Numerical Modelling: Applications to Marine Systems
Elsevier, Sep 1, 1987 - Mathematics - 294 pages
The thirteen papers presented in this book are based on talks given at the workshop on Numerical Modelling of Marine Systems held at the University of Adelaide, South Australia in February 1986. Several of the articles are a direct outcome of two special sessions held on modelling of Open Boundary Conditions and on the Transport of Pollutants.
Other articles in the book cover topics such as numerical modelling of wind-driven flow in shallow seas, sediment transport in estuaries, internal tides and comparison of numerical methods for solving tidal and pollutant transport problems.
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CHAPTER 2 A THREEDIMENSIONAL NUMERICAL MODEL OF THE EASTERN IRISH SEA
CHAPTER 3 MODELLING WINDDRIVEN FLOW IN SHALLOW SYSTEMS ON THE SOUTHWEST AUSTRALIAN COAST
CHAPTER 4 DIAGNOSTIC MODELLING OF LARGESCALE CONVECTION AND OTHER THREEDIMENSIONAL PROCESSES IN THE COAS...
CHAPTER 5 A NUMERICAL SEDIMENT TRANSPORT MODEL FOR APPLICATION TO NATURAL ESTUARIES HARBOURS AND RIVERS
CHAPTER 6 NUMERICAL MODELLING OF INTERNAL TIDES
CHAPTER 7 COMPARISON OF FINITE DIFFERENCE AND GALERKIN METHODS IN MODELLING DEPTHDEPENDENT TIDAL FLOW IN C...
CHAPTER 8 AN IMPROVED OPEN BOUNDARY CONDITION FOR A TIDAL MODEL OF BASS STRAIT
CHAPTER 9 AN INVESTIGATION OF OPEN BOUNDARY CONDITIONS FOR TIDAL MODELS OF SHALLOW SEAS
CHAPTER 10 NUMERICAL METHODS FOR SOLVING THE TRANSPORT EQUATION
CHAPTER 11 FINITE DIFFERENCE METHODS FOR SOLVING THE ONEDIMENSIONAL TRANSPORT EQUATION
CHAPTER 12 THE APPLICATION OF LAGRANGIAN PARTICLETRACKING TECHNIQUES TO MODELLING OF DISPERSION IN THE SEA
CHAPTER 13 TIMESPLITTING THE ONEDIMENSIONAL TRANSPORT EQUATION
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accuracy accurate advection applied approximation B&K condition basis functions bottom boundary calculated circulation coastal coefficients component FDEs computational Courant number current profiles Davies depth derivative differencing dimensional discretisation eddy viscosity elevation error estuary Eulerian Eulerian methods explicit finite difference methods finite difference models finite element finite element methods flow forcing friction FTCS Galerkin method Gauss pulse grid point Harbour height specified condition hydrodynamic model Irish Sea linear Noye numerical diffusion numerical model obtained one-dimensional transport equation open boundary condition Orlanski parameters partial differential equation peak predicted problem radiation region relative wave speed scheme sea bed Section sediment transport shown in Figure simulation solving the one-dimensional solving the transport Spencer Gulf stable stencil step suspended load Tauranga technique three-dimensional tidal model tide time-split method transport equation upstream values velocity vertical eddy viscosity Wedge Island wind