Application of an Adaptive Neuro-fuzzy Inference System and Mathematical Rate of Penetration Models to Predicting Drilling Rate

Iranian Journal of Oil and Gas Science and Technology Pub Date : 2018-07-01 DOI:10.22050/IJOGST.2018.83374.1391

H. Yavari, Mohammad Sabah, Rassoul Khosravanian, D. Wood

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引用次数: 26

Abstract

The rate of penetration (ROP) is one of the vital parameters which directly affects the drilling time and costs. There are various parameters that influence the drilling rate; they include weight on bit, rotational speed, mud weight, bit type, formation type, and bit hydraulic. Several approaches, including mathematical models and artificial intelligence have been proposed to predict the rate of penetration. Previous research has showed that artificial intelligence such as neural network and adaptive neuro-fuzzy inference system are superior to conventional methods in the prediction of drilling rate. On the other hand, many complicated analytical ROP models have also been developed during recent years that are able to predict drilling rate with a high degree of accuracy. Therefore, comparing different approaches to find the most accurate model and assess the conditions in which each model works well can be highly effective in reducing drilling time as well as drilling cost. In this study, Hareland-Rampersad (HR) model, Bourgoyne and Young (BY) model, and an adaptive-neuro-fuzzy inference system (ANFIS) are employed to predict the drilling rate in the South Pars gas field (SP) offshore of Iran, and their results are compared to find the best ROP-prediction model for each formation. A database covering the drilling parameters, sonic log data, and modular dynamic test data collected from several drilling sites in SP are used to construct the mentioned models for each formation. The results show that when a large amount of data is available, the ANFIS is more accurate than the other approaches in predicting drilling rate. In the case of ROP models, BY model works considerably better than HR model for the majority of the formations. However, in formations where some drilling parameters are constant, but formation strength is variable, HR model shows better prediction performance than BY model.

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自适应神经模糊推理系统及数学钻速模型在钻速预测中的应用

钻速(ROP)是直接影响钻井时间和成本的重要参数之一。影响钻速的参数有很多;它们包括钻头重量、转速、泥浆重量、钻头类型、地层类型和钻头水力。已经提出了几种方法，包括数学模型和人工智能来预测渗透率。已有研究表明，神经网络和自适应神经模糊推理系统等人工智能在钻速预测方面优于常规方法。另一方面，近年来也开发了许多复杂的分析ROP模型，能够高精度地预测钻井速度。因此，通过比较不同的方法来找到最准确的模型，并评估每种模型的工作条件，可以非常有效地减少钻井时间和钻井成本。本文采用haland - rampersad (HR)模型、Bourgoyne and Young (BY)模型和自适应神经模糊推理系统(ANFIS)对伊朗海上South Pars气田(SP)的钻井速度进行预测，并对结果进行比较，以寻找各层的最佳rop预测模型。该数据库包括钻井参数、声波测井数据和从SP的几个钻井地点收集的模块化动态测试数据，用于为每个地层构建上述模型。结果表明，当有大量数据可用时，ANFIS在预测钻速方面比其他方法更准确。在ROP模型的情况下，对于大多数地层，BY模型比HR模型要好得多。然而，在某些钻井参数不变而地层强度变化的地层中，HR模型的预测效果优于BY模型。

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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