含氧载体CaSnO3及部分取代Co、Ce材料的化学环燃烧氧化还原特性研究

IF 2.9 4区工程技术 Q2 CHEMISTRY, MULTIDISCIPLINARY

Korean Journal of Chemical Engineering Pub Date : 2024-11-26 DOI:10.1007/s11814-024-00337-5

Seung Hun Baek, Sang Jun Park, Hyang-Dong Kim, Jung Min Sohn

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引用次数: 0

摘要

作为一种用作氧载体的过渡金属，锡基氧化物被认为具有较高的理论氧传递能力和潜力，尽管熔点低，但通过形成Ca-Sn钙钛矿结构确保了循环稳定性。然而，也证实了高的结构稳定性导致氧传递速率相对于其他氧载体较低，即还原反应完成时间相对较晚。在本研究中，为了提高Ca - sn氧载体还原反应中的氧传递速率，通过在Ca位点部分取代Co和Ce来确定是否真的提高了氧载体的传递速率，是否适用于氧载体。证实部分取代Ce的物质并没有提高氧传递速率，同时与CaSnO3相比，氧传递能力部分降低。而Ca0.9Co0.1SnO3与CaSnO3相比，还原反应时间缩短了20%。这些发现表明，在CLC过程中，Co是提高casno3基氧载体氧传递速率的有希望的候选者。

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A Study on the Redox Characteristics of Oxygen Carriers CaSnO3 and Materials Partially Substituted with Co and Ce for Chemical Looping Combustion

As a transition metal to be used for oxygen carrier, Sn-based oxides were expected to have high theoretical oxygen transfer capacity and have potential, and despite the low melting point, cycle stability was secured by forming a Ca–Sn perovskite structure. Nevertheless, it was also confirmed that high structural stability leads to a lower oxygen transfer rate compared to other oxygen carriers, that is, a relatively late reduction reaction completion time. In this study, in order to improve the oxygen transfer rate in the reduction reaction of Ca–Sn oxygen carriers, it was confirmed whether it was actually improved by partially replacing Co and Ce at the Ca site and whether it was applicable as oxygen carriers. It was confirmed that the substances that partially substituted Ce did not improve the oxygen transfer rate, and at the same time, the oxygen transfer capacity was partially reduced compared to CaSnO₃. However, Ca_0.9Co_0.1SnO₃ reduced the reduction reaction time by 20% compared to CaSnO₃. These findings suggest that Co is a promising candidate for improving the oxygen transfer rate of CaSnO₃-based oxygen carriers in CLC processes.

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来源期刊

Korean Journal of Chemical Engineering 工程技术-工程：化工

CiteScore

4.60

自引率

11.10%

发文量

310

审稿时长

4.7 months

期刊介绍： The Korean Journal of Chemical Engineering provides a global forum for the dissemination of research in chemical engineering. The Journal publishes significant research results obtained in the Asia-Pacific region, and simultaneously introduces recent technical progress made in other areas of the world to this region. Submitted research papers must be of potential industrial significance and specifically concerned with chemical engineering. The editors will give preference to papers having a clearly stated practical scope and applicability in the areas of chemical engineering, and to those where new theoretical concepts are supported by new experimental details. The Journal also regularly publishes featured reviews on emerging and industrially important subjects of chemical engineering as well as selected papers presented at international conferences on the subjects.