Well Intervention in Shallow Waters with Dynamically Positioned Vessels: A Study Case for Southeastern Brazil

Day 2 Tue, May 07, 2019 Pub Date : 2019-04-26 DOI:10.4043/29478-MS

R. G. Pestana, Vinicius Sales Rocha, D. Braga, Eric Ribeiro Oliveira

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Abstract

This paper presents the technical analysis, simulation and work carried out in planning and executing an open sea workover riser operation for decommissioning a well from a dynamically positioned (DP) vessel in shallow waters, on southeastern Brazil. The main challenge in using a DP rig in this situation is the risk of thruster blackout, resuling in a driftoff scenario. In shallow waters, the system safe allowable vessel driftoff is usually strict, resulting in tight Red Alarm Offsets or even making the operation unfeasible. Real time monitoring and analysis may be used to obtain dynamic optimized Red Alarm Offsets during an operation, but simulations must be performed for operational planning. Statistical treatment of a database of measured and simulated metocean conditions led to reduced environmental loadcases than usually considered in standard industry analysis, while retaining an acceptable safety level. Modification of the riser control system also resulted in reduced Emergency Disconnection Sequence (EDS) time, resulting in broader Red Alarm Offset results. The methodology herein presented may be refined even further, in order to make possible the use of DP vessels in even shallower water scenarios.

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动态定位船舶在浅海修井:巴西东南部研究案例

本文介绍了在巴西东南部浅水区的动态定位(DP)船上规划和执行远海修井隔水管作业的技术分析、模拟和工作。在这种情况下，使用DP钻井平台的主要挑战是推进器停电的风险，从而导致漂移。在浅水区，系统安全允许船舶漂移通常严格，导致红色报警偏紧，甚至使作业无法进行。实时监测和分析可用于在操作期间获得动态优化的红色警报偏移量，但必须进行模拟以进行操作计划。对测量和模拟海洋条件的数据库进行统计处理，使环境负荷情况比标准工业分析中通常考虑的要少，同时保持可接受的安全水平。对立管控制系统的改进也减少了紧急断开顺序(EDS)的时间，从而扩大了红色警报偏移的范围。本文提出的方法可以进一步改进，以便在更浅的水域中使用DP船。

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 2 Tue, May 07, 2019

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