低温泄漏控制技术在浮式LNG中的应用

Giampiero Mulè, V. Luciano, A. Pastorello, A. Whymant
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引用次数: 0

摘要

Coral Sul FLNG旨在直接在海上储层生产、液化、储存和输送液化天然气和凝析油。Coral Sul长430米,将是有史以来第一个在超深水中运行的FLNG,其井位于海平面以下2000米。该船目前由Technip、JGC、Samsung Consortium (TJS)在韩国建造,由Eni领导的合资企业作为运营商和合作伙伴(ExxonMobil、ENH、GALP、KOGAS和CNPC)。FLNG技术面临的主要安全挑战涉及船上低温泄漏的管理以及在非常拥挤的环境中对人员和资产的保护。FLNG技术正在为行业引入一套新的安全规则,这些规则仍在主要国际认证机构的开发中。目前,FLNG技术缺乏行业标准,且安装的拥挤性,使得基于风险的方法成为验证设计和确定适合减少目的措施的重要步骤。Coral项目为低温风险管理开展了几项行动,目的是:确保船上所有人员的安全,最大限度地减少风险升级的可能性,并保持资产的完整性。本文描述了Coral FLNG项目所采用的基于风险的方法,并描述了船上实施的一些最重要的设计安全措施,以管理低温泄漏:排水系统和船外排放物的设计,旨在防止快速相变的风险主动保护方法:改进的涂层材料(低温泄漏防护+被动防火的综合作用)合适的排水系统设计是FLNG设计的一个关键安全方面,因为它至关重要,以尽量减少汽化,从而在船上产生危险的可燃气云。为Coral Sul FLNG提出的解决方案是开放式排水沟、倾斜的开放式通道和垂直管道的组合,这些管道可以快速将意外溢出物排出船外,最大限度地减少拥挤区域的蒸发。在靠近船外溢出点的地方,采用水帘保护船身侧,并对快速相变的排放效果进行了评估。钢甲板和结构必须防止意外低温泄漏引起的裂缝,并导致结构失效,危及生命和财产。为了保护甲板、管道和设备,已经开发了特殊的涂层材料,以避免任何事故的升级。这些涂层提供了抗脆化和防火的综合保护。采用RBA法涂覆涂层。排水系统和涂料的设计被认为是技术上的创新。为了评估新技术的成熟度,珊瑚项目已经实施了一项技术验证计划。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of Cryogenic Spill Control Techniques in Floating LNG
Coral Sul FLNG is designed to produce, liquefy, store and transfer LNG and condensates directly at the offshore reservoir. Over 430 meters long, Coral Sul will be the first FLNG ever built to operate in ultra-deep waters, its wells are located 2000 meters below sea level. The vessel is currently under construction by Technip, JGC, Samsung Consortium (TJS) in South Korea for a joint venture led by Eni as operator and partners (ExxonMobil, ENH, GALP, KOGAS and CNPC). The main safety challenges for the FLNG technology, relate to the management of cryogenic spills on board and the protection of people and assets in a very congested environment. FLNG technology is introducing a set of new safety rules for the industry which are still under development by main international certification bodies. Today, the lack of industry standards regarding FLNG technology, and the congested nature of the installation, make the Risk Based Approach an essential step to validate the design and identify fit for purpose reduction measures. Coral project carried out several actions for Cryogenic Risk Management with the aim to: ensure safety of all the Personnel on Boardminimize the potential for escalation and maintain asset integrity. This Paper describes the Risk Based Approach followed for Coral FLNG project and describes some of the most important design safety measures implemented on board to manage cryogenic spills: Design of Drainage System and Overboard dischargeDesigned against the Risk of Rapid Phase TransitionActive Protection Methods: Water Curtains to protect hull sideImproved Coating Materials (combined effect Cryogenic Spill Protection + Passive Fire Protection) Suitable design of drainage system is a key safety aspect for the design of the FLNG, since it is essential to minimize the vaporization which can create dangerous flammable gas clouds on board. The solution proposed for Coral Sul FLNG is a combination of open gutters, sloped open channels and vertical pipes which allow the quick discharge overboard of accidental spills, minimizing the vaporization in congested areas. In proximity of overboard spillage points, water curtains are implemented to protect the hull side, and the effect of discharge is evaluated for rapid phase transition. Steel decks and structures must be protected against fractures that can follow accidental cryogenic spillages and lead to structural failures which put at risk lives and assets. Specific coating materials have been developed for the protection of decks, piping and equipment to avoid the escalation of any incident. These coatings provide combined protection against embrittlement and fire. Application of coating is done used RBA approach. Design of drainage system and coatings have been identified as technical novelties. A technology validation program has been put in place for Coral Project in order to assess the maturity of the new technologies.
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