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Nano/Microscale Heat Transfer [electronic resource] / by Zhuomin M. Zhang.

By: Zhang, Zhuomin M [author.].
Contributor(s): SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Mechanical Engineering Series: Publisher: Cham : Springer International Publishing : Imprint: Springer, 2020Edition: 2nd ed. 2020.Description: XXVI, 761 p. 262 illus., 197 illus. in color. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783030450397.Subject(s): Thermodynamics | Heat engineering | Heat transfer | Mass transfer | Microtechnology | Microelectromechanical systems | Mechanics, Applied | Solids | Fluid mechanics | Engineering Thermodynamics, Heat and Mass Transfer | Microsystems and MEMS | Solid Mechanics | Engineering Fluid DynamicsAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 621.4021 Online resources: Click here to access online
Contents:
Introduction -- Overview of Macroscopic Thermal Sciences -- Elements of Statistical Thermodynamics and Quantum Theory -- Kinetic Theory and Micro/Nanofluidics -- Thermal Properties of Solids and the Size Effect -- Electron and Phonon Transport -- Nonequilibrium Energy Transfer in Nanostructures -- Fundamentals of Thermal Radiation -- Radiative Properties of Nanomaterials -- Near-Field Energy Transfer -- Appendix A -- Appendix B.
In: Springer Nature eBookSummary: This substantially updated and augmented second edition adds over 200 pages of text covering and an array of newer developments in nanoscale thermal transport. In Nano/Microscale Heat Transfer, 2nd edition, Dr. Zhang expands his classroom-proven text to incorporate thermal conductivity spectroscopy, time-domain and frequency-domain thermoreflectance techniques, quantum size effect on specific heat, coherent phonon, minimum thermal conductivity, interface thermal conductance, thermal interface materials, 2D sheet materials and their unique thermal properties, soft materials, first-principles simulation, hyperbolic metamaterials, magnetic polaritons, and new near-field radiation experiments and numerical simulations. Informed by over 12 years use, the author’s research experience, and feedback from teaching faculty, the book has been reorganized in many sections and enriched with more examples and homework problems. Solutions for selected problems are also available to qualified faculty via a password-protected website. • Substantially updates and augments the widely adopted original edition, adding over 200 pages and many new illustrations; • Incorporates student and faculty feedback from a decade of classroom use; • Elucidates concepts explained with many examples and illustrations; • Supports student application of theory with 300 homework problems; • Maximizes reader understanding of micro/nanoscale thermophysical properties and processes and how to apply them to thermal science and engineering; • Features MATLAB codes for working with size and temperature effects on thermal conductivity, specific heat of nanostructures, thin-film optics, RCWA, and near-field radiation.
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Introduction -- Overview of Macroscopic Thermal Sciences -- Elements of Statistical Thermodynamics and Quantum Theory -- Kinetic Theory and Micro/Nanofluidics -- Thermal Properties of Solids and the Size Effect -- Electron and Phonon Transport -- Nonequilibrium Energy Transfer in Nanostructures -- Fundamentals of Thermal Radiation -- Radiative Properties of Nanomaterials -- Near-Field Energy Transfer -- Appendix A -- Appendix B.

This substantially updated and augmented second edition adds over 200 pages of text covering and an array of newer developments in nanoscale thermal transport. In Nano/Microscale Heat Transfer, 2nd edition, Dr. Zhang expands his classroom-proven text to incorporate thermal conductivity spectroscopy, time-domain and frequency-domain thermoreflectance techniques, quantum size effect on specific heat, coherent phonon, minimum thermal conductivity, interface thermal conductance, thermal interface materials, 2D sheet materials and their unique thermal properties, soft materials, first-principles simulation, hyperbolic metamaterials, magnetic polaritons, and new near-field radiation experiments and numerical simulations. Informed by over 12 years use, the author’s research experience, and feedback from teaching faculty, the book has been reorganized in many sections and enriched with more examples and homework problems. Solutions for selected problems are also available to qualified faculty via a password-protected website. • Substantially updates and augments the widely adopted original edition, adding over 200 pages and many new illustrations; • Incorporates student and faculty feedback from a decade of classroom use; • Elucidates concepts explained with many examples and illustrations; • Supports student application of theory with 300 homework problems; • Maximizes reader understanding of micro/nanoscale thermophysical properties and processes and how to apply them to thermal science and engineering; • Features MATLAB codes for working with size and temperature effects on thermal conductivity, specific heat of nanostructures, thin-film optics, RCWA, and near-field radiation.

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