Analysis of dynamic stresses in Kaplan turbine blades
Abstract
Purpose
Some comparison of unsteady flow calculation and the measured stress showed that the dynamic stresses in blades are closely related to hydraulic instability. However, few studies have been conducted for the hydraulic machinery to calculate dynamic stresses caused by the unsteady hydraulic load. The present paper aims to analyse the stresses in blades of a Kaplan turbine.
Design/methodology/approach
By employing a partially coupled solution of 3D unsteady flow through its flow passage, the dynamic interaction problem of the blades was analyzed. The unsteady Reynolds‐averaged Navier‐Stokes equations with the SST κ‐ω turbulence model were solved to model the flow within the entire flow path of the Kaplan turbine. The time‐dependent hydraulic forces on the blades were used as the boundary condition for the dynamics problem for blades.
Findings
The results showed that the dynamic stress in the blade is low under approximately optimum operating conditions and is high under low‐output conditions with a small guide vane opening, a small blade angle and a high head.
Research limitations/implications
It is assumed that there is no feedback of blade motion on the flow. Self‐excited oscillations are beyond the scope of the present paper.
Originality/value
The authors developed a code to transfer the pressure on blades as a boundary condition for structure analysis without any interpolation. The study indicates that the prediction of dynamic stress during the design stage is possible. To ensure the safety of the blades it is recommended to check the safety coefficient during the design stage for at least two conditions: the 100 percent output with lower head and the 50 percent output with the highest head.
Keywords
Citation
Zhou, L., Wang, Z., Xiao, R. and Luo, Y. (2007), "Analysis of dynamic stresses in Kaplan turbine blades", Engineering Computations, Vol. 24 No. 8, pp. 753-762. https://doi.org/10.1108/02644400710833288
Publisher
:Emerald Group Publishing Limited
Copyright © 2007, Emerald Group Publishing Limited