Closed-Form Solution for Flow Field in Curved Channels in Comparison with Experimental and Numerical Analyses and Artificial Neural Network

Sara Baghalian; Hossein Bonakdari; Foad Nazari; Majid Fazli

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Closed-Form Solution for Flow Field in Curved Channels in Comparison with Experimental and Numerical Analyses and Artificial Neural Network

机译：与实验和数值分析以及人工神经网络比较的弯曲通道流场封闭式解决方案

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AbstractIn this study the velocity field in a 90° bend channel was investigated by using artificial intelligence, analytical, experimental, and numerical methods on the basis of an extensive review of literature. First, a neural network approach was proposed for predicting the velocity components. Then a closed-form solution for a flow field of a curved channel was imparted. After that ANSYS-CFX software was used for 3D simulation of the flow field in the considered bend in 3 phases (air+water+sediment). Finally, the results of all applied methods were compared with each other. Results showed that in general, all used models are in good agreement with experimental results and have some advantages and disadvantages. But in most cases, Artificial Neural Network (ANN) model and numerical method had better performance than analytical solution.

机译：摘要在这项研究的基础上，利用人工智能，分析，实验和数值方法，在大量文献综述的基础上研究了90°弯道中的速度场。首先，提出了一种用于预测速度分量的神经网络方法。然后，给出了弯曲通道流场的封闭形式的解决方案。之后，ANSYS-CFX软件被用于3个阶段（空气+水+沉积物）中所考虑的弯头中流场的3D模拟。最后，将所有应用方法的结果相互比较。结果表明，总体上，所有使用的模型与实验结果吻合良好，并且各有优缺点。但是在大多数情况下，人工神经网络（ANN）模型和数值方法比分析解决方案具有更好的性能。

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《Engineering Applications of Computational Fluid Mechanics》 |2012年第4期|共13页
作者
Sara Baghalian; Hossein Bonakdari; Foad Nazari; Majid Fazli;
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Closed-Form Solution for Flow Field in Curved Channels in Comparison with Experimental and Numerical Analyses and Artificial Neural Network

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