Solidworks flow simulation fan tutorial
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The Flow Simulation Verification Documents are located under C:Program FilesSOLIDWORKS CorpSOLIDWORKS Flow SimulationLangEnglishDocs.Īs you can see there are three documents located in this folder location. Otherwise refer to where your SOLIDWORKS is installed, and start from there.
Solidworks flow simulation fan tutorial install#
If your install location is the default SOLIDWORKS utilizes, you will be able to follow the path I lay out directly. Instead of navigating through the SOLIDWORKS interface, open Windows Explorer. The Flow Simulation verification documents are a little more hidden than the one for SOLIDWORKS Simulation but are still easily accessible. Like my colleague Kurt Kurtin who discussed the SOLIDWORKS Simulation Verification documents in his blog Simulation Verification – How Accurate are My Results, I wanted to make sure you knew where these verification documents are located for SOLIDWORKS Flow Simulation.
Solidworks flow simulation fan tutorial how to#
We just may not know how to access this information.
Solidworks flow simulation fan tutorial software#
Additionally, the user will learn how to create a SOLIDWORKS Simulation study, using results from SOLIDWORKS Flow Simulation as input boundary conditions and, finally, view results in SOLIDWORKS Simulation.Verification that the software you use is doing what it is supposed to do is nothing new. Lesson 15 – FEA Load Transfer - In the final lesson of this course, the user will learn how to transfer flow results to SOLIDWORKS Simulation for stress analysis. Lesson 14 – Supersonic Flow - Upon successful completion of lesson 14 the user will be able to, create an external supersonic flow analysis, use an adaptive mesh, and create contour plots of Mach number. Lesson 13 – Particle Trajectory - In Lesson 13 the user will learn how to inject a physical particle into a flow stream, use the particle study command and finally, view the particle trajectory results. Lesson 12 – Relative Humidity - Lesson 12 teaches the user how to apply relative humidity as a boundary condition and how to display relative humidity results. Lesson 11 – Cavitation - Lesson 11 focusses on cavitation, showing the user how to select the cavitation flow type and how to display the results. Lesson 10 – Free Surface - Lesson 10 will explain how the free surface option can be used within SOLIDWORKS Flow Simulation and what types of studies it can solve. In addition to this, the user will be taught how to create a quarter model using symmetry planes as well as understanding how to properly post-process parametric results. Lesson 9 – Parametric study -In lesson 9 the user will learn how to create an analysis using the parametric (optimization) study feature.
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Lesson 8 – Rotating reference frames - Upon successful completion of lesson 8, the user will be able to set up rotating regions within the computation domain using two methods, ‘Averaging’ or the ‘Sliding Mesh’. The user will be taught how to use the component control command and how to evaluate velocity profiles. Lesson 7 – Porous media - Lesson 7 focusses on creating a flow analysis using the porous media option.
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The user will learn how to properly apply transferred boundary conditions. Lesson 6 – EFD Zooming - Lesson 6 introduces EFD Zooming to solve complex models. Upon completion the user will understand how to define multiple fluid regions and create temperature plots in the solid and fluid regions. Lesson 5 – Conjugate Heat Transfer - In lesson 5 the user will learn how to create a steady state conjugate heat transfer analysis for a cold plate using a real gas. The user will also learn how to create a 2D plane flow analysis and will be introduced to animation techniques that will allow for visualisation of their results. Lesson 4 – External Transient Analysis - Upon successful completion of lesson 4 the user will be able to use the Reynolds number equation to apply a velocity boundary condition to an external analysis. The user will also be taught good modelling approaches to complicated geometry. Lesson 3 – Thermal Analysis - In lesson 3 the user will learn how to use the engineering database to define materials, apply heat loading to a model and create fans and perforated plates for cooling.
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Lesson 2 – Meshing - Lesson 2 introduces the user to meshes, using mesh features and applying manual mesh controls. The user will apply boundary conditions and goals before running an analysis and viewing their results. Lesson 1 – Creating a SOLIDWORKS Flow Simulation Project - The first lesson of this course teaches the user how to prepare and create a Flow Simulation Project using the Project Wizard.