Optimized CO2 Capture Solutions for Carbon Free Hydrogen Production with Development of New Demixing Solvent Technology DMX™

Day 4 Thu, November 18, 2021 Pub Date : 2021-12-09 DOI:10.2118/207875-ms

Clément Salais, L. Normand, C. Streicher

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Abstract

CO2 capture & storage is foreseen as a necessity to limit global warming, as indicated by the recent reports from International Energy Agency. Major initiatives have to be initiated in a near future with concrete actions to get efficient results in limiting global warming. Based on its decades of experience in gas sweetening AXENS has developed an expertise in CO2 removal technologies. While conventional amine based processes can be used for some CO2 capture applications like for instance the treatment of process gas streams under pressure, other applications for low pressure gas streams like flue gases will require innovative advanced solutions. AXENS has studied various options for the removal of CO2 in SMR based hydrogen schemes, including the treatment of the process gas or the treatment of the flue gases from the SMR furnace, evaluating the respective merits of those options. For the treatment of the flue gases a new technology developed by IFPEN and AXENS based on a second generation amine solvent is considered : DMX™ DMX™ process, is foreseen as a key contributor for the removal of CO2 from all kind of low pressure gas streams. This process allows drastic reduction of CO2 capture cost in comparison to more conventional solvent such as MEA and others available solvents. The specific features of this solvent allows significant reduction of the heat requirements for the regeneration of the solvent. It also allows regenerating the solvent directly under pressure up to 6 bara, reducing the costs for downstream CO2 compression Preliminary techno-economic studies show significant advantage of DMX™ technology relatively to MEA : up to 30 % reduction in OPEX can be obtained for lower or similar CAPEX, depending on the condition. This process has been developed at the lab scale and is now going to be demonstrated in an industrial pilot unit installed in ArcelorMittal's steel mill plant in Dunkirk (France). This demonstration benefits from the support of EU's H2020 programme, under 3D project.

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开发新型脱混溶剂技术DMX™，优化无碳制氢的二氧化碳捕集解决方案

正如国际能源机构最近的报告所指出的那样，二氧化碳的捕获和储存被认为是限制全球变暖的必要手段。必须在不久的将来发起重大倡议，采取具体行动，在限制全球变暖方面取得有效成果。基于其在气体脱硫方面数十年的经验，AXENS已经开发出二氧化碳去除技术的专业知识。虽然传统的胺基工艺可用于某些二氧化碳捕获应用，例如在压力下处理工艺气流，但其他低压气流(如烟道气体)的应用将需要创新的先进解决方案。AXENS研究了在SMR制氢方案中去除二氧化碳的各种选择，包括处理工艺气体或处理SMR炉的烟气，并评估了这些选择的各自优点。对于烟气的处理，考虑了IFPEN和AXENS基于第二代胺溶剂开发的新技术:DMX™DMX™工艺，预计将成为从各种低压气流中去除二氧化碳的关键因素。与更传统的溶剂(如MEA和其他可用溶剂)相比，该过程可以大幅降低二氧化碳捕获成本。这种溶剂的特殊特性可以显著降低溶剂再生的热要求。它还允许在高达6 bara的压力下直接再生溶剂，降低下游二氧化碳压缩的成本。初步的技术经济研究表明，DMX™技术相对于MEA具有显著的优势:根据条件的不同，在较低或相似的资本支出下，可以获得高达30%的运营成本降低。这一过程已经在实验室规模上进行了开发，现在将在安装在敦刻尔克(法国)的安赛乐米塔尔钢铁厂的工业试验装置上进行演示。该演示得益于欧盟H2020计划的支持，该计划属于3D项目。

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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Day 4 Thu, November 18, 2021

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