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Numerical Model on the Dynamic Behavior of a Prototype Kaplan Turbine Runner

Ming Zhang and Qing-Guang Chen

Mathematical Problems in Engineering, 2021, vol. 2021, 1-12

Abstract:

Experimental and numerical investigations of the modal behavior of a prototype Kaplan turbine runner in air have been conducted in this paper. The widely used roving accelerometer method was used in the experimental modal analysis. A systematic approach from a single blade model to the whole runner has been used in the simulation to get a thorough understanding. The experimental results show that all the detected modes concentrate their displacements on the impacted blade. The numerical results show that the modes of the single blade form different mode families of the runner, and each mode family corresponds to a narrow frequency band. Harmonic response analysis shows that, at the response peak point, the single blade excitation can only get mode shapes with concentrations on the exciting blade due to the superposition of the close modes in each mode family, which explains the experimental results well, while the mode superposition can be avoided by the order excitation method. With the reduction of the connection stiffness between the blades and hub/control system, the frequencies of most modes change from insensitive to more and more sensitive to the connection stiffness change, which results in a sensitive area and an insensitive area. Through comparison with the experimental results, it is indicated that the natural frequencies of the runner can probably be predicted by merging the runner into a whole body.

Date: 2021
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http://downloads.hindawi.com/journals/MPE/2021/4421340.xml (text/xml)

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Persistent link: https://EconPapers.repec.org/RePEc:hin:jnlmpe:4421340

DOI: 10.1155/2021/4421340

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