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化学链燃烧过程中铁基烧结返矿载氧体反应活性及结构研究  ( EI收录)   被引量:3

Reaction activity and structural characterizations of sintered return fine oxyen carriers in chemical-looping combustion

文献类型:期刊文献

中文题名:化学链燃烧过程中铁基烧结返矿载氧体反应活性及结构研究

英文题名:Reaction activity and structural characterizations of sintered return fine oxyen carriers in chemical-looping combustion

作者:刘浪 刘清才 孟飞 杨剑 孔明 赵冬 朱博洪 任山

第一作者:刘浪

通信作者:Liu, Qing-Cai

机构:[1]贵州理工学院化学工程学院;[2]重庆大学材料科学与工程学院

第一机构:贵州理工学院化学工程学院

年份:2016

卷号:44

期号:10

起止页码:1177-1184

中文期刊名:燃料化学学报

外文期刊名:Journal of Fuel Chemistry and Technology

收录:CSTPCD;;EI(收录号:20164202924778);Scopus(收录号:2-s2.0-84991372830);北大核心:【北大核心2014】;CSCD:【CSCD2015_2016】;

基金:重庆市应用开发计划项目(cstc2014yykf B100007)资助~~

语种:中文

中文关键词:烧结返矿;化学链燃烧;结构特性;反应活性

外文关键词:sintered return fines; chemical-looping combustion; structural characterizations; reaction activity

摘要:使用流化床,以95%的甲烷作为还原性气氛,以烧结过程中烧结返矿作为载氧体,研究其在化学链燃烧过程中的反应活性以及烧结返矿在氧化还原循环中的结构特征。对烧结矿原料、还原后以及氧化再生的烧结矿进行形貌结构及物性表征。结果表明,在初始氧化循环过程中,烧结返矿的载氧能力和反应活性有显著的提高;前25个循环过程中,烧结返矿的比表面积显著增大,比表面积的增大是提高烧结返矿反应活性的主要原因之一。随着循环的进行,烧结返矿表面出现裂纹并逐渐加大。Raman检测结果显示,在还原过程中有新的铁晶型,纤铁矿(γ-Fe OOH)生成,而纤铁矿(γ-Fe OOH)的生成将降低烧结返矿的载氧能力。氧化循环过程中,采用甲烷作为还原性气体,并未发现有碳沉积现象的产生。
The reactivity and structural characterizations of the sintered iron ore in redox cycles were investigated. The sintered return fines were selected as oxygen carriers and the chemical looping combustion was tested in a fluidized bed with a reducing atmosphere of 95% methane. The characterizations of structural and physical properties of the sintered raw materials and the reduced and oxidative regenerated samples were conducted. The results reveal that during the initial oxidation cycle, the oxygen carrying capacity and reaction activity of the sinter are improved remarkably. The specific surface area of the sinter increases significantly in the first 25 cycles, which may be one of the main reasons for the reactivity increase of the sinter. During the recycling process, some cracks are formed on the surface of sintered return fines and gradually get development. The Raman results indicate that the new crystalline phase, lepidocrocite (γ-FeOOH), is formed, which will decrease the oxygen carrying capacity of the oxygen carrier. When the methane is used as the reducing gas, there is no carbon deposition on the surface.

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