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• Coastal Hydrodynamics And Transport Processes
  ...t that the littoral drift over the coastal profile depends not only on the hydrodynamics but also very much on the variation of the sediment characteristics over th ...y high ''fall velocity'' of sand grains. This means that any change in the hydrodynamics or [[bathymetry|bathymetric]] conditions will "immediately" result in a cor
  29 KB (4,518 words) - 11:18, 6 July 2020
• Modelling coastal hydrodynamics
  ...mena, concepts and insights are presented briefly and modelling of coastal hydrodynamics using physical, numerical and composite models is described. Finally practi ===Coastal Hydrodynamics and Modelling===
  99 KB (15,083 words) - 13:37, 7 November 2021

Page text matches

• Port breakwaters and coastal erosion
  * [[Coastal Hydrodynamics And Transport Processes]]
  7 KB (1,098 words) - 16:44, 5 July 2020
• Characteristics of muddy coasts
  ===Local hydrodynamics=== ...nse to different forcing, altering the feedback between the morphology and hydrodynamics, whilst evolving to reach some new equilibrium.
  9 KB (1,308 words) - 15:59, 15 May 2021
• Definitions of coastal terms
  ...e given in: [[Littoral drift and shoreline modelling]]; see also [[Coastal Hydrodynamics And Transport Processes]]. ...ure, for studying or predicting coastal behaviour; see [[Modelling coastal hydrodynamics]].
  79 KB (11,862 words) - 21:40, 1 April 2024
• Coastal Hydrodynamics And Transport Processes
  ...t that the littoral drift over the coastal profile depends not only on the hydrodynamics but also very much on the variation of the sediment characteristics over th ...y high ''fall velocity'' of sand grains. This means that any change in the hydrodynamics or [[bathymetry|bathymetric]] conditions will "immediately" result in a cor
  29 KB (4,518 words) - 11:18, 6 July 2020
• Natural causes of coastal erosion
  * [[Coastal Hydrodynamics And Transport Processes]]
  14 KB (2,169 words) - 17:21, 26 August 2022
• Human causes of coastal erosion
  ...sion. The presence of the structure has a series of effects (see [[Coastal Hydrodynamics And Transport Processes]] and [[Littoral drift and shoreline modelling]]): * [[Coastal Hydrodynamics And Transport Processes]]: hydrodynamic background of the movement and tran
  29 KB (4,651 words) - 22:27, 2 July 2022
• Shore nourishment
  ...orrow area) at a sufficient distance from the project area so that coastal hydrodynamics remain unaffected. ...from the seabed sufficiently far offshore to minimize any influence on the hydrodynamics of the coastal zone. Placement in onshore nourishment sites makes use of pi
  12 KB (1,875 words) - 15:32, 23 July 2023
• Waves
  [[Category:Hydrodynamics]]
  20 KB (2,992 words) - 16:09, 14 February 2024
• Wave transformation
  Wave set-up is a very important phenomenon in the surf-zone hydrodynamics. This is a local elevation in the mean water level on the foreshore, caused [[Category:Hydrodynamics]]
  6 KB (1,006 words) - 13:44, 22 February 2024
• Statistical description of wave parameters
  [[Category:Hydrodynamics]]
  24 KB (3,898 words) - 13:12, 23 November 2023
• Currents
  ...so-called littoral drift; this mechanism is discussed further in [[Coastal Hydrodynamics And Transport Processes]] and [[Littoral drift and shoreline modelling]]. ...currents tend to scour out the depressions in the bar, [[bathymetry]] and hydrodynamics evolve in a mutually dependent way (called 'morphodynamic feedback').
  14 KB (2,112 words) - 14:00, 20 January 2024
• Fluid mud
  ==Hydrodynamics of fluid mud==
  15 KB (2,305 words) - 19:30, 12 January 2024
• FUTURECOAST project, UK
  ...hore. This could, for example, create floodplains or inlets that alter the hydrodynamics operating within the bay and thus the alignment tendencies at the shoreline
  20 KB (3,041 words) - 12:04, 7 September 2020
• Groynes as shore protection
  *[[Coastal Hydrodynamics And Transport Processes]]
  21 KB (3,352 words) - 17:17, 5 October 2021
• How to apply models
  ...t conditions (see [[Littoral drift and shoreline modelling]] and [[Coastal Hydrodynamics And Transport Processes]]) ...regional models can provide boundary conditions for local wave, [[Coastal Hydrodynamics And Transport Processes|hydrodynamic and sediment transport models]] as req
  18 KB (2,697 words) - 11:29, 20 February 2024
• Transport and dispersion of pollutants, nutrients, tracers in mixed nearshore water
  ...ine environment: while dumping sites are, usually, well protected from the hydrodynamics actions by means of a specific coverage (e.g. ''Ocean Dumping Act'', 1972) ...reak with large lateral gradients. Hence, macrovortices can alter both the hydrodynamics and the morphodynamics. <ref name="Steijn">Steijn R., Roelvink D., Rakhorst
  19 KB (2,775 words) - 16:03, 7 October 2021
• Behaviour-based models
  ...haviour-based models, except for the fact that in process-based models the hydrodynamics and transport processes are clearly integrated in the model (to the best kn
  6 KB (828 words) - 13:50, 12 November 2021
• Argus video monitoring system
  * Enckevort, I.M.J. Van and Ruessink, B.G. (2001).''Effect of hydrodynamics and bathymetry on video estimates of nearshore sandbar position''. Journal
  13 KB (1,959 words) - 15:21, 6 April 2021
• Hydrodynamic numerical models of wave-structure interaction
  ...dsen, 2005<ref name="S05">Svendsen, I. A., 2005. Introduction to Nearshore Hydrodynamics, Advanced Series on Ocean Engineering, vol. 24, World Scientific, Singapore ===Smoothed Particle Hydrodynamics (SPH) models===
  21 KB (3,036 words) - 16:03, 25 February 2023
• Tidal asymmetry and tidal inlet morphodynamics
  [[Category:Hydrodynamics]]
  53 KB (8,417 words) - 12:56, 20 January 2024
• Stability models
  ...nated by a '''positive feedback''' between the evolving morphology and the hydrodynamics. ...s) develop coupled patterns in the morphology, the wave field and the mean hydrodynamics other than the featureless equilibrium. These patterns may eventually resul
  41 KB (6,565 words) - 16:15, 4 October 2021
• Argus image types and conventions
  ...essink, 2001<ref>Enckevort, I.M.J. Van and Ruessink, B.G. (2001) Effect of hydrodynamics and bathymetry on video estimates of nearshore sandbar position. Journal of * [[Coastal Hydrodynamics And Transport Processes]]
  7 KB (1,069 words) - 21:30, 10 August 2020
• Argus applications
  ...rphological model. This opens the door toward the nowcasting of near-shore hydrodynamics and bathymetric evolution with a high resolution in time and space. The Bea
  10 KB (1,502 words) - 21:31, 10 August 2020
• Reduction of uncertainties through Data Model Integration (DMI)
  ...r models. Recent examples of applications in surface hydrology and coastal hydrodynamics are given by El Serafy et al., 2005<ref>El Serafy, G.Y., Gerritsen H., Myne :[[Modelling coastal hydrodynamics]]
  22 KB (3,245 words) - 17:54, 2 July 2020
• Submarine groundwater discharge
  [[Category:Hydrodynamics]]
  31 KB (4,626 words) - 12:46, 12 August 2021
• Bed load
  :[[Coastal Hydrodynamics And Transport Processes]]
  842 bytes (97 words) - 16:11, 24 September 2018
• Measuring instruments for coasts
  ...ors. Black and Rosenberg (1991<ref>Black, K.P. and Rosenberg, M.A., 1991.''Hydrodynamics and Sediment Dynamics in Wave-Driven Environments'', Technical Report No. 1
  12 KB (1,782 words) - 11:43, 7 September 2020
• Introduction, problems and approaches in sediment transport measurements
  ...elocities and related turbulent motions, are discussed. See also [[Coastal Hydrodynamics And Transport Processes]].
  6 KB (862 words) - 17:15, 19 August 2020
• Definitions, processes and models in morphology
  ...models and morphological models is presented. See also [[Modelling coastal hydrodynamics]].
  11 KB (1,603 words) - 22:20, 1 July 2020
• Floating breakwaters
  ...e Absorbed Power of Heaving Wave Energy Converters Using Smoothed Particle Hydrodynamics. Water 13, 384</ref>. Other body motions (e.g. pitch, roll, sway) are ignor
  16 KB (2,356 words) - 15:28, 30 March 2024
• French case studies: Dynamic of swash bar and hook spit formation in megatidal environment, Regneville Inlet (Normandy, France)
  ...rey and L. Weishar (eds.), Lecture notes on coastal and estuarine studies: Hydrodynamics and sediment dynamics of tidal inlets. New York, Spinger-Verlag, 29, pp. 18
  13 KB (1,979 words) - 17:37, 1 July 2020
• Wavelet analysis of coastal processes
  ...f> Różyński, G., Reeve, D. 2005. Multi-resolution analysis of nearshore hydrodynamics using discrete wavelet transforms. Coastal Engineering 52: 771-792</ref>. F
  20 KB (3,180 words) - 15:59, 6 October 2023
• Coupled hydrodynamic - water quality - ecological modelling
  This article describes an integrated modelling approach in which hydrodynamics, suspended sediment dynamics (water quality) are combined in order to simul :[[Modelling coastal hydrodynamics]]
  7 KB (1,046 words) - 17:21, 7 September 2020
• Meiofauna
  and between the sediments and overlying water, thereby modifying hydrodynamics in sediments and affecting nutrient cycling and biogeochemical fluxes, and
  7 KB (1,001 words) - 17:37, 30 December 2023
• Seawater density
  Density gradients play a prominent role in marine hydrodynamics. The large-scale long-term mean currents in the ocean and in estuaries larg
  9 KB (1,257 words) - 23:06, 22 February 2021
• Spatial and temporal variability of salt marshes
  ...der the local feedback mechanisms between plant growth, [[morphology]] and hydrodynamics of both the salt marsh and the [[mudflat]], when assessing the status of sa
  18 KB (2,451 words) - 18:54, 7 March 2023
• Suspended load
  :[[Coastal Hydrodynamics And Transport Processes]]
  1 KB (125 words) - 21:57, 23 September 2018
• Beach nourishment
  ...s-shore sediment transport processes is discussed in the article [[Coastal Hydrodynamics And Transport Processes]]. * [[Coastal Hydrodynamics And Transport Processes]]
  9 KB (1,432 words) - 21:41, 21 November 2023
• Littoral drift
  :[[Coastal Hydrodynamics And Transport Processes]]
  492 bytes (61 words) - 20:05, 30 March 2021
• Coastal erosion
  : [[Coastal Hydrodynamics And Transport Processes]]
  2 KB (362 words) - 13:02, 16 February 2024
• Sandy shores
  * [[Coastal Hydrodynamics And Transport Processes]]
  1 KB (134 words) - 22:40, 8 December 2022
• Ocean circulation
  [[Category:Hydrodynamics]]
  17 KB (2,486 words) - 15:39, 3 May 2021
• Coriolis effect
  [[Category:Hydrodynamics]]
  3 KB (430 words) - 15:40, 20 September 2020
• Tsunami
  [[Category:Hydrodynamics]]
  28 KB (4,414 words) - 12:41, 25 April 2024
• Thermohaline circulation of the oceans
  [[Category:Hydrodynamics]]
  23 KB (3,524 words) - 17:38, 22 December 2020
• Accretion
  * [[Coastal Hydrodynamics And Transport Processes]]
  433 bytes (48 words) - 12:30, 16 February 2024
• Bedforms
  :[[Coastal Hydrodynamics And Transport Processes]]
  684 bytes (82 words) - 13:01, 27 March 2021
• Bedload
  :[[Coastal Hydrodynamics And Transport Processes]]
  918 bytes (124 words) - 13:04, 27 March 2021
• Longshore drift
  ...e given in: [[Littoral drift and shoreline modelling]]; see also [[Coastal Hydrodynamics And Transport Processes]].
  627 bytes (84 words) - 11:53, 3 July 2022
• Edge waves
  [[Category:Hydrodynamics]]
  2 KB (333 words) - 16:58, 18 August 2021

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