海上CO2注入与封存的浮式轮毂解决方案

A. Lopez, Cyrille Dechiron, Morvan Favennec
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摘要

本文描述了一种新的海上二氧化碳封存概念:用于海上二氧化碳注入和封存的浮式枢纽解决方案,文中称为offshore C-Hub,为捕获和液化二氧化碳提供了一种灵活的运输和储存解决方案。海上C-Hub可以通过海上浮动储存和注入设施将多个二氧化碳排放者的二氧化碳永久封存在海上地质储层中。该文件详细介绍了这一概念的关键要素,并在不同的案例研究中进行了测试,并分享了技术、经济和碳足迹评估方面的结果。碳捕集与封存(CCS)约占未来30年全球温室气体(GHG)排放预期减少总量的10% (IEA, 2018)。因此,该装置将具有显著的二氧化碳注入能力(每年数百万吨),从而提供工业规模的解决方案。海上C-Hub概念是一种新型的浮动设施,可以在将二氧化碳连续注入地质储层之前临时储存和处理二氧化碳。它是全球二氧化碳管理链的一部分,包括以下步骤:陆上CO2捕集、液化和临时储存(或从海上油气生产设施)船舶运输液态CO2海上CO2卸载到海上C-Hub海上C-Hub注入过程和储存海底系统将CO2注入地质储层综合研究表明,考虑到物流方法和一些关键部件的主要技术选择,海上C-Hub在技术和经济上是可行的。本文还对系统的技术成熟度进行了评估。碳足迹评估最终允许确定替代方法,以确保低碳解决方案,并加强解决方案的性能。直到今天,涉及地质储层二氧化碳注入的项目都是基于陆上或海上管道。这项工作描述了一种用于海上CO2连续注入和封存的新型浮式解决方案。本文解释了该解决方案的主要优点,例如对项目具体情况(容量、距离等)的适应性,以及从不同地点的多个排放者接收二氧化碳的能力。浮动概念也提供了战略优势,允许快速部署和潜在的未来搬迁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Floating Hub Solution for Offshore CO2 Injection and Sequestration
This paper describes a new offshore CO2 sequestration concept: The Floating Hub Solution for Offshore CO2 Injection and Sequestration called in this paper Offshore C-Hub, proposes a flexible transport and storage solution for captured and liquefied carbon dioxide. The Offshore C-Hub allows permanent CO2 sequestration in an offshore geological reservoir from multiple CO2 emitters via an offshore floating storage and injection facility. The paper details key elements of the concept, tested in different case studies, and shares results on technical, economic and carbon footprint assessments. Carbon Capture and Storage (CCS) is circa 10% of the total expected reduction for global Green House Gas (GHG) emissions in the next 30 years (IEA, 2018). Therefore, the contemplated unit will enable a significant CO2 injection capacity (several Million tons per annum) to provide an industrial scale solution. The Offshore C-Hub concept is a novel floating facility allowing temporary storage and processing of CO2 prior to its continuous injection into a geological reservoir. It is part of a global CO2 management chain comprising the following steps: Onshore CO2 capture, liquefaction, and temporary storage (or from offshore oil and gas production facilities) Liquid CO2 transportation by ships Offshore CO2 offloading to the Offshore C-Hub Offshore C-Hub injection process and storage Subsea systems to inject the CO2 in the geological reservoir The generic studies demonstrate the Offshore C-Hub technical and economic feasibility considering a logistical approach and based on the main technological choices for some of the key components. The paper also assesses the technology maturity of the proposed system. The carbon footprint assessment finally allows identification of alternate means to ensure a low carbon solution and reinforces the performance of the solution. Until today, projects involving CO2 injection in geological reservoirs have been based on onshore or offshore pipelines. This work describes a new floating solution for offshore CO2 continuous injection and sequestration. The paper explains the key benefits of this solution, such as adaptability to project specifics (capacity, distances, etc.) and the ability to receive CO2 from multiple emitters in various locations. The floating concept also provides strategic advantage by allowing rapid deployment and potential future relocation.
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