建立与供应商无关的自动定向钻井系统的经验

Titto Thomas Philip, S. Ziatdinov
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引用次数: 0

摘要

后新冠肺炎时代无疑将带来运营规划和执行的范式转变,先进的自动化将成为一个重要因素。然而,没有定向钻井能力的钻井自动化(Cayeux 2020)将排除在大量油田中使用自动化,在这些油田中,精确定位井筒已经从奢侈品变成了必需品。这在非常规油气藏中非常重要,因为自动化可以逐步改变运营结果(Chmela 2020)。然而,自动化定向钻井的大多数努力都是使用定制钻机(Slagmulder 2016)和定制底部钻具组合(BHA),这限制了操作选择。目标是设计出能够利用现有bha实现定向钻井自动化的系统(Chatar 2018)。本文将着眼于在定向钻井(DD)过程自动化中部署供应商不可知系统所面临的三个挑战。与现有的随钻测量和测井(MLWD)系统集成,能够在现有钻机的任何作业中推出自动化系统。该系统是对作业者自主钻井系统(Rassenfoss 2011)的改进,旨在使用现有钻机、bha,并且在钻机上的占地面积最小。该系统将通过通用工业协议(包括Modbus、EthernetIP或Profinet)与钻机的可编程逻辑控制器(PLC)进行专用连接,与MLWD接收器和具有云连接的脑盒进行物理连接,以聚合、处理数据并向钻机PLC发送命令以执行定向命令。与供应商无关的系统将增加自动化技术的采用,并进一步推动操作和业务性能的改进。
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Learnings from Building a Vendor Agnostic Automated Directional Drilling System
The post COVID-19 era will undoubtedly present paradigm shifts in operational planning and execution and advanced automation will become an important factor. However, drilling automation without directional drilling (Cayeux 2020) capability will exclude the use of automation in a vast number of fields where precise placement of the wellbore has shifted from a luxury to a necessity. This is important in unconventional plays where automation can make a step change in operational outcomes (Chmela 2020). However, most efforts in automating directional drilling are using bespoke rigs (Slagmulder 2016) and bespoke bottom hole assembly (BHA) that limit operational options. The goal is in designing systems that enable directional drilling automation (Chatar 2018) with existing BHAs. This paper will look at three challenges that were identified and overcome to deploy a vendor agnostic system for automating the directional drilling (DD) process. The three challenges identified here are as follows:Using any mud motor including low-cost motors in a closed loopIntegration with an existing measurement and logging while drilling (MLWD) systemAbility to roll out automation systems on any operations with existing rigs The system is a modification of an operator’s autonomous drilling system (Rassenfoss 2011), designed to use existing rigs, BHAs and have minimum footprint on the rigs for operational use. The system will have a dedicated connection to the rig’s programmable logic controller (PLC) via common industrial protocols including Modbus, EthernetIP or Profinet, a physical connection the MLWD receiver and a brain box with a cloud connection to aggregate, process data and send commands to the rig PLC to execute directional commands. A vendor agnostic system will increase adoption of automated technologies and further drive improvements in operational and business performance.
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