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Decomposition of Potent Greenhouse Gases SF_6,CF_4 and SF_5CF_3 by Dielectric Barrier Discharge 被引量:2

Decomposition of Potent Greenhouse Gases SF_6,CF_4 and SF_5CF_3 by Dielectric Barrier Discharge
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摘要 For their distinguished global warming potential(GWP100)and long atmosphere lifespan,CF_4,SF_6 and SF_5CF_3were significant in the field of greenhouse gas research.The details of discharging character and the optimal parameter were discussed by using a Dielectric Barrier Discharge(DBD)reactor to decompose these potent greenhouse gases in this work.The results showed that SF_6 could be decomposed by 92% under the conditions of 5 min resident time and3000 V applied voltage with the partial pressure of 2.0 k Pa,28.2 k Pa,and 1.8 k Pa for SF_6,air and water vapor,respectively.0.4 k Pa CF_4 could be decomposed by 98.2% for 4 min resident time with 30 k Pa Ar added.The decomposition of SF_5CF_3 was much more effective than that of SF_6 and CF_4and moreover,1.3 k Pa SF_5CF_3,discharged with 30 k PaO_2,Ar and air,could not be detected when the resident time was 80 s,40 s,and 120 s,respectively.All the results indicated that DBD was a feasible technique for the abatement of potent greenhouse gases. For their distinguished global warming potential(GWP100)and long atmosphere lifespan,CF_4,SF_6 and SF_5CF_3were significant in the field of greenhouse gas research.The details of discharging character and the optimal parameter were discussed by using a Dielectric Barrier Discharge(DBD)reactor to decompose these potent greenhouse gases in this work.The results showed that SF_6 could be decomposed by 92% under the conditions of 5 min resident time and3000 V applied voltage with the partial pressure of 2.0 k Pa,28.2 k Pa,and 1.8 k Pa for SF_6,air and water vapor,respectively.0.4 k Pa CF_4 could be decomposed by 98.2% for 4 min resident time with 30 k Pa Ar added.The decomposition of SF_5CF_3 was much more effective than that of SF_6 and CF_4and moreover,1.3 k Pa SF_5CF_3,discharged with 30 k PaO_2,Ar and air,could not be detected when the resident time was 80 s,40 s,and 120 s,respectively.All the results indicated that DBD was a feasible technique for the abatement of potent greenhouse gases.
作者 张仁熙 王婧婷 曹栩 侯惠奇
机构地区 Shanghai Key Laboratory of Atmospheric Particle Pollution and Prevention(LAP
出处 《Plasma Science and Technology》 SCIE EI CAS CSCD 2016年第4期388-393,共6页 等离子体科学和技术(英文版)
基金 supported by National Natural Science Foundation of China(Nos.20507004,21577023)
关键词 dielectric barrier discharge SF_5CF_3 CF_4 SF_6 dielectric barrier discharge SF_5CF_3 CF_4 SF_6
分类号 X16 [环境科学与工程—环境科学] O151.21 [理学—数学]
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Plasma Science and Technology
2016年 第4期

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