Cycle-to-cycle variation effects on turbulent shear stress measurements in pulsatile flows

Tiederman, W. G.; Privette, R.M.; Phillips, Winfred M.

doi:10.1007/bf00187366

Cited by 15 publications

(8 citation statements)

References 7 publications

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“…In all cases, u' maximum is found within the central third of systole (the same of maximum flow rate); but in the main jet at h=20 mm, and in the secondary jet further downstream. This result agrees well with the previous literature (Tiederman et al 1988).…”

Section: Eulerian Description Of Flow Patternsupporting

confidence: 83%

“…Radial mean velocity profiles agree very well in global shape with results reported by other authors (Phillips et al 1980;Chandran et al 1983;Tiederman et al 1988).…”

Section: Eulerian Description Of Flow Patternsupporting

confidence: 81%

“…Whichever is the reason, it is a major cause for wrong evaluation of turbulence intensity (Tiederman et al 1988).…”

Section: U~es ~ A'cz + Ar -A~i2mentioning

confidence: 99%

“…Several methods have been proposed to solve this problem; some from internal combustion engine researchers (Liou and Santavicca 1985;Obokata et al 1987) and also in the biomedical engineering literature (Tiederman et al 1988). Even though the philosophy underlying these works is partially useful, the specificity of each situation obliges to look for particular procedures giving a good discrimination among different sources of velocity variance.…”

Section: Introductionmentioning

confidence: 99%

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Eulerian and Lagrangian description of a pulsatile, partially turbulent flow

Martínez‐Val

Viedma

Cuerno

1990

Experiments in Fluids

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A detailed flow field analysis is carried out downstream of a Bj6rk-Shiley prosthetic aortic valve, placed in a Great Circulation simulator. Mean periodic velocity and turbulence are obtained by means of selective sampling through enabling windows. Flow mapping includes three different heights and three meridional planes (i.e. nine diameters). Some effort is devoted to study cycle-to-cycle variations, and to remove them for determining true turbulence values. A lagrangian interpretation, based upon the convection of vorticity produced at the aortic prosthesis, is needed to understand the flow pattern behaviour.

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Section: Eulerian Description Of Flow Patternsupporting

confidence: 83%

“…Radial mean velocity profiles agree very well in global shape with results reported by other authors (Phillips et al 1980;Chandran et al 1983;Tiederman et al 1988).…”

Section: Eulerian Description Of Flow Patternsupporting

confidence: 81%

“…Whichever is the reason, it is a major cause for wrong evaluation of turbulence intensity (Tiederman et al 1988).…”

Section: U~es ~ A'cz + Ar -A~i2mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Eulerian and Lagrangian description of a pulsatile, partially turbulent flow

Martínez‐Val

Viedma

Cuerno

1990

Experiments in Fluids

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“…26 Velocities were phase-averaged within each 20 ms time windows (each cardiac cycle of 860 ms was divided into 43 time intervals) for subsequent analysis. Approximately 21,500 measurements were made at each location, an average of approximately 500 measurements within each 20 ms time window.…”

Section: Data Reductionmentioning

confidence: 99%

A Comparison of Flow Field Structures of Two Tri-Leaflet Polymeric Heart Valves

et al. 2005

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Polymeric heart valves have the potential to reduce thrombogenic complications associated with current mechanical valves and overcome fatigue-related problems experienced by bioprosthetic valves. In this in vitro study, the velocity fields inside and downstream of two different prototype tri-lealfet polymeric heart valves were studied. Experiments were conducted on two 23 mm prototype polymeric valves, provided by AorTech Europe, having open or closed commissure designs and leaflet thickness of 120 and 80 microm, respectively. A two-dimensional LDV system was used to measure the velocity fields in the vicinity of the two valves under simulated physiological conditions. Both commissural design and leaflet thickness were found to affect the flow characteristics. In particular, very high levels of Reynolds shear stress of 13,000 dynes/cm2 were found in the leakage flow of the open commisure design. Maximum leakage velocities in the open and closed designs were 3.6 m/s and 0.5 m/s respectively; the peak forward flow velocities were 2.0 m/s and 2.6 m/s, respectively. In both valve designs, shear stress levels exceeding 4,000 dyne/cm2 were observed at the trailing edge of the leaflets and in the leakage and central orifice jets during peak systole. Additionally, regions of low velocity flow conducive to thrombus formation were observed in diastole. The flow structures measured in these experiments are consistent with the location of thrombus formation observed in preliminary animal experiments.

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On the Extension of a Laser-Doppler Velocimeter to the Analysis of Oscillating Flames

Fernandes

Heitor

2000

Laser Techniques Applied to Fluid Mechanics

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Cycle-to-cycle variation effects on turbulent shear stress measurements in pulsatile flows

Cited by 15 publications

References 7 publications

Eulerian and Lagrangian description of a pulsatile, partially turbulent flow

Eulerian and Lagrangian description of a pulsatile, partially turbulent flow

A Comparison of Flow Field Structures of Two Tri-Leaflet Polymeric Heart Valves

On the Extension of a Laser-Doppler Velocimeter to the Analysis of Oscillating Flames

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