Computational domain’s boundary planes are orthogonal to the Cartesian coordinate system’s axes. Computational domain is a rectangular prism where the calculation is performed.This method is among preferred methods for fluid phenomena modeling. FVM is a general approach for both simple and complex problems.SolidWorks Flow Simulation solves time-dependent Navier-Stokes equations with the Finite Volume Method (FVM) on a rectangular (parallelepiped) computational mesh.They make many assumptions and fail to solve most practical problems. Analytical solutions are only available for simple problems.Analysis can help you optimize your designs by quickly simulating many concepts and scenarios before making a final decision.SolidWorks Flow Simulation analysis shortens the object's way to the market.Analysis reduces cost by testing your model using the computer instead of expensive field tests.Analysis reduces the number of design cycles.Design cycles are expensive and time-consuming.SolidWorks Flow Simulation Analyze Satisfied? No Yes Hardware Based on results, modify the model and simulate until you are satisfied with the design.Use SolidWorks Flow Simulation to simulate the object’s fluid environment and thermal effects.SolidWorks Flow Simulation is used by students, designers, analysts, engineers, and other professionals to produce highly efficient designs and/or optimize their performance.ĭesign Cycle with SolidWorks Flow Simulation SolidWorks.
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It helps you to answer the question: What are the fluid flow effects on the prototype and the prototype's effects on the fluid flow? SolidWorks Flow Simulation simulates the testing of your model's prototype in its working fluid environment.
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B4-4 Manual Specification of the Minimum Gap Size. B3-17 Calculating the Heat Exchanger Efficiency.B3-19 B3-13 Adjusting the Parameter Display Range. Heat Exchanger Efficiency Problem Statement. B2-10 Creating a Project from the Template. B2-7 Cloning the Project and Creating a New Configuration. B1-17 Flow Simulation 2012 TutorialĬylinder Drag Coefficient Problem Statement. Intermediate Examples Determination of Hydraulic Loss Opening the SolidWorks Model. A3-11 Comparing the Isotropic and Unidirectional Catalysts. A3-10 Specifying the Porous Medium - Unidirectional Type. A3-10 Creating Unidirectional Porous Medium in the Engineering Database. A3-3 Creating Isotropic Porous Medium in the Engineering Database. Porous Media Opening the SolidWorks Model. A2-9 Creating Solid Materials in the Engineering Database. A2-7 Specifying Boundary Conditions.A2-8 Specifying Heat Sources. A2-2 Creating a Flow Simulation Project.A2-3 Specifying the Fan. A1-19Ĭonjugate Heat Transfer Opening the SolidWorks Model. A1-19 Analyzing a Design Variant in the Flow Simulation Application. A1-16 Analyzing a Design Variant in the SolidWorks Ball part.
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FL-1 First Steps Ball Valve Design Opening the SolidWorks Model.