Theory of Periodic Conjugate Heat Transfer
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Beschreibung
An original method of investigation of the conjugate conductive-convective problem of periodic heat transfer is developed. The novelty of the approach is that a particular conjugate problem is replaced by a general boundary-value problem for the heat conduction equation in the solid. Within the framework of the hyperbolic model of thermal conductivity, the effect of self-reinforcement of the degree of conjugation by increasing the period of oscillations is found. The processes of hydrodynamics and heat exchange with periodic internal structure are considered: periodic model of turbulent heat transfer, hydrodynamic instability, bubbles dynamics in liquid, and model of evaporating meniscus. The book is intended as a source and reference work for researchers and graduate students interested in the field of conjugate heat transfer.
An original method of investigation of the conjugate conductive-convective problem of periodic heat transfer is developed. The novelty of the approach is that a particular conjugate problem is replaced by a general boundary-value problem for the heat conduction equation in the solid. Within the framework of the hyperbolic model of thermal conductivity, the effect of self-reinforcement of the degree of conjugation by increasing the period of oscillations is found. The processes of hydrodynamics and heat exchange with periodic internal structure are considered: periodic model of turbulent heat transfer, hydrodynamic instability, bubbles dynamics in liquid, and model of evaporating meniscus. The book is intended as a source and reference work for researchers and graduate students interested in the field of conjugate heat transfer.
Investigates the relationship between the true and standard averaging of the heat transfer coefficient Provides a concise theoretical approach to the theory of periodic conjugate heat transfer Approaches the interaction between a solid body and a fluid as a boundary-value problem
Autor*in
Yuri B. Zudin
Themen in »Theory of Periodic Conjugate Heat Transfer«
Heat Transfer Processes Containing Periodic Oscillations Correct Averaging the Heat Transfer Coefficients Spatial and Temporal Types of Oscillations Comparative Analysis of the Conjugation Effects Efficiency Algorithm of Computation of the Factor of Conjugation Generalized Parameter of the Thermal Effect Overall Averaged True Heat Transfer Coefficient Wall Thermal Effect on Hydrodynamic Flow Stability Scenario of Evolution of the Density Wave Instability Landau Instability at Liquid Film Evaporation Hyperbolic Heat Conduction Equation Bubbles Dynamics in Continuous Media Quantum-Mechanical Model of Homogeneous Nucleation Thermally Controlled Vapor-Bubble Growth in a Superheated Liquid Drops Dynamics in Continuous Media
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“Each chapter is uniquely designed and presents a wealth of information, making it a valuable resource for scientists, researchers, and graduate students in the field of thermal sciences. It is well suited for university and R&D institution libraries.” (Kedar N. Shukla, zbMATH 1535.80002, 2024)
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