Numerical Modeling and Investigation of Flow of Incompressible Non-Newtonian Fluids through Uniform Slightly Deformable Channel

2023 International Conference on Science, Engineering and Business for Sustainable Development Goals (SEB-SDG) Pub Date : 2023-04-05 DOI:10.1109/SEB-SDG57117.2023.10124471

O. O. Alabi, O. Adeaga, S. Akintola

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Abstract

Numerical investigations of peristaltic flow of three non-Newtonian viscous fluids arising within modelled gut were performed to show their thermal and hydrodynamic behaviour in the gut. A 3-D numerical model of the human intestine was derived using Autodesk Inventor 2017 and simulated using ANSYS FLUENT 16.0. Thyme and produced Ogi, Soymilk and Sobo are considered working fluids. The density and viscosity of the produced fluid were determined experimentally, while the density and viscosity of the digester were obtained from previous work. The results of the experiments carried out showed that the densities of the produced fluid supplements were; 1024 $kg/m^{3},920kg/m^{3}$ and 800 $kg/m^{3}$ for Ogi, soybean milk and sobo respectively; their equivalent viscosities were; 1.095 $Pa.s, 0.95$ Pa.s, and 0.316 $Pa.s$. From the results, it can be seen that the velocity behaviour of the four fluids is similar, as is the thermal behaviour. The results also showed that at inlet velocity of 0.005 $m/s, Ogi$ had the largest pressure change of 25 $Pa$ and a heat transfer of $Nu=9$, while sobo had the smallest heat transfer of $Nu=9$ among the three fluid supplements produced. $Nu=5$.

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不可压缩非牛顿流体在均匀微变形通道中的流动数值模拟与研究

对模拟肠道内产生的三种非牛顿粘性流体的蠕动流动进行了数值研究，以显示它们在肠道中的热学和流体力学行为。使用Autodesk Inventor 2017建立人体肠道三维数值模型，并使用ANSYS FLUENT 16.0进行仿真。百里香和生产的Ogi，豆浆和Sobo被认为是工作液体。产液的密度和粘度是通过实验确定的，而消化池的密度和粘度是根据前人的工作得出的。实验结果表明，所产补液的密度为;奥吉、豆浆和豆豉的价格分别为1024kg /m^{3}、920kg/m^{3}$和800 $kg/m^{3}$;它们的等效粘度为;1.095美元。2.95美元。3美元，0.316美元。从结果可以看出，四种流体的速度行为是相似的，热行为也是如此。结果还表明，在进口速度为0.005 $m/s时，Ogi$的压力变化最大，为25 $Pa$，换热量为$Nu=9$，而sobo $的换热量最小，为$Nu=9$。ν= 5美元。

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2023 International Conference on Science, Engineering and Business for Sustainable Development Goals (SEB-SDG)

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