Abstract
Abstract The block-wise spectral reconstruction of turbomachinery flows has been successfully used in the past to reduce the computational cost of full-annulus turbomachinery simulations. The rationale of the method is based on an explicit representation of the long-wave lengths of the problem using a Fourier expansion of the blocks, which in turn contain the short-wavelength content of the spectrum. This work analyses the accuracy of this approach and shows that this approximation retains not only the explicit representation of the long and short wavelengths but their interaction as well. This interaction due to the scattering associated with the nonuniformity of the flow is referred to as Tyler-Sofrin modes by turbomachinery practitioners and is highly relevant for many practical applications. The solution's harmonic content is illustrated resorting to the linear wave equation with varying propagation speed and the NASA rotor 67 fan.
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