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A study on permanent magnet topologies for hybrid bearings for medical drives applied in Ventricular Assist Devices

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Języki publikacji
EN
Abstrakty
EN
In industrialized countries cardiovascular diseases are the major cause of death. The last clinical therapy option for some patients, suffering from terminal heart diseases, is donor heart transplantation. As the available number of donor organs is decreasing, many patients die while waiting for a transplant. For this reason Ventricular Assist Devices (VADs), which can mechanically support the human heart to achieve a sufficient perfusion of the body, are under development. For an implantable VAD, design constraints have to be deduced from the physiological conditions in the human body. In case of a VAD drive, these constraints are for example dimensions, electric losses, which might result in an overheating of blood, and a long durability. Therefore a hybrid permanent magnet hydrodynamic bearing is designed in this paper, which works passively and contactless. Based on Finite Element simulations of magnetic fields, various permanent magnet topologies are studied in terms of axial forces and stiffness.
Rocznik
Strony
371--380
Opis fizyczny
Bibliogr. 7 poz., rys., tab.
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autor
autor
Bibliografia
  • [1] World-Health-Organization, Causes of Death 2008 Summary Tables, http://www.who.int/evidence/bod/, Health Statistic amd Informatics Department, Genf, Switzerland (2011).
  • [2] Copeland J.G., Smith R., Arabia F. et al., Cardiac replacement with a total artificial heart as a bridge to transplantation. N. Engl. J. Med. 351: 859-867 (2004).
  • [3] Thoratec Cooperation, http://www.thoratec.com/, accessed May (2011).
  • [4] Miura H., Arai S., Kakubari Y. et al., Improvement of the transcutaneous energy transmission system utilizing ferrite cored coils for artificial hearts. IEEE J MAG 42(10): 3578-3580 (2006).
  • [5] Hoshi H., Shinshi T., Takatani S., Third-generation blood pumps with mechanical noncontact magnetic bearings. The 13th Congress of the International Society for Rotary Blood Pumps, ISRBP, Tokyo (2011).
  • [6] Pohlmann A., Lessmann M., Finocchiaro T. et al., Numerical computation can safe life: FEM simulations for the development of artificial hearts. The 14th International Conference on Electromagnetic Field Computation, CEFC, Chicago, USA, May (2010).
  • [7] Samuel Earnshaw, On the nature of the molecular forces which regulate the constitution of the luminiferous ether. Transactions of the Cambridge Philosophical Society 7: 97-112 (1842).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPS2-0063-0044
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