Aerodynamic Inverse Design of Transonic Compressor Cascades with Stabilizing Elastic Surface Algorithm

Abstract: The upgraded elastic surface algorithm (UESA) is a physical inverse design method that was recently developed for a compressor cascade with double-circular-arc blades. In this method, the blade walls are modeled as elastic Timoshenko beams that smoothly deform because of the difference between the target and current pressure distributions. Nevertheless, the UESA is completely unstable for a compressor cascade with an intense normal shock, which causes a divergence due to the high pressure difference near the s… Show more

“…Other studies use the pressure difference method with the same concept of moving walls as well. [27][28][29] An overview of the blade design methods is illustrated in Figure 1. Choosing the inverse design method depends on the inputs to the problem.…”

Optimization of the target pressure distribution and inverse design of an axial turbine blade

“…Other studies use the pressure difference method with the same concept of moving walls as well. [27][28][29] An overview of the blade design methods is illustrated in Figure 1. Choosing the inverse design method depends on the inputs to the problem.…”

Optimization of the target pressure distribution and inverse design of an axial turbine blade

Upgrade in the elastic surface algorithm for airfoil inverse design with variable attack angle via controlled leading-edge movement