Prediction of drilling leakage locations based on optimized neural networks and the standard random forest method

IF 1.8 4区 工程技术 Q4 ENERGY & FUELS
Su Junlin, Zhao Yang, He Tao, Luo Pingya
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引用次数: 6

Abstract

Circulation loss is one of the most serious and complex hindrances for normal and safe drilling operations. Detecting the layer at which the circulation loss has occurred is important for formulating technical measures related to leakage prevention and plugging and reducing the wastage because of circulation loss as much as possible. Unfortunately, because of the lack of a general method for predicting the potential location of circulation loss during drilling, most current procedures depend on the plugging test. Therefore, the aim of this study was to use an Artificial Intelligence (AI)-based method to screen and process the historical data of 240 wells and 1029 original well loss cases in a localized area of southwestern China and to perform data mining. Using comparative analysis involving the Genetic Algorithm-Back Propagation (GA-BP) neural network and random forest optimization algorithms, we proposed an efficient real-time model for predicting leakage layer locations. For this purpose, data processing and correlation analysis were first performed using existing data to improve the effects of data mining. The well history data was then divided into training and testing sets in a 3:1 ratio. The parameter values of the BP were then corrected as per the network training error, resulting in the final output of a prediction value with a globally optimal solution. The standard random forest model is a particularly capable model that can deal with high-dimensional data without feature selection. To evaluate and confirm the generated model, the model is applied to eight oil wells in a well site in southwestern China. Empirical results demonstrate that the proposed method can satisfy the requirements of actual application to drilling and plugging operations and is able to accurately predict the locations of leakage layers.
基于优化神经网络和标准随机森林方法的钻井泄漏位置预测
循环漏失是影响正常、安全钻井作业的最严重、最复杂的障碍之一。检测漏失层对制定防漏堵漏相关技术措施,尽可能减少漏失造成的损失具有重要意义。不幸的是,由于缺乏一种通用的方法来预测钻井过程中循环漏失的潜在位置,目前的大多数方法都依赖于堵塞测试。因此,本研究的目的是利用基于人工智能(AI)的方法对中国西南局部地区240口井和1029个原始井损案例的历史数据进行筛选和处理,并进行数据挖掘。通过遗传算法-反向传播(GA-BP)神经网络和随机森林优化算法的对比分析,我们提出了一种高效的泄漏层位置实时预测模型。为此,首先利用现有数据进行数据处理和相关性分析,以提高数据挖掘的效果。然后将井历史数据按3:1的比例分成训练集和测试集。然后根据网络训练误差对BP的参数值进行校正,最终输出具有全局最优解的预测值。标准随机森林模型是一个特别有能力的模型,它可以处理高维数据而不需要特征选择。为了对所建立的模型进行评价和验证,将该模型应用于西南某井场的8口油井。实验结果表明,该方法能够满足钻井堵漏作业的实际应用要求,能够准确预测漏层位置。
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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来源期刊
CiteScore
2.70
自引率
0.00%
发文量
0
审稿时长
2.7 months
期刊介绍: OGST - Revue d''IFP Energies nouvelles is a journal concerning all disciplines and fields relevant to exploration, production, refining, petrochemicals, and the use and economics of petroleum, natural gas, and other sources of energy, in particular alternative energies with in view of the energy transition. OGST - Revue d''IFP Energies nouvelles has an Editorial Committee made up of 15 leading European personalities from universities and from industry, and is indexed in the major international bibliographical databases. The journal publishes review articles, in English or in French, and topical issues, giving an overview of the contributions of complementary disciplines in tackling contemporary problems. Each article includes a detailed abstract in English. However, a French translation of the summaries can be provided to readers on request. Summaries of all papers published in the revue from 1974 can be consulted on this site. Over 1 000 papers that have been published since 1997 are freely available in full text form (as pdf files). Currently, over 10 000 downloads are recorded per month. Researchers in the above fields are invited to submit an article. Rigorous selection of the articles is ensured by a review process that involves IFPEN and external experts as well as the members of the editorial committee. It is preferable to submit the articles in English, either as independent papers or in association with one of the upcoming topical issues.
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