球团预制-硅热还原炼镁的球团传热性研究

doi:10.12068/j.issn.1005-3026.2017.09.013

东北大学学报:自然科学版 ›› 2017, Vol. 38 ›› Issue (9): 1274-1279.DOI: 10.12068/j.issn.1005-3026.2017.09.013

球团预制-硅热还原炼镁的球团传热性研究

傅大学，关录奎，豆志河，张廷安

(东北大学冶金学院，辽宁沈阳110819)

收稿日期:2016-04-13 修回日期:2016-04-13 出版日期:2017-09-15 发布日期:2017-09-08
通讯作者: 傅大学
作者简介:傅大学(1986-)，男，辽宁沈阳人，东北大学讲师，博士; 张廷安(1960-)，男，河南周口人，东北大学教授，博士生导师.
基金资助:
国家自然科学基金资助项目(51504058， U1508217， 51404054)；中央高校基本科研业务费专项资金资助项目(N162504003)；辽宁省博士启动基金资助项目(201601003).

Study on Heat Transfer of Pre-prepared Pellets for Mg-Extraction by Silicothermic Process

FU Da-xue， GUAN Lu-kui， DOU Zhi-he， ZHANG Ting-an

School of Metallurgy， Northeastern University， Shenyang 110819， China.

Received:2016-04-13 Revised:2016-04-13 Online:2017-09-15 Published:2017-09-08
Contact: ZHANG Ting-an
About author:-
Supported by:
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摘要/Abstract

摘要： 针对皮江法炼镁存在的问题，提出将白云石粉、硅铁、萤石及黏结剂混合造球，然后煅烧，煅烧后的热球团直接用于还原的炼镁新技术.采用稳态平板法测定了预制球团的导热系数，并通过数值方法研究预制球团的传热规律.结果表明:导热系数随着平均温度提高而增加，随着球团密度和硅铁添加量的增加而降低.当密度为1.1g/cm³、硅铁为理论添加量时，预制球团的导热系数与温度的关系:λ=1.04×10^-4T+0.11;球形球团的传热情况优于圆柱形球团，球团具有较小的密度和热容以及较大的导热系数有助于热量由表面向中心传递.预制球团与皮江法球团的传热情况基本相同.

关键词: 导热系数, 平板法, 预制球团, 皮江法, 镁冶金

Abstract: A novel method of feed preparation for silicothermic process was proposed to overcome the shortages in Pidgeon process. In this method， dolomite， ferrosilicon， fluorite and binder are mixed to produce pellets and then calcined. Thereafter， the pre-prepared pellets are charged into the retorts immediately. Heat transfer of the pellets was investigated by the steady-state-flat method and numerical method. The results show that thermal conductivity of the pellets increases with the increasing temperature， conversely with the pellet density and the amount of Si-Fe addition. For the sample pellet with the density of 1.1g/cm³ and the theoretical amount of Si-Fe， the relationship between thermal conductivity and temperature can be expressed as λ=1.04×10^-4T+0.11. Heat transfer of a spherical pellet is better than a cylindrical one. The better heat transfer from pellet surface to pellet center can be obtained for a pellet with less density， less specific heat capacity and larger thermal conductivity. The mode/mechanism/principle of heat transfer of the pre-prepared pellets is similar to the pellets used in Pidgeon process.

Key words: thermal conductivity, steady-state-flat method, pre-prepared pellets, Pidgeon process, magnesium production

中图分类号:

TF822

傅大学，关录奎，豆志河，张廷安. 球团预制-硅热还原炼镁的球团传热性研究[J]. 东北大学学报:自然科学版, 2017, 38(9): 1274-1279.

FU Da-xue， GUAN Lu-kui， DOU Zhi-he， ZHANG Ting-an. Study on Heat Transfer of Pre-prepared Pellets for Mg-Extraction by Silicothermic Process[J]. Journal of Northeastern University Natural Science, 2017, 38(9): 1274-1279.

参考文献

[1]Eliezer D，Aghion E，Froes F H.Magnesium science，technology and applications［J］.Advanced Performance Materials，1998，5(3):201-212.
[2]Hanko G，Antrekowitsch H，Ebner P.Recycling automotive magnesium scrap［J］.JOM，2002，54(2):51-54.
[3]Friedrich H E，Mordike B L.Magnesium technology［M］.Germany:Springer，2006:52.
[4]Gao F，Nie Z R，Wang Z H，et al.Assessing environmental impact of magnesium production using Pidgeon process in China［J］.Transactions of Nonferrous Metals Society of China，2008，18(3):749-754.
[5]张廷安，豆志河，张子木，等.一种预制球团真空热还原炼镁的方法:CN102965524A［P］.2013-03-13.(Zhang Ting-an，Dou Zhi-he，Zhang Zi-mu，et al.Magnesium produced from pre-prepared pellets by silicothermic process in vacuum:CN102965524A［P］.2013-03-13.)
[6]Li R B，Wei J J，Guo L J，et al.Numerical simulation of magnesium production by the Pidgeon process.part I:a new model for magnesium reduction processin a horizontal retort［C］// Seventh International Conference on CFD in the Minerals and Process Industries.Melbourne:CSIRO，2009:1-6.
[7]Wen M，Zhang T A，Dou Z H，et al.Research on new type materials preparation for magnesium production by silicothermic process［C］// Magnesium Technology of TMS 2013.San Antonio :Springer，2013:75-78.
[8]文明，张廷安，豆志河，等.硅热法炼镁用白云石球团制备及煅烧工艺研究［J］.真空科学与技术学报，2014，34(11):1242-1245.(Wen Ming，Zhang Ting-an，Dou Zhi-he，et al.Two-stage calcination of dolomite pellets for Mg-extraction by silicothermic reduction in vacuum［J］.Chinese Journal of Vacuum Science and Technology，2014，34(11):1242-1245.)
[9]张锐.基于新型硅热法炼镁预制球团的制备研究［D］.沈阳:东北大学，2014.(Zhang Rui.Study on pellet preparation of novel silicothermic process［D］.Shenyang:Northeastern University，2014.)
[10]Fu D X，Guan L K，Wen M，et al.Study on compressive strength of pellets for novel silicothermic process［C］// Magnesium Technology of TMS 2015.Orlando:Springer，2015:49-53.
[11]李洪磊，顾强康，岑国平.机场道面材料导热系数的测定［J］.路基工程，2010(5):83-85.(Li Hong-lei，Gu Qiang-kang，Cen Guo-ping.Measurement of heat conductivity coefficient of airport pavement material［J］.Subgrade Engineering，2010 (5):83-85.)
[12]傅大学，张伟，王耀武，等.皮江法物料导热系数测定［J］.材料与冶金学报，2012，11(3):171-174.(Fu Da-xue，Zhang Wei，Wang Yao-wu，et al.Study on thermal conductivity of materials of Pidgeon process［J］.Journal of Materials and Metallurgy，2012，11(3):171-174.)

球团预制-硅热还原炼镁的球团传热性研究

Study on Heat Transfer of Pre-prepared Pellets for Mg-Extraction by Silicothermic Process

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