Also edit parameters using a single text input/output file, a feature especially useful for optimization. Edit the parameters by double clicking on the component in the meridional view. View the fan or blower stage in an active, true-scale meridional view. Review design performance, analysis, and test data with performance maps that are flexibly plotted and updated automatically with each geometric change. Other models are implemented to calculate disk friction, exit mixing, radial and axial stator diffusion/losses, volutes, stall, thrust, and other fundamental fluid dynamic aspects of fan performance. Axial designs are modeled using the famous Koch-Smith method to calculate loss and deviation. Radial fans and blowers in FANPAL are supported by the two-elements-in-series (TEIS) rotor diffusion model using a two-zone approach. The meanline fan design from FANPAL can easily migrate into the AxCent ® program for further blade design and fluid dynamic analysis. FANPAL’s unique Design Wizard leads the user through all the steps necessary for design, analysis, and data reduction. Use FANPAL™ to design the stage, analyze the performance, refine parameters with data reduction, and model the machine according to several performance models. A meanline approach is used to design axial, radial, and mixed-flow fans, both for single and for multiple stages.
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