References
- Qian K. X., Zeng P., Ru W. M., Yuan H. Y. Streamlined design of impeller and its effect on pump haemolysis. Journal of Medical Engineering & Technology 2002; 26: 79–81
- Niimi H., Suguhara M. Cyclic loading on the red cell membrane in a shear flow. ASME Journal of Biomedical Engineering 1985; 107: 91–95
- Walburn F. J. Turbulent shear in the region of a Hancock porcine bioprosthetic aortic valve. ASME Journal of Biomedical Engineering 1985; 107: 200–204
- Qian K. X., Zeng P., Ru W. M., Yuan H. Y. A durable impeller pump with rolling bearing and purge system. Journal of Medical Engineering & Technology 2001; 25: 273–275
- Adrian R. J. Particle imaging techniques for experimental fluid mechanics. Annual Review of Fluid Mechanics 1991; 23: 261–304
- Raffel M., Willert C., Kompenhans J. Particle Image Velocimetry; A Particle Guide. Springer-Verlag, Berlin, Heidelberg 1998
- Qian K. X. Streamlined design in impeller type and diaphragm type artificial heart. Chinese Journal of Medical and Biological Engineering 1993; 13: 165–174
- Qian K. X. Streamlined design of impeller and its effect on pump haemolysis. Journal of Medical Engineering & Technology 2002; 26: 79–82
- Qian K. X., Wang F. Q., Zeng P., Ru W. M., Yuan H. Y., Feng Z. G. Computational Fluid Dynamics (CFD) verified the advantages of streamlined design of impeller in improving flow patterns and anti-haemolysis property of centrifugal pump. Journal of Medical Engineering & Technology, in press
- Garon A., Farinos M -I. Fast three-dimensional numerical hemolysus Approximation. Artificial Organs 2005; 28: 1016–1025
- Gu L., Smith W. A. Evaluation & computational models for hemolysis estimation. ASAIO J 2005; 51: 201–207