ENTRAINMENT STUDIES IN CLOUD-LIKE FLOWS USING NOVEL SCANNING TOMOGRAPHY TECHNIQUE etc15 Tracking Number 272Presentation: Session: Atmospheric turbulence 2 Room: Room C Session start: 15:00 Tue 25 Aug 2015 Kanwar Nain Singh kanwarnain@jncasr.ac.in Affifliation: Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, India Sreenivas K.R. krs@jncasr.ac.in Affifliation: Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, India Topics: - Atmospheric turbulence, - Geophysical and astrophysical turbulence Abstract: Clouds are one of the major sources of uncertainty in climate prediction .The present work is to study the dynamics of orographic clouds. We considered a planar turbulent wall jet with off source volumetric heating as an appropriate low order fluid-dynamical model for studying the turbulence and entrainment in orographic-clouds. Entrainment was found to reduce drastically with the off-source volumetric heat addition. We found that the reduction of entrainment started at a bulk-Richardson number which was an order of magnitude smaller than that seen in earlier experiments [1] on free standing cumulus clouds. This is consistent with observations in real orographic clouds which develop as a thin sheet rising along the mountain slope. We have developed a novel scanning tomography technique for getting concentration field in turbulent shear flows. This technique is being applied on cloud-like flow to understand the entrainment characteristics. Detailed results will be presented at the conference. |