Prediction of Dispersed Phase Holdup in the Kühni Extraction Column Using a New Experimental Correlation and Artificial Neural Network

Iranian Journal of Oil and Gas Science and Technology Pub Date : 2019-10-01 DOI:10.22050/IJOGST.2018.143946.1472

M. Keshavarz, A. Ghaemi, M. Shirvani, Ebrahim Arab

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Abstract

In this work, the dispersed phase holdup in a Kuhni extraction column is predicted using intelligent methods and a new empirical correlation. Intelligent techniques, including multilayer perceptron and radial basis functions network are used in the prediction of the dispersed phase holdup. To design the network structure and train and test the networks, 174 sets of experimental data are used. The effects of rotor speed and the flow rates of the dispersed and continuous phases on the dispersed phase holdup are experimentally investigated, and then the artificial neural networks are designed. Performance evaluation criteria consisting of R2, RMSE, and AARE are used for the models. The RBF method with R2, RMSE, and AARE respectively equal to 0.9992, 0.0012, and 0.9795 is the best model. The results show that the RBF method well matches the experimental data with the lowest absolute percentage error (2.1917%). The rotor speed has the most significant effect on the dispersed phase holdup comparing to the flow rates of the continuous and dispersed phases.

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用新的实验关联和人工神经网络预测k hni萃取柱中分散相含率

在这项工作中，采用智能方法和新的经验相关性预测了库尼萃取柱中的分散相含率。采用多层感知器和径向基函数网络等智能技术对分散相持率进行预测。为了设计网络结构，训练和测试网络，使用了174组实验数据。实验研究了转子转速、分散相流量和连续相流量对分散相含率的影响，并设计了人工神经网络。模型的性能评价标准为R2、RMSE和AARE。RBF方法的最佳模型为R2 = 0.9992, RMSE = 0.0012, AARE = 0.9795。结果表明，RBF方法与实验数据吻合良好，绝对百分比误差最小(2.1917%)。与连续相和分散相的流量相比，转子转速对分散相含率的影响最为显著。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Iranian Journal of Oil and Gas Science and Technology

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