Zudin, Yuri B.
Non-equilibrium Evaporation and Condensation Processes Analytical Solutions / [electronic resource] : by Yuri B. Zudin. - 3rd ed. 2021. - XXIV, 558 p. 153 illus., 1 illus. in color. online resource. - Mathematical Engineering, 2192-4740 . - Mathematical Engineering, .
Introduction to the Problem -- Nonequilibrium Effects on the Phase Interface -- Approximate Kinetic Analysis of Strong Evaporation -- Semi-Empirical Model of Strong Evaporation -- Approximate Kinetic Analysis of Strong Condensation -- Linear Kinetic Analysis of Evaporation and Condensation -- Binary Schemes of Vapor Bubble Growth -- Pressure Blocking Effect in a Growing Vapor Bubble -- Evaporating Meniscus on the Interface of Three Phases -- Inetic Molecular Effects with Spheroidal State -- Solution of Special Problems of Film Condensation -- Nucleate Pool Boiling -- Heat Transfer in Superfluid Helium -- Pseudo-Boiling -- Bubble Rising in a Liquid -- Bubbles Dynamics in Liquid -- Heat Transfer to a Disperse Two-Phase Flow -- Thermal-Hydraulic Stability Analysis of Supercritical Fluid -- Heat Transfer in a Pebble Bed.
This present book is concerned with analytical approaches to statement and solution of problems of non-equilibrium evaporation and condensation. From analytical solutions, one is capable to understand and represent in a transparent form the principal laws, especially in the study of a new phenomenon or a process. This is why analytical methods are always employed on the first stage of mathematical modeling. Analytical solutions are also used as test models for validation of results numerical solutions. Non-equilibrium evaporation and condensation processes play an important role in a number of fundamental and applied problems: laser methods for processing of materials, depressurization of the protection cover of nuclear propulsion units, solar radiation on a comet surface, explosive boiling of superheated liquid, thermodynamic principles of superfluid helium. Analytical relations provide an adequate description of the essence of a physical phenomenon. .
9783030675530
10.1007/978-3-030-67553-0 doi
Engineering mathematics.
Mechanics, Applied.
Solids.
Engineering Mathematics.
Solid Mechanics.
TA329-348
620.00151
Non-equilibrium Evaporation and Condensation Processes Analytical Solutions / [electronic resource] : by Yuri B. Zudin. - 3rd ed. 2021. - XXIV, 558 p. 153 illus., 1 illus. in color. online resource. - Mathematical Engineering, 2192-4740 . - Mathematical Engineering, .
Introduction to the Problem -- Nonequilibrium Effects on the Phase Interface -- Approximate Kinetic Analysis of Strong Evaporation -- Semi-Empirical Model of Strong Evaporation -- Approximate Kinetic Analysis of Strong Condensation -- Linear Kinetic Analysis of Evaporation and Condensation -- Binary Schemes of Vapor Bubble Growth -- Pressure Blocking Effect in a Growing Vapor Bubble -- Evaporating Meniscus on the Interface of Three Phases -- Inetic Molecular Effects with Spheroidal State -- Solution of Special Problems of Film Condensation -- Nucleate Pool Boiling -- Heat Transfer in Superfluid Helium -- Pseudo-Boiling -- Bubble Rising in a Liquid -- Bubbles Dynamics in Liquid -- Heat Transfer to a Disperse Two-Phase Flow -- Thermal-Hydraulic Stability Analysis of Supercritical Fluid -- Heat Transfer in a Pebble Bed.
This present book is concerned with analytical approaches to statement and solution of problems of non-equilibrium evaporation and condensation. From analytical solutions, one is capable to understand and represent in a transparent form the principal laws, especially in the study of a new phenomenon or a process. This is why analytical methods are always employed on the first stage of mathematical modeling. Analytical solutions are also used as test models for validation of results numerical solutions. Non-equilibrium evaporation and condensation processes play an important role in a number of fundamental and applied problems: laser methods for processing of materials, depressurization of the protection cover of nuclear propulsion units, solar radiation on a comet surface, explosive boiling of superheated liquid, thermodynamic principles of superfluid helium. Analytical relations provide an adequate description of the essence of a physical phenomenon. .
9783030675530
10.1007/978-3-030-67553-0 doi
Engineering mathematics.
Mechanics, Applied.
Solids.
Engineering Mathematics.
Solid Mechanics.
TA329-348
620.00151