Difference between Non-Newtonian Carreau and Casson Blood Viscosity Models to Predict Hemodynamics in Idealized Eccentric Arterial Stenosis: Large Eddy Simulation Modeling - Collections | Kyushu University Library

＜conference paper＞
Difference between Non-Newtonian Carreau and Casson Blood Viscosity Models to Predict Hemodynamics in Idealized Eccentric Arterial Stenosis: Large Eddy Simulation Modeling

Creator	Creator Name Shamudra Dey Affiliation Affiliation Name Department of Mechanical Engineering, Shahjalal University of Science and Technology
	Creator Name Tahsin Ibtida Affiliation Affiliation Name Department of Mechanical Engineering, Shahjalal University of Science and Technology
	Creator Name Chandan Kumar Roy Affiliation Affiliation Name Department of Mechanical Engineering, Shahjalal University of Science and Technology
	Creator Name Nuruzzaman Sakib Affiliation Affiliation Name Department of Mechanical Engineering, Shahjalal University of Science and Technology
Language	English
Publisher	Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
Publisher	九州大学大学院総合理工学府
Date	2020-10-22
Source Title	Proceedings of International Exchange and Innovation Conference on Engineering & Sciences (IEICES)
Vol	6
First Page	249
Last Page	257
Conference	Name International Exchange and Innovation Conference on Engineering & Science(IEICES) Sequence 6 Sponsor Interdisciplinary Graduate School Of Engineering Sciences (IGSES) Kyushu University Date 2020-10-22～2020-10-23 Place Kyushu University 九州大学 Country Japan
Publication Type	Version of Record
Access Rights	open access
Crossref DOI	https://doi.org/10.5109/4102499
Abstract	Atherosclerosis is the principal cause of heart diseases and hemodynamics is a vital aspect. For current work, Large Eddy Simulation (LES) technique is chosen to visualize the variation between non-Ne...wtonian Carreau and Casson viscosity models to simulate hemodynamics in idealized version of 75% eccentrically occluded artery. In the LES methodology, although the unsolved movements are rendered using the Smagorinsky-Lily model, the full resolution of large-size movements is achieved. Considering the swirl component of blood, a unique parabolic and pulsatile inlet velocity boundary condition is created to represent a realistic blood flow. By using proposed framework, the precise blood flow configuration and turbulent characteristics of the circulatory system are represented in a specific design. It was observed that the Casson model projected greater blood flow instability than the Carreau model, whereas the Carreau model predicted higher fluctuations in speed, pressure, and wall shear stress. High speed, pressure and WSS variations are responsible for a psychological problem termed arterial murmur.show more

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EISSN	2434-1436
Record ID	4102499
Subject Terms	Atherosclerosis
	Hemodynamics
	Stenosis
	Large Eddy Simulation
	Wall shear stress
Created Date	2020.10.26
Modified Date	2023.12.22