数字井管理系统的开发

IF 3.8 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS
Ilyushin Pavel Yurievich, Vyatkin Kirill Andreevich, Kozlov Anton Vadimovich
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引用次数: 0

摘要

现代石油工业的特点是所有技术流程的数字化趋势很强。与此同时,在油田向开发后期过渡的过程中,优化耗电的问题也变得十分重要。这项工作的目的是利用机器学习的元素开发一种用于分布式控制生产井的数字自动化系统。提出了在正在创建的自动化系统框架内的信息交换结构,该结构由三个自动化级别组成。采掘基金的管理应该以四个模块的工作为基础。“复杂性”模块分析油井和周边设备的运行情况,并根据嵌入式算法,根据历史数据评估偏差的原因、消除偏差的方法以及每种方法的有效性。“功耗优化”模块允许将算法集成到井控系统中,通过保持最节能的泵送设备运行或优化其运行时间来降低能耗。“确保井流量”模块允许您分析并确定产量下降的原因,同时考虑相邻井的操作参数。设备异常预测模块基于机器学习,通过预测和自动响应潜在的偏差,有助于减少设备停机时间。通过使用该系统,实现了石油公司的许多目标:降低了比能耗、油荒和事故率,同时降低了工程技术人员处理所有工艺设备运行参数的人工成本。
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 a Digital Well Management System
The modern oil industry is characterized by a strong trend towards the digitalization of all technological processes. At the same time, during the transition of oil fields to the later stages of development, the issues of optimizing the consumed electricity become relevant. The purpose of this work is to develop a digital automated system for distributed control of production wells using elements of machine learning. The structure of information exchange within the framework of the automated system being created, consisting of three levels of automation, is proposed. Management of the extractive fund is supposed to be based on the work of four modules. The “Complications” module analyzes the operation of oil wells and peripheral equipment and, according to the embedded algorithms, evaluates the cause of the deviation, ways to eliminate it and the effectiveness of each method based on historical data. The “Power Consumption Optimization” module allows integrating algorithms into the well control system to reduce energy consumption by maintaining the most energy-efficient operation of pumping equipment or optimizing its operation time. The module “Ensuring the well flow rate” allows you to analyze and determine the reasons for the decrease in production rate, taking into account the parameters of the operation of adjacent wells. The Equipment Anomaly Prediction module is based on machine learning and helps reduce equipment downtime by predicting and automatically responding to potential deviations. As a result of using the proposed system, many goals of the oil company are achieved: specific energy consumption, oil shortages, and accident rate are reduced, while reducing the labor costs of engineering and technological personnel for processing the operation parameters of all process equipment.
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来源期刊
Applied System Innovation
Applied System Innovation Mathematics-Applied Mathematics
CiteScore
7.90
自引率
5.30%
发文量
102
审稿时长
11 weeks
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