Single- and Two-Phase Flow Pressure Drop and Heat Transfer in Tubes: Mechanical Engineering Series
Autor Afshin J. Ghajaren Limba Engleză Hardback – 12 ian 2022
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Specificații
ISBN-13: 9783030872809
ISBN-10: 3030872807
Pagini: 280
Ilustrații: XXIV, 280 p. 131 illus., 54 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.64 kg
Ediția:1st ed. 2022
Editura: Springer International Publishing
Colecția Springer
Seria Mechanical Engineering Series
Locul publicării:Cham, Switzerland
ISBN-10: 3030872807
Pagini: 280
Ilustrații: XXIV, 280 p. 131 illus., 54 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.64 kg
Ediția:1st ed. 2022
Editura: Springer International Publishing
Colecția Springer
Seria Mechanical Engineering Series
Locul publicării:Cham, Switzerland
Cuprins
Introduction.- Single-Phase Flow Experimental Setup .- Friction Factor Results in Plain Tube.- Proposed Correlations for Friction Factor in Plain Tube.- Heat Transfer Results in Plain Tube.- Proposed Correlations for Heat Transfer in Plain Tube.- Simultaneous Heat Transfer and Friction Factor Analysis.- Friction Factor Results in Micro-fin Tubes.- Proposed Correlations for Friction Factor in Micro-fin Tubes.- Heat Transfer Results in Micro-fin Tubes.- Proposed Correlations for Heat Transfer in Micro-fin Tubes.
Notă biografică
Afshin J. Ghajar is Regents Professor and John Brammer Professor in the School of Mechanical Engineering and Aerospace Engineering at Oklahoma State University. He is a Fellow of the American Society of Mechanical Engineers (ASME) and the American Society of Thermal and Fluids Engineers (ASTFE). He is a Registered Professional Engineer in the State of Oklahoma.
Professor Ghajar has received countless teaching/service awards, such as the 75th Anniversary Medal of the ASME Heat Transfer Division, the ASME ICNMM Outstanding Leadership Award, and the Donald Q. Kern Award, among others.
Professor Ghajar’s research work has resulted in over 250 publications including professional journals, reports, books, peer-reviewed conference papers or symposium proceedings. His research achievements have also been documented by a large number of presentations as well keynote and invited lectures all over the world. As of 2021, his research hasbeen cited more than 8000 times.
Professor Ghajar has received countless teaching/service awards, such as the 75th Anniversary Medal of the ASME Heat Transfer Division, the ASME ICNMM Outstanding Leadership Award, and the Donald Q. Kern Award, among others.
Professor Ghajar’s research work has resulted in over 250 publications including professional journals, reports, books, peer-reviewed conference papers or symposium proceedings. His research achievements have also been documented by a large number of presentations as well keynote and invited lectures all over the world. As of 2021, his research hasbeen cited more than 8000 times.
Textul de pe ultima copertă
Part I of this book provides design engineers an elemental understanding of the variables that influence pressure drop and heat transfer in plain and micro-fin tubes to thermal systems using liquid single-phase flow in different industrial applications. The author and his colleagues were the first to determine experimentally the very important relationship between inlet geometry and transition. On the basis of their results, they developed practical and easy to use correlations for the isothermal and non-isothermal friction factor (pressure drop) and heat transfer coefficient (Nusselt number) in the transition region as well as the laminar and turbulent flow regions for different inlet configurations and fin geometry. The work presented in Part I of the book provides the thermal systems design engineer the necessary design tools.
Part II of this book provides design engineers using gas-liquid two-phase flow in different industrial applications the necessary fundamental understanding of the two-phase flow variables. Two-phase flow literature reports a plethora of correlations for determination of flow patterns, void fraction, two- phase pressure drop and non-boiling heat transfer correlations. However, the validity of a majority of these correlations is restricted over a narrow range of two-phase flow conditions. Consequently, it is quite a challenging task for the end user to select an appropriate correlation/model for the type of two-phase flow under consideration. Selection of a correct correlation also requires some fundamental understanding of the two-phase flow physics and the underlying principles/assumptions/limitations associated with these correlations. Thus, it is of significant interest for a design engineer to have knowledge of the flow patterns and their transitions and their influence on two-phase flow variables. To address some of these issues and facilitate selection of appropriate two-phase flow models, Part II of this book presents a succinct review of the flow patterns, void fraction, pressure drop and non-boiling heat transfer phenomenon and recommend some of the well scrutinized modeling techniques.
Part II of this book provides design engineers using gas-liquid two-phase flow in different industrial applications the necessary fundamental understanding of the two-phase flow variables. Two-phase flow literature reports a plethora of correlations for determination of flow patterns, void fraction, two- phase pressure drop and non-boiling heat transfer correlations. However, the validity of a majority of these correlations is restricted over a narrow range of two-phase flow conditions. Consequently, it is quite a challenging task for the end user to select an appropriate correlation/model for the type of two-phase flow under consideration. Selection of a correct correlation also requires some fundamental understanding of the two-phase flow physics and the underlying principles/assumptions/limitations associated with these correlations. Thus, it is of significant interest for a design engineer to have knowledge of the flow patterns and their transitions and their influence on two-phase flow variables. To address some of these issues and facilitate selection of appropriate two-phase flow models, Part II of this book presents a succinct review of the flow patterns, void fraction, pressure drop and non-boiling heat transfer phenomenon and recommend some of the well scrutinized modeling techniques.
- Reviews pressure drop, heat transfer coefficient, and inlet configuration effect in the transition region
- Includes void fraction correlations for flow patterns, pipe orientations, models for pressure drop calculations
- Presents non-boiling two-phase flow heat transfer correlations for different flow patterns and pipe orientations
Caracteristici
Serves as an excellent guide for design engineers and researchers working in single-phase flow Presents non-boiling heat transfer correlations for different flow patterns and pipe orientations Reviews pressure drop/friction factor, heat transfer coefficient/Nusselt number, & inlet configuration effect