and others

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-7 Ems, tidal cycle: sediment stratification ebb flood Tidal asymmetries sediment stratification Ems, tidal cycle: SSC Tidal asymmetries sediment stratification entrainment

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-8 Ems, tidal cycle: sediment transport Tidal asymmetries sediment stratification entrainment transport Ems, tidal cycle: velocity shear Tidal asymmetries sediment stratification entrainment transport

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-9 Weser estuary discharge 350 m 3 s -1 SSC ETM 0.25 g l -1 tidal excursion 15 km depth 12 m tidal influence 70 km tidal elevation 3.5 m Bremerhaven periodically stratified (salt) ETM near tip of salt wedge Bremen 10 km Fluid mud in dune troughs Slack water

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-10 Fluid mud in dune troughs Slack water Gravity cores: 20 g/l - 70 g/l, large mud flocs (< 2.5 mm) Layer thickness: max. 2 m, gelling point, fluid mud Fluid mud in dune troughs Early ebb phase Entrainment: inclination, internal waves

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-11 Fluid mud in dune troughs Fluid mud entrainment Gradient Richardson Number (Ri g ) Concentration gradient versus velocity gradient Ri g = 1.3 > 0.25

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-12 Fluid mud entrainment Gradient Richardson Number (Ri g ) Concentration gradient stable regarding growth of shear instabilities Entrainment induced by advection of turbulent stresses generated at the dune crest Fluid mud entrainment Entrainment of fluid mud in dune troughs: 2 h after slack water

7 th Workshop Seabed Acoustics, Rostock, November 19/20, 2015 P06-13 Mobile mud, only partly entrained during one tidal phase Summary

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback