Measurement of pulsatile flow characteristics in interaction with rigid and flexible wall

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dc.contributor.author Jašíková, Darina
dc.contributor.author Kotek, Michal
dc.contributor.author Malík, Michal
dc.contributor.author Primas, Jiří
dc.contributor.author Kopecký, Václav
dc.contributor.other Fakulta mechatroniky, informatiky a mezioborových studií cs
dc.date.accessioned 2019-01-16T07:29:07Z
dc.date.accessioned 2019-01-28T08:12:59Z
dc.date.available 2019-01-16T07:29:07Z
dc.date.available 2019-01-28T08:12:59Z
dc.identifier.uri https://dspace.tul.cz/handle/15240/150750
dc.description.abstract Pulse flow was generated by a membrane pump. The nature of the pulsatile flow was measured with pressure sensors. We got information on the pressure development inside the circuit. Each phase of the pulse was evenly divided into 10 equal time slots. The individual slots were synchronized to the initial pressure change at 0.14Bar. The evaluation of the pressure measurement has already revealed the backward effect of the flexible wall. Especially when compared to glass rigid wall. Differences in pressures course are mostly significant in the peak width and lower stabilised pressure value. The flexible material absorbs part of pressure and expands its diameter. The liquid flow can be divided into four regimes: The first regime corresponds to pressure increase. The liquid flow is accelerated. The maximal fluid velocities reach 440 mm/s (Re 8800). The second regime is the highest point of pressure increase, where physically occurs the maximum membrane inclination, and closure of the pumps valves. At this point, the fluid stagnates, resulting in slowing down of the flow rate to 70 mm/s (Re 1400), and changing the characteristic velocity profile. This regime can be said as transient mode. The velocity profile is characterized with typical velocity decrease in the middle of cross section. This effect was found for both measurements – using rigid and flexible wall. The other phase of liquid acceleration can be observed in the third regime. Here, the liquid is fed with the pump. This acceleration last during the pressure decrease. This regime is characteristic with turbulent profile shape, and maximal flow velocity reach 260 mm/s (Re 5200). The fourth regime is observed since 6/5π period, when the pressure drop and starts to be stabilized. Here we can observe the liquid flow slowdown that is close to laminar profile shape. The maximal velocities in this regime are 35 mm/s (Re 700). There is an oscillation of a pressure, which leads to the formation of vortex structures near the wall. These structures are highlighted by the elasticity of the wall. The vortex structures were analysed using Proper Orthogonal Decomposition (POD). The most significant modes are for transient part of fluid flow and turbulent zone. The first 20 decomposition modes can be said as dominant. Here can be found vortex structures with kinetic energy of 10%. The nonstationary backward vortexes are developed close to the wall, as the fluid flow velocity is very small. The prevailing dominant effect on the fluid flow comes from the released kinetic energy from the relaxing flexible walls, especially in the fourth regime of pressure course. This effect is not significant for rigid walls. There were set an experimental setup for studying of cavitation base on Ventury tube. The fluid flow was analysed using high speed visualization methods in two interrogation areas in crosssection. The region of interest was focused on the swirling cavitation structure. The experiments run in 2018 were run in rigid wall. The fluid was also seeded with fluorescent particles for PIV measurement so the simple visualization was filled with fluid motion data’s. The investigated area was observed with synchronized two cameras recording parallel. The set of images were processed using supressing and dewarping algorithms. The experimental setup is prepared for the measurement on flexible wall and pulsatile flow. cs
dc.format text
dc.format.extent 19 stran cs
dc.language.iso cs cs
dc.publisher Technická univerzita v Liberci
dc.subject flexible wall cs
dc.subject luid flow cs
dc.subject heterogeneous liquid cs
dc.subject particle image velocimetry cs
dc.subject pulsatile flow cs
dc.subject rigid wall cs
dc.title Measurement of pulsatile flow characteristics in interaction with rigid and flexible wall en
dc.title.alternative Research report GACČR nr. 17-19444S Interaction of heterogeneous liquid with flexible wall
dc.type research report cs
dc.publisher.abbreviation TUL cs
local.faculty Fakulta mechatroniky, informatiky a mezioborových studií
local.department Oddělení fyzikálních měření
local.faculty.abbreviation FM


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