Titlebook: Basic Transport Phenomena in Materials Engineering; Manabu Iguchi,Olusegun J. Ilegbusi Book 2014 Springer Japan 2014 Diffusion.Fluid Flow.

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G. Geiser,H. Foysi,W. Schr?der,M. MeinkeThis chapter offers basic principles on one-dimensional heat conduction through a flat plate and the wall of a long pipe. Some equations for the overall heat-transfer coefficient are derived using Fourier’s law.

蔓藤圖飾

G. Geiser,H. Foysi,W. Schr?der,M. MeinkeNatural and forced convection heat transfers are treated in this chapter. Emphasis is placed on the heat-transfer phenomena around a sphere, a cylinder, and a flat plate because of their practical importance.

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cleaver

Tree Based Voxelization of STL DataBubble and liquid flow characteristics of bubble-driven gas–liquid two-phase flows observed in various types of reactors in materials processing operations are introduced with many exercises. Heat and mass transfer from a solid body immersed in a molten metal bath is also discussed.

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DAUNT

Jaka Mo?nik,Marko Novak,Erich FochtThe surface and interfacial tension forces play an essential role in micro reactors and channels. Wall wettability is also one of key parameters affecting the flow in these flow systems. Detailed discussion is given on the flows in microscale systems in this chapter.

靦腆

Basic Properties of Fluid FlowThe real fluids can be classified into Newtonian and non-Newtonian fluids. Detailed explanation is given on the basic properties of Newtonian fluids such as air, water, and molten metal. The properties include the density, compressibility, and viscosity.

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Momentum TransferThe beginning of this chapter presents the governing equations for the motion of fluid flows: equation of continuity, equation of motion, and energy equation. In the following sections, dynamic similitudes and information required for designing pipeline systems are introduced.

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