- 发帖
- 53391
- 今日发帖
- 最后登录
- 2024-11-19
|
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.FloEFD for NX applications for modeling the flow and heat transfer in liquids and gases in the environment of the corresponding CAD system. FloEFD is fully integrated into the environment of the corresponding CAD systems and uses solvers based on computational fluid dynamics (CFD) technology. Main advantages For CAD-dependent versions, working directly with the model in the environment of the corresponding CAD. There is no need to convert the geometry to another format, often leading to loss of quality. Delivered the task of calculating fluid dynamics and heat transfer at any time is fully synchronized with the model
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 animationsSupport 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
-A nalysis 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 mixturesDetails:
Interface language:English,German,French,Chinese,japanese,RussianSystem 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 with HPC Pack 2016Microsoft Office 2013; Microsoft Office 2010; Microsoft Office 2007CREO Paramenric v2 (recommended datacode M250)
CREO Paramenric v3 (recommended datacode M190)
CREO Paramenric v4 (recommended datacode M120)
CREO Paramenric v5 (recommended datacode v5.0.5.0)
CREO Paramenric v6 (recommended datacode v6.0.4.0)
CREO Paramenric v7 is not supported!Minimization of efforts, and as a result, errors in the process of synchronization of the set hydro-gas-dynamic problem and 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 determination of the area occupied by the 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 tree of elements of the CAD model. Intuitive and fully interactive Use when creating a project / processing the results of model elements highlighted in the graphic window / model treeVisualization of 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 multi-configuration models.For effective multi-parameter research, the following are implemented: the ability to clone projects, automatically start a series of calculations. It is automated in order 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 calculation grid generator A unique model of turbulence and boundary layer is used Automatic control of the convergence of the solution.Reliable and accurate numerical methods and physical modelsA wide range of physical models Exact solution The ability to calculate very complex structures and physical phenomena.Computational Fluid Dynamics (CFD) 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
-Flow of incompressible fluid and compressible gas , including including a combustible mixture, at subsonic,transonic, supersonic and hypersonic flow regimes
-Water vapor condensation
-Calculation of relative air humidity in gas flows
-Flow of non-Newtonian fluids (only laminar flow regime)
-Flow in a compressible fluid (fluid density depends on pressure)
-Flows in real gases
-Analysis of laminar, turbulent and unsteady flows
-Analysis of vortex flows and fans
-Analysis of flows with solid inclusions
-Analysis heat transfer within and between fluids and solids
-Analysis tealoperedachi inside solids in lack of washing the flux
-calculation of the contact thermal resistance
-calculation of the electric contact const otivleniya
-Thermoelectric coolers
-Heat transfer by radiation
-Joule heating
-Streams with gravitational effects (also known as the buoyancy effect)
-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 mixturesSystem 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 with HPC Pack 2016Microsoft Office 2013; Microsoft Office 2010; Microsoft Office 2007Siemens NX 8.5.1.3, 8.5.2.3, 8.5.3.3
Siemens NX 9.0.1.3, 9.0.2.5, 9.0.3.4
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 (1847-1867.xxxx)
Siemens NX 1872 Series (1872-1892.xxxx)
Siemens NX 1899 Series (1899-1915 + )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
4 GB RAM minimum, more recommended
1 GB of free hard disk space, more required for simulation models
Siemens Digital Industries Software announces the latest release of its Simcenter FLOEFD software for NX series, a CAD-embedded computational fluid dynamics (CFD) tool. The latest version offers new features that can improve accuracy and solve rates. Simcenter FLOEFD 2020.2.2 v5244 for NX Release Highlights - Date: February 2021 New FeaturesThe following new features are available in this release: - Support of Siemens licensing. Simcenter FLOEFD for NX can use either of the licensing systems: MSL (Mentor Standard Licensing, daemon “mgcld”) or Siemens PL licensing (CLT, Common License Toolkit, daemon “ugslmd”). By default Simcenter FLOEFD for NX products with NX part number (e.g. NX30561) is served with Siemens license and Simcenter FLOEFD for NX products with MG part numbers (e.g. MG249608FL) is served with Mentor license. The “Extended Design Exploration” module is currently only supported by MSL.- NX value-based licensing. If Siemens licensing is used, Simcenter FLOEFD for NX supports NX value-based licensing, i.e. NX value-based tokens (nx_design_tokens).- Product Excellence Program. The Product Excellence Program is a set of software analytics tools included with the installation of Simcenter FLOEFD for NX. These tools collect and analyze product usage and behavior patterns to aid in the design and improvement of FLOEFD. You can review and control your participation in the Product Excellence Program at any time.- Rebranding FloEFD. FloEFD is now renamed to Simcenter FLOEFD software. FloEFDView is renamed to Simcenter FLOEFD Viewer. FLOEFD icon in Start menu is now located into Simcenter FLOEFD folder. The default files location in the Program Files folder is not changed, so API scripts referring to the setup folder are not affected.- Simcenter FLOEFD BCI-ROM and Package Creator module. The module includes the following capabilities:. BCI-ROM and Thermal Netlist. Package Creator. PCB compact model (previously available only in the Electronics Cooling module).- Simcenter FLOEFD Electronics Cooling Center (ECC) module. The module includes the following best in class capabilities for powerful and comprehensive electronics cooling analysis from Simcenter FLOEFD and Simcenter Flotherm software:. EDA Bridge and Smart PCB. BCI ROM and Thermal Netlist. Package Creator. PDML Import. Network Assembly and Two-resistor compact models. Simcenter T3STER software AutoCalibration. PCB compact model. Heat Pipe compact model. Joule Heating. Electrical Element compact modelAll existing modules whose functionality is available in ECC module (EDA Bridge, AutoCalibration, Electronics Cooling, and Power Electrification) are maintained as separate modules.http://www.mentor.com/
Siemens Simcenter FloEFD 2312 for PTC CREO Siemens Simcenter FloEFD 2312 for Siemens NX x64 Multilanguage 本部分内容设定了隐藏,需要回复后才能看到
|
微博帐号登录