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Numerical simulation on temperature rise of manganese carbonate ore fines containing coal by microwave heating
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作者 CHEN Jin ZHAO Jing LI Sheng-chaol ZHANG Meng 《材料科学与工程(中英文版)》 2008年第7期1-6,30,共7页
关键词 数值模拟计算 碳酸锰矿 温度上升 微波加热 煤粉 二维数值模型 加热实验 化学反应热
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Carburization of ferrochromium metals in chromium ore fines containing coal during voluminal reduction by microwave heating 被引量:6
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作者 陈津 赵晶 +2 位作者 张猛 晏泓 周剑雄 《Journal of Central South University》 SCIE EI CAS 2009年第1期43-48,共6页
Chromium ore fines containing coal (COFCC) can be rapidly heated by microwave to conduct the voluminal reduction, which lays a foundation of getting sponge ferrochromium powders with a lower content of C. Under the co... Chromium ore fines containing coal (COFCC) can be rapidly heated by microwave to conduct the voluminal reduction, which lays a foundation of getting sponge ferrochromium powders with a lower content of C. Under the conditions of COFCC with n(O)-n(C) (molar ratio) as 1.00-0.84 and n(SiO2)-n(CaO) as 1.00-0.39, the samples were heated by 10 kW microwave power to reach the given temperatures and held for different times respectively. The results show that the low-C-Cr ferrochromium metal phase in the reduced materials forms before the high-C-Cr ferrochromium metal phase does. With increasing temperature the C content of ferrochromium metals is in a positive correlation with the content of Cr. The C content of ferrochromium metal in reduced materials is 0-10.07% with an average value of 4.68%. With the increase of holding time the Cr content in ferrochromium metals is in a negative correlation with the content of C, while the content of Fe changes in the contrary way. In the microwave field the kinetic conditions of carburization are closely related with the temperature of microwave heating, holding time and carbon fitting ratio. 展开更多
关键词 chromium ore fines containing coal (COFCC) ferrochromium metal microwave heating voluminal reduction CARBURIZATION
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Strengthening pelletization of manganese ore fines containing high combined water by high pressure roll grinding and optimized temperature elevation system 被引量:5
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作者 朱德庆 余为 +1 位作者 周仙霖 潘建 《Journal of Central South University》 SCIE EI CAS 2014年第9期3485-3491,共7页
Pelletization is one of useful processes for the agglomeration of iron ore or concentrates. However, manganese ore fines are mainly agglomerated by sintering due to its high combined water which adversely affects the ... Pelletization is one of useful processes for the agglomeration of iron ore or concentrates. However, manganese ore fines are mainly agglomerated by sintering due to its high combined water which adversely affects the roasting performance of pellets. In this work, high pressure roll grinding(HPRG) process and optimization of temperature elevation system were investigated to improve the strength of fired manganese ore pellets. It is shown that the manganese ore possesses good ballability after being pretreated by HPRG twice, and good green balls were produced under the conditions of blending 2.0% bentonite in the feed, balling for 7 min at 16.00% moisture. High quality roasted pellets with the compressive strength of 2711 N per pellet were manufactured through preheating at 1050 °C for 10 min and firing at 1335 °C for 15 min by controlling the cracks formation. The fired manganese pellets keep the strength by the solid interconnection of recrystallized pyrolusite grains and the binding of manganite liquid phase which filled the pores and clearance among minerals. The product pellets contain high Mn grade and low impurities, and can be used to smelt ferromanganese, which provides a possible way to use imported manganese ore fines containing high combined water to produce high value ferromanganese. 展开更多
关键词 manganese ore fines containing high combined water PELLETIZATION high pressure roll grinding optimized temperatureelevation system consolidation mechanism
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Kinetics Analyzing of Direction Reduction on Manganese Ore Pellets Containing Carbon 被引量:2
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作者 Bo Zhang Zheng-Liang Xue 《International Journal of Nonferrous Metallurgy》 2013年第3期116-120,共5页
Using high temperature carbon tube furnace, reduction of manganese ore pellets containing carbon was investigated. The reaction was divided into two stages at five minutes after reaction, and the kinetics model of red... Using high temperature carbon tube furnace, reduction of manganese ore pellets containing carbon was investigated. The reaction was divided into two stages at five minutes after reaction, and the kinetics model of reduction process was established. The experimental results showed that, the reaction rate in the earlier stage was controlled by the chemical reactions between FeO, MnO and carbon reductant, and the activation energy was 28.85 KJ/mol. In the later stage, as the carbon reductant replaced by CO, the reaction rate was controlled by CO-diffusing in solid products, and the cor- responding activation energy was 86.56 KJ/mol. Reaction rate of the later stage was less than the earlier one. 展开更多
关键词 KINETICS Model manganese ore PELLETS containing CARBON Self-Reduction
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Microstructure of Solid Phase Reduction on Manganese Oxide Ore Fines Containing Coal by Microwave Heating 被引量:4
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作者 CHEN Jin TIAN Peng-fei +2 位作者 SONG Xiu-an LI Ning ZHOU Jian-xiong 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2010年第3期13-20,共8页
Microstructure of solid phase reduction on manganese oxide ore fines containing coal (MOOFCC) is one of important kinetics conditions of influencing microwave heating. On condition thai an atomic molar ratio of ro ... Microstructure of solid phase reduction on manganese oxide ore fines containing coal (MOOFCC) is one of important kinetics conditions of influencing microwave heating. On condition thai an atomic molar ratio of ro : rc in MOOFCC is 1 : 1.06 as well as a molecular molar ratio of rSiO2: rCaO is 1 : 1.28, 1 kg of MOOFCC is heated by microwave to reach 1 000-1 300℃ and hold different time respectively. Experiments show that the metal phase takes the iron-based metal compounds containing manganese as the main content. The manganese content of metal phase increases with the xise of temperature. The particle size of the metal phase is within the range from 0. 01 to 0.05 mm. MO2 phase in the stuff is entirely changed into MnO phase and the slag phase is mainly composed of wollastonite and manganese olivine. The stuff reduced is loose and massive as a whole and its porosity is from 30% to 45%. The low softening-melting property and the low density of the stuff impact, to some degree, the solid phase reduction of powder by microwave heating. 展开更多
关键词 manganese oxide ore fines containing coal microwave heating solid phase reduction MICROSTRUCTURE
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微波加热含碳碳酸锰矿粉升温机理 被引量:13
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作者 潘小娟 陈津 +2 位作者 张猛 赵晶 林原生 《中南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2008年第6期1233-1238,共6页
利用微波冶金炉对无烟煤和碳酸锰矿粉的混合物料进行加热,研究含碳碳酸锰矿粉在微波场中的升温机理。研究结果表明:含碳碳酸锰矿粉具有优良的微波加热特性和自还原性;在微波加热频率为2.450GHz、碳氧原子摩尔比分别为1.1,1.2和1.3时,微... 利用微波冶金炉对无烟煤和碳酸锰矿粉的混合物料进行加热,研究含碳碳酸锰矿粉在微波场中的升温机理。研究结果表明:含碳碳酸锰矿粉具有优良的微波加热特性和自还原性;在微波加热频率为2.450GHz、碳氧原子摩尔比分别为1.1,1.2和1.3时,微波加热混合物料至1473K的升温速率平均最高达到140.7K/min;不同的加热温度和配碳比下混合物料的介电常数较大,都在5.5左右,而磁导率为1左右,属介电损耗型;微波加热含碳碳酸锰矿粉的升温性能主要取决于含碳碳酸锰矿粉的电磁性能,而电磁性能的改变主要是由物料加热过程中产生的化学反应、晶体结构变化及缺陷状态的改变引起的;配碳比提高,物料吸收微波的能力有所提高;在相同的配碳比下,加热温度升高,吸收微波的能力有所减弱。 展开更多
关键词 微波加热 碳酸锰矿粉 升温特性 电磁性能
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含碳氧化锰矿粉微波加热升温特性研究 被引量:11
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作者 陈津 潘小娟 +2 位作者 张猛 赵晶 林原生 《材料导报》 EI CAS CSCD 北大核心 2007年第S2期81-84,共4页
对含碳氧化锰矿粉微波加热升温特性进行了研究。试验表明,氧化锰矿粉具有优良的微波加热特性,且优于无烟煤粉。在一定的微波加热功率、质量和配碳比条件下,微波加热含碳氧化锰矿粉到1100℃、1200℃、1300℃的升温速率分别为73.83℃/min... 对含碳氧化锰矿粉微波加热升温特性进行了研究。试验表明,氧化锰矿粉具有优良的微波加热特性,且优于无烟煤粉。在一定的微波加热功率、质量和配碳比条件下,微波加热含碳氧化锰矿粉到1100℃、1200℃、1300℃的升温速率分别为73.83℃/min、46.33℃/min、37.46℃/min。随着配煤比的提高,含碳氧化锰矿粉的升温速率有所下降。钙质石灰对微波的吸收能力较差,应尽量减少配加量。 展开更多
关键词 含碳氧化锰矿粉 微波加热 升温特性
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微波加热含碳氧化锰矿粉体还原动力学研究 被引量:6
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作者 陈津 宋平伟 +1 位作者 王社斌 李艳芳 《过程工程学报》 CAS CSCD 北大核心 2009年第S1期1-6,共6页
含碳氧化锰矿粉在微波场中的升温和还原过程均对微波具有较好的吸收性.在C/O原子摩尔比为1.06,CaO/SiO2分子摩尔比为1.27的条件下,微波加热到1000,1100,1200,1300℃时,物料的升温速率分别为52.63,50.00,48.00,37.14℃/min.随着微波加热... 含碳氧化锰矿粉在微波场中的升温和还原过程均对微波具有较好的吸收性.在C/O原子摩尔比为1.06,CaO/SiO2分子摩尔比为1.27的条件下,微波加热到1000,1100,1200,1300℃时,物料的升温速率分别为52.63,50.00,48.00,37.14℃/min.随着微波加热温度的提高和保温时间的延长,还原物料的金属化率随之增加,在1300℃时还原物料的金属化率达到9.08%.微波加热含碳氧化锰矿粉体还原反应的活化能非常低(9.90kJ/mol),表明界面化学反应不是限制性环节,而CO气体向锰矿粉颗粒的内扩散是反应的主要限制环节. 展开更多
关键词 微波加热 含碳氧化锰矿粉 体还原 动力学
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锰矿粉微波加热还原脱磷 被引量:6
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作者 陈津 侯向东 +1 位作者 宋平伟 林原生 《过程工程学报》 CAS CSCD 北大核心 2008年第S1期231-235,共5页
用微波在封闭体系中对含碳锰矿粉进行加热,有利于磷的还原和气化脱除.在含碳锰矿粉C:O摩尔比1.06、碱度1.27的条件下,研究了1000,1100,1200和1300℃原物料的脱磷率.实验表明,固态还原脱磷率可达40%~60%.微波加热温度越高,保温时间越长... 用微波在封闭体系中对含碳锰矿粉进行加热,有利于磷的还原和气化脱除.在含碳锰矿粉C:O摩尔比1.06、碱度1.27的条件下,研究了1000,1100,1200和1300℃原物料的脱磷率.实验表明,固态还原脱磷率可达40%~60%.微波加热温度越高,保温时间越长,物料还原率越高,含碳锰矿粉还原脱磷效果越好. 展开更多
关键词 含碳锰矿粉 微波加热 固态 还原脱磷
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微波加热含碳碳酸锰矿粉升温特性研究 被引量:4
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作者 潘小娟 陈津 +1 位作者 张猛 赵晶 《新技术新工艺》 2008年第1期69-71,共3页
针对我国碳酸锰矿储量大、品位低,且难选难冶的特点,以寻求处理大量贫碳酸锰矿的绿色新工艺为目的,研究了微波加热还原含碳碳酸锰矿粉的升温性能。结果表明,含碳碳酸锰矿粉具有优良的微波加热特性,且优于无烟煤。在一定的微波加热功率... 针对我国碳酸锰矿储量大、品位低,且难选难冶的特点,以寻求处理大量贫碳酸锰矿的绿色新工艺为目的,研究了微波加热还原含碳碳酸锰矿粉的升温性能。结果表明,含碳碳酸锰矿粉具有优良的微波加热特性,且优于无烟煤。在一定的微波加热功率、质量和配碳比的条件下,微波加热含碳碳酸锰矿粉到1000℃、1100℃、1200℃的升温速率分别为71.43℃/min、47.83℃/min、57.14℃/min。物料在微波场中的升温过程可分为3个阶段,其中第2阶段是物料吸热升温的最主要阶段,其升温速率方程可表达为:T=at+b。物料在微波场中的升温速率主要取决于物料自身对微波的吸收性,配碳比对其影响不大。 展开更多
关键词 微波加热 碳酸锰矿粉 升温特性
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微波加热含碳氧化锰矿粉体还原过程中锰铁金属化物的渗碳行为 被引量:1
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作者 宋平伟 陈津 +1 位作者 潘小娟 李明照 《中国锰业》 2009年第2期15-19,共5页
纯净锰铁对纯净钢质量的影响至关重要,尤其是碳含量。微波可以快速加热含碳氧化锰矿粉进行体还原,为获得低碳锰铁奠定了基础。在碳氧原子摩尔比为1.06,rCaO:rSiO2分子摩尔比为1.28的条件下,采用微波加热法,对含碳氧化锰矿粉加... 纯净锰铁对纯净钢质量的影响至关重要,尤其是碳含量。微波可以快速加热含碳氧化锰矿粉进行体还原,为获得低碳锰铁奠定了基础。在碳氧原子摩尔比为1.06,rCaO:rSiO2分子摩尔比为1.28的条件下,采用微波加热法,对含碳氧化锰矿粉加热到一定温度并保温一定时间。结果表明:还原物料中锰铁金属化物的碳含量在0.11%~0.23%之间。随着物料温度的提高和保温时间的增加,锰铁金属化物中的碳含量随铁含量增加而提高,而随锰含量的增加而降低,但锰含量与铁含量呈负相关关系。由于铁比锰易于渗碳,因此物料温度、保温时间和物料的锰铁比是影响锰铁金属化物渗碳的主要因素。 展开更多
关键词 微波加热 含碳氧化锰矿粉 锰铁金属化物 渗碳
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微波加热含碳氧化锰矿粉体还原过程中磷的迁移行为 被引量:2
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作者 侯向东 陈津 +1 位作者 张猛 范晋平 《中国锰业》 2009年第3期24-28,共5页
通过电子探针面扫描成分分析,研究了微波加热含碳锰矿粉体还原过程中磷的迁移行为。在rc:ro原子摩尔比为1.06、rcao:rsio2分子摩尔比为1.27的条件下,将含碳锰矿粉放入微波,冶金炉中进行加热还原并保温一段时间。结果表明:固相... 通过电子探针面扫描成分分析,研究了微波加热含碳锰矿粉体还原过程中磷的迁移行为。在rc:ro原子摩尔比为1.06、rcao:rsio2分子摩尔比为1.27的条件下,将含碳锰矿粉放入微波,冶金炉中进行加热还原并保温一段时间。结果表明:固相还原时,有53%~67%的磷分布于气相中,高于常规冶炼的气化脱磷率。温度高于1000℃后,部分磷以锰、铁磷化物的形式迁移进入金属化物中。随着温度的提高和保温时间的增加,锰铁金属化物中的含磷量随之增加。将微波加热温度控制在1100℃以内,并缩短保温时间,有利于获得低磷海绵锰铁。 展开更多
关键词 微波加热 含碳锰矿粉 体还原 磷迁移
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微波加热含碳氧化锰矿粉固态还原过程中硫的分配
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作者 侯向东 陈津 +1 位作者 宋平伟 史学红 《中国锰业》 2010年第1期25-28,共4页
在rC:rO原子摩尔比为1.06、rCaO:rSiO2分子摩尔比为1.27的条件下,通过电子探针面扫描成分分析,对微波加热含碳氧化锰矿粉固态还原过程中硫的分配进行了研究。结果表明:加热温度为1000~1300℃时,88%-96%的硫分配于气相中,锰... 在rC:rO原子摩尔比为1.06、rCaO:rSiO2分子摩尔比为1.27的条件下,通过电子探针面扫描成分分析,对微波加热含碳氧化锰矿粉固态还原过程中硫的分配进行了研究。结果表明:加热温度为1000~1300℃时,88%-96%的硫分配于气相中,锰铁金属化物中的平均硫含量为0.002%~0.017%;随着微波加热温度的提高和保温时间的延长,锰铁金属化物中的含硫量与含铁量呈负消长的关系,而与含锰量呈正消长的关系;提高微波加热温度和延长保温时间,有利于进一步改善含碳锰矿粉的气化脱硫效果。与传统冶炼方法相比,微波加热含碳锰矿粉以气化脱硫为主,并可以获得良好的脱硫效果。 展开更多
关键词 微波加热 含碳氧化锰矿粉 固态 脱硫
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