Author(s): K Daneshkah; M Zangeneh

Linked Author(s):

Keywords: Francis turbine; Inverse design; Parametric design; CFD; Cavitation

Abstract: The present paper describes the parametric design of a Francis turbine runner. The runner geometry is parameterized by means of a 3D inverse design method, while CFD analyses were performed to assess the hydrodynamic and suction performance of different design configurations that were investigated. An initial runner design was first generated and used as baseline for parametric study. The effects of several design parameters, namely stacking condition and blade loading, were then investigated in order to determine their effect on the suction performance. The use of blade parameterization using the inverse method led to a major advantage for design of Francis turbine runners, as the three-dimensional blade shape is described by parameters that are closely related to the flow field, namely blade loading and stacking condition, that have a direct impact on the hydrodynamics of the flow field. On the basis of this study, an optimum configuration was designed which results in a cavitation-free flow in the runner, while maintaining a high level of hydraulic efficiency. The paper highlights design guidelines for application of inverse design method to Francis turbine runners. The design guidelines have a general validity and can be used for similar design applications since they are based on flow field analyses and on hydrodynamic design parameters.

DOI: https://doi.org/10.1088/1755-1315/12/1/012058

Year: 2010