Numerical investigation of the hydrodynamic parameters of blood flow through stenotic descending aorta

Zanous, Sina Pasha; Shafaghat, Rouzbeh; Esmaili, Qadir

doi:10.1177/0954411915588574

Cited by 2 publications

(1 citation statement)

References 35 publications

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“…The first use of mechanical circulatory support in open heart surgery was in 1953, surgical method used a cardiopulmonary bypass machine to repair atrial septal defect in female patient [20]. There are mainly four types of Ventricular assist device (VAD) available regarding the needs of implantation for the heart failure [4,[21][22][23]. Computational Fluid dynamics based design optimization techniques were used to optimize the blade geometries and the flow path to maximize the hydrodynamic performance while minimizing the haemolysis rate [24].…”

Section: Introductionmentioning

confidence: 99%

Analysis of Flow Characteristics for Different Blade Outlet Angle in LVAD

Devendra Nadaraja,

Ishkrizat Taib,

Nofrizalidris Darlis

et al. 2023

CFDL

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Mechanical heart assist device is an emerging treatment for end stage of heart failure which is an alternative to heart transplant due the shortage of heart donors. Despite the clinical success of Left Ventricular Assist Devices (LVAD), the development still continue as new designs are progressively being tested to address the ever existing complications. Developing centrifugal blood pumps requires determination between adequate pump performance while giving attention to possible occurrence of blood clot and damage. This study utilized a proposed design concept of different impeller angle geometry and evaluate its merits of adapting the concept from a perspective of computational fluid dynamic (CFD) approach. Theoretically, two types of impeller angle design feature were chosen for this study, the radial type 90° and backward facing type (50° and 70°) impellers of the blood pump to provide data on both the flow characteristics and pressure distribution of the blood pump (LVAD). Three model variations were constructed from the design parameters for comparison with experimental data. Shear Stress Transport (SST) turbulent model under steady state analysis was used to simulate 3 impeller blade angles with initial boundary setup was known for operating speed and flowrates. Evaluation involved assessing the model variants based on several performance criteria. Ranked selection method was used to rate and select the best performing model variation with a good compromise between the pressure head produced and the percentage of hydraulic efficiency as output level among the geometries. CFD results showed that impeller with blade outlet angle of 50° has the most efficient blood pump configuration among the three types of impeller blades. Pressure gradient drop for this impeller angle is the lowest compared with 90° and 70°. Ranking and selection of the model variants resulted in the backward facing 50° impeller blade ranked as the best performing configuration that gives the good compromise of pump performance setup.

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Section: Introductionmentioning

confidence: 99%

Analysis of Flow Characteristics for Different Blade Outlet Angle in LVAD

Devendra Nadaraja,

Ishkrizat Taib,

Nofrizalidris Darlis

et al. 2023

CFDL

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Numerical investigation of wall pressure fluctuations downstream of concentric and eccentric blunt stenosis models

Ozden

Sert

Yazıcıoğlu

2019

Proc Inst Mech Eng H

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Pressure fluctuations that cause acoustic radiation from vessel models with concentric and eccentric blunt stenoses are investigated. Large eddy simulations of non-pulsatile flow condition are performed using OpenFOAM. Calculated amplitude and spatial-spectral distribution of acoustic pressures at the post-stenotic region are compared with previous experimental and theoretical results. It is found that increasing the Reynolds number does not change the location of the maximum root mean square wall pressure, but causes a general increase in the spectrum level, although the change in the shape of the spectrum is not significant. On the contrary, compared to the concentric model at the same Reynolds number, eccentricity leads to an increase both at the distance of the location of the maximum root mean square wall pressure from the stenosis exit and the spectrum level. This effect becomes more distinct when radial eccentricity of the stenosis increases. Both the flow rate and the eccentricity of the stenosis shape are evaluated to be clinically important parameters in diagnosing stenosis.

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Numerical investigation of the hydrodynamic parameters of blood flow through stenotic descending aorta

Cited by 2 publications

References 35 publications

Analysis of Flow Characteristics for Different Blade Outlet Angle in LVAD

Analysis of Flow Characteristics for Different Blade Outlet Angle in LVAD

Numerical investigation of wall pressure fluctuations downstream of concentric and eccentric blunt stenosis models

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