Turbulent Blood Flow in a Ventricular Assist Device

Application Area 7: Biomedical Flows

Application Challenge AC7-03

Abstract

Heart failure is a cardiovascular disease, which affects millions of people worldwide. If the heart failure is to severe, a heart transplantation is the gold standard for treatment. Unfortunately, a significant shortage of donor hearts exists worldwide. A technical solution to overcome this gap between demand and availability are Ventricular Assist Devices (VADs). The VADs are mainly implanted within the body of the patients and assist the weak heart by creating the needed pressure to sufficiently supply the blood flow in the circulatory system.

The devices must be designed in such a way that the operating range maintain the blood flow. For this purpose, a defined head ${\displaystyle H}$ must be built up at a certain blood flow rate ${\displaystyle Q}$. Whether a VAD design meets these requirements can be checked by flow simulations in the pre-clinical evaluation. These two variables represent the fluid mechanical parameters.

Furthermore, a VAD must be designed for highest hemocompatibility, which means that the blood components in the flow

• Einleitung, warum strömungsmechanische Versuche in VADs wichtig sind

• was wird in dieser Wiki gemacht?

* simulative strömungsmechanische Untersuchungen im turbulenten Strömungsfeld einer axialen VAD
* Vergleich zwischen einer hochauflösenden LES als Referenz und einem turbulenzmodellierendem URANS-Verfahren (Standardverfahren in der Industrie bei der Strömungsberechnung in VADs)
* Evaluation der fluidmechanischen Parameter (Förderhöhe und Wirkungsgrad)
* insbesondere: Vergleich von hämodynamischen Parametern --> äquivalente Spannung und Blutschädigungsparameter
* wichtig für Design und Optimierung dieser Systeme  

• Wo bisher veröffentlicht?

Contributed by: Benjamin Torner — University of Rostock, Germany

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