Advances in Heat Transfer: Volume 52
Academic Press
Published on 6. November 2020
Book
Hardback
592 pages
978-0-12-820737-6 (ISBN)
Description
Advances in Heat Transfer, Volume 52, provides in-depth review articles from a broader scope than in traditional journals or texts, with this comprehensive release covering chapters on Thermal Convection Studies at the University of Minnesota, Convective heat transfer in porous passages that depends on the values of the Sparrow numbers, Automatic Code Differentiation for Thermal-Fluid Problems, Advances in Vapor Chambers and Phase Change Heat Spreaders, Pressure Drop and Heat Transfer in the Entrance Region of Microchannels, Predicting spectral thermal conductivity at the mesoscale with advanced deterministic phonon transport techniques, and Modulated-heating protocols applied to hyperthermia/thermal ablation.
More details
Series
Language
English
Place of publication
San Diego
United States
Publishing group
Elsevier Science Publishing Co Inc
Target group
Professional and scholarly
Practitioners in industry and academics teaching advanced courses
Dimensions
Height: 229 mm
Width: 152 mm
Weight
1020 gr
ISBN-13
978-0-12-820737-6 (9780128207376)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Persons
John Abraham is at University of St. Thomas, Saint Paul, MN, USA John Gorman is at University of Minnesota, Minneapolis, MN, USA Wolodymyr J. Minkowycz is the James P. Hartnett professor of mechanical engineering at the University of Illinois at Chicago. He has performed seminal research in several branches of heat transfer and has published about 175 papers in archival journals. He is also editor-in-chief of the International Journal of Heat and Mass Transfer and the founding editor of Numerical Heat Transfer.
Content
1. Thermal
Analyses of buoyancy-driven convection
Tie Wei
2. Convective heat transfer in different porous passages
A. Haji-Sheikh, Filippo de Monte and W.J. Minkowycz
3. Heat exchange between the human body and the environment: A comprehensive, multi-scale numerical simulation
John M. Gorman, Matthew Regnier and John P. Abraham
4. Pressure drop and heat transfer in the entrance region of microchannels
Zhipeng Duan and Hao Ma
5. Predicting mesoscale spectral thermal conductivity using advanced deterministic phonon transport techniques
Jackson R. Harter, Todd S. Palmer and P. Alex Greaney
6. An overview of mathematical models and modulated-heating protocols for thermal ablation
A. Andreozzi, M. Iasiello and C. Tucci
7. Thermal stimulation of targeted neural circuits via remotely controlled nano-transducers: A therapy for neurodegenerative disorders
Erfan Kosari and Kambiz Vafai
Analyses of buoyancy-driven convection
Tie Wei
2. Convective heat transfer in different porous passages
A. Haji-Sheikh, Filippo de Monte and W.J. Minkowycz
3. Heat exchange between the human body and the environment: A comprehensive, multi-scale numerical simulation
John M. Gorman, Matthew Regnier and John P. Abraham
4. Pressure drop and heat transfer in the entrance region of microchannels
Zhipeng Duan and Hao Ma
5. Predicting mesoscale spectral thermal conductivity using advanced deterministic phonon transport techniques
Jackson R. Harter, Todd S. Palmer and P. Alex Greaney
6. An overview of mathematical models and modulated-heating protocols for thermal ablation
A. Andreozzi, M. Iasiello and C. Tucci
7. Thermal stimulation of targeted neural circuits via remotely controlled nano-transducers: A therapy for neurodegenerative disorders
Erfan Kosari and Kambiz Vafai