Production Optimization Challenges and Solutions for Heavy Oil - North Kuwait

Abdul-Aziz Bassam, Ghazi Al-Besairi, Sulaiman Al-Dahash, Tomas Sierra, A. Mohamed, K. Heshmat
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Abstract

The demand for digital oil field solutions in artificially lifted wells is higher than ever, especially for wells producing heavy oil with high sand content and gas. A real-time supervisory control and data acquisition solution has been applied in a large-scale thermal pilot for 28 instrumented sucker rod pumping wells in North Kuwait. This paper focuses on the advantages of real-time data acquisition for identifying production-optimization candidates, improving pump performance, and minimizing down time when using intelligent alarms and an analysis engine. Real-time surveillance provided a huge amount of information to be analyzed and discussed by well surveillance and field development teams to determine required actions based on individual well performance. Controller alarms and intelligent configurable alarms in one screen enabled early detection of unexpected/unwanted well behavior, re-investigating well potential, and taking necessary actions. The challenge was to handle heavy oil, sand, and gas production, maintain all wells at optimum running conditions before and after steam injections, and take into consideration the effect that injections would have on nearby wells. Recording in the database a "tracking item" for each well event enabled review and evaluation of the wells and creation of optimization reports. The daily, 24-hour surveillance of the wells resulted in observing common problems/issues on almost all wells and other individual issues for specific wells. The following are examples of problems identified in early stages: Detected wells with gas interference before they reached gas lockDetected wells with high flowline pressure before flowline blockage resulted from sand productionDetected wells with standing valve and/or traveling valve leak—resulting from sand production—before the pump stuck The availability of such a supervisory control and data acquisition (SCADA) system helped in guiding the operations team to further investigate only specific items from the field side to confirm the findings. The ability to remotely control the wells and remotely change configuration of the variable speed drive parameters enabled instant implementation and continuous production optimization. The powerful SCADA solution enabled creating short- and long-term plans and monitoring the behavior of wells while the implementation phase was executed. For the first time in South Ratqa in North Kuwait, the smart field approach was implemented in a thermal pilot using sucker rod pumps; and the results will be used as a reference for the upcoming projects in this area. Real-time monitoring and data storage in a single database with an analysis engine provided fully automated surveillance and the capability of remotely controlling and applying required actions for production optimization.
科威特北部重油生产优化面临的挑战和解决方案
人工举升井对数字化油田解决方案的需求比以往任何时候都要高,特别是对于含砂量和含气量高的稠油井。一种实时监控和数据采集解决方案已应用于科威特北部28口仪器抽油机井的大型热试验。本文重点介绍了实时数据采集在识别生产优化候选产品、提高泵性能以及使用智能警报和分析引擎时最大限度地减少停机时间方面的优势。实时监控提供了大量的信息,供油井监控和现场开发团队分析和讨论,以根据单口井的性能决定所需的措施。控制器警报和智能可配置警报集中在一个屏幕上,可以早期发现意外/不想要的井行为,重新调查井的潜力,并采取必要的措施。面临的挑战是如何处理稠油、砂岩和天然气的生产,在注汽前后保持所有井的最佳运行状态,并考虑注汽对附近井的影响。在数据库中记录每个井事件的“跟踪项”,可以对井进行审查和评估,并创建优化报告。每天对井进行24小时监测,发现了几乎所有井的共同问题,以及特定井的其他个别问题。以下是在早期阶段发现的问题的例子:在出砂导致油管堵塞之前,检测出油管压力高的井;在泵卡钻之前,检测出出砂导致的活门和/或移动阀泄漏的井。这种监控和数据采集(SCADA)系统的可用性有助于指导作业团队进一步调查现场的具体问题,以确认发现的结果。远程控制井和远程改变变速驱动参数配置的能力,实现了即时实施和持续的生产优化。强大的SCADA解决方案能够制定短期和长期计划,并在实施阶段监控井的行为。在科威特北部的South Ratqa地区,首次使用有杆泵在热试验中实施了智能油田方法;研究结果将为该领域的后续项目提供参考。实时监控和数据存储在单个数据库中,具有分析引擎,提供全自动监控,远程控制和应用所需操作的能力,以优化生产。
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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