An Analysis System for Blade Forced Response

Abstract: A frequent cause of turbomachinery blade failure is excessive resonant response. The most common excitation source is the nonuniform flow field generated by inlet distortion, wakes, and/or pressure disturbances from adjacent blade rows. The standard method for dealing with this problem is to avoid resonant conditions using a Campbell diagram. Unfortunately, it is impossible to avoid all resonant conditions. Therefore, judgements based on past experience are used to determine the acceptability of a blade design… Show more

“…Figure 2 shows the procedure for calculating the resonant stress of the blade for a symmetric vane spacing. This method is the almost same one as many published papers adopted [10,11,12], and the resonant vibratory stress is calculated as follows.…”

Study on the Effect of Asymmetric Vane Spacing on Vibratory Stress of Blade

“…Figure 2 shows the procedure for calculating the resonant stress of the blade for a symmetric vane spacing. This method is the almost same one as many published papers adopted [10,11,12], and the resonant vibratory stress is calculated as follows.…”

Study on the Effect of Asymmetric Vane Spacing on Vibratory Stress of Blade

“…Current methods mostly rely on a linear superposition of these forces (Chiang andKielb, 1993, Green andMarshall, 1999), where the response amplitudes are computed from the balance of excitation and damping forces.…”

Unsteady Aerodynamics, Aeroacoustics and Aeroelasticity of Turbomachines

An Integrated Nonlinear Approach for Turbomachinery Forced Response Prediction. Part I: Formulation