高效大容量作业的射孔对接系统

Mohd Shafie Jumaat, S. Wattanapornmongkol, Sorawit Wattanachai, Kontron Konglumthan
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摘要

泰国湾开发了大量的单井,从多个薄储层中生产。大量的油井可以保证足够的产量,但为了油田的整体经济效益,必须对其成本进行良好的管理。射孔作业的一个重要成本组成部分来自于射孔作业,该作业涉及在电缆上多次下入射孔枪,每次下入由多个射孔枪组成,这些射孔枪通过开关顺序激活。这种在一口井中对多个区域进行射孔的过程,如果不加以管理,将导致作业时间延长甚至更糟,导致严重的问题,如非深度射孔。此外,井的平均温度为370华氏度,这给作业带来了额外的挑战。作业效率对于获得更好的油井经济效益至关重要。因此,多年来进行了一些操作和技术优化,以提高效率。在这种每年有数千次射孔作业的大容量作业中,渐进式改进总是有价值的。然而,当实现效率的阶跃变化时,收益更加明显,这已经在为泰国大批量市场设计的新型炮对接系统中观察到。它可以更快地连接地面上的多个枪,具有更好的安全性和可靠性。本文讨论了泰国大规模射孔作业的背景以及对效率的需求,这导致了针对该市场量身定制的新型射孔枪对接系统的开发。该对接系统技术连同迄今为止300多次射孔作业的部署统计数据,并与之前系统的统计数据进行了比较。效率的实现得益于其更快的连接和解除系统,以及更好的安全性和可靠性,从而降低了失火率。它的成功部署,更重要的是,其效率的逐步改变,可能为全球更多边缘油田的开发铺平道路。此外,由于全球范围内进行了数千次射孔作业,其效率也将在缩短作业时间和降低全球碳排放方面发挥至关重要的作用。
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Perforating Docking System for Efficient High-Volume Operation
The Gulf of Thailand is developed with a high volume of slim monobore wells, producing from multiple thin reservoirs. The high volume of wells enables sufficient production output, but their costs must be well managed for overall field economics. An important cost component comes from the perforating operation that involves several runs of guns on electric wireline, and on each run consists of several guns that are activated sequentially using switches. This process of perforating multiple zones in a well, if not managed, will lead to extended operational time or worse, leading to serious problems like off-depth perforation. Additionally, the temperature of the wells averaging at 370 degF poses an additional challenge to the operations. The efficiency of operation is paramount in achieving better well economics. Hence, several operational and technology optimizations were performed over the years to achieve several incremental in efficiency. Incremental improvement is always valuable in such a high-volume operation involving thousands of perforating runs annually. However, the gain is even more pronounced when a step change in efficiency is achieved, and this has been observed in the new gun docking system engineered for the high-volume market in Thailand. It enables quicker connection of multiple guns on the surface with better safety and reliability. This paper discusses the background of the high-volume perforating in Thailand and the need for efficiency, which led to the development of this new gun docking system tailored for this market. This docking system technology is presented together with the statistics of its deployment in over 300 perforating runs to date and compared to the statistics of the previous system. The efficiency achieved comes from its quicker connection and arming system, combined with its better safety and reliability that lead to a lower misfire rate. The success of its deployment and more importantly, its step change in efficiency may pave ways for more marginal fields to be developed globally. Additionally, as thousands of perforating runs are performed globally, its efficiency will also play a vital role in shortening operational times and contribute to lower global carbon emission.
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