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Isothermal Technology is a type of heat transfer technology, where the heat transport is mainly via thermal waves/resonances, and achieve to transfer heat isothermally. ==Overview== The fundamental modes of heat transfer are conduction, convection and radiation. These are temperature-gradient-driving heat transfer. The driving force for heat transfer can also be indirect. It comes from cross-couplings among different transport processes and transfer heat isothermally in thermal waves/resonances. It can be in various forms and turned precisely via manipulating the cross coupling.〔Wang L. Q., Zhou X. S. and Wei X. H. 2008, (Heat Conduction: Mathematical Models and Analytical Solutions ), Springer-Verlag, Heidelberg, 515p, ISBN 978-3-540-74028-5.〕〔Tzou D. Y. 2014, (Macro-to Microscale Heat Transfer: The Lagging Behavior ), 2nd Edition, John Wiley & Sons, Washington, 576p, ISBN 978-1-118-81822-0.〕 Typically, many transport processes like thermal, mass, electrical, magnetic transport occur simultaneously in fluids.〔(http://idea.cas.cn )〕 These processes may couple (or interfere) and cause new induced effects of flows occurring without or against its primary thermodynamic driving force, which may be a temperature gradient, chemical potential, or reaction affinity.〔Xu M. T. and Wang L. Q. 2002, (Thermal oscillation and resonance in dual-phase-lagging heat conduction ), International Journal of Heat and Mass Transfer 45, 1055-1061.〕〔Wang L. Q. and Wei X. H. 2009, (Nanofluids: synthesis, heat conduction, and extension ), Journal of Heat Transfer 131, 033102〕 Two classical examples of coupled transports are the Soret effect (also known as thermodiffusion) and Dufour effect. Multiphase fluid can be specially designed for inducing the strong cross-coupling among transport processes, and create tailor-designed thermal waves/resonances for the isothermal heat transfer. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Isothermal Technology」の詳細全文を読む スポンサード リンク
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