The FLUENT Ur's Guide tells you what you need to know to u FLUENT. At the end of the Ur's Guide, you will find a Reference Guide, a nomenclature list, a bibliography, and an index.
万人空巷反义词!! Under U.S. and international copyright law, Fluent is unable to distribute copies of the papers listed in the bibliography, other than tho published internally by Fluent. Plea u your library or a document delivery rvice to obtain copies of copyrighted papers.
A brief description of what's in each chapter follows:
∙Chapter 帝辛1, Getting Started, describes the capabilities of FLUENT and the way in which it interacts with other Fluent Inc. and third-party programs. It also advis you on how to choo the appropriate solver formulation for your application, gives an overview of the problem tup steps, and prents a sample ssion that you can work through at your own pace. Finally, this chapter provides information about accessing the FLUENT manuals on CD-ROM or in the installation area.
∙Chapter 2再见孝琳, Ur Interface, describes the mechanics of using the graphical ur interface, the text interface, and the on-line help. It also provides instructions for remote and batch execution. (See the parate Text Command List for information about specific text interface commands.)
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∙Chapter 3, Reading and Writing Files, contains information about the files that FLUENT can read and write, including hardcopy files.
∙Chapter 4椅子简笔画, Unit Systems, describes how to u the standard and custom unit systems available in FLUENT黑色怎么读英语.
∙Chapter 5, Reading and Manipulating Grids, describes the various sources of computational grids and explains how to obtain diagnostic information about the grid and how to modify it by scaling, translating, and other methods. This chapter also contains information about the u of non-conformal grids.
∙Chapter 6, Boundary Conditions, explains the different types of boundary conditions ava
ilable in FLUENT, when to u them, how to define them, and how to define boundary profiles and volumetric sources and fix the value of a variable in a particular region. It also contains information about porous media and lumped parameter models.
∙Chapter 7, Physical Properties, explains how to define the physical properties of materials and the equations that FLUENT us to compute the properties from the information that you input.
∙Chapter 8, Modeling Basic Fluid Flow, describes the governing equations and physical models ud by FLUENT to compute fluid flow (including periodic flow, swirling and rotating flows, compressible flows, and inviscid flows), as well as the inputs you need to provide to u the models.
∙Chapter 9, Modeling Flows in Moving Zones, describes the u of single rotating reference frames, multiple moving reference frames, mixing planes, and sliding meshes inFLUENT山西省国税.
∙Chapter 10, Modeling Turbulence, describes FLUENT's models for turbulent flow and when and how to u them.
∙Chapter 11, Modeling Heat Transfer, describes the physical models ud by FLUENT to compute heat transfer (including convective and conductive heat transfer, natural convection, radiative heat transfer, and periodic heat transfer), as well as the inputs you need to provide to u the models.
∙Chapter 12, Introduction to Modeling Species Transport and Reacting Flows, provides an overview of the models available in FLUENT for species transport and reactions, as well as guidelines for lecting an appropriate model for your application.
∙Chapter 13, Modeling Species Transport and Finite-Rate Chemistry, describes the finite-rate chemistry models in FLUENT and how to u them. This chapter also provides information about modeling species transport in non-reacting flows.
∙Chapter 咖喱牛肉汤14, Modeling Non-Premixed Combustion, describes the non-premixed combustion model and how to u it. This chapter includes details about using prePDF.
∙Chapter 15, Modeling Premixed Combustion, describes the premixed combustion model and how to u it.
∙Chapter 16, Modeling Partially Premixed Combustion, describes the partially premixed combustion model and how to u it.
∙Chapter 17, Modeling Pollutant Formation, describes the models for the formation of NOx and soot and how to u them.
∙Chapter 18, Introduction to Modeling Multipha Flows, provides an overview of the models for multipha flow (including the discrete pha, VOF, mixture, and Eulerian models), as well as guidelines for lecting an appropriate model for your application.