Quantification and compensation of systematic errors in pressure measurements applied to oil pipelines

2017 2nd International Conference on System Reliability and Safety (ICSRS) Pub Date : 2017-12-01 DOI:10.1109/ICSRS.2017.8272842

Gregor Thiele, Martin Liu, Moritz Chemnitz, J. Krüger

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引用次数: 1

Abstract

The monitoring of pipeline operation is an important research topic, especially for the detection and localization of leaks as well as for an efficient control. For these purposes, physical quantities in pipelines are calculated from measurement data on the basis of a mathematical model. In contrast to static models, adaptive models vary their parameters or even their structure to reach the most probable solution. But in most cases, even the best fit will hold residuals caused by discrepancies between the real system and its model. These residuals allow an estimation of travel-time delays of pressure waves and offsets in pressure values. The basic idea of our approach is to interpret these systematic, time-invariant errors of pressure measurements in pipelines either as sensor displacements or as technical defects. The proposed procedure leads to a hypothesis for a model update, regarding the sensor positions. This displacement compensation as well as a variance analysis was successfully applied to real data from a crude oil pipeline in Europe. A cross validation proves the general capability of the developed method to reduce the uncertainties.

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输油管道压力测量系统误差的量化与补偿

管道运行监测是一个重要的研究课题，特别是对于泄漏的检测和定位以及有效的控制。为此，在数学模型的基础上，根据测量数据计算管道中的物理量。与静态模型相比，自适应模型改变其参数甚至结构以达到最可能的解。但在大多数情况下，即使是最好的拟合也会存在由实际系统与其模型之间的差异造成的残差。这些残差可以用来估计压力波的走时延迟和压力值的偏移。我们方法的基本思想是将管道中压力测量的这些系统时不变误差解释为传感器位移或技术缺陷。所提出的过程导致了一个关于传感器位置的模型更新假设。这种位移补偿和方差分析方法成功地应用于欧洲一条原油管道的实际数据。交叉验证证明了所提出的方法具有降低不确定性的一般能力。

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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2017 2nd International Conference on System Reliability and Safety (ICSRS)

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