Homogenization of Coupled Phenomena in Heterogenou Heterogenous Media
Samenvatting
Both naturally–occurring and man–made materials are often heterogeneous materials formed of various constituents with different properties and behaviours. Studies are usually carried out on volumes of materials that contain a large number of heterogeneities. Describing these media by using appropriate mathematical models to describe each constituent turns out to be an intractable problem. Instead they are generally investigated by using an equivalent macroscopic description – relative to the microscopic heterogeneity scale – which describes the overall behaviour of the media.
Fundamental questions then arise: Is such an equivalent macroscopic description possible? What is the domain of validity of this macroscopic description? The homogenization technique provides complete and rigorous answers to these questions.
This book aims to summarize the homogenization technique and its contribution to engineering sciences. Researchers, graduate students and engineers will find here a unified and concise presentation.
The book is divided into four parts whose main topics are
Introduction to the homogenization technique for periodic or random media, with emphasis on the physics involved in the mathematical process and the applications to real materials.
Heat and mass transfers in porous media
Newtonian fluid flow in rigid porous media under different regimes
Quasi–statics and dynamics of saturated deformable porous media
Each part is illustrated by numerical or analytical applications as well as comparison with the self–consistent approach.
Specificaties
Inhoudsopgave
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<br />Introduction 21
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PART ONE. UPSCALING METHODS 27
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<br />Chapter 1. An Introduction to Upscaling Methods 29
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<br />Chapter 2. Heterogenous Medium: Is an Equivalent Macroscopic Description Possible? 55
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<br />Chapter 3. Homogenization by Multiple Scale Asymptotic Expansions 75
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PART TWO. HEAT AND MASS TRANSFER 107
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<br />Chapter 4. Heat Transfer in Composite Materials 109
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<br />Chapter 5. Diffusion/Advection in Porous Media 143
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<br />Chapter 6. Numerical and Analytical Estimates for the Effective Diffusion Coefficient 161
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PART THREE. NEWTONIAN FLUID FLOW THROUGH RIGID POROUS MEDIA 195
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<br />Chapter 7. Incompressible Newtonian Fluid Flow Through a Rigid Porous Medium 197
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<br />Chapter 8. Compressible Newtonian Fluid Flow Though a Rigid Porous Medium 229
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<br />Chapter 9. Numerical Estimation of the Permeability of Some Periodic Porous Media 257
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<br />Chapter 10. Self–consistent Estimates and Bounds for Permeability 275
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PART FOUR. SATURATED DEFORMABLE POROUS MEDIA 337
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<br />Chapter 11. Quasi–statics of Saturated Deformable Porous Media 339
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<br />Chapter 12. Dynamics of Saturated Deformable Porous Media 367
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<br />Chapter 13. Estimates and Bounds for Effective Poroelastic Coefficients 389
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<br />Chapter 14. Wave Propagation in Isotropic Saturated Poroelastic Media 407
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<br />Bibliography . 453
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<br />Index 473
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