Analysis and Optimization of Transonic Centrifugal Compressor Impellers Using the Design of Experiments Technique

TitleAnalysis and Optimization of Transonic Centrifugal Compressor Impellers Using the Design of Experiments Technique
Publication TypeJournal Article
Year of Publication2006
AuthorsBonaiuti D, Arnone A, Ermini M, Baldassarre L
JournalASME Journal of Turbomachinery
Volume128
Issue4
Pagination786–797
Date PublishedOctober
ISSN Number0889-504X
Accession NumberWOS:000241346200022
Other NumbersScopus 2-s2.0-33750722470
KeywordsCentrifugal Compressors, DOE, Optimization
Abstract

The turbomachine industry is increasingly interested in developing automated design procedures that are able to summarize current design experience, to take into account manufacturing limitations and to define new rules for improving machine performance. In this paper, a strategy for the parametric analysis and optimization of transonic centrifugal impellers was developed, using the technique of the design of experiments coupled with a three dimensional fluid-dynamic solver. The geometrical parameterization was conducted using Bezier curves and a few geometrical parameters, which were chosen after a screening analysis in order to determine the most significant ones. The range of variation of the parameters was defined taking into account the manufacturing requirements. The analysis of the influence of such parameters on the main impeller performance was subdivided into two steps: first, the effect of the parameters acting on the blade shape was investigated and an optimum configuration was chosen, then the influence of three functional parameters was analyzed, fixing the already optimized variables. The whole strategy aimed at an industrial design approach, and attention was focused on the time required in the design process. From the present analysis it was possible not only to define an optimum geometry, but also to understand the influence of the input parameters on the main machine performance.

URLhttp://link.aip.org/link/?JTM/128/786/1
DOI10.1115/1.1579507