Webinars - Pumps
Playback our webinars from Advanced Design Technology and our technology partners.
We will show how by using TURBOdesign suite, the impeller meridional shape can be obtained and its 3D blade shape optimized for efficiency, exit flow uniformity and cavitation performance by suitable choice of blade loading and other inputs of the 3D inverse design method TURBOdesign1.
In both the US and EU, emission regulation legislation is coming into force which requires pump designers to optimize their designs at multiple operating points. In this webinar we will show how the different modules available in TURBOdesign Suite, can be used to rapidly design high performance pump stages that meet requirement at multiple operating points.
Accurate and rapid 3D multi-point optimization of Turbomachinery by Integration of TURBOdesign1 with ANSYS Workbench
In this webinar we will show how new functionality in the newly released TURBOdesign Suite 6, which allows the three dimensional inverse design code TURBOdesign 1 to operate as a module inside ANSYS workbench, can streamline the process of setting up multi-point/multi-objective optimization of various turbomachinery components.
In this webinar we will present the latest findings and developments in advanced blade design methods to effectively and directly control both the hydrodynamic and cavitation performance in pump impellers and inducers.
In this webinar we will show how by application of the 3D inverse design method it is possible to design pumps with reduced impeller diameter providing the same head and efficiency.
This webinar will show interactively how by using TURBOdesign1, its inputs and outputs, the designer can rapidly develop new designs that overcome these major hydrodynamic issues and hence substantially improve performance.
This webinar will highlight the main flow features in pump impellers, identify the main sources of hydrodynamic loss and provide guidance in the choice of optimal blade loading to suppress particular flow phenomena, such as secondary flows in impeller, corner separation in diffusers or cavitation in impellers.