ElectrohydrodynamicsAntonio Castellanos Springer, 4 мая 2014 г. - Всего страниц: 363 The aim of this book is to provide, both the non-specialist and the specialist in EHD, with the ability to extract meaningful information from his/her experimental data and acquire a good physical understanding, by applying the ideas presented in this book. In addition to providing the scientific background, it is also intended to take the reader to the frontiers of research in this field, so they may go, without effort, into the specialized literature. This book may be considered as complementary to the excellent treatment of EHD made in the classical book "Continuum Electromechanics” by Melcher, in that care has been taken to avoid overlapping of the subjects. In case a topic is treated in both texts, the results presented in the book by Melcher serve as an introduction to the more advanced treatment presented in this book. |
Содержание
1 | |
Chapter 2 Conduction and Polarization | 20 |
Mechanical Equations | 42 |
Chapter 4 The Temperature Equation | 62 |
42 | 69 |
PART II | 83 |
Chapter 8 Surface Waves and Instabilities | 134 |
Electrokinetic Pumping | 149 |
Chapter 14 Electrospray and Atomization | 206 |
165 | 231 |
Chapter 17 Unipolar Injection Induced Electroconvection | 242 |
Chapter 18 Instability and Convection | 262 |
PART V | 279 |
EHD GasLiquid TwoPhase Flow | 297 |
Chapter 21 EHD Gas Powder TwoPhase Flow | 319 |
329 | |
PART III | 163 |
Chapter 11 Space Charged Limited Currents | 174 |
EHD Enhanced Space Charge | 185 |
Chapter 22 EHD LiquidLiquidLiquidSolid Flow | 331 |
Chapter 23 EHD Heat Exchanger and Chemical Reactors | 349 |
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amplitude applied voltage Atten averaged bubble Castellanos cavity characteristic charge carriers charge density coefficient conductivity conservation equation constant convective cells Coulomb Coulomb force current density defined depends dielectric liquids dipole dissociation dominant droplet electric field electroconvection electrode electrohydrodynamic electromagnetic electrostatic enhancement equilibrium experimental f₁ flow rate flow regime fluid forced flow function gas-liquid Gosse heat flux heat transfer increase induced injector interface ionic Lacroix layer liquid velocity magnitude mass transfer Maxwell's equations mobility molecules motion n₁ Nusselt Nusselt number obtained ohmic parameter particles permittivity perturbations phase Phys polar liquids pressure drop problem pyralene ratio recombination Reynolds number SCL injection shown in Figure solution space charge steady surface t₁ temperature term thermal transient transition turbulent two-phase flow typical unipolar injection V₁ variation viscous volume weak injection