This paper presents the results of the multi-objective optimization strategy of mixed-flow pump design by means of three-dimensional inverse design approach, Computational Fluid Dynamics (CFD), Design of Experiments (DoE), response surface model (RSM) and Multi Objective Genetic Algorism (MOGA).
In this case study, Hyosung Goodsprings used the 3D Inverse Design method to design the impeller and diffuser in a mixed flow pump. TURBOdesign1 enabled Hyosung to achieve a significant hydraulic performance improvement in a relatively short period of time.
In this webinar, you will learn how to approach the design of high performance hydrogen compressor and pump and discover how TURBOdesign Suite combined with Ansys Workbench can be used to design these turbomachinery components.
The customer, one of the leading suppliers for aerospace companies, asked ADT to carry out the complete aerodynamic design of a radial inflow turbine stage using inverse design approach available through the TURBOdesign Suite software.
The paper highlights design guidelines for application of inverse design method to Francis turbine runners. The design guidelines have a general validity and can be used for similar design applications since they are based on flow field analyses and on hydrodynamic design parameters.
The aim for this project was to design a refrigeration compressor stage using R134a to improve performance of the entire stage (impeller, vaneless diffuser and volute) and to meet various flow rates and pressure ratio requirements by trimming the impeller.
The client, a world leading manufacturer of air and pressure cleaning systems, asked ADT to design a cooling fan within a very short time frame for an ongoing project. The client provided the desired pressure rise, flow rate and design geometrical constraints.