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This is a series of automatic steps in which the code subdivides the model and computational domain into computational cells. The following heat boundary conditions can be specified at the model walls in contact with fluid: Adiabatic wall Wall with specified Temperature Wall with specified Heat flux or Heat transfer rate Wall with specified Heat transfer coefficient Real wall with roughness Ideal wall (adiabatic frictionless wall) Moving wall (to simulate translation/rotation of a wall)ĩ Main Steps of Analysis Define type of analysis, physical features, fluids and solid materials. Symmetry boundary conditions, as well as ideal wall can be specified if necessary. Fans at models' inlets and outlets, as well as inside the computational domain can be specified. Ambient fluid conditions are specified at far-field boundaries in case of external analysis. Velocity, mass flow rate, volume flow rate, or pressure (static and total) boundary conditions are specified at models' inlets and outlets. In case of an external analysis, the computational domain covers the model's surrounding space. If heat transfer in walls is considered, the model walls are also included. In case of an internal problem, the computational domain envelopes the fluid volume inside a model. Computational domain’s boundary planes are orthogonal to the Cartesian coordinate system’s axes. This method is among preferred methods for fluid phenomena modeling.Ħ Computational Domain Computational domain is a rectangular prism where the calculation is performed. 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. Analysis can help you optimize your designs by quickly simulating many concepts and scenarios before making a final decision.Īnalytical solutions are only available for simple problems. 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.
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SolidWorks Flow Simulation Analyze Satisfied? No Yes HardwareĤ Benefits of Analysis Design cycles are expensive and time-consuming.Īnalysis reduces the number of design cycles. 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. 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 is used by students, designers, analysts, engineers, and other professionals to produce highly efficient designs and/or optimize their performance.ģ Design Cycle with SolidWorks Flow Simulation SolidWorks Flow Simulation simulates the testing of your model's prototype in its working fluid environment.
#Solidworks flow simulation report software#
SolidWorks Flow Simulation is a fluid flow and heat transfer analysis software fully integrated in SolidWorks.