Note that there are FULL FREE ACADEMIC versions of the pro edition CAESES for students and PhD students as well as trial licenses with variable time frames. The final geometry can be downloaded as STL or STEP file.Requires very little propeller design expertise.Allows you to generate typical B-Series propellers with just a few clicks.Geometry Changes for an Axial Fan (and a Ship Hull) - Demo Videoįinally, check out the new online geometry creator for the Wageningen B-Series.Here are some videos - the last one I put there only to give you an impression about how the geometry controls can be wrapped and accessed for applying changes, this can be done for all other types of blades as well. If you are interested in drone design, then check out this post here. Some propeller design case studies can be found in this section. For instance, if you use Excel sheets for your profile definitions, you can access them through CAESES but also re-implement your methods using the feature definition programming editor. There is a lot of scripting possible in CAESES so that any specialized design process can be fully transferred into the platform. There is a functionality that can analyze an imported blade surface (given as NURBS) to give you the chord, rake, skew, pitch, thickness and camber distributions. The PFF (Propeller Free Format) is directly supported.Īny preliminary design tool (XFOIL etc) or even CFD packages (in-house, open source, commercial) can be integrated so that a new design can be analyzed within CAESES. In order to import or export the blade in a proprietary format, feature definitions can be used which allows you cope with e.g. When generating the 3D propeller surface, the profile parameters can be changed by means of radial functions for each 2D parameter (e.g. NACA curves are also available in CAESES via the menu > curves > naca. There are models available with special definitions such as Wageningen B-Series. camber curve + thickness distribution) or based on profile data from an air foil data base. For other rotating machines, please see the TURBOMACHINERY SECTION.ĢD profiles can be defined by the user. Here is a screenshot for an axial blade design, taken from one of the samples that are shipped with CAESES:įor general information about modeling of propellers, see the MARINE SECTION. CAESES focuses on the variable geometry of blades for design explorations and shape optimization (mostly, together with CFD). boat propeller, aircraft propeller, blowers, fans etc.) for any application can be created with it. CAESES provides comprehensive functionality for propeller and fan designers so that it can be used as an expert blade design software.īasically, any kind of propeller blade (e.g.
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