Search the Community

Size:5.92 GB |Languages: FloEFD is the fastest and most efficient computational fluid dynamics analysis tool that is tightly integrated with all major CAD workflows including Inventor and SolidEdge. It enables engineers to directly work on their CAD model for preparing and evaluating their concurrent CFD simulation. In addition, the unique 1D-3D CFD coupling with FloMASTER is an industry first, providing a tight coupling of 1D and 3D software technologies engineered to work natively together with integrated source code. It is the only CFD software delivering local user interfaces in Japanese, Chinese, French, German and Russian. FloEFD Standalone version does not require pre-installed CAD systems, is based on advanced Computational Fluid Dynamics (CFD) technology and allows you to analyze a wide range of complex problems, including: -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 combustible mixture at subsonic, transonic, supersonic kovom and hypersonic modes itecheniya -Condensation of water vapor -Calculation of relative humidity in gas streams -Flow of non-Newtonian fluids (only laminar flow regime) -Flow in compressible 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 tealoperedachi inside solids in lack of washing the flux -calculation of the thermal contact th 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 What's New: Read: FLOEFD_rh.pdf DOWNLOAD (Buy premium account for maximum speed and resuming ability) https://nitroflare.com/view/01A59FDE46A0F19/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part1.rar https://nitroflare.com/view/20465F5259C9572/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part2.rar https://nitroflare.com/view/E715B950D276FC6/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part3.rar https://nitroflare.com/view/7EA40DB4B4E10EF/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part4.rar https://nitroflare.com/view/3A4BE3CB46FB707/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part5.rar https://nitroflare.com/view/D5AB8BAA1262ADC/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part6.rar https://rapidgator.net/file/f9375c9f357a965ff8306078b65ceda8/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part1.rar https://rapidgator.net/file/f21a72419bb918286786eee49ac19c4f/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part2.rar https://rapidgator.net/file/e3c06edc4ebed686d115582cd79159c2/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part3.rar https://rapidgator.net/file/c7f4e4e9899bacfbeec2d69cf1da0883/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part4.rar https://rapidgator.net/file/956be39f3ab3918669a869d6067ea9f7/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part5.rar https://rapidgator.net/file/29c737aae5a880dea5a86c02fbe95849/mszls.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.Standalone.part6.rar

Siemens Simcenter FloEFD 2021.2.0 v5312 | 10.6 Gb Languages Supported: English, Deutsch, Français, 中文, 日本語, , 한국어 Product:Siemens Simcenter FloEFD Version:2021.2.0 v5312 * Supported Architectures:x64 Website Home Page :www.plm.automation.siemens.com Languages Supported:multilanguage System Requirements:PC ** Size:10.6 Gb Siemens Digital Industries Software announces the new release of its Simcenter FLOEFD 2021.2.0 v5312 software, a CAD-embedded and Standalone computational fluid dynamics (CFD) tool. This new release provides a range of new features and enhancements. [b[i]What's new in Simcenter FLOEFD 2021.2.0[/i][/b] FloEFD for NX is a powerful computational fluid dynamics (CFD) analysis tool that is embedded into Siemens NX. It enables design engineers to frontload CFD by moving simulation early into the design process where it is more cost effective to identify and fix problems. With its unique combination of intuitive interface, and fast as well as accurate technology, Simcenter FLOEFD for NX can be inserted into your current design process without any disruption, streamlining your workflow and improving productivity by 40x. Use the power of Simcenter FLOEFD for NX with its direct interface to HEEDS Design Space Exploration software to select the most optimal choice. When needed, Simcenter FLOEFD Flexx, enables you to access multiple CAD systems for simulation - useful for dealing with legacy data or using multiple CAD systems on the same project. With Simcenter FLOEFD for NX the power of CFD simulation is finally in your hands [b[i]New Features[/i][/b] The following new features are available in this release: - Structural: Linear buckling. Linear buckling structural analysis is now possible. - Structural: Modal frequency analysis of loaded model. Modal frequency analysis of a loaded model is now possible. - Structural: Iterative algebraic solver. Iterative algebraic solver can be activated to solve memory intensive structural problems, for example very complex PCBs, to minimize memory requirements for a structural simulation. The iterative solver produces longer run times than the default "Direct" solver so the iterative solver is recommended to be used only if the available memory is insufficient for the simulation task. - Electromagnetics: p-Adaption. Electromagnetic solver refinement of polynomial order. To increase accuracy for an electromagnetic analysis in local areas, you can activate automatic increasing of polynomial order (up to order three) in local areas. - Electromagnetics: Dynamic Rectangle improvements. The dynamic rectangle can be easily oriented by setting coordinates and angles directly in the callout. - Combustion: Three component mixture. Combustible mixtures can have three components, and the third component can be fuel or oxidizer. - Teamcenter: Added FLOEFD results preview in TC. Each of the resulting pictures, video files as well as Microsoft Word documents and Microsoft Excel spreadsheets are stored in separate typed datasets and can be viewed with built-in Teamcenter software tools. Simcenter FLOEFD software for NX software Scene files are stored in a new special dataset type supported by Teamcenter version 13.2 and later and can be viewed with the standalone free of charge Simcenter FLOEFD Viewer. - SmartPCB: HyperLynx report. You can now optionally enable a HyperLynx software report to study the results of a co-simulation inside HyperLynx. - Two Resistor: Power value is added to the name. By default two-resistors show the power in the name. - Radiation Source: Coordinate system selection. You can now select a local coordinate system to simplify definition of coordinate dependent radiation sources (for diffusive sources). FloEFD 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. As an award-winning frontloading CFD solution, FloEFD enables users to move CFD simulation early into the design process where 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. Simcenter FLOEFD SC is a new Simcenter FLOEFD product available for Simcenter 3D users (starting from 2019.2-1880 version) [b[i]New Features[/i][/b] The following new features are available in this release: - Structural: Linear buckling. Linear buckling structural analysis is now possible. - Structural: Modal frequency analysis of loaded model. Modal frequency analysis of a loaded model is now possible. - Structural: Iterative algebraic solver. Iterative algebraic solver can be activated to solve memory intensive structural problems, for example very complex PCBs, to minimize memory requirements for a structural simulation. The iterative solver produces longer run times than the default "Direct" solver so the iterative solver is recommended to be used only if the available memory is insufficient for the simulation task. - Electromagnetics: p-Adaption. Electromagnetic solver refinement of polynomial order. To increase accuracy for an electromagnetic analysis in local areas, you can activate automatic increasing of polynomial order (up to order three) in local areas. - Electromagnetics: Dynamic Rectangle improvements. The dynamic rectangle can be easily oriented by setting coordinates and angles directly in the callout. - Combustion: Three component mixture. Combustible mixtures can have three components, and the third component can be fuel or oxidizer. - SmartPCB: HyperLynx report. You can now optionally enable a HyperLynx software report to study the results of a co-simulation inside HyperLynx. - Two Resistor: Power value is added to the name. By default two-resistors show the power in the name. - Radiation Source: Coordinate system selection. You can now select a local coordinate system to simplify definition of coordinate dependent radiation sources(for diffusive sources). - Radiation Source: Add Radiation Source into Parameter Editor. You can now change Radiation power and resolution of rays for multiple projects at once in the Parameter Editor. - Thermal netlists: Intelligent naming in VHDL-AMS format. The point goal names are extended with the "extracted_tnetlist_" prefix for easier tracking in a system tool. - Turbulence 2nd order approximation. The second order approximation is now used by default for convective terms of turbulence equations. - Add from components: Move to active Project. A feature linked to assembly's project from assembly subcomponent can now be easily moved to assembly's project including breaking the original link using the new Move to Project command. - Goals: Perforated Plate now has Pressure Drop and Loss coefficient goals. Pressure Drop and Hydraulic Loss Coefficient feature goals are added for perforated plate. - Advanced control parameters. You can now define a project's advanced control parameters in the Calculation Control Options dialog. Currently only one parameter is available: the parameter name is "TurbulenceOrder" and the parameter value can be "1" for the first order approximations and "2" for the second order. - Streamlines with arrows. Streamlines can be seen with arrows if an MGC_STREAMDIR environment system variable is activated. - Customize Feature improved. The license selection in the Customize Feature dialog was improved to avoid license conflicts if composite licenses (e.g. Electronics Cooling Center, Ultra) are available together with atomic licenses (e.g. Electronic Cooling Module). An option to use selected licenses only for the current session is added. - Licensing: Adding Simcenter FLOEFD SC to Flexx licenses with Simcenter FLOEFD for NX. All Flexx licenses which have the Simcenter FLOEFD software for NX software product (for example, MG250205FL FloEFD Flexx3.4 S.NX.V5 Stn SW, MG251142FL FloEFD Flexx 2.2 S.NX Stn SW, etc.) can now be used for concurrent use of Simcenter FLOEFD SC software, so the Simcenter FLOEFD SC product is added into Flexx license. - Licensing: Add Package Creator to EDABridge. EDABridge module now has Simcenter FLOEFD Package Creator capability (the "efdpcreator" license is added to EDABridge product, MG273852FL). Simcenter FLOEFD software for Solid Edge delivers the industry's leading computational fluid dynamics (CFD) analysis tool for fluid flow and heat transfer. Fully embedded in Solid Edge, Simcenter FLOEFD has intelligent tech-nology at its core to help make CFD eas-ier, faster and more accurate. It also enables design engineers to frontload CFD, or move simulation early into the design process, allowing users to iden-tify and fix problems earlier, saving time and money and enhancing productivity by up to 40 times [b[i]New Features[/i][/b] The following new features are available in this release: - Structural: Linear buckling. Linear buckling structural analysis is now possible. - Structural: Modal frequency analysis of loaded model. Modal frequency analysis of a loaded model is now possible. - Structural: Iterative algebraic solver. Iterative algebraic solver can be activated to solve memory intensive structural problems, for example very complex PCBs, to minimize memory requirements for a structural simulation. The iterative solver produces longer run times than the default "Direct" solver so the iterative solver is recommended to be used only if the available memory is insufficient for the simulation task. - Electromagnetics: p-Adaption. Electromagnetic solver refinement of polynomial order. To increase accuracy for an electromagnetic analysis in local areas, you can activate automatic increasing of polynomial order (up to order three) in local areas. - Electromagnetics: Dynamic Rectangle improvements. The dynamic rectangle can be easily oriented by setting coordinates and angles directly in the callout. - Combustion: Three component mixture. Combustible mixtures can have three components, and the third component can be fuel or oxidizer. - SmartPCB: HyperLynx report. You can now optionally enable a HyperLynxsoftware report to study the results of a co-simulation inside HyperLynx. - Two Resistor: Power value is added to the name. By default two-resistors show the power in the name. - Radiation Source: Coordinate system selection. You can now select a local coordinate system to simplify definition of coordinate dependent radiation sources(for diffusive sources). - Radiation Source: Add Radiation Source into Parameter Editor. You can now change Radiation power and resolution of rays for multiple projects at once in the Parameter Editor. - Thermal netlists: Intelligent naming in VHDL-AMS format. The point goal names are extended with the "extracted_tnetlist_" prefix for easier tracking in a system tool. - Turbulence 2nd order approximation. The second order approximation is now used by default for convective terms of turbulence equations. - Add from components: Move to active Project. A feature linked to assembly's project from assembly subcomponent can now be easily moved to assembly's project including breaking the original link using the new Move to Project command. - Goals: Perforated Plate now has Pressure Drop and Loss coefficient goals. Pressure Drop and Hydraulic Loss Coefficient feature goals are added for perforated plate. - Advanced control parameters. You can now define a project's advanced control parameters in the Calculation Control Options dialog. Currently only one parameter is available: the parameter name is "TurbulenceOrder" and the parameter value can be "1" for the first order approximations and "2" for the second order. - Streamlines with arrows. Streamlines can be seen with arrows if an MGC_STREAMDIR environment system variable is activated. - Customize Feature improved. The license selection in the Customize Feature dialog was improved to avoid license conflicts if composite licenses (e.g. Electronics Cooling Center, Ultra) are available together with atomic licenses (e.g. Electronic Cooling Module). An option to use selected licenses only for the current session is added. - Licensing: Add Package Creator to EDABridge. EDABridge module now has Simcenter FLOEFD Package Creator capability (the "efdpcreator" license is added to EDABridge product, MG273852FL). FloEFD for Creo is a full-featured 3D fluid flow, heat transfer analysis package-totally integrated into PTC Creo (and Pro/ENGINEER). FloEFD is both fast to learn and fast to use because it doesn't come with the numerical complexity and meshing overheads of traditional high-end computational fluid dynamics (CFD). It is the only CFD analysis tool that is truly embedded into Creo Parametric. Unlike other 3rd party CFD programs, FloEFD for Creo works directly with native Creo geometry - with no translation or copies - in order to keep pace with on-going design changes. FloEFD for Creo has the same "look and feel" so you can focus on solving your problem instead of learning a new environment. By using the Creo geometry directly and solid model information such as features and parameters, you can simulate your designs in real-world conditions. Direct use of native geometry is an extremely powerful feature since it provides you with functionality that is not easily offered by other CFD programs. Because you're using the same exact geometry for CAD and analysis, you maintain one set of data across your product design process, and your analysis is always in tune with your design. [b[i]New Features[/i][/b] The following new features are available in this release: - Structural: Linear buckling. Linear buckling structural analysis is now possible. - Structural: Modal frequency analysis of loaded model. Modal frequency analysis of a loaded model is now possible. - Structural: Iterative algebraic solver. Iterative algebraic solver can be activated to solve memory intensive structural problems, for example very complex PCBs, to minimize memory requirements for a structural simulation. The iterative solver produces longer run times than the default "Direct" solver so the iterative solver is recommended to be used only if the available memory is insufficient for the simulation task. - Electromagnetics: p-Adaption. Electromagnetic solver refinement of polynomial order. To increase accuracy for an electromagnetic analysis in local areas, you can activate automatic increasing of polynomial order (up to order three) in local areas. - Electromagnetics: Dynamic Rectangle improvements. The dynamic rectangle can be easily oriented by setting coordinates and angles directly in the callout. - Combustion: Three component mixture. Combustible mixtures can have three components, and the third component can be fuel or oxidizer. - SmartPCB: HyperLynx report. You can now optionally enable a HyperLynxsoftware report to study the results of a co-simulation inside HyperLynx. - Two Resistor: Power value is added to the name. By default two-resistors show the power in the name. - Radiation Source: Coordinate system selection. You can now select a local coordinate system to simplify definition of coordinate dependent radiation sources(for diffusive sources). - Radiation Source: Add Radiation Source into Parameter Editor. You can now change Radiation power and resolution of rays for multiple projects at once in the Parameter Editor. - Thermal netlists: Intelligent naming in VHDL-AMS format. The point goal names are extended with the "extracted_tnetlist_" prefix for easier tracking in a system tool. - Turbulence 2nd order approximation. The second order approximation is now used by default for convective terms of turbulence equations. - Add from components: Move to active Project. A feature linked to assembly's project from assembly subcomponent can now be easily moved to assembly's project including breaking the original link using the new Move to Project command. - Goals: Perforated Plate now has Pressure Drop and Loss coefficient goals. Pressure Drop and Hydraulic Loss Coefficient feature goals are added for perforated plate. - Advanced control parameters. You can now define a project's advanced control parameters in the Calculation Control Options dialog. Currently only one parameter is available: the parameter name is "TurbulenceOrder" and the parameter value can be "1" for the first order approximations and "2" for the second order. - Streamlines with arrows. Streamlines can be seen with arrows if an MGC_STREAMDIR environment system variable is activated. - Customize Feature improved. The license selection in the Customize Feature dialog was improved to avoid license conflicts if composite licenses (e.g. Electronics Cooling Center, Ultra) are available together with atomic licenses (e.g. Electronic Cooling Module). An option to use selected licenses only for the current session is added. - Licensing: Add Package Creator to EDABridge. EDABridge module now has Simcenter FLOEFD Package Creator capability (the "efdpcreator" license is added to EDABridge product, MG273852FL). - Creo material import. Material definition set in Creo design software can now be imported into Engineering Database. Simcenter FLOEFD for Catia V5 puts the power of computational fluid dynamics (CFD) simulation in the hands of the design engineer. An award-winning software, Simcenter FLOEFD works directly inside your CAD software. Now you can explore the full potential of designs quickly: understand the influence of changes in the geometry or boundary conditions on the results effortlessly, conduct fast and frequent what-if analysis, and generate insightful reports. Realize the full potential of ideas quickly and save time and money by only progressing the design concepts with the most promise to the validation phase and when you need to use multiple CAD platforms on the same project or for legacy data, you can use Simcenter FLOEFD Flexx - a flexible licensing scheme enabling you to simulate your design in the CAD system of your choice. [b[i]New Features[/i][/b] The following new features are available in this release: - Structural: Linear buckling. Linear buckling structural analysis is now possible. - Structural: Modal frequency analysis of loaded model. Modal frequency analysis of a loaded model is now possible. - Structural: Iterative algebraic solver. Iterative algebraic solver can be activated to solve memory intensive structural problems, for example very complex PCBs, to minimize memory requirements for a structural simulation. The iterative solver produces longer run times than the default "Direct" solver so the iterative solver is recommended to be used only if the available memory is insufficient for the simulation task. - Electromagnetics: p-Adaption. Electromagnetic solver refinement of polynomial order. To increase accuracy for an electromagnetic analysis in local areas, you can activate automatic increasing of polynomial order (up to order three) in local areas. - Electromagnetics: Dynamic Rectangle improvements. The dynamic rectangle can be easily oriented by setting coordinates and angles directly in the callout. - Combustion: Three component mixture. Combustible mixtures can have three components, and the third component can be fuel or oxidizer. - SmartPCB: HyperLynx report. You can now optionally enable a HyperLynxsoftware report to study the results of a co-simulation inside HyperLynx. - Two Resistor: Power value is added to the name. By default two-resistors show the power in the name. - Radiation Source: Coordinate system selection. You can now select a local coordinate system to simplify definition of coordinate dependent radiation sources(for diffusive sources). - Radiation Source: Add Radiation Source into Parameter Editor. You can now change Radiation power and resolution of rays for multiple projects at once in the Parameter Editor. - Thermal netlists: Intelligent naming in VHDL-AMS format. The point goal names are extended with the "extracted_tnetlist_" prefix for easier tracking in a system tool. - Turbulence 2nd order approximation. The second order approximation is now used by default for convective terms of turbulence equations. - Add from components: Move to active Project. A feature linked to assembly's project from assembly subcomponent can now be easily moved to assembly's project including breaking the original link using the new Move to Project command. - Goals: Perforated Plate now has Pressure Drop and Loss coefficient goals. Pressure Drop and Hydraulic Loss Coefficient feature goals are added for perforated plate. - Advanced control parameters. You can now define a project's advanced control parameters in the Calculation Control Options dialog. Currently only one parameter is available: the parameter name is "TurbulenceOrder" and the parameter value can be "1" for the first order approximations and "2" for the second order. - Streamlines with arrows. Streamlines can be seen with arrows if an MGC_STREAMDIR environment system variable is activated. - Customize Feature improved. The license selection in the Customize Feature dialog was improved to avoid license conflicts if composite licenses (e.g. Electronics Cooling Center, Ultra) are available together with atomic licenses (e.g. Electronic Cooling Module). An option to use selected licenses only for the current session is added. - Licensing: Add Package Creator to EDABridge. EDABridge module now has Simcenter FLOEFD Package Creator capability (the "efdpcreator" license is added to EDABridge product, MG273852FL). - CATIA V5: Automatic disabling of cache. Enabling cache option in CATIA software V5 may cause some issues therefore Simcenter FLOEFD software for CATIA software V5 detects if the cache is activated and automatically disables it. Simcenter FLOEFD is part of the Simcenter portfolio of simulation and test solutions that enables companies optimize designs and deliver innovations faster and with greater confidence. Simcenter FLOEFD helps engineers simulate fluid flow and thermal problems quickly and accurately within their preferred CAD environment. Due to its unique technology, it can reduce the overall simulation time by up to 75%. [b[i]New Features[/i][/b] The following new features are available in this release: - Structural: Linear buckling. Linear buckling structural analysis is now possible. - Structural: Modal frequency analysis of loaded model. Modal frequency analysis of a loaded model is now possible. - Structural: Iterative algebraic solver. Iterative algebraic solver can be activated to solve memory intensive structural problems, for example very complex PCBs, to minimize memory requirements for a structural simulation. The iterative solver produces longer run times than the default "Direct" solver so the iterative solver is recommended to be used only if the available memory is insufficient for the simulation task. - Electromagnetics: p-Adaption. Electromagnetic solver refinement of polynomial order. To increase accuracy for an electromagnetic analysis in local areas, you can activate automatic increasing of polynomial order (up to order three) in local areas. - Electromagnetics: Dynamic Rectangle improvements. The dynamic rectangle can be easily oriented by setting coordinates and angles directly in the callout. - Combustion: Three component mixture. Combustible mixtures can have three components, and the third component can be fuel or oxidizer. - SmartPCB: HyperLynx report. You can now optionally enable a HyperLynxsoftware report to study the results of a co-simulation inside HyperLynx. - Two Resistor: Power value is added to the name. By default two-resistors show the power in the name. - Radiation Source: Coordinate system selection. You can now select a local coordinate system to simplify definition of coordinate dependent radiation sources(for diffusive sources). - Radiation Source: Add Radiation Source into Parameter Editor. You can now change Radiation power and resolution of rays for multiple projects at once in the Parameter Editor. - Thermal netlists: Intelligent naming in VHDL-AMS format. The point goal names are extended with the "extracted_tnetlist_" prefix for easier tracking in a system tool. - Turbulence 2nd order approximation. The second order approximation is now used by default for convective terms of turbulence equations. - Add from components: Move to active Project. A feature linked to assembly's project from assembly subcomponent can now be easily moved to assembly's project including breaking the original link using the new Move to Project command. - Goals: Perforated Plate now has Pressure Drop and Loss coefficient goals. Pressure Drop and Hydraulic Loss Coefficient feature goals are added for perforated plate. - Advanced control parameters. You can now define a project's advanced control parameters in the Calculation Control Options dialog. Currently only one parameter is available: the parameter name is "TurbulenceOrder" and the parameter value can be "1" for the first order approximations and "2" for the second order. - Streamlines with arrows. Streamlines can be seen with arrows if an MGC_STREAMDIR environment system variable is activated. - Customize Feature improved. The license selection in the Customize Feature dialog was improved to avoid license conflicts if composite licenses (e.g. Electronics Cooling Center, Ultra) are available together with atomic licenses (e.g. Electronic Cooling Module). An option to use selected licenses only for the current session is added. - Licensing: Add Package Creator to EDABridge. EDABridge module now has Simcenter FLOEFD Package Creator capability (the "efdpcreator" license is added to EDABridge product, MG273852FL). - SWOEM new Geometry kernel. SWOEM 2021 SP3 is used as new geometry kernel. Simcenter FloEFDis a CFD-tool to simulate mainly flow and heat transfer, just like Simcenter STAR-CCM+, but the software is a frontloading CFD-tool created for design engineers without experience of CFD simulations. Simcenter FloEFD is available as a stand alone version, but it can also be used as a plug-in to a CAD-program. In the plug-in version you can easily change between editing the geometry in CAD and get quick feedback about how the geometry performs regarding to the flow and/or the heat transfer. Simcenter FloEFD is a powerful and quick way of getting simulation results. The amount of settings needed to be defined are minimized to make it possible for a CAD engineer to evaluate the geometry before handing it over to the CFD engineer. By defining the physical problem, a goal which determines if the simulation is complete and setting rough mesh settings, the solution to the simulation is only one click away. Simcenter FLOEFD: Discover better designs faster Unleash the power of design space exploration to discover improved designs faster. With the help of an optional module based on Simcenter HEEDS technology, you can further extend the design exploration capabilities of Simcenter FLOEFD. In this video, we explore an IGBT model and gain insight into temperature variation, as well as flow dynamics of the baseplate design to achieve better cooling performance. Siemens Digital Industries Softwareis driving transformation to enable a digital enterprise where engineering, manufacturing and electronics design meet tomorrow. The Xcelerator portfolio helps companies of all sizes create and leverage digital twins that provide organizations with new insights, opportunities and levels of automation to drive innovation. Product:Siemens Simcenter FloEFD Version:2021.2.0 v5312 * Supported Architectures:x64 Website Home Page :www.plm.automation.siemens.com Languages Supported:multilanguage System Requirements:PC ** Size:10.6 Gb Siemens Simcenter FloEFD 2021.1.0 v5312 for NX / Simcenter3D Siemens Simcenter FloEFD 2021.1.0 v5312 for PTC Creo Siemens Simcenter FloEFD 2021.1.0 v5312 for Simcenter3D Siemens Simcenter FloEFD 2021.1.0 v5312 for CATIA V5 Siemens Simcenter FloEFD 2021.1.0 v5312 for Solid Edge Siemens Simcenter FloEFD 2021.1.0 v5312 Standalone Simcenter FLOEFD 2021.2.0 for Standalone Supported Platform - Microsoft Windows 10 Pro or Enterprise 64-bit (tested with v1909) - For solver: Microsoft Windows 2019 Server x64, Microsoft Windows 2012 Server x64, Windows 2012 Server R2 x64, Linux RHEL 6.6, RHEL 7.3, RHEL 7.6, Windows Server 2016, Windows Server 2016 with HPC Pack 2016, Linux SUSE SLES 11 SP3, SUSE SLES 12 SP0 - Microsoft Office 365, Microsoft Office 2019, Microsoft Office 2016, Microsoft Office 2013 - 8GB RAM minimum, more recommended - 8GB of free hard disk space, more required for simulation models Simcenter FLOEFD 2021.2.0 for NX / Simcenter3D Siemens NX 10.0.0.24, 10.0.2.6, 10.0.3.5 Siemens NX 11.0.0.33, 11.0.1.11, 11.0.2.7 Siemens NX 12.0.0.27, 12.0.2.9 Siemens NX 1847 series (tested versions 1855, 1867) Siemens NX 1872 series (tested versions 1872, 1876, 1880, 1884, 1888, 1892) Siemens NX 1899 series (tested versions 1899, 1903, 1907, 1911, 1915). The update option must not be used to install NX1899. Use of update option leads to missing files required for FLOEFD. An installation from scratch is required. Siemens NX 1926 series (tested version 1934) Siemens NX 1953 series (tested versions 1953, 1957, 1961, 1965, 1969, 1973) Siemens NX 1980 series (tested versions 1980) Simcenter 3D 2019.2 series (tested versions 1880, 1892) Simcenter 3D 2020.1 series (tested version 1919) Simcenter 3D 2020.2 series (tested version 1946) Simcenter 3D 2021.1 series (tested version 1961) Simcenter FLOEFD 2021.2.0 for Simcenter3D Simcenter 3D 2019.2 series (tested versions 1880, 1892) Simcenter 3D 2020.1 series (tested version 1919) Simcenter 3D 2020.2 series (tested version 1946) Simcenter 3D 2021.1 series (tested version 1961) Simcenter FLOEFD 2021.2.0 for Solid Edge - Solid Edge 2019 - Solid Edge 2020 - Solid Edge 2021 Simcenter FLOEFD 2021.2.0 for PTC Creo - reo Parametric v3 (recommended datecode M190) - Creo Parametric v4 (recommended datecode M120) - Creo Parametric v5 (recommended datecode v5.0.6.0) - Creo Parametric v6 (recommended datecode v6.0.6.0) - Creo Parametric v7 (recommended datecode v7.0.3.0) Simcenter FLOEFD 2021.2.0 for CATIA V5 - CATIA V5 R21 (recommended SP6) - CATIA V5-6 2014 (R24) (recommended SP7) - CATIA V5-6 2015 (R25) (recommended SP6) - CATIA V5-6 2016 (R26) (recommended SP6) - CATIA V5-6 2017 (R27) (recommended SP4) - CATIA V5-6 2018 (R28) (recommended SP5) - CATIA V5-6 2019 (R29) (recommended SP3) - CATIA V5-6 2020 (R30) (recommended SP2) DOWNLOAD (Buy premium account for maximum speed and resuming ability) https://nitroflare.com/view/4082439DD996A1C/zhrmc.FloEFD.2021.2.0.v5391.Creo.rar https://nitroflare.com/view/C6D5F5EEA8B1FAA/zhrmc.FloEFD.2021.2.0.v5391.NX.rar https://nitroflare.com/view/2864C624CBDA1F1/zhrmc.FloEFD.2021.2.0.v5391.Simcenter3D.rar https://nitroflare.com/view/FCE6D247DDB42A2/zhrmc.FloEFD.2021.2.0.v5391.Solid.Edge.rar https://nitroflare.com/view/36F82E9BDCB6D4C/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part01.rar https://nitroflare.com/view/0DEEF46FF9CBF5E/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part02.rar https://nitroflare.com/view/4329868A9353823/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part03.rar https://nitroflare.com/view/825C713D212C4BE/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part04.rar https://nitroflare.com/view/F5980961BE0D9D5/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part05.rar https://nitroflare.com/view/C9E0DADE266EDD0/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part06.rar https://nitroflare.com/view/2992D7AEBE37186/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part07.rar https://nitroflare.com/view/EC08D1D73462B61/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part08.rar https://nitroflare.com/view/32DF5CB1794876E/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part09.rar https://nitroflare.com/view/F9171C1BF712259/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part10.rar https://nitroflare.com/view/EC08E6D3DA45445/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part11.rar https://nitroflare.com/view/4474A70F98F49F9/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part12.rar https://nitroflare.com/view/7939891A7FC64C0/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part13.rar https://nitroflare.com/view/D90A24325C53CE6/zhrmc.FloEFD.2021.2.0.v5395.CatiaV5.rar https://rapidgator.net/file/ed3ffe9fd54c014a952b70a2b323f85a/zhrmc.FloEFD.2021.2.0.v5391.Creo.rar https://rapidgator.net/file/2295f89e0ea4bc837463e08ddceee76d/zhrmc.FloEFD.2021.2.0.v5391.NX.rar https://rapidgator.net/file/d4fafa37b240cd0f594158bbd771ea4e/zhrmc.FloEFD.2021.2.0.v5391.Simcenter3D.rar https://rapidgator.net/file/46de2a682edca66033ae4eb6c51558f0/zhrmc.FloEFD.2021.2.0.v5391.Solid.Edge.rar https://rapidgator.net/file/5bbd5096504e32306fdd73773e4a5be1/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part01.rar https://rapidgator.net/file/8d95eaeaddc6fa7abf02c9ea0b10eb80/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part02.rar https://rapidgator.net/file/24a24b65bd4485246985c902114745e7/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part03.rar https://rapidgator.net/file/db8cdec4948334fc6a989891ad597e63/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part04.rar https://rapidgator.net/file/fbdae85e866184759f31a0f6f33270c8/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part05.rar https://rapidgator.net/file/a50ccbab6816b69185e23db2a5e77d9b/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part06.rar https://rapidgator.net/file/c838fc64da299631ecf3ab82dd9358f1/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part07.rar https://rapidgator.net/file/4c277d07aea1a1420a7cc61fc5bec296/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part08.rar https://rapidgator.net/file/3980e206e4f20a1c440d7a634e45c2a9/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part09.rar https://rapidgator.net/file/eddd2f0d875d4fe7b70e5a2f36a1edee/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part10.rar https://rapidgator.net/file/9877223ed04a7200289f6b6f31b9997a/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part11.rar https://rapidgator.net/file/1e52f23a6fb8cea0a15a3e23d3bb7f13/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part12.rar https://rapidgator.net/file/b25591ee47a47ee3c1f57ded4386940a/zhrmc.FloEFD.2021.2.0.v5391.Standalone.part13.rar https://rapidgator.net/file/17e51f0bbe2284db277ad7d709cab977/zhrmc.FloEFD.2021.2.0.v5395.CatiaV5.rar

File Size: 948.1 MB FloEFD for CREO applications for modeling the flow and heat transfer in liquids and gases in a CREO environment. FloEFD is fully integrated into the DS CREO environment and uses solvers based on computational fluid dynamics (CFD) technology. Main advantages. Working directly with the model in the CREO environment. There is no need to convert the geometry to another format, often leading to loss of quality. The task of calculating hydrodynamics and heat transfer at any is fully synchronized with the model minimization efforts, and as a consequence, the error in the process of synchronization tasks and set hydro-model Automatic dete tirovanie changes in the model.There is no need for "manual" construction of the geometry describing the area occupied by the liquid / gas. Automatic deteation of the area occupied by the liquid / gas. The same graphic controls are used as in other CREO modules. Very easy to learn. Easy to use. Uses the CREO model tree. Intuitive and fully interactive Use when creating a project / processing the results of model elements selected in the graphics window / model tree Visualization of calculation results in the form of static and animated images directly in the graphics window Support for exporting results to MS Excel, Word. Ability to play and record animations Support for multi-configuration of the model For effective multi-parameter research implemented - the ability to clone projects, automatically start a series of calculations. It is automated to reduce the number of cases when it is necessary to involve specialists in the field of gas-gas dynamics and heat transfer to analyze the formulation and calculation results Reliable and fully automatic computational grid generator A unique model of turbulence and boundary layer is used Automatic control of solution convergence. Reliable and accurate numerical methods and physical models A wide range of physical models Exact solution The ability to calculate very complex structures and physical phenomena. Computational Fluid Dynamics (CFD) also allows you to analyze a wide range of complex problems, including: -Analysis of hydro-aerodynamics and heat transfer of two- and three-dimensional models -Analysis of external and internal flow patterns -Analysis of steady and unsteady flow -Flow of incompressible fluid and compressible gas including including combustible mixture at subsonic, transonic, supersonic and hypersonic modes itecheniya -Condensation of steam -calculation of the relative humidity in the gas streams -Non-Newtonian flow and Fluid (only laminar flow regime) -The flow in the compressible fluid (the fluid density is dependent on the pressure) -Currents in real gases -Analysis of Laminar, turbulent and unsteady flows -Analysis of vortex flows and fans -Analysis of flows with solid inclusions -Analysis of heat transfer inside and between liquids and solids -Analysis of heat transfer inside solids in the absence of washer flow -Calculation of thermal contact resistance -Calculation of electrical contact resistance -Thermoelectric coolers -Radiant heat transfer -Joule heating -Streams with gravitational effects (also known as buoyancy effect i) -Porous media -Heat pipes -Heat transfer in printed circuit boards -Heat transfer in perforated plates -Flow of aerosol flows -Accounting for body roughness during flow -Accounting for tangential wall motion (mixing and rotation) -Flow in rotating devices -Cavitation in fluid flows -Combustion in gas mixtures Creo Parametric v3 (recommended datecode M190) Creo Parametric v4 (recommended datecode M120) Creo Parametric v5 (recommended datecode v5.0.6.0) Creo Parametric v6 (recommended datecode v6.0.6.0) Creo Parametric v7 (recommended datecode v7.0.3. 0) Read: FLOEFD_for_Creo_rh.pdf DOWNLOAD (Buy premium account for maximum speed and resuming ability) https://nitroflare.com/view/5DC78650DA9A449/gzn6r.Siemens.Simcenter.FloEFD.2021.2.0.v5312.for.PTC.Creo.x64.rar https://rapidgator.net/file/15aef7226e257227809b864118d8e8de/gzn6r.Siemens.Simcenter.FloEFD.2021.2.0.v5312.for.PTC.Creo.x64.rar

Size:899.92 MBLanguages: FloEFD for Solid Edge is an application for modeling the flow and heat transfer in liquids and gases in the Siemens Solid Edge environment. FloEFD is fully integrated into Siemens Solid Edge environment and uses computational fluid dynamics (CFD) based solvers. Main advantages Working directly with the model in the Siemens Solid Edge environment There is no need to convert the geometry to another format, which often leads to a loss of quality.The task of calculating fluid dynamics and heat transfer at any time is fully synchronized with the model Minimization of efforts, and as a result, errors in the synchronization process of the set fluid dynamics problem and the model Automatic detection of changes in the model. There is no need for "manual" construction of the geometry describing the area occupied by the liquid / gas Automatic detection of the area occupied by liquid / gas. The same graphic controls are used as in other modules of the corresponding CAD Very easy to learn Easy to use Uses the CAD model tree. Intuitive and fully interactive Use when creating a project / processing results of model elements selected in the graphics window / model tree Visualization of the calculation results in the form of static and animated images directly in the graphics window Support for exporting results to MS Excel, Word. The ability to play and record animations. Support for the multi-configuration of the model. For an efficient multi-parameter study, implemented - the ability to clone projects, automatic start of a series of calculations. Automated to reduce the number of cases when it is necessary to involve specialists in the field of fluid dynamics and heat transfer to analyze the formulation and calculation results Reliable and fully automatic generator of computational grids . Unique turbulence and boundary layer model is used. Automatic control of solution convergence. Reliable and accurate numerical methods and physical models Large set of physical models Exact solution Ability to calculate very complex structures and physical phenomena. Computational Fluid Dynamics (CFD) and allows you to analyze a wide range of complex problems, including: Analysis of hydro-aerodynamics and heat transfer of two - and three-dimensional models Analysis of external and internal flow flows Analysis of steady and unsteady flow Incompressible liquid and compressible gas flow , including including a combustible mixture, at subsonic, transonic, supersonic and hypersonic flow regimes Condensation of water vapor Calculation of the relative humidity of air in gas streams Flow in non-Newtonian fluids (only laminar flow regime) Flow in a compressible fluid (fluid density depends on pressure) Flows in real gases Laminar analysis , turbulent and unsteady flows Analysis of vortex flows and fans Analysis of flows with solid inclusions Analysis of heat transfer inside and between liquids and solids Analysis of heat transfer inside solids in the absence of a washing flow Calculation of thermal contact resistance Calculation of electrical contact resistance Thermoelectric coolers Heat transfer by radiation Joule heating Flows with gravitational effects (also known as the buoyancy effect) Porous media Heat pipes Heat transfer in printed circuit boards Heat transfer in perforated plates Aerosol flow Taking into account the roughness of bodies during tangential flow wall movements (mixing and rotation) Flow in rotating devices Cavitation in liquid flows Combustion in gas mixtures System requirements: Microsoft Windows 7 Professional, Ultimate or Enterprise 64-bit edition, Microsoft Windows 10 Pro or Enterprise 64- bit (tested with v1809) For solver: Microsoft Windows 2012 Server x64, Windows 2012 Server R2 x64, Windows Server 2016, Windows Server 2016 with HPC Pack 2016 Microsoft Office 2013; Microsoft Office 2010; Microsoft Office 2007 Microsoft Windows Media Player 7.0 or higher Siemens Solid Edge 2019 Siemens Solid Edge 2020 Siemens Solid Edge 2021 Ethernet network adapter Mouse or other pointing device 4 GB RAM minimum, more recommended 1 GB of free hard disk space, more required for simulation models What's New: Read: FLOEFD_for_Solid_Edge_rh.pdf DOWNLOAD (Buy premium account for maximum speed and resuming ability) https://nitroflare.com/view/0115F6C72729AC8/vie5a.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.for.Solid.Edge.rar https://rapidgator.net/file/e60f86af821f15d714d00bbe2c7ab92b/vie5a.Siemens.Simcenter.FloEFD.2021.2.0.v5391.x64.for.Solid.Edge.rar

Size:919.8 MBLanguages: FloEFD for CREO applications for modeling the flow and heat transfer in liquids and gases in a CREO environment.FloEFD is fully integrated into the DS CREO environment and uses solvers based on computational fluid dynamics (CFD) technology. Main advantages. Working directly with the model in the CREO environment. There is no need to convert the geometry to another format, often leading to loss of quality. The task of calculating hydrodynamics and heat transfer at any time time is fully synchronized with the model minimization efforts, and as a consequence, the error in the process of synchronization tasks and set hydro-model Automatic dete tirovanie changes in the model.There is no need for "manual" construction of the geometry describing the area occupied by the liquid / gas. Automatic determination of the area occupied by the liquid / gas. The same graphic controls are used as in other CREO modules. Very easy to learn. Easy to use. Uses the CREO model tree. Intuitive and fully interactive Use when creating a project / processing the results of model elements selected in the graphics window / model tree Visualization of calculation results in the form of static and animated images directly in the graphics window Support for exporting results to MS Excel, Word. Ability to play and record animations Support for multi-configuration of the model For effective multi-parameter research implemented - the ability to clone projects, automatically start a series of calculations. It is automated to reduce the number of cases when it is necessary to involve specialists in the field of gas-gas dynamics and heat transfer to analyze the formulation and calculation results Reliable and fully automatic computational grid generator A unique model of turbulence and boundary layer is used Automatic control of solution convergence. Reliable and accurate numerical methods and physical models A wide range of physical models Exact solution The ability to calculate very complex structures and physical phenomena. Computational Fluid Dynamics (CFD) also allows you to analyze a wide range of complex problems, including: -Analysis of hydro-aerodynamics and heat transfer of two- and three-dimensional models -Analysis of external and internal flow patterns -Analysis of steady and unsteady flow -Flow of incompressible fluid and compressible gas including including combustible mixture at subsonic, transonic, supersonic and hypersonic modes itecheniya -Condensation of steam -calculation of the relative humidity in the gas streams -Non-Newtonian flow and Fluid (only laminar flow regime) -The flow in the compressible fluid (the fluid density is dependent on the pressure) -Currents in real gases -Analysis of Laminar, turbulent and unsteady flows -Analysis of vortex flows and fans -Analysis of flows with solid inclusions -Analysis of heat transfer inside and between liquids and solids -Analysis of heat transfer inside solids in the absence of washer flow -Calculation of thermal contact resistance -Calculation of electrical contact resistance -Thermoelectric coolers -Radiant heat transfer -Joule heating -Streams with gravitational effects (also known as buoyancy effect i) -Porous media -Heat pipes -Heat transfer in printed circuit boards -Heat transfer in perforated plates -Flow of aerosol flows -Accounting for body roughness during flow -Accounting for tangential wall motion (mixing and rotation) -Flow in rotating devices -Cavitation in fluid flows -Combustion in gas mixtures Software: Creo Parametric v3 (recommended datecode M190) Creo Parametric v4 (recommended datecode M120) Creo Parametric v5 (recommended datecode v5.0.6.0) Creo Parametric v6 (recommended datecode v6.0.6.0) Creo Parametric v7 (recommended datecode v7.0.3. 0) What's New: Read: FLOEFD_for_Creo_rh.pdf DOWNLOAD (Buy premium account for maximum speed and resuming ability) https://nitroflare.com/view/27BE2682917A922/ix0lh.Siemens.Simcenter.FloEFD.2021.2.0.v5312.x64.for.PTC.Creo.rar https://rapidgator.net/file/eb89aa0fe1c5ce1eb1126e2068f43c67/ix0lh.Siemens.Simcenter.FloEFD.2021.2.0.v5312.x64.for.PTC.Creo.rar

File Size:930.88 MB FloEFD for Solid Edge is an application for modeling the flow and heat transfer in liquids and gases in the Siemens Solid Edge environment. FloEFD is fully integrated into Siemens Solid Edge environment and uses computational fluid dynamics (CFD) based solvers. Main advantages Working directly with the model in the Siemens Solid Edge environment There is no need to convert the geometry to another format, which often leads to a loss of quality.The task of calculating fluid dynamics and heat transfer at any time is fully synchronized with the model Minimization of efforts, and as a result, errors in the synchronization process of the set fluid dynamics problem and the model Automatic detection of changes in the model. There is no need for "manual" construction of the geometry describing the area occupied by the liquid / gas Automatic detection of the area occupied by liquid / gas. The same graphic controls are used as in other modules of the corresponding CAD Very easy to learn Easy to use Uses the CAD model tree. Intuitive and fully interactive Use when creating a project / processing results of model elements selected in the graphics window / model tree Visualization of the calculation results in the form of static and animated images directly in the graphics window Support for exporting results to MS Excel, Word. The ability to play and record animations. Support for the multi-configuration of the model. For an efficient multi-parameter study, implemented - the ability to clone projects, automatic start of a series of calculations. Automated to reduce the number of cases when it is necessary to involve specialists in the field of fluid dynamics and heat transfer to analyze the formulation and calculation results Reliable and fully automatic generator of computational grids . Unique turbulence and boundary layer model is used. Automatic control of solution convergence. Reliable and accurate numerical methods and physical models Large set of physical models Exact solution Ability to calculate very complex structures and physical phenomena. Computational Fluid Dynamics (CFD) and allows you to analyze a wide range of complex problems, including: Analysis of hydro-aerodynamics and heat transfer of two - and three-dimensional models Analysis of external and internal flow flows Analysis of steady and unsteady flow Incompressible liquid and compressible gas flow , including including a combustible mixture, at subsonic, transonic, supersonic and hypersonic flow regimes Condensation of water vapor Calculation of the relative humidity of air in gas streams Flow in non-Newtonian fluids (only laminar flow regime) Flow in a compressible fluid (fluid density depends on pressure) Flows in real gases Laminar analysis , turbulent and unsteady flows Analysis of vortex flows and fans Analysis of flows with solid inclusions Analysis of heat transfer inside and between liquids and solids Analysis of heat transfer inside solids in the absence of a washing flow Calculation of thermal contact resistance Calculation of electrical contact resistance Thermoelectric coolers Heat transfer by radiation Joule heating Flows with gravitational effects (also known as the buoyancy effect) Porous media Heat pipes Heat transfer in printed circuit boards Heat transfer in perforated plates Aerosol flow Taking into account the roughness of bodies during tangential flow wall movements (mixing and rotation) Flow in rotating devices Cavitation in liquid flows Combustion in gas mixtures System requirements: Microsoft Windows 7 Professional, Ultimate or Enterprise 64-bit edition, Microsoft Windows 10 Pro or Enterprise 64- bit (tested with v1809) For solver: Microsoft Windows 2012 Server x64, Windows 2012 Server R2 x64, Windows Server 2016, Windows Server 2016 with HPC Pack 2016 Microsoft Office 2013; Microsoft Office 2010; Microsoft Office 2007 Microsoft Windows Media Player 7.0 or higher Siemens Solid Edge 2019 Siemens Solid Edge 2020 Siemens Solid Edge 2021 Ethernet network adapter Mouse or other pointing device 4 GB RAM minimum, more recommended 1 GB of free hard disk space, more required for simulation models Whats New: Updates: official site does not provide any info about changes in this version. HomePage: https://www.mentor.com/ Link NitroFlare Link DOWNLOAD (Buy premium account for maximum speed and resuming ability) https://nitroflare.com/view/5A98D29644E4220/tkis5.Siemens.Simcenter.FloEFD.2021.2.1.v5446.x64.for.Solid.Edge.rar https://rapidgator.net/file/c4f202817862fb732fc98132c6adc28e/tkis5.Siemens.Simcenter.FloEFD.2021.2.1.v5446.x64.for.Solid.Edge.rar

File Size:992.82 MB FloEFD for Siemens NX is a powerful computational fluid dynamics (CFD) analysis tool that is embedded into Siemens NX. It enables design engineers to frontload CFD by moving simulation early into the design process where it is more cost effective to identify and fix problems and enhance productivity by x2 to x40. FloEFD is: Embedded in Siemens NX - one interface, one model Intuitive and easy-to-use Fast and has robust convergence criteria even for highly complex geometry Accurate due to use of intelligent technology It is also the only CFD software delivering local user interfaces in Japanese, Chinese, Korean, French, German and Russian. Experience streamlined workflows, faster results, and increased productivity with FloEFD. NX-embedded CFD Simulation CAD-embedded simulation enables engineers to conduct analysis in the same user environment as design. Therefore, engineers can use the latest CAD geometry for analysis to conduct multiple design studies and evaluate how the modifications influence the performance of the design without the hassle of data translation. Parametric Study and Design Comparison Functionality The compare configuration and parametric study capability inside FloEFD enables engineers to understand the influence of changes in the geometry or boundary conditions on the results. Users can evaluate the design envelope by assessing results by numerical values, by graphs and by visual images and animations and thereby compare a wide range of project permutations. Fast and Automated Meshing Technology with SmartCells FloEFD uses meshing technology which is recognized as the most efficient framework for simulating fluid flows, heat and mass transfer. In addition, the meshing process can be automated easily for even the most complex CAD geometries with the aid of SmartCells technology. SmartCells are unique technology that combine robust Cartesian meshing with highly efficient analytical or semi-empirical solver models; thus providing high levels of simulation accuracy with fewer number of mesh cells than in traditional CFD. SmartCells typically reduce the manual time spent by traditional CFD tool users in meshing even complex geometries by an order of magnitude on average thus dramatically reducing a historical bottleneck to CFD user productivity. LED and Lighting Thermal Simulation Capabilities FloEFD's LED Module offers a unique range of capabilities required for various lighting applications: Its Monte Carlo radiation model is best suited for thermal radiation predictions in lighting applications where lenses or reflectors can cause hot spots in focal points from the light source (solar or man-made). A new band-less Monte Carlo model for lighting and radiation allows users to dramatically decrease time required for defining wave-length dependent properties while increasing simulation accuracy of spectral characteristics. Its new water film model enables simulation of surface condensation, evaporation, icing and de-icing exploration such as condensation on the inner surfaces of automobile headlights. Combined thermal and photometric model for LEDs based on T3Ster measurements of actual off-the-shelf LEDs can yield correct power and temperature predictions and "hot lumen" output. Definition of radiation spectrum and setting intensity of radiation can now be dependent on the angle. With that data defined, FloEFD now automatically applies the calculated radiant flux on top of the LED. Easy ray visualization helps finding sources for radiation hot spots on other parts of the luminaire. A water absorption model enables the simulation of absorption of water into the plastic housing of the luminaire and later release of it under the right environmental conditions. Instinctive User Experience FloEFD for NX features an easy-to-use GUI with considerable intelligent automation built-in as standard: Operate within NX graphical user environment Powerful analysis wizard guides users through the problem set-up Interface uses engineering terms instead of technical jargon therefore users can focus on solving flow problems as opposed to figuring out how to use the software Real-time feedback about the solution progress such as convergence and monitor point values Engineering outputs appear in both a timely and intuitive manner including reports in Microsoft Excel and Word System requirements: For solver: : Microsoft Windows 2019 Server x64, Microsoft Windows 2012 Server x64, Windows 2012 Server R2 x64, Windows Server 2016, Windows Server 2016 with HPC Pack 2016 Microsoft Office 365, Microsoft Office 2019, Microsoft Office 2016, Microsoft Office 2013 Siemens NX 10.0.0.24, 10.0.2.6, 10.0.3.5 Siemens NX 11.0.0.33, 11.0.1.11, 11.0.2.7 Siemens NX 12.0.0.27, 12.0.2.9 Siemens NX 1847 series (tested versions 1855, 1867) Siemens NX 1872 series (tested versions 1872, 1876, 1880, 1884, 1888, 1892) Siemens NX 1899 series (tested versions 1899, 1903, 1907, 1911, 1915). The update option must not be used to install NX1899. Use of update option leads to missing files required for FLOEFD. An installation from scratch is required. Siemens NX 1926 series (tested version 1934) Siemens NX 1953 series (tested versions 1953, 1957, 1961, 1965, 1969, 1973) Siemens NX 1980 series (tested versions 1980, 1884) Simcenter 3D 2019.2 series (tested versions 1880, 1892) Simcenter 3D 2020.1 series (tested version 1919) Simcenter 3D 2020.2 series (tested version 1946) Simcenter 3D 2021.1 series (tested version 1961) Simcenter 3D 2021.2 series (tested version 1961) Ethernet network adapter Mouse or other pointing device 4 GB RAM minimum, more recommended 1 GB of free hard disk space, more required for simulation models Whats New: Updates: official site does not provide any info about changes in this version. HomePage: https://www.mentor.com/ Link NitroFlare Link DOWNLOAD (Buy premium account for maximum speed and resuming ability) https://nitroflare.com/view/8C759ABF3EBC7EC/rh3f4.Siemens.Simcenter.FloEFD.2021.2.1.v5446.x64.for.NX.part1.rar https://nitroflare.com/view/7372F0814DFEA9D/rh3f4.Siemens.Simcenter.FloEFD.2021.2.1.v5446.x64.for.NX.part2.rar https://rapidgator.net/file/594a14de00fa469c36c092440d312ca3/rh3f4.Siemens.Simcenter.FloEFD.2021.2.1.v5446.x64.for.NX.part1.rar https://rapidgator.net/file/6b68e773c92092f73d278efc4a4ae9d0/rh3f4.Siemens.Simcenter.FloEFD.2021.2.1.v5446.x64.for.NX.part2.rar

File Size:951.28 MB FloEFD for CREO applications for modeling the flow and heat transfer in liquids and gases in a CREO environment.FloEFD is fully integrated into the DS CREO environment and uses solvers based on computational fluid dynamics (CFD) technology. Main advantages. Working directly with the model in the CREO environment. There is no need to convert the geometry to another format, often leading to loss of quality. The task of calculating hydrodynamics and heat transfer at any time time is fully synchronized with the model minimization efforts, and as a consequence, the error in the process of synchronization tasks and set hydro-model Automatic dete tirovanie changes in the model.There is no need for "manual" construction of the geometry describing the area occupied by the liquid / gas. Automatic determination of the area occupied by the liquid / gas. The same graphic controls are used as in other CREO modules. Very easy to learn. Easy to use. Uses the CREO model tree. Intuitive and fully interactive Use when creating a project / processing the results of model elements selected in the graphics window / model tree Visualization of calculation results in the form of static and animated images directly in the graphics window Support for exporting results to MS Excel, Word. Ability to play and record animations Support for multi-configuration of the model For effective multi-parameter research implemented - the ability to clone projects, automatically start a series of calculations. It is automated to reduce the number of cases when it is necessary to involve specialists in the field of gas-gas dynamics and heat transfer to analyze the formulation and calculation results Reliable and fully automatic computational grid generator A unique model of turbulence and boundary layer is used Automatic control of solution convergence. Reliable and accurate numerical methods and physical models A wide range of physical models Exact solution The ability to calculate very complex structures and physical phenomena. Computational Fluid Dynamics (CFD) also allows you to analyze a wide range of complex problems, including: -Analysis of hydro-aerodynamics and heat transfer of two- and three-dimensional models -Analysis of external and internal flow patterns -Analysis of steady and unsteady flow -Flow of incompressible fluid and compressible gas including including combustible mixture at subsonic, transonic, supersonic and hypersonic modes itecheniya -Condensation of steam -calculation of the relative humidity in the gas streams -Non-Newtonian flow and Fluid (only laminar flow regime) -The flow in the compressible fluid (the fluid density is dependent on the pressure) -Currents in real gases -Analysis of Laminar, turbulent and unsteady flows -Analysis of vortex flows and fans -Analysis of flows with solid inclusions -Analysis of heat transfer inside and between liquids and solids -Analysis of heat transfer inside solids in the absence of washer flow -Calculation of thermal contact resistance -Calculation of electrical contact resistance -Thermoelectric coolers -Radiant heat transfer -Joule heating -Streams with gravitational effects (also known as buoyancy effect i) -Porous media -Heat pipes -Heat transfer in printed circuit boards -Heat transfer in perforated plates -Flow of aerosol flows -Accounting for body roughness during flow -Accounting for tangential wall motion (mixing and rotation) -Flow in rotating devices -Cavitation in fluid flows -Combustion in gas mixtures Software: Creo Parametric v3 (recommended datecode M190) Creo Parametric v4 (recommended datecode M120) Creo Parametric v5 (recommended datecode v5.0.6.0) Creo Parametric v6 (recommended datecode v6.0.6.0) Creo Parametric v7 (recommended datecode v7.0.3. 0) What's New: Read: FLOEFD_for_Creo_rh.pdf HomePage: https://www.mentor.com/ Link NitroFlare Link DOWNLOAD (Buy premium account for maximum speed and resuming ability) https://nitroflare.com/view/9E133D748302D10/4c6qf.Siemens.Simcenter.FloEFD.2021.2.1.v5446.for.PTC.Creo.x64.rar https://rapidgator.net/file/646318c3f1ad2f7e8a58908d4142c44b/4c6qf.Siemens.Simcenter.FloEFD.2021.2.1.v5446.for.PTC.Creo.x64.rar

Siemens Simcenter FloEFD 2020.2.0 v5054 for Solid Edge (fixed release) | 710.9 mb Language: English, Deutsch, Français, 中文, 日本語, , 한국어 Siemens Digital Industries Software announces the latest release of its Simcenter FLOEFD software for Solid Edge, a CAD-embedded computational fluid dynamics (CFD) tool. The latest version offers new features that can improve accuracy and solve rates. New Features The following new features are available in this release. - Free Surface with rotation. Free surface analysis can now include rotating equipment. - Simcenter FLOEFD EDA Bridge can save changes. Adjustments to PCB and export settings in the Simcenter FLOEFD EDA Bridge are saved to a file before exporting. You can open saved PCB as *.edabridge file. - SmartPCB material selection. In SmartPCB you can now choose material for dielectric and conductor from the Engineering database. It is necessary for a PCB whose conductor and dielectric materials are different from the default copper and FR4. - BCI-ROM console solver. BCI-ROM models can now be solved with the FLOEFD executable routine (Results_Exporter.exe). No need to use 3 rd party software like MATLAB or GNU Octave. - BCI-ROM FMU export. BCI-ROM can now be exported as FMU. FMU can be then imported into 1D or 3D CFD tools for co-simulation. - Thermal Netlist VHDL export. Thermal Netlist can be exported into VHDL format for further simulation in Xpedition-AMS or SystemVision Cloud. - Creating heat sources separately for each selected component or surface. You can create sources for each component or surface separately, i.e. instead of one heat source that includes all entities, for each selected entity a separate heat source will be created. - Feature Goal is available while creating the feature. A feature goal is now available during creation of a feature. This can dramatically save time needed for creating multiple features each depending on a feature goal, e.g. dozens of heat sources, each depending on a source's maximum temperature. - Electrical Resistance: Total value. In addition to the material thickness and selection of pre-defined resistances from the Engineering Database, you can now set a value of total electrical resistance. This makes it easier to perform design exploration varying the value in the Parametric Study. - Flux Balance: Group All. You can group all displayed nodes by their types. Displaying the graph for all components and then grouping all will give you an overall balance image. In addition radiation is split into Directional, Thermal and Solar. - Point Goals Improvement. A Point can be placed in the center of a component by selecting this component in the model tree. In addition, you can optionally disable interpolation so that a point goal outputs the value of the mesh cell. - Goal Description at selected physical time. The Goal Description displays history until the loaded time moment, not the entire history until the end. - Display Maximum Value achieved during calculation in the goal Description. Goal table has two new columns: Maximum value achieved during calculation and the time moment when it was achieved - Equation goal can now calculate Min, Av, Max values. The new functions in Equation goals allow you to define Minimum, Average, Maximum from the set of Goals or parameters. Regular expressions are supported to handle huge number of parameters. For example the expression Max({VG BatteryName .*}) will give you the maximum from all goals starting with "VG BatteryName". - Dynamic Probe in Simcenter FLOEFD Viewer. You can display probes in Simcenter FLOEFD Viewer scene. - Point Parameters can import files. When creating point parameters you can import CSV or text files to define point locations. - Adding 'mil' Unit. A new 'mil' (1/1000 of inch) unit is added. - Import Solid Edge Materials. Solid Edge Materials can be imported into FLOEFD. - Easier interface between FLOEFD and Solid Edge Simulation. A new "Export Results to Simulation" command marks model surfaces needed for structural analysis by Solid Edge Simulation excluding faces where loads are not defined. This allows Solid Edge Simulation (starting from SE 2021) to automatically get loads for the selected surfaces directly from FLOEFD results Simcenter FLOEFD software for Solid Edge delivers the industry's leading computational fluid dynamics (CFD) analysis tool for fluid flow and heat transfer. Fully embedded in Solid Edge, Simcenter FLOEFD has intelligent tech-nology at its core to help make CFD eas-ier, faster and more accurate. It also enables design engineers to frontload CFD, or move simulation early into the design process, allowing users to iden-tify and fix problems earlier, saving time and money and enhancing productivity by up to 40 times. SIMCENTER FloEFD pro Solid Edge 2020 Siemens Digital Industries Software is driving transformation to enable a digital enterprise where engineering, manufacturing and electronics design meet tomorrow. The Xcelerator portfolio helps companies of all sizes create and leverage digital twins that provide organizations with new insights, opportunities and levels of automation to drive innovation. Product: Siemens Simcenter FloEFD Version: 2020.2.0 v5054 for Solid Edge (fixed release) * Supported Architectures: x64 Website Home Page : www.plm.automation.siemens.com Language: multilanguage System Requirements: PC ** Size: 710.9 mb * Fixed an additional crack for Solid Edge 2020/2021 (the previous one caused the launch of FloEFD SE under Solid Edge 2020/2021 in "Student version" mode) Supported Platform - Microsoft Windows 7 Professional, Ultimate or Enterprise 64-bit edition, Microsoft Windows 10 Pro or Enterprise 64-bit (tested with v1809) - For solver: Microsoft Windows 2012 Server x64, Windows 2012 Server R2 x64, Windows Server 2016, Windows Server 2016 with HPC Pack 2016 - Microsoft Office 2013; Microsoft Office 2010; Microsoft Office 2007 - Solid Edge 2019 - Solid Edge 2020 - Solid Edge 2021 (tested version Beta 221.00.00.097) - Teamcenter (tested version 11.2.3) - Microsoft Windows Media Player 7.0 or higher - x64 compatible PC - Ethernet network adapter - Mouse or other pointing device - DVD-ROM drive - 4GB RAM minimum, more recommended - 1GB of free hard disk space, more required for simulation models DOWNLOAD http://nitroflare.com/view/04D50BC7BC2AB20/fe3gy.Siemens.Simcenter.FloEFD.2020.2.0.v5054.for.Solid.Edge.Fixed.Release.rar https://rapidgator.net/file/8ed3945badc94767af1a358b82a6d163/fe3gy.Siemens.Simcenter.FloEFD.2020.2.0.v5054.for.Solid.Edge.Fixed.Release.rar