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This volume presents state-of-the-art of reviews in the field of multiphase flow. In focusses on nonlinear aspects of multiphase flow networks as well as visualization experiments. The first chapter presents nonlinear aspects or deterministic chaos issues in the systems of multi-phase reactors. The second chapter reviews two-phase flow dynamics in combination with complex network theory. The third chapter discusses evaporation mechanism in the wick of copper heat pipes. The last chapter investigates numerically the flow dynamics and heat and mass transfer in the laminar and turbulent boundary layer on the flat vertical plate.
Heat transfer enhancement in single-phase and two-phase flow heat exchangers in important in such industrial applications as power generating plant, process and chemical industry, heating, ventilation, air conditioning and refrigeration systems, and the cooling of electronic equipment. Energy savings are of primary importance in the design of such systems, leading to more efficient, environmentally friendly devices. This book provides invaluable information for such purposes.
This Brief concerns heat transfer and pressure drop in heat transfer enhancement for boiling and condensation. The authors divide their topic into six areas: abrasive treatment and coatings, combined structured and porous surfaces, basic principles of boiling mechanism, vapor space condensation, convective vaporization, and forced condensation inside tubes. Within this framework, the book examines range of specific phenomena including abrasive treatment, open grooves, 3D cavities, etched surfaces, electroplating, pierced 3D cover sheets, attached wire and screen promoters, non-wetting coatings, oxide and ceramic coatings, porous surfaces, structured surfaces (integral roughness), combined structured and porous surfaces, composite surfaces, single-tube pool boiling tests, theoretical fundamentals like liquid superheat, effect of cavity shape and contact angle on superheat, entrapment of vapor in cavities, nucleation at a surface cavity, effect of dissolved gases, bubble departure diameter, bubble dynamics, boiling hysteresis and orientation effects, basic principles of boiling mechanism, visualization and mechanism of boiling in subsurface tunnels, and Chien and Webb parametric boiling studies.
Heat Transfer Enhancement in Chemical Processes combines process technologies with heat exchange equipment to study heat transfer enhancement. The book provides guidance for the progress of process technologies and the application of enhanced heat transfer equipment. It analyzes the basic principles of heat transfer and summarizes the theories and methods of heat transfer enhancement, while also focusing on three representative processes in petrochemical industry, including oil refining, aromatics, and ethylene production. The book summarizes in a systematical way the practical application of heat transfer enhancement in the petrochemical industry, from the equipment components, the processes, and the whole plant. - Puts theory into practice, providing guidance for the application of scientific research achievements - Integrates process technologies with process intensification, providing guidance for process flow enhancement - Combines process with equipment, introducing heat transfer enhancement technologies suitable for different processes - Covers the oil refining unit, aromatics unit, the ethylene plant and its downstream units
Advances in Heat Transfer
It has long been recognised that thermal technologies must ensure the safety of food without compromising food quality.
Researchers, practitioners, instructors, and students all welcomed the first edition of Heat Exchangers: Selection, Rating, and Thermal Design for gathering into one place the essence of the information they need-information formerly scattered throughout the literature. While retaining the basic objectives and popular features of the bestselling fi
Fundamentals of Heat Exchanger Design A cutting-edge update to the most essential single-volume resource on the market Heat exchangers are thermal devices which transfer heat between two or more fluids. They are integral to energy, automotive, aerospace, and myriad other technologies. The design and implementation of heat exchangers is an essential skill for engineers looking to contribute to a huge range of applications. Fundamentals of Heat Exchanger Design, Second Edition provides a comprehensive insight into the design and performance of heat exchangers. After introducing the basic heat transfer concepts and parameters, an overview of design methodologies is discussed. Subsequently, details of design theory of various types of exchangers are presented. The first edition established itself as the standard single-volume text on the subject. The second edition preserves an established in-depth approach but reflects some new technological developments related to design for manufacturing compact heat exchangers, including novel 3-D printing approaches to heat exchanger design. Readers of the second edition of Fundamentals of Heat Exchanger Design will also find: A new section on the design for manufacturing of compact heat exchangers A new section on design for additive manufacturing compact heat exchangers Detailed discussions of the design of recuperators and regenerators, pressure drop analysis, geometric parameters, heat transfer correlations, and more Fundamentals of Heat Exchanger Design is ideal for practicing engineers, as well as for advanced undergraduate and graduate students in mechanical and aerospace engineering, energy engineering, and related subjects.
The drive to minimize capital investment and improve the energy efficiency of process industry plants has led to a reassessment of the desirability and practicality of incorporating compact heat exchangers (CHEs) and heat transfer enhancement technology into process plants. This volume collects papers presented at the International Conference on Compact Heat Exchangers for the Process Industries, whose objectives were to exploit the existing forms of the CHEs and enhancement technology with their potential use and benefits, to identify new forms of the CHEs and enhancement technology, and to identify and discuss barriers and critical issues preventing the broader use of CHEs and enhancement technology.
Comprehensive and unique source integrates the material usually distributed among a half a dozen sources. * Presents a unified approach to modeling of new designs and develops the skills for complex engineering analysis. * Provides industrial insight to the applications of the basic theory developed.