Advances in Heat Transfer

1st Edition, Volume 58 - October 1, 2024
Imprint: Academic Press
Editors: John Patrick Abraham, John M. Gorman, Wolodymyr J. Minkowycz
Language: English
Hardback ISBN:
9 7 8 - 0 - 4 4 3 - 2 9 5 3 8 - 6
eBook ISBN:
9 7 8 - 0 - 4 4 3 - 2 9 5 3 9 - 3

Advances in Heat Transfer, Volume 58 presents the latest in a serial that highlights new advances in the field, with this updated volume presenting interesting chapters writte… Read more

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Advances in Heat Transfer, Volume 58 presents the latest in a serial that highlights new advances in the field, with this updated volume presenting interesting chapters written by an international board of authors. Sample chapters in this new release include Nanoscale Thin Film Evaporation and Ice thermal energy storage modeling: A review.

Cover image
Title page
Table of Contents
Copyright
Contributors
Chapter One: Evaporation from nanoscale thin films and menisci: Experiments, theories, and simulations
Graphical Abstract
Abstract
1 Introduction
2 Experimental studies
3 Continuum modeling
4 Molecular dynamics
5 Comparison between MD simulations and continuum models
6 Challenges and opportunities
Acknowledgment
References
Chapter Two: Advancements in data center thermal management
Abstract
1 Introduction
2 Data center’s structure
3 Air cooling systems
4 Liquid cooling
5 Radiative cooling
6 Conclusions
References
Chapter Three: Advances in nanofluid flow, heat, and mass transfer at moving/stretching surfaces
Abstract
1 Introduction to nanofluids and hybrid nanofluids
2 Magnetohydrodynamic (MHD) flow of Casson CuO nanofluid over a stretching sheet with viscous dissipation, radiation, and heat generation/absorption
3 Bioconvective non-Newtonian magnetic nanofluid flow through a channel with stretching walls
4 MHD hybrid nanofluid flow past a stretching surface with a heat source/sink and Arrhenius activation energy
5 Concluding remarks: future areas of research and references
Acknowledgments
References
Chapter Four: Ice thermal energy storage modeling: A review
Abstract
Nomenclature
1 Introduction
2 Governing equations and assumptions
3 Thermal resistance determinations
4 Heat transfer coefficient correlations
5 Modeling tools
6 Concluding remarks
References
Chapter Five: On heat transfer and thermal management of electrochemical devices
Abstract
Nomenclature
1 Introduction
2 Generation of heat
3 Why is thermal management needed?
4 Suitable operating temperature of a battery
5 Types of thermal management systems for batteries
6 Heat generation analysis in a PEMFC
7 Conservation of energy and the heat equation
8 One-dimensional thermal analysis of a fuel cell
9 Cooling methods of PEMFCs
10 Thermal radiation
11 Using PCM to improve thermal management of a battery of an autonomous under water vehicle
12 Impacts of agglomerate model parameters on transport characteristics and performance of a PEMFC
13 Analysis of transport phenomena and performance in PEM fuel cells by considering thermal and electrical contact resistances
14 Conclusions
Acknowledgments
References

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Advances in Heat Transfer

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John Patrick Abraham

John M. Gorman

Wolodymyr J. Minkowycz

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