ANSYS_Fluent_Workbench_Tutorial_Guide_2019_R3.pdf

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fluent最新版workbench turorial文档,学习fluent-workbench操作基本步骤的工具
Table of contents Using this manual..…. .............9.449......9..........4......4.....9........................4......4.......... IX 1. What's in this manual IX 2. Typographical Conventions Used In This Manual………,…… 1 Introduction to Using ANSYS Fluent in ANSYS Workbench: Fluid Flow and heat Transfer in a Mixing Elbow ···:···············:·····::····:·.·:·:···:··;···········:·:··:·:···:·······:···:·:·:··············4·:···· 1.1. Introduction 1.2. Prerequisites∴………… 1.3. Problem Description ·*···*·· 2 14.5 etup and Solution............,…,…, 4.1. Preparation 中····· 4 1.4.2. Creating a Fluent Fluid Flow Analysis System in ANSYS Workbench.. 4 1.4.3. Creating the Geometry in ANSYS Design Modeler………………………………8 14.4 Meshing the Geometry in the ANSYS Meshing Application…………………………18 4.5. Setting Up the CFD Simulation in ANSYS Fluent…….………………………………25 14.5.1. Starting ANSYS Fluent......,……,… 25 1.4.5.2. Setting Up Domain…………,….…,……,……,…,….,…,….,………………,27 14.53. Setting Up Physics.....….,.….….….…… 30 .4.6. Solving……………,….…….…..,…,…,,…,,….,.,….,,………,…,…,,…,……,….….43 4.7. Displaying Results in ANSYS Fluent and CFD-Post 52 1.4.8. Duplicating the fluent-Based fluid flow analysis System ........................................................61 4.9. Changing the geometry in ansys design Modeler 62 4.10. Updating the Mesh in the ANSYS Meshing Application……………….64 1.4.11. Calculating a New solution in aNSyS Fluent 66 1.4.12. Comparing the results of Both Systems in CFD-Post 68 1.5. Summary……… ············*··································· ···· 173 2 Parametric Analysis in ANSYS Workbench Using ANSYS Fluent…..,…,,……,……,……75 2. 1. Introduction ····..·;·.··.···.:·.·.··.·· 75 2. 2. Prerequisites....................,........ 76 2.3. Problem Description………… 76 2.4. Setup and solution..................,…, 79 2.4.1. Preparation……,……,… 80 2.4.2. Adding Constraints to ANSYS Design Modeler Parameters in ANSYS Workbench 80 2.4.3. Setting Up the CFD Simulation in ANSYS Fluent 86 2.4.3.1. Starting ansys fluent 86 24.3.2. Setting Up Physics….,… ·非·非非非非非非非非 88 2.4.4. Defining Input Parameters in ANSYS Fluent 91 2. 4.5. Solving ..····:·.······························:·····:·····.··.·: …96 2.4.6. Postprocessing and setting the output parameters in ansyS CfD-Post 99 2.4.7. Creating Additional Design Points in ANSYS Workbench 108 2.4.8. Postprocessing the New Design Points in CFD-Post........ 2.4.9. Summary,…,…,,…,…,…, 117 Release 2019R3-CANSYS, Inc A rights reserved Contains proprietary and con//oration of ansys inc and its subsidiaries and affiliates Release 2019R3-CANSYS, Inc A rights reserved Contains proprietary and con//oration of ansys inc and its subsidiaries and affiliates List of Figures 1.1. Problem Specification…,…….,.,…..,.,….,.,,.,.…..,……,3 1. 2. Selecting the Fluid Flow(Fluent) Analysis System in ANSYS Workbench 13. ANSYS Workbench with a New fluent-Based fluid flow analysis system…………….5 1.4. ANSYS Workbench Files View for the Project After Adding a Fluent-Based Fluid Flow Analysis System ......7 1.5. Elbow Main Pipe Geometry……,…,……,…………,…,……,…,…,……,……,………,13 1.6. ANSYS Workbench Files View for the Project After Creating the Geometry 17 1.7. The ANSYS Meshing Application with the Elbow Geometry Loaded 19 1.8. Selecting a face to name ··························· 20 1.9. Applying a Name to a Selected Face............. ···非自非 非着 21 1.10. the Computational mesh for the elbow geometry in the ansys meshing application..........24 1.11. ANSYS Workbench Files View for the project After Mesh Creation .·:·······.·:······:·:···:··········:····:······: 25 1.12. Fluent Launcher 26 1.13. The aNSYS Fluent Application..... 27 1.14. The create/ Edit Materials Dialog Box…… ················::·:::·:··:·············· 35 15. Convergence History of the maximum Temperature at Pressure outlet.. 50 1.16. Residuals for the Converged Solution 51 1.17. Velocity Distribution Along Symmetry Plane 54 1.18 Temperature Distribution Along Symmetry Plane……… 55 19. The Elbow Geometry Loaded into CFD-Post 57 1.20. Velocity distribution Along symmetry plane 1.21. Temperature Distribution Along Symmetry Plane..... 60 122 Duplicating the fluid Flow System…,,,,,…,,……,………61 1. 23. The Original Fluid Flow System and Its Duplicate 62 1. 24. Changing the diameter of the small Inlet in aNsyS design Modeler......................64 25. Updating the Mesh for the Changed Geometry ··*······* 65 1.26. The Updated Geometry and mesh in the ansys meshing Application…………………66 1.27. The New Results System in the Project Schematic∴……,…,…,……,…,……,…68 1. 28. Connecting the first fluid flow System to the new results system..........................68 1.29. Connecting the Second Fluid Flow System to the New Results System………….69 .30. CFD-Post with Both Fluid Flow Systems Displayed........... 69 1.31. CFD-Post Displaying Velocity Contours for Both Geometries……,… 71 1.32. CFD-Post Displaying Temperature Contours for Both Geometries 72 21. Automotive HVAC System…… ,。垂自鲁 77 2.2. HVAC System Valve Location details 78 2.3. Flow Pattern for the Cooling cycle…………,…,,…,…,,,…,….,,…,…,,…,,…….,79 2.4. The Project Loaded into ANSYS Workbench 81 25. Parameters Defined in ANSYS Design Modeler….,,,…,……,…,…,……………,…,82 2.6. New Parameters Defined in aNsys Workbench ···· 82 2.7. Constrained Parameter 83 2. 8. Constrained Parameter 84 29. Constrained parameter 85 2.10. ANSYS Fluent Launcher 着自非着鲁D。·非非·非非非。非 86 2. 11. The ANSYS Fluent Application............. 非·非着非非自。。自。·非非非。·。非D。。自自非 87 2.12. The Input Parameters Sub-Branch in ANSYS Fluent 94 2.13, The parameters view in ansys Workbench 94 2.14. The automotive HVAC Geometry Loaded into CFD-Post,……,…,…,…,…,…,…,…,……,…….,99 2.15. Vectors Colored by pressure 102 2.16. Vectors Colored by velocity………………,…,…, 03 2. 17. Vectors Colored by temperature .104 2.18. The Updated Project Loaded into ansys Workbench displaying the files view 108 Release 2019R3-CANSYS, Inc A rights reserved Contains proprietary and con//oration of ansys inc and its subsidiaries and affiliates Workbench tutorial guide 2.19. Table of Design Points( with Dp0)-…....,,,,,,,,…,…,…,…,………109 2.20. Table of Design Points(with DPO, DP1, and DP2 Defined) 110 2.21. Table of design Points(Showing Output Parameters for DPo, DPl, and DP2).................11 1 222. Vectors Colored by Temperature(DP1)……… 112 2.23. Vectors Colored by Pressure(DP1) 2. 24. Vectors Colored by velocity(DP1) 非来·非·非·非。非·非。·着非 …114 225. Vectors colored by Temperature(DP2)............,,…,…,………………115 226. Vectors Colored by Pressure(DP2)…,…,…,…,………,…………………116 2. 27. Vectors Colored by velocity(DP2)....... 17 Release 2019R3-CANSYS, Inc A rights reserved Contains proprietary and con//oration of ansys inc and its subsidiaries and affiliates List of tables 1. Mini flow chart Symbol Descriptions……….,…...,……..,,…… 1.1. Design Modeler view manipulation Instructions ........... 12 Release 2019R3-CANSYS, Inc A rights reserved Contains proprietary and con//oration of ansys inc and its subsidiaries and affiliates Release 2019R3-CANSYS, Inc A rights reserved Contains proprietary and con//oration of ansys inc and its subsidiaries and affiliates Using This Manual This preface is divided into the following sections: 1. What's In this manual 2. Typographical Conventions Used In This Manual 1. What's In This Manual The ansys fluent Workbench Tutorial Guide contains a number of tutorials that teach you how to use ANSYS Fluent to solve different types of problems 2. Typographical Conventions Used In This Manual Several typographical conventions are used in this manual's text to help you find commands in the user interface Different type styles are used to indicate graphical user interface items and text interface items. For example Iso-Surface dialog box text command The text interface type style is also used when illustrating exactly what appears on the screen to distinguish it from the narrative text. In this context, user inputs are typically shown in boldface. For example, Mini flow charts are used to guide you through the ribbon or the tree, leading you to a specific option, dialog box, or task page. The following tables list the meaning of each symbol in the mini flow charts Table 1: Mini Flow Chart Symbol Descriptions Symbol Indicated action Look at the ribbon ook at the tree Double-click to open task page 雪 Select from t pa ask page Right-click the preceding item Release 2019R3-CANSYS, Inc A rights reserved Contains proprietary and con//oration of ansys inc and its subsidiaries and affiliates Using This Manual For example Setting Up Domain Mesh Transform Translate. indicates selecting the Setting Up Domain ribbon tab, clicking Transform(in the mesh group box) and selecting Translateor as indicated in the figure below File C Setting Up Domain Setting Up Physics Mesh 亘Di 曰 Scale. nto neck Qua lity Transfor Units Repair Improve. Translate Rotate An Setup Models Viscous Model Realizable k-epsilon indicates expanding the Setup and Models branches, right-clicking viscous, and selecting Realizable k-epsilon from the Model sub-menu, as shown in the following figure Filter Text General a Setu 目 Mesh General Models Scale Check Report quality 田 Multiphase(ff Displayer 田 Energy (off Viscous (standard ke, Star Edit olver au Radiation (off) Velocity Formulation 曲 Heat Exchanger (off. Model bsolute a Species (off) Laminar elative 留 Discrete phase(O au Solidification Melting (Off) v Standard k-epsilon 出 Acoustics(o Realizable k-epsilon 田 Eulerian Wall film(of Standard k-omet s Electric Potential (off) SST k-omega 感 Materials Other .nditions And FE setup 1,Boundary Conditions velocity-inlet-5 indicates opening the task page as shown below Release 2019R3-CANSYS, Inc A rights reserved Contains proprietary and con//oration of ansys inc and its subsidiaries and affiliates

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master_jia 就是ANSYS里面的帮助文档,不推荐下载,安装ANSYS help 在里面找FLUENT部分就行了
2020-05-05
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