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Book Categories |
Preface | ||
Nomenclature | ||
1 | Basic Concepts and Technologies | 1 |
1.1 | New Flow Regimes in MEMS | 1 |
1.2 | The Continuum Hypothesis | 7 |
1.3 | The Pioneers | 21 |
1.4 | Full-System Simulation of MEMS | 24 |
1.5 | Modeling of Micro Flows | 31 |
2 | Governing Equations and Slip Models | 39 |
2.1 | The Basic Equations of Fluid Dynamics | 39 |
2.2 | Compressible Flow | 45 |
2.3 | High-Order Models | 53 |
3 | Shear-Driven and Separated Micro Flows | 63 |
3.1 | Couette Flow | 63 |
3.2 | Cavity Flow | 67 |
3.3 | Grooved Channel Flow | 68 |
3.4 | Separated Internal Flows | 71 |
3.5 | Separated External Flows | 83 |
4 | Pressure-Driven Micro Flows: Slip Flow Regime | 87 |
4.1 | Isothermal Compressible Flows | 87 |
4.2 | Adiabatic Compressible Flows - Fanno Theory | 95 |
4.3 | Inlet Flows | 101 |
4.4 | Validation of Slip Models with DSMC | 102 |
4.5 | Effects of Roughness | 108 |
5 | Pressure-Driven Micro Flows: Transition and Free-Molecular Regimes | 113 |
5.1 | Transition and Free-Molecular Flow Regimes | 113 |
5.2 | Burnett Equations in Micro Channels | 117 |
5.3 | A Unified Flow Model | 119 |
6 | Thermal Effects in Micro Scales | 139 |
6.1 | Thermal Creep (Transpiration) | 139 |
6.2 | Heat Transfer in Micro Poiseuille Flows | 151 |
6.3 | Heat Transfer in Micro Couette Flows | 158 |
7 | Prototype Applications of Gas Micro Flows | 163 |
7.1 | Gas Damping and Dynamic Response of MEMS | 163 |
7.2 | Micro Propulsion and Micro Nozzle Flows | 178 |
8 | Electrokinetically Driven Liquid Micro Flows | 193 |
8.1 | Electrokinetic Effects - Review | 194 |
8.2 | The Electric Double Layer | 195 |
8.3 | Near-Wall Potential Distribution | 197 |
8.4 | Governing Equations for Electroosmotic Flows | 199 |
8.5 | Electrokinetic Micro Channel Flows | 202 |
8.6 | EDL/Bulk Flow Interface Velocity Matching Condition | 207 |
8.7 | Electroosmotic Slip Condition | 208 |
8.8 | Complex Geometry Flows | 210 |
8.9 | Dielectrophoresis | 215 |
9 | Numerical Methods for Continuum Simulation | 223 |
9.1 | A High-Order Numerical Method: The [mu]Flow Code | 224 |
9.2 | A Meshless Numerical Method | 239 |
9.3 | The Force Coupling Method for Particulate Micro Flows | 246 |
10 | Numerical Methods for Atomistic Simulation | 257 |
10.1 | Molecular Dynamics (MD) Method | 257 |
10.2 | Direct Simulation Monte Carlo (DSMC) Method | 266 |
10.3 | The Boltzmann Equation | 279 |
10.4 | Lattice-Boltzmann Method (LBM) | 303 |
Bibliography | 311 | |
Index | 335 |
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Add Micro Flows : Fundamentals and Simulation, This monograph focusing on gas flows addresses mostly theoretical issues and develops semi-analytical models as well as numerical methods for stimulating micro flows. It is appropriate for researchers in fluid mechanics interested in this new flow field a, Micro Flows : Fundamentals and Simulation to the inventory that you are selling on WonderClubX
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Add Micro Flows : Fundamentals and Simulation, This monograph focusing on gas flows addresses mostly theoretical issues and develops semi-analytical models as well as numerical methods for stimulating micro flows. It is appropriate for researchers in fluid mechanics interested in this new flow field a, Micro Flows : Fundamentals and Simulation to your collection on WonderClub |