The Science of Capping a Subsea Well Blowout

Day 3 Thu, October 31, 2019 Pub Date : 2019-10-28 DOI:10.4043/29926-ms

Mitch Guinn, Mike Cargol

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Abstract

As part of any Source Control Emergency Response Plan (SCERP), capping a subsea well blowout is a significant contingency operation that requires attention to many details to ensure that an operator is prepared to manage the risks involved and to achieve the desired outcome of stopping the flow of an uncontrolled well. The objective of this paper is to identify and describe the technical considerations (the science behind the procedures) that a prudent operator must address to be able to efficiently and effectively store, maintain, mobilize, install and operate a subsea capping stack in a subsea well blowout event. The paper will offer a brief description of the critical design and functionality requirements that were considered in the development of the original capping stacks. It will contain some updated guidance regarding storage, maintenance and transportation of a capping stack to the incident site. This paper will also present the latest review of available installation methods and offer a brief narrative regarding operating procedures. The paper will also briefly relay portions of the newly-released guidelines introduced in IOGP Report 594, dated January 2019, regarding the need for and definition of an effective SCERP. It has been almost 10 years since the last catastrophic offshore well control incident and the industry has responded by building equipment and developing procedures to enable an effective response to a similar incident. However, operating in an offshore environment requires a perpetual risk assessment and constant review and evaluation of contingency plans for all procedures, especially for those relating to protecting the environment. This paper will present an operator with proven guidance statements to enable the operator to properly prepare for a subsea well control incident. This paper will present updated guidance regarding selected technical issues of capping stack design and pertinent updated guidance regarding capping stack storage, maintenance, mobilization, and installation. The paper will also reinforce the newly released SCERP guidance regarding capping stacks in IOGP Report 594, dated January 2019.

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封堵海底井喷的科学

作为任何源头控制应急响应计划(SCERP)的一部分，封堵海底井喷是一项重要的应急操作，需要注意许多细节，以确保运营商准备好管理所涉及的风险，并实现阻止不受控制的井流的预期结果。本文的目的是确定和描述一个谨慎的操作人员必须解决的技术问题(程序背后的科学)，以便能够在海底井喷事件中高效地存储、维护、动员、安装和操作海底封顶装置。本文将简要介绍在开发原始封井装置时所考虑的关键设计和功能要求。它将包含一些关于应急封井装置到事故现场的储存、维护和运输的最新指南。本文还将介绍可用安装方法的最新综述，并提供有关操作程序的简要叙述。该文件还将简要介绍2019年1月IOGP报告594中介绍的新发布指南的部分内容，该指南涉及有效SCERP的需求和定义。距离上一次灾难性的海上井控事故已经过去了近10年，油气行业已经通过建造设备和开发程序来应对类似事件。然而，在近海环境中作业需要对所有程序，特别是与保护环境有关的程序的应急计划进行持续的风险评估和不断的审查和评价。本文将为作业者提供经过验证的指导声明，使作业者能够正确地为海底井控事件做好准备。本文将介绍有关封井装置设计的选定技术问题的最新指南，以及有关封井装置存储、维护、动员和安装的相关更新指南。该文件还将加强2019年1月IOGP报告594中新发布的关于封顶堆栈的SCERP指南。

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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Day 3 Thu, October 31, 2019

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