FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2076928015> ?p ?o ?g. }

• W2076928015 endingPage "1410" @default.
• W2076928015 startingPage "1409" @default.
• W2076928015 abstract "LOW-SPEED unsteady separated flow may be computed from Eulerian finite-difference or -element representations of the Navier-Stokes equations or by Lagrangian vortex tracking methods. The latter have been used to model both two-dimensional separated airfoil flows at high Reynolds numbers1'2 as well as numerous bluff-body flows.3'5 A major difficulty with the basic vortex method is that it is inviscid; hence, separation, except at sharp edges, must be predicted by some other means. Where empirical prediction is difficult, boundary-layer calculation (viscous-inviscid matching) has been used, but it is possible to predict laminar separation too early2 unless the discrete vortex representation is started upstream of the separation point. Viscous diffusion is usually modeled by vortex blob and random walk techniques.6'7 The results presented in this synoptic were computed using the inviscid cloud-in-cell vortex method.8 This is a mixed EulerianLagrangian method in which descrete vortices are tracked through a grid on which the velocity field is computed by a finite-difference method. It has the advantage of faster computation when large numbers of vortices are present but a poorer resolution of the velocity field. Contents Cloud-in-Cell Method In this method, the circulation of the vortices shed from the body is distributed by a weighting function (bilinear in the present calculations) onto a grid. The stream function [/ is then computed from the Poisson equation V 2 ^=— w, linking j/ to the resulting vorticity distribution co on the grid. This equation was expressed in central difference form and solved by a combination of fast Fourier transforms and Gaussian elimination. In order to avoid interpolated boundary conditions for I/, the airfoil was transformed into a circle of radius R using the Joukowski transformation. The computation was carried out in the circle plane on a regular n x m polar mesh (rjtBk ) , where rj=R(+2ir/m)J and Discrete vortices were shed into the flow from the two points on the circle corresponding to the trailing edge of the airfoil and a separation point just behind the leading edge. In the present study, the flow is over an 11%-thick Joukowski airfoil at 30-deg incidence, and the leading-edge separation point was fixed empirically at 1% chord, c, from observations of the separation point on a similar airfoil" @default.
• W2076928015 created "2016-06-24" @default.
• W2076928015 creator A5019628509 @default.
• W2076928015 creator A5043075977 @default.
• W2076928015 date "1987-11-01" @default.
• W2076928015 modified "2023-09-25" @default.
• W2076928015 title "Discrete vortex computation of separated airfoil flow" @default.
• W2076928015 cites W1992906507 @default.
• W2076928015 cites W2057786615 @default.
• W2076928015 cites W2069321667 @default.
• W2076928015 cites W2102632473 @default.
• W2076928015 cites W2116438149 @default.
• W2076928015 cites W4230894526 @default.
• W2076928015 doi "https://doi.org/10.2514/3.9796" @default.
• W2076928015 hasPublicationYear "1987" @default.
• W2076928015 type Work @default.
• W2076928015 sameAs 2076928015 @default.
• W2076928015 citedByCount "12" @default.
• W2076928015 countsByYear W20769280152012 @default.
• W2076928015 countsByYear W20769280152013 @default.
• W2076928015 countsByYear W20769280152016 @default.
• W2076928015 crossrefType "journal-article" @default.
• W2076928015 hasAuthorship W2076928015A5019628509 @default.
• W2076928015 hasAuthorship W2076928015A5043075977 @default.
• W2076928015 hasConcept C112124176 @default.
• W2076928015 hasConcept C11413529 @default.
• W2076928015 hasConcept C121332964 @default.
• W2076928015 hasConcept C127413603 @default.
• W2076928015 hasConcept C131043120 @default.
• W2076928015 hasConcept C13393347 @default.
• W2076928015 hasConcept C140369647 @default.
• W2076928015 hasConcept C140820882 @default.
• W2076928015 hasConcept C141069875 @default.
• W2076928015 hasConcept C146978453 @default.
• W2076928015 hasConcept C150486481 @default.
• W2076928015 hasConcept C1633027 @default.
• W2076928015 hasConcept C168475990 @default.
• W2076928015 hasConcept C178760647 @default.
• W2076928015 hasConcept C182748727 @default.
• W2076928015 hasConcept C189360488 @default.
• W2076928015 hasConcept C196558001 @default.
• W2076928015 hasConcept C33923547 @default.
• W2076928015 hasConcept C38349280 @default.
• W2076928015 hasConcept C45374587 @default.
• W2076928015 hasConcept C57879066 @default.
• W2076928015 hasConcept C77576233 @default.
• W2076928015 hasConceptScore W2076928015C112124176 @default.
• W2076928015 hasConceptScore W2076928015C11413529 @default.
• W2076928015 hasConceptScore W2076928015C121332964 @default.
• W2076928015 hasConceptScore W2076928015C127413603 @default.
• W2076928015 hasConceptScore W2076928015C131043120 @default.
• W2076928015 hasConceptScore W2076928015C13393347 @default.
• W2076928015 hasConceptScore W2076928015C140369647 @default.
• W2076928015 hasConceptScore W2076928015C140820882 @default.
• W2076928015 hasConceptScore W2076928015C141069875 @default.
• W2076928015 hasConceptScore W2076928015C146978453 @default.
• W2076928015 hasConceptScore W2076928015C150486481 @default.
• W2076928015 hasConceptScore W2076928015C1633027 @default.
• W2076928015 hasConceptScore W2076928015C168475990 @default.
• W2076928015 hasConceptScore W2076928015C178760647 @default.
• W2076928015 hasConceptScore W2076928015C182748727 @default.
• W2076928015 hasConceptScore W2076928015C189360488 @default.
• W2076928015 hasConceptScore W2076928015C196558001 @default.
• W2076928015 hasConceptScore W2076928015C33923547 @default.
• W2076928015 hasConceptScore W2076928015C38349280 @default.
• W2076928015 hasConceptScore W2076928015C45374587 @default.
• W2076928015 hasConceptScore W2076928015C57879066 @default.
• W2076928015 hasConceptScore W2076928015C77576233 @default.
• W2076928015 hasIssue "11" @default.
• W2076928015 hasLocation W20769280151 @default.
• W2076928015 hasOpenAccess W2076928015 @default.
• W2076928015 hasPrimaryLocation W20769280151 @default.
• W2076928015 hasRelatedWork W1592589998 @default.
• W2076928015 hasRelatedWork W2017121231 @default.
• W2076928015 hasRelatedWork W2023829181 @default.
• W2076928015 hasRelatedWork W2044310133 @default.
• W2076928015 hasRelatedWork W2076928015 @default.
• W2076928015 hasRelatedWork W2133179257 @default.
• W2076928015 hasRelatedWork W2313124600 @default.
• W2076928015 hasRelatedWork W2330135536 @default.
• W2076928015 hasRelatedWork W2373261855 @default.
• W2076928015 hasRelatedWork W1142040691 @default.
• W2076928015 hasVolume "25" @default.
• W2076928015 isParatext "false" @default.
• W2076928015 isRetracted "false" @default.
• W2076928015 magId "2076928015" @default.
• W2076928015 workType "article" @default.