Sediment and Ecohydraulics: INTERCOH 2005Tetsuya Kusuda, Hiroyuki Yamanishi, Jeremy Spearman, Joseph Z. Gailani Elsevier, 18 déc. 2007 - 518 pages Sediments and Ecohyraulics is comprised of papers submitted to the 6th International Conference on Cohesive Sediments (INTERCOH 2005) held in Saga, Japan, September 2005. The papers are divided into two major categories. The first is basic processes, including erosion, settling, flocculation, and consolidation. The second major catagory is application of the understanding of cohesive sediments to address specific issues, including waterway and part management, fluid mud behavior, and contaminiated sediment management. *Provides an up-to-date resource of the present knowledge of cohesive sediment transport processes*Contains practical solutions on cohesive transport problems*Presents information on managing cohesive sediments |
Table des matières
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17 | |
31 | |
Chapter 4 A sea surface temperature estimation method for ocean areas and seasons using a geographic information system as a neural network | 43 |
Chapter 5 Flocculation processes in concentrated benthic suspension CBS layer using a laboratory diffusive turbulent grid tank | 53 |
Chapter 6 Behavior of the turbidity plume relating to a density current in a tidal river | 69 |
Chapter 7 Study on change of bottom topography and sediment characteristics around a reclaimed land in Sanbanze | 83 |
Chapter 8 Strength of sediment mixtures as a function of sand content and clay mineralogy | 91 |
Chapter 18 On the hindered settling of highly concentrated mudsand mixtures | 255 |
Chapter 19 Sensitivity to breakup functions of a population balance equation for cohesive sediments | 275 |
Chapter 20 A study of in situ floc size in turbidity maximum Yangtze estuary China | 287 |
Chapter 21 Fine sediment resuspension and nutrient transport in Newnans Lake FL | 295 |
Chapter 22 Numerical simulation of hydrodynamics water quality and sediment transport in the Ariake Sea Kyushu Island Japan | 313 |
Chapter 23 Effect of the shape of submerged dikemound on mud transport | 329 |
Chapter 24 Lateral variability of the estuarine turbidity maximum in a tidal strait | 339 |
Chapter 25 SPM variations in a harbour basin | 357 |
Chapter 9 Sediment characterization of intertidal mudflats using remote sensing | 109 |
process and mathematical modeling | 125 |
experiments on sandmud mixtures from laboratory and field erosion tests | 137 |
Chapter 12 Field observation and modeling of suspended fine sediment load in Ariake Bay Japan | 155 |
Chapter 13 Modelling of sedimentation and selfweight consolidation of cohesive sediments | 165 |
Chapter 14 The development of algorithms to parameterise the mass settling flux of flocculated estuarine sediments | 193 |
Chapter 15 Settling velocity of sediments at high concentrations | 211 |
Chapter 16 Modeling of 3D fractal mud flocs settling via lattice Boltzmann method | 227 |
Chapter 17 A timedependent flocculation model | 241 |
Chapter 26 An integrated hydrodynamic model on muddy coasts | 379 |
Chapter 27 Modelling erosion of fine sediments and the influence of timevariable stress and depthvariable resistance | 391 |
Chapter 28 On the significance of mud transport algorithms for the modelling of intertidal flats | 411 |
Chapter 29 Sedimentary processes in a shellfish farming environment Mont Saint Michel Bay France | 431 |
Chapter 30 Numerical simulation and analyses of sedimenttransport processes in the EmsDollard estuary with a threedimensional model | 447 |
Chapter 31 Sensitivity and spinup times of cohesive sediment transport models used to simulate bathymetric change | 463 |
the Seine estuary France | 477 |
499 | |
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Expressions et termes fréquents
acoustic advection aggregation algorithms analysis Ariake Sea bathymetric bathymetric change Botlek Harbour bottom shear stress boundary breakup calculated calibration Carquinez Strait clay Coastal coefficient cohesive sediment computed consolidation decrease deposition depth dike distribution dredging effect equation erodibility erosion erosion rate estimated estuary experimental experiments Figure floc flocculation flow fluid mud flux fractal fraction Gunsan harbour basin Haringvliet sluicing headcut HR Wallingford hydrodynamic increase INTERCOH intertidal kaolinite laboratory macroflocs mass maximum measured method mg/L mm/s mud flocs mud layer near-bed non-cohesive numerical model observed parameters particles predicted processes ratio Rotterdam Waterway Saga University salinity samples sand grains sediment concentration sediment transport settling velocity shear resistance shear strength shear stress shown in Fig silt simulated SPM concentration surface suspended sediment tests tidal turbidity turbidity plume turbulent Urayasu values variations vertical viscosity water column wave height Winterwerp