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Unlike other computational fluid dynamics programs, COSMOSFloWorks combines a high level of functionality and accuracy with ease-of-use.
Fully embedded inside of SolidWorks, COSMOSFloWorks is perfect for the engineer who needs flow analysis, but is not necessarily an expert in the field of fluid simulation. A goal-oriented approach allows you to easily gain insight into the performance of your design under real world conditions.
COSMOSFloWorks can be used in a diverse array of applications and has been designed to be extremely flexible. Whether you are developing a valve for medical industry, a HVAC duct, an electronic enclosure cooling system, an automobile component, the wing of an airplane, or an exhaust valve, using COSMOSFloWorks early in the product development cycle can help you build a better product in less time.
COSMOSFloWorks customers are using the software to build better products in the following industries - Valve/Regulator, Medical, Electronics, HVAC, Automotive, Defense, Aerospace, Oil and Gas, Plastic Extrusion and Food Processing.
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Sample and fraction tracking plus system control for LC purification.
PeakTrak™ software saves time and eliminates errors by tracking samples and identifying peak fractions in chromatographic purifications. The Windows-based software uses color-coded graphics to locate peak and non-peak fractions in separations performed with Isco CombiFlash™ automated organic purification systems. Special versions provide dedicated system control and data handling for CombiFlash Sq16x, Sg100c, and OptiX 10 systems.
The standard version of PeakTrak provides data handling only with any LC system using an Isco Foxy 200 or Foxy Jr fraction collector and detector with analog output, including ProTeam™ systems used for protein purifications.
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ANSYS CFX software delivers powerful computational fluid dynamics (CFD) technology for simulations of all levels of complexity.
As one of the many computer-aided engineering (CAE) tools available within the ANSYS Workbench platform, ANSYS CFX takes advantage of data and information common to many simulations. This begins with common geometry: Users can link to existing native computer-aided design (CAD) packages as well as create and/or modify CAD models in an intuitive solid modeling environment. Complementing the common geometry model is a suite of meshing tools, designed to ensure easy generation of the most appropriate mesh for the given application. ANSYS CFX tools then guide the user through the setup of operating conditions, selection of materials and definition of models.
The ANSYS CFX solver uses the most modern solution technology with a coupled algebraic multi-grid solver and extremely efficient parallelization to help ensure that solutions are ready for analysis quickly and reliably. Solution analysis with the ANSYS CFX post-processor then gives users the power to extract any desired quantitative data from the solution; it also provides a comprehensive set of flow visualization options. Animations of flow simulations are easily generated, and 3-D images can be directly created and shared with any colleagues or clients using the freely-distributable 3-D viewer from ANSYS CFX.
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CFdesign software turns your Catia workstation into a fully interactive flow bench, thermal test rig, and wind tunnel. Your 3D assemblies become associative, zero-cost prototypes revealing critical engineering information not available from physical tests. Make a design change in Catia and see the change immediately in CFdesign. Go from Catia to first pass results in minutes; review high fidelity solutions up to 20x faster with the new Accelerant Solver.
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CFdesign software turns your UGS NX/I-deas NX workstation into a fully interactive flow bench, thermal test rig, and wind tunnel. Your 3D assemblies become associative, zero-cost prototypes revealing critical engineering information not available from physical tests. Make a design change in UGS NX/I-deas NX and see the change immediately in CFdesign. Go from UGS NX/I-deas NX to first pass results in minutes; review high fidelity solutions up to 20x faster with the new Accelerant Solver.
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CFdesign software turns your Solid Edge workstation into a fully interactive flow bench, thermal test rig, and wind tunnel. Your 3D assemblies become associative, zero-cost prototypes revealing critical engineering information not available from physical tests. Make a design change in Solid Edge and see the change immediately in CFdesign. Go from Solid Edge to first pass results in minutes; review high fidelity solutions up to 20x faster with the new Accelerant Solver.
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CFdesign software turns your Pro/ENGINEER workstation into a fully interactive flow bench, thermal test rig, and wind tunnel. Your 3D assemblies become associative, zero-cost prototypes revealing critical engineering information not available from physical tests. Make a design change in Pro/ENGINEER and see the change immediately in CFdesign. Go from Pro/ENGINEER to first pass results in minutes; review high fidelity solutions up to 20x faster with the new Accelerant Solver.
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CFdesign® software turns your Autodesk Inventor workstation into a fully interactive flow bench, thermal test rig, and wind tunnel.
Your 3D assemblies become associative, zero-cost prototypes revealing critical engineering information not available from physical tests. Make a design change in Autodesk Inventor and see the change immediately in CFdesign.
Go from Autodesk Inventor to first pass results in minutes; review high fidelity solutions up to 20x faster with the new AccelerantTM Solver.
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CFdesign software turns your Solid Edge workstation into a fully interactive flow bench, thermal test rig, and wind tunnel. Your 3D assemblies become associative, zero-cost prototypes revealing critical engineering information not available from physical tests. Make a design change in Solid Edge and see the change immediately in CFdesign. Go from Solid Edge to first pass results in minutes; review high fidelity solutions up to 20x faster with the new Accelerant Solver.
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CFdesign software turns your SolidWorks workstation into a fully interactive flow bench, thermal test rig, and wind tunnel. Your 3D assemblies become associative, zero-cost prototypes revealing critical engineering information not available from physical tests. Make a design change in SolidWorks and see the change immediately in CFdesign. Go from SolidWorks to first pass results in minutes; review high fidelity solutions up to 20x faster with the new Accelerant Solver.
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SolidWorks® Flow Simulation is the first and easiest fluid-flow simulation and thermal analysis program fully embedded within SolidWorks software.
SolidWorks Flow Simulation eliminates the need to modify your design for a different computational fluid dynamics (CFD) application saving considerable time and cost.
With its CFD analysis capabilities, you can simulate liquid and gas flow in real world conditions, run “what if” scenarios, and quickly analyze the effects of fluid flow, heat transfer, and related forces on immersed or surrounding components. Fluids of interest for analysis range from air, water, liquid chemicals, and gases to juice, ice cream, honey, plastic melts, toothpaste, blood, and others.
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FLUENT Flow Modeling Software
The broad physical modeling capabilities of FLUENT have been applied to industrial applications ranging from air flow over an aircraft wing to combustion in a furnace, from bubble columns to glass production, from blood flow to semiconductor manufacturing, from clean room design to wastewater treatment plants. The ability of the software to model in-cylinder engines, aeroacoustics, turbomachinery, and multiphase systems has served to broaden its reach.
Today, thousands of companies throughout the world benefit from the use of this important engineering design and analysis tool. Its extensive range of multiphysics capabilities make it one of the most comprehensive software tools available to the CFD community. With its long-standing reputation of being user-friendly and robust, FLUENT makes it easy for new users to come up to productive speed.
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Basic Information
To meet consumer demands, automotive engineers require development tools which provide accurate representation of complex systems in the virtual world. The ever increasing number of design parameters of traditional and ‘alternative’ powertrain systems means that early concept analysis becomes increasingly important. Powertrain thermodynamic analysis using 3D computational fluid dynamics (CFD) tools is one such discipline.
Through years of development and advancements, AVL’s 3D CFD software FIRETM fulfills these demands. FIRE is used every day by hundreds of powertrain engineers to accurately predict results in a flexible, robust and fast way. FIRE customers make design decisions earlier, and with greater confidence.
AVL FIRETM is the leading simulation program in the field of combustion engine analysis and specialises in accurate prediction of engine gas exchange, mixture formation and combustion, as well as emissions and the exhaust gas aftertreatment.
High Fidelity System Simulation
The overall environment and individual components of FIRE enable application to any phase of the development process. The broad range of available models allows users to properly balance simulation effort and desired precision.
Powertrain Engineering Inside
AVL’s simulation tools are uniquely supported by over six decades of engine development experience. Our own consulting and services business depends on FIRE to deliver results, and provides our software team with invaluable insight into current and future requirements.
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Based on the classic work Transport Phenomena by Bird, Stewart, and Lightfoot, the Chemical Engineering Module is the perfect tool for process-related modeling. It is specifically designed to easily couple transport phenomena- computational fluid dynamics (CFD) or mass and energy transport-to chemical reaction kinetics.
We have optimized the module for the modeling of reactors, filtration and separation units, heat exchangers, and other equipment common in the chemical industry. Other modeling interfaces account for electrochemical systems (such as fuel cells) and applications where electric fields influence transport, such as electrophoresis and electrokinetic flow.
The Chemical Engineering Module melds seamlessly with the power of COMSOL Multiphysics for multiphysics and equation-based modeling. This latter feature allows for the inclusion of arbitrary expressions, functions and source terms in the transport equations.
Application Examples
- Batch reactors, fermenters and crystallizers
- Chromatography and electrophoresis
- Corrosion
- Cyclones, separators, scrubbers and leaching units
- Exhaust after-treatment and emission control
- Filtration and sedimentation
- Fuel cells and batteries
- Heat exchangers and mixers
- Homogeneous and heterogeneous two-phase flow - emulsions, suspensions, bubble columns and sparging
- Microfluidics and lab-on-chip devices
- Multicomponent and membrane transport
- Packed bed reactors
- Plug-flow and tubular reactors
- Polymerization processes and non-newtonian fluid dynamics
- Pre-burners and internal combustion engines
- Reformers and catalytic converters
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Thermodynamics and CFD
FIRE and BOOST are the industry's prime choice when reliable results are needed for engine and combustion development. The intelligent integration of the two software tools enables solutions for complex tasks early in the development phase.
Speeding up your processes
The time required to create moving meshes for complex geometries of modern IC engines is reduced to merely days with FIRE's highly specialized and automated pre-processing tool FAME Engine +. Combining fast and efficient mesh generation with FIRE’s state-of-the-art and fully parallelized main program, accurate CFD simulation results have been never available so quickly.
Less experiments, more creativity
Engine performance and durability are strongly impacted by related fluid flow processes, such as the multiphase flow in injection equipment, in-cylinder gas dynamics, fuel injection, combustion, coolant flows, exhaust gas flows and exhaust gas aftertreatment. FIRE’s and BOOST’s industry leading capabilities enable accurate simulation of all related phenomena, reducing the need for costly and time-consuming experiments.
Verified exhaust gas aftertreatment solutions
FIRE and BOOST feature the industry's only seamless integration of 1D, 2D and 3D exhaust gas aftertreatment system simulation tools. It is based on identical mathematical, physical and chemical models, available to both softwares. The model can grow as needed from one to three dimensions with consistent results. Highest accuracy is achieved through implementation of precise chemical reactions and proven by continuous verification on AVL's emission test benches.
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From CAD to mesh generation for analysis, ANSYS ICEM CFD provides sophisticated geometry acquisition, mesh generation, mesh editing, a wide variety of solver outputs and post-processing. ANSYS ICEM CFD is the only Universal pre-processor for analysis including FEA, CFD and other CAE applications such as particle transport and computational electro-magnetics. Used for engineering applications such as computational fluid dynamics and structural analysis, ANSYS ICEM CFD's mesh generation tools offer the capability to parametrically create grids from geometry in multi-block structured, unstructured hexahedral, tetrahedral, hybrid grids consisting of hexahedral, tetrahedral, pyramidal and prismatic cells; and Cartesian grid formats combined with boundary conditions. ANSYS ICEM CFD is the swiss army knife of meshing, our product vision is to provide a variety of flexible tools that can generate "any" type of mesh on "any" type of geometry for "any" solver or "any" application.
Key Features:
Intuitive built-in geometry creation and highly automated functionality for the modification and repair of imported CAD data.
Ability to work with both NURBs and faceted geometry types like STL or existing meshes.
Robust tools for creating all mesh types: hexahedral, tetrahedral, prism, pyramid, quad, tri or bar elements.
Highly tolerant of imperfect/overdetailed CAD data containing sliver surfaces, gaps, holes and overlaps (Patch Independence)
Smoothing, coarsening, refinement, element type conversion, linear or quadratic element support.
More than 100 CFD/CAE solver interface formats.
File based transfer of CFD and structural results for Fluid structure interaction simulations.
Automated batch processing through an intuitive scripting framework.
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