TY - BOOK AU - Lu,Xianke ED - SpringerLink (Online service) TI - Fluid Flow and Heat Transfer in Porous Media Manufactured by a Space Holder Method T2 - Springer Theses, Recognizing Outstanding Ph.D. Research, SN - 9783030536022 AV - QD1-999 U1 - 540 23 PY - 2020/// CY - Cham PB - Springer International Publishing, Imprint: Springer KW - Chemistry KW - Materials science KW - Force and energy KW - Thermodynamics KW - Heat engineering KW - Heat transfer KW - Mass transfer KW - Analytical chemistry KW - Biotechnology KW - Nanotechnology KW - Chemistry/Food Science, general KW - Energy Materials KW - Engineering Thermodynamics, Heat and Mass Transfer KW - Analytical Chemistry KW - Nanotechnology and Microengineering N1 - Introduction -- Literature Review -- Experimental Methods -- Flow Behaviour in Porous Media -- Thermal Performance of Porous Copper -- Conclusions and Future Work N2 - This book focuses on the effects of the material, porosity, pore size and pore shape on flow behaviour and heat transfer in microscale porous media manufactured using a space holder method. It also describes a novel approach to studying flow behaviour in non-transparent materials such as porous metals via flow visualization in transparent media that mimic the porous structure. The book employs a combination of microparticle image velocimetry – a modern, advanced technique – and pressure drop measurement – a more traditional method – that makes the mechanistic study of several phenomena possible. It covers the identification of various flow regimes and their boundaries, velocity profiles on the microscale, the heat transfer coefficient under forced convection, and the correlation between flow behaviour on the pore scale and the convective heat transfer performance of the porous media. Understanding the fundamentals of porous flow, especially on the microscale, is critical for applications of porous media in heat exchangers, catalytic convertors, chemical reactors, filtration and oil extraction. Accordingly, this book offers a valuable resource for all researchers, graduate students and engineers working in the areas of porous flow and porous materials UR - https://doi.org/10.1007/978-3-030-53602-2 ER -