CO2 Underground Storage and Wellbore Integrity

Transport Logistics Pub Date : 2013-10-21 DOI:10.4018/978-1-4666-4777-0.CH015

Nediljka Gaurina-Međimurec, Borivoje Pašić, K. Simon

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引用次数: 8

Abstract

Capturing and storing carbon dioxide (CO2) underground for thousands of years is one way to reduce atmospheric greenhouse gases, often associated with global warming. CO2 injection candidates may be new wells, or old wells that are active, closed or abandoned. In all cases, it is critical to ensure that the long-term integrity of the storage wells is kept ; in others words wellbore integrity is one of the key performance criteria in the geological storage of CO2. Underground gas storage operations and CO2 sequestration in aquifers relay on both proper wellbore construction and sealing function of the cap rock. The potential leakage paths are the migration CO2 along the wellbore due to poor cementation and flow through the cap rock. The permeability and integrity of the cement will determine how effective it is in preventing leakage. The integrity of the cap rock is assured by an adequate fracture gradient and by sufficient cement around the casing across the cap rock and without a micro-annulus. The paper describes geochemical alteration of hydrated Portland cement due to supercritical CO2 injection and new cement with better CO2 resistance.

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二氧化碳地下储存和井筒完整性

将二氧化碳捕获并储存在地下数千年是减少大气温室气体的一种方法，而温室气体通常与全球变暖有关。二氧化碳注入候选井可能是新井，也可能是活跃的、关闭的或废弃的老井。在所有情况下，确保储存井的长期完整性至关重要;换句话说，井筒完整性是二氧化碳地质封存的关键性能标准之一。地下储气作业和含水层的二氧化碳封存依赖于正确的井筒结构和盖层的密封功能。潜在的泄漏路径是由于胶结性差，沿井筒运移的二氧化碳和流过盖层的二氧化碳。水泥的渗透性和完整性将决定其防止泄漏的效果。盖层的完整性由足够的裂缝梯度和盖层周围的套管周围足够的水泥来保证，并且没有微环空。介绍了超临界CO2注入对水化硅酸盐水泥地球化学的影响，以及抗CO2性能较好的新型水泥。

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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来源期刊

Transport Logistics

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审稿时长

8 weeks