Numerical study of fluid flow through double bell‐shaped constrictions in a tube

Lee, T.S.

doi:10.1108/09615530210422947

Cited by 12 publications

(7 citation statements)

References 37 publications

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“…This study has been carried out for the stricture length of 4.0, percentage of restriction of 33.33% and the non-dimensional length of the computational domain of 16. This geometry has also been used by Young & Tsai [15] in their experimental studies, Zendehbudi & Moayeri [22] and Lee [35] in their numerical solutions, therefore, comparisons of dimensionless pressure drop, and separating and reattachment curves can be made with previous theoretical and experimental results.…”

Section: Validation Of Computational Resultsmentioning

confidence: 93%

Influence of different bell-shaped stenoses on the progression of the disease, atherosclerosis

Mandal¹,

Manna

Chakrabarti

2011

J Mech Sci Technol

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In the present paper, the effect of symmetrical and asymmetrical bell-shaped stenoses on wall pressure drop, streamline contour, and rise in wall shear stress for the progression of the disease, atherosclerosis has been investigated numerically. The governing equations have been solved by finite volume method. Both steady and pulsatile flow at inlet is considered in our study. It is revealed from the study that the impact of wall pressure and peak wall shear stress on progression of disease are always high for asymmetrical shaped stenosis for both steady and pulsatile flow. The impact of asymmetrical shape on plaque deposition zone is less, if the aggravation changes the shape of stenosis due to change in stricture length only keeping percentage of restriction same. Whereas, the impact of asymmetrical shape on plaque deposition zone will be high, if shape of stenosis changes by increasing both stricture length and percentage of restriction for both steady and pulsatile flow. Impact of pulsatile nature of flow on the aggravation of disease is higher at some timesteps in comparison to steady flow.

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Section: Validation Of Computational Resultsmentioning

confidence: 93%

Influence of different bell-shaped stenoses on the progression of the disease, atherosclerosis

Mandal¹,

Manna

Chakrabarti

2011

J Mech Sci Technol

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“…This kind of sudden increase of flow speed rises the adverse pressure gradients for which low shear regions can occur near the wall of the vessel, possibly leading to recirculating zones. These recirculating regions can form upstream [18] or downstream [21] and depend on flow parameters, as well as on the stenosis geometry. Blood cells, such as platelets, trapped in low shear regions can stick together (aggregate) and adhere to the vessel wall, forming clots or thrombi, which we will refer to as aggregates to be general.…”

Section: Introductionmentioning

confidence: 99%

Role Of Compressibility And Slip In Blood Flow Through A Local Constriction

Akhter¹

2021

Preprint

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One type of blood disease is a narrowing of a tubular structure, known as constriction or stenosis and high cholesterol is one of the main causes for this. Suitable mathematical models are important to describe this phenomenon, and to study the problem analytically and numerically. An approximate analytical solution and a recently developed particle-based method called multi-particle collision dynamics (MPC) is used to simulate the weakly compressible steady flow through a three-dimensional constricted axisymmetric cylinder. The particle collisions in

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“…Numerous studies have also investigated the effect of pulsation and other properties of blood. Finally, various mathematical models have been developed by a number of researchers [12,13,14,16,18].…”

Section: Introductionmentioning

confidence: 99%