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학술대회 Novel Measurement of Blood Velocity Profile Using Translating-Stage Optical Method and Theoretical Modeling Based on Non-Newtonian Viscosity Model
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저자
김창범, 임재호, 홍효봉, J. Yasha Kresh, David M. Wootton
발행일
201502
출처
International Conference on Nano-Bio Sensing, Imaging, and Spectroscopy (NBSIS) 2015 (SPIE 9523), pp.1-7
DOI
https://dx.doi.org/10.1117/12.2189272
협약과제
15MC2300, 실감미디어를 위한 플렉시블 센서 기반 촉감 저장·재생 플랫폼 원천기술 개발, 홍효봉
초록
Detailed knowledge of the blood velocity distribution over the cross-sectional area of a microvessel is important for several reasons: (1) Information about the flow field velocity gradients can suggest an adequate description of blood flow. (2) Transport of blood components is determined by the velocity profiles and the concentration of the cells over the cross-sectional area. (3) The velocity profile is required to investigate volume flow rate as well as wall shear rate and shear stress which are important parameters in describing the interaction between blood cells and the vessel wall. The present study shows the accurate measurement of non-Newtonian blood velocity profiles at different shear rates in a microchannel using a novel translating-stage optical method. Newtonian fluid velocity profile has been well known to be a parabola, but blood is a non-Newtonian fluid which has a plug flow region at the centerline due to yield shear stress and has different viscosities depending on shear rates. The experimental results were compared at the same flow conditions with the theoretical flow equations derived from Casson non-Newtonian viscosity model in a rectangular capillary tube. And accurate wall shear rate and shear stress were estimated for different flow rates based on these velocity profiles. Also the velocity profiles were modeled and compared with parabolic profiles, concluding that the wall shear rates were at least 1.46-3.94 times higher than parabolic distribution for the same volume flow rate.
키워드
blood velocity, Casson viscosity model, microvessel, non-Newtonian fluid, wall shear rate
KSP 제안 키워드
Accurate measurement, Blood Flow, Blood cells, Blood velocity profile, Capillary tube, Cross-sectional area(CSA), Flow conditions, Flow equations, Flow field velocity, Fluid velocity, Non-Newtonian blood