高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2009年
11期
2764-2769
,共6页
竹涛%李坚%何绪文%徐东耀%舒新前%梁文俊%金毓崓
竹濤%李堅%何緒文%徐東耀%舒新前%樑文俊%金毓崓
죽도%리견%하서문%서동요%서신전%량문준%금육고
低温等离子体%吸附%催化%能量密度%能量效率%臭氧
低溫等離子體%吸附%催化%能量密度%能量效率%臭氧
저온등리자체%흡부%최화%능량밀도%능량효솔%취양
non-thermal plasma%adsorption%catalysis%energy density%energy efficiency%ozone
为了解决低温等离子技术目前所面临的瓶颈问题--能耗和副产物控制问题,在低温等离子体技术中引入吸附增效/催化技术降解气相流中甲苯废气.实验考察了等离子体反应器内填充不同填料时所对应的电场强度、能量密度、降解率、能量效率、臭氧产率及其他反应副产物等目标参数,结果表明,采用复合型催化剂明显优于单独催化剂作用结果,它极大地提高了甲苯降解率,当复合催化剂存在时,在等离子体反应器中甲苯的最佳降解率达到了98.7%;增加了能量效率,有效地加强了对等离子体反应副产物的控制效果.
為瞭解決低溫等離子技術目前所麵臨的瓶頸問題--能耗和副產物控製問題,在低溫等離子體技術中引入吸附增效/催化技術降解氣相流中甲苯廢氣.實驗攷察瞭等離子體反應器內填充不同填料時所對應的電場彊度、能量密度、降解率、能量效率、臭氧產率及其他反應副產物等目標參數,結果錶明,採用複閤型催化劑明顯優于單獨催化劑作用結果,它極大地提高瞭甲苯降解率,噹複閤催化劑存在時,在等離子體反應器中甲苯的最佳降解率達到瞭98.7%;增加瞭能量效率,有效地加彊瞭對等離子體反應副產物的控製效果.
위료해결저온등리자기술목전소면림적병경문제--능모화부산물공제문제,재저온등리자체기술중인입흡부증효/최화기술강해기상류중갑분폐기.실험고찰료등리자체반응기내전충불동전료시소대응적전장강도、능량밀도、강해솔、능량효솔、취양산솔급기타반응부산물등목표삼수,결과표명,채용복합형최화제명현우우단독최화제작용결과,타겁대지제고료갑분강해솔,당복합최화제존재시,재등리자체반응기중갑분적최가강해솔체도료98.7%;증가료능량효솔,유효지가강료대등리자체반응부산물적공제효과.
Non-thermal plasma technology is currently facing tWO bottleneck problems--energy.consumption and byproducts control.For resolving these two problems,a series of experiments using non-thermal plasma technology coupled with adsorption and catalysis for toluene removal was carried OUt.Our aim is to resolve these two problems.In the experiment,the corresponding electric field strength,energy density,removal efficiency,energy efficiency,ozone production rates and other reaction parameters,such as by-products,were studied with different packed materials in the plasma reactor.The results show the synergistic technology resulted in greater enhancement of toluene removal efficiency(up to 98.7%)and energy efficiency and a better inhibition for O_3 and the other byproducts formation in the gas exhaust.
