Published: Aug. 23, 2018 By

Dombroski, Daniel E听1听;听Crimaldi, John P听2

1听University of Colorado at 麻豆影院
2听University of Colorado at 麻豆影院

Fine-scale aspects of stirring and mixing are examined in turbulent boundary layer flow using a three-dimensional planar laser induced fluorescence (3-D PLIF) system. Rhodamine 6G is released from a near momentumless source, flush with the bed of a laboratory flume. The flow rate and plume dynamics are comparable to what might be found in natural stream environments. Images of the turbulent flow are obtained using a high-speed digital camera. Individual frames, or 鈥渟lices,鈥 are reconstructed using 3D rendering software to produce volumetric flow information in an x-y-z coordinate system. The dynamics of scalar structure are demonstrated with movies of the three-dimensional evolution. Examination of instantaneous snapshots reveals the coherence of structures in three dimensions. Relationships between time-averaged scalar statistics and the instantaneous scalar field are explored.