Free Download Mentor Graphics Siemens Simcenter FloEFD for Windows is a full-featured 3D computational fluid dynamics analysis solution built into major MCAD systems such as Creo, CATIA V5, Siemens NX, Solid Edge, and SolidWorks. It tightly integrates with Inventor.
Overview of Siemens Simcenter FloEFD
As an award-winning frontloading CFD solution, FloEFD enables users to move CFD simulation early into the design process. It can help engineers examine trends and dismiss less desirable design options. Fast to learn and easy to use, FloEFD eliminates the workflow complexity and meshing overheads of old-school CFD software.
FloEFD helps design engineers conduct upfront, concurrent CFD analysis using the familiar MCAD interface. This reduces design times by magnitude compared to traditional methods and products.
Concurrent CFD can reduce simulation time by as much as 65 to 75 percent over traditional CFD tools. It optimizes product performance and reliability while reducing physical prototyping and development costs without time or material penalties.
Mentor CFD delivers fluid flow and heat transfer simulation solutions used to optimize a design created with CAD. Mentor’s portfolio of CFD software provides fast, accurate, and design-centric simulation to global players in many industries, including automotive, electronics, power, process, and manufacturing. Learn more
Features of Siemens Simcenter FloEFD
- Analysis of the hydro-aerodynamic and heat transfer of two - and three-dimensional models
- Analysis of the outer and inner flow flows
- Analysis of steady and unsteady flow
- The flow of incompressible fluid and compressible gas, including but not limited to the combustible mixture at subsonic, transonic, supersonic kolam, and hypersonic modes Technica
- Condensation of water vapor
- Calculation of relative humidity in gas streams
- Flow of non-Newtonian fluids (only laminar flow regime)
- Flow incompressible fluid (fluid density depends on pressure)
- Flows in real gases
- Analysis of laminar, turbulent, and transient flows
- Analysis of vortex flows and fans
- Analysis streams with solids
- Analysis of heat transfer within and between fluids and solids
- Analysis of tealoperedachi inside solids in lack of washing the flux
- calculation of the thermal contact, the resistance
- Calculation of the electric contact resistance
- Thermoelectric coolers
- Heat transfer by radiation
- Joule heating
- flows with gravity effects (also known as the buoyancy effect)
- Porous media
- Heat pipes
- Heat transfer in printed circuit boards
- Heat transfer in perforated plates
- Flow aerozolnyh flows
- roughness Accounting bodies at a flow
- Accounting tangential motion walls (a stirred and rotation )
- Flow in rotating devices
- Cavitation in fluid flows
- Combustion in gas mixtures
System Requirements and Technical Details
- Microsoft Windows 7 Professional, Ultimate or Enterprise 64bit edition, Windows 8, Pro or Enterprise 64bit, Windows 10 Pro or Enterprise 64bit
- For solver:Microsoft Windows 2012 Server x64, Windows 2012 Server R2 x64, Linux RHEL 6.6, RHEL 7.3, Windows Server 2008 R2 with HPC Pack 2008 R2, Linux SUSE SLES 11 SP3, SUSE SLES 12 SP0
- Microsoft Office 2013, Microsoft Office 2010, Microsoft Office 2007
- the Ethernet network A adapter
- Mouse or OTHER pointing device
- 4 GB RAM minimum, more recommended
- 1 GB of free hard disk space, more required for simulation models
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