基于人工智能确定水基钻井液流变参数的新模型

F. Hadi, A. Noori, H. Hussein, Ameer Khudhair
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摘要

众所周知,钻井液是优化钻井作业、清洁井眼、管理钻机液压系统以及喘振和抽汲压力裕度的关键参数。实验工作虽然得到了有效可靠的结果,但成本高,耗时长。另一方面,连续规律地测定泥浆流变特性可以在建井过程中发挥其基本作用。钻井液性质规划的不确定性增加,意味着在钻井作业中可能面临更多挑战。本研究提出了两种预测技术,即多元回归分析(MRA)和人工神经网络(ann),以其他简单可测量的性质为基础,确定水基钻井液的流变性能。泥浆密度(MW)、沼泽漏斗(MF)和固含量%是本研究的关键输入参数,而输出函数或模型是塑性粘度(PV)、屈服点(YP)、表观粘度(AV)和凝胶强度。该预测方法通过伊拉克东部的一个现场案例进行了验证,除了实验室测量数据外,还使用了两口井的每日钻井报告数据集。为了检验所开发模型的性能,本研究使用了两个基于误差的指标(决定系数R2和均方根误差RMSE)。目前的研究结果支持了MW, MF和solid%是预测流变特性的一致指标的证据。泥浆密度和固含量对提高PV、YP、AV和凝胶强度都有相对显著的影响。然而,观察到每个拟合曲线周围的散射,这证明单独一种流变性能不足以估计其他性质。结果还表明,MRA和ANN在估计流体流变特性方面都是保守的,但ANN比MRA更精确。本研究建立了8个高性能的经验数学模型,基于泥浆平衡和沼泽漏斗等简单快捷的设备来确定流体的流变特性。该研究提出了具有成本效益的模型,为伊拉克油田未来的井规划确定流变流体特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of New Models to Determine the Rheological Parameters of Water-based Drilling Fluid Using Artificial Intelligence
It is well known that drilling fluid is a key parameter for optimizing drilling operations, cleaning the hole, and managing the rig hydraulics and margins of surge and swab pressures. Although the experimental works present valid and reliable results, they are expensive and time consuming. On the other hand, continuous and regular determination of the rheological mud properties can perform its essential functions during well construction. More uncertainties in planning the drilling fluid properties meant that more challenges may be exposed during drilling operations. This study presents two predictive techniques, multiple regression analysis (MRA) and artificial neural networks (ANNs), to determine the rheological properties of water-based drilling fluid based on other simple measurable properties. While mud density (MW), marsh funnel (MF), and solid% are key input parameters in this study, the output functions or models are plastic viscosity (PV), yield point (YP), apparent viscosity (AV), and gel strength. The prediction methods were demonstrated by means of a field case in eastern Iraq, using datasets from daily drilling reports of two wells in addition to the laboratory measurements. To test the performance ability of the developed models, two error-based metrics (determination coefficient R2 and root mean square error RMSE) have been used in this study. The current results of this study support the evidence that MW, MF, and solid% are consistent indexes for the prediction of rheological properties. Both mud density and solid content have a relative-significant effect on increasing PV, YP, AV, and gel strength. However, a scattering around each fit curve is observed which proved that one rheological property alone is not sufficient to estimate other properties. The results also reveal that both MRA and ANN are conservative in estimating the fluid rheological properties, but ANN is more precise than MRA. Eight empirical mathematical models with high performance capacity have been developed in this study to determine the rheological fluid properties based on simple and quick equipment as mud balance and marsh funnel. This study presents cost-effective models to determine the rheological fluid properties for future well planning in Iraqi oil fields.
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