永久性井下系统的可靠性:最小样本和质量指标

Q1 Earth and Planetary Sciences
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引用次数: 0

摘要

永久性井下监测系统负责测量压力和温度时间序列,可在油田生产期间不间断地确定储层特征,在石油和天然气工业中发挥着关键作用。该系统位于恶劣的压力和温度环境中:(i) PDG(永久性井下压力计)传感器靠近储油层;(ii) TPT(压力和温度传感器)和 PT(压力传感器)位于井口,其数据从海底环境传输到浮式生产储油卸油船(FPSO),由主控系统(MCS)以工程格式提供信息。这些信息在浮式生产储油卸油机(FPSO)中发挥其功能,并最终存储在陆上数据历史库中。由于该系统的复杂性、重要性和维护难度,有必要对其可靠性进行控制和管理。因此,这项工作的目标是通过可靠性计算,使用带 2 个参数的 Weibull 估计值,并应用统计推论的质量指标,提高井下永久监测系统的可用性并最大限度地延长其使用寿命。所提出的可靠性估算方法使用的数据库包含 2008 年 1 月 1 日至 2014 年 1 月 9 日期间 PDG、TPT 和 PT 类型的井下永久监测系统的信息,并且只考虑在数据到达监控系统之前发生的故障。从可靠性结果可以看出,对该数据库进行分层可以产生观测次数较少的样本,因此即使样本数量较少也能推断出可靠性。对这一方法进行深化后,可以定义出最小样本量,该样本量可以去除没有统计意义的可靠性推断,还可以定义出质量指标,该指标可以对数据库最大样本分层集的可靠性估计值进行分类。值得一提的是,这项工作中开发的这两种方法都应用于油井监测系统中,该系统旨在提高油井作业管理中压力和温度数据的可用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reliability of permanent downhole systems: Minimum sample and quality index

Permanent downhole monitoring systems are responsible for measuring pressure and temperature time series and enable uninterrupted reservoir characterization during the oil field production period, playing a key role in the oil and gas industry. Located in hostile pressure and temperature environments (i) close to the reservoir, in the case of the PDG (Permanent Downhole Gauge) sensor, and (ii) at the wellhead, in the case of the TPT (Pressure and Temperature Transducer) and PT (Pressure Transducer), its data are transmitted from the subsea environment to the Floating Production Storage and Offloading (FPSO), where the Master Control System (MCS) provides the information in engineering format. This information fulfills its function in the FPSO plant and finally is stored in an onshore data historian. Such complexity, importance, and maintenance difficulty of this system make it necessary to control and manage its reliability. Therefore, the objective of this work is to increase the availability and maximize the useful life of the downhole permanent monitoring system through the reliability calculation, using the Weibull estimate with 2 parameters, and the application of an index quality of statistical inferences. The proposed method for estimating reliability uses a database containing information from permanent downhole monitoring systems of the PDG, TPT, and PT type, from January 1st, 2008 to January 9th, 2014, and considers only the failures that occur until the arrival of the data in the MCS. From the reliability results, it can be observed that stratifications of this database could generate samples with a smaller number of observations, thus inferring reliability even with a small number of samples. The deepening of this method results in the definition of the minimum sample that allows removing reliability inferences without statistical significance and a quality index that allows classifying the reliability estimates of stratified sets of the largest sample of a database. It is worth mentioning here that both methodologies developed in this work are inserted in a well monitoring system that intends to contribute to increasing the availability of pressure and temperature data for the management of well operations.

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来源期刊
Petroleum Research
Petroleum Research Earth and Planetary Sciences-Geology
CiteScore
7.10
自引率
0.00%
发文量
90
审稿时长
35 weeks
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