Sirignano W.A. Fluid dynamics and transport of droplets and sprays. - 2nd ed. - Cambridge: Cambridge University Press, 2010. - xviii, 462 p.: ill. - Bibliogr.: p.427-459. - Ind.: p.460-462. - ISBN 978-0-521-88489-1  Место хранения:   015 | Библиотека Института гидродинамики CO РАН | Новосибирск

Оглавление / Contents

Preface ........................................................ xi Nomenclature .................................................. xiv 1 Introduction ................................................. 1 1.1 Overview ................................................ 1 1.2 Droplet-Size Determination .............................. 4 2 Isolated Spherically Symmetric Droplet Vaporization and Heating ...................................................... 8 2.1 Theory of Spherically Symmetric Droplet Vaporization and Heating ............................................ 11 2.1.1 Gas-Phase Analysis .............................. 12 2.1.2 Liquid-Phase Analysis ........................... 19 2.1.3 Chemical Reaction ............................... 24 2.2 Radiative Heating of Droplets .......................... 26 3 Convective Droplet Vaporization, Heating, and Acceleration ................................................ 30 3.1 Convective Droplet Vaporization ........................ 31 3.1.1 Evaluation of Reynolds Number Magnitude ......... 33 3.1.2 Physical Description ............................ 35 3.1.3 Approximate Analyses for Gas-Phase Boundary Layer ........................................... 40 3.1.4 Approximate Analyses for Liquid-Phase Flows ..... 47 3.1.5 Droplet Drag Coefficients ....................... 56 3.1.6 Results from Approximate Analyses ............... 57 3.1.7 Exact Analyses for Gas-Phase and Liquid-Phase Flows ........................................... 64 3.1.8 Free Convection ................................. 71 3.2 Low Reynolds Number Behavior ........................... 73 3.3 Droplet Vaporization in an Oscillating Gas ........ 76 3.4 Individual Droplet Behavior in an Unsteady Flow ... 79 4 Multicomponent-Liquid Droplets .............................. 90 4.1 Spherically Symmetric Diffusion ....................... 93 4.1.1 Continuous-Thermodynamics Models ................ 97 4.2 Liquid-Phase Mass Diffusion with Convective Transport .............................................. 98 4.2.1 Approximate Analyses ............................ 98 4.2.2 Exact Analyses ................................. 106 4.3 Metal-Slurry Droplet Vaporization and Combustion ...... 107 4.3.1 Burning of a Fuel Droplet Containing a Single Metal Particle ................................. 108 4.3.2 Liquid Vaporization from Fine-Metal-Slurry Droplets ....................................... 116 4.3.3 Metal-Particle Combustion with Oxide Condensation ................................... 129 4.4 Emulsified-Fuel-Droplet Vaporization and Burning ...... 130 5 Droplet Behavior under Near-Critical, Transcritical, and Supercritical Conditions ................................... 134 5.1 High-Pressure Droplet Behavior in a Quiescent Environment ........................................... 136 5.2 Convective Effects and Secondary Atomization .......... 143 5.3 Molecular-Dynamics Simulation of Transcritical Droplet Vaporization .................................. 147 6 Droplet Arrays and Groups .................................. 150 6.1 Heating and Vaporization of Droplet Arrays ............ 153 6.2 Group Vaporization and Combustion ..................... 165 6.3 Generalized Theory for Droplet-Array Vaporization and Burning ........................................... 168 6.3.1 Basic Formulation .............................. 168 6.3.2 Analysis of Vaporization Without Combustion .... 170 6.3.3 Combustion Analysis ............................ 173 6.3.4 Array Combustion with Nonunitary Lewis Number ......................................... 179 6.3.5 Array Vaporization with Multicomponent Liquids ........................................ 189 6.4 Droplet Collisions .................................... 192 6.4.1 Droplet-Droplet Collisions ..................... 193 6.4.2 Droplet-Wall Collisions ........................ 196 7 Spray Equations ............................................ 199 7.1 Averaging Process for Two-Continua Formulations ....... 200 7.1.1 Averaging of Dependent Variables ............... 204 7.1.2 Averaging of Derivatives ....................... 207 7.1.3 Averaged Gas-Phase Equations ................... 210 7.1.4 Averaged Vorticity and Entropy ................. 214 7.1.5 Averaged Liquid-Phase Partial Differential Equations ...................................... 216 7.1.6 Averaged Liquid-Phase Lagrangian Equations ..... 218 7.1.7 The Microstructure ............................. 220 7.2 Two-Continua and Multicontinua Formulations ........... 223 7.2.1 Continuity Equations ........................... 223 7.2.2 Momentum Conservation .......................... 226 7.2.3 Energy Conservation ............................ 228 7.2.4 Hyperbolic Character of Liquid-Phase Equations ...................................... 230 7.2.5 Subgrid Models for Heat, Mass, and Momentum Exchange ....................................... 232 7.3 Discrete-Particle Formulation ......................... 233 7.4 Probabilistic Formulation ............................. 234 8 Computational Issues ....................................... 237 8.1 Efficient Algorithms for Droplet Computations ......... 237 8.2 Numerical Schemes and Optimization for Spray Computations .......................................... 245 8.2.1 Two-Phase Laminar Axisymmetriс Jet Flow ........ 246 8.2.2 Axisymmetric Unsteady Sprays ................... 255 8.2.3 Solution for Pressure .......................... 269 8.3 Point-Source Approximation in Spray Calculations ...... 269 9 Spray Applications ......................................... 285 9.1 Spherically Symmetric Spray Phenomena ................. 287 9.2 Counterflow Spray Flows ............................... 289 9.3 One-Dimensional Planar Spray Ignition and Flame Propagation ........................................... 296 9.4 Vaporization and Combustion of Droplet Streams ........ 301 9.5 Flame Propagation Through Metal-Slurry Sprays ......... 305 9.6 Liquid-Fueled Combustion Instability .................. 308 9.7 Spray Behavior in Near-Critical and Supercritical Domains ............................................... 310 9.8 Influence of Supercritical Droplet Behavior on Combustion Instability ................................ 311 10 Spray Interactions with Turbulence and Vortical Structures ................................................. 314 10.1 Vortex-Spray Interactions ............................. 318 10.2 Time-Averaged Turbulence Models ....................... 321 10.3 Direct Numerical Simulation ........................... 324 10.4 Large-Eddy Simulations ................................ 329 10.4.1 Proper Two-Way Coupling for LES Closure ........ 332 10.4.2 Gas-Phase Equations ............................ 333 10.4.3 Liquid-Phase Equations ......................... 335 10.4.4 Vortex-Droplet Interactions .................... 336 11 Film Vaporization .......................................... 340 11.1 Introduction .......................................... 340 11.2 Miniature Film-Combustor Concept ...................... 342 11.3 Analysis of Liquid-Film Combustor ..................... 347 11.3.1 Assumptions and Governing Equations ............ 348 11.3.2 Liquid-Phase Thermal Analysis .................. 349 11.3.3 Fluid-Dynamics Analysis ........................ 350 11.3.4 Scalar Analysis ................................ 351 11.3.5 Results ........................................ 354 11.4 Concluding Remarks .................................... 360 12 Stability of Liquid Streams ................................ 361 12.1 Introduction .......................................... 361 12.2 Formulation of Governing Equations .................... 364 12.3 Round Jet Analyses .................................... 366 12.3.1 Temporal Stability Analysis .................... 367 12.3.2 Surface Energy ................................. 368 12.3.1 Spatial Stability Analysis ..................... 370 12.3.4 Nonlinear Effects .............................. 371 12.3.5 Viscous Effects ................................ 376 12.3.6 Cavitation ..................................... 376 12.4 Planar Sheet Analyses ................................. 381 12.4.1 Linear Theory .................................. 381 12.4.2 Fan Sheets ..................................... 385 12.4.3 Nonlinear Theory ............................... 385 12.5 Annular Free Films .................................... 396 12.5.1 Linear Theory .................................. 397 12.5.2 Nonlinear Theory ............................... 399 12.5.3 Effect of Swirl ................................ 401 12.6 "Conical" Free Films .................................. 402 12.7 Concluding Remarks .................................... 406 Appendix A The Field Equations ............................... 409 Appendix В Conserved Scalars ................................. 415 Appendix С Droplet-Model Summary ............................. 422 Bibliography .................................................. 427 Index ......................................................... 460