利用恒温氧化还原循环分解水来高效生成氢气。

Efficient generation of H2 by splitting water with an isothermal redox cycle.

机构信息

Department of Chemical and Biological Engineering, University of Colorado, Boulder, CO 80303, USA.

出版信息

Science. 2013 Aug 2;341(6145):540-2. doi: 10.1126/science.1239454.

Abstract

Solar thermal water-splitting (STWS) cycles have long been recognized as a desirable means of generating hydrogen gas (H2) from water and sunlight. Two-step, metal oxide-based STWS cycles generate H2 by sequential high-temperature reduction and water reoxidation of a metal oxide. The temperature swings between reduction and oxidation steps long thought necessary for STWS have stifled STWS's overall efficiency because of thermal and time losses that occur during the frequent heating and cooling of the metal oxide. We show that these temperature swings are unnecessary and that isothermal water splitting (ITWS) at 1350°C using the "hercynite cycle" exhibits H2 production capacity >3 and >12 times that of hercynite and ceria, respectively, per mass of active material when reduced at 1350°C and reoxidized at 1000°C.

摘要

太阳能热分解水（STWS）循环长期以来一直被认为是一种从水和阳光中产生氢气（H2）的理想方法。两步法、基于金属氧化物的 STWS 循环通过金属氧化物的高温还原和水再氧化来产生 H2。长期以来，人们认为 STWS 所需的还原和氧化步骤之间的温度波动对于提高 STWS 的整体效率是必要的，因为在金属氧化物的频繁加热和冷却过程中会发生热损失和时间损失。我们表明，这些温度波动是不必要的，并且在 1350°C 下使用“铁铝尖晶石循环”进行等温水分解（ITWS）时，当在 1350°C 下还原并在 1000°C 下再氧化时，每质量活性材料的 H2 生产能力分别超过铁铝尖晶石和氧化铈的 3 倍和 12 倍。

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利用恒温氧化还原循环分解水来高效生成氢气。

Efficient generation of H2 by splitting water with an isothermal redox cycle.

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