New Features Feature List CFD Solutions Functions & Integration Types Sys. Requirements

CFD Analyser 4.0 - Solutions

The Power and Simplicity of CFD Analyzer 4.0

1. Are you generating grids for your CFD calculations in 3-D, but can’t identify their problem areas?
CFD Analyzer provides the quantitative information that lets you determine the quality of your grids. Calculate grid quantities, such as aspect ratios, skewness, orthogonality, and stretch factors. The results can be directly plotted in Tecplot revealing regions of your grids that may lead to reduced accuracy or instability in a CFD calculation.

2. Do you want to visualize the pressure coefficient or vorticity magnitude in your CFD solution, along with velocity, pressure and temperature?
With CFD Analyzer you select the function from a list, click Calculate, and the new variable is automatically added to your Tecplot data set. Plot the variables you want to see quickly without a lot of extra work.

3. Do you have data that includes the densities for several chemical species, but need to know the total mass of one of the species in a particular region of the grid?
CFD Analyzer allows you to integrate the species density over a defined volume to yield the total mass of that species.

4. Would you like to know the mass and momentum flow rates through the inflow and outflow boundaries of your new nozzle design? Just making sure that these quantities are conserved and verifying the convergence of the solution?
Use CFD Analyzer to integrate the flow of any quantity through any surface. The results are available for presentation in a table or plot.

5. Would you like to understand your flow field quicker?
CFD Analyzer 4.0 enables the extraction of vortex cores, separation and reattachment lines, and shock surfaces. Too often it takes too much time to find the significant features of a flow field. With the Feature Extraction tool you can quickly identify problem areas.

6. Do you have unsteady CFD solutions and need to track particle paths?
CFD Analyzer lets you integrate particle paths in time and space. Particles may be massless, or you can give them mass and size and let drag, gravity, and buoyancy influence their trajectories.

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