HYDROGEN PRODUCTION AT < 550℃ USING A LOW TEMPERATURE THERMOCHEMICAL CYCLE

机译：使用低温热化学循环在<550℃下制氢

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A Department of Energy goal is to identify new technologies for producing hydrogen cost effectively without greenhouse gas emissions. Thermochemical cycles are one of the potential options under investigation. Thermochemical cycles consist of a series of reactions in which water is thermally decomposed and all other chemicals are recycled. Only heat and water are consumed. However, most thermochemical cycles require process heat at temperatures of 850-900℃. Argonne National Laboratory is developing low temperature cycles designed for lower temperature heat, 500-550℃, which is more readily available. For this temperature region, copper-chlorine (Cu-Cl) cycles are the most promising cycle. Several Cu-Cl cycles have been examined in the laboratory and the most promising cycle has been identified. Proof-of-principle experiments are nearly complete. A preliminary assessment of cycle efficiency is promising. Details of the experiments and efficiency calculations are discussed.

机译：能源部的目标是确定新技术，以有效地产生氢气成本而不会产生温室气体。热化学循环是正在研究的潜在选择之一。热化学循环包括一系列反应，其中水被热分解，所有其他化学物质被循环利用。仅消耗热量和水。但是，大多数热化学循环需要在850-900℃的温度下加热。 Argonne国家实验室正在开发针对500-550℃的低温热量设计的低温循环，这种循环更容易获得。对于这个温度区域，铜-氯（Cu-Cl）循环是最有前途的循环。在实验室中已经检查了几个Cu-Cl循环，并且确定了最有希望的循环。原理验证实验已接近完成。对循环效率的初步评估是有希望的。讨论了实验细节和效率计算。

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来源
《NEA No.5308; Information Exchange Meeting; 20031002-03; Argonne,IL(US)》|2003年|P.145-156|共12页
会议地点 ArgonneIL(US)
作者
Michele A. Lewis; Manuela Serban; John K. Basco;
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Argonne National Laboratory 9700 S. Cass Avenue, Argonne, IL 60439, USA;

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原文格式 PDF
正文语种 eng
中图分类核能工业;
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1. US work on technical and economic aspects of electrolytic, thermochemical, and hybrid processes for hydrogen production at temperatures below 550℃ [J] . Mark C. Petri, Bilge Yildiz, Alton E. Klickman International journal of nuclear hydrogen production and applications . 2006,第1期

机译：美国致力于在低于550℃的温度下生产氢的电解，热化学和混合工艺的技术和经济方面的工作
2. Thermal characterization of a cavity receiver for hydrogen production by thermochemical cycles operating at moderate temperatures [J] . Michela Lanchi, Francesca Varsano, Bruno Brunetti, Solar Energy . 2013,第juna期

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3. A low-temperature electro-thermochemical water-splitting cycle for hydrogen production based on LiFeO_2/Fe redox pair [J] . Cui Baochen, Zhang Jianing, Liu Shuzhi, International journal of hydrogen energy . 2020,第41期

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4. HYDROGEN PRODUCTION AT < 550°C USING A LOW TEMPERATURE THERMOCHEMICAL CYCLE [C] . Michele A. Lewis, Manuela Serban, John K. Basco, Information Exchange Meeting . 2004

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5. Solar hydrogen by thermochemical water splitting cycles: design, modeling, and demonstration of a novel receiver/reactor for the high temperature decomposition of zno using concentrated sunlight. [D] . Koepf, Ernest Erik. 2014

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6. Low-temperature manganese oxide-based thermochemical water splitting cycle [O] . Bingjun Xu, Yashodhan Bhawe, Mark E. Davis 2012

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7. Hydrogen Production with High Temperature Solar Heat Thermochemical Cycle using CeO2/ZrO2Foam Device [O] . Jin-Gyu Lee, Tae-Beom Seo 2014

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8. Use of Oxide Decompositions in Advanced Thermochemical Hydrogen Cycles for Solar Heat Sources. Experimental Results on the Low-Temperature Reactions for the Tricobalt Tetraoxide-Cobalt Monoxide Pair [R] . Jones, W. M., Bowman, M. G. 1982

机译：在太阳能热源的先进热化学氢循环中使用氧化物分解。四氧化三钴 - 三氧化钴对的低温反应实验结果

HYDROGEN PRODUCTION AT < 550℃ USING A LOW TEMPERATURE THERMOCHEMICAL CYCLE

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