SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3185513414> ?p ?o ?g. }

Showing items 1 to 100 of ±123 with 100 items per page.

W3185513414 endingPage "106657" @default.
W3185513414 startingPage "106657" @default.
W3185513414 abstract "Double wall transpiration cooling (DWTC) is a new technology that allows the gas turbine inlet temperatures to be increased beyond current levels to promote higher engine efficiency. DWTC systems consist of outer hot and inner cooler walls, connected by pedestals, which contain film cooling and impingement holes, respectively. In order to employ these new systems, an evaluation of the stresses that drive fatigue and ratchetting at critical stress raisers is essential. We present a modelling framework which combines Computational Fluid Dynamics (CFD)-heat transfer solutions for the temperature field in DWTC systems, with theoretical and Finite Element (FE) elastic solutions for the thermal (T) stress and centrifugal (CF) stress fields. We demonstrate that uniaxial tensile CF loading causes much higher stress concentration factors (SCF) at cooling holes and wall-connecting pedestals than the thermally induced biaxial stresses. A theoretical framework is developed, supported by FE studies, that captures the dependence of the SCF on important geometric parameters, such as wall thicknesses, pedestal height and hole size, spacing and inclination angle, which provides important information for the optimisation of these systems. A key observation of relevance to both conventional and non-conventional turbine blade designs, is that the superposition of tensile CF stresses to compressive T stresses is beneficial for the performance at the critical film hole features; for double wall blades, however, the superposition degrades the performance at impingement holes and pedestals, as in these locations the T stresses are also tensile. These stresses can be balanced by using an optimal wall thickness ratio. Our elastic solutions can be readily used in analyses for predicting structural ratchet boundaries based on shakedown theory and the local cyclic strain range that drives thermomechanical fatigue in DWTC systems." @default.
W3185513414 created "2021-08-02" @default.
W3185513414 creator A5043930436 @default.
W3185513414 creator A5072498550 @default.
W3185513414 creator A5090098293 @default.
W3185513414 date "2021-10-01" @default.
W3185513414 modified "2023-10-14" @default.
W3185513414 title "Multiscale analysis of thermomechanical stresses in double wall transpiration cooling systems for gas turbine blades" @default.
W3185513414 cites W1967284407 @default.
W3185513414 cites W1973782951 @default.
W3185513414 cites W1976439570 @default.
W3185513414 cites W1980635323 @default.
W3185513414 cites W1980928358 @default.
W3185513414 cites W1985153679 @default.
W3185513414 cites W1990767206 @default.
W3185513414 cites W2015385441 @default.
W3185513414 cites W2021540094 @default.
W3185513414 cites W2034653522 @default.
W3185513414 cites W2040968272 @default.
W3185513414 cites W2048198593 @default.
W3185513414 cites W2056155459 @default.
W3185513414 cites W2064933033 @default.
W3185513414 cites W2077957696 @default.
W3185513414 cites W2084981289 @default.
W3185513414 cites W2088662971 @default.
W3185513414 cites W2103732598 @default.
W3185513414 cites W2138492017 @default.
W3185513414 cites W2558713814 @default.
W3185513414 cites W2745869192 @default.
W3185513414 cites W2752215635 @default.
W3185513414 cites W2784708777 @default.
W3185513414 cites W2789889048 @default.
W3185513414 cites W2790022799 @default.
W3185513414 cites W2793248393 @default.
W3185513414 cites W2797626049 @default.
W3185513414 cites W2889951595 @default.
W3185513414 cites W2890714938 @default.
W3185513414 cites W2908281265 @default.
W3185513414 cites W2937502933 @default.
W3185513414 cites W2939579179 @default.
W3185513414 cites W2941316830 @default.
W3185513414 cites W2969436138 @default.
W3185513414 cites W3005313710 @default.
W3185513414 cites W3010428212 @default.
W3185513414 cites W3023011868 @default.
W3185513414 cites W3041320916 @default.
W3185513414 cites W3090929660 @default.
W3185513414 cites W3099850210 @default.
W3185513414 cites W3105740572 @default.
W3185513414 cites W3135173564 @default.
W3185513414 cites W3158516456 @default.
W3185513414 cites W3167036881 @default.
W3185513414 cites W4229813491 @default.
W3185513414 cites W4245079795 @default.
W3185513414 cites W4249039297 @default.
W3185513414 cites W942321263 @default.
W3185513414 doi "https://doi.org/10.1016/j.ijmecsci.2021.106657" @default.
W3185513414 hasPublicationYear "2021" @default.
W3185513414 type Work @default.
W3185513414 sameAs 3185513414 @default.
W3185513414 citedByCount "24" @default.
W3185513414 countsByYear W31855134142021 @default.
W3185513414 countsByYear W31855134142022 @default.
W3185513414 countsByYear W31855134142023 @default.
W3185513414 crossrefType "journal-article" @default.
W3185513414 hasAuthorship W3185513414A5043930436 @default.
W3185513414 hasAuthorship W3185513414A5072498550 @default.
W3185513414 hasAuthorship W3185513414A5090098293 @default.
W3185513414 hasBestOaLocation W31855134142 @default.
W3185513414 hasConcept C112950240 @default.
W3185513414 hasConcept C121332964 @default.
W3185513414 hasConcept C127413603 @default.
W3185513414 hasConcept C135628077 @default.
W3185513414 hasConcept C138885662 @default.
W3185513414 hasConcept C159985019 @default.
W3185513414 hasConcept C192562407 @default.
W3185513414 hasConcept C20381859 @default.
W3185513414 hasConcept C21036866 @default.
W3185513414 hasConcept C27753989 @default.
W3185513414 hasConcept C2778449969 @default.
W3185513414 hasConcept C41895202 @default.
W3185513414 hasConcept C57879066 @default.
W3185513414 hasConcept C62520636 @default.
W3185513414 hasConcept C66938386 @default.
W3185513414 hasConcept C78519656 @default.
W3185513414 hasConceptScore W3185513414C112950240 @default.
W3185513414 hasConceptScore W3185513414C121332964 @default.
W3185513414 hasConceptScore W3185513414C127413603 @default.
W3185513414 hasConceptScore W3185513414C135628077 @default.
W3185513414 hasConceptScore W3185513414C138885662 @default.
W3185513414 hasConceptScore W3185513414C159985019 @default.
W3185513414 hasConceptScore W3185513414C192562407 @default.
W3185513414 hasConceptScore W3185513414C20381859 @default.
W3185513414 hasConceptScore W3185513414C21036866 @default.
W3185513414 hasConceptScore W3185513414C27753989 @default.
W3185513414 hasConceptScore W3185513414C2778449969 @default.
W3185513414 hasConceptScore W3185513414C41895202 @default.
W3185513414 hasConceptScore W3185513414C57879066 @default.