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This monograph presents a systematic analysis of bubble system
mathematics, using the mechanics of two-phase systems in
non-equilibrium as the scope of analysis. The author introduces the
thermodynamic foundations of bubble systems, ranging from the
fundamental starting points to current research challenges. This
book addresses a range of topics, including description methods of
multi-phase systems, boundary and initial conditions as well as
coupling requirements at the phase boundary. Moreover, it presents
a detailed study of the basic problems of bubble dynamics in a
liquid mass: growth (dynamically and thermally controlled),
collapse, bubble pulsations, bubble rise and breakup. Special
emphasis is placed on bubble dynamics in turbulent flows. The
analysis results are used to write integral equations governing the
rate of vapor generation (condensation) in non-equilibrium flows,
thus creating a basis for solving a number of practical problems.
This book is the first to present a comprehensive theory of boiling
shock with applications to problems of critical discharge and
flashing under the fast decompression conditions. Reynolds' analogy
was the key to solving a number of problems in subcooled
forced-flow boiling, the theoretical results of which led to
easy-to-use design formulas. This book is primarily aimed at
graduate and post-graduate students specializing in hydrodynamics
or heat and mass transfer, as well as research expert focused on
two-phase flow. It will also serve as a comprehensive reference
book for designers working in the field of power and aerospace
technology.
This monograph presents a systematic analysis of bubble system
mathematics, using the mechanics of two-phase systems in
non-equilibrium as the scope of analysis. The author introduces the
thermodynamic foundations of bubble systems, ranging from the
fundamental starting points to current research challenges. This
book addresses a range of topics, including description methods of
multi-phase systems, boundary and initial conditions as well as
coupling requirements at the phase boundary. Moreover, it presents
a detailed study of the basic problems of bubble dynamics in a
liquid mass: growth (dynamically and thermally controlled),
collapse, bubble pulsations, bubble rise and breakup. Special
emphasis is placed on bubble dynamics in turbulent flows. The
analysis results are used to write integral equations governing the
rate of vapor generation (condensation) in non-equilibrium flows,
thus creating a basis for solving a number of practical problems.
This book is the first to present a comprehensive theory of boiling
shock with applications to problems of critical discharge and
flashing under the fast decompression conditions. Reynolds' analogy
was the key to solving a number of problems in subcooled
forced-flow boiling, the theoretical results of which led to
easy-to-use design formulas. This book is primarily aimed at
graduate and post-graduate students specializing in hydrodynamics
or heat and mass transfer, as well as research expert focused on
two-phase flow. It will also serve as a comprehensive reference
book for designers working in the field of power and aerospace
technology.
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