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Recent Developments in Ceria-Driven Solar Thermochemical Water and Carbon Dioxide Splitting Redox Cycle

机译:Ceria驱动太阳能热化学水和二氧化碳分解氧化还原循环的最新进展

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Metal oxide (MO) based solar thermochemical H2O (WS) and CO2 splitting (CDS) is one of the most promising and potential-containing processes that can be used to produce H-2 and syngas (liquid fuel precursor). Several non-volatile and volatile MOs were considered redox materials for the solar-driven WS and CDS operation. Among all the examined redox materials, based on their high O(2 )storage capacity, faster oxidation kinetics, and good stability, ceria and doped ceria materials are deemed to be one of the best alternatives for the operation of the thermochemical redox reactions associated with the WS and CDS. Pure ceria was used for solar fuel production for the first time in 2006. A review paper highlighting the work done on the ceria-based solar thermochemical redox WS and CDS cycle from 2006 until 2016 is already published elsewhere by the author. This review paper presents all the significant findings reported in applying pure ceria and doped ceria materials for the WS and CDS by research teams worldwide.
机译:基于金属氧化物 (MO) 的太阳能热化学 H2O (WS) 和 CO2 分解 (CDS) 是最有前途和最有潜力的工艺之一,可用于生产 H-2 和合成气(液体燃料前体)。几种非易失性和易挥发性MO被认为是太阳能驱动的WS和CDS操作的氧化还原材料。在所有研究的氧化还原材料中,基于其高O(2)存储容量、更快的氧化动力学和良好的稳定性,铈和掺杂的铈材料被认为是与WS和CDS相关的热化学氧化还原反应的最佳替代品之一。2006年,纯铈首次用于太阳能燃料生产。作者已经在其他地方发表了一篇综述论文,重点介绍了2006年至2016年在基于铈的太阳能热化学氧化还原WS和CDS循环方面所做的工作。这篇综述介绍了全球研究团队在WS和CDS中应用纯铈和掺杂铈材料的所有重要发现。

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