FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3119574122> ?p ?o ?g. }

• W3119574122 abstract "Abstract Effective cooling structure design in the trailing edge (TE) of a high pressure turbine (HPT) blade is essential to increase turbine efficiency and maintain structural integrity. To obtain efficient cooling structures and understand clearly cooling mechanism, this paper adopted numerical simulation methods to investigate fluid flow and cooling characteristics in detail downstream of a HPT blade TE cutback region. The effects of typical TE configurations on cutback cooling performance are investigated including three types of internal turbulators (cylindrical pin fins and elliptic pin fins arranged in streamwise and spanwise orientations), the cutback with/without land extensions and three kinds of ejection lip profiles (one straight lip shape marked as “A” and two rounded lip shapes marked as “B” and “C”, respectively). The Scale Adaptive Simulation (SAS) is implemented to study the complex unsteady mixing process downstream of the cutback under operating condition of blowing ratio M = 0.65. The results from the Shear Stress Transport (SST) k-ω model are compared as well. SAS is capable to reproduce the periodical vortex shedding phenomena and resolve the vortices coherent structures. Compared with the experimental data, SAS provides more accurate predictions in terms of laterally averaged adiabatic cooling effectiveness ηaw and discharge coefficient Cd than the SST k-ω model. On the rear part of the cutback surface, large deterioration in ηaw is predicted by SAS for all configurations, but ηaw is considerably over-predicted by the SST k-ω model except for the case of elliptic pin fins with spanwise orientation. The elliptic pin fins with streamwise orientation significantly improve ηaw at the rear part of the cutback surface over the baseline model with cylindrical pin fins and slightly increase Cd. However, the elliptic pin fins with spanwise orientation drastically reduce the ηaw and Cd. Downstream of the cutback, the coherent structures are strongly disturbed and become chaotic compared to the TE with cylindrical and streamwise oriented elliptic pin fins. The application of land extensions only causes an evident change to the coherent structure immediate downstream of the lip, and slightly improves ηaw and reduces Cd over the baseline model on the rear part of the cutback surface. Rounded lip shapes B and C also show an obvious increase in ηaw on the rear part of the cutback surface but only a minor increase in Cd compared to the straight lip shape A. The rounded lip helps the coolant diffuse into the TE cutback and reduce the intensity of mixing. Due to larger rounding radius of shape B, the cooling effectiveness predicted by shape B is slightly better than shape C." @default.
• W3119574122 created "2021-01-18" @default.
• W3119574122 creator A5013968309 @default.
• W3119574122 creator A5019909558 @default.
• W3119574122 creator A5023025722 @default.
• W3119574122 creator A5025556929 @default.
• W3119574122 creator A5040308125 @default.
• W3119574122 creator A5056101043 @default.
• W3119574122 creator A5064317688 @default.
• W3119574122 date "2020-09-21" @default.
• W3119574122 modified "2023-09-23" @default.
• W3119574122 title "Application of Scale Adaptive Simulation Model to Studying Cooling Characteristics of a High Pressure Turbine Blade Cutback Trailing Edge With Different Cooling Configurations" @default.
• W3119574122 cites W1974097079 @default.
• W3119574122 cites W1979176272 @default.
• W3119574122 cites W1979525933 @default.
• W3119574122 cites W1990857019 @default.
• W3119574122 cites W2002055225 @default.
• W3119574122 cites W2007900234 @default.
• W3119574122 cites W2033715956 @default.
• W3119574122 cites W2037537239 @default.
• W3119574122 cites W2038010979 @default.
• W3119574122 cites W2039651484 @default.
• W3119574122 cites W2048128079 @default.
• W3119574122 cites W2048889587 @default.
• W3119574122 cites W2053032989 @default.
• W3119574122 cites W2061689208 @default.
• W3119574122 cites W2074578374 @default.
• W3119574122 cites W2087729175 @default.
• W3119574122 cites W2258299315 @default.
• W3119574122 cites W2795314412 @default.
• W3119574122 cites W2802291387 @default.
• W3119574122 cites W2898349882 @default.
• W3119574122 cites W3010644512 @default.
• W3119574122 doi "https://doi.org/10.1115/gt2020-14234" @default.
• W3119574122 hasPublicationYear "2020" @default.
• W3119574122 type Work @default.
• W3119574122 sameAs 3119574122 @default.
• W3119574122 citedByCount "0" @default.
• W3119574122 crossrefType "proceedings-article" @default.
• W3119574122 hasAuthorship W3119574122A5013968309 @default.
• W3119574122 hasAuthorship W3119574122A5019909558 @default.
• W3119574122 hasAuthorship W3119574122A5023025722 @default.
• W3119574122 hasAuthorship W3119574122A5025556929 @default.
• W3119574122 hasAuthorship W3119574122A5040308125 @default.
• W3119574122 hasAuthorship W3119574122A5056101043 @default.
• W3119574122 hasAuthorship W3119574122A5064317688 @default.
• W3119574122 hasConcept C109663097 @default.
• W3119574122 hasConcept C121332964 @default.
• W3119574122 hasConcept C12241035 @default.
• W3119574122 hasConcept C140820882 @default.
• W3119574122 hasConcept C182748727 @default.
• W3119574122 hasConcept C192562407 @default.
• W3119574122 hasConcept C196558001 @default.
• W3119574122 hasConcept C20381859 @default.
• W3119574122 hasConcept C2778449969 @default.
• W3119574122 hasConcept C28317120 @default.
• W3119574122 hasConcept C38349280 @default.
• W3119574122 hasConcept C51125570 @default.
• W3119574122 hasConcept C57879066 @default.
• W3119574122 hasConcept C62520636 @default.
• W3119574122 hasConcept C97355855 @default.
• W3119574122 hasConcept C98444146 @default.
• W3119574122 hasConceptScore W3119574122C109663097 @default.
• W3119574122 hasConceptScore W3119574122C121332964 @default.
• W3119574122 hasConceptScore W3119574122C12241035 @default.
• W3119574122 hasConceptScore W3119574122C140820882 @default.
• W3119574122 hasConceptScore W3119574122C182748727 @default.
• W3119574122 hasConceptScore W3119574122C192562407 @default.
• W3119574122 hasConceptScore W3119574122C196558001 @default.
• W3119574122 hasConceptScore W3119574122C20381859 @default.
• W3119574122 hasConceptScore W3119574122C2778449969 @default.
• W3119574122 hasConceptScore W3119574122C28317120 @default.
• W3119574122 hasConceptScore W3119574122C38349280 @default.
• W3119574122 hasConceptScore W3119574122C51125570 @default.
• W3119574122 hasConceptScore W3119574122C57879066 @default.
• W3119574122 hasConceptScore W3119574122C62520636 @default.
• W3119574122 hasConceptScore W3119574122C97355855 @default.
• W3119574122 hasConceptScore W3119574122C98444146 @default.
• W3119574122 hasLocation W31195741221 @default.
• W3119574122 hasOpenAccess W3119574122 @default.
• W3119574122 hasPrimaryLocation W31195741221 @default.
• W3119574122 hasRelatedWork W13588499 @default.
• W3119574122 hasRelatedWork W13776729 @default.
• W3119574122 hasRelatedWork W17589716 @default.
• W3119574122 hasRelatedWork W21757927 @default.
• W3119574122 hasRelatedWork W21947607 @default.
• W3119574122 hasRelatedWork W26195169 @default.
• W3119574122 hasRelatedWork W39416607 @default.
• W3119574122 hasRelatedWork W40077349 @default.
• W3119574122 hasRelatedWork W43015366 @default.
• W3119574122 hasRelatedWork W8715879 @default.
• W3119574122 isParatext "false" @default.
• W3119574122 isRetracted "false" @default.
• W3119574122 magId "3119574122" @default.
• W3119574122 workType "article" @default.