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1. Direct CAD to CFD
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Flo.EFD uses your existing 3D CAD geometry to help you simulate your designs in real-world conditions. Flo.EFD automatically differentiates between the fluid and solid regions for internal and external flows and automatically represents the fluid domain.analysis.
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2. Rectangular Adaptive Meshing
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Flo.EFD features a robust automatic mesher for fluid and solid regions including automatic mesh refinement/unrefinement due to geometrical and/or physical (solution adaptive) requirements. One can use the automatic mesher or manually manipulate the mesh.
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3. Modified Wall Functions
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Flo.EFD features grid-independent near wall modeling by using Partial Cells technology. This technology enables you to correctly simulate the boundary layer phenomena for fluid flow and heat transfer effects without needing a specifically designed mesh or a lot of time to solve the problem.
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4. Laminar-Transitional-Turbulent Models
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Flo.EFD supports laminar, transitional and turbulent flow regimes and automatically identifies when and where the flow characteristics change within your model.
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5. Automatic Convergence Control
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Cutting-edge numerical methods with multi-grid schemes and robust convergence behavior in Flo.EFD ensure that your first run converges without any complications.
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6. Design Variants Analysis
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With Flo.EFD it is easy to conduct “what-if” analyses. You can create multiple variations of your designs by modifying your solid model and then analyse it and without having to reapply loads, boundary conditions, material properties etc. You can then simply compare the results and choose the best possible design.
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7. EUI – Engineering User Interface
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Flo.EFD offers an extremely easy-to-use user interface. Instead of dealing with technical jargon such as y+ value and Dirichlet Boundary Conditions, you deal with terms such as walls, inlets or outlets. You can therefore focus on solving your problems as opposed to figuring how to use the software.
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