SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3161709886> ?p ?o ?g. }

Showing items 1 to 100 of ±122 with 100 items per page.

W3161709886 endingPage "106486" @default.
W3161709886 startingPage "106486" @default.
W3161709886 abstract "Flow instability associated with spike-stall restricts the development of advanced aero-engines with a high-speed centrifugal compressor. However, given the irregular structure of centrifugal compressor, few approaches can be applied to stability analysis. Considering the typical features of spike-stall, an implement of stability analysis method on the flow field of impeller inlet was proposed innovatively. Thus, in-depth comprehension of stall perturbation structure and accurate prediction of stall perturbation propagation can be obtained. In this work, an unsteady full annular simulation of a centrifugal compressor with a volute coupled with experimental validations was carried out by using the Reynolds averaged Navier–Stokes technique. Then, an advanced dynamic mode decomposition method named compressed DMD was employed to extract and analyze the dominant stall perturbation structure. Finally, considering the effects of eddy viscosity and molecular viscosity, a two-dimensional global stability analysis method based on the θ-z cylindrical surface at the impeller inlet is established to reveal the propagation behaviors of stall perturbation. The results indicate that the compressed DMD approach can capture low-frequency perturbation caused by stall accurately but not dependent on samplings. The flow structure near stall can be decomposed into the influenced mean flow, flow perturbation associated with rotor frequency and blade passing frequency with the frequencies of 1333 Hz and 9333 Hz, respectively, and stall perturbation with the frequency of 510 Hz. In the view of perturbation propagation features, it is mainly two propagations along the θ-z cylindrical surface. One is the reverse propagation to the upstream axially; the other is the secondary propagation to the blade leading edge with the effect of the main flow during the first propagation process. Both propagation paths deflect to the rotation direction, and the deflection degree of the second propagation paths is larger than that of the first one, thus, a triangular instability region is formed. The researches not only provide a new thought for the application of stability analysis in the centrifugal compressor but also clarify the propagation characteristics of stall disturbance, which lays a foundation for accurate flow control." @default.
W3161709886 created "2021-05-24" @default.
W3161709886 creator A5051838187 @default.
W3161709886 creator A5070653361 @default.
W3161709886 creator A5072116629 @default.
W3161709886 creator A5086155911 @default.
W3161709886 date "2021-07-01" @default.
W3161709886 modified "2023-10-18" @default.
W3161709886 title "Modelling and dynamic mode analysis of compressor impeller spike-type stall with global stability approach" @default.
W3161709886 cites W1971227642 @default.
W3161709886 cites W1987801871 @default.
W3161709886 cites W2007812216 @default.
W3161709886 cites W2019886706 @default.
W3161709886 cites W2029498818 @default.
W3161709886 cites W2037063652 @default.
W3161709886 cites W2041979270 @default.
W3161709886 cites W2064779296 @default.
W3161709886 cites W2068816971 @default.
W3161709886 cites W2070537673 @default.
W3161709886 cites W2093120166 @default.
W3161709886 cites W2106295099 @default.
W3161709886 cites W2115710526 @default.
W3161709886 cites W2116892176 @default.
W3161709886 cites W2124579925 @default.
W3161709886 cites W2127622806 @default.
W3161709886 cites W2127757775 @default.
W3161709886 cites W2130307359 @default.
W3161709886 cites W2145124592 @default.
W3161709886 cites W2146623332 @default.
W3161709886 cites W2155968710 @default.
W3161709886 cites W2162473925 @default.
W3161709886 cites W2167782723 @default.
W3161709886 cites W2168135966 @default.
W3161709886 cites W2232455846 @default.
W3161709886 cites W2327231152 @default.
W3161709886 cites W2342665305 @default.
W3161709886 cites W2465277886 @default.
W3161709886 cites W2549223035 @default.
W3161709886 cites W2554418162 @default.
W3161709886 cites W2803086731 @default.
W3161709886 cites W2803975236 @default.
W3161709886 cites W2894775319 @default.
W3161709886 cites W2901327205 @default.
W3161709886 cites W2924684048 @default.
W3161709886 cites W2949343637 @default.
W3161709886 cites W2989209018 @default.
W3161709886 cites W3010781802 @default.
W3161709886 cites W3024978877 @default.
W3161709886 cites W3036598516 @default.
W3161709886 cites W3101118725 @default.
W3161709886 cites W4250955649 @default.
W3161709886 doi "https://doi.org/10.1016/j.ijmecsci.2021.106486" @default.
W3161709886 hasPublicationYear "2021" @default.
W3161709886 type Work @default.
W3161709886 sameAs 3161709886 @default.
W3161709886 citedByCount "6" @default.
W3161709886 countsByYear W31617098862022 @default.
W3161709886 countsByYear W31617098862023 @default.
W3161709886 crossrefType "journal-article" @default.
W3161709886 hasAuthorship W3161709886A5051838187 @default.
W3161709886 hasAuthorship W3161709886A5070653361 @default.
W3161709886 hasAuthorship W3161709886A5072116629 @default.
W3161709886 hasAuthorship W3161709886A5086155911 @default.
W3161709886 hasConcept C121332964 @default.
W3161709886 hasConcept C127413603 @default.
W3161709886 hasConcept C131097465 @default.
W3161709886 hasConcept C153005164 @default.
W3161709886 hasConcept C154945302 @default.
W3161709886 hasConcept C177918212 @default.
W3161709886 hasConcept C180788929 @default.
W3161709886 hasConcept C201289731 @default.
W3161709886 hasConcept C207821765 @default.
W3161709886 hasConcept C2775924081 @default.
W3161709886 hasConcept C41008148 @default.
W3161709886 hasConcept C47446073 @default.
W3161709886 hasConcept C57879066 @default.
W3161709886 hasConcept C5804382 @default.
W3161709886 hasConcept C62520636 @default.
W3161709886 hasConcept C78519656 @default.
W3161709886 hasConcept C91941580 @default.
W3161709886 hasConcept C95277225 @default.
W3161709886 hasConcept C97355855 @default.
W3161709886 hasConceptScore W3161709886C121332964 @default.
W3161709886 hasConceptScore W3161709886C127413603 @default.
W3161709886 hasConceptScore W3161709886C131097465 @default.
W3161709886 hasConceptScore W3161709886C153005164 @default.
W3161709886 hasConceptScore W3161709886C154945302 @default.
W3161709886 hasConceptScore W3161709886C177918212 @default.
W3161709886 hasConceptScore W3161709886C180788929 @default.
W3161709886 hasConceptScore W3161709886C201289731 @default.
W3161709886 hasConceptScore W3161709886C207821765 @default.
W3161709886 hasConceptScore W3161709886C2775924081 @default.
W3161709886 hasConceptScore W3161709886C41008148 @default.
W3161709886 hasConceptScore W3161709886C47446073 @default.
W3161709886 hasConceptScore W3161709886C57879066 @default.
W3161709886 hasConceptScore W3161709886C5804382 @default.
W3161709886 hasConceptScore W3161709886C62520636 @default.
W3161709886 hasConceptScore W3161709886C78519656 @default.