SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2896939483> ?p ?o ?g. }

Showing items 1 to 70 of 70 with 100 items per page.

W2896939483 abstract "This Ph.D. thesis focusses upon computational fluid dynamics simulations of circulation control in transonic freestream speeds for applications to unmanned combat air vehicles. The work addresses Coanda shape designs and their effectiveness for transonic circulation control using supersonic jets, with comparisons against traditional control surfaces. Previous works have thus far only investigated transonic circulation control on elliptical sectioned wings with unrepresentatively thick trailing edges and improvements in performance made by considering elliptical Coanda devices or increasing radii of curvature. In this work, a supercritical aerofoil was first modified to accommodate a small Coanda surface with minimal effects on the base drag and a comparison made between the performance of using several Coanda designs and a hinged control surface. The use of a step was demonstrated to make a circulation control device with a simple converging nozzle as effective as ailerons and flaps up to moderate deflection angles and that the limitations are due to breakdowns in the mean flow in a similar fashion to traditional devices. In addition an optimisation study was performed using modern numerical methods on the contouring of the Coanda surface, which identified a shape that performed well for both transonic and subsonic freestream conditions. Circulation control was then applied to a three-dimensional unmanned combat air vehicle planform and assessed at transonic conditions for use in roll, pitch and yaw control. From the range of conditions investigated the findings suggest that, for a three-dimensional representative geometry, circulation control can match the performance of conventional controls for roll and pitch. The results also suggest that for benign transonic conditions, circulation control can also provide control similar effectiveness to split flaps for yaw control. The findings open up insights into transonic circulation control and hopefully will promote further research in both academia and industry, where a lack of CFD validation quality experimental data for a transonic test case with supersonic blowing prohibits the technology from advancing." @default.
W2896939483 created "2018-10-26" @default.
W2896939483 creator A5003538334 @default.
W2896939483 date "2017-08-31" @default.
W2896939483 modified "2023-09-26" @default.
W2896939483 title "Computational Modelling of Transonic Circulation Control" @default.
W2896939483 doi "https://doi.org/10.17638/03018248" @default.
W2896939483 hasPublicationYear "2017" @default.
W2896939483 type Work @default.
W2896939483 sameAs 2896939483 @default.
W2896939483 citedByCount "0" @default.
W2896939483 crossrefType "dissertation" @default.
W2896939483 hasAuthorship W2896939483A5003538334 @default.
W2896939483 hasConcept C103838597 @default.
W2896939483 hasConcept C112124176 @default.
W2896939483 hasConcept C121332964 @default.
W2896939483 hasConcept C127413603 @default.
W2896939483 hasConcept C13393347 @default.
W2896939483 hasConcept C144918251 @default.
W2896939483 hasConcept C146978453 @default.
W2896939483 hasConcept C1633027 @default.
W2896939483 hasConcept C182748727 @default.
W2896939483 hasConcept C196558001 @default.
W2896939483 hasConcept C205991772 @default.
W2896939483 hasConcept C2776911258 @default.
W2896939483 hasConcept C57879066 @default.
W2896939483 hasConcept C60053565 @default.
W2896939483 hasConcept C72921944 @default.
W2896939483 hasConceptScore W2896939483C103838597 @default.
W2896939483 hasConceptScore W2896939483C112124176 @default.
W2896939483 hasConceptScore W2896939483C121332964 @default.
W2896939483 hasConceptScore W2896939483C127413603 @default.
W2896939483 hasConceptScore W2896939483C13393347 @default.
W2896939483 hasConceptScore W2896939483C144918251 @default.
W2896939483 hasConceptScore W2896939483C146978453 @default.
W2896939483 hasConceptScore W2896939483C1633027 @default.
W2896939483 hasConceptScore W2896939483C182748727 @default.
W2896939483 hasConceptScore W2896939483C196558001 @default.
W2896939483 hasConceptScore W2896939483C205991772 @default.
W2896939483 hasConceptScore W2896939483C2776911258 @default.
W2896939483 hasConceptScore W2896939483C57879066 @default.
W2896939483 hasConceptScore W2896939483C60053565 @default.
W2896939483 hasConceptScore W2896939483C72921944 @default.
W2896939483 hasLocation W28969394831 @default.
W2896939483 hasOpenAccess W2896939483 @default.
W2896939483 hasPrimaryLocation W28969394831 @default.
W2896939483 hasRelatedWork W165789996 @default.
W2896939483 hasRelatedWork W1975440321 @default.
W2896939483 hasRelatedWork W2015934205 @default.
W2896939483 hasRelatedWork W2054364861 @default.
W2896939483 hasRelatedWork W2103326154 @default.
W2896939483 hasRelatedWork W2156024300 @default.
W2896939483 hasRelatedWork W2318757287 @default.
W2896939483 hasRelatedWork W2321267249 @default.
W2896939483 hasRelatedWork W2323368488 @default.
W2896939483 hasRelatedWork W2330762488 @default.
W2896939483 hasRelatedWork W2911361182 @default.
W2896939483 hasRelatedWork W2999774625 @default.
W2896939483 hasRelatedWork W3118509116 @default.
W2896939483 hasRelatedWork W332975576 @default.
W2896939483 hasRelatedWork W341971159 @default.
W2896939483 hasRelatedWork W753107590 @default.
W2896939483 hasRelatedWork W797680967 @default.
W2896939483 hasRelatedWork W159782469 @default.
W2896939483 hasRelatedWork W264586107 @default.
W2896939483 hasRelatedWork W264878908 @default.
W2896939483 isParatext "false" @default.
W2896939483 isRetracted "false" @default.
W2896939483 magId "2896939483" @default.
W2896939483 workType "dissertation" @default.