Description
Heat transport requires effective collisions to take place among energy carriers. In times comparable to the average time per collision and physical dimensions shrunk to the size of the energy carriers, we enter the fascinating world in micro/nanoscales. Known approaches for resolving complicated physical events in small scales include kinetic theory and quantum mechanics, molecular dynamics, nonequilibrium/irreversible thermodynamics, and fractal theory and fracton model. Intrinsically different approaches and physical properties are often resulted due to such innately different physical bases.
Macro- to Microscale Heat Transfer: The Lagging Behavior, Third Edition continues the well-received approach that adopts two lagging times and one length parameter in capturing essential features in twelve micro/nanoscale heat transfer models, in ways that are already familiar to engineers and scientists. The lagging times as well as the nonlocal length are bridged seamlessly to the various thermophysical properties in micro/nanoscale.
Key Features:
pedagogy of learning through visualization.
Details
Publisher - DualPhaseLag
Language - English
Hardback
Author(s) - D. Y. TZOU
Published Date - November 28 2024
ISBN - 9781836027980
Dimensions - 27.9 x 21.6 x 3.5 cm
Page Count - 575
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