MICROCHANNEL IMPEDANCE FOR QUASI NEWTONIAN FLUIDS WITH SPATIAL MODULATED VISCOSITY

机译：具有空间调制粘度的拟牛顿流体的微通道阻抗

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Using the Navier-Stokes equation and assuming a viscosity radially modulated for a quasi-Newtonian fluid, we obtain the impedance of a fluid through microchannels and their corresponding electrical analogs. To solve the Navier-Stokes equation will use the Laplace transform, the Bromwich integral, the residue theorem and Bessel functions. This will give a formula for the impedance in terms of Bessel functions and from these equations to be constructed equivalent electrical circuits. These solutions correspond to the case of quasi-Newtonian fluid it is to say a fluid that does not stagnate in the channel wall as is the case if the fluid is Newtonian. The formulas obtained may have applications in the general theory of microfluidics and microscopic systems design for drug delivery.

机译：使用Navier-Stokes方程并假设对拟牛顿流体进行了径向调制的粘度，我们通过微通道及其相应的电类似物获得了流体的阻抗。为了解决Navier-Stokes方程，将使用Laplace变换，Bromwich积分，残差定理和Bessel函数。这将给出根据贝塞尔函数的阻抗公式，并根据这些公式得出等效电路。这些解决方案对应于准牛顿流体的情况，也就是说，与流体是牛顿流体的情况一样，该流体不会滞留在通道壁中。所获得的公式可以在微流体的一般理论和用于药物递送的微观系统设计中应用。

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来源
《Smart biomedical and physiological sensor technology X》|2013年|87190F.1-87190F.10|共10页
会议地点 Baltimore MD(US)
作者
Tatiana Tabares Medina;
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作者单位

Logic and Computation Group Physics Engineering Program School of Sciences and Humanities EAFIT University Medellin, Colombia;

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原文格式 PDF
正文语种 eng
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关键词
Bessel function; Bromwich integral; quasi-Newtonian fluid; Navier Stokes equation; microchannel; Laplace transform; impedance; residue theorem;

机译：贝塞尔函数Bromwich积分；拟牛顿流体Navier Stokes方程；微通道拉普拉斯变换；阻抗;残差定理;

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1. Micro-flow metering and viscosity measurement of low viscosity Newtonian fluids using a fibreoptical spatial filter technique [J] . D. Petrak, H. Rauh Flow Measurement and Instrumentation . 2009,第2期

机译：使用光纤空间过滤技术对低粘度牛顿流体进行微流量计量和粘度测量
2. Thermal design improvement of a double-layered microchannel heat sink by using multi-walled carbon nanotube (MWCNT) nanofluids with non-Newtonian viscosity [J] . Sarlak A., Ahmadpour A., Hajmohammadi M. R. Applied thermal engineering: Design, processes, equipment, economics . 2019,第期

机译：通过使用具有非牛顿粘度的多壁碳纳米管（MWCNT）纳米流体进行双层微通道散热器的热设计改进
3. Investigating the temperature dependence of the viscosity of a non-Newtonian fluid within lithographically defined microchannels [J] . Salvatore Girardo, Roberto Cingolani, Dario Pisignano The Journal of Chemical Physics . 2007,第16期

机译：研究光刻定义的微通道内非牛顿流体粘度的温度依赖性
4. MICROCHANNEL IMPEDANCE FOR QUASI NEWTONIAN FLUIDS WITH SPATIAL MODULATED VISCOSITY [C] . Tatiana Tabares Medina Conference on smart biomedical and physiological sensor technology X . 2013

机译：用于空间调制粘度的准牛顿流体的微通道阻抗
5. AN EXPERIMENTAL STUDY OF CONVECTIVE HEAT TRANSFER, FRICTION, AND RHEOLOGY FOR NON-NEWTONIAN FLUIDS: POLYMER SOLUTIONS, SUSPENSIONS OF FIBERS, AND SUSPENSIONS OF PARTICULATES (ANTIMISTING KEROSENE, CLAY, VISCOSITY). [D] . MATTHYS, ERIC FRANCOIS. 1985

机译：非牛顿流体对流换热，摩擦和流变性的实验研究：聚合物溶液，纤维悬浮液和颗粒悬浮液（抗煤油，粘土，粘度）。
6. 3D-Printed Capillary Circuits for Calibration-Free Viscosity Measurement of Newtonian and Non-Newtonian Fluids [O] . Sein Oh, Sungyoung Choi 2018

机译：用于牛顿和非牛顿流体的无标定粘度测量的3D打印毛细管电路
7. 3D-Printed Capillary Circuits for Calibration-Free Viscosity Measurement of Newtonian and Non-Newtonian Fluids [O] . Sein Oh, Sungyoung Choi 2018

机译：3D印刷毛细管电路，用于牛顿和非牛顿液体的无校准粘度测量

MICROCHANNEL IMPEDANCE FOR QUASI NEWTONIAN FLUIDS WITH SPATIAL MODULATED VISCOSITY

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