Alekseenko S.V., Nakoryakov V.E., Pokusaev B.G. Wave Flow of Liquid Films (New York: Begell House, 1994) - ОГЛАВЛЕНИЕ / CONTENTS
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В.Е.Накоряков
Alekseenko S.V., Nakoryakov V.E., Pokusaev B.G.
Wave Flow of Liquid Films
(New York: Begell House, 1994. - 313 p.)
 
   Оглавление / ContentsИсточник / Source

 PREFACE ........................................................ VI
 NOMENCLATURE .................................................. VII

 1. INTRODUCTION ................................................. 1
    1.1. Basic Concepts .......................................... 1
    1.2. Waves ................................................... 2
    1.3. Dimensionless Parameters ................................ 3
    1.4. Film Application ........................................ 5
    1.5. Flow Regimes ............................................ 7

 2. EXPERIMENTAL SETUPS ......................................... 17

 3. METHODS FOR LOCAL MEASUREMENTS
    OF HYDRODYNAMIC PARAMETERS .................................. 21
    3.1. Measurements of Local Film Thickness ................... 21
    3.2. Measurements of Local Velocities ....................... 29
    3.3. Measurements of Local Shear Stress ..................... 36

 4. MOMENTUM TRANSFER ........................................... 39
    4.1. General System of Equations ............................ 39
    4.2. Momentum Equation ...................................... 42
	
 5. HYDRODYNAMICS OF LAMINAR
    AND TURBULENT LIQUID FILMS .................................. 45
    5.1. Steady-State Laminar Film Flow on a Smooth Plate ....... 45
    5.2. Steady-State Turbulent Film Flow on a Smooth Plate ..... 47
    5.3. Initial Region ......................................... 48
    5.4. Film Flow along Geometrically Complex Surfaces ......... 53
    5.5. Nonstationary Flow ..................................... 60

 6. WAVE MOTION MODELLING ....................................... 63
    6.1.  Capillary-Gravitational Waves ......................... 63
    6.2.  Kinematic waves ....................................... 68
    6.3.  Boussinesq and Korteweg-de Vries Equations ............ 72
    6.4.  Burgers and Korteweg-de Vries - Burgers Equations ..... 77
    6.5.  Flow Stability. Orr-Sommerfeld Equation ............... 82
    6.6.  Rayleigh - Taylor Instability ......................... 87
    6.7.  Kelvin - Helmholz Instability ......................... 90
    6.8.  Equations for Long Two-Dimensional Waves on a
          Film at Re ∼ 1 ........................................ 94
    6.9.  Equation for Long Three-Dimensional Weakly
          Nonlinear Waves on a Film with Re ∼ 1 ................ 106
    6.10. Equations for Long Two-Dimensional Waves on a Film
          in the Range of Moderate Re .......................... 110
    6.11. Two-Wave Equation .................................... 117
    6.12. Equations for Three-Dimensional Waves on a Film
          at Moderate Re ....................................... 145

 7. WAVE IN THE REGION OF THEIR INCEPTION ...................... 153

 8. TWO-DIMENSIONAL PERIODIC STATIONARY WAVES .................. 161
    8.1. Natural Waves ......................................... 161
    8.2. Excited Waves ......................................... 168
    8.3. Theoretical Description of Two-Dimensional
         Stationary Waves ...................................... 183
    8.4. Instantaneous Velocity Profile ........................ 195

 9. EVOLUTION OF SOLITARY TWO-DIMENSIONAL PERTURBATIONS ........ 201
    9.1. "Steps" ............................................... 201
    9.2. Localized Perturbations ............................... 204

 10. THREE-DIMENSIONAL WAVES ................................... 215
     10.1. Three-Dimensional Travelling Waves .................. 215
     10.2. Three-Dimensional Standing Waves .................... 218

 11. STATISTIC CHARACTERISTICS OF WAVE
     AND TURBULENT LIQUID FILMS ................................ 231

 12. WAVES AT A "LIQUID FILM - LIQUID" INTERFACE ............... 237

 13. WAVE EFFECT ON TRANSFER PROCESSES ......................... 245
     13.1. Absorption of Dilute Gas ............................ 246
     13.2. Mass Transfer from the Wall ......................... 264
     13.3. Nonisothermal Absorption ............................ 266
     13.4. Heat Transfer of Liquid Film with a Solid Surface ... 270
     13.5. Evaporation and Condensation ........................ 273

 14. FILM FLOW FORMATION AT IMPINGEMENT
     OF LIQUID JET ON A BARRIER ................................ 279
     14.1. Hydrodynamics of an Axisymmetric Film.
           Hydraulic Jump ...................................... 280
     14.2. Mass Transfer Between Wall and Liquid Jet ........... 290

 REFERENCES .................................................... 297


Alekseenko S.V. Wave Flow... (New York, 1994)
   The main goal of the book is generalization of the existing knowledges of the wavy flow of falling thin liquid films and transfer processes in wave regimes. The methods of local measurements of hydrodynamic parameters have been analyzed. The theoretical models of wave motion taking into account non-linearity, non-stationarity, dispersion, multi-wave character and other effects have been stated. The waves of different types, including solitons, have been described theoretically and experimentally. The influence of waves on the transfer processes through the interface has been demonstrated. The mechanisms of heat and mass transfer enhancement in wave films have been analyzed.

вверхAlekseenko S.V. Wave Flow of Liquid Films / Alekseenko S.V., Nakoryakov V.E., Pokusaev B.G. - New York: Begell House, 1994. - 313 p. - Bibliogr.: p.297-313.
 
Шифр: В365-A.33 ИТФ
 

Научные школы ННЦ В.Е.Накоряков | Указатель трудовПодготовили Анастасия Болдырева и Сергей Канн  
 


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