一种安全、经济的FPSO fluuminense船体湿面侧壳维修无潜水员方法

C. Webb, A. Sarabi, D. Constantinis, Travis Harley Anthony
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引用次数: 0

摘要

巴西Campos盆地的Bijupira和Salema油田与FPSO Fluminense相连。Fluminense FPSO的设计寿命为15年,2003年首次采油。2017年,壳牌作为运营商和合作伙伴巴西石油公司决定执行一项为期5年的延长项目,将生产延长至2023年。虽然延长寿命项目包括许多船舶、系泊和生产设施翻新项目,但本文将重点关注船体湿表面裂缝的修复。裂缝修复是在生产作业期间进行的,采用了一种新颖的方法,旨在消除潜水作业的风险,同时大大降低了海上船体修复的成本。由于在持续的2 +结巴西海流中潜水存在很高的安全风险,早期使用潜水员部署围堰的传统方法都失败了。2019年初,作业者和工程顾问团队得出结论,一种无需潜水作业的新型维修方法是可行的。开发了概念方法,其中一个要素包括定位和固定FPSO侧壳裂缝区域的围堰。围堰从FPSO甲板上降下,同时通过穿过侧壳孔的导缆定位并固定到位。通过热水龙头和绞盘系统,从水箱内部穿透侧壳,消除了进入空隙空间的水。随着概念的发展,逐步编写程序,与船级社进行审查,随后在招标过程中用于选择执行承包商。选定的执行承包商建造了一个复制实际船体结构的测试油箱。该原型被用于测试该方法的全尺寸,包括程序、通信协议和设备。这些知识被纳入了程序和设备。在海上执行之前,该过程作为海上人员和HSSE负责人的培训演习进行了重复。执行承包商于2020年第一季度被动员到海上,并成功进行了船体维修。工作按计划完成,包括拆除和更换船体加固板的几个独立部分,包括平面和曲面。在成功实施的基础上,该方法已被证明是一种可用于消除潜水风险的技术,并可显著降低未来海上船体维修的成本。本文将讨论由作业者和咨询公司共同开发和整合这种新技术的各种要素所采取的系统方法,以及阶段测试、预动员调查、项目执行和其他推动成功的活动。
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A Safe and Cost Effective Diverless Method for Hull Wetted Surface Side Shell Repairs Executed On FPSO Fluminense
The Bijupira and Salema oil fields in the Campos Basin, Brazil, are tied-back to the FPSO Fluminense. The design life of FPSO Fluminense was 15 years, first oil was in 2003. In 2017, Shell as operator and partner Petrobras decided to execute a 5 year life extension project to extend production until 2023. Although the life extension project encompassed many vessel, moorings, and production facility renovation projects, this paper will focus on the repairs of cracks in the wetted surfaces of the hull. Crack repairs were executed during production operations using a novel methodology designed to eliminate the risks of diving operations, while significantly reducing the costs of the offshore hull repairs. Earlier attempts using traditional methods with divers to deploy cofferdams were unsuccessful due to the high safety risk of diving in the persistent 2-plus knot Brazil current. In early 2019, the operator and a team of engineering consultants concluded that a novel repair approach that eliminates diving operations was feasible. The concept methodology was developed, one element of which included positioning and securing a cofferdam over a cracked area of the FPSO side shell. The cofferdam was lowered from the FPSO deck while being guided into position and secured in place by guide wires passed through holes in the side shell. Water ingress into the void spaces was eliminated via a hot tap and winching system that penetrates the side shell from inside the tank. Following the concept development, a step-by-step procedure was written, vetted with the classification society and subsequently used in the tendering process to select an execution contractor. The selected execution contractor constructed a test tank that replicated the actual hull structure. The prototype was used to test the method at full scale, including procedures, communication protocols, and equipment. The learnings were incorporated into both the procedures and equipment. This process was repeated as a training exercise for the offshore personnel and HSSE leaders prior to offshore execution. The execution contractor was mobilized offshore in the first quarter of 2020 and successfully performed the hull repairs. The job was completed as planned, including removal and replacement of several independent sections of stiffened hull plating, which included both flat and curved surfaces. Based upon successful execution, this method has been proven to be a technology that can be used to eliminate the risks of diving and to significantly reduce the costs of future offshore hull repairs. This paper will address the methodical approach taken to develop and integrate the various elements of this novel technology developed jointly by the operator and consultants, as well as the phases testing, pre-mobilization surveys, project execution, and other activities that drive success.
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