通过热力学多因素耦合控制氧化铁碳热还原顺序

金属矿山 ›› 2013, Vol. 42 ›› Issue (04): 82-85.

通过热力学多因素耦合控制氧化铁碳热还原顺序

布林朝克，张邦文，赵瑞超，邢瑞光，张奇伟，张胤

内蒙古科技大学稀土学院

出版日期:2013-04-15 发布日期:2013-05-13
基金资助:
* 国家自然科学基金项目（编号：51164026），内蒙古自然科学基金项目（编号2012MS0710）。

Controlling the Carbothermic Reduction Sequence of Ferric Oxide through Thermodynamic Multifactor Coupling

Bulin Chaoke，Zhang Bangwen，Zhao Ruichao，Xing Ruiguang，Zhang Qiwei，Zhang Yin

College of Rare Earth，Inner Mongolia University of Science and Technology

Online:2013-04-15 Published:2013-05-13

摘要/Abstract

摘要： 鉴于实现氧化铁按Fe₂O₃→Fe₃O₄→Fe顺序碳热还原的重要实际意义，提出了将碳储能、总压和惰气分压这几个热力学因素进行耦合的新思想，并导出了使这些热力学因素得以耦合的定量关系式。此外，从节能的角度出发，还研究了如何在使上述热力学因素满足耦合定量关系式的同时尽量降低碳储能。结果表明，在惰气分压（或总压）一定的前提下，通过在一定范围内调节总压（或惰气分压），可使所需碳储能得以降低，甚至可降至零。

关键词: 氧化铁碳热还原顺序, 碳气化, 热力学多因素耦合, 储能, 总压, 惰气分压

Abstract: In view of the significance of realizing the carbothermic reduction sequence of Fe₂O₃→Fe₃O₄→Fe for ferric oxide, the thermodynamic multifactor coupling including stored energy，total pressure，partial pressure of inert gas as a new thought were put forward, and the quantitative relation satisfied by the thermodynamic parameters as an indication of multifactor coupling was deduced. Furthermore, how to decrease the stored energy for carbon on the basis of the quantitative relation for energy conservation was discussed from the view of energy saving. The results show that on the premise that the partial pressure of inert gas(or total pressure) is fixed, stored energy for carbon required for realizing the above sequence can be decreased even to zero by regulating the value of total pressure(or partial pressure of inert gas) within certain range.

Key words: Carbothermic reduction sequence for ferric oxide, Carbon gasification, Thermodynamic Multifactor coupling, Stored energy, Total pressure, Partial pressure of inert gas

布林朝克, 张邦文, 赵瑞超, 邢瑞光, 张奇伟, 张胤. 通过热力学多因素耦合控制氧化铁碳热还原顺序[J]. 金属矿山, 2013, 42(04): 82-85.

BU Lin-Chao-Ke, ZHANG Bang-Wen, ZHAO Rui-Chao, XING Rui-Guang, ZHANG Qi-Wei, ZHANG Yin. Controlling the Carbothermic Reduction Sequence of Ferric Oxide through Thermodynamic Multifactor Coupling[J]. Metal Mine, 2013, 42(04): 82-85.

[1]	布林朝克, 张邦文, 邢瑞光, 张奇伟, 张胤. 机械化学法获得单相Fe₃O₄颗粒的热力学条件[J]. 金属矿山, 2013, 42(10): 54-57.
[2]	布林朝克, 张邦文, 赵瑞超, 张胤, 许嘉. 机械活化铁氧化物气基还原热力学再探[J]. 金属矿山, 2013, 42(08): 42-46+60.
[3]	布林朝克, 张邦文, 赵瑞超, 张胤. 机械活化铁氧化物的气基还原热力学[J]. 金属矿山, 2013, 42(02): 63-67+76.
[4]	布林朝克, 郭婷, 赵瑞超, 张邦文, 张胤. 机械活化铁氧化物的碳热还原热力学[J]. 金属矿山, 2012, 41(12): 41-45.

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