Reprint
Selected Papers from the 15th Estuarine and Coastal Modeling Conference
Edited by
July 2019
432 pages
- ISBN978-3-03921-269-9 (Paperback)
- ISBN978-3-03921-270-5 (PDF)
This book is a reprint of the Special Issue Selected Papers from the 15th Estuarine and Coastal Modeling Conference that was published in
Engineering
Environmental & Earth Sciences
Summary
The 15th Estuarine and Coastal Modeling Conference provides a venue for commercial, academic, and government scientists and engineers from around the world to present and discuss the latest results and techniques in applied estuarine and coastal modeling. Prospective authors are invited to submit papers on a wide range of topic areas, including:• Pollutant Transport and Water Quality Prediction• Coastal Response to Climate Change• Modeling Techniques and Sensitivity Studies• Model Assessment• Modeling Specific Estuarine and Coastal Systems• Visualization and Analysis• Wave and Sediment Transport Modeling• Modeling of Chemicals and Floatables• Oil Spill Transport and Fate Modeling• Inverse Methods• Circulation Modeling• Facility Siting and CSO Studies• Data Assimilation• Nowcast/Forecast Modeling Systems• Modeling Systems with Strong Buoyancy Forcing• Modeling of Coupled Systems• Risk Analysis (Nuclear Reactors, Flood Forecasting) This Special Issue presents a selection of papers from the conference; the papers give insight into current research and commercial developments while highlighting some of the areas where further research is required.
Format
- Paperback
License and Copyright
© 2019 by the authors; CC BY-NC-ND license
Keywords
British Columbia; environmental assessment; marine construction; circulation; numerical model; sediment model; tidal current; wind-driven current; stratification; initial dilution zone; property-carrying particle model; coupled models; ecosystem simulation; biophysical modeling; Sandusky Bay; Great Lakes; tides; tidal datums; VDatum; spatially varying uncertainty (SVU); north-east Gulf of Mexico; Brown Passage; Chatham Sound; internal tides; circulation; numerical model; stratification; barotropic; baroclinic; Hood Canal; floating bridge; Salish Sea; hydrodynamics; Finite-Volume Community Ocean Model (FVCOM); circulation; anthropogenic impact; zone of influence; Salish Sea model; ice modeling; operational forecast; FVCOM; CICE; hydrodynamic modeling; Great Lakes; hydrodynamic numerical model; H3D; agriculture; salt wedge; climate change; sea level rise; river discharge; channel deepening; tidal constituent database; ADvanced CIRCulation model (ADCIRC); Eastern North Pacific Ocean (ENPAC); coastal ocean modeling; Gulf of Mexico; operational nowcast and forecast system; Finite Volume Community Ocean Model; water level; temperature; salinity; water quality; model calibration; estuary; eutrophication; CE-QUAL-W2; phytoplankton; algal growth kinetics; wave energy; wind forcing; large-wave hindcast; multi-level nested-grid modeling; CFSR; NARR; WaveWatch III; SWAN; hydrodynamics; feasibility assessments; nearshore restoration; FVCOM; Puget Sound; Salish Sea; numerical model; sediment transport; marine; short-lived radioisotopes; wave hindcast; breakwater; harbor; estuary; SWAN; MIKE21SW; unstructured grid; storm surge; coastal storm; flooding; compound events; estuarine modeling; lateral circulation; tidal currents; momentum balance; coastal and estuarine modeling; ADCIRC; water level time series; VDatum; tidal datums; statistical interpolation; spatially varying uncertainty; non-tidal zones; marine grid population; Texas; western Louisiana; Gulf of Mexico; ocean modeling; cloud computing; data analysis; geospatial data visualization