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Numerical investigation of volute tongue design on hemodynamic characteristics and hemolysis of the centrifugal blood pump

Numerical investigation of volute tongue design on hemodynamic characteristics and hemolysis of the centrifugal blood pump
Numerical investigation of volute tongue design on hemodynamic characteristics and hemolysis of the centrifugal blood pump

In the design of rotary blood pumps, the optimization of design parameters plays an essential role in enhancing the hydrodynamic performance and hemocompatibility. This study investigates the influence of the volute tongue angle as a volute geometric parameter on the hemodynamic characteristics of a blood pump. A numerical investigation on five different versions of volute designs is carried out by utilizing a computational fluid dynamics (CFD) software ANSYS-FLUENT. The effect of volute tongue angle is evaluated regarding the hydrodynamic performance, circumferential pressure distribution, the radial force, and the blood damage potential. A series of volute configurations are constructed with a fixed radial gap (5%), but varying tongue angles ranging from 10 to 50°. The relative hemolysis is assessed with the Eulerian based empirical power-law blood damage model. The pressure-flow rate characteristics of the volute designs at a range of rotational speeds are obtained from the experimental measurements by using the blood analog fluid. The results indicate an inverse relationship between hydraulic performance and the tongue angle; at higher tongue angles, a decrease in performance was observed. However, a higher tongue angle improves the net radial force acting on the impeller. The pump achieves the optimized performance at 20° of the tongue angle with the relatively high hydrodynamic performance and minor blood damage risk.

Centrifugal blood pump, Hemolysis, Numerical simulation, Volute design, Volute tongue
2523-3971
Aka, Ibrahim Basar
5178df04-8b70-42a5-9ede-3f2568c683a8
Ozturk, Caglar
70bbd3bd-fc56-48e8-8b5e-00d5270c1526
Lazoglu, Ismail
dde74a90-ccd3-452a-a4cf-6dbc8841caf3
Aka, Ibrahim Basar
5178df04-8b70-42a5-9ede-3f2568c683a8
Ozturk, Caglar
70bbd3bd-fc56-48e8-8b5e-00d5270c1526
Lazoglu, Ismail
dde74a90-ccd3-452a-a4cf-6dbc8841caf3

Aka, Ibrahim Basar, Ozturk, Caglar and Lazoglu, Ismail (2021) Numerical investigation of volute tongue design on hemodynamic characteristics and hemolysis of the centrifugal blood pump. SN Applied Sciences, 3 (1), [49]. (doi:10.1007/s42452-021-04142-1).

Record type: Article

Abstract

In the design of rotary blood pumps, the optimization of design parameters plays an essential role in enhancing the hydrodynamic performance and hemocompatibility. This study investigates the influence of the volute tongue angle as a volute geometric parameter on the hemodynamic characteristics of a blood pump. A numerical investigation on five different versions of volute designs is carried out by utilizing a computational fluid dynamics (CFD) software ANSYS-FLUENT. The effect of volute tongue angle is evaluated regarding the hydrodynamic performance, circumferential pressure distribution, the radial force, and the blood damage potential. A series of volute configurations are constructed with a fixed radial gap (5%), but varying tongue angles ranging from 10 to 50°. The relative hemolysis is assessed with the Eulerian based empirical power-law blood damage model. The pressure-flow rate characteristics of the volute designs at a range of rotational speeds are obtained from the experimental measurements by using the blood analog fluid. The results indicate an inverse relationship between hydraulic performance and the tongue angle; at higher tongue angles, a decrease in performance was observed. However, a higher tongue angle improves the net radial force acting on the impeller. The pump achieves the optimized performance at 20° of the tongue angle with the relatively high hydrodynamic performance and minor blood damage risk.

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s42452-021-04142-1 - Version of Record
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More information

Accepted/In Press date: 4 January 2021
Published date: 9 January 2021
Additional Information: Publisher Copyright: © 2021, The Author(s).
Keywords: Centrifugal blood pump, Hemolysis, Numerical simulation, Volute design, Volute tongue

Identifiers

Local EPrints ID: 490726
URI: http://eprints.soton.ac.uk/id/eprint/490726
DOI: doi:10.1007/s42452-021-04142-1
ISSN: 2523-3971
PURE UUID: f32589d4-780b-4346-9191-3c1a82b16121
ORCID for Caglar Ozturk: ORCID iD orcid.org/0000-0002-3688-0148

Catalogue record

Date deposited: 04 Jun 2024 16:58
Last modified: 06 Jun 2024 02:20

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Contributors

Author: Ibrahim Basar Aka
Author: Caglar Ozturk ORCID iD
Author: Ismail Lazoglu

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