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How to Use Autodesk CFD 2019 for Fluid Flow and Thermal Simulation
Autodesk CFD 2019 is a software that allows engineers to perform computational fluid dynamics (CFD) simulations on various types of systems and products. CFD simulations can help engineers optimize the design, performance, and efficiency of their products by analyzing the fluid flow and heat transfer phenomena that occur in real-world scenarios.
In this article, we will introduce some of the main features and benefits of Autodesk CFD 2019, and show you how to use it for fluid flow and thermal simulation.
What's New in Autodesk CFD 2019?
Autodesk CFD 2019 contains several new features and functional updates designed to improve the solving capabilities, simulation fidelity, and the overall user experience. Some of the highlights are:
Scalable Solver: The scalable solver has been improved to support more types of materials, parts, and analyses, such as PCB materials, surface parts, solar walls, solar windows, smoke visibility analyses, and thermal comfort analyses. The scalable solver also has matching local and cloud performance, which means you can run your simulations faster and more efficiently on the cloud[^1^].
Wall Calculator Improvements: The wall calculator has been enhanced to provide better energy balance using residuals at surface nodes. This means you can get more accurate results for thermal calculations using the wall calculator[^1^].
New Result Extraction Tool, Cut Regions: The cut regions tool allows you to create a circular or rectangular region that gives the average results of the region. This is useful for reviewing AEC models, where you can easily extract results from specific areas of interest[^1^].
Improved Graphical Performance: The graphics libraries have been updated to show up to 50% graphical performance improvements (model dependent). This means you can visualize your models and results faster and smoother[^1^].
Improved Licensing: Generating a Premium or Ultimate CFD license covers both the solver and the UI. If you have a subscription seat to Autodesk CFD Premium, the cloud solver has motion capabilities[^1^].
Fusion 360 CAD Integration: You can now work with geometry from Fusion 360, which is a cloud-based CAD/CAM/Simulation software. Fusion 360 has model simplification tools that are similar to SimStudio Tools. You can also use the Replace with Primitives command to resize parts by snapping to a face or vertex[^1^].
How to Use Autodesk CFD 2019 for Fluid Flow and Thermal Simulation?
To use Autodesk CFD 2019 for fluid flow and thermal simulation, you need to follow these basic steps:
Create or import your model: You can create your model using any CAD software that supports exporting to common formats such as STEP or IGES. You can also import your model from Fusion 360 or other Autodesk products such as Inventor or Revit. You can then use SimStudio Tools or Fusion 360 to simplify your model by removing unnecessary details or replacing complex parts with primitives.
Set up your simulation: You can use the Simulation Setup dialog box to define your analysis type (such as internal or external flow), your materials (such as air or water), your boundary conditions (such as pressure or velocity), your mesh settings (such as size or quality), and your solver settings (such as scalable or local). You can also use the Design Study Environment to create multiple scenarios with different parameters or goals.
Solve your simulation: You can use the Solve dialog box to start your simulation locally or on the cloud. You can monitor the progress and convergence of your simulation using the Solver Manager window. You can also pause, resume, or stop your simulation at any time.
Analyze your results: You can use the Results Environment to visualize and explore your results using various tools such as plots, charts, animations, cut planes, streamlines, iso-surfaces, etc. You can also use the Cut Regions tool to extract average results from specific regions of interest. You can also compare different scenarios using 061ffe29dd