basic-numerical-methods-in-meteorology-and-oceanography.pdf

basic-numerical-methods-in-meteorology-and-oceanography.pdf

The purpose of this book is to provide an introduction to numerical modelling of the ocean and the atmosphere. It originates from courses given at Stockholm University and is intended to serve as a textbook for students in meteorology and oceanography with a background in mathematics and physics. F...

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Λεπτομέρειες βιβλιογραφικής εγγραφής
Γλώσσα:English
Έκδοση: Stockholm University Press 2023
Διαθέσιμο Online:https://doi.org/10.16993/bbs
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spelling oapen-20.500.12657-605382024-03-27T14:15:01Z Basic Numerical Methods in Meteorology and Oceanography Döös, Kristofer Lundberg, Peter Aldama-Campino, Aitor Earth System climate modelling; Shallow-water equations; Model coordinates; Computational errors and dispersion; Stability analysis; Finite-difference schemes thema EDItEUR::P Mathematics and Science::PH Physics::PHF Materials / States of matter::PHFB Low temperature physics thema EDItEUR::P Mathematics and Science::PH Physics::PHD Classical mechanics::PHDT Dynamics and statics thema EDItEUR::P Mathematics and Science::PB Mathematics::PBK Calculus and mathematical analysis::PBKS Numerical analysis thema EDItEUR::U Computing and Information Technology::UM Computer programming / software engineering::UMZ Software Engineering::UMZL Unified Modelling Language (UML) thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RB Earth sciences::RBK Hydrology and the hydrosphere::RBKC Oceanography (seas and oceans) thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RB Earth sciences::RBP Meteorology and climatology The purpose of this book is to provide an introduction to numerical modelling of the ocean and the atmosphere. It originates from courses given at Stockholm University and is intended to serve as a textbook for students in meteorology and oceanography with a background in mathematics and physics. Focus is on numerical schemes for the most commonly used equations in oceanography and meteorology as well as on the stability, precision and other properties of these schemes. Simple equations capturing the properties of the primitive equations employed in models of the ocean and atmosphere will be used. These model equations are solved numerically on a grid by discretisation, the derivatives of the differential equations being replaced by finite-difference approximations. The focus will be on the basic numerical methods used for oceanographic and atmospheric modelling. These models are based on the Navier-Stokes equations (including the Coriolis effect) and a tracer equation for heat in both the atmosphere and ocean and tracer equations for humidity and salt in the atmosphere and ocean, respectively. A coupled atmospheric and oceanic general circulation model represents the core part of an Earth System climate model. The book starts by presenting the most common types of partial differential equations and finite difference schemes used in meteorology and oceanography. Subsequently the limitations of these numerical schemes as regards stability, accuracy, presence of computational modes and accuracy the computationally determined phase speed are discussed. The shallow-water equations are discretised for different spatial grids and friction and diffusion terms are introduced. Hereafter implicit and semi-implicit schemes are discussed as well as the semi-Lagrangian technique. Coordinates for atmospheric as well as oceanic models are presented as well as a highly simplified 3D model. A brief description is given of how some atmospheric general circulation models use spectral methods as ""horizontal coordinates"". Finally, some ""pen-and-paper"" theoretical exercises and a number of GFD computer exercises are given. 2023-01-09T14:03:04Z 2023-01-09T14:03:04Z 2022 book 9789176351758 9789176351734 9789176351741 https://library.oapen.org/handle/20.500.12657/60538 eng application/pdf Attribution 4.0 International basic-numerical-methods-in-meteorology-and-oceanography.pdf https://doi.org/10.16993/bbs Stockholm University Press 10.16993/bbs 10.16993/bbs 8137467e-e537-45b2-b1c8-94fc2574b729 9789176351758 9789176351734 9789176351741 204 open access
institution OAPEN
collection DSpace
language English
description The purpose of this book is to provide an introduction to numerical modelling of the ocean and the atmosphere. It originates from courses given at Stockholm University and is intended to serve as a textbook for students in meteorology and oceanography with a background in mathematics and physics. Focus is on numerical schemes for the most commonly used equations in oceanography and meteorology as well as on the stability, precision and other properties of these schemes. Simple equations capturing the properties of the primitive equations employed in models of the ocean and atmosphere will be used. These model equations are solved numerically on a grid by discretisation, the derivatives of the differential equations being replaced by finite-difference approximations. The focus will be on the basic numerical methods used for oceanographic and atmospheric modelling. These models are based on the Navier-Stokes equations (including the Coriolis effect) and a tracer equation for heat in both the atmosphere and ocean and tracer equations for humidity and salt in the atmosphere and ocean, respectively. A coupled atmospheric and oceanic general circulation model represents the core part of an Earth System climate model. The book starts by presenting the most common types of partial differential equations and finite difference schemes used in meteorology and oceanography. Subsequently the limitations of these numerical schemes as regards stability, accuracy, presence of computational modes and accuracy the computationally determined phase speed are discussed. The shallow-water equations are discretised for different spatial grids and friction and diffusion terms are introduced. Hereafter implicit and semi-implicit schemes are discussed as well as the semi-Lagrangian technique. Coordinates for atmospheric as well as oceanic models are presented as well as a highly simplified 3D model. A brief description is given of how some atmospheric general circulation models use spectral methods as ""horizontal coordinates"". Finally, some ""pen-and-paper"" theoretical exercises and a number of GFD computer exercises are given.
title basic-numerical-methods-in-meteorology-and-oceanography.pdf
spellingShingle basic-numerical-methods-in-meteorology-and-oceanography.pdf
title_short basic-numerical-methods-in-meteorology-and-oceanography.pdf
title_full basic-numerical-methods-in-meteorology-and-oceanography.pdf
title_fullStr basic-numerical-methods-in-meteorology-and-oceanography.pdf
title_full_unstemmed basic-numerical-methods-in-meteorology-and-oceanography.pdf
title_sort basic-numerical-methods-in-meteorology-and-oceanography.pdf
publisher Stockholm University Press
publishDate 2023
url https://doi.org/10.16993/bbs
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