龙葵配方生物聚合物改良水基泥浆及人工神经网络在泥浆流变特性预测中的应用

Oguntade Tomiwa, Rotimi Oluwatosin, Ojo Temiloluwa, Olabode Oluwasanmi, I. Joy
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引用次数: 11

摘要

钻井液是钻井作业中最重要的材料,因此,为了满足日益增长的需求和要求标准,提高钻井液的性能是非常必要的。在本实验研究中,采用龙葵配方的生物聚合物改善水基泥浆的流变性能,并利用人工神经网络预测了(PV)塑性粘度、(AP)表观粘度和(YP)屈服点的数据。人工神经网络(ANN)用于训练配方泥浆的流变性能,开发的网络预测了未经训练的膨润土和改性生物聚合物组合的流变性能。主要目标是再生或预测配制泥浆的流变性能;(AP)表观粘度(YP)屈服点(PV)塑性粘度(PV)最初由实验程序生成,但这次使用了人工神经网络。平均误差目标设定在5-10%左右。采用均方误差(mean squared error, MSE)和相关系数(correlation coefficient, R2)两个统计参数,作为选择最佳神经网络结构预测目标值的模型。具有较低的MSE估计和较高的R2估计的系统给出更精确的预测。我们创建了三种不同的网络,并使用这两个统计参数来确定隐藏层的最佳神经元数量。所建立的神经网络预测塑性粘度、屈服点和表观粘度的均方根误差(MSE)为1.25221,总体相关系数(R2)为0.99373,预测效果最佳
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improved Water Based Mud Using Solanum Tuberosum Formulated Biopolymer and Application of Artificial Neural Network in Predicting Mud Rheological Properties
Drilling fluids are the most important materials in drilling operations, therefore improving the properties of these fluids are very essential in order to meet up with the increase in demands and required standards. In this experimental study, Solanum tuberosum formulated biopolymer was used to improve the water based mud rheological properties and artificial neural network predicted data for (PV) plastic viscosity, (AP) apparent viscosity and (YP) yield point. Artificial neural network (ANN) was used to train the rheological properties of the formulated mud and the network developed predicted the rheological properties of an untrained combination of bentonite and modified biopolymer. The main target is to regenerate or predict the rheological properties of the formulated mud; (AP) apparent viscosity, (YP) yield point and (PV) plastic viscosity generated originally from experimental procedures but this time using the ANN. The mean average error target was set to around 5-10%. As a model for choosing the best ANN architecture for predicting target value, two statistical parameters, mean squared error (MSE) and correlation coefficient (R2) were utilized. A system with the lower estimations of MSE and the higher estimations of R2 gives more precise forecasts. Three different network were created and the two statistical parameters were used to determine the best number of neurons in the hidden layer. The developed neural network with best prediction has Root Mean Square Error (MSE) of 1.25221 and overall correlation coefficient (R2) of 0.99373 for the predicted plastic viscosity, yield point and apparent viscosity
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