Hankun Wang, Yunfei Xu, Bowen Shi, Chaoliang Zhu, Zhihua Wang
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引用次数: 22
Abstract
In order to achieve the purpose of efficient, safe and reliable operation, it has become the development trend and direction to build an intelligent oilfield transportation pipeline network with big data analysis, comprehensive situation awareness and automatic control and management capabilities in the future. In this paper, Supervisory Control and Data Acquisition (SCADA) system was used to collect the production and operation data of an oilfield in Western China. The thermal and hydraulic models have been corrected based on these collected data. Then, the influence factors of thermal characteristics of several categories of pipelines were analyzed, and the critical temperature gradient of various categories of pipelines was obtained by interpolating fitting method. Furthermore, the optimal operation conditions of the transportation pipelines were obtained, and the universal relationship of pipeline operation parameters was established as well. The results indicated that the corrected models can predict the temperature drop and pressure drop of multiphase mixture transportation pipeline well, liquid flow rate, water cut and initial temperature do have obvious influences on pipeline operation parameters, and the universal relationship of pipeline operation parameters can effectively guide the production practice of oilfield. However, the operation parameters optimization universal relationship cannot meet the requirements of personalized control of all pipelines. Therefore, this paper proposed an intelligent control strategy for multiphase mixture transportation pipeline in oilfield. This case study is of great significance to guide the optimization of operation parameters and ensure high efficiency and safe operation of multiphase mixture transportation pipelines in oilfield.
为达到高效、安全、可靠运行的目的,构建具有大数据分析、全面态势感知和自动控制管理能力的智能油田输送管网已成为未来的发展趋势和方向。本文采用SCADA (Supervisory Control and Data Acquisition)系统对中国西部某油田的生产经营数据进行采集。根据收集到的数据对热工和水工模型进行了校正。然后,分析了几种管道热特性的影响因素,通过插值拟合方法得到了几种管道的临界温度梯度;进而得到了输送管道的最优运行条件,并建立了管道运行参数的通用关系。结果表明,修正后的模型能较好地预测多相混输管道的温降和压降,液流量、含水率和初始温度对管道运行参数有明显的影响,管道运行参数的普遍关系可以有效地指导油田的生产实践。然而,运行参数优化通用关系不能满足对所有管道进行个性化控制的要求。为此,本文提出了一种油田多相混合输送管道的智能控制策略。本案例研究对指导油田多相混输管道的运行参数优化,保证多相混输管道的高效安全运行具有重要意义。