CFX-4
The leading CFD software for the prediction of the complex flows encountered in the process and chemical industries. ;CFX-4 offers a unique blend of powerful tools including direct CAD access, highly automated geometry creation tools, sliding meshes, and advanced models for turbulence, combustion, radiation, and multiphase flows. These technologies enable you to easily simulate real industrial flow processes, from settling tank sedimentation to bubble-driven flow in mixing vessels, and from jet flame impingement to coal-fired combustion plant.
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English
Supported Technologies
AIX,
HP/UX,
Silicon Graphics IRIX,
Solaris/Sun OS,
Windows XP/2000/NT
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Pricing
- Unspecified -
info@cfx.aeat.com
1-800-529-3810
sold direct or through international agents; priced by package
Additional Product Information
CFX-4 provides efficient tools to predict the details of fluid flow, heat transfer and multiphase chemical reactions in processes and equipment of all kinds. Whether designing new products or systems, performing scale-up or troubleshooting, CFX-4 assists engineers to improve operating efficiency and product quality, and realize the goals of reduced operating costs, greater safety and increased profitability., CFX-4 is well established as the leading CFD software for studying complex multiphase flows. Through the complete understanding of process operations, maximum interfacial area can be achieved in gas-lift reactors, uniform mixing in fluidized beds and enhanced separation in cyclones and settling tanks., CFX-4 offers the most robust and comprehensive set of tools to simulate chemical reactions in liquid, gaseous or multiphase flows and combustion of arbitrary fuels. With these tools combustion efficiency and pollutant emissions can be predicted, fire safety assessments can be performed and mixing sensitive chemistry understood., CFX-4 provides powerful methods for solving large-scale calculations. The parallelization option automatically decomposes the calculation into pieces that fit onto individual processors. The solution then proceeds in parallel, allowing large problems to be computed faster or cases that exceed the capacity of individual processors can be tackled.