Reprint
Numerical Simulation of Convective-Radiative Heat Transfer
Edited by
September 2020
244 pages
- ISBN978-3-03943-194-6 (Hardback)
- ISBN978-3-03943-195-3 (PDF)
This is a Reprint of the Special Issue Numerical Simulation of Convective-Radiative Heat Transfer that was published in
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary
This book presents numerical, experimental, and analytical analysis of convective and radiative heat transfer in various engineering and natural systems, including transport phenomena in heat exchangers and furnaces, cooling of electronic heat-generating elements, and thin-film flows in various technical systems. It is well known that such heat transfer mechanisms are dominant in the systems under consideration. Therefore, in-depth study of these regimes is vital for both the growth of industry and the preservation of natural resources. The authors included in this book present insightful and provocative studies on convective and radiative heat transfer using modern analytical techniques. This book will be very useful for academics, engineers, and advanced students.
Format
- Hardback
License and Copyright
© 2020 by the authors; CC BY-NC-ND license
Keywords
mixed convection; nanofluids; thermal radiation; heat source/sink; dual solutions; stability analysis; convection; local heat-generating element; surface radiation; Ostrogradsky number; finite difference method; nanofluid; stagnation sheet; three-dimensional flow; slip condition; stability analysis; vortex; heat; dimple; channel; simulation; efficiency of annular fin; analytical and numerical method; computational fluid dynamics; fin base temperature; non-Newtonian fluid; natural convection; heat source of volumetric heat generation; finite difference method; PCMs; storage tank; photovoltaic; computational fluid dynamics (CFD); finite elements; turbulent bubbly flow; sudden pipe expansion; measurements; modeling; wall friction; heat transfer modification; heat transfer; free convection; cylinder; tube array; numerical investigation; semi-analytical model; vapor; liquid; bubble; two-phase heat transfer; adiabatic calorimetry; numerical simulation; heat capacity; finite-element method; heat transfer; thin film; boundary layer; thermocapillarity; triple solutions; Carreau fluid; tempering; heat treatment; electric furnace; CFD simulation; thermal efficiency