FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3201437405> ?p ?o ?g. }

• W3201437405 endingPage "8442" @default.
• W3201437405 startingPage "8442" @default.
• W3201437405 abstract "Model-inspired signal processing approaches with an enhanced detectability of flow separation on thermographic images are presented. Flow separation causes performance loss, structural loads and increasing acoustic emissions on wind turbine rotor blades. However, due to the low thermal contrast between turbulent and separated flow regions, the non-invasive thermographic visualisation of flow separation is currently only possible for wind tunnel measurements, which are characterised by a high thermal contrast and a small measuring distance. The state-of-the-art signal processing approaches evaluate the surface temperature fluctuation of thermographic image series. However, understanding of the signal measurement chain with a distinct consideration of the influences on the dynamic surface temperature is incomplete. Therefore, designing model-inspired signal processing approaches which provide a high interpretability and a maximum contrast is an open task. The proposed signal processing approaches evaluate the surface response selectively, by using the amplitude information of the surface temperature response to an oscillating input signal or gradient-based for a transient input signal. The approaches are applied to wind tunnel measurements on a rotor blade profile at a near thermodynamic steady state and a transient thermodynamic behaviour at Reynolds numbers that are representative for operational wind turbines. The gradient-based evaluation shows an improved contrast for the detection of flow separation, but is only applicable to profiles with transient thermodynamic behaviour. The amplitude evaluation provides a high degree of interpretability of the processed images based on flow-dependent features and enables for an unambiguous identification of flow separation by a global amplitude minimum close to the separation point. Additionally, an increased spatial resolution for surface modifications is shown, while the contrast between flow regions is significantly decreased. Hence, the proposed approaches allow for an improved identifiability of flow separation with regard to future applications on wind turbines in operation." @default.
• W3201437405 created "2021-09-27" @default.
• W3201437405 creator A5013113973 @default.
• W3201437405 creator A5019477827 @default.
• W3201437405 creator A5053530974 @default.
• W3201437405 creator A5054687195 @default.
• W3201437405 creator A5060463030 @default.
• W3201437405 creator A5022029843 @default.
• W3201437405 date "2021-09-11" @default.
• W3201437405 modified "2023-09-27" @default.
• W3201437405 title "Thermographic Stall Detection by Model-Inspired Evaluation of the Dynamic Temperature Behaviour" @default.
• W3201437405 cites W1594834271 @default.
• W3201437405 cites W1972773028 @default.
• W3201437405 cites W1982781716 @default.
• W3201437405 cites W1985821535 @default.
• W3201437405 cites W2007455871 @default.
• W3201437405 cites W2018991287 @default.
• W3201437405 cites W2019568122 @default.
• W3201437405 cites W2020055178 @default.
• W3201437405 cites W2057482004 @default.
• W3201437405 cites W2059193743 @default.
• W3201437405 cites W2072401802 @default.
• W3201437405 cites W2088563819 @default.
• W3201437405 cites W2114945421 @default.
• W3201437405 cites W2158797565 @default.
• W3201437405 cites W2389517311 @default.
• W3201437405 cites W2517324375 @default.
• W3201437405 cites W2775203877 @default.
• W3201437405 cites W2799295826 @default.
• W3201437405 cites W2810505854 @default.
• W3201437405 cites W2912211352 @default.
• W3201437405 cites W3008783460 @default.
• W3201437405 cites W3163336876 @default.
• W3201437405 cites W4235788351 @default.
• W3201437405 cites W4239605778 @default.
• W3201437405 cites W4252848669 @default.
• W3201437405 doi "https://doi.org/10.3390/app11188442" @default.
• W3201437405 hasPublicationYear "2021" @default.
• W3201437405 type Work @default.
• W3201437405 sameAs 3201437405 @default.
• W3201437405 citedByCount "4" @default.
• W3201437405 countsByYear W32014374052022 @default.
• W3201437405 countsByYear W32014374052023 @default.
• W3201437405 crossrefType "journal-article" @default.
• W3201437405 hasAuthorship W3201437405A5013113973 @default.
• W3201437405 hasAuthorship W3201437405A5019477827 @default.
• W3201437405 hasAuthorship W3201437405A5022029843 @default.
• W3201437405 hasAuthorship W3201437405A5053530974 @default.
• W3201437405 hasAuthorship W3201437405A5054687195 @default.
• W3201437405 hasAuthorship W3201437405A5060463030 @default.
• W3201437405 hasBestOaLocation W32014374051 @default.
• W3201437405 hasConcept C100086909 @default.
• W3201437405 hasConcept C111919701 @default.
• W3201437405 hasConcept C120665830 @default.
• W3201437405 hasConcept C121332964 @default.
• W3201437405 hasConcept C158355884 @default.
• W3201437405 hasConcept C182748727 @default.
• W3201437405 hasConcept C196558001 @default.
• W3201437405 hasConcept C199360897 @default.
• W3201437405 hasConcept C24890656 @default.
• W3201437405 hasConcept C2779222261 @default.
• W3201437405 hasConcept C2779843651 @default.
• W3201437405 hasConcept C2780799671 @default.
• W3201437405 hasConcept C38349280 @default.
• W3201437405 hasConcept C41008148 @default.
• W3201437405 hasConcept C57879066 @default.
• W3201437405 hasConceptScore W3201437405C100086909 @default.
• W3201437405 hasConceptScore W3201437405C111919701 @default.
• W3201437405 hasConceptScore W3201437405C120665830 @default.
• W3201437405 hasConceptScore W3201437405C121332964 @default.
• W3201437405 hasConceptScore W3201437405C158355884 @default.
• W3201437405 hasConceptScore W3201437405C182748727 @default.
• W3201437405 hasConceptScore W3201437405C196558001 @default.
• W3201437405 hasConceptScore W3201437405C199360897 @default.
• W3201437405 hasConceptScore W3201437405C24890656 @default.
• W3201437405 hasConceptScore W3201437405C2779222261 @default.
• W3201437405 hasConceptScore W3201437405C2779843651 @default.
• W3201437405 hasConceptScore W3201437405C2780799671 @default.
• W3201437405 hasConceptScore W3201437405C38349280 @default.
• W3201437405 hasConceptScore W3201437405C41008148 @default.
• W3201437405 hasConceptScore W3201437405C57879066 @default.
• W3201437405 hasFunder F4320320879 @default.
• W3201437405 hasIssue "18" @default.
• W3201437405 hasLocation W32014374051 @default.
• W3201437405 hasLocation W32014374052 @default.
• W3201437405 hasOpenAccess W3201437405 @default.
• W3201437405 hasPrimaryLocation W32014374051 @default.
• W3201437405 hasRelatedWork W1916722776 @default.
• W3201437405 hasRelatedWork W1986707219 @default.
• W3201437405 hasRelatedWork W2009154752 @default.
• W3201437405 hasRelatedWork W2033498233 @default.
• W3201437405 hasRelatedWork W2041328019 @default.
• W3201437405 hasRelatedWork W2070980289 @default.
• W3201437405 hasRelatedWork W2091009214 @default.
• W3201437405 hasRelatedWork W2378313465 @default.
• W3201437405 hasRelatedWork W2883229276 @default.
• W3201437405 hasRelatedWork W4362649909 @default.
• W3201437405 hasVolume "11" @default.

• next