Low Cost CO2 Capture: Dream or Reality?

A. S. E. Nasr, F. Geuzebroek, Prachi Singh
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Abstract

Carbon capture and Storage is one of the major pathways to reduce carbon dioxide emission. Over the years, the success of this technology has been relatively limited. Reasons for this include lack of acceptance of storage, but also a lack of economic feasibility. In many cases, projects need to be funded through subsidies or are justified on the basis of use for enhanced oil recovery. Meanwhile an enormous effort has been placed into lowering the cost of capture. Many R&D programs have set the target to reduce cost from typically 50 $/ton to 25 $/ton, while even now this kind of reductions have not been realized, to the contrary there has been an increase in reported cost. This paper addresses the background of the situation. It gives a literature overview of different technologies and the associated cost. A cost analysis is made of the different components in a CO2 capture plant. Comparison is made for the different technologies for post, pre- and oxy-combustion. The reasons for the high cost is analyzed and it is shown that no silver bullets exist. Several smart technologies are currently in development and the latest insights are given in how these technologies can reduce cost. A few studies are given that show why these technologies could not fulfill the initial expectations. The results show that there is a tendency that advantages of technology solutions are often off-set by disadvantages that are not foreseen at the early Research stages, often because the new systems are more complicated than the state-of-the-art. This includes engineering cost for mitigate these dis advantages. An example is the use of smart solvents with phase change involved. This process may lead to lower OPEX due to lower energy consumption, but cost is increased by the higher cost for doing the separation or for keeping the solvents from leaving the solvent.
低成本二氧化碳捕获:梦想还是现实?
碳捕获与封存是减少二氧化碳排放的主要途径之一。多年来,这项技术的成功一直相对有限。造成这种情况的原因包括缺乏对储存的接受,但也缺乏经济可行性。在许多情况下,项目需要通过补贴来提供资金,或者根据提高石油采收率的使用来证明其合理性。与此同时,为了降低捕获成本,人们付出了巨大的努力。许多研发项目已经设定了将成本从通常的50美元/吨降低到25美元/吨的目标,而即使是现在,这种降低也没有实现,相反,报告的成本有所增加。本文阐述了这一情况的背景。它给出了不同技术和相关成本的文献综述。对二氧化碳捕集厂的不同组成部分进行了成本分析。对后燃烧、前燃烧和全氧燃烧的不同技术进行了比较。分析了成本高的原因,指出没有解决问题的灵丹妙药。一些智能技术目前正在开发中,并给出了这些技术如何降低成本的最新见解。一些研究表明,为什么这些技术不能满足最初的期望。结果表明,有一种趋势,即技术解决方案的优势往往被早期研究阶段无法预见的劣势所抵消,这通常是因为新系统比最先进的系统更复杂。这包括减轻这些缺点的工程成本。一个例子是使用涉及相变的智能溶剂。由于能耗较低,该工艺可能会降低运营成本,但由于分离或防止溶剂离开溶剂的成本较高,成本也随之增加。
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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