Boden S., Dos Santos Rolo T., Baumbach T., Hampel U.
in Experiments in Fluids, 55 (2014), 1768. DOI:10.1007/s00348-014-1768-7
We report on a study to measure the three-dimensional shape of Taylor bubbles in capillaries using synchrotron radiation in conjunction with ultrafast radiographic imaging. Moving Taylor bubbles in 2-mm round and square capillaries were radiographically scanned with an ultrahigh frame rate of up to 36,000 fps and 5.6-μm pixel separation. Consecutive images were properly processed to yield 2D transmission radiographs of high contrast-to-noise ratio. Application of 3D tomographic image reconstruction disclosed the 3D bubble shape. The results provide a reference data base for development of sophisticated interface resolving CFD computations. © 2014 Springer-Verlag Berlin Heidelberg.