A particle image velocimetry study on the pulsatile flow characteristics in straight tubes with an asymmetric bulge

Flow characteristics in straight tubes with an asymmetric bulge have been i nvestigated using particle image velocimetry (PIV) over a range of Reynolds numbers from 600 to 1200 and at a Womersley number of 22. A mixture of gly cerine and water (approximately 40:60 by volume) was used as the working fl uid. The study was carried out because of their relevance in some aspects o f physiological flows, such as arterial flow through a sidewall aneurysm. R esults for both steady and pulsatile flow conditions were obtained. It was found that at a steady flow condition, a weak recirculating vortex formed i nside the bulge. The recirculation became stronger at higher Reynolds numbe rs but weaker at larger bulge sizes. The centre of the vortex was located c lose to the distal neck. At pulsatile flow conditions, the vortex appeared and disappeared at different phases of the cycle, and the sequence was only punctuated by strong forward flow behaviour (near the peak flow condition) . In particular, strong flow interactions between the parent tube and the b ulge were observed during the deceleration phase. Stents and springs were u sed to dampen the flow movement inside the bulge. It was found that the rec irculation vortex could be eliminated completely in steady flow conditions using both devices. However, under pulsatile flow conditions, flow velociti es inside the bulge could not be suppressed completely by both devices, but could be reduced by more than 80 per cent.