海上油气资产保护中的自修复功能

G. O. Wilson, S. Kasisomayajula, Christopher R Dayton, Aidnel G. Navarro
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引用次数: 0

摘要

在2016年NACE报告中,全球腐蚀成本估计约为2.5万亿美元,约占全球国内生产总值(GDP)的3.4%。石油和天然气等行业在极端腐蚀性环境中维持着不成比例的资产,因此承担了不成比例的成本。再加上这些成本,由于腐蚀造成的材料失效对环境和个人安全造成的后果,投资于旨在改善腐蚀保护的新技术的情况很难被夸大。在本文中,我们报告了一种新型添加剂,它利用将微胶囊化愈合剂结合到涂层系统中,以期延长其使用寿命及其底层基材的使用寿命,同时最大限度地减少与维护相关的停机时间的机会成本。这些自修复添加剂已经在广泛的涂层系统中进行了评估,为资产所有者/运营商提供了一系列选择,旨在提高整个油气价值链的准备程度并节省成本。在这里,我们提供了在一系列涂层化学中进行的评估的概述。对于所有报告的数据,通过纳入涂层系统并与等效的市售涂层进行比较,评估了自修复添加剂的功效。在所有的比较中,对照和自愈版本的涂层都是通过划痕破坏的,然后在室温下平衡至少24小时,然后进行加速腐蚀测试。在将自修复添加剂掺入涂层配方后观察到的性能改进的摘要如图1所示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Self-Healing Functionality in the Protection of Off-Shore Oil and Gas Assets
In a 2016 NACE report, the global cost of corrosion was estimated to be about US$ 2.5 trillion, which amounts to about 3.4% of global Gross Domestic Product (GDP). Industries such as oil and gas that maintain a disproportionate amount of their assets in extremely corrosive environments bear a disproportionate amount of these costs. Add to these costs the environmental and individual safety consequences of material failure due to corrosion and the case for investing in new technologies geared towards improving corrosion protection can hardly be overstated. In this paper, we report on novel additives which leverage the incorporation of microencapsulated healing agents into coating systems with a view towards lengthening their service lives and that of their underlying substrates while minimizing the opportunity cost of downtime associated with maintenance. These self-healing additives have been evaluated in a broad range of coating systems selected to provide the asset owner/operator with a range of options aimed at delivering improved readiness and cost savings across the oil and gas value chain. Here, we provide an overview of evaluations performed in in a range of coating chemistries. For all the data reported, the efficacy of the self-healing additives was evaluated by incorporation into a coating system and comparing relative to the equivalent commercially available coating. For all the comparisons, the control and the self-healing versions of the coating were damaged by scribing followed by equilibration at room temperature for a minimum of 24 h prior to accelerated corrosion testing. A summary of the performance improvements observed upon incorporation of the self-healing additive into coating formulations is provided in Figure 1.
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