Multi-fidelity shape optimization of hydraulic turbine runner blades using a multi-objective mesh adaptive direct search algorithm

被引:28
|
作者
Bahrami, S. [1 ]
Tribes, C. [1 ]
Devals, C. [2 ]
Vu, T. C. [3 ]
Guibault, F. [2 ]
机构
[1] Ecole Polytech, Dept Mech Engn, Montreal, PQ H3T 1J4, Canada
[2] Ecole Polytech, Dept Comp Engn, Montreal, PQ H3T 1J4, Canada
[3] Andritz Hydro Canada Inc, R&D Div, Pointe Claire, PQ H9R 1B9, Canada
来源
APPLIED MATHEMATICAL MODELLING | 2016年 / 40卷 / 02期
基金
加拿大自然科学与工程研究理事会;
关键词
Multi-fidelity; Multi-objective optimization; Computational fluid dynamic (CFD); Hydraulic turbine blade; Mesh adaptive direct search algorithm; SURROGATE-BASED OPTIMIZATION; EVOLUTIONARY ALGORITHMS; DESIGN; MODELS;
D O I
10.1016/j.apm.2015.09.008
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
A robust multi-fidelity design optimization methodology has been developed to integrate advantages of high- and low-fidelity analyses, aiming to help designers reach more efficient turbine runners within reasonable computational time and cost. An inexpensive low-fidelity inviscid flow solver handles most of the computational burden by providing data to the optimizer by evaluating objective functions and constraint values in the low-fidelity phase. An open-source derivative-free optimizer, NOMAD, explores the search space, using the multi-objective mesh adaptive direct search optimization algorithm. A versatile filtering algorithm is in charge of connecting low- and high-fidelity phases by selecting among all feasible solutions a few promising solutions which are transferred to the high-fidelity phase. In the high-fidelity phase, a viscous flow solver is used outside the optimization loop to accurately evaluate filtered candidates. High-fidelity analyses results are used to recalibrate the low-fidelity optimization problem. The developed methodology has demonstrated its ability to efficiently redesign a Francis turbine blade for new operating conditions. (C) 2015 Elsevier Inc. All rights reserved.
引用
收藏
页码:1650 / 1668
页数:19
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