|本期目录/Table of Contents|

[1]何艾华,吴利峰,汪建华,等.常压微波等离子射流脱碳处理有机工业废气[J].武汉工程大学学报,2008,(01):51-54.
 HE Ai hua,WU Li feng,WANG Jian hua,et al.Decarbonization disposal of organic industrial exhaustgas by atmospheric pressure microwave plasma jet[J].Journal of Wuhan Institute of Technology,2008,(01):51-54.
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《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
期数:
2008年01期
页码:
51-54
栏目:
材料科学与工程
出版日期:
2008-01-30

文章信息/Info

Title:
Decarbonization disposal of organic industrial exhaust
gas by atmospheric pressure microwave plasma jet
文章编号:
10044736(2008)01005104
作者:
何艾华吴利峰汪建华马志斌*
武汉工程大学材料科学与工程学院,湖北省等离子体化学与新材料重点实验室, 湖北 武汉 430074
Author(s):
HE Aihua WU Lifeng WANG Jianhua MA Zhibin
School of Material Science and Technology, Wuhan Institute of Technology,
Key Laboratory of Plasma Chemical and Advanced Materials of Hubei Province, Wuhan 430074, China
关键词:
有机废气等离子体射流常压纳米碳粉
Keywords:
organic exhaust gasplasma jetatmospheric pressurenanometer carbon powder
分类号:
TQ 127.1+1;X783
DOI:
-
文献标志码:
A
摘要:
在自行设计的常压微波等离子体射流装置上进行了丙酮模拟有机工业废气的脱碳实验,得到了纳米碳粉.利用Raman光谱、XRD、SEM、TEM和EDAX对制得的碳粉的结构和形貌进行了分析.体积分数62.5%的有机废气在等离子体射流的作用下得到的固态碳粉以微晶石墨结构为主,含有少量的微晶金刚石结构.TEM分析表明石墨晶体为颗粒状和层状结构.该技术可用于有机废气的脱碳处理和纳米碳粉的回收利用.
Abstract:
Decarbonization of the organic industrial exhaust gas simulated by acetone had been accomplished on a selfdesigned atmospheric pressure plasma jet apparatus and a nanometer carbon powder had been obtained. The structure of the carbon powder had been analysized using laser Raman spectroscopy, XRD, SEM,TEM and EDAX. The products obtained from the concentration 62.5% organic exhaust gas by plasma jet mainly contain minuteness graphite and little microcrystalline diamond. TEM analysis shows that the graphites are particle or layer structure. This technology has potential application in the decarbonization treatment of organic exhaust gas and the reclaiming utilization of the nanometer carbon powder.

参考文献/References:

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备注/Memo

备注/Memo:
收稿日期:20070719
基金项目:湖北省自然科学基金(2005ABA023)
作者简介:何艾华(1978),男,湖北京山人,硕士研究生.
研究方向:常压等离子体技术. *通讯联系人.
马志斌,男,博士,教授,硕士生导师.
研究方向:低温等离子体技术及应用.
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