粉煤气化系统中Cu、Ni、Zn等重金属元素迁移规律的研究  被引量:2

Study on Migration Rule of Heavy Metal Elements Such as Cu, Ni and Zn in Pulverized Coal Gasification System

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作  者:刘明亮 彭书 姜从斌 朱玉营 丁建平 Liu Mingliang;Peng Shu;Jiang Congbin;Zhu Yuying;Ding Jianping(Changzheng Engineering Co.,Ltd.,Beijing 101111,China)

机构地区:[1]航天长征化学工程股份有限公司

出  处:《煤化工》2020年第1期10-14,共5页Coal Chemical Industry

基  金:国家重点研发计划(2018YFF0213803)

摘  要:研究粉煤气化过程中潜在有毒微量元素的富集机理及其对环境的影响不仅有理论意义,且有很大的实际价值。以航天粉煤加压气化工艺系统为基础,依托某航天炉实际工厂运行数据,设计了痕量元素在线取样系统,采用分析化验的方法,研究了粉煤气化过程中Cu、Ni、Zn等重金属元素的迁移规律。结果表明:在航天粉煤气化过程中,煤中Cu、Ni、Zn迁移到固相中的比例分别为99.76%、96.82%、97.47%;迁移到液相中的比例分别为0.16%、0、0.95%;迁移到气相中的比例分别为0.08%、3.18%、1.58%。It is not only of theoretical significance,but also of great practical value to study the enrichment mechanism of potential toxic trace elements,and its impact on the environment in the process of pulverized coal gasification.In the paper,on-line sampling system was designed,and the migration rules of Cu,Ni and Zn elements in the HT-L gasification process was studied with test analysis method on the basis of a HT-L pulverized coal gasification system and actual operating data in the plant.The results showed that,during the HT-L pulverized coal gasification,the proportion of Cu,Ni and Zn in coal migrating into solid phase was 99.76%,96.82%and 97.47%respectively,that migrating into liquid phase was 0.16%,0 and 0.95%respectively,and that migrating into gas phase was 0.08%,3.18%and 1.58%respectively.

关 键 词:粉煤加压气化 航天炉 在线取样系统 Cu、Ni、Zn 迁移规律 

分 类 号:TQ546[化学工程—煤化学工程]

 

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