FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W235758520> ?p ?o ?g. }

• W235758520 abstract "This thesis is motivated by the necessity to understand the flow structure of turbulent flows in bends encountered in many technical applications such as heat exchangers, nuclear reactors and internal combustion engines. Flows in bends are characterised by strong secondary motions in terms of counter-rotating vortices (Dean cells) set up by a centrifugal instability. Specifically the thesis deals with turbulent flows in 90° curved pipes of circular cross-section with and without an additional motion, swirling or pulsatile, superposed on the primary flow. The aim of the present thesis is to study these complex flows in detail by using time-resolved stereoscopic particle image velocimetry to obtain the three-dimensional velocity field, with complementary hot-wire anemometry and laser Doppler velocimetry measurements.In order to analyse the vortical flow field proper orthogonal decomposition (POD) is used. The so called ``swirl-switching'' is identified and it is shown that the vortices instantaneously, ``rock'' between three states, viz. a pair of symmetric vortices or a dominant clockwise or counter-clockwise Dean cell. The most energetic mode exhibits a single cell spanning the whole cross-section and ``rolling'' (counter-)clockwise in time. However, when a honeycomb is mounted at the inlet of the bend, the Dean vortices break down and there is strong indication that the ``swirl-switching'' is hindered.When a swirling motion is superimposed on the incoming flow, the Dean vortices show a tendency to merge into a single cell with increasing swirl intensity. POD analysis show vortices which closely resemble the Dean cells, indicating that these structures co-exist with the swirling motion. In highly pulsating turbulent flow at the exit of a curved pipe, the vortical pattern is diminished or even eliminated during the acceleration phase and then re-established during the deceleration.In order to investigate the effect of pulsations and curvature on the performance of a turbocharger turbine, highly pulsating turbulent flow through a sharp bend is fed into the turbine. Time-resolved pressure and mass-flow rate measurements show that the hysteresis loop in the pressure-ratio-mass-flow plane, may differ significantly between straight and curved inlets, however the mean operating point is only slightly affected." @default.
• W235758520 created "2016-06-24" @default.
• W235758520 creator A5007052066 @default.
• W235758520 creator A5025654035 @default.
• W235758520 creator A5040867761 @default.
• W235758520 creator A5045270834 @default.
• W235758520 date "2014-01-01" @default.
• W235758520 modified "2023-09-26" @default.
• W235758520 title "Some observations of pulsating, curved pipe flow and its influence on turbine maps" @default.
• W235758520 hasPublicationYear "2014" @default.
• W235758520 type Work @default.
• W235758520 sameAs 235758520 @default.
• W235758520 citedByCount "0" @default.
• W235758520 crossrefType "journal-article" @default.
• W235758520 hasAuthorship W235758520A5007052066 @default.
• W235758520 hasAuthorship W235758520A5025654035 @default.
• W235758520 hasAuthorship W235758520A5040867761 @default.
• W235758520 hasAuthorship W235758520A5045270834 @default.
• W235758520 hasConcept C121332964 @default.
• W235758520 hasConcept C140820882 @default.
• W235758520 hasConcept C196558001 @default.
• W235758520 hasConcept C207857233 @default.
• W235758520 hasConcept C2524010 @default.
• W235758520 hasConcept C2776827753 @default.
• W235758520 hasConcept C2778912791 @default.
• W235758520 hasConcept C33923547 @default.
• W235758520 hasConcept C38349280 @default.
• W235758520 hasConcept C48939323 @default.
• W235758520 hasConcept C57879066 @default.
• W235758520 hasConceptScore W235758520C121332964 @default.
• W235758520 hasConceptScore W235758520C140820882 @default.
• W235758520 hasConceptScore W235758520C196558001 @default.
• W235758520 hasConceptScore W235758520C207857233 @default.
• W235758520 hasConceptScore W235758520C2524010 @default.
• W235758520 hasConceptScore W235758520C2776827753 @default.
• W235758520 hasConceptScore W235758520C2778912791 @default.
• W235758520 hasConceptScore W235758520C33923547 @default.
• W235758520 hasConceptScore W235758520C38349280 @default.
• W235758520 hasConceptScore W235758520C48939323 @default.
• W235758520 hasConceptScore W235758520C57879066 @default.
• W235758520 hasLocation W2357585201 @default.
• W235758520 hasOpenAccess W235758520 @default.
• W235758520 hasPrimaryLocation W2357585201 @default.
• W235758520 hasRelatedWork W1500742066 @default.
• W235758520 hasRelatedWork W151576846 @default.
• W235758520 hasRelatedWork W1971282257 @default.
• W235758520 hasRelatedWork W1976660437 @default.
• W235758520 hasRelatedWork W2024907849 @default.
• W235758520 hasRelatedWork W2048322188 @default.
• W235758520 hasRelatedWork W2051557720 @default.
• W235758520 hasRelatedWork W2055453066 @default.
• W235758520 hasRelatedWork W2134821938 @default.
• W235758520 hasRelatedWork W2147604003 @default.
• W235758520 hasRelatedWork W2593865117 @default.
• W235758520 hasRelatedWork W2797037513 @default.
• W235758520 hasRelatedWork W2809321990 @default.
• W235758520 hasRelatedWork W2886867594 @default.
• W235758520 hasRelatedWork W2888401398 @default.
• W235758520 hasRelatedWork W3075918397 @default.
• W235758520 hasRelatedWork W606165912 @default.
• W235758520 hasRelatedWork W61606862 @default.
• W235758520 hasRelatedWork W2135385247 @default.
• W235758520 hasRelatedWork W2184376692 @default.
• W235758520 isParatext "false" @default.
• W235758520 isRetracted "false" @default.
• W235758520 magId "235758520" @default.
• W235758520 workType "article" @default.