Heat Transfer Processes in Engineering Materials

Heat Transfer Processes in Engineering Materials

Description:

Volume is indexed by Thomson Reuters BCI (WoS).
Heat transfer plays major role in many technical devises or in the formation of new materials. Heat transfer is based in three phenomena, namely conduction, convection and radiation. Understanding heat transfer at many levels, from atomic to macro, and its interaction with other physical phenomena has therefore long attracted the attention of many researchers in engineering and materials science and related disciplines. The present topical volume on "Heat Transfer Processes in Engineering Materials" captures a representative cross-section of some of the recent advances in the area of heat transfer. Reflecting the enormous breadth of the area, the range of topics covered is accordingly very large. Topics include the development and modification of the microstructure of materials. Technical applications such as casting problems, coal drying, air cooling systems and pyrolytic boilers. The prediction methods range from analytical to numerical methods such as the finite element method, the finite difference method and molecular dynamics simulation.

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Info:

Editors:
Prof. Andreas Öchsner, Irina V. Belova and Graeme E. Murch
THEMA:
TGM
BISAC:
TEC021000
Details:
Special topic volume with invited peer reviewed papers only.
Pages:
246
Year:
2013
ISBN-13 (softcover):
9783037857113
ISBN-13 (CD):
9783037954669
ISBN-13 (eBook):
9783038260929
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Review from Ringgold Inc., ProtoView: The special-topic volume of invited, peer-reviewed papers presents a broad review of recent developments and current understandings in how heat moves through artificial materials, devices, and systems. The topics include cross-injection film cooling on a curved surface with or without a vortical flow in the mainstream, the mixed convection boundary layer flow of viscoelastic fluids past a sphere, optimizing a thermoelectric air conditioning system, the alternating current magnetic heating of superparamagnetic iron and cobalt nanoparticles, and the numerical simulation and experimental validation of heat conductivity in metallic hollow sphere structures.