Low-temperature manganese oxide-based thermochemical water splitting cycle

机译：低温基于氧化锰的热化学分水循环

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摘要

Thermochemical cycles that split water into stoichiometric amounts of hydrogen and oxygen below 1,000 °C, and do not involve toxic or corrosive intermediates, are highly desirable because they can convert heat into chemical energy in the form of hydrogen. We report a manganese-based thermochemical cycle with a highest operating temperature of 850 °C that is completely recyclable and does not involve toxic or corrosive components. The thermochemical cycle utilizes redox reactions of Mn(II)/Mn(III) oxides. The shuttling of Na⁺ into and out of the manganese oxides in the hydrogen and oxygen evolution steps, respectively, provides the key thermodynamic driving forces and allows for the cycle to be closed at temperatures below 1,000 °C. The production of hydrogen and oxygen is fully reproducible for at least five cycles.

机译：非常理想的热化学循环是将水分解为低于1000 C的化学计量的氢和氧，并且不涉及有毒或腐蚀性的中间体，因为它们可以将热量转化为氢形式的化学能。我们报告了一个基于锰的热化学循环，其最高工作温度为850 C，可以完全回收，并且不涉及有毒或腐蚀性成分。热化学循环利用Mn（II）/ Mn（III）氧化物的氧化还原反应。 Na ^{+ 在氢气和氧气释放步骤中分别穿入和穿出锰氧化物提供了关键的热力学驱动力，并允许在低于1000 C的温度下关闭循环。氢气和氧气的产生至少可以在五个周期内完全重现。}

著录项

期刊名称 Proceedings of the National Academy of Sciences of the United States of America
作者
Bingjun Xu; Yashodhan Bhawe; Mark E. Davis;
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作者单位

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年(卷),期 2012(109),24
年度 2012
页码 9260-9264
总页数 5
原文格式 PDF
正文语种
中图分类
关键词
hydrogen production Nasup+/sup extraction multistep cycle;

机译：制氢;Na sup + / sup萃取;多步循环;

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专利

1. Low-temperature, manganese oxide-based,thermochemical water splitting cycle [J] . Bingjun Xu, Yashodhan Bhawe, Mark E.Davis Proceedings of the National Academy of Sciences of the United States of America . 2012,第24期

机译：低温，氧化锰基热化学分水循环
2. Thermodynamic exergy analysis of dysprosium oxide-based solar thermochemical water-splitting cycle [J] . Bhosale Rahul R., Kumar Anand, Sutar Parag N., International Journal of Exergy . 2017,第3期

机译：基于氧化s的太阳能热化学水分解循环的热力学能值分析
3. Significant reduction in the operating temperature of the Mn(II)/Mn(III) oxide-based thermochemical water splitting cycle brought about by the use of nanoparticles [J] . Dey Sunita, Rajesh S., Rao C. N. R. Journal of Materials Chemistry, A. Materials for energy and sustainability . 2016,第43期

机译：通过使用纳米颗粒显着降低基于Mn（II）/ Mn（III）氧化物的热化学水分解循环的工作温度
4. Manganese Oxide/Manganese Sulfate Based Solar Thermochemical Water Splitting Cycle [C] . Rahul Bhosale Global Congress on Process Safety;American Institute of Chemical Engineers Meeting . 2018

机译：基于氧化锰/锰硫酸盐的太阳能热化学水分裂周期
5. Dissociation of manganese(III) oxide as part of a thermochemical water splitting cycle. [D] . Francis, Todd Michael. 2008

机译：氧化锰（III）的解离是热化学水分解循环的一部分。
6. Review of the Two-Step H2O/CO2-Splitting Solar Thermochemical Cycle Based on Zn/ZnO Redox Reactions [O] . Peter G. Loutzenhiser, Anton Meier, Aldo Steinfeld 2010

机译：基于Zn / ZnO氧化还原反应的两步H2O / CO2分解太阳热化学循环研究进展
7. Low-temperature, manganese oxide-based, thermochemical water splitting cycle [O] . Xu Bingjun, Bhawe Yashodhan, Davis Mark E. 2012

机译：低温，基于氧化锰的热化学分水循环
8. Acid-Base Model for Thy--Mochemical Water Splitting. Results of Experimental Tests on Manganese-Based Thermochemical Cycles [R] . Robinson, P. R., Kilyk, J. 1980

机译：Thy - mochemical水分裂的酸碱模型。锰基热化学循环实验测试结果

Low-temperature manganese oxide-based thermochemical water splitting cycle

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