The Cell Method for Electrical Engineering and Multiphysics Problems An Introduction

This book describes the main components of the cell method technique: space-time discretization, problem formulation, solution and representation of the resulting physical fields. Offers solved problems in electromagnetism, elasticity and thermo-elasticity.

Uloženo v:

Podrobná bibliografie
Hlavní autor:	Alotto, Piergiorgio
Médium:	E-kniha
Jazyk:	angličtina
Vydáno:	Berlin, Heidelberg Springer Nature 2013 Springer Berlin / Heidelberg Springer Berlin Heidelberg Springer
Vydání:	1
Edice:	Lecture Notes in Electrical Engineering
Témata:	Electrical Engineering Engineering Engineering & allied operations Engineering mathematics Mathematical and Computational Engineering Mathematical physics Numerical and Computational Physics, Simulation
ISBN:	9783642361012, 3642361013, 3642434509, 9783642434501, 3642361005, 9783642361005
ISSN:	1876-1100, 1876-1119
On-line přístup:	Získat plný text
Tagy:	Přidat tag Žádné tagy, Buďte první, kdo vytvoří štítek k tomuto záznamu!

Obsah:

Title Page -- Preface -- Contents -- Tonti Diagrams -- Classification of the Physical Variables -- Local and Global Variables -- Cell Complexes -- Variables and Orientation -- A Note on Time -- Tonti Diagrams -- References -- Topological Equations -- The Numerical Scheme -- Cell Complexes -- Basic Definitions of Algebraic Topology and Cell Complexes -- Coboundary Process -- Topological Equations -- Incidence Numbers and Incidence Matrices -- The Cell Method for Stationary Heat Conduction -- A Note for Practitioners -- Links with Other Numerical Methods -- References -- Constitutive Equations -- Introduction -- Example of a Constitutive Equation for a Simple Problem -- Constitutive Equations for Orthogonal Grids -- Case 1 -- Case 2 -- Constitutive Matrix Set-Up -- Constitutive Equations on Tetrahedral Grids -- Uniform Field -- Non-uniform Field -- Whitney Interpolation -- Thermal Mass Matrix -- Boundary Conditions -- References -- Classical Physical Problems -- Electrostatics and Electric Current Flow -- Magnetostatics -- Sources of the Magnetostatic Field -- TEAM Problem 20 -- Force Computation -- Elastostatics -- Elastostatics Definition -- Finite Formulation of Elastostatics -- Application of Elastostatic Formulation -- Thermal Transient -- Elastodynamics -- Eigenmode Analysis -- References -- Multiphysics Problems -- Coupled Problems -- Electro-thermo-mechanical Coupling -- Electro-thermal Coupling Term -- Thermo-mechanical Coupling Term -- Complete System of Equations -- Example: MEMS Microbeam -- Induction Heating -- Eddy Current Numerical Formulation -- Unstationary Thermal Problem -- Test Case: Heating Inductor -- Thermo-mechanical Coupling -- Thermal Model -- Structural Model -- References -- Implementation -- Development Environment -- Anatomy of the Code -- Phase 1: Data Structures -- Phase 2: Material Properties
Phase 3: Constitutive and Stiffness Matrices -- Phase 4: Sources -- Phase 5: Boundary Conditions -- Phase 6: Solution -- 6.9 Phase 7: Plotting Maps -- Example -- Discussion -- References